Hyponic - Akron Gear

Transcription

Hyponic
®
Hypoid Right Angle
Gearmotor and Reducer
Catalog
12.001.50.002
Hyponic
®
Hypoid Right Angle
Gearmotors and Reducers
Sumitomo’s patented Hyponics
are high-performance reducers
and gearmotors that feature
all-steel hypoid gearing.
Proven Performance in a
Full Range of Ratios
Over one million Hyponic drives in service worldwide.
Ratios from 5:1 to 1440:1 available.
100
Extremely Quiet Operation
Smooth, silent operation is a benefit of hypoid gearing.
Offset design and all-steel gearing transmit more torque than
other designs.
Maintenance Free: Extraordinary Reliability
Trouble-free grease lubrication, no oil level to maintain,
no oil changes.
Efficiency (%)
Patented Compact Design:
More Torque Delivered
90
Hyponic
80
70
60
50
Worm
Gears
5
25
50
75
100
150
200
250
Reduction Ratio
Universal Housing Design Minimizes Spares
Modular housing design accommodates hollow output shaft,
solid output shaft, flange mounted and foot mounted designs.
Adaptable
Integral motorized, C-face adaptor and free input shaft styles
enable users to optimize their selections.
Two-Year Warranty
Outstanding Efficiency Saves Money
Efficiencies far higher than worm gearing. Highly efficient across all ratios. No
cooling fans are required, ever.
Hyponic hypoid gearing demonstrates efficiencies of 85-90% within the range
of 10 to 240:1.
Not limited by operational hours or duty cycle.
We keep things moving.
Hyponic
Table of Contents
Page
Page
Nomenclature.............................................................2
Technical Information ...........................................D-1
Basic Information and
Recommendations ....................................................4
Shaft Dimensions............................................D-2
Hyponic Gearmotors..............................................A-1
Actual Reduction Ratio ...................................D-4
Product Range ................................................A-2
Allowable Overhung Load...............................D-5
Standard Specifications ..................................A-4
Moment of Inertia............................................D-6
Gearmotor Selection Flowchart
and Procedure ............................................A-5
Construction and Nameplate ..........................D-7
AGMA Load Classifications ............................A-7
Motor Thermal Ratings ...................................A-9
Hollow Shaft Type Selection Tables
3-Phase Motor ..........................................A-10
Single-phase Motor ..................................A-17
Inverter Duty .............................................A-19
Hollow Shaft Type Dimensions
3-Phase Motor ..........................................A-22
Single-phase Motor ..................................A-27
Inverter Duty .............................................A-29
Hyponic Speed Reducers......................................B-1
Product Range, Standard Specifications
and Recommended Service Factors ..........B-2
Shaft Rotation .................................................D-3
Output Shaft Safety Cover Dimensions ..........D-8
Torque Arm.....................................................D-8
Mounting .......................................................D-10
Lubrication ....................................................D-12
Paint and Rust Proofing Specifications.........D-12
Motor Information
Conduit Box Mounting Direction ..............D-14
Motor Cover Mounting Specifications.......D-14
Conduit Box Dimensions ..........................D-15
Standard Motor Characteristics................D-16
Assembly Drawings..................................D-18
Motor Thermal Ratings.............................D-19
Brakemotor Characteristics ......................D-20
AGMA Load Classifications ............................B-3
Standard Wiring Connection ....................D-22
Reducer Selection Flowchart
and Procedure ............................................B-4
Assembly of Brakemotors ........................D-23
Reducer Selection Tables
Standards
Motor Protection ...........................................D-26
1450 RPM...................................................B-8
International Standards and Corresponding
Sumitomo Standards................................D-27
1165 RPM.................................................B-10
EC Directives and CE Marking .....................D-29
980 RPM...................................................B-12
Precautions for Inverter Driving ....................D-31
870 RPM...................................................B-14
Constant Torque Operation of General
Purpose Motors ........................................D-32
1750 RPM...................................................B-6
720 RPM...................................................B-16
580 RPM...................................................B-18
50 RPM.....................................................B-20
Reducer Dimensions
Frame Size 1120~1520Y..........................B-22
Frame Size 1230~1531Y..........................B-23
Hyponic Gearmotor and Reducer
Options.............................................................C-1
Plug-in Solid Output Shaft ..............................C-2
Plug-in Solid Output Shaft,
Foot Mounted .............................................C-3
Output Flange .................................................C-4
General Engineering Information
Basic Power Transmission Formulas ...........D-34
Formula Derivations......................................D-36
Common Conversion Factors .......................D-37
Nomenclature & Mounting Positions
The complete Hyponic ® is specified by the use of 14 references.
1
2
3
4
5
R N Y M S
6
7
8
05
1 2 2 0
9
10
11
12
13
14
A
AV
Y1
B
38
Ratio
Frame size
Brake
Gearmotor HP (1750 rpm)
Optional Specification suffix
(as required)
Motor Specification
Special feature
Input connection
Mounting style
Output shaft orientation
Hyponic product code
AGMA class (gearmotor only)
Shaft specification
O/P shaft direction (shafted model only)
TABLE 1 HYPONIC PRODUCT CODE
PREFIX
TYPE
R
Hypoid Gear
TABLE 7 MODEL SIZE
Frame Size
TABLE 2 OUTPUT SHAFT ORIENTATION
PREFIX
TYPE
Universal Direction
(Maintenance Free)
N
361
1120
461
1220
56
1320
60
1420
63
1520
64
1230
1330
1430
TABLE 3 MOUNTING STYLE
1530
PREFIX
TYPE
Y
Shaft Mount (Hollow Shaft)
F
Flange (Solid Shaft)
H
Foot (Solid Shaft)
1531
TABLE 8 OUTPUT SHAFT DIRECTION (Shafted Model Only)
TABLE 4 INPUT CONNECTION
PREFIX
INPUT CONNECTION
REDUCER
W/MOTOR
M
Integral Motor
J
JM
C-Face Adaptor
L
Projects to Left Side
R
Projects to Right Side
T
Projects to Both Left/Right Sides
WHEN VIEWED FROM MOTOR END
TABLE 9 SHAFT SPECIFICATIONS
SUFFIX
TABLE 5 MODIFICATION
OUTPUT SHAFT
SYMBOL
PREFIX
HOLLOW
Y
S
Special
INPUT
SOLID
SHAFT
Key (Inch)
Inch
Inch
Key (Metric)
Metric
Metric
Standard
TABLE 6 GEARMOTOR HP (APPLIES ONLY TO 1750 RPM)
2
CAPACITY
SYMBOL
HP (kW)
CAPACITY
SYMBOL
HP (kW)
01
1/8 (0.1)
1H
02
1/4 (0.2)
03
1/3 (0.25)
05
TABLE 10 AGMA CLASS (Integral Motor Type Only)
SUFFIX
CLASS
A
I
1 1/2 (1.1)
B
II
2
2 (1.5)
C
III
3
3 (2.2)
1/2 (0.4)
5
5 (3.7)
08
3/4 (0.55)
8
7 1/2 (5.5)
1
1 (0.75)
Hyponic
TABLE 14 STANDARD NOMINAL REDUCTION RATIOS
TABLE 11 MOTOR SPECIFICATIONS
STANDARD RATIOS
SUFFIX
SPECIFICATION
AV
AF Motor (ADJ Frequency)
5
20
60
200
SG
Single Phase Motor
7
25
80
240
750
Three Phase Motor
10
30
100
300
900
12
40
120
360
1200
15
50
150
480
1440
TABLE 12 OPTIONAL SPECIFICATIONS SUFFIX
(as required)
SUFFIX
SPECIFICATION
HOLLOW BORE OPTIONS
Extended Flange (for motor clearance)
F1
Left (Viewed from
motor end)
560
NOMENCLATURE EXAMPLES:
RNYJ – 1220Y – 5
R – Hyponic
N – Universal Mount
Y – Shaft Mount (Hollow Shaft)
J – C-Face Input
1220 – Model Size
Y – Inch
5 – Ratio
RNFM05 – 1220L YA – J1 – 20
G1
Right (Viewed from
motor end)
SOLID SHAFT OPTIONS
R – Hyponic
N – Universal Mount
F – Flange Mount (Solid Shaft)
M – Integral Motor
05 – 1/2 HP
1220 – Model Size
L – Left O/P Shaft Direction
YA – Y: Inch, A: AGMA Class I
J1 – Bolt-on Feet, Bottom
20 – Ratio
When ordering, the following information should be included:
X1
Plug-in Shaft
Plug-in Shaft with Bolt-on Feet
– Motor Specification (230/460 VAC 60 Hz is supplied, unless otherwise specified)
– NEMA frame size for C-face adaptor
Optional conduit box positions must be specified, otherwise the standard position is
supplied.
J1
Bottom
S1
Opposite from
Motor
M1
Top
Plug-in Shaft with Extended Flange
(for motor clearance)
P1
Left (Viewed from
motor end)
Q1
Right (Viewed from
motor end)
TABLE 13 BRAKE (Gearmotor Only)
SUFFIX
SPECIFICATION
B
With Brake
No Brake
Hyponic
3
Basic Information & Recommendations
General
Service Factors
Selection of the Hyponic® speed reducer should be based on
actual horsepower and torque requirements at the output shaft.
Contrary to conventional gear reducers, the Hyponic® speed
reducer has very high efficiencies over a wide range of reduction
ratios. Proper selection frequently permits the use of reduced
input power requirements without sacrificing torque at the output
shaft.
In general, gear drives are rated for a specific application by
the use of Service Factors. Each application has its own
conditions and operating requirements. There are three load
classifications: uniform, moderate shock and heavy shock.
These are further classified into duration of service per day and
the prime mover. (See Table 15 below and Load Classification
tables on pages A-7 ~ A-8 for Gearmotors and page B-3 for
Reducers.)
Drive Ratings
Time of operation, frequency, and severity of shock must be
determined in order to select the proper Hyponic® reducer
for a specific application. To assist in the selection process,
AGMA has defined standard Service Factors.
Standard Hyponic® speed reducers are designed and built
for long, maintenance-free, 10-hour daily service under
conditions of uniform loads (equivalent to AGMA service factor
1.0). When your application involves more severe conditions,
catalog ratings must be divided by the proper S.F., or the
actual load must be multiplied by this factor.
The Hyponic® reducer has higher overload capacity than
conventional speed reducers as a result of the tooth shape,
greater number of teeth in contact, and the high material
quality of the components.
Table 15 Recommended Reducer Service Factors
LOAD CLASSIFICATIONS
PRIME MOVER
ELECTRIC
MOTOR
UNIFORM
MODERATE SHOCK
HEAVY SHOCK
AGMA
AGMA
AGMA
Occasional 1/2 hr. per day
*0.50
*0.80
1.25
Intermittent 3 hrs. per day
*0.80
1.00
1.50
Up to 10 hrs. per day
1.00
1.25
1.75
24 hours per day
1.25
1.50
2.00
DURATION OF SERVICE
*Maximum momentary or starting load must not exceed 250% of gear reducer rating (rating meaning service factor of 1.0). Time specified
for occasional and intermittent service refers to total operating time per day.
Excessive Overloads
Hyponic Speed Reducers provide 250% momentary
intermittent shock load capacity and are warranted for
2 years from date of shipment. Refer to our standard terms
and conditions for our complete warranty.
®
Selection for Applications Involving Shock Loading
For applications involving frequent start-stop, braking or
reversing, or quick starting of load having large inertia, consult
factory for model selection or recommended modifications.
Allowable Radial and Thrust Loads
The loads imposed on the slow speed shaft vary with the
method of connecting the shaft to the driven machine.
Frequently, in addition to torsional forces, radial and thrust loads
are applied to the slow speed shaft at the same time. For
4
example, coupling connections normally involve torsional forces
only. However, when power is transmitted through spur gears,
belts, pulleys or chains, both torsional and radial forces may be
applied to the slow speed shaft. When driving through helical or
bevel gears, all three conditions (torsional, radial and thrust load)
may be referred to the reducer shaft.
The slow speed shaft and bearings must have sufficient strength
to withstand these loads, and it is, therefore, necessary to
determine the allowable limits for each condition.
Load Centering
The radial load capacities are calculated with the load
concentrated at the midpoint of the slow speed shaft extension.
Radial load capacities decrease if the center of the load is
moved farther from the reducer and the values obtained from the
charts must be adjusted accordingly.
Hyponic
Shaft Connections
Warranty
Pulley, sprocket or sheave connection – Mount any
of the above as close to the unit housing as possible,
never beyond the midpoint of the shaft projection, to
avoid undue bearing load and shaft deflection. Never
overtighten belts or chains. Careful and accurate
installation is essential for best results and for troublefree operation. Before installing, the shafts should be
checked to make sure that they are parallel and level.
Perfect alignment after mounting can be checked with a
string or straight edge held against the sides of the
sprocket or pulley base.
Sumitomo warrants that its Hyponic ® Speed
Reducers will deliver their continuous catalog ratings
provided they are properly installed, maintained and
operated within the limits of speed, torque or other load
conditions under which they were sold. Sumitomo
further states that Hyponic ® Speed Reducers are
warranted to be free from defects in material or
workmanship for a period of two years from the date of
shipment. Sumitomo assumes no liability beyond
product repair or replacement under this limited
warranty.
Couplings should be properly aligned to the limits
specified by the manufacturer. On coupled speed
reducers coupling alignment should be checked prior to
initial startup.
For construction purposes, be sure to obtain
certified dimension sheets or drawings. Although we
take every precaution to include accurate data in our
catalog, we cannot guarantee such accuracy. If
performance guarantees are required, they should be
obtained in writing from the factory. Full consideration
will be given to such requests when complete details
are given of the proposed installation.
Shaft Rotation
The direction of shaft rotation on Hyponic ®
speed reducers varies according to frame size and ratio.
Please refer to the Technical Information section for
specific data on the shaft rotation for various models.
Input Speeds
In general terms, the standard input speeds of
single reduction units are 1750 and 1165 RPM.
When non-standard input speeds are used, the
horsepower and torque ratings will also vary.
Thermal Capacity
The Hyponic ® speed reducer’s smooth, almost
frictionless operation all but eliminates the conventional
limitations due to heat. In all sizes, Hyponic ® speed
reducers have thermal ratings that exceed their
mechanical capacity.
Installation
Be sure to install and operate Hyponic ® speed
reducers in compliance with applicable local and
national safety codes. Appropriate guards for rotating
shafts should be used and are available from local
stocks.
Dimensions
All dimensions in this catalog are for reference
purposes only. Consult factory for certified dimensions.
Hyponic
5
Notes
6
Hyponic
Gearmotors
A
Gearmotors
Hollow Shaft Type
Hyponic
A-1
Gearmotors
Product Range
Table A-1 Hollow Shaft Type
Nominal Ratio (:1)
Output RPM (1750 RPM Input)
1/8 HP [1]
1/4 HP [1]
1/3 HP
7
250
10
175
12
146
15
117
20
87.5
25
70
30
58.3
40
43.8
50
35
60
29.2
Frame Size: 1120, Bore: Ø0.75˝
Frame Size: 1120, Bore Ø0.75˝
1-1/2 HP
2 HP [1]
1/2 HP [1]
3/4 HP
3-Phase
5
350
1 HP [1]
Product
Range
Gearmotors
3 HP
5 HP
7-1/2 HP
1/8 HP
Single-Phase
Inverter Duty
Frame Size 63, Bore: Ø2.00˝
Frame Size 63, Bore: Ø2.00˝
1/4 HP
1/2 HP
1/8 HP
1/4 HP
1/2 HP
1 HP
Frame Size: 1520, Bore; Ø1.50˝
2 HP
Frame Size: 1520, Bore; Ø1.50˝
3 HP
5 HP
Notes: [1] Those selections shaded in blue offer an increased service factor. Please refer to the gearmotor selection tables for specific unit service
factor details.
[2] These reduction ratios are not available from stock. They must be ordered from Japan.
[3] This frame size is torque limited. Overload may occur if the motor is loaded to its full capacity. Sumitomo recommends the use of a
torque limiting device to protect the unit and/or the driven machine.
A-2
Hyponic
Gearmotors
80
21.9
100
17.5
120
14.6
150
11.7
200
8.75
240
7.29
300[2]
5.83
360[2]
4.86
Frame Size: 1230, Bore: Ø1.00˝ [3]
480[2]
3.65
560[2]
3.13
750[2]
2.33
900[2]
1.94
1200[2]
1.46
1440[2]
1.222
Frame Size: 56,
Bore: Ø1.50˝ [3]
Frame Size: 1531,
Bore: Ø1.50˝
Frame Size: 60,
Bore: Ø2.00˝
Frame Size: 60,
Bore: Ø2.00˝
Gearmotors
Frame Size: 60,
Bore: Ø2.00˝
Product
Range
Frame Size: 1531,
Bore: Ø1.50˝
Frame Size:
1531, Bore:
Ø1.50˝
Frame Size:
1531, Bore:
Ø1.50˝
Frame Size: 60,
Bore: Ø2.00˝
Hyponic
A-3
Gearmotors
Standard Specifications
Table A-2
Item
3-Phase
Motor
Single-Phase
Standard
Specifications
Gearmotors
Invertor Duty
Reducer
Standard Specification
Capacity
Range
1/8 HP - 7.5 HP, 4-pole
1/8 HP - 7.5 HP, 4-pole
FB Brake
Enclosure
Totally Enclosed Fan Cooled
(1/8 HP Totally Enclosed Non Ventilated)
(1/8 HP Totally Enclosed Non Ventilated)
Power
Supply
230/460V, 60 Hz
575V, 60 Hz
230/460V, 60 Hz
575V, 60 Hz
Insulation
1/8 HP - 1/2 HP: Class E
3/4 HP - 7.5 HP: Class B
1/8 HP - 1/2 HP: Class E, Brake: Class B
3/4 HP - 7.5 HP: Class B, Brake: Class B
Time Rating
Continuous
Continuous
Capacity
Range
1/8 HP - 1/2 HP, 4-pole
1/8 HP - 1/2 HP, 4-pole
Enclosure
Power
Supply
115/230V, 60 Hz
115/230V, 60 Hz
Insulation
Class B
Class B, Brake: Class B
Time Rating
Continuous
Continuous
Starting
Method
Capacitor-Starting, Capacitor-Run
Capacitor-Starting, Capacitor-Run
Capacity
Range
1/8 HP - 5 HP, 4-pole
1/8 HP - 5 HP, 4-pole
FB Brake
Enclosure
Power
Supply
230/460V, 60 Hz
230/460V, 60 Hz
Insulation
Class B
Class B, Brake: Class B
Time Rating
Continuous (6-60 Hz Constant Torque)
Continuous (6-60 Hz Constant Torque)
Lubrication
Grease Lubricated. Filled with special high-grade grease prior to shipment from factory.
Reduction
Combination of Hypoid gear and Involute gear.
Material
Installation
Temperature
Ambient Conditions
Casing: Aluminum Alloy, Gear: Chrome-Molybdenum steel
Indoor (free from water)
14 to 104°F
Humidity
85% maximum - no condensation
Altitude
3280 feet
Atmosphere
Installation Angle
Standard Specification with Built-In Brake
Free from corrosive gas, explosive gas, or steam. Area to be well ventilated.
No Limitation
Mounting Direction of Terminal Box
Mounting direction of terminal box may be changed in 90˚ increments. A mounting direction other than standard must be changed
by the factory and specified when an order is placed. Refer to Fig. A-1 for mounting direction and lead wire opening direction. The
direction cannot be changed after shipment.
Fig. A-1 3-phase (Standard motors and motors for inverters)
Up
Left
Right
Standard
The directions indicated in Fig. A-1 are viewed from opposite side of fan cover.
Arrow indicates lead wire opening direction.
Please consult factory for brakemotor, plug-in shaft, bolt-on flange and bolt-on feet models.
A-4
Hyponic
Gearmotors
Gearmotor Selection Flowchart
DETERMINE TYPE OF DRIVEN MACHINE
CHECK HOURS OF OPERATION
CHOOSE A LOAD CLASSIFICATION
See Load Classification Tables, Pages A-7~8
SPECIFY MOTOR HORSEPOWER & SPEED
See Gearmotor Selection Tables, Pages A-10~21
Gearmotors
Selection
Flowchart
DETERMINE INPUT AND OUTPUT SPEEDS
MAKE A PRELIMINARY SELECTION
DIRECT
CONNECT
OUTPUT
YES
NO
YES
DETERMINE OVERHUNG LOAD
OHL<
OHL IN
TABLES
SELECT MOUNTING STYLE
NO
CHECK OPERATING ENVIRONMENT
LARGER UNIT OR DECREASE OHL
FINALIZE REQUIRED OPTIONS
Hyponic
See Standard Specifications, Page A-4
A-5
Gearmotors
Gearmotor Selection Procedure
The following information is required to properly select a Hyponic ® Gearmotor:
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
Application – Type of Driven Machine
Hours of Operation per Day
Motor Power and Speed
Desired Output Speed
Mounting Position and Style
Environmental Conditions
Required Options
Electrical Specifications
Overhung or Thrust Loads
Shaft Dimensions – Inch or Metric
Example:
Belt Conveyor – Uniformly Fed
8 Hours of Operation per Day
3 HP Motor, 1750 RPM
120 RPM
Horizontal Shaft Mounted
Inside Industrial Plant
Motor Brake
460 Volts, 60 Hertz, 3 phase
None – Hollow Shaft Output
1-1/2˝ Head Shaft
Review the Basic Information and Recommendations on page 4, then proceed to Selection Example 1.
Selection
Procedure
Gearmotors
Selection Example 1
Step 1
Using the information above, choose a Load Classification from the AGMA Load Classification Tables (pages A-7~8).
Table A-4 identifies service classes based on applications and hours of operation. For Conveyors – Uniformly Loaded
or Fed, Belt, Up to 10 hours per day, the recommended minimum is Class I.
Step 2
Go to the Gearmotor Selection Tables (pages A-10~21) for the correct input power and find the ratio providing the
output speed closest to the desired output speed. The closest speed to 120 RPM is 117 RPM. Match the Class to the
minimum obtained in Step 1 and make a selection. The selection is 3-1520Y-15.
Step 3
Are there any overhung or thrust loads present? If not, then proceed to Step 4. Otherwise, any overhung or thrust
loads must be checked against the capability of the selection.
To check overhung load use this formula:
Overhung = 126,000 x HP x Cf x Lf x Fs
Load (OHL)
DxN
HP: Transmitted or Motor HP
Cf: Load Connection Factor
Lf: Load Location Factor
D: Pitch Diameter (in)
N: Shaft RPM
Fs: Shock factor
The specific values for the overhung load factors, as well as a method to evaluate thrust loads, are listed on page D-5
contained in the Technical Information Section.
Step 4
Go to page 2. Select the desired mounting position and housing style from the nomenclature pages. The horizontal,
shaft mounted Hyponic Gearmotor designation is RNYM. The unit nomenclature for a shaft-mounted unit is RNYM31520YA-15.
Step 5
Check environmental conditions against the Standard Specifications on page A-4. Since this application is located
inside an industrial plant, no environmental modifications are required.
Step 6
Specify desired options: 460V motor, 460-volt brake, 1-1/2” hollow bore, and a torque arm.
A-6
Hyponic
Gearmotors
AGMA Load Classifications
Class I
For steady loads not exceeding normal motor rating, 8 to 10 hours a
day. Moderate shock loads where service is intermittent
(AGMA equivalent Service Factor: 1.0).
Class II For steady loads not exceeding normal motor rating and 24 hours a
day service. Moderate shock loads for 8 hours a day
(AGMA equivalent Service Factor: 1.4).
Class III For moderate shock loads for 24 hours a day. Heavy shock loads for
8 hours a day (AGMA equivalent Service Factor: 2.0). [1]
Table A-3 Load Classification Listed By Industry [2]
Brewing & Distilling
Bottling Machinery
Brew Kettles, Cont.
Duty
Can Filling Machines
Cookers–Cont. Duty
Mash Tubs–Cont. Duty
Scale Hoppers–
Frequent Starts
Clay Working Industry
Brick Press
Briquette Machines
Clay Working
Machinery
Pug Mills
I
II
–
I
–
–
II
II
II
II
II
II
III
III
III
III
II
II
II
II
Distilling (See Brewing)
Dredges
Cable Reels
Conveyors
Cutter Head Drives
Jig Drives
Maneuvering Winches
Pumps
Screen Drives
Stackers
Utility Winches
Food Industry
Beet Slicers
Bottlings, Can
Filling Mach.
Cereal Cookers
Dough Mixers
Meat Grinders
II
II
III
III
II
II
III
II
II
–
II
III
III
–
II
III
II
–
II
II
I
I
II
II
II
II
II
II
Application
Up to
10 Hr.
per
day
24
Hr.
per
day
Application
Lumber Industry
Oil Well Pumping
Barkers–
Paraffin Filter Press
Spindle Feed
II
III
Rotary Kilns
Barkers–
Paper Mills
Main Drive
III
III
Agitators (Mixers)
Refer to Factory
Carriage Drive
Barker–Auxiliaries–
Conveyors
Hyd.
Burner
II
III
Barker, Mechanical
Main or Heavy Duty
II
III
Barking Drum
Main Log
III
III
Beater & Pulper
Re-Saw
Bleacher
Merry-Go-Round
II
III
Calenders
Slab
III
III
Calenders–Super
Transfer
II
III
Converting Mach.–
Chains–Floor
II
III
Except Cutters–
Chains–Green
II
III
Platers
Cut-Off Saws–Chain
II
III
Conveyors
Cut-Off Saws–Drag
II
III
Couch
Debarking Drums
III
III
Cutters, Platers
Feeds–Edger
II
III
Cylinders
Feeds–Gang
III
III
Dryers
Feeds–Trimmer
II
III
Felt Stretchers
Log Deck
III
III
Felt Whippers
Log Hauls–Incline,
Jordans
Well Type
III
III
Log Haul
Log Turning Devices
III
III
Presses
Planer Feed
II
III
Pulp Machine Reels
Planer Tilting Hoists
II
III
Stock Chests
Rolls–Live–Off
Suction Rolls
Bearing–Roll Cases
III
III
Washers &
Sorting Table
II
III
Thickeners
Tipple Hoist
II
III
Winders
Transfers–Chain
II
III
Transfers–Craneway
II
III
Rubber Industry
Tray Drives
II
III
Mixer
Rubber Calender
Rubber Mill
Oil Industry
(2 or more)
Chillers
II
II
Sheeter
Class
Up to
24
10 Hr. Hr.
per
per
day
day
Refer to Factory
II
II
II
II
II
II
–
–
–
–
–
–
–
III
III
III
II
II
II
II
–
–
–
–
_
–
–
–
–
–
–
–
–
–
II
II
II
III
II
II
II
III
II
III
II
II
II
II
–
–
II
II
III
II
III
II
II
II
II
II
Class
Application
Tire Building Machines
Tire, Tube Press
Openers
Tubers & Stainers
Sewage Disposal
Aerators
Bar Screens
Chemical Feeders
Collectors
Dewatering Screens
Grit Collectors
Scum Breakers
Slow or Rapid Mixers
Sludge Collectors
Thickeners
Vacuum Filters
Up to
10 Hr.
per
day
24
Hr.
per
day
Refer to Factory
Gearmotors
Refer to Factory
II
II
Refer to Factory
I
I
I
II
I
II
II
I
II
II
II
II
II
II
II
II
II
II
II
II
Textile Industry
Batchers
II
II
Calenders
II
II
Card Machines
II
II
Cloth Finishing Machines
(Calenders, Dryers,
Pads, Tenters,
Washers)
II
II
Dry Cans
II
II
Dyeing Machinery
II
II
Knitting Machinery
Refer to Factory
Looms, Mangles,
Nappers
II
II
Refer to Factory
Range Drives
Soapers, Spinners
II
II
Tenter Frames
II
II
Winders
II
II
Yarn Preparatory
Machinery (Cards,
Spinners,
Slashers)
II
II
Notes: [1] For applications involving frequent start-stop, braking or reversing, or quick starting of a large inertia load, consult the factory for model
selection on recommended modifications.
[2] Load classification listed by application shown on next page.
Hyponic
A-7
AGMA
Application
Class
24
Hr.
per
day
Load
Classifications
Class
Up to
10 Hr.
per
day
Gearmotors
Table A-4 Load Classification Listed By Application
Application
Agitators
Pure Liquids
Liquids and Solids
Liquids – Variable
Density
Semi-liquids –
Variable Density
Blowers
Centrifugal
Lobe
Vane
Load
Classifications
AGMA
Gearmotors
24
Hr.
per
day
I
II
II
II
II
II
II
II
I
II
I
II
II
II
Brewing and Distilling
Bottling Machinery
Brew Kettles –
Continuous Duty
Cookers – Continuous
Duty
Mash Tubs –
Continuous Duty
Scale Hopper
Frequent Starts
–
II
–
II
II
II
Can Filling Machines
I
II
Cane Knives
II
II
Car Dumpers
III
–
I
II
–
II
Car Pullers –
Intermittent Duty
I
–
Clarifiers
I
II
Classifiers
Clay Working
Machinery
Brick Press
Briquette Machine
Clay Working
Machinery
Pug Mill
Compressors
Centrifugal
Lobe
Reciprocating
Multi-Cylinder
Single Cylinder
II
II
III
III
III
III
II
II
II
II
I
II
II
II
II
III
II
III
Conveyors – Uniformly
Loaded or Fed
Apron
Assembly
Belt
Bucket
Chain
Flight
Oven
Screw
Conveyors – Heavy Duty
Not Uniformly Fed
Apron
Assembly
Belt
Bucket
Chain
Flight
Live Roll (Package)
Oven
Reciprocating
Screw
Shaker
I
I
I
I
I
I
I
I
II
II
II
II
II
II
II
II
II
II
II
II
II
II
I
II
III
II
III
II
II
II
II
II
II
II
II
III
II
III
Cranes and Hoists
Main Hoists
Heavy Duty
Medium Duty
Reversing
Skip Hoists
Trolley Drive
Bridge Drive
III
III
II
II
II
II
II
III
III
II
II
II
II
II
Crushers
Ore
Stone
III
III
III
III
Dredges
Cable Reels
Conveyors
Cutter Head Drives
II
II
III
–
II
III
A-8
Class
Class
Class
Up to
10 Hr.
per
day
Application
Jig Drives
Maneuvering Winches
Pumps
Screen Drive
Stackers
Utility Winches
Elevators
Bucket – Uniform Load
Bucket – Heavy Load
Bucket – Continous
Centrifugal Discharge
Escalators
Freight
Gravity Discharge
Man Lifts
Passenger
Service – Hand Lift
Fans
Centrifugal
Cooling Towers
Induced Draft
Forced Draft
Induced Draft
Large (Mine, etc.)
Large Industrial
Light (Small Diameter)
Up to
10 Hr.
per
day
III
II
II
III
II
II
24
Hr.
per
day
III
–
II
III
II
–
I
II
II
II
I
II
I
II
I
II
I
II
I
II
Refer to Factory
III
–
II
II
II
II
Refer to Factory
II
II
II
II
II
II
I
II
Feeders
Apron
Belt
Disc
Reciprocating
Screw
II
II
I
III
II
II
II
II
III
II
Food Industry
Beet Slicer
Cereal Cooker
Dough Mixer
Meat Grinders
II
I
II
II
II
II
II
II
Generators –
(Not Welding)
I
II
III
III
Hammer Mills
Laundry Washers
Reversing
II
II
Laundry Tumblers
II
II
Line Shafts
Heavy Shock Load
Moderate
Shock Load
Uniform Load
Lumber Industry
Barkers – Spindle Feed
Barkers – Main Drive
Carriage Drive
Conveyors – Burner
Conveyors – Main or
Heavy Duty
Conveyors – Main Log
Conveyors –
Merry-Go-Round
Conveyors – Slab
Conveyors – Transfer
Conveyors – Waste
Chains – Floor
Chains – Green
Cut-Off Saws – Chain
Cut-Off Saws – Drag
Debarking Drums
Feeds – Edger
Feeds – Gang
Feeds – Trimmer
Log Deck
Log Hauls – Incline
Well Type
Log Turning Devices
Planer Feed
Planer Tilting Hoists
Rolls – Live – Off Brg.
– Roll Cases
Sorting Table
Tipple Hoist
Transfers – Chain
Transfers – Craneway
III
III
II
I
II
II
Refer to Factory
Refer to Factory
Refer to Factory
II
III
II
III
III
III
II
III
II
II
II
II
II
II
III
II
III
II
III
III
III
III
II
III
III
III
III
III
III
III
III
III
III
III
II
II
III
III
III
III
III
II
II
II
II
III
III
III
III
III
Application
Tray Drives
Veneer Lathe Drives
Machine Tools
Bending Roll
Notching Press –
Belt Driven
Plate Planer
Punch Press –
Gear Driven
Tapping Machines
Other Machine Tools
Main Drives
Auxiliary Drives
Metal Mills
Bridle Roll Drives
Draw Bench – Carriage
Draw Bench –
Main Drive
Forming Machines
Pinch Dryer & Scrubber
Rolls, Reversing
Slitters
Table Conveyors
Non-Reversing
Reversing
Winding Reels – Strip
Wire Drawing &
Flattening Machine
Wire Winding Machine
Mills, Rotary Type
Ball
Cement Kilns
Dryers & Coolers
Kilns
Pebble
Rod
Tumbling Barrels
Mixers
Concrete Mixers,
Continuous
Concrete Mixers,
Intermittent
Constant Density
Variable Density
Oil Industry
Chillers
Oil Well Pumping
Paraffin Filter Press
Rotary Kilns
Paper Mills
Aerators
Agitators (Mixers)
Barker Auxiliaries,
Hydraulic
Barker, Mechanical
Barking Drum
Beater & Pulper
Bleacher
Calenders
Calenders – Super
Converting Machines,
except Cutters,
Platers
Conveyors
Conveyors, Log
Couch
Cutters, Platers
Cylinders
Dryers
Felt Stretcher
Felt Whipper
Jordans
Presses
Pulp Machines, Reel
Stock Chests
Suction Roll
Washers and
Thickeners
Winders
Printing Presses
Up to
10 Hr.
per
day
Class
24
Hr.
per
day
II
III
Refer to Factory
II
II
Refer to Factory
III
III
III
III
III
III
II
I
II
II
III
III
III
III
III
III
III
III
Refer to Factory
II
II
II
–
–
III
III
III
II
II
III
II
III
III
II
II
III
III
III
II
II
III
III
III
II
II
I
I
II
–
II
II
II
II
Refer to Factory
II
II
II
II
Application
Pullers
Barge Haul
Pumps
Centrifugal
Proportioning
Reciprocating
Single Acting
3 or more Cylinders
Double Acting
2 or more Cylinders
Single Acting
1 or 2 Cylinders
Double Acting
Single Cylinder
Rotary – Gear Type
– Lobe, Vane
Rubber Industry
Mixer
Rubber Calender
Rubber Mill (2 or more)
Sheeter
Tire Building Machines
Tire & Tube Press
Openers
Tubers & Strainers
Sewage Disposal
Equipment
Aerators
Bar Screens
Chemical Feeders
Collectors, Circuline
or Straightline
Dewatering Screens
Grit Collectors
Scum Breakers
Slow or Rapid Mixers
Sludge Collectors
Thickeners
Vacuum Filters
Screens
Air Washing
Rotary – Stone
or Gravel
Traveling Water
Intake
Slab Pushers
Steering Gear
Stokers
–
–
–
–
–
–
–
III
III
III
II
II
II
II
–
–
–
–
–
–
–
–
–
–
–
–
–
–
II
II
III
II
III
II
II
II
III
II
II
II
II
II
–
–
II
II
Textile Industry
Batchers
Calenders
Card Machines
Cloth Finishing Machines
(Washers, Pads,
Tenters)
(Dryers,
Calenders, etc.)
Dry Cans
Dryers
Dyeing Machinery
Knitting Machines
(Looms, etc.)
Looms
Mangles
Nappers
Pads
Range Drives
Slashers
Soapers
Spinners
Teneter Frames
Washers
Winders (Other
than Batchers)
Yarn Preparatory
Machines (Cards,
Spinners, Slashers,
etc.)
I
II
Windlass
Refer to Factory
II
II
Up to
10 Hr.
per
day
24
Hr.
per
day
III
III
I
II
II
II
II
II
II
II
Refer to Factory
Refer to Factory
I
II
I
II
III
III
II
II
II
II
II
II
Refer to Factory
Refer to Factory
II
II
Refer to Factory
I
II
I
II
I
II
I
II
II
I
II
II
II
II
II
II
II
II
II
II
I
II
II
II
I
II
II
II
I
II
II
II
II
II
II
II
II
II
II
II
II
II
II
II
II
II
Refer to Factory
II
II
II
II
II
II
II
II
Refer to Factory
II
II
II
II
II
II
II
II
II
II
II
II
II
II
II
II
Hyponic
Gearmotors
Motor Thermal Ratings
Table A-5 Motor Thermal Rating (C x Z) [1]
Motor Moment of Inertia (lb-in2)
Allowable C x Z
Motor Power
HP (kW)
(35%ED)[2]
Standard
With Brake
1/8 (0.1)
3200
3000
2000
1200
1.13
1.20
35% - 50%
ED[2]
50% - 80%
ED[2]
80% - 100%
ED[2]
1/4 (0.2)
2200
2800
2800
2500
1.71
1.88
1/3 (0.25)
2200
2800
2800
2500
1.71
1.88
1/2 (0.4)
1800
2200
1500
1500
2.22
2.33
3/4 (0.55)
1800
2200
1500
1500
3.45
3.80
1 (0.75)
1400
1400
800
500
4.10
4.45
1.5 (1.1)
1400
1400
800
500
6.33
7.11
2 (1.5)
1200
1200
500
400
7.28
8.04
3 (2.2)
1000
900
400
200
11.4
12.8
5 (3.7)
800
800
800
700
29.0
32.8
7.5 (5.5)
300
300
200
150
39.1
42.9
Gearmotors
Motor
Thermal
Ratings
The calculated C x Z value (steps 1 - 3 outlined below) should be less than the allowable value listed in Table A-5.
(1) Obtain the C value.
C=
IM + IL
IM
=
Moment of inertia of motor.
IM
IL
=
Total moment of inertia of load as seen from the motor.
(2) Obtain the Z value (number of starts per hour).
(a) Assume that one operating period consists of “on time” ta (sec), “off time” tb (sec) and the motor is started nr
(times/cycle).
Zr =
3600nr
ta + tb
(times/hr)
(b) When inching, ni (times/cycle) is included in 1 cycle (ta+tb), the number of inching times per hour, Zi,
is then included in the number of starts.
Zr =
3600ni
ta + tb
(times/hr)
(c) Calculate Z by adding Zr to Zi.
Z = Zr + 1 Zi =
2
3600
1
• (nr+ ni) (times/hr)
ta + tb
2
(3) Calculate C multiplied by Z.
Use the value of C obtained in step (1) and Z from step (2).
(4) Obtain the duty cycle %ED and check with Table A-5.
%ED =
ta
ta +tb
x 100 ta = on-time
tb = off-time
Notes: [1] Please consult the factory for inverter duty and single-phase motors.
[2] %ED = Duty Cycle
Hyponic
A-9
Gearmotors
Selection Tables – 60 Hz, 3-Phase, 1750 RPM
1/8 HP (0.1 kW)
Hollow Bore
Overhung Load[2]
lbs
HP
Symbol
Selection
Frame
Size
Nominal
Ratio
III
III
III
130
140
165
01
01
01
1120YC
1120YC
1120YC
5
7
10
2.14
III
175
01
1120YC
12
62
57.2
82
76.5
103
95.7
2.14
2.14
2.14
III
III
III
185
210
220
01
01
01
1120YC
1120YC
1120YC
15
20
25
58.3
115
123
2.14
III
230
01
1120YC
30
43.8
153
165
35.0
191
205
29.2
229
247
21.9
306
329
17.5
383
411
14.6
459
493
Output
Torque
in•lbs
350
250
175
11
19.1
29
26.8
41
38.3
2.14
2.14
2.14
146
49
45.9
117
87.5
70.0
Gearmotors
Selection
Tables
Service Factor
AGMA
SF
Class[1]
Output
Speed
RPM
1.07
I
250
01
1120YA
40
2.14
III
350
01
1220YC
40
1.07
I
275
01
1120YA
50
2.14
III
375
01
1220YC
50
1.07
I
285
01
1120YA
60
2.14
III
385
01
1220YC
60
1.07
I
395
01
1230YA
80
2.14
III
660
01
1330YC
80
1.07
I
395
01
1230YA
100
2.14
III
680
01
1330YC
100
1.07
I
405
01
1230YA
120
2.14
III
695
01
1330YC
120
1.07
I
405
01
1230YA
150
2.14
III
695
01
1330YC
150
1.07
I
405
01
1230YA
200
2.14
III
695
01
1330YC
200
11.7
572
617
8.75
765
822
7.29
868
868
919
982
0.94
*
405
01
1230Y
240
1.88
II
695
01
1330YB
240
1149
1159
1378
1390
1726
1726
1726
1726
1.00
1.00
0.94
I
I
*
695
695
695
01
01
01
361YA
361YA
361Y
300
360
480
0.81
*
695
01
361Y
560
1726
1726
1726
1726
1726
1726
1726
1726
0.60
0.50
*
*
695
695
01
01
361Y
361Y
750
900
0.38
0.31
*
*
695
695
01
01
361Y
361Y
1200
1440
5.83
4.86
3.65
3.13
2.33
1.94
1.46
1.22
Dimension
Page
A-22
A-23
A-25
Notes: [1] AGMA Class values replaced by “*” are torque limited. Overload may occur if the motor is loaded to its full capacity. Sumitomo
recommends the use of a torque-limiting device to protect the unit and/or the driven machine.
[2] Overhung Load values are based at a distance of 0.78 inch from the collar.
A-10
Hyponic
Gearmotors
Selection Tables – 60 Hz, 3-Phase, 1750 RPM, cont.
1/4 HP (0.2 kW)
Output
Torque
in•lbs
350
41
38.3
250
53.6
58
175
76.5
82
146
91.7
98
117
114
123
87.5
153
165
70.0
191
205
58.3
230
247
43.8
306
329
35.0
383
411
29.2
459
493
21.9
612
658
17.5
765
822
14.6
917
982
11.7
1145
1230
8.75
1531
1646
7.29
1726
1726
1837
1974
Service Factor
AGMA
SF
Class[1]
Hollow Bore
Overhung Load[2]
lbs
HP
Symbol
Selection
Frame
Size
Nominal
Ratio
1.07
I
130
02
1120YA
5
2.14
III
185
02
1220YC
5
1.07
I
140
02
1120YA
7
2.14
III
210
02
1220YC
7
1.07
I
165
02
1120YA
10
2.14
III
230
02
1220YC
10
1.07
I
175
02
1120YA
12
2.14
III
240
02
1220YC
12
1.07
I
185
02
1120YA
15
2.14
III
265
02
1220YC
15
1.07
I
210
02
1120YA
20
2.14
III
295
02
1220YC
20
1.07
I
220
02
1120YA
25
2.14
III
305
02
1220YC
25
1.07
I
230
02
1120YA
30
2.14
III
330
02
1220YC
30
1.07
I
350
02
1220YA
40
2.16
III
570
02
1320YC
40
1.07
I
375
02
1220YA
50
2.16
III
615
02
1320YC
50
1.07
I
385
02
1220YA
60
2.16
III
635
02
1320YC
60
1.07
I
660
02
1330YA
80
2.14
III
960
02
1430YC
80
1.07
I
680
02
1330YA
100
2.14
III
980
02
1430YC
100
1.07
I
695
02
1330YA
120
2.14
III
980
02
1430YC
120
1.07
I
695
02
1330YA
150
2.14
III
980
02
1430YC
150
1.07
I
695
02
1330YA
200
2.14
III
980
02
1430YC
200
0.94
*
695
02
1330Y
240
1.88
II
980
02
1430YB
240
1.00
1.00
0.94
I
I
*
980
980
980
02
02
02
461YA
461YA
461Y
300
360
480
3.13
2297
2319
2756
2788
3452
3452
3452
3452
0.81
*
980
02
461Y
560
2.33
1.94
1.46
1.22
3452
3452
3452
3452
3452
3452
3452
3452
0.60
0.50
0.38
0.31
*
*
*
*
980
980
980
980
02
02
02
02
461Y
461Y
461Y
461Y
750
900
1200
1440
5.83
4.86
3.65
Dimension
Page
A-22
Gearmotors
Selection
Tables
Output
Speed
RPM
A-23
A-25
Hyponic
A-11
Gearmotors
1/3 HP (0.25 kW)
Output
Speed
RPM
Selection
Tables
Gearmotors
Output
Torque
in•lbs
Service Factor
AGMA
SF
Class[1]
Hollow Bore
Overhung Load[2]
lbs
HP
Symbol
Selection
Frame
Size
Nominal
Ratio
350
250
175
146
117
51.0
71.4
102
122
153
1.60
1.60
1.60
1.60
1.60
II
II
II
II
II
185
210
230
240
265
03
03
03
03
03
1220YB
1220YB
1220YB
1220YB
1220YB
5
7
10
12
15
87.5
70.0
58.3
43.8
35.0
29.2
204
255
306
408
510
612
1.60
1.60
1.60
1.62
1.62
1.62
II
II
II
II
II
II
295
305
330
570
615
635
03
03
03
03
03
03
1220YB
1220YB
1220YB
1320YB
1320YB
1320YB
20
25
30
40
50
60
21.9
17.5
14.6
11.7
8.75
7.29
815
1020
1223
1526
2041
2450
1.60
1.60
1.60
1.60
1.60
1.40
II
II
II
II
II
II
960
980
980
980
980
980
03
03
03
03
03
03
1430YB
1430YB
1430YB
1430YB
1430YB
1430YB
80
100
120
150
200
240
5.83
4.86
3.65
2903
3479
4647
1.60
1.54
1.16
II
I
I
1400
1400
1400
03
03
03
56YB
56YA
56YA
300
360
480
3.13
2.33
1.94
1.46
1.22
5417
6479
6479
6479
6479
1.19
0.85
0.70
0.53
0.44
I
*
*
*
*
1400
1400
1400
1400
1400
03
03
03
03
03
56YA
56Y
56Y
56Y
56Y
560
750
900
1200
1440
Hollow Bore
Overhung Load[2]
lbs
HP
Symbol
Selection
Frame
Size
Nominal
Ratio
Dimension
Page
A-22
A-23
A-26
1/2 HP (0.4 kW)
Output
Speed
RPM
Output
Torque
in•lbs
350
76.5
250
107
175
153
146
183
117
229
87.5
306
70.0
383
58.3
459
Service Factor
AGMA
SF
Class[1]
1.07
I
185
05
1220YA
5
2.14
III
305
05
1320YC
5
1.07
I
210
05
1220YA
7
2.14
III
350
05
1320YC
7
1.07
I
230
05
1220YA
10
2.14
III
385
05
1320YC
10
1.07
I
240
05
1220YA
12
2.14
III
405
05
1320YC
12
1.07
I
265
05
1220YA
15
2.14
III
440
05
1320YC
15
1.07
I
295
05
1220YA
20
2.14
III
485
05
1320YC
20
1.07
I
305
05
1220YA
25
2.14
III
505
05
1320YC
25
1.07
I
330
05
1220YA
30
2.14
III
525
05
1320YC
30
Dimension
Page
A-22
A-12
Hyponic
Gearmotors
1/2 HP (0.4 kW) con’t.
Output
Torque
in•lbs
43.8
612
35.0
765
29.2
917
21.9
1223
17.5
1531
14.6
1835
11.7
2289
8.75
3061
Service Factor
AGMA
SF
Class[1]
Hollow Bore
Overhung Load[2]
lbs
HP
Symbol
Selection
Frame
Size
Nominal
Ratio
1.08
I
570
05
1320YA
40
2.14
III
855
05
1420YC
40
1.08
I
615
05
1320YA
50
2.14
III
900
05
1420YC
50
1.08
I
635
05
1320YA
60
2.14
III
935
05
1420YC
60
1.07
I
960
05
1430YA
80
2.14
III
1375
05
1530YC
80
1.07
I
980
05
1430YA
100
2.14
III
1400
05
1530YC
100
1.07
I
980
05
1430YA
120
2.14
III
1400
05
1530YC
120
1.07
I
980
05
1430YA
150
2.14
III
1400
05
1530YC
150
1.07
I
980
05
1430YA
200
1.53
II
1400
05
1530YB
200
3452
0.94
*
980
05
1430Y
240
3674
1.76
II
1400
05
1530YB
240
5.83
4.86
3.65
4594
5567
6479
1.00
1.01
0.88
I
I
*
1400
1400
1400
05
05
05
56YA
56YA
56Y
300
360
480
3.13
6479
0.76
*
1400
05
56Y
560
2.33
1.94
1.46
1.22
6479
6479
6479
6479
0.56
0.47
0.35
0.30
*
*
*
*
1400
1400
1400
1400
05
05
05
05
56Y
56Y
56Y
56Y
750
900
1200
1440
7.29
Dimension
Page
A-22
A-23
A-26
Hyponic
Gearmotors
Selection
Tables
Output
Speed
RPM
A-13
Gearmotors
Hollow Bore
Overhung Load[2]
lbs
HP
Symbol
Selection
Frame
Size
Nominal
Ratio
II
II
II
305
350
385
08
08
08
1320YB
1320YB
1320YB
5
7
10
1.43
II
405
08
1320YB
12
343
459
574
1.43
1.43
1.43
II
II
II
440
485
505
08
08
08
1320YB
1320YB
1320YB
15
20
25
58.3
689
1.43
II
525
08
1320YB
30
43.8
35
29.2
917
1148
1376
1.43
1.43
1.43
II
II
II
855
900
935
08
08
08
1420YB
1420YB
1420YB
40
50
60
A-22
A-22
A-22
Gearmotors
21.9
1835
1.43
II
1375
08
1530YB
80
A-23
Selection
Tables
3/4 HP (0.55 kW)
Service Factor
AGMA
SF
Class[1]
17.5
14.6
11.7
2296
2752
3434
1.43
1.43
1.43
II
II
II
1400
1400
1400
08
08
08
1530YB
1530YB
1530YB
100
120
150
8.75
4592
1.41
II
1400
08
1530YB
200
7.29
5.83
4.86
3.65
5511
6381
6479
6479
1.17
0.93
0.78
0.59
I
*
*
*
1400
1400
1400
1400
08
08
08
08
1530YA
56Y
56Y
56Y
240
300
360
480
A-23
A-26
A-26
A-26
Hollow Bore
Overhung Load[2]
lbs
HP
Symbol
Selection
Frame
Size
Nominal
Ratio
Dimension
Page
Output
Speed
RPM
Output
Torque
in•lbs
350
250
175
115
161
230
1.43
1.43
1.43
146
275
117
87.5
70
Dimension
Page
A-22
A-23
1 HP (0.75 kW)
Output
Speed
RPM
Output
Torque
in•lbs
350
153
250
214
175
306
146
367
117
458
87.5
612
70.0
765
Service Factor
AGMA
Class[1]
SF
1.07
I
305
1
1320YA
5
2.07
III
460
1
1420YC
5
1.07
I
350
1
1320YA
7
2.07
III
515
1
1420YC
7
1.07
I
385
1
1320YA
10
2.07
III
580
1
1420YC
10
1.07
I
405
1
1320YA
12
2.07
III
615
1
1420YC
12
1.07
I
440
1
1320YA
15
2.07
III
660
1
1420YC
15
1.07
I
485
1
1320YA
20
2.07
III
715
1
1420YC
20
1.07
2.07
I
III
505
760
1
1
1320YA
1420YC
25
25
A-22
A-14
Hyponic
Gearmotors
1 HP (0.75 kW) con’t.
Output
Torque
in•lbs
58.3
919
43.8
1223
35.0
1531
29.2
1835
21.9
2446
17.5
14.6
11.7
Service Factor
AGMA
SF
Class[1]
Hollow Bore
Overhung Load[2]
lbs
HP
Symbol
Selection
Frame
Size
Nominal
Ratio
1.07
I
525
1
1320YA
30
2.07
III
805
1
1420YC
30
1.07
I
855
1
1420YA
40
2.07
III
1245
1
1520YC
40
1.07
I
900
1
1420YA
50
2.07
III
1310
1
1520YC
50
1.07
I
935
1
1420YA
60
2.07
III
1355
1
1520YC
60
Dimension
Page
A-22
1.07
I
1375
1
1530YA
80
2.07
III
1375
1
1531YC
80
3061
3669
4579
1.07
1.07
1.07
I
I
I
1400
1400
1400
1
1
1
1530YA
1530YA
1530YA
100
120
150
8.75
6122
1.06
I
1400
1
1530YA
200
7.29
5.83
4.86
3.65
7349
6479
6479
6479
0.88
0.71
0.59
0.44
*
*
*
*
1400
1400
1400
1400
1
1
1
1
1530Y
56Y
56Y
56Y
240
300
360
480
A-23
A-26
A-26
A-26
Hollow Bore
Overhung Load[2]
lbs
HP
Symbol
Selection
Frame
Size
Nominal
Ratio
Dimension
Page
Gearmotors
A-23
1.5 HP (1.1 kW)
Service Factor
AGMA
SF
Class[1]
Output
Speed
RPM
Output
Torque
in•lbs
350
250
230
321
1.38
1.38
I
I
460
515
1H
1H
1420YA
1420YA
5
7
175
459
1.38
I
580
1H
1420YA
10
146
117
550
687
1.38
1.38
I
I
615
660
1H
1H
1420YA
1420YA
12
15
87.5
918
1.38
I
715
1H
1420YA
20
70.0
58.3
1148
1378
1.38
1.38
I
I
760
805
1H
1H
1420YA
1420YA
25
30
43.8
1835
1.38
I
1245
1H
1520YA
40
35.0
29.2
2296
2752
1.38
1.38
I
I
1310
1355
1H
1H
1520YA
1520YA
50
60
A-22
A-22
21.9
3669
1.38
I
1375
1H
1531YA
80
A-23
17.5
14.6
4592
5504
2.00
2.00
III
III
2205
2205
1H
1H
60YC
60YC
100
120
A-24
A-22
Hyponic
A-15
Selection
Tables
Output
Speed
RPM
Gearmotors
2 HP (1.5 kW)
Service Factor
AGMA
SF
Class
1.04
I
1.48
II
HP
Symbol
Selection
Frame
Size
Nominal
Ratio
2
2
1420YA
1520YB
5
5
515
745
2
2
1420YA
1520YB
7
7
I
II
580
835
2
2
1420YA
1520YB
10
10
1.04
1.48
I
II
615
890
2
2
1420YA
1520YB
12
12
916
1.04
1.48
I
II
660
945
2
2
1420YA
1520YB
15
15
87.5
1224
1.04
1.48
I
II
715
1035
2
2
1420YA
1520YB
20
20
70.0
1531
1.04
1.48
I
II
760
1100
2
2
1420YA
1520YB
25
25
58.3
1838
1.04
1.48
I
II
805
1155
2
2
1420YA
1520YB
30
30
43.8
2446
1.04
1.48
I
II
1245
1245
2
2
1520YA
1531YB
40
40
A-22
A-23
35.0
3061
1.04
1.48
I
II
1310
1310
2
2
1520YA
1531YB
50
50
A-22
A-23
29.2
3669
1.04
1.48
I
II
1355
1355
2
2
1520YA
1531YB
60
60
A-22
A-23
21.9
4892
1.04
1.47
I
II
1375
2170
2
2
1531YA
60YB
80
80
A-23
A-24
17.5
14.6
6122
7339
1.47
1.47
II
II
2205
2205
2
2
60YB
60YB
100
120
A-24
A-24
Hollow Bore
Overhung Load[1]
lbs
HP
Symbol
Selection
Frame
Size
Nominal
Ratio
Dimension
Page
Output
Speed
RPM
Output
Torque
in•lbs
350
306
250
429
1.04
1.48
I
II
175
612
1.04
1.48
146
734
117
Selection
Tables
Gearmotors
Hollow Bore
Overhung Load[1]
lbs
460
660
Dimension
Page
A-22
3 HP (2.2 kW)
Service Factor
AGMA
SF
Class
Output
Speed
RPM
Output
Torque
in•lbs
350
250
459
643
1.00
1.00
I
I
660
745
3
3
1520YA
1520YA
5
7
175
918
1.00
I
835
3
1520YA
10
146
117
1101
1374
1.00
1.00
I
I
890
945
3
3
1520YA
1520YA
12
15
87.5
1837
1.00
I
1035
3
1520YA
20
70.0
58.3
2296
2757
1.00
1.00
I
I
1100
1155
3
3
1520YA
1520YA
25
30
A-22
A-22
43.8
3669
1.00
I
1245
3
1531YA
40
A-23
35.0
29.2
4592
5504
1.00
1.00
I
I
1310
1355
3
3
1531YA
1531YA
50
60
A-23
A-23
21.9
7339
1.00
I
2170
3
60YA
80
A-24
17.5
14.6
9184
11008
1.00
1.00
I
I
2205
2205
3
3
60YA
60YA
100
120
A-24
A-24
A-22
Note: [1] Overhung Load values are based at a distance of 0.78 inch from the collar.
A-16
Hyponic
Gearmotors
5 HP (3.7 kW)
Service Factor
AGMA
SF
Class
Hollow Bore
Overhung Load[1]
lbs
HP
Symbol
Selection
Frame
Size
Nominal
Ratio
I
I
1330
1420
5
5
63YA
63YA
10
12
1.00
I
1495
5
63YA
15
3061
3827
1.00
1.00
I
I
1650
1740
5
5
63YA
63YA
20
25
58.3
4594
1.00
I
1815
5
63YA
30
43.8
35.0
6115
7653
1.00
1.00
I
I
1905
1995
5
5
63YA
63YA
40
50
Hollow Bore
Overhung Load[1]
lbs
HP
Symbol
Selection
Frame
Size
Nominal
Ratio
Output
Speed
RPM
Output
Torque
in•lbs
175
146
1531
1835
1.00
1.00
117
2289
87.5
70.0
Dimension
Page
A-24
7.5 HP (5.5 kW)
Output
Torque
in•lbs
175
146
117
2296
2752
3434
1.00
1.00
1.00
I
I
I
1330
1420
1495
8
8
8
64YA
64YA
64YA
10
12
15
87.5
4592
1.00
I
1650
8
64YA
20
70.0
58.3
43.8
5740
6892
9173
1.00
1.00
1.00
I
I
I
1740
1815
1905
8
8
8
64YA
64YA
64YA
25
30
40
SF
Dimension
Page
A-24
60 Hz, Single Phase, 1750 RPM
1/8 HP (0.1 kW)
Service Factor
AGMA
SF
Class
Output
Speed
RPM
Output
Torque
in•lbs
350
250
19.1
26.8
2.00
2.00
III
III
175
38.3
2.00
III
146
117
45.9
57.2
2.00
2.00
III
III
87.5
76.5
2.00
III
70.0
58.3
95.7
115
2.00
2.00
III
III
43.8
153
2.00
III
35.0
29.2
191
229
2.00
2.00
III
III
21.9
306
2.00
III
17.5
14.6
383
459
2.00
2.00
III
III
11.7
572
2.00
8.75
7.29
765
919
1.74
1.45
Hollow Bore
Overhung Load[1]
lbs
1295
130
1405
140
1620
165
HP
Symbol
Selection
Frame
Suffix
Size
Nominal
Ratio
Dimension
Page
01
01
1120YC
1120YC
SG
SG
5
7
01
1120YC
SG
10
1730
175
1835
185
210
2055
01
01
1120YC
1120YC
SG
SG
12
15
01
1120YC
SG
20
220
2160
230
2270
350
3460
01
01
1120YC
1120YC
SG
SG
25
30
01
1220YC
SG
40
375
3680
385
3790
660
6480
01
01
1220YC
1220YC
SG
SG
50
60
A-27
A-27
01
1330YC
SG
80
A-28
01
01
1330YC
1330YC
SG
SG
100
120
III
680
6700
695
6810
695
6810
01
1330YC
SG
150
II
II
695
6810
695
6810
01
01
1330YB
1330YB
SG
SG
200
240
A-27
A-28
Hyponic
A-17
Gearmotors
Selection
Tables
Service Factor
AGMA
Class
Output
Speed
RPM
Gearmotors
Selection Tables – 60 Hz, Single Phase, 1750 RPM, cont.
1/4 HP (0.2 kW)
Selection
Tables
Gearmotors
Service Factor
AGMA
SF
Class
Output
Speed
RPM
Output
Torque
in•lbs
350
250
38.3
53.6
2.00
2.00
III
III
175
76.5
2.00
III
146
117
91.7
114
2.00
2.00
III
III
87.5
153
2.00
III
70.0
58.3
191
230
2.00
2.00
III
III
43.8
306
2.00
III
35.0
29.2
383
459
2.00
2.00
III
III
21.9
612
2.00
III
17.5
14.6
765
917
2.00
2.00
III
III
11.7
1145
2.00
8.75
7.29
1531
1837
1.74
1.45
Hollow Bore
Overhung Load[1]
lbs
1835
185
2055
210
2270
230
HP
Symbol
Selection
Frame
Suffix
Size
Nominal
Ratio
Dimension
Page
02
02
1220YC
1220YC
SG
SG
5
7
02
1220YC
SG
10
2380
240
2600
265
295
2910
02
02
1220YC
1220YC
SG
SG
12
15
02
1220YC
SG
20
305
3020
330
3240
570
5620
02
02
1220YC
1220YC
SG
SG
25
30
02
1320YC
SG
40
615
6060
635
6260
960
9415
02
02
1320YC
1320YC
SG
SG
50
60
A-27
A-27
02
1430YC
SG
80
A-28
02
02
1430YC
1430YC
SG
SG
100
120
III
980
9610
980
9610
980
9610
02
1430YC
SG
150
II
II
980
9610
980
9610
02
02
1430YB
1430YB
SG
SG
200
240
Hollow Bore
Overhung Load[1]
lbs
HP
Symbol
A-27
A-28
1/2 HP (0.4 kW)
Service Factor
AGMA
SF
Class
Selection
Frame
Suffix
Size
Output
Speed
RPM
Output
Torque
in•lbs
350
250
76.5
107
1.88
1.88
II
II
305
350
05
05
1320YB
1320YB
SG
SG
5
7
175
153
1.88
II
385
05
1320YB
SG
10
146
117
183
229
1.88
1.88
II
II
405
440
05
05
1320YB
1320YB
SG
SG
12
15
87.5
306
1.88
II
485
05
1320YB
SG
20
70.0
58.3
383
459
1.88
1.88
II
II
505
525
05
05
1320YB
1320YB
SG
SG
25
30
43.8
612
1.88
II
855
05
1420YB
SG
40
35.0
29.2
765
917
1.88
1.88
II
II
900
935
05
05
1420YB
1420YB
SG
SG
50
60
A-27
A-27
21.9
1223
1.88
II
1375
05
1530YB
SG
80
A-28
17.5
14.6
1531
1835
1.88
1.88
II
II
1400
1400
05
05
1530YB
1530YB
SG
SG
100
120
11.7
2289
1.88
II
1400
05
1530YB
SG
150
8.75
7.29
3061
3674
1.63
1.36
II
I
1400
1400
05
05
1530YB
1530YA
SG
SG
200
240
Nominal
Ratio
Dimension
Page
A-27
A-28
A-18
Hyponic
Gearmotors
Selection Tables – Inverter Duty
1/8 HP (0.1 kW)
Output
Torque
(60 Hz)
in•lbs
Service Factor
(60 Hz)
AGMA
SF
Class
Hollow Bore
Overhung
Load[2]
(60 Hz) lbs
HP
Symbol
Frame
Size
Suffix
Nominal
Ratio
Selection
Dimension
Page
6 Hz
60 Hz
120 Hz[1]
36.0
25.7
18.0
360
257
180
720
514
360
18.6
26.1
37.2
2.00
2.00
2.00
III
III
III
130
140
165
01
01
01
1120YC
1120YC
1120YC
AV
AV
AV
5
7
10
15.0
12.0
150
120
300
240
44.6
55.8
2.00
2.00
III
III
175
185
01
01
1120YC
1120YC
AV
AV
12
15
9.0
90.0
180
74.4
2.00
III
210
01
1120YC
AV
20
7.20
6.00
72.0
60.0
144
120
93.0
112
2.00
2.00
III
III
220
230
01
01
1120YC
1120YC
AV
AV
25
30
4.50
45.0
90.0
149
2.00
III
350
01
1220YC
AV
40
3.60
3.00
36.0
30.0
72.0
60.0
186
223
2.00
2.00
III
III
375
385
01
01
1220YC
1220YC
AV
AV
50
60
A-29
A-29
2.25
22.5
45.0
298
2.00
III
660
01
1330YC
AV
80
A-30
1.80
1.50
18.0
15.0
36.0
30.0
372
446
2.00
2.00
III
III
680
695
01
01
1330YC
1330YC
AV
AV
100
120
1.20
12.0
24.0
558
2.00
III
695
01
1330YC
AV
150
0.900
0.750
9.00
7.50
18.0
15.0
744
893
2.00
1.80
III
II
695
695
01
01
1330YC
1330YB
AV
AV
200
240
A-29
A-30
1/4 HP (0.2 kW)
Output Speed RPM
120
Hz[1]
Output
Torque
(60 Hz)
in•lbs
Service Factor
(60 Hz)
AGMA
SF
Class
Hollow Bore
Overhung
Load[2]
(60 Hz) lbs
HP
Symbol
Frame
Size
Suffix
Nominal
Ratio
Selection
Dimension
Page
6 Hz
60 Hz
36.0
25.7
18.0
360
257
180
720
514
360
37.2
52.1
74.4
2.00
2.00
2.00
III
III
III
185
210
230
02
02
02
1220YC
1220YC
1220YC
AV
AV
AV
5
7
10
15.0
12.0
9.00
150
120
90.0
300
240
180
89.3
112
149
2.00
2.00
2.00
III
III
III
240
265
295
02
02
02
1220YC
1220YC
1220YC
AV
AV
AV
12
15
20
7.20
6.00
4.50
72.0
60.0
45.0
144
120
90.0
186
223
298
2.00
2.00
2.00
III
III
III
305
330
570
02
02
02
1220YC
1220YC
1320YC
AV
AV
AV
25
30
40
3.60
3.00
2.25
36.0
30.0
22.5
72.0
60.0
45.0
372
446
595
2.00
2.00
2.00
III
III
III
615
638
960
02
02
02
1320YC
1320YC
1430YC
AV
AV
AV
50
60
80
A-29
A-29
A-30
1.80
1.50
1.20
18.0
15.0
12.0
36.0
30.0
24.0
744
893
1116
2.00
2.00
2.00
III
III
III
980
980
980
02
02
02
1430YC
1430YC
1430YC
AV
AV
AV
100
120
150
A-30
0.900
0.750
9.00
7.50
18.0
15.0
1488
1786
2.00
1.80
III
II
980
980
02
02
1430YC
1430YB
AV
AV
200
240
A-29
Notes: [1] 3600 RPM (120 Hz) is the maximum allowable input speed.
Hyponic
A-19
Gearmotors
Selection
Tables
Output Speed RPM
Gearmotors
Selection Tables – Inverter Duty, cont.
1/2 HP (0.4 kW)
Output Speed RPM
Selection
Tables
Gearmotors
Output
Torque
(60 Hz)
in•lbs
Service Factor
(60 Hz)
AGMA
SF
Class
Hollow Bore
Overhung
Load[2]
(60 Hz) lbs
HP
Symbol
Frame
Size
Suffix
Nominal
Ratio
Selection
Dimension
Page
6 Hz
60 Hz
120 Hz[1]
36.0
25.7
18.0
360
257
180
720
514
360
74.4
104
149
1.88
1.88
1.88
II
II
II
305
350
385
05
05
05
1320YB
1320YB
1320YB
AV
AV
AV
5
7
10
15.0
12.0
9.00
150
120
90.0
300
240
180
179
223
298
1.88
1.88
1.88
II
II
II
405
440
485
05
05
05
1320YB
1320YB
1320YB
AV
AV
AV
12
15
20
7.20
6.00
4.50
72.0
60.0
45.0
144
120
90.0
372
446
595
1.88
1.88
1.88
II
II
II
505
525
855
05
05
05
1320YB
1320YB
1420YB
AV
AV
AV
25
30
40
3.60
3.00
2.25
36.0
30.0
22.5
72.0
60.0
45.0
744
893
1190
1.88
1.88
1.88
II
II
II
900
935
1375
05
05
05
1420YB
1420YB
1530YB
AV
AV
AV
50
60
80
A-29
A-29
A-30
1.80
1.50
1.20
18.0
15.0
12.0
36.0
30.0
24.0
1488
1786
2232
1.88
1.88
1.88
II
II
II
1400
1400
1400
05
05
05
1530YB
1530YB
1530YB
AV
AV
AV
100
120
150
A-30
0.900
0.750
9.00
7.50
18.0
15.0
2976
3571
1.88
1.88
II
II
1400
1400
05
05
1530YB
1530YB
AV
AV
200
240
A-29
1 HP (0.75 kW)
Output Speed RPM
120
Hz[1]
Output
Torque
(60 Hz)
in•lbs
Service Factor
(60 Hz)
AGMA
SF
Class
Hollow Bore
Overhung
Load[2]
(60 Hz) lbs
HP
Symbol
Frame
Size
Suffix
Nominal
Ratio
Selection
Dimension
Page
6 Hz
60 Hz
36.0
25.7
18.0
360
257
180
720
514
360
149
208
298
2.00
2.00
2.00
III
III
III
460
515
580
1
1
1
1420YC
1420YC
1420YC
AV
AV
AV
5
7
10
15.0
12.0
9.00
150
120
90.0
300
240
180
357
446
595
2.00
2.00
2.00
III
III
III
615
660
715
1
1
1
1420YC
1420YC
1420YC
AV
AV
AV
12
15
20
7.20
6.00
4.50
72.0
60.0
45.0
144
120
90.0
744
893
1190
2.00
2.00
2.00
III
III
III
760
805
1245
1
1
1
1420YC
1420YC
1520YC
AV
AV
AV
25
30
40
3.60
3.00
2.25
36.0
30.0
22.5
72.0
60.0
45.0
1488
1786
2381
2.00
2.00
2.00
III
III
III
1310
1355
1375
1
1
1
1520YC
1520YC
1531YC
AV
AV
AV
50
60
80
A-29
A-29
A-30
1.80
1.50
18.0
15.0
36.0
30.0
2976
3571
2.93
2.93
III
III
2205
2205
1
1
60YC
60YC
AV
AV
100
120
A-31
A-29
A-20
Hyponic
Gearmotors
Selection Tables – Inverter Duty, cont.
2 HP (1.5 kW)
Output
Torque
(60 Hz)
in•lbs
Service Factor
(60 Hz)
AGMA
SF
Class
Hollow Bore
Overhung
Load[2]
(60 Hz) lbs
HP
Symbol
Frame
Size
Suffix
Nominal
Ratio
Selection
Dimension
Page
6 Hz
60 Hz
120 Hz[1]
36.0
25.7
18.0
360
257
180
720
514
360
298
417
595
1.47
1.47
1.47
II
II
II
660
745
835
2
2
2
1520YB
1520YB
1520YB
AV
AV
AV
5
7
10
15.0
12.0
9.00
150
120
90.0
300
240
180
714
893
1190
1.47
1.47
1.47
II
II
II
890
945
1035
2
2
2
1520YB
1520YB
1520YB
AV
AV
AV
12
15
20
7.20
6.00
4.50
72.0
60.0
45.0
144
120
90.0
1488
1786
2381
1.47
1.47
1.47
II
II
II
1100
1155
1245
2
2
2
1520YB
1520YB
1531YB
AV
AV
AV
25
30
40
A-29
A-29
A-30
3.60
3.00
2.25
36.0
30.0
22.5
72.0
60.0
45.0
2976
3571
4762
1.47
1.47
1.47
II
II
II
1310
1355
2170
2
2
2
1531YB
1531YB
60YB
AV
AV
AV
50
60
80
A-30
A-30
A-31
1.80
1.50
18.0
15.0
36.0
30.0
5952
7143
1.47
1.47
II
II
2205
2205
2
2
60YB
60YB
AV
AV
100
120
A-31
Hollow Bore
Overhung
Load[2]
(60 Hz) lbs
HP
Symbol
Frame
Size
Suffix
Nominal
Ratio
A-29
3 HP (2.2 kW)
Output Speed RPM
Output
Torque
(60 Hz)
in•lbs
Service Factor
(60 Hz)
AGMA
SF
Class
Selection
6 Hz
60 Hz
120 Hz[1]
18.0
15.0
12.0
180
150
120
360
300
240
893
1071
1339
1.68
1.68
1.68
II
II
II
1330
1420
1495
3
3
3
63YB
63YB
63YB
AV
AV
AV
10
12
15
9.00
7.20
6.00
90.0
72.0
60.0
180
144
120
1786
2232
2679
1.68
1.68
1.68
II
II
II
1650
1710
1815
3
3
3
63YB
63YB
63YB
AV
AV
AV
20
25
30
4.50
3.60
45.0
36.0
90.0
72.0
3571
4464
1.68
1.68
II
II
1905
1995
3
3
63YB
63YB
AV
AV
40
50
Dimension
Page
A-31
5 HP (3.7 kW)
Output Speed RPM
120
Hz[1]
Output
Torque
(60 Hz)
in•lbs
Service Factor
(60 Hz)
AGMA
SF
Class
Hollow Bore
Overhung
Load[2]
(60 Hz) lbs
HP
Symbol
Frame
Size
Suffix
Nominal
Ratio
Selection
6 Hz
60 Hz
18.0
15.0
12.0
9.00
180
150
120
90.0
360
300
240
180
1488
1786
2232
2976
1.49
1.49
1.49
1.49
II
II
II
II
1330
1420
1495
1650
5
5
5
5
64YB
64YB
64YB
64YB
AV
AV
AV
AV
10
12
15
20
7.20
6.00
4.50
72.0
60.0
45.0
144
120
90.0
3720
4464
5952
1.49
1.49
1.49
II
II
II
1740
1815
1905
5
5
5
64YB
64YB
64YB
AV
AV
AV
25
30
40
Dimension
Page
A-31
Hyponic
A-21
Gearmotors
Selection
Tables
Output Speed RPM
Gearmotors
Hollow Shaft Type, 3-Phase Motor
RNYM01~3 – 1120/1220/1320/1420/1520Y (-B)
F
G
C
F
L
D
D
P
N
P
A
ZA
L K
B DIA
B DIA A1
R
J E
MP
DIA
AB
A
4X H DIA
E
K
A2
X
O
S
M DIA
T DIA
U DIA BORE
Dimensions
Gearmotors
W
A–A
W
V
Inch
Model
RNYM01~02-1120Y
RNYM01~05-1220Y
RNYM02~1-1320Y
RNYM05~2-1420Y
RNYM1~3-1520Y
A1
3.54
4.53
5.20
6.22
7.01
Model
RNYM01~02-1120Y
RNYM01~05-1220Y
RNYM02~1-1320Y
RNYM05~2-1420Y
RNYM1~3-1520Y
A2
3.46
4.45
5.12
6.10
6.89
U min
0.750
1.000
1.250
1.375
1.500
B min
2.046
3.070
3.345
3.739
4.329
B max
2.047
3.071
3.346
3.740
4.331
U max
0.751
1.001
1.252
1.377
1.502
D
1.30
1.46
1.81
2.32
2.68
E
1.65
2.24
2.44
2.95
3.15
F
0.31
0.35
0.35
0.39
0.39
G
2.60
2.91
3.62
4.65
5.35
H
0.26
0.35
0.43
0.55
0.55
Output Shaft
Key
3/16X3/16
1/4X1/4
1/4X1/4
5/16X5/16
3/8X3/8
V
3.23
3.62
4.33
5.43
6.14
Model
HP
AB
ZA
RNYM01-1120Y(-B)-5~60
RNYM02-1120Y(-B)-5~30
RNYM01-1220Y(-B)-40~60
RNYM02-1220Y(-B)-5~60
RNYM03-1220Y(-B)-5~30
RNYM05-1220Y(-B)-5~30
RNYM02-1320Y(-B)-40~60
RNYM03-1320Y(-B)-40~60
RNYM05-1320Y(-B)-5~60
RNYM08-1320Y(-B)-5~30
RNYM1-1320Y(-B)-5~30
RNYM05-1420Y(-B)-40~60
RNYM08-1420Y(-B)-40~60
RNYM1-1420Y(-B)-5~60
RNYM1H-1420Y(-B)-5~30
RNYM2-1420Y(-B)-5~30
RNYM1-1520Y(-B)-40~60
RNYM1H-1520Y(-B)-40~60
RNYM2-1520Y(-B)-5~60
RNYM3-1520Y(-B)-5~30
1/8
1/4
1/8
1/4
1/3
1/2
1/4
1/3
1/2
3/4
1
1/2
3/4
1
1.5
2
1
1.5
2
3
5.04
5.04
5.04
5.04
5.04
5.04
5.04
5.04
5.04
5.43
5.43
5.04
5.43
5.43
5.63
5.63
5.43
5.63
5.63
5.91
3.41
3.41
3.66
3.66
3.86
3.86
4.45
4.65
4.65
4.88
J
1.97
2.60
2.91
3.46
3.70
K
1.26
1.57
1.81
2.24
2.76
M
0.77
1.02
1.27
1.40
1.52
L
1.57
1.93
2.28
2.76
3.31
O
0.63
0.87
0.87
1.02
1.18
N
3.23
3.78
4.69
5.75
7.01
S
0.039
0.046
0.056
0.056
0.056
Standard Motor
C
10.55
12.20
11.46
13.11
13.90
13.90
14.21
15.00
15.00
16.65
16.65
16.22
18.66
18.66
19.84
19.84
19.61
21.02
21.02
21.77
MP
4.69
4.88
4.69
4.88
4.88
4.88
4.88
4.88
4.88
6.10
6.10
4.88
6.10
6.10
6.57
6.57
6.10
6.57
6.57
7.09
P
0.24
0.20
0.20
0.20
0.20
T
0.796
1.066
1.330
1.461
1.594
X
0.87
0.79
1.34
1.69
2.68
W
1.18
1.50
1.81
2.05
2.64
Brakemotor
WT (LB)
13
15
15
19
21
21
22
24
24
29
33
33
37
40
46
49
57
64
68
75
C
11.93
13.46
12.83
14.37
15.16
15.16
15.47
16.26
16.26
18.35
18.35
17.48
20.35
20.35
22.28
22.28
21.30
23.46
23.46
24.25
MP
4.88
4.88
4.88
4.88
4.88
4.88
4.88
4.88
4.88
6.10
6.10
4.88
6.10
6.10
6.57
6.57
6.10
6.57
6.57
7.09
Dimensions shown are for reference only and are subject to change without notice, unless certified.
Certified prints are available after receipt of an order; consult factory.
A-22
R
0.79
1.10
1.08
0.79
1.10
WT (LB)
17
19
19
22
24
24
24
29
29
35
37
35
42
44
55
57
62
73
77
86
Hyponic
Gearmotors
RNYM01~3 – 1230/1330/1430/1530/1531Y (-B)
P
D
P
D
L
B DIA
C
N
L
A
J
ZA
K
B DIA
MP DIA
R
A
J
E
AB
I DIA
F
A
4X H DIA
Q
G
E
K
F
A
O
X
M DIA
S
T DIA
U DIA BORE
W
A-A
V
Inch
Model
RNYM01-1230Y
RNYM01~02-1330Y
RNYM02~05-1430Y
RNYM05~1-1530Y
RNYM1~3-1531Y
A
5.00
5.98
7.01
8.39
8.39
Model
RNYM01-1230Y
RNYM01~02-1330Y
RNYM02~05-1430Y
RNYM05~1-1530Y
RNYM1~3-1531Y
B min
3.070
3.345
3.739
4.329
4.329
B max
3.071
3.346
3.740
4.331
4.331
U min
1.000
1.250
1.375
1.500
1.500
Model
RNYM01-1230Y(-B)-80~240
RNYM01-1330Y(-B)-80~240
RNYM02-1330Y(-B)-80~240
RNYM02-1430Y(-B)-80~240
RNYM03-1430Y(-B)-80~240
RNYM05-1430Y(-B)-80~240
RNYM05-1530Y(-B)-80~240
RNYM08-1530Y(-B)-80~240
RNYM1-1530Y(-B)-80~240
RNYM1-1531Y(-B)-80
RNYM1H-1531Y(-B)-80
RNYM2-1531Y(-B)-40~80
RNYM3-1531Y(-B)-40~80
D
1.61
1.81
2.32
2.68
2.68
E
2.56
3.11
3.62
4.29
4.29
U max
1.001
1.252
1.377
1.502
1.502
F
0.35
0.35
0.39
0.39
0.39
G
3.23
3.62
4.65
5.35
5.35
H
0.35
0.43
0.55
0.71
0.71
I
0.55
0.69
0.79
-
J
2.99
3.62
4.25
5.08
5.08
Output Shaft
Key
1/4X1/4
1/4X1/4
5/16X5/16
3/8X3/8
3/8X3/8
V
3.94
4.33
5.43
6.14
6.14
HP
AB
ZA
1/8
1/8
1/4
1/4
1/3
1/2
1/2
3/4
1
1
1.5
2
3
5.04
5.04
5.04
5.04
5.04
5.04
5.04
5.43
5.43
5.43
5.63
5.63
5.91
3.78
3.78
4.45
4.65
4.65
4.88
K
1.57
1.85
2.13
2.52
2.52
L
2.01
2.36
2.76
3.31
3.31
M
1.02
1.27
1.40
1.52
1.52
O
0.87
0.87
1.02
1.18
1.18
N
3.74
4.25
5.12
6.18
6.18
P
0.20
0.20
0.20
0.20
0.20
S
0.046
0.056
0.056
0.056
0.056
Standard Motor
C
11.50
12.36
14.02
15.12
15.91
15.91
17.20
19.61
19.61
19.61
20.79
20.79
21.57
MP
4.69
4.69
4.88
4.88
4.88
4.88
4.88
6.10
6.10
6.10
6.57
6.57
7.09
Q
4.13
-
T
1.066
1.330
1.461
1.594
1.594
R
0.51
0.43
0.55
0.67
0.67
X
0.31
0.14
0.31
0.37
0.37
W
1.50
1.81
2.05
2.64
2.64
Brakemotor
WT (LB)
17
20
22
33
35
35
51
53
55
57
64
66
75
C
12.87
13.74
15.28
16.38
17.17
17.17
18.46
21.30
21.30
21.30
23.23
23.23
24.06
MP
4.88
4.88
4.88
4.88
4.88
4.88
4.88
6.10
6.10
6.10
6.57
6.57
7.09
WT (LB)
20
22
24
35
37
37
53
57
62
62
73
75
86
Hyponic
A-23
Dimensions
Gearmotors
W
Gearmotors
RNYM1H~8 – 60/63/64Y (-B)
D
P
C
D
P
ZA
LK
B DIA
B DIA
MP
DIA
R
A
J E
AB
I DIA
4X H DIA
F
F
G
E
J
K
L
Q
A
O
S
M DIA
Gearmotors
Dimensions
T DIA
U DIA BORE
W
W
V
A-A
Inch
Model
RNYM1H~3-60Y
RNYM5-63Y
RNYM8-64Y
A
11.02
11.02
B min B max
D
5.904 5.906 3.66
5.904 5.906 3.66
E
5.71
5.71
F
0.75
0.75
G
7.32
7.32
H
0.87
0.87
I
1.26
1.26
J
6.69
6.69
K
3.35
3.35
L
4.33
4.33
P
0.47
0.47
Q
6.46
6.46
R
1.06
1.06
11.02
5.904
5.71
0.75
7.32
0.87
1.26
6.69
3.35
4.33
0.47
6.46
1.06
Model
U min
2.000
2.000
2.000
RNYM1H~3-60Y
RNYM5-63Y
RNYM8-64Y
5.906
3.66
U max
2.002
2.002
2.002
V
8.82
8.82
8.82
Model
HP
AB
ZA
RNYM1H-60Y(-B)-100~120
RNYM2-60Y(-B)-80~120
RNYM3-60Y(-B)-80~120
RNYM5-63Y(-B)-10~50
RNYM8-64Y(-B)-10~40
1.5
2
3
5
7.5
5.63
5.63
5.91
6.54
6.54
6.30
6.30
6.30
6.30
6.30
Output Shaft
Key
1/2X1/2
1/2X1/2
1/2X1/2
M
2.02
2.02
2.02
Standard Motor
C
23.35
23.35
24.57
26.65
28.39
MP
6.57
6.57
7.09
8.74
8.74
O
1.57
1.57
1.57
S
0.068
0.068
0.068
T
2.122
2.122
2.122
Brakemotor
WT (LB)
187
187
198
225
243
C
25.79
25.79
27.05
29.49
31.22
MP
6.57
6.57
7.09
8.74
8.74
WT (LB)
198
198
214
247
262
A-24
W
3.35
3.35
3.35
Hyponic
Gearmotors
RNYM01~02 – 361/461Y (-B)
C
D
D
N
P
P
L
B DIA
K
MP
DIA
R
B DIA
AB
A
E
J
I DIA
Q
G
F
K
4X H DIA
E
L
F
O
J
A
M DIA
Gearmotors
T DIA
Dimensions
S
U DIA BORE
W
W
V
Inch
Model
RNYM01-361
RNYM02-461
A
B min B max
D
E
F
G
H
I
J
K
L
N
P
Q
R
5.98
7.01
3.345 3.346
3.739 3.740
1.81
2.32
3.11
3.62
0.35
0.39
3.62
4.65
0.43
0.55
0.69
0.79
3.62
4.25
1.85
2.13
2.36
2.76
4.13
4.76
0.20
0.20
3.19
4.13
1.18
1.06
Model
RNYM01-361
RNYM02-461
U min
U max
V
Output Shaft
Key
M
O
S
T
W
1.000
1.438
1.002
1.439
4.33
5.43
1/4X1/4
3/8X3/8
1.02
1.46
0.87
1.02
0.046
0.056
1.066
1.528
1.81
2.05
Model
HP
AB
RNYM01-361(-B)-300~1440
RNYM02-461(-B)-300~1440
1/8
1/4
5.04
5.04
Standard Motor
Brakemotor
C
MP
WT (LB)
C
MP
WT (LB)
13.86
17.01
4.69
4.88
25
32
15.24
18.27
4.88
4.88
29
35
Hyponic
A-25
Gearmotors
RNYM03~1 – 56Y (-B)
D
D
C
P
P
N
ZA
L
B DIA
MP
DIA
K
R
B DIA
A
AB
E
J
I DIA
4X H DIA
Q
F
K
J
A
O
Gearmotors
E
L
F
G
M DIA
Dimensions
S
T DIA
U DIA BORE
W
W
A-A
V
Inch
Model
RNYM03~1-56Y
A
B min B max
D
E
F
G
H
I
J
K
L
N
P
Q
R
8.39
4.329 4.331
2.76
4.29
0.39
5.51
0.71
1.02
5.08
2.52
3.31
5.69
0.20
4.80
1.89
Model
RNYM03~1-56Y
U min
U max
V
Output Shaft
Key
M
O
S
T
W
1.688
1.689
6.30
3/8X3/8
1.71
1.18
0.068
1.792
2.64
Model
HP
AB
ZA
RNYM03-56Y(-B)-300~1440
RNYM05-56Y(-B)-300~1440
RNYM08-56Y(-B)-300~480
RNYM1-56Y(-B)-300~480
1/3
1/2
3/4
1
5.04
5.04
5.43
5.43
6.34
6.34
Standard Motor
C
19.49
19.49
21.34
21.34
MP
4.88
4.88
5.83
5.83
Brakemotor
WT (LB)
57
57
66
66
C
20.75
20.75
23.03
23.03
MP
4.88
4.88
5.83
5.83
A-26
WT (LB)
60
60
73
73
Hyponic
Gearmotors
Hollow Shaft Type, Single Phase Motor
RNYM01~05 – 1120/1220/1320/1420Y – SG (-B)
G
F
D
C
F
L
D
P
N
P
A
ZA
B DIA
B DIA
L
K
J
E
A1
MP DIA
R
A
4X H DIA
K
AB
E
A2
X
O
S
M DIA
Dimensions
T DIA
Gearmotors
U DIA BORE
W
W
V
A-A
Inch
Model
RNYM01-1120Y-SG
RNYM01~02-1220Y-SG
RNYM02~05-1320Y-SG
RNYM05-1420Y-SG
A1
3.54
4.53
5.20
6.22
Model
RNYM01-1120Y-SG
RNYM01~02-1220Y-SG
RNYM02~05-1320Y-SG
RNYM05-1420Y-SG
A2
3.46
4.45
5.12
6.10
B min
2.046
3.070
3.345
3.739
U min
0.750
1.000
1.250
1.375
Model
RNYM01-1120Y-SG(-B)-5~60
RNYM01-1220Y-SG(-B)-40~60
RNYM02-1220Y-SG(-B)-5~60
RNYM02-1320Y-SG(-B)-40~60
RNYM05-1320Y-SG(-B)-5~60
RNYM05-1420Y-SG(-B)-40~60
B max
2.047
3.071
3.346
3.740
U max
0.751
1.001
1.252
1.377
D
1.30
1.46
1.81
2.32
E
1.65
2.24
2.44
2.95
F
0.31
0.35
0.35
0.39
G
2.60
2.91
3.62
4.65
H
0.26
0.35
0.43
0.55
Output Shaft
Key
3/16X3/16
1/4X1/4
1/4X1/4
5/16X5/16
V
3.23
3.62
4.33
5.43
HP
AB
ZB
1/8
1/8
1/4
1/4
1/2
1/2
4.72
4.72
4.72
4.72
5.12
5.12
3.37
3.66
J
1.97
2.60
2.91
3.46
K
1.26
1.57
1.81
2.24
M
0.77
1.02
1.27
1.40
L
1.57
1.93
2.28
2.76
O
0.63
0.87
0.87
1.02
N
3.23
3.78
4.69
5.75
S
0.039
0.046
0.056
0.056
Standard Motor
C
12.80
13.70
14.49
15.55
16.65
18.66
MP
4.88
4.88
4.88
4.88
6.10
6.10
P
0.24
0.20
0.20
0.20
R
0.79
1.10
1.08
0.79
T
0.796
1.066
1.330
1.461
X
0.87
0.79
1.34
1.69
W
1.18
1.50
1.81
2.05
Brakemotor
WT (LB)
18
19
22
26
35
42
C
13.46
14.37
15.16
16.26
18.35
20.35
MP
4.88
4.88
4.88
4.88
6.10
6.10
WT (LB)
21
24
26
31
40
46
Hyponic
A-27
Gearmotors
Hollow Shaft Type, Single Phase Motor
RNYM01~05 – 1230/1330/1430/1530Y – SG (-B)
F
D
C
F
P
G
P
D
L
ZA
L
B DIA
A
N
K
MP
DIA
B DIA
R
A
E
J
AB
A
4X H DIA
E
K
S
Gearmotors
Dimensions
X
A
O
M DIA
T DIA
U DIA BORE
W
W
A-A
V
Inch
Model
RNYM01-1330Y-SG
RNYM02-1430Y-SG
RNYM05-1530Y-SG
Model
RNYM01-1330Y-SG
RNYM02-1430Y-SG
RNYM05-1530Y-SG
A
5.98
7.01
8.39
B min
3.345
3.739
4.329
B max D
3.346 1.81
3.740 2.32
4.331 2.68
U min
1.250
1.375
1.500
Model
RNYM01-1330Y-SG(-B)-80~240
RNYM02-1430Y-SG(-B)-80~240
RNYM05-1530Y-SG(-B)-80~240
E
3.11
3.62
4.29
U max
1.252
1.377
1.502
F
0.35
0.39
0.39
G
3.62
4.65
5.35
H
0.43
0.55
0.71
I
0.69
0.79
-
J
3.62
4.25
5.08
Output Shaft
Key
1/4X1/4
5/16X5/16
3/8X3/8
V
4.33
5.43
6.14
HP
AB
ZA
1/8
1/4
1/2
4.72
4.72
5.12
3.78
K
1.85
2.13
2.52
L
2.36
2.76
3.31
M
1.27
1.40
1.52
N
4.25
5.12
6.18
O
0.87
1.02
1.18
P
0.20
0.20
0.20
Q
3.19
4.13
-
S
0.056
0.056
0.056
Standard Motor
T
1.330
1.461
1.594
X
0.14
0.31
0.37
W
1.81
2.05
2.64
Brakemotor
C
MP
WT (LB)
C
MP
WT (LB)
14.57
16.46
19.61
4.88
4.88
6.10
22
35
55
15.28
17.17
21.30
4.88
4.88
6.10
24
37
62
A-28
R
0.43
0.55
0.67
Hyponic
Gearmotors
Hollow Shaft Type, Inverter Duty
RNYM01~2 – 1120/1220/1320/1420/1520Y – AV (-B)
F
G
D
C
F
L
D
N
P
P
A
ZA
L K
B DIA
B DIA A1
R
J E
MP
DIA
K
E
X
A2
S
M DIA
Gearmotors
Dimensions
O
AB
A
4X H DIA
U DIA BORE
T DIA
W
W
A-A
V
Inch
Model
RNYM01-1120Y-AV
RNYM01~02-1220Y-AV
RNYM02~05-1320Y-AV
RNYM05~1-1420Y-AV
RNYM1~2-1520Y-AV
A1
3.54
4.53
5.20
6.22
7.01
Model
RNYM01-1120Y-AV
RNYM01~02-1220Y-AV
RNYM02~05-1320Y-AV
RNYM05~1-1420Y-AV
RNYM1~2-1520Y-AV
A2
3.46
4.45
5.12
6.10
6.89
B min
2.046
3.070
3.345
3.739
4.329
U min
0.750
1.000
1.250
1.375
1.500
Model
RNYM01-1120Y-AV(-B)-5~30
RNYM01-1220Y-AV(-B)-40~60
RNYM02-1220Y-AV(-B)-5~30
RNYM02-1320Y-AV(-B)-40~60
RNYM05-1320Y-AV(-B)-5~60
RNYM05-1420Y-AV(-B)-40~60
RNYM1-1420Y-AV(-B)-5~30
RNYM1-1520Y-AV(-B)-40~60
RNYM2-1520Y-AV(-B)-5~30
B max
2.047
3.071
3.346
3.740
4.331
U max
0.751
1.001
1.252
1.377
1.502
D
1.30
1.46
1.81
2.32
2.68
E
1.65
2.24
2.44
2.95
3.15
F
0.31
0.35
0.35
0.39
0.39
G
2.60
2.91
3.62
4.65
5.35
H
0.26
0.35
0.43
0.55
0.55
Output Shaft
Key
3/16X3/16
1/4X1/4
1/4X1/4
5/16X5/16
3/8X3/8
V
3.23
3.62
4.33
5.43
6.14
HP
AB
ZA
1/8
1/8
1/4
1/4
1/2
1/2
1
1
2
5.04
5.04
5.04
5.04
5.43
5.43
5.63
5.63
5.91
3.37
3.66
3.86
3.58
3.78
J
1.97
2.60
2.91
3.46
3.70
K
1.26
1.57
1.81
2.24
2.76
M
0.77
1.02
1.27
1.40
1.52
L
1.57
1.93
2.28
2.76
3.31
O
0.63
0.87
0.87
1.02
1.18
N
3.23
3.78
4.69
5.75
7.01
S
0.039
0.046
0.056
0.056
0.056
Standard Motor
C
12.20
13.11
13.90
15.00
16.65
18.66
19.84
21.02
21.77
MP
4.88
4.88
4.88
4.88
6.10
6.10
6.57
6.57
7.09
P
0.24
0.20
0.20
0.20
0.20
R
0.79
1.10
1.08
0.79
1.10
T
0.796
1.066
1.330
1.461
1.594
X
0.87
0.79
1.34
1.69
2.68
W
1.18
1.50
1.81
2.05
2.64
Brakemotor
WT (LB)
15
19
21
24
33
40
49
68
75
C
13.46
14.37
15.16
16.26
18.35
20.35
22.28
23.46
24.25
MP
4.88
4.88
4.88
4.88
6.10
6.10
6.57
6.57
7.09
WT (LB)
19
22
24
29
37
44
57
77
86
Hyponic
A-29
Gearmotors
Hollow Shaft Type, Inverter Duty
RNYM01~2 – 1330/1430/1530/1531Y – AV (-B)
P
D
D
P
L
L
B DIA
B DIA
A
J
C
N
ZA
K
MP DIA
R
A
J
E
AB
I DIA
F
E
F
A
O
Gearmotors
Dimensions
A
K
4X H DIA
Q
G
X
M DIA
S
U DIA BORE
T DIA
W
W
V
A-A
Inch
Model
RNYM01-1330Y-AV
RNYM02-1430Y-AV
RNYM05-1530Y-AV
RNYM1~2-1531Y-AV
Model
RNYM01-1330Y-AV
RNYM02-1430Y-AV
RNYM05-1530Y-AV
RNYM1~2-1531Y-AV
A
5.98
7.01
8.39
8.39
B min
3.345
3.739
4.329
4.329
B max
3.346
3.740
4.331
4.331
U min
1.250
1.375
1.500
1.500
Model
RNYM01-1330Y-AV(-B)-80~240
RNYM02-1430Y-AV(-B)-80~240
RNYM05-1530Y-AV(-B)-80~240
RNYM1-1531Y-AV(-B)-80
RNYM2-1531Y-AV(-B)-40~60
D
1.81
2.32
2.68
2.68
U max
1.252
1.377
1.502
1.502
E
3.11
3.62
4.29
4.29
F
0.35
0.39
0.39
0.39
G
3.62
4.65
5.35
5.35
H
0.43
0.55
0.71
0.71
I
0.69
0.79
-
J
3.62
4.25
5.08
5.08
Output Shaft
Key
1/4X1/4
5/16X5/16
3/8X3/8
3/8X3/8
V
4.33
5.43
6.14
6.14
HP
AB
ZA
1/8
1/4
1/2
1
2
5.04
5.04
5.43
5.63
5.91
3.78
3.98
4.21
K
1.85
2.13
2.52
2.52
L
2.36
2.76
3.31
3.31
M
1.27
1.40
1.52
1.52
O
0.87
1.02
1.18
1.18
N
4.25
5.12
6.18
6.18
P
0.20
0.20
0.20
0.20
S
0.056
0.056
0.056
0.056
Standard Motor
C
14.02
15.91
19.61
20.79
21.57
MP
4.88
4.88
6.10
6.57
7.09
Q
3.19
4.13
-
T
1.330
1.461
1.594
1.594
X
0.14
0.31
0.37
0.37
W
1.81
2.05
2.64
2.64
Brakemotor
WT (LB)
22
35
55
66
75
C
15.28
17.17
21.30
23.23
24.06
MP
4.88
4.88
6.10
6.57
7.09
A-30
R
0.43
0.55
0.67
0.67
WT (LB)
24
37
62
75
86
Hyponic
Gearmotors
RNYM2~5 – 60/63/64Y – AV (-B)
D
P
C
D
P
ZA
L K
B DIA
B DIA
MP
DIA
R
A
J E
AB
I DIA
F
K
L
4X H DIA
Q
G
F
E
J
A
O
S
M DIA
Dimensions
Gearmotors
U DIA BORE
T DIA
W
W
V
A-A
Inch
Model
RNYM2-60Y-AV
RNYM3-63Y-AV
RNYM5-64Y-AV
A
B min B max
11.02
11.02
11.02
Model
RNYM2-60Y-AV
RNYM3-63Y-AV
RNYM5-64Y-AV
5.904
5.904
5.904
5.906
5.906
5.906
D
E
F
G
H
I
J
K
L
P
Q
R
3.66
3.66
3.66
5.71
5.71
5.71
0.75
0.75
0.75
7.32
7.32
7.32
0.87
0.87
0.87
1.26
1.26
1.26
6.69
6.69
6.69
3.35
3.35
3.35
4.33
4.33
4.33
0.47
0.47
0.47
6.46
6.46
6.46
1.06
1.06
1.06
U min
U max
V
Output Shaft
Key
M
O
S
T
W
2.000
2.000
2.000
2.002
2.002
2.002
8.82
8.82
8.82
1/2X1/2
1/2X1/2
1/2X1/2
2.02
2.02
2.02
1.57
1.57
1.57
0.068
0.068
0.068
2.122
2.122
2.122
3.35
3.35
3.35
Model
HP
AB
ZA
RNYM2-60Y-AV(-B)- 80~120
RNYM3-63Y-AV(-B)- 10~50
RNYM5-64Y-AV(-B)- 10~40
2
3
5
5.91
6.54
6.54
6.30
6.30
6.30
Standard Motor
C
24.57
26.65
28.39
MP
7.09
8.74
8.74
Brakemotor
WT (LB)
198
225
243
C
27.05
29.49
31.22
MP
7.09
8.74
8.74
WT (LB)
214
245
262
Hyponic
A-31
Gearmotors
Notes
Gearmotors
A-32
Hyponic
Reducers
B
Speed Reducers
Hollow Shaft Type
Hyponic
B-1
Reducers
Product Range
Table B-1 Reducer Product Range
Frame
Size
1120
1230
1220
1330
1320
1430
1420
1530
1520
1531
Nominal
Ratio (:1)
5 ~ 60
80 ~ 240
5 ~ 60
80 ~ 240
5 ~ 60
80 ~ 240
5 ~ 60
80 ~ 240
5 ~ 60
40 ~ 80
Output Torque at 1750
RPM Input (in•lbs)[1]
41.1 ~ 246
328 ~ 867
82.1 ~ 493
657 ~ 1724
165 ~ 982
1314 ~ 3448
316 ~ 1970
2627 ~ 6470
452 ~ 3793
3612 ~ 5419
Stock
Adaptor[2]
42C ~ 56C
42C ~ 56C
42C ~ 56C
42C ~ 56C
56C ~ 145TC
42C ~ 56C
56C ~ 145TC
56C ~ 145TC
56C ~ 184TC
56C ~ 184TC
Table B-2 Standard Specifications
Item
Reducer
Product
Range
Reducers
Ambient Conditions
Standard Specification
Lubrication
Grease Lubricated. Filled with special high-grade grease prior to shipment from factory.
Reduction
Combination of Hypoid gear and Involute gear.
Material
Casing: Aluminum Alloy, Gear: Chrome-Molybdenum steel
Installation
Indoor (free from water)
Temperature
14 to 104°F
Humidity
85% maximum - no condensation
Altitude
3280 feet
Atmosphere
Free from corrosive gas, explosive gas, or steam. Area to be well ventilated.
Installation Angle
No Limitation
Table B-3 Recommended Reducer Service Factors
LOAD CLASSIFICATIONS
PRIME MOVER
ELECTRIC
MOTOR
UNIFORM
MODERATE SHOCK
HEAVY SHOCK
AGMA
AGMA
AGMA
Occasional 1/2 hr. per day
0.50[3]
0.80[3]
1.25
Intermittent 3 hrs. per day
0.80[3]
1.00
1.50
Up to 10 hrs. per day
1.00
1.25
1.75
24 hours per day
1.25
1.50
2.00
DURATION OF SERVICE
Notes: [1] Please refer to the Reducer Selection Tables for additional input speeds and ratings.
[2] Please consult the factory for availablity of motor adaptors not listed.
[3] Maximum momentary or starting load must not exceed 250% of gear reducer rating (rating meaning service factor of 1.0). Time
specified for occasional and intermittent service refers to total operating time per day.
B-2
Hyponic
Reducers
Table B-4 Load Classification Listed by Application
Agitators
Pure liquids . . . . . . . . . . . . . . . . . . . . . . . . . . . . U
Liquids and solids . . . . . . . . . . . . . . . . . . . . . . . M
Variable-density liquids . . . . . . . . . . . . . . . . . . M
Blowers
Centrifugal . . . . . . . . . . . . . . . . . . . . . . . . . . . . U
Lobe . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M
Vane . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . U
Brewing and Distilling
Bottling machinery . . . . . . . . . . . . . . . . . . . . . . U
Brew kettles, cont. duty . . . . . . . . . . . . . . . . . . . U
Cookers, cont. duty . . . . . . . . . . . . . . . . . . . . . . U
Mash tubs, cont. duty . . . . . . . . . . . . . . . . . . . . U
Scale hopper, frequent starts . . . . . . . . . . . . . . M
Can Filling Machines . . . . . . . . . . . . . . . . . . . . . . . . U
Cane Knives . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M
Car Dumpers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . H
Car Pullers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M
Clarifiers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . U
Classifiers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M
Clay Working Machinery
Brick press . . . . . . . . . . . . . . . . . . . . . . . . . . . . H
Briquette machine . . . . . . . . . . . . . . . . . . . . . . . H
Clay working machinery . . . . . . . . . . . . . . . . . . M
Pug mill . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M
Compressors
Centrifugal . . . . . . . . . . . . . . . . . . . . . . . . . . . . U
Lobe . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M
Reciprocating, multi-cylinder . . . . . . . . . . . . . . M
Reciprocating, single-cylinder . . . . . . . . . . . . . . H
Conveyors — Uniformly Loaded or Fed
Apron . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . U
Assembly . . . . . . . . . . . . . . . . . . . . . . . . . . . . . U
Belt . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . U
Bucket . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . U
Chain . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . U
Flight . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . U
Oven . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . U
Screw . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . U
Conveyors — Heavy Duty, Not Uniformly Fed
Apron . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M
Assembly . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M
Belt . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M
Bucket . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M
Chain . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M
Flight . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M
Live roll oven . . . . . . . . . . . . . . . . . . . . . . . . . . M
Reciprocating . . . . . . . . . . . . . . . . . . . . . . . . . . H
Screw . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M
Shaker . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . H
Cranes (Except for Dry Dock Cranes)
Main hoists . . . . . . . . . . . . . . . . . . . . . . . . . . . . U
Bridge travel . . . . . . . . . . . . . . . . . . . . . . . . . . . S
Trolley travel . . . . . . . . . . . . . . . . . . . . . . . . . . . S
Crusher
Ore . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . H
Stone . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . H
Sugar . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M
Dredges
Cable reels . . . . . . . . . . . . . . . . . . . . . . . . . . . . M
Conveyors . . . . . . . . . . . . . . . . . . . . . . . . . . . . M
Cutter head drives . . . . . . . . . . . . . . . . . . . . . . H
Jig drives . . . . . . . . . . . . . . . . . . . . . . . . . . . . . H
Maneuvering winches . . . . . . . . . . . . . . . . . . . M
Pumps . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M
Screen drive . . . . . . . . . . . . . . . . . . . . . . . . . . . H
Stackers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M
Utility winches . . . . . . . . . . . . . . . . . . . . . . . . . M
Dry Dock Cranes . . . . . . . . . . . . . . . . . . . . . . . . . . . S
Elevators
Bucket, uniform load . . . . . . . . . . . . . . . . . . . . . U
Bucket, heavy load . . . . . . . . . . . . . . . . . . . . . . M
Bucket, cont. . . . . . . . . . . . . . . . . . . . . . . . . . . . U
Centrifugal discharge . . . . . . . . . . . . . . . . . . . . U
Escalators . . . . . . . . . . . . . . . . . . . . . . . . . . . . . U
Freight . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M
Gravity discharge . . . . . . . . . . . . . . . . . . . . . . . U
Man lifts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . S
Passenger . . . . . . . . . . . . . . . . . . . . . . . . . . . . . S
Extruders (Plastics)
Blow molders . . . . . . . . . . . . . . . . . . . . . . . . . . M
Coating . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . U
Film . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . U
Pipe . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . U
Pre-plasticizers . . . . . . . . . . . . . . . . . . . . . . . . . M
Rods . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . U
Sheet . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . U
Tubing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . U
Fans
Centrifugal . . . . . . . . . . . . . . . . . . . . . . . . . . . . U
Cooling towers . . . . . . . . . . . . . . . . . . . . . . . . . S
Forced draft . . . . . . . . . . . . . . . . . . . . . . . . . . . S
Induced draft . . . . . . . . . . . . . . . . . . . . . . . . . . M
Large (mine, etc.) . . . . . . . . . . . . . . . . . . . . . . . M
TYPE OF
APPLICATION
TYPE OF
LOAD
Large (industrial) . . . . . . . . . . . . . . . . . . . . . . . M
Light (small diameter) . . . . . . . . . . . . . . . . . . . . U
Feeders
Apron . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M
Belt . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M
Disc . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . U
Reciprocating . . . . . . . . . . . . . . . . . . . . . . . . . . H
Screw . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M
Food Industry
Beet slicer . . . . . . . . . . . . . . . . . . . . . . . . . . . . M
Cereal cooker . . . . . . . . . . . . . . . . . . . . . . . . . . U
Dough mixer . . . . . . . . . . . . . . . . . . . . . . . . . . . M
Meat grinders . . . . . . . . . . . . . . . . . . . . . . . . . . M
Generators (Not Welding) . . . . . . . . . . . . . . . . . . . . U
Hammer Mills . . . . . . . . . . . . . . . . . . . . . . . . . . . . . H
Hoists
Heavy duty . . . . . . . . . . . . . . . . . . . . . . . . . . . . H
Medium duty . . . . . . . . . . . . . . . . . . . . . . . . . . . M
Skip . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M
Laundry Washers — Reversing . . . . . . . . . . . . . . . M
Laundry Tumblers . . . . . . . . . . . . . . . . . . . . . . . . . . M
Line Shaft
Drive processing equipment . . . . . . . . . . . . . . . M
Light . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . U
Other line shafts . . . . . . . . . . . . . . . . . . . . . . . . U
Lumber Industry
Barkers — hydraulic and mechanical . . . . . . . . S
Burner conveyor . . . . . . . . . . . . . . . . . . . . . . . . M
Chain Saw and Drag Saw . . . . . . . . . . . . . . . . . . . . H
Chain transfer . . . . . . . . . . . . . . . . . . . . . . . . . . H
Craneway transfer . . . . . . . . . . . . . . . . . . . . . . H
De-barking drum . . . . . . . . . . . . . . . . . . . . . . . . H
Edger feed . . . . . . . . . . . . . . . . . . . . . . . . . . . . H
Gang feed . . . . . . . . . . . . . . . . . . . . . . . . . . . . M
Geen chain . . . . . . . . . . . . . . . . . . . . . . . . . . . . M
Live rolls . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . H
Log haul-lockline . . . . . . . . . . . . . . . . . . . . . . . . H
Log turning device . . . . . . . . . . . . . . . . . . . . . . H
Main log conveyor . . . . . . . . . . . . . . . . . . . . . . H
Off bearing rolls . . . . . . . . . . . . . . . . . . . . . . . . M
Planer feed chains . . . . . . . . . . . . . . . . . . . . . . M
Planer floor chains . . . . . . . . . . . . . . . . . . . . . . M
Planer tilting hoist . . . . . . . . . . . . . . . . . . . . . . . M
Re-saw merry-go-round conveyor . . . . . . . . . . M
Roll cases . . . . . . . . . . . . . . . . . . . . . . . . . . . . . H
Slab conveyor . . . . . . . . . . . . . . . . . . . . . . . . . . H
Small waste-conveyor-belt . . . . . . . . . . . . . . . . U
Small waste-conveyor-chain . . . . . . . . . . . . . . M
Sorting table . . . . . . . . . . . . . . . . . . . . . . . . . . . M
Tipple hoist conveyor . . . . . . . . . . . . . . . . . . . . M
Tipple hoist drive . . . . . . . . . . . . . . . . . . . . . . . M
Transfer conveyors . . . . . . . . . . . . . . . . . . . . . M
Transfer rolls . . . . . . . . . . . . . . . . . . . . . . . . . . M
Tray drive . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M
Trimmer feed . . . . . . . . . . . . . . . . . . . . . . . . . . M
Waste conveyor . . . . . . . . . . . . . . . . . . . . . . . . M
Machine Tools
Bending roll . . . . . . . . . . . . . . . . . . . . . . . . . . . M
Notching press, belt driven . . . . . . . . . . . . . . . . S
Plate planer . . . . . . . . . . . . . . . . . . . . . . . . . . . H
Punch press, gear driven . . . . . . . . . . . . . . . . . H
Tapping machine . . . . . . . . . . . . . . . . . . . . . . . H
Other machine tools
Main drives . . . . . . . . . . . . . . . . . . . . . . . . M
Auxiliary drives . . . . . . . . . . . . . . . . . . . . . . U
Metal Mills
Draw bench carriage and main drive . . . . . . . . M
Forming machines . . . . . . . . . . . . . . . . . . . . . . H
Pinch, dryer and scrubber rolls, reversing . . . . S
Slitters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M
Table conveyors, nonreversing
Group drives . . . . . . . . . . . . . . . . . . . . . . . M
Individual drives . . . . . . . . . . . . . . . . . . . . . H
Table conveyors, reversing . . . . . . . . . . . . . . . . S
Wire drawing and flattening machine . . . . . . . . M
Wire winding machine . . . . . . . . . . . . . . . . . . . M
Mills, Rotary Type
Ball . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M
Cement kilns . . . . . . . . . . . . . . . . . . . . . . . . . . M
Dryers and coolers . . . . . . . . . . . . . . . . . . . . . . M
Kilns . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M
Pebble . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M
Rod, plain and wedge bar . . . . . . . . . . . . . . . . M
Tumbling barrels . . . . . . . . . . . . . . . . . . . . . . . . H
Mixers
Concrete mixers, cont. . . . . . . . . . . . . . . . . . . . M
Concrete mixers, intermittent . . . . . . . . . . . . . . M
Constant density . . . . . . . . . . . . . . . . . . . . . . . . U
Variable density . . . . . . . . . . . . . . . . . . . . . . . . M
Oil Industry
Chillers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M
Oil well pumps . . . . . . . . . . . . . . . . . . . . . . . . . S
Paraffin filter press . . . . . . . . . . . . . . . . . . . . . . M
Rotary kilns . . . . . . . . . . . . . . . . . . . . . . . . . . . M
TYPE OF
APPLICATION
TYPE OF
LOAD
Paper Mills
Agitators (mixers) . . . . . . . . . . . . . . . . . . . . . . . M
Barker, hydraulic . . . . . . . . . . . . . . . . . . . . . . . M
Barker, mechnical . . . . . . . . . . . . . . . . . . . . . . M
Barking drum . . . . . . . . . . . . . . . . . . . . . . . . . . H
Beater and pulper . . . . . . . . . . . . . . . . . . . . . . . M
Bleacher . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . U
Calenders . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M
Calenders, super . . . . . . . . . . . . . . . . . . . . . . . H
Converting machine (except cutters, platers) . . M
Conveyors . . . . . . . . . . . . . . . . . . . . . . . . . . . . U
Couch . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M
Cutters, platers . . . . . . . . . . . . . . . . . . . . . . . . . H
Cylinders . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M
Dryers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M
Felt stretcher . . . . . . . . . . . . . . . . . . . . . . . . . . M
Felt whipper . . . . . . . . . . . . . . . . . . . . . . . . . . . H
Jordans . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . H
Log haul . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . H
Presses . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . U
Pulp machine reel . . . . . . . . . . . . . . . . . . . . . . M
Stock chest . . . . . . . . . . . . . . . . . . . . . . . . . . . . M
Suction roll . . . . . . . . . . . . . . . . . . . . . . . . . . . . . U
Washers and thickeners . . . . . . . . . . . . . . . . . . M
Winders . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . U
Printing Presses . . . . . . . . . . . . . . . . . . . . . . . . . . . S
Pullers, Barge Haul . . . . . . . . . . . . . . . . . . . . . . . . . H
Pumps
Centrifugal . . . . . . . . . . . . . . . . . . . . . . . . . . . . U
Proportioning . . . . . . . . . . . . . . . . . . . . . . . . . . M
Reciprocating
Single acting, 3 or more cylinders . . . . . . . M
Double acting, 2 or more cylinders . . . . . . M
Rotary-gear type . . . . . . . . . . . . . . . . . . . . . . . . U
Rubber and Plastics Industries
Crackers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . H
Laboratory equipment . . . . . . . . . . . . . . . . . . . M
Mixing mills . . . . . . . . . . . . . . . . . . . . . . . . . . . . H
Refiners . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M
Rubber calenders . . . . . . . . . . . . . . . . . . . . . . . M
Rubber mill (2 on line) . . . . . . . . . . . . . . . . . . . M
Rubber mill (3 on line) . . . . . . . . . . . . . . . . . . . U
Sheeter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M
Tire building machines . . . . . . . . . . . . . . . . . . . S
Tire and tube press openers . . . . . . . . . . . . . . . S
Tubers and strainers . . . . . . . . . . . . . . . . . . . . M
Warming mills . . . . . . . . . . . . . . . . . . . . . . . . . . M
Sand Muller . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M
Screens
Air washing . . . . . . . . . . . . . . . . . . . . . . . . . . . . U
Rotary, stone or gravel . . . . . . . . . . . . . . . . . . . M
Traveling water intake . . . . . . . . . . . . . . . . . . . U
Sewage Disposal Equipment
Bar screens . . . . . . . . . . . . . . . . . . . . . . . . . . . U
Chemical fenders . . . . . . . . . . . . . . . . . . . . . . . U
Collectors, circuline or straightline . . . . . . . . . . U
Dewatering screens . . . . . . . . . . . . . . . . . . . . . M
Grit collectors . . . . . . . . . . . . . . . . . . . . . . . . . . U
Scum breakers . . . . . . . . . . . . . . . . . . . . . . . . . M
Slow or rapid mixers . . . . . . . . . . . . . . . . . . . . . M
Sludge collectors . . . . . . . . . . . . . . . . . . . . . . . U
Thickeners . . . . . . . . . . . . . . . . . . . . . . . . . . . . M
Vacuum filters . . . . . . . . . . . . . . . . . . . . . . . . . M
Slab Pushers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M
Steering Gear . . . . . . . . . . . . . . . . . . . . . . . . . . . . . S
Stokers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .U
Sugar Industry
Cane knives . . . . . . . . . . . . . . . . . . . . . . . . . . . M
Crushers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M
Mills . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . H
Textile Industry
Batchers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M
Calenders . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M
Cards . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M
Dry cans . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M
Dryers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M
Dyeing machinery . . . . . . . . . . . . . . . . . . . . . . M
Knitting machines . . . . . . . . . . . . . . . . . . . . . . . S
Looms . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M
Mangles . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M
Nappers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M
Pads . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M
Range drives . . . . . . . . . . . . . . . . . . . . . . . . . . . S
Slashers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M
Soapers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M
Spinners . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M
Tenter frames . . . . . . . . . . . . . . . . . . . . . . . . . . M
Washers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M
Winders . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M
Windlass . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . S
U = Uniform Load
M = Moderate Shock
H = Heavy Shock
S = Contact Sumitomo
B-3
Reducers
AGMA
TYPE OF
LOAD
Load
Classifications
TYPE OF
APPLICATION
Reducers
Reducer Selection Flowchart
DETERMINE TYPE OF DRIVEN MACHINE
CHECK HOURS OF OPERATION
See Load Classification Table, Page B-3
See Service Factor Table, Page B-2
CHOOSE A LOAD CLASSIFICATION
CALCULATE SELECTION HORSEPOWER
DETERMINE INPUT AND OUTPUT SPEEDS
See Reducer Selection Tables, Pages B-6 ~ B-21
MAKE A PRELIMINARY SELECTION
Selection
Flowchart
Reducers
DIRECT
CONNECT
OUTPUT
YES
NO
YES
DETERMINE OVERHUNG LOAD
OHL<
OHL IN
TABLES
SELECT MOUNTING STYLE
NO
LARGER UNIT OR DECREASE OHL
CHECK OPERATING ENVIRONMENT
See Standard Specifications, Page B-2
FINALIZE REQUIRED OPTIONS
B-4
Hyponic
Reducers
Reducer Selection Procedure
The following information is required to properly select a Hyponic® Reducer
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
Application – Type of Driven Machine
Hours of Operation per Day
Motor Power and Speed
Desired Output Speed
Mounting Position and Style
Environmental Conditions
Required Options
Electrical Specifications
Overhung or Thrust Loads
Shaft Dimensions – Inch or Metric
Example:
Belt Conveyor – Uniformly Fed
10 Hours of Operation per Day
2 HP Motor, 1750 RPM 145TC
37 RPM
Horizontal, Foot Mounted
Inside Industrial Plant
C Face Adapter
460 Volts, 60 Hertz, 3 phase
None – Direct Coupled Output
Inch Shafting
Review the Basic Information and Recommendations on pages 4 and 5, then proceed to Selection Example 1.
Selection Example 1
Step 1
Using the information above, choose a Load Classification in the Application Table (page B-3): Conveyors – Uniformly
Loaded or Fed = U. Determine the service factor from the Service Factor Table (page B-2): Electric motor prime
mover, operating 10 hours per day, with uniform loading = 1.00 service factor.
Step 2
Multiply either the motor horsepower or demand horsepower by the service factor:
2 motor horsepower X 1.00 service factor = 2.0 selection horsepower
Are there any overhung or thrust loads? For shaft mounted or direct connected units, proceed to Step 4. Otherwise,
any overhung or thrust loads must be checked against the capability of the selection.
To check overhung load use this formula:
Overhung = 126,000 x HP x Cf x Lf x Fs
Load (OHL)
DxN
HP: Transmitted or Motor HP
Cf: Load Connection Factor
Lf: Load Location Factor
D: Pitch Diameter (in)
N: Shaft RPM
Fs: Shock factor
The specific values for the overhung load factors, as well as a method to evaluate thrust loads, are listed on page D-5
in the Technical Information Section.
Step 4
Select the desired mounting position and housing style from the nomenclature on page 2. The shaft mounted
designation is RNY. The unit nomenclature is RNYJ-1520Y- 50.
Step 5
Check environmental conditions against the Standard Specifications on page B-2: inside industrial plant. No
environmental modifications required.
Step 6
Specify desired specifications and options: 145TC motor adapter, 1-1/2” hollow bore.
Hyponic
B-5
Reducers
Selection
Procedure
Step 3
Go to the Reducer Selection Table (pages B-6 ~ 21)for the correct input speed. Find the ratio providing the output
speed closest to the desired speed. At 1750 RPM, the closest speed to 37 RPM is 35 RPM. The ratio for this speed
is 50:1. Go down the column to a selection equal to or next closest to the selection horsepower of 2 HP. The 2.07 HP
rating for frame size 1520, having a ratio of 50:1, exceeds 2 HP.
Reducers
1750 RPM Input Speed
Frame
Size
1120
1230
Output RPM
Nominal Ratio
350
5
250
7
175
10
146
12
117
15
87.5
20
70
25
58.3
30
43.8
40
Input HP
0.268
0.268
0.268
0.268
0.268
0.268
0.268
0.268
0.134
Output Torque in•lbs
41.1
57.5
82.1
98.5
123
164
205
246
164
Hollow Bore OHL lbs
132
143
165
176
187
210
220
232
254
Input HP
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
Hollow Bore OHL lbs
1220
1330
—
—
—
—
—
—
—
—
—
Input HP
0.536
0.536
0.536
0.536
0.536
0.536
0.536
0.536
0.268
82.1
115
164
197
246
328
411
493
328
Hollow Bore OHL lbs
187
210
232
243
265
297
308
330
353
Input HP
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
Hollow Bore OHL lbs
1320
1430
Selection
Tables
Reducers
—
—
—
—
—
—
—
—
—
Input HP
1.07
1.07
1.07
1.07
1.07
1.07
1.07
1.07
0.54
165
230
329
395
493
658
822
982
658
Hollow Bore OHL lbs
308
353
387
407
441
486
508
528
573
Input HP
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
Hollow Bore OHL lbs
1420
1530
—
—
—
—
—
—
—
—
—
Input HP
2.07
2.07
2.07
2.07
2.07
2.07
2.07
2.07
1.07
316
443
632
759
948
1264
1580
1897
1314
Hollow Bore OHL lbs
463
517
584
618
661
717
760
805
859
Input HP
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
Hollow Bore OHL lbs
1520
1531
B-6
—
—
—
—
—
—
—
—
—
Input HP
3.00
3.00
3.00
3.00
3.00
3.00
3.00
3.00
2.07
459
643
918
1101
1374
1837
2296
2757
2529
Hollow Bore OHL lbs
660
745
835
890
945
1035
1100
1155
1245
Input HP
—
—
—
—
—
—
—
—
3.00
—
—
—
—
—
—
—
—
3669
Hollow Bore OHL lbs
—
—
—
—
—
—
—
—
1245
Hyponic
Reducers
1750 RPM Input Speed (con’t.)
35.0
50
29.2
60
21.9
80
17.5
100
14.6
120
11.7
150
8.75
200
7.29
240
Output RPM
Nominal Ratio
0.134
0.134
—
—
—
—
—
—
205
246
—
—
—
—
—
—
277
285
—
—
—
—
—
—
Hollow Bore OHL lbs
—
—
0.134
0.134
0.134
0.134
0.134
0.118
—
—
328
411
493
616
821
867
—
—
398
398
407
407
407
407
Hollow Bore OHL lbs
0.268
0.268
—
—
—
—
—
—
Dimension
Page
1120
B-22
1230
B-23
1220
B-22
1330
B-23
1320
B-22
1430
B-23
Input HP
Input HP
Input HP
411
493
—
—
—
—
—
—
375
387
—
—
—
—
—
—
Hollow Bore OHL lbs
—
—
0.268
0.268
0.268
0.268
0.268
0.235
Input HP
—
—
657
821
985
1232
1642
1724
—
—
398
398
407
407
407
407
Hollow Bore OHL lbs
0.54
0.54
—
—
—
—
—
—
Input HP
982
—
—
—
—
—
—
638
—
—
—
—
—
—
Hollow Bore OHL lbs
—
—
0.536
0.536
0.536
0.536
0.536
0.469
Input HP
—
—
1314
1642
1970
2463
3284
3448
—
—
960
980
980
980
980
980
Hollow Bore OHL lbs
1.07
1.07
—
—
—
—
—
—
Input HP
1642
1970
—
—
—
—
—
—
904
937
—
—
—
—
—
—
Hollow Bore OHL lbs
—
—
1.07
1.07
1.07
1.07
1.06
0.880
Input HP
—
—
2627
3284
3941
4926
6470
6463
—
—
1378
1401
1401
1401
1401
1401
2.07
2.07
—
—
—
—
—
—
Reducers
1420
B-22
1530
B-23
1520
B-22
1531
B-23
Selection
Tables
822
618
Hollow Bore OHL lbs
Input HP
3161
3793
—
—
—
—
—
—
1311
1356
—
—
—
—
—
—
Hollow Bore OHL lbs
3.00
3.00
2.07
—
—
—
—
—
Input HP
4592
5504
5057
—
—
—
—
—
1310
1355
1378
—
—
—
—
—
Hollow Bore OHL lbs
Hyponic
Frame
Size
B-7
Reducers
Frame
Size
1120
1230
Output RPM
Nominal Ratio
290
5
207
7
145
10
121
12
96.7
15
72.5
20
58.0
25
48.3
30
36.3
40
Input HP
0.268
0.268
0.268
0.268
0.268
0.268
0.268
0.268
0.134
49.5
69.4
99.1
119
149
198
248
297
198
Hollow Bore OHL lbs
143
154
176
187
198
221
232
243
265
Input HP
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
Hollow Bore OHL lbs
1220
1330
—
—
—
—
—
—
—
—
—
Input HP
0.536
0.536
0.536
0.536
0.536
0.536
0.536
0.536
0.268
99.1
139
198
238
297
396
495
595
396
Hollow Bore OHL lbs
198
221
243
254
277
308
330
342
364
Input HP
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
Hollow Bore OHL lbs
1320
1430
Selection
Tables
Reducers
—
—
—
—
—
—
—
—
—
Input HP
1.07
1.07
1.07
1.07
1.07
1.07
1.07
1.07
0.54
198
277
396
476
595
793
991
1189
793
Hollow Bore OHL lbs
330
375
407
429
463
508
528
551
596
Input HP
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
Hollow Bore OHL lbs
1420
1530
—
—
—
—
—
—
—
—
—
Input HP
2.07
2.07
2.07
2.07
2.07
2.07
2.07
2.07
1.07
381
534
763
916
1144
1526
1907
2289
1585
Hollow Bore OHL lbs
486
551
618
638
695
749
794
839
892
Input HP
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
Hollow Bore OHL lbs
1520
1531
B-8
—
—
—
—
—
—
—
—
—
Input HP
2.95
2.95
2.95
2.95
2.95
2.95
2.95
2.95
2.07
545
763
1090
1308
1635
2180
2725
3270
3052
Hollow Bore OHL lbs
706
794
881
926
991
1081
1146
1200
1290
Input HP
—
—
—
—
—
—
—
—
2.95
—
—
—
—
—
—
—
—
4360
Hollow Bore OHL lbs
—
—
—
—
—
—
—
—
1290
Hyponic
Reducers
29.0
50
24.2
60
18.1
80
14.5
100
12.1
120
9.67
150
7.25
200
6.04
240
Output RPM
Nominal Ratio
0.134
0.134
—
—
—
—
—
—
Input HP
248
297
—
—
—
—
—
—
285
297
—
—
—
—
—
—
Hollow Bore OHL lbs
—
—
0.134
0.134
0.134
0.134
0.117
0.098
—
—
396
495
595
743
862
868
—
—
398
407
407
407
407
407
Hollow Bore OHL lbs
0.268
0.268
—
—
—
—
—
—
Input HP
Dimension
Page
1120
B-22
1230
B-23
1220
B-22
1330
B-23
1320
B-22
1430
B-23
Input HP
595
—
—
—
—
—
—
398
—
—
—
—
—
—
Hollow Bore OHL lbs
—
—
0.268
0.268
0.268
0.268
0.233
0.194
Input HP
—
—
793
991
1189
1486
1724
1724
Hollow Bore OHL lbs
—
—
661
695
695
695
695
695
0.536
0.536
—
—
—
—
—
—
Input HP
991
1189
—
—
—
—
—
—
638
661
—
—
—
—
—
—
Hollow Bore OHL lbs
—
—
0.536
0.536
0.536
0.536
0.467
0.389
Input HP
—
—
1585
1982
2378
2973
3448
3448
—
—
969
980
980
980
980
980
Hollow Bore OHL lbs
1.07
1.07
—
—
—
—
—
—
Input HP
1982
2378
—
—
—
—
—
—
937
969
—
—
—
—
—
—
Hollow Bore OHL lbs
—
—
1.07
1.07
1.07
1.07
0.876
0.730
Input HP
—
—
3171
3964
4756
5945
6470
6468
—
—
1401
1401
1401
1401
1401
1401
2.07
2.07
—
—
—
—
—
—
Input HP
3815
4578
—
—
—
—
—
—
1356
1401
—
—
—
—
—
—
Hollow Bore OHL lbs
Reducers
1420
B-22
1530
B-23
1520
B-22
1531
B-23
Selection
Tables
495
387
Hollow Bore OHL lbs
2.95
2.95
2.07
—
—
—
—
—
Input HP
5450
6540
6104
—
—
—
—
—
1356
1401
1401
—
—
—
—
—
Hollow Bore OHL lbs
Hyponic
Frame
Size
B-9
Reducers
Frame
Size
1120
1230
Output RPM
Nominal Ratio
233
5
166
7
117
10
97.1
12
77.7
15
58.3
20
46.6
25
38.8
30
29.1
40
Input HP
0.216
0.216
0.216
0.216
0.216
0.216
0.216
0.216
0.107
49.6
69.5
99.3
119.1
148.9
198.6
248.2
297.8
197.3
Hollow Bore OHL lbs
143
165
187
198
210
232
243
265
285
Input HP
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
Hollow Bore OHL lbs
1220
1330
—
—
—
—
—
—
—
—
—
Input HP
0.430
0.430
0.430
0.430
0.430
0.430
0.430
0.430
0.216
99.0
138.6
197.9
237.5
296.9
395.9
494.9
593.8
397.1
Hollow Bore OHL lbs
210
232
265
277
297
330
342
364
387
Input HP
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
Hollow Bore OHL lbs
1320
1430
Selection
Tables
Reducers
—
—
—
—
—
—
—
—
—
Input HP
0.862
0.862
0.862
0.862
0.862
0.862
0.862
0.862
0.430
198
278
397
476
595
793
991
1190
792
Hollow Bore OHL lbs
364
398
441
463
497
528
562
596
638
Input HP
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
Hollow Bore OHL lbs
1420
1530
—
—
—
—
—
—
—
—
—
Input HP
1.66
1.66
1.66
1.66
1.66
1.66
1.66
1.66
0.862
381
534
763
915
1144
1526
1907
2288
1586
Hollow Bore OHL lbs
528
596
661
695
749
805
850
881
937
Input HP
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
Hollow Bore OHL lbs
1520
1531
B-10
—
—
—
—
—
—
—
—
—
Input HP
2.37
2.37
2.37
2.37
2.37
2.36
2.37
2.37
1.66
546
764
1091
1310
1637
2183
2729
3274
3051
Hollow Bore OHL lbs
760
859
949
991
1059
1146
1223
1268
1356
Input HP
—
—
—
—
—
—
—
—
2.37
—
—
—
—
—
—
—
—
4366
Hollow Bore OHL lbs
—
—
—
—
—
—
—
—
1356
Hyponic
Reducers
23.3
50
19.4
60
14.6
80
11.7
100
9.71
120
7.77
150
5.83
200
4.85
240
Output RPM
Nominal Ratio
0.107
0.107
—
—
—
—
—
—
Input HP
246.7
296.0
—
—
—
—
—
—
297
297
—
—
—
—
—
—
Hollow Bore OHL lbs
—
—
0.107
0.107
0.107
0.107
0.094
0.079
—
—
395
493
592
740
863
873
Dimension
Page
1120
B-22
1230
B-23
1220
B-22
1330
B-23
1320
B-22
1430
B-23
Input HP
—
—
398
407
407
407
407
407
0.216
0.216
—
—
—
—
—
—
Input HP
496.4
595.7
—
—
—
—
—
—
387
398
—
—
—
—
—
—
Hollow Bore OHL lbs
—
—
0.216
0.216
0.216
0.216
0.188
0.157
Input HP
—
—
794
993
1191
1489
1727
1732
Hollow Bore OHL lbs
—
695
695
695
695
695
695
0.430
—
—
—
—
—
—
Input HP
Hollow Bore OHL lbs
990
1188
—
—
—
—
—
—
661
695
—
—
—
—
—
—
Hollow Bore OHL lbs
—
—
0.430
0.430
0.430
0.430
0.375
0.312
Input HP
—
—
1584
1979
2375
2969
3453
3448
—
—
980
980
980
980
980
980
Hollow Bore OHL lbs
0.862
0.862
—
—
—
—
—
—
Input HP
1983
2379
—
—
—
—
—
—
980
980
—
—
—
—
—
—
Hollow Bore OHL lbs
—
—
0.862
0.862
0.862
0.862
0.703
0.586
Input HP
—
—
3172
3965
4758
5948
6462
6467
—
—
1401
1401
1401
1401
1401
1401
1.66
1.66
—
—
—
—
—
—
Reducers
1420
B-22
1530
B-23
1520
B-22
1531
B-23
Hollow Bore OHL lbs
Input HP
3814
4577
—
—
—
—
—
—
1401
1401
—
—
—
—
—
—
Hollow Bore OHL lbs
2.37
2.37
1.66
—
—
—
—
—
Input HP
5457
6549
6102
—
—
—
—
—
1401
1401
1401
—
—
—
—
—
Hollow Bore OHL lbs
B-11
Selection
Tables
—
0.430
Hyponic
Frame
Size
Reducers
980 RPM Input Speed
Frame
Size
1120
1230
Output RPM
Nominal Ratio
196
5
140
7
98.0
10
81.7
12
65.3
15
49.0
20
39.2
25
32.7
30
24.5
40
Input HP
0.181
0.181
0.181
0.181
0.181
0.181
0.181
0.181
0.091
49.5
69.3
99.0
118.8
148.4
197.9
247.4
296.9
199.4
Hollow Bore OHL lbs
154
176
198
210
221
243
265
277
297
Input HP
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
Hollow Bore OHL lbs
1220
1330
—
—
—
—
—
—
—
—
—
Input HP
0.362
0.362
0.362
0.326
0.362
0.362
0.362
0.362
0.181
99.0
138.5
197.9
237.5
296.9
395.8
494.8
593.8
395.8
Hollow Bore OHL lbs
221
243
277
285
319
342
364
375
398
Input HP
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
Hollow Bore OHL lbs
1320
1430
Selection
Tables
Reducers
—
—
—
—
—
—
—
—
—
Input HP
0.725
0.725
0.725
0.725
0.725
0.725
0.725
0.725
0.362
198
278
397
476
595
793
991
1190
792
Hollow Bore OHL lbs
375
407
463
486
517
551
596
627
661
Input HP
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
Hollow Bore OHL lbs
1420
1530
—
—
—
—
—
—
—
—
—
Input HP
1.40
1.40
1.40
1.40
1.40
1.40
1.40
1.40
0.725
382
534
763
916
1145
1526
1908
2289
1586
Hollow Bore OHL lbs
562
618
695
728
771
839
881
915
969
Input HP
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
Hollow Bore OHL lbs
1520
1531
B-12
—
—
—
—
—
—
—
—
—
Input HP
2.00
2.00
2.00
2.00
2.00
2.00
2.00
2.00
1.40
546
765
1092
1311
1638
2184
2731
3277
3052
Hollow Bore OHL lbs
688
892
991
1059
1124
1191
1257
1322
1389
Input HP
—
—
—
—
—
—
—
—
2.00
—
—
—
—
—
—
—
—
4369
Hollow Bore OHL lbs
—
—
—
—
—
—
—
—
1401
Hyponic
Reducers
19.6
50
16.3
60
12.3
80
9.80
100
8.17
120
6.53
150
4.90
200
4.08
240
Output RPM
Nominal Ratio
0.091
0.091
—
—
—
—
—
—
Input HP
249.2
299.1
—
—
—
—
—
—
297
297
—
—
—
—
—
—
Hollow Bore OHL lbs
—
—
0.091
0.091
0.091
0.091
0.079
0.066
—
—
399
498
598
748
865
862
Dimension
Page
1120
B-22
1230
B-23
1220
B-22
1330
B-23
1320
B-22
1430
B-23
Input HP
—
—
407
407
407
407
407
407
0.181
0.181
—
—
—
—
—
—
Input HP
494.8
593.8
—
—
—
—
—
—
407
407
—
—
—
—
—
—
Hollow Bore OHL lbs
—
—
0.181
0.181
0.181
0.181
0.158
0.131
Input HP
—
—
792
990
1188
1484
1730
1724
Hollow Bore OHL lbs
—
695
695
695
695
695
695
0.362
—
—
—
—
—
—
Input HP
Hollow Bore OHL lbs
990
1188
—
—
—
—
—
—
695
695
—
—
—
—
—
—
Hollow Bore OHL lbs
—
—
0.362
0.362
0.362
0.362
0.315
0.263
Input HP
—
—
1583
1979
2375
2969
3445
3448
—
—
980
980
980
980
980
980
Hollow Bore OHL lbs
0.725
0.725
—
—
—
—
—
—
Input HP
1983
2379
—
—
—
—
—
—
980
980
—
—
—
—
—
—
Hollow Bore OHL lbs
—
—
0.725
0.725
0.725
0.725
0.591
0.493
Input HP
—
—
3173
3966
4759
5949
6466
6474
—
—
1401
1401
1401
1401
1401
1401
1.40
1.40
—
—
—
—
—
—
Reducers
1420
B-22
1530
B-23
1520
B-22
1531
B-23
Hollow Bore OHL lbs
Input HP
3816
4579
—
—
—
—
—
—
1401
1401
—
—
—
—
—
—
Hollow Bore OHL lbs
2.00
2.00
1.40
—
—
—
—
—
Input HP
5461
6553
6105
—
—
—
—
—
1401
1401
1401
—
—
—
—
—
Hollow Bore OHL lbs
B-13
Selection
Tables
—
0.362
Hyponic
Frame
Size
Reducers
870 RPM Input Speed
Frame
Size
1120
1230
Output RPM
Nominal Ratio
174
5
124
7
87.0
10
72.5
12
58.0
15
43.5
20
34.8
25
29.0
30
21.8
40
Input HP
0.161
0.161
0.161
0.161
0.161
0.161
0.161
0.161
0.080
49.5
69.4
99.1
118.9
148.6
198.2
247.7
297.3
198.2
Hollow Bore OHL lbs
165
187
210
221
232
254
277
285
297
Input HP
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
Hollow Bore OHL lbs
1220
1330
—
—
—
—
—
—
—
—
—
Input HP
0.322
0.322
0.322
0.322
0.322
0.322
0.322
0.322
0.161
99.1
138.7
198.2
237.8
297.3
396.4
495.4
594.5
396.4
Hollow Bore OHL lbs
232
254
285
308
330
353
375
387
407
Input HP
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
Hollow Bore OHL lbs
1320
1430
Selection
Tables
Reducers
—
—
—
—
—
—
—
—
—
Input HP
0.644
0.644
0.644
0.644
0.644
0.644
0.644
0.644
0.322
198
277
396
476
595
793
991
1189
793
Hollow Bore OHL lbs
387
429
486
508
528
573
618
638
672
Input HP
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
Hollow Bore OHL lbs
1420
1530
—
—
—
—
—
—
—
—
—
Input HP
1.24
1.24
1.24
1.24
1.24
1.24
1.24
1.24
0.644
381
534
763
916
1144
1526
1907
2289
1585
Hollow Bore OHL lbs
584
638
717
749
794
859
904
937
980
Input HP
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
Hollow Bore OHL lbs
1520
1531
B-14
—
—
—
—
—
—
—
—
—
Input HP
1.77
1.77
1.77
1.77
1.77
1.77
1.77
1.77
1.24
545
763
1090
1308
1635
2180
2725
3270
3052
Hollow Bore OHL lbs
839
915
1036
1081
1146
1234
1302
1356
1401
Input HP
—
—
—
—
—
—
—
—
1.77
—
—
—
—
—
—
—
—
4360
Hollow Bore OHL lbs
—
—
—
—
—
—
—
—
1401
Hyponic
Reducers
17.4
50
14.5
60
10.9
80
8.70
100
7.25
120
5.80
150
4.35
200
3.63
240
Output RPM
Nominal Ratio
0.080
0.080
—
—
—
—
—
—
Input HP
247.7
297.3
—
—
—
—
—
—
297
297
—
—
—
—
—
—
Hollow Bore OHL lbs
—
—
0.080
0.080
0.080
0.080
0.070
0.059
—
—
396
495
595
743
859
872
Dimension
Page
1120
B-22
1230
B-23
1220
B-22
1330
B-23
1320
B-22
1430
B-23
Input HP
—
—
407
407
407
407
407
407
0.161
0.161
—
—
—
—
—
—
Input HP
495.4
594.5
—
—
—
—
—
—
407
407
—
—
—
—
—
—
Hollow Bore OHL lbs
—
—
0.161
0.161
0.161
0.161
0.139
0.117
Input HP
—
—
793
991
1189
1486
1718
1724
Hollow Bore OHL lbs
—
695
695
695
695
695
695
0.322
—
—
—
—
—
—
Input HP
Hollow Bore OHL lbs
991
1189
—
—
—
—
—
—
695
695
—
—
—
—
—
—
Hollow Bore OHL lbs
—
—
0.322
0.322
0.322
0.322
0.280
0.233
Input HP
—
—
1585
1982
2378
2973
3452
3448
—
—
980
980
980
980
980
980
Hollow Bore OHL lbs
0.644
0.644
—
—
—
—
—
—
Input HP
1982
2378
—
—
—
—
—
—
980
980
—
—
—
—
—
—
Hollow Bore OHL lbs
—
—
0.644
0.644
0.644
0.644
0.526
0.437
Input HP
—
—
3171
3964
4756
5945
6474
6461
—
—
1401
1401
1401
1401
1401
1401
1.24
1.24
—
—
—
—
—
—
Reducers
1420
B-22
1530
B-23
1520
B-22
1531
B-23
Hollow Bore OHL lbs
Input HP
3815
4578
—
—
—
—
—
—
1401
1401
—
—
—
—
—
—
Hollow Bore OHL lbs
1.77
1.77
1.24
—
—
—
—
—
Input HP
5450
6540
6104
—
—
—
—
—
1401
1401
1401
—
—
—
—
—
Hollow Bore OHL lbs
B-15
Selection
Tables
—
0.322
Hyponic
Frame
Size
Reducers
720 RPM Input Speed
Frame
Size
1120
1230
Output RPM
Nominal Ratio
144
5
103
7
72.0
10
60.0
12
48.0
15
36.0
20
28.8
25
24.0
30
18.0
40
Input HP
0.133
0.133
0.133
0.133
0.133
0.133
0.133
0.133
0.067
49.4
69.1
98.8
118.5
148.2
197.6
246.9
296.3
199.6
Hollow Bore OHL lbs
176
198
221
232
243
265
285
297
297
Input HP
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
Hollow Bore OHL lbs
1220
1330
—
—
—
—
—
—
—
—
—
Input HP
0.267
0.267
0.267
0.267
0.267
0.267
0.267
0.267
0.133
99.3
139.0
198.6
238.3
297.8
397.1
496.4
595.7
395.1
Hollow Bore OHL lbs
243
265
308
330
342
364
387
398
407
Input HP
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
Hollow Bore OHL lbs
1320
1430
Selection
Tables
Reducers
—
—
—
—
—
—
—
—
—
Input HP
0.532
0.532
0.532
0.532
0.532
0.532
0.532
0.532
0.267
198
277
396
475
594
792
990
1188
794
Hollow Bore OHL lbs
407
463
508
528
562
607
638
661
695
Input HP
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
Hollow Bore OHL lbs
1420
1530
—
—
—
—
—
—
—
—
—
Input HP
1.03
1.03
1.03
1.03
1.03
1.03
1.03
1.03
0.532
382
534
763
916
1145
1527
1908
2290
1584
Hollow Bore OHL lbs
618
683
749
794
839
892
937
969
980
Input HP
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
Hollow Bore OHL lbs
1520
1531
B-16
—
—
—
—
—
—
—
—
—
Input HP
1.46
1.46
1.46
1.46
1.46
1.46
1.46
1.46
1.03
545
763
1090
1307
1634
2179
2724
3269
3053
Hollow Bore OHL lbs
881
969
1081
1146
1212
1302
1356
1401
1401
Input HP
—
—
—
—
—
—
—
—
1.46
—
—
—
—
—
—
—
—
4358
Hollow Bore OHL lbs
—
—
—
—
—
—
—
—
1401
Hyponic
Reducers
14.4
50
12.0
60
9.00
80
7.20
100
6.00
120
4.80
150
3.60
200
3.00
240
Output RPM
Nominal Ratio
0.067
0.067
—
—
—
—
—
—
Input HP
249.4
299.3
—
—
—
—
—
—
297
297
—
—
—
—
—
—
Hollow Bore OHL lbs
—
—
0.067
0.067
0.067
0.067
0.058
0.048
—
—
399
499
599
748
858
862
Hollow Bore OHL lbs
Dimension
Page
1120
B-22
1230
B-23
1220
B-22
1330
B-23
1320
B-22
1430
B-23
Input HP
—
407
407
407
407
407
407
0.133
—
—
—
—
—
—
Input HP
493.9
592.7
—
—
—
—
—
—
407
407
—
—
—
—
—
—
Hollow Bore OHL lbs
—
—
0.133
0.133
0.133
0.133
0.115
0.097
Input HP
—
—
790
988
1185
1482
1716
1724
Hollow Bore OHL lbs
—
—
695
695
695
695
695
695
0.267
0.267
—
—
—
—
—
—
Input HP
993
1191
—
—
—
—
—
—
695
695
—
—
—
—
—
—
Hollow Bore OHL lbs
—
—
0.267
0.267
0.267
0.267
0.232
0.193
Input HP
—
—
1588
1986
2383
2978
3452
3448
—
—
980
980
980
980
980
980
Hollow Bore OHL lbs
0.532
0.532
—
—
—
—
—
—
Input HP
1982
2377
—
—
—
—
—
—
980
980
—
—
—
—
—
—
Hollow Bore OHL lbs
—
—
0.532
0.532
0.532
0.532
0.434
0.362
Input HP
—
—
3169
3961
4753
5942
6466
6466
—
—
1401
1401
1401
1401
1401
1401
1.03
1.03
—
—
—
—
—
—
Input HP
3816
4580
—
—
—
—
—
—
1401
1401
—
—
—
—
—
—
Hollow Bore OHL lbs
Reducers
1420
B-22
1530
B-23
1520
B-22
1531
B-23
Hollow Bore OHL lbs
1.46
1.46
1.03
—
—
—
—
—
Input HP
5448
6537
6106
—
—
—
—
—
1401
1401
1401
—
—
—
—
—
Hollow Bore OHL lbs
B-17
Selection
Tables
—
0.133
Hyponic
Frame
Size
Reducers
580 RPM Input Speed
Frame
Size
Output RPM
Nominal Ratio
Input HP
1120
1230
1430
Selection
Tables
Reducers
1530
1531
B-18
29.0
20
23.2
25
19.3
30
14.5
40
0.107
0.107
0.107
0.107
0.107
0.107
0.107
0.107
0.054
69
99
119
149
198
248
297
198
210
232
243
265
287
297
297
297
Input HP
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
0.215
0.215
0.215
0.215
0.215
0.215
0.215
0.215
0.107
99
139
198
238
297
396
495
595
396
Hollow Bore OHL lbs
265
287
330
342
364
387
398
407
407
Input HP
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
Input HP
0.429
0.429
0.429
0.429
0.429
0.429
0.429
0.429
0.215
198
277
396
476
595
793
991
1189
793
Hollow Bore OHL lbs
441
486
528
562
596
627
661
695
695
Input HP
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
Input HP
0.826
0.826
0.826
0.826
0.826
0.826
0.826
0.826
0.429
381
534
763
916
1144
1526
1907
2289
1585
Hollow Bore OHL lbs
661
728
794
839
881
937
969
980
980
Input HP
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
Hollow Bore OHL lbs
1520
38.7
15
50
Hollow Bore OHL lbs
1420
48.3
12
187
Hollow Bore OHL lbs
1320
58.0
10
Hollow Bore OHL lbs
Input HP
1330
82.9
7
Hollow Bore OHL lbs
1220
116
5
—
—
—
—
—
—
—
—
—
Input HP
1.18
1.18
1.18
1.18
1.18
1.18
1.18
1.18
0.826
545
763
1090
1308
1635
2180
2725
3270
3052
Hollow Bore OHL lbs
949
1048
1146
1200
1268
1344
1401
1401
1401
Input HP
—
—
—
—
—
—
—
—
1.18
—
—
—
—
—
—
—
—
4360
Hollow Bore OHL lbs
—
—
—
—
—
—
—
—
1401
Hyponic
Reducers
11.6
50
9.67
60
7.25
80
5.80
100
4.83
120
3.87
150
2.90
200
2.42
240
Output RPM
Nominal Ratio
0.054
0.054
—
—
—
—
—
—
Input HP
248
297
—
—
—
—
—
—
297
297
—
—
—
—
—
—
Hollow Bore OHL lbs
—
—
0.054
0.054
0.054
0.054
0.047
0.039
—
—
396
495
595
743
867
862
Hollow Bore OHL lbs
Dimension
Page
1120
B-22
1230
B-23
1220
B-22
1330
B-23
1320
B-22
1430
B-23
Input HP
—
407
407
407
407
407
407
0.107
—
—
—
—
—
—
Input HP
495
595
—
—
—
—
—
—
407
407
—
—
—
—
—
—
Hollow Bore OHL lbs
—
—
0.107
0.107
0.107
0.107
0.067
0.078
Input HP
—
—
793
991
1189
1486
1239
1724
Hollow Bore OHL lbs
—
—
695
695
695
695
695
695
0.215
0.215
—
—
—
—
—
—
Input HP
991
1189
—
—
—
—
—
—
695
695
—
—
—
—
—
—
Hollow Bore OHL lbs
—
—
0.215
0.215
0.215
0.215
0.186
0.156
Input HP
—
—
1585
1982
2378
2973
3443
3448
—
—
980
980
980
980
980
980
Hollow Bore OHL lbs
0.429
0.429
—
—
—
—
—
—
Input HP
1982
2378
—
—
—
—
—
—
980
980
—
—
—
—
—
—
Hollow Bore OHL lbs
—
—
0.429
0.429
0.429
0.429
0.350
0.292
Input HP
—
—
3171
3964
4756
5945
6466
6480
—
—
1401
1401
1401
1401
1401
1401
0.826
0.826
—
—
—
—
—
—
Input HP
3815
4578
—
—
—
—
—
—
1401
1401
—
—
—
—
—
—
Hollow Bore OHL lbs
Reducers
1420
B-22
1530
B-23
1520
B-22
1531
B-23
Hollow Bore OHL lbs
1.18
1.18
0.826
—
—
—
—
—
Input HP
5450
6540
6104
—
—
—
—
—
1401
1401
1401
—
—
—
—
—
Hollow Bore OHL lbs
B-19
Selection
Tables
—
0.107
Hyponic
Frame
Size
Reducers
50 RPM Input Speed
Frame
Size
Output RPM
10.0
7.14
5.00
4.17
3.33
2.50
2.00
1.67
Nominal Ratio
5
7
10
12
15
20
25
30
40
0.009
0.009
0.009
0.009
0.009
0.009
0.009
0.009
0.004
Input HP
1120
1230
50
70
101
121
151
201
251
302
172
Hollow Bore OHL lbs
298
298
298
298
298
298
297
297
297
Input HP
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
Hollow Bore OHL lbs
—
—
—
—
—
—
—
—
—
0.018
0.018
0.018
0.018
0.018
0.018
0.018
0.018
0.009
99
139
198
238
297
396
495
594
397
Hollow Bore OHL lbs
408
408
407
407
407
407
407
407
407
Input HP
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
Input HP
1220
1330
Hollow Bore OHL lbs
1320
1430
Selection
Tables
Reducers
—
—
—
—
—
—
—
—
—
Input HP
0.037
0.037
0.037
0.037
0.037
0.037
0.037
0.037
0.018
198
277
396
476
595
793
991
1189
793
Hollow Bore OHL lbs
695
695
695
695
695
695
695
695
695
Input HP
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
Hollow Bore OHL lbs
1420
1530
—
—
—
—
—
—
—
—
—
Input HP
0.07
0.07
0.07
0.07
0.07
0.07
0.07
0.07
0.04
381
534
763
916
1144
1526
1907
2289
1586
Hollow Bore OHL lbs
980
980
980
980
980
980
980
980
980
Input HP
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
Hollow Bore OHL lbs
Input HP
1520
1531
B-20
1.25
—
—
—
—
—
—
—
—
—
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.07
0.07
545
763
1090
1308
1635
2180
2725
2289
3052
Hollow Bore OHL lbs
1401
1401
1401
1401
1401
1401
1401
1401
1401
Input HP
—
—
—
—
—
—
—
—
0.07
—
—
—
—
—
—
—
—
3161
Hollow Bore OHL lbs
—
—
—
—
—
—
—
—
1401
Hyponic
Reducers
1.00
50
0.833
60
0.625
80
0.500
100
0.417
120
0.333
150
0.250
200
0.208
240
Output RPM
Nominal Ratio
0.004
0.004
—
—
—
—
—
—
Input HP
216
259
—
—
—
—
—
—
297
297
—
—
—
—
—
—
Hollow Bore OHL lbs
—
—
0.005
0.005
0.005
0.005
0.004
0.003
—
—
397
496
595
744
868
866
Hollow Bore OHL lbs
Dimension
Page
1120
B-22
1230
B-23
1220
B-22
1330
B-23
1320
B-22
1430
B-23
Input HP
—
407
407
407
407
407
407
0.009
—
—
—
—
—
—
Input HP
495
595
—
—
—
—
—
—
407
407
—
—
—
—
—
—
Hollow Bore OHL lbs
—
—
0.009
0.009
0.009
0.009
0.008
0.007
Input HP
—
—
793
991
1190
1487
1724
1724
Hollow Bore OHL lbs
—
—
695
695
695
695
695
695
0.018
0.018
—
—
—
—
—
—
Input HP
991
1189
—
—
—
—
—
—
695
695
—
—
—
—
—
—
Hollow Bore OHL lbs
—
—
0.018
0.018
0.018
0.018
0.016
0.013
Input HP
—
—
1585
1981
2378
2972
3451
3452
—
—
980
980
980
980
980
980
Hollow Bore OHL lbs
0.04
0.04
—
—
—
—
—
—
Input HP
1982
2378
—
—
—
—
—
—
980
980
—
—
—
—
—
—
Hollow Bore OHL lbs
—
—
0.037
0.037
0.037
0.037
0.030
0.025
Input HP
—
—
3171
3964
4757
5946
6466
6466
—
—
1401
1401
1401
1401
1401
1401
0.07
0.07
—
—
—
—
—
—
Reducers
1420
B-22
1530
B-23
1520
B-22
1531
B-23
Hollow Bore OHL lbs
Input HP
3815
4578
—
—
—
—
—
—
1401
1401
—
—
—
—
—
—
Hollow Bore OHL lbs
0.07
0.07
0.05
—
—
—
—
—
Input HP
3951
4741
4368
—
—
—
—
—
1401
1401
1401
—
—
—
—
—
Hollow Bore OHL lbs
B-21
Selection
Tables
—
0.009
Hyponic
Frame
Size
Reducers
Hollow Shaft Type, C-Face
RNYJ-1120/1220/1320/1420/1520Y
CE
XJ
C
D
D
L
P
Z
BB
A
P
B
DIA
B
N
ZA
A
4X H DIA
G
F
K
S
Dimensions
(ADAPTER ONLY)
U DIA BORE
4X BF DIA HOLE
KEY
XU
W
V
B-B
A-A
Reducers
C
C-C
X
M DIA
T DIA
W
AK
B
E
A2
O
BD
MIN
I.D.
R
J E
F
AJ
XV
L K
B
DIA
C
Inch
Model
RNYJ-1120Y
RNYJ-1220Y
RNYJ-1320Y
RNYJ-1420Y
RNYJ-1520Y
A1
3.54
4.53
5.20
6.22
7.01
Model
A2
3.46
4.45
5.12
6.10
6.89
B min
2.046
3.070
3.345
3.739
4.329
U min U max
0.750 0.751
1.000 1.001
1.250 1.252
1.375 1.377
1.500 1.502
RNYJ-1120Y
RNYJ-1220Y
RNYJ-1320Y
RNYJ-1420Y
RNYJ-1520Y
B max
2.047
3.071
3.346
3.740
4.331
V
3.23
3.62
4.33
5.43
6.14
D
1.30
1.46
1.81
2.32
2.68
E
1.65
2.24
2.44
2.95
3.15
F
0.31
0.35
0.35
0.39
0.39
Output Shaft
KEY
M
O
3/16X3/16
0.77
0.59
1/4X1/4
1.02
0.87
1/4X1/4
1.27
0.87
5/16X5/16
1.40
1.02
3/8X3/8
1.52
1.02
G
2.60
2.91
3.62
4.65
5.35
H
0.26
0.35
0.43
0.55
0.55
S
0.039
0.046
0.056
0.056
0.056
J
1.97
2.60
2.91
3.46
3.70
K
1.26
1.57
1.81
2.24
2.76
T
0.796
1.066
1.330
1.461
1.594
W
1.22
1.50
1.81
2.05
2.28
L
1.57
1.93
2.28
2.76
3.31
N
3.23
3.78
4.69
5.75
7.01
P
0.24
0.20
0.20
0.20
0.20
R
0.79
1.10
1.08
0.79
1.10
X
0.87
0.79
1.34
1.69
2.68
Input Shaft
XU min XU max XV
KEY
0.4996 0.5000 0.98 1/8X1/8X0.71
0.4996 0.5000 0.98 1/8X1/8X0.71
0.6246 0.6250 0.98 3/16X3/16X0.75
0.6246 0.6250 0.98 3/16X3/16X0.75
0.7495 0.7500 1.38 3/16X3/16X1.02
Model
Ratio
NEMA
FRAME
CE
C
XJ
AK
BD
AJ
BF
Z
BB
MIN
I.D.
ZA
WT
(LB)
RNYJ-1120Y
RNYJ-1120Y
RNYJ-1220Y
RNYJ-1220Y
RNYJ-1320Y
RNYJ-1320Y
RNYJ-1420Y
RNYJ-1420Y
RNYJ-1520Y
RNYJ-1520Y
5~60
5~60
40~60
5~30
40~60
5~30
40~60
5~30
40~60
5~30
42C
48C
48C
56C
56C
143TC
143TC
143TC
143TC
184TC
10.72
11.09
12.39
12.80
14.52
14.52
15.93
16.29
19.20
19.94
8.94
8.94
10.24
10.24
11.89
11.89
13.31
13.66
16.57
16.57
1.78
2.16
2.16
2.56
2.63
2.63
2.63
2.63
2.63
3.37
3.0
3.0
3.0
4.5
4.5
4.5
4.5
4.5
4.5
8.5
4.33
4.33
4.33
6.69
6.69
6.69
6.69
6.69
6.69
8.98
3.75
3.75
3.75
5.87
5.87
5.87
5.87
5.87
5.87
7.25
0.28
0.28
0.28
0.43
0.43
0.43
0.43
0.43
0.43
0.55
0.47
0.47
0.47
0.47
0.47
0.47
0.47
0.47
0.47
0.47
0.22
2.44
2.44
2.44
3.15
4.21
4.21
4.21
4.21
4.21
5.43
4.53
4.53
4.53
4.53
5.12
5.12
12
13
16
17
29
29
36
36
67
71
B-22
Hyponic
Reducers
RNYJ-1230/1330/14301530/1531Y
CE
C
P
D
D
L
P
A
XJ
Z
BB
B
N
C
AJ
XV
L K
B
DIA
B
DIA
MIN
I.D.
J E
I DIA
Q
G
F
K
C
E
A
4X BF DIA HOLE
C-C
X
(ADAPTER ONLY)
M DIA
T DIA
KEY
U DIA BORE
XU
W
W
AK
B
A
4X H DIA
F
O
S
ZA
BD
B-B
V
A-A
Inch
Model
RNYJ-1230Y
RNYJ-1330Y
RNYJ-1430Y
RNYJ-1530Y
RNYJ-1531Y
A
B min
5.00 3.070
5.98 3.345
7.01 3.739
8.39 4.329
8.39 4.329
Model
U min U max
1.000 1.001
1.250 1.252
1.375 1.377
1.500 1.502
1.500 1.502
RNYJ-1230Y
RNYJ-1330Y
RNYJ-1430Y
RNYJ-1530Y
RNYJ-1531Y
Model
B max
3.071
3.346
3.740
4.331
4.331
Ratio
NEMA
FRAME
CE
RNYJ-1230Y 80~240
42C 11.66
RNYJ-1330Y 80~240
48C 13.30
RNYJ-1430Y 80~120
56C 15.42
RNYJ-1430Y 150~240 56C 15.46
RNYJ-1530Y 80~120 143TC 16.92
RNYJ-1530Y 150~240 143TC 17.19
RNYJ-1531Y
80
143TC 17.90
RNYJ-1531Y
40~60 183TC 18.65
D
1.61
1.81
2.32
2.68
2.68
E
2.56
3.11
3.62
4.29
4.29
V
3.94
4.33
5.43
6.14
6.14
F
0.35
0.35
0.39
0.39
0.39
G
3.23
3.62
4.65
5.35
5.35
H
0.35
0.43
0.55
0.71
0.71
Output Shaft
KEY
M
O
1/4X1/4
1.02
0.87
1/4X1/4
1.27
0.87
5/16X5/16
1.40
1.02
3/8X3/8
1.52
1.02
3/8X3/8
1.52
1.02
I
0.55
0.69
0.79
-
J
2.99
3.62
4.25
5.08
5.08
S
0.046
0.056
0.056
0.056
0.056
K
1.57
1.85
2.13
2.52
2.52
L
2.01
2.36
2.76
3.31
3.31
T
1.066
1.330
1.461
1.594
1.594
W
1.50
1.81
2.05
2.28
2.28
N
3.74
4.25
5.12
6.18
6.18
P
0.20
0.20
0.20
0.20
0.20
Q
2.87
3.19
4.13
-
R
0.51
0.43
0.55
0.67
0.67
X
0.31
0.14
0.31
0.37
0.37
Input Shaft
XU min XU max XV
KEY
0.4996 0.500 0.98 1/8X1/8X0.71
0.4996 0.500 0.98 1/8X1/8X0.71
0.6246 0.625 0.98 3/16X3/16X0.75
0.6246 0.625 0.98 3/16X3/16X0.75
0.7495 0.750 1.38 3/16X3/16X1.02
C
XJ
AK
BD
AJ
BF
Z
BB
MIN
I.D.
ZA
WT
(LB)
9.88
11.14
12.80
12.83
14.29
14.57
15.28
15.28
1.78
2.16
2.63
2.63
2.63
2.63
2.63
3.37
3.0
3.0
4.5
4.5
4.5
4.5
4.5
8.5
4.33
4.33
6.69
6.69
6.69
6.69
6.69
8.98
3.75
3.75
5.87
5.87
5.87
5.87
5.87
7.25
0.28
0.28
0.43
0.43
0.43
0.43
0.43
0.55
0.47
0.47
0.47
0.47
0.47
0.47
0.47
0.47
0.22
2.44
2.44
4.21
4.21
4.21
4.21
4.21
5.43
4.53
4.53
4.53
4.53
5.12
5.12
16
20
38
38
51
51
63
66
Hyponic
B-23
Dimensions
Reducers
Reducers
Notes
Reducers
B-24
Hyponic
Options
C
Options
Options
Options
Hyponic
C-1
Options
Plug-In Solid Output Shaft
A plug-in output shaft converts the
hollow output to a solid output
reducer.
Plug-in Solid Output Shaft, Casing Surface Mount With Safety Cover
Dimensions (Inch)
Options
Options
Output Shaft
Model
B min
B max
D
P
M
W
U min
U max
V
F
S
Key
RNFM-1120Y
2.046
2.0460
2.3622
2.047
1.30
0.12 2.20
0.79
0.7495
0.7500
1.10
1.97
#10-32 UNF x 0.47
3/16 x 3/16
RNFM-1220Y
3.3451
3.070
3.3465
3.071
1.46
0.12 2.24
1.26
0.9995
1.0000
1.42
2.50
5/16-18UNC x 0.47
1/4 x 1/4
RNFM-1320Y
3.6994
3.345
3.7008
3.346
1.81
0.12 2.64
2.83
1.2494
1.2500
1.65
2.80
5/16-18UNC x 0.63
1/4 x 1/4
RNFM-1420Y
4.1325
3.739
4.1339
3.740
2.32
0.12 3.03
1.65
1.3744
1.3750
2.28
3.58
5/16-18UNC x 0.63
5/16 x 5/16
RNFM-1520Y
4.7230
4.329
4.7244
4.331
2.68
0.12 3.54
1.65
1.7494
1.7500
3.23
4.72
3/8-16UNC x 0.71
3/8 x 3/8
RNFM-1230Y
3.3451
3.070
3.3465
3.071
1.65
0.12 2.24
1.26
0.9995
1.0000
1.42
2.50
5/16-18UNC x 0.47
1/4 x 1/4
RNFM-1330Y
3.6994
3.345
3.7008
3.346
1.81
0.12 2.64
2.83
1.2494
1.2500
1.65
2.80
5/16-18UNC x 0.63
1/4 x 1/4
RNFM-1430Y
4.1325
3.739
4.1339
3.740
2.32
0.12 3.03
1.65
1.3744
1.3750
2.28
3.58
5/16-18UNC x 0.63
5/16 x 5/16
RNFM-1530Y
4.7230
4.329
4.7244
4.331
2.68
0.12 3.54
1.65
1.7494
1.7500
3.23
4.72
3/8-16UNC x 0.71
3/8 x 3/8
RNFM-1531Y
4.7230
4.329
4.7244
4.331
2.68
0.12 3.54
1.65
1.7494
1.7500
3.23
4.72
3/8-16UNC x 0.71
3/8 x 3/8
C-2
Hyponic
Options
Plug-In Solid Output Shaft – Foot Mounted
A bolt-on adaptor converts the solid
output reducer to a foot mounted
reducer
Plug-in Solid Shaft, Bolt-on Foot Mount With Safety Cover
Dimensions (Inch)
D
C
V
N
KEY
F
M
DIA
U DIA
S
B
A
E
G
B
P
H
J
K
4X K DIA
K
Options
Options
Output Shaft
Model
A
B
C
D
E
F
G
H
J
K
M
N
U min U max
V
S
Key
RNHM-1120Y 4.72 0.39 3.27 2.09 3.54 1.57 0.39 1.18 2.76 0.39 2.20 1.57 0.7495 0.7500
1.10
#10-32UNF x 0.47
3/16 x 3/16
RNHM-1220Y 5.35 0.59 3.96 2.72 4.33 2.01 0.39 1.57 4.13 0.43 2.24 2.01 0.9995 1.0000
1.42
5/16-18UNC x 0.47
1/4 x 1/4
RNHM-1320Y 6.46 0.59 4.61 3.07 4.41 2.36 0.47 1.85 4.96 0.51 2.64 2.36 1.2494 1.2500
1.65
5/16-18UNC x 0.63
1/4 x 1/4
RNHM-1420Y 8.03 0.79 5.91 3.98 5.20 2.76 0.47 2.01 5.51 0.75 3.03 2.76 1.3744 1.3750
2.28
5/16-18UNC x 0.63
5/16 x 5/16
RNHM-1520Y 9.61 0.79 7.40 4.33 6.30 3.31 0.59 2.52 6.81 0.79 3.54 3.31 1.7494 1.7500
3.23
3/8-16UNC x 0.71
3/8 x 3/8
RNHM-1230Y 5.67 0.59 4.11 2.87 4.33 2.01 0.39 1.57 4.13 0.43 2.24 2.01 0.9995 1.0000
1.42
5/16-18UNC x 0.47
1/4 x 1/4
RNHM-1330Y 6.46 0.59 4.61 3.07 4.41 2.36 0.47 1.85 4.96 0.51 2.64 2.36 1.2494 1.2500
1.65
5/16-18UNC x 0.63
1/4 x 1/4
RNHM-1430Y 8.03 0.79 5.91 3.98 5.20 2.76 0.47 2.01 5.51 0.75 3.03 2.76 1.3744 1.3750
2.28
5/16-18UNC x 0.63
5/16 x 5/16
RNHM-1530Y 9.61 0.79 7.40 4.33 6.30 3.31 0.59 2.52 6.81 0.79 3.54 3.31 1.7494 1.7500
3.23
3/8-16UNC x 0.71
3/8 x 3/8
RNHM-1531Y 9.61 0.79 7.40 4.33 6.30 3.31 0.59 2.52 6.81 0.79 3.54 3.31 1.7494 1.7500
3.23
3/8-16UNC x 0.71
3/8 x 3/8
Hyponic
C-3
Options
Output Flange
Flange adaptors provide additional
motor clearance when the application
requires a flush or face mount.
Hollow Shaft, Bolt-on Flange Mount
Plug-in Solid Shaft, Bolt-on Flange Mount With Safety Cover
D
F
P
W
V
Dimensions (Inch)
KEY
M
DIA
U DIA B
DIA
Options
Options
S
Output Shaft
Model
B min
B max
D
P
M
W
U min
U max
V
F
S
Key
RNFM-1120Y
2.3610
2.3622
2.50
0.12 2.20
0.79
0.7495
0.7500
1.10
2.50
#10-32 UNF x 0.47
3/16 x 3/16
RNFM-1220Y
3.3451
3.3465
3.25
0.12 2.24
1.26
0.9995
1.0000
1.42
3.41
5/16-18UNC x 0.47
1/4 x 1/4
RNFM-1320Y
3.6994
3.7008
3.48
0.12 2.64
2.83
1.2494
1.2500
1.65
3.52
5/16-18UNC x 0.63
1/4 x 1/4
RNFM-1420Y
4.1325
4.1339
3.74
0.12 3.03
1.65
1.3744
1.3750
2.28
3.90
5/16-18UNC x 0.63
5/16 x 5/16
RNFM-1520Y
4.7230
4.7244
3.74
0.12 3.54
1.65
1.7494
1.7500
3.23
4.49
3/8-16UNC x 0.71
3/8 x 3/8
RNFM-1230Y
3.3451
3.3465
2.50
0.12 2.24
1.26
0.9995
1.0000
1.42
3.41
5/16-18UNC x 0.47
1/4 x 1/4
RNFM-1330Y
3.6994
3.7008
2.50
0.12 2.64
2.83
1.2494
1.2500
1.65
3.52
5/16-18UNC x 0.63
1/4 x 1/4
RNFM-1430Y
4.1325
4.1339
3.25
0.12 3.03
1.65
1.3744
1.3750
2.28
3.90
5/16-18UNC x 0.63
5/16 x 5/16
RNFM-1530Y
4.7230
4.7244
3.74
0.12 3.54
1.65
1.7494
1.7500
3.23
4.49
3/8-16UNC x 0.71
3/8 x 3/8
RNFM-1531Y
4.7230
4.7244
3.74
0.12 3.54
1.65
1.7494
1.7500
3.23
4.49
3/8-16UNC x 0.71
3/8 x 3/8
C-4
Hyponic
Technical Information
D
Technical
Information
Hyponic
D-1
Shaft Dimensions
Table D-1. Hollow Shaft Dimensions (In.)
Table D-2. Hollow Shaft Optional Metric Bore
Dimensions (In.)
[1]
Bore
Size
(In.)
1120
1220
1230
Frame Size
1320
1420
1330
1430
361
461
1520
1530
1531
56
60
63
64
Frame Size [1]
Bore
Size
(inch)
1120
1220
1230
1320
1330
361
1420
1430
461
5/8
1520
1530
1531
56
60
63
64
20
3/4
25
13/16
30
7/8
35
15/16
38
1
40
1-1/8
45
1-3/16
50
1-1/4
55
1-5/16
1-3/8
1-7/16
[2]
1-1/2
1-5/8
Table D-3. Solid Shaft Dimensions (In.)
Bore
Size
(inch)
Frame Size [1]
1120
1220
1230
1320
1330
1420
1430
1520
1530
1531
1-11/16
5/8
1-3/4
3/4
1-7/8
1
1-15/16
1-1/4
2
Shaft
Dimensions
Technical
Information
1-5/16
2-1/16
1-3/8
2-1/8
1-7/16
2-3/16
Notes: [1]
Standard, Semi-standard. Contact factory for
price and delivery.
[2] Only for frame sizes 1430 and 461.
[3] Standard shaft dimension for T-type.
D-2
1-1/2
[3]
1-3/4
2
Hyponic
Shaft Rotation
Table D-4. Shaft Rotation Direction
Frame
Size
Reduction Ratio (:1)
Frame
Size
Reduction Ratio (:1)
361
300, 360, 480, 560, 750, 900, 1200, 1440
361
—
461
300, 360, 480, 560, 750, 900, 1200, 1440
461
—
56
300, 360, 480, 560, 750, 900, 1200, 1440
56
—
60
—
60
80, 100, 120
63
10, 12, 15, 20, 25, 30
63
40, 50
64
10, 12, 15, 20, 25
64
30, 40
1120
5, 7, 10, 12, 15, 20, 25, 30, 40, 50, 60
1120
—
1220
5, 7, 10, 12, 15, 20, 25, 30, 40, 50, 60
1220
—
1230
—
1230
80, 100, 120, 150, 200, 240
1320
5, 7, 10, 12, 15, 20, 25, 30, 40, 50, 60
1320
—
1330
—
1330
80, 100, 120, 150, 200, 240
1420
5, 7, 10, 12, 15, 20, 25, 30, 40, 50, 60
1420
—
1430
—
1430
80, 100, 120, 150, 200, 240
1520
5, 7, 10, 12, 15, 20, 25, 30, 40, 50, 60
1520
—
1530
—
1530
80, 100, 120, 150, 200, 240
1531
—
1531
40, 50, 60, 80
Fig. D-1
Fig. D-2
CCW
CW
Technical
Information
Hyponic
CW
Shaft
Rotation
CW
D-3
Actual Reduction Ratio
Table D-5. Actual Reduction Ratio
Nominal Reduction Ratio (:1)
Frame
Size
5
7
10
12
15
20
25
30
40
50
60
80
100
1120
5.00
7.03
9.81
11.74
15.26
20.67
24.62
30.00
41.33
49.23
60.00
—
—
1220
5.00
7.03
9.81
11.74
15.26
20.67
24.62
30.00
41.33
49.23
60.00
—
—
1320
5.00
7.03
9.81
11.74
15.26
20.67
24.62
30.00
41.33
49.23
60.00
—
—
1420
5.00
6.97
10.00
11.96
14.75
19.69
25.00
30.45
39.38
50.00
60.91
—
—
1520
5.00
7.03
9.81
11.74
15.26
20.67
24.62
30.00
41.33
49.23
60.00
—
—
1230
—
—
—
—
—
—
—
—
—
—
—
81.45
101.01
1330
—
—
—
—
—
—
—
—
—
—
—
81.94
102.27
1430
—
—
—
—
—
—
—
—
—
—
—
80.37
102.35
1530
—
—
—
—
—
—
—
—
—
—
—
79.63
101.32
1531
—
—
—
—
—
—
—
—
39.20
49.88
57.60
77.42
—
60
—
—
—
—
—
—
—
—
—
—
—
80.50
102.94
63
—
—
10.31
12.47
14.48
20.39
24.15
29.24
41.16
49.00
—
—
—
64
—
—
10.34
12.40
14.57
20.88
24.33
29.40
40.25
—
—
—
—
Nominal Reduction Ratio (:1)
Frame
Size
120
150
200
240
300
360
480
560
750
900
1200
1440
1120
—
—
—
—
—
—
—
—
—
—
—
—
1220
—
—
—
—
—
—
—
—
—
—
—
—
1320
—
—
—
—
—
—
—
—
—
—
—
—
1420
—
—
—
—
—
—
—
—
—
—
—
—
1520
—
—
—
—
—
—
—
—
—
—
—
—
1230
120.15
151.51
200.39
231.27
—
—
—
—
—
—
—
—
1330
122.54
153.40
199.13
232.50
—
—
—
—
—
—
—
—
1430
122.64
153.52
199.29
240.00
—
—
—
—
—
—
—
—
1530
119.17
151.99
191.52
232.25
—
—
—
—
—
—
—
—
1531
—
—
—
—
—
—
—
—
—
—
—
—
60
119.00
—
—
—
—
—
—
—
—
—
—
—
63
—
—
—
—
—
—
—
—
—
—
—
—
64
—
—
—
—
—
—
—
—
—
—
—
—
361
—
—
—
—
306.80
367.60
465.00
564.51
732.78
855.60
1239.00
1484.60
461
—
—
—
—
307.05
367.91
480.00
564.97
733.37
883.20
1240.00
1485.80
56
—
—
—
—
300.74
353.70
439.55
702.23
702.23
851.58
1149.11
1393.49
Reduction
Ratio
Technical
Information
D-4
Hyponic
Allowable Overhung Load
Overhung Load Acting on the Slow Speed Shaft
The existing overhung load acting on the output shaft must not exceed the allowable unit rating.
The overhung load acting on the slow speed shaft may be calculated by using the following formula.
Overhung Load = 126,000 x HP x Cf x Lf x Sf
DxN
where HP =
Cf =
Lf =
Sf =
D=
N=
Power Transmitted by Shaft (HP)
Load Connection Factor
Load Location Factor
Shock Factor
Pitch Diameter of Sprocket, etc. (in.)
Shaft Speed (RPM)
Table D-6. RNFM-Y1, RNHM-K1 Slow Speed Load Location Factor, Lf
1
3
⁄4
1
1 1⁄4
11⁄2
L (inches)
13⁄4
2
21⁄4
21⁄2
23⁄4
1120
1.05
1.18
1.25
1.32
1.38
1.44
1.51
1.57
1.67
1.80
1220
1.13
1.19
1.25
1.32
1.38
1.44
1.51
1.57
1.64
1.70
1320
1.13
1.19
1.25
1.32
1.38
1.44
1.51
1.57
1.64
1.70
1420
1.13
1.19
1.25
1.30
1.30
1.34
1.41
1.47
1.54
1.60
1520
1.13
1.19
1.25
1.30
1.30
1.34
1.41
1.47
1.54
1.60
1230
1.13
1.19
1.25
1.32
1.38
1.44
1.51
1.57
1.64
1.70
1330
1.13
1.19
1.25
1.32
1.38
1.44
1.51
1.57
1.64
1.70
1430
1.13
1.19
1.25
1.30
1.30
1.34
1.41
1.47
1.54
1.60
1530, 1531
1.28
1.47
1.66
1.85
1.54
2.23
2.43
2.69
2.91
3.10
Unit Size
⁄2
L
Pr
Table D-7. RNFM-F1, -G1 Slow Speed Load Location Factor, Lf
3
⁄4
1
1 1⁄4
11⁄2
L (inches)
13⁄4
2
21⁄4
21⁄2
23⁄4
1120
1.03
1.29
1.35
1.44
1.46
1.64
1.71
1.77
1.84
2.02
1220
1.05
1.48
1.55
1.62
1.38
1.74
1.81
1.87
1.94
2.06
1320
1.03
1.39
1.45
1.50
1.30
1.54
1.61
1.67
1.74
1.86
1420
1.00
1.20
1.25
1.32
1.38
1.44
1.50
1.50
1.54
1.66
1520
1.00
1.10
1.15
1.22
1.38
1.34
1.40
1.40
1.47
1.66
1230
1.03
1.19
1.25
1.32
1.38
1.44
1.51
1.57
1.64
1.76
1330
1.03
1.09
1.15
1.22
1.38
1.34
1.41
1.47
1.54
1.66
1430
1.00
1.10
1.15
1.22
1.38
1.34
1.40
1.40
1.44
1.56
1530, 1531
1.05
1.28
1.46
1.65
1.54
2.08
2.32
2.51
2.71
3.09
⁄2
Table D-8. Load Connection Factor
Type of Connection
General Purpose Chain
Machined Gear, Pinion or
Synchronous Belts
V-Belt
Flat Belt
Hyponic
Factor
1.0
1.25
1.5
2.5
Fig. D-3
Technical
Information
Overhung
Load
1
Unit Size
Table D-9. Shock Factor, Sf
Degree of Shock
Factor
Steady Loads
1.0
Moderate Shock
1.3
Heavy Shock
1.6
D-5
Moment of Inertia
Table D-10. Gearmotor Moment of Inertia
Motor Type
3-Phase
Single-Phase
Inverter Duty
Without Brake
With Brake
Without Brake
With Brake
Without Brake
With Brake
Motor Type
3-Phase
Inverter Duty
Without Brake
With Brake
Without Brake
With Brake
Units: pound•inch2
1/8 HP
(0.1 kW)
1/4 HP
(0.2 kW)
Motor Power
1/3 HP
(0.25 kW)
1/2 HP
(0.4 kW)
3/4 HP
(0.55 kW)
1 HP
(0.75 kW)
1.13
1.20
1.71
1.88
1.71
1.88
1.71
1.88
2.22
2.32
2.22
2.32
2.22
2.32
—
—
—
—
2.22
2.32
4.10
4.44
4.10
4.44
3.45
3.79
—
—
—
—
4.10
4.44
—
—
7.28
8.03
1.5 HP
(1.1 kW)
2.0 HP
(1.5 kW)
6.32
7.11
—
—
7.28
8.03
11.4
12.7
Motor Power
3 HP
(2.2 kW)
11.4
12.7
29.0
32.7
5 HP
(3.7 kW)
7.5 HP
(5.5 kW)
29.0
32.7
39.0
42.7
39.0
42.7
—
—
Table D-11. Reducer Moment of Inertia
Unit Size
1120
1220
1320
1420
1520
1230
1330
1430
1530
1531
Unit Size
Moment
of Inertia
Technical
Information
1120
1220
1320
1420
1520
1230
1330
1430
1530
1531
D-6
Units: pound•inch2
Reduction Ratio
5
0.581
0.854
1.40
2.60
11.9
—
—
—
—
—
7
0.581
0.786
1.33
2.43
11.3
—
—
—
—
—
10
0.581
0.786
1.30
2.26
11.0
—
—
—
—
—
12
0.581
0.752
1.26
2.22
10.8
—
—
—
—
—
15
0.581
0.752
1.23
2.15
10.6
—
—
—
—
—
20
0.581
0.752
1.23
2.08
12.3
—
—
—
—
—
25
0.581
0.752
1.20
2.05
10.4
—
—
—
—
—
30
0.581
0.752
1.20
2.05
10.3
—
—
—
—
—
40
0.547
0.683
0.957
1.47
8.03
—
—
—
—
4.54
Reduction Ratio
50
0.547
0.683
0.957
1.47
8.03
—
—
—
—
4.54
60
0.547
0.683
0.957
1.44
8.03
—
—
—
—
4.54
80
—
—
—
—
—
0.547
0.683
0.957
1.47
4.54
100
—
—
—
—
—
0.547
0.683
0.957
1.47
—
120
—
—
—
—
—
0.547
0.683
0.957
1.47
—
150
—
—
—
—
—
0.547
0.649
0.752
1.33
—
200
—
—
—
—
—
0.547
0.649
0.752
1.33
—
240
—
—
—
—
—
0.547
0.649
0.752
1.33
—
Hyponic
Construction & Nameplate
Construction
Fig. D-4 Hollow Shaft Type Example (RNYM1-1530-120)
Part No.
Description
1
Casing (1)
2
Gear
3
Pinion shaft
Part No.
4
Description
Description
Part No.
Part No.
Description
Gear
7
Bearing
10
Output shaft
5
Pinion shaft
8
Bearing
11
Oil seal
6
Hypoid pinion shaft
9
Hypoid gear
12
Casing (2)
Nameplate
Fig. D-5
Construction
& Nameplate
Technical
Information
SM-HYPONIC
CHESAPEAKE, VIRGINIA
Gearmotor Model
Input Power
MODEL
MOTOR H.P.
CLASS
AGMA Class
Output Speed
OUTPUT R.P.M.
RATIO
Reduction Ratio
Manufacturing
Serial No.
SERIAL NO.
DATE
Date Manufactured
Hyponic
D-7
Output Shaft Safety Cover Dimensions
Co
o
C
It may be mounted on either the left or right side.
Made of plastic.
A
øE
øE
øB
A
øP.C.D
øB
t
t
D
D
Fig. D-6
Fig. D-7
Table D-12. Output Shaft Safety Cover Dimensions (Inch)
1120
1220,1230
1320,1330, 361
1420, 1430, 461
1520, 1530, 1531
56
60, 63, 64
M : Screw size
Output
Shaft End
E
1.18
1.57
1.77
2.17
2.56
2.95
3.74
Safety Cover[1]
Frame Size
A
0.39
0.83
0.83
1.18
1.18
1.18
1.57
B
2.20
2.17
2.48
2.87
3.39
3.39
4.33
P : Thread pitch
C
45°
5°
5°
5°
5°
5°
5°
D
R0.12
R0.20
R0.20
R0.20
R0.20
R0.20
R0.20
L : Thread length
t
0.08
0.08
0.08
0.08
0.08
0.08
0.08
P.C.D.
–
2.76
3.07
3.46
4.06
4.06
5.31
P.C.D : Mounting pitch
N
–
2
2
2
2
2
2
MxPXL (mm)
–[2]
M3x0.5x6
M3x0.5x6
M3x0.5x6
M3x0.5x6
M3x0.5x6
M3x0.5x6
Fig.
D-6
D-7
N : Q'ty
Torque Arm
Follow the steps below to check torque arm strength, driven shaft strength and
bearing life.
Table D-13
Frame Size
AG (in)
1230
0.1
1120, 1220, 1330, 361
0.15
1320, 1430, 461
0.2
Brg1
Driven shaft
Brg2
m
Y
YR
Sec. B
G
Fig. D-8
1420, 1520, 1530, 1531, 56
0.25
60, 63, 64
0.30
Torque arm
Technical
Information
AG
Shaft
Safety
Cover
approximate values
AR
rotation
rotation
G
R
1. Torque arm load
: R=
T+AG • G
AR
2. Brg.1 load
: B=
m (R–G) – YR • R
l
3. Brg.2 load
: Bw =
(R+M) (R–G) – YR • R
l
4. Sec. B of driven shaft
: M = YR • R – Y (R–G) 0<Y& m
R
T
G
R
AG
AR
YR
m
R
Y
: Output torque (in•lb)[3]
: Hyponic Drive gravity (lb)
: Torque arm load (lb)
: Distance between the center of driven shaft and center of gravity (in.)
: Distance from driven shaft center to torque arm (in.)
: Distance from the center of Hyponic Drive to torque arm whirl stop (in.)
: Distance from the center of Hyponic Drive to Brg.2 (in.)
: Distance between Brg.1 and Brg.2 (in.)
: Distance between the center of Hyponic Drive and Sec. B (in.)
Notes: [1] Safety cover is included with all Hollow bore Hyponics.
[2] No screw is required for safety cover for Frame Size 1120.
[3] Output torque is (+) on the shown rotation, and (-) on the opposite rotation.
Dimensions are for reference only and subject to change without notice.
D-8
Hyponic
Torque Arm
Fig. D-9 Torque Arm Mountings and Designs
2
3
4
Torque arm must not interfere
with the motor.
b
b
øH
AR
b
a
a
øD
b
1120
1220
1230
1320
1331, 361
1420
1430, 461
1520
1530, 1531, 56
60, 63, 64
a
Drawing examples
Mounting examples
1
a
ød
ød
øD
øH
AR
Machine side
Attach the torque arm to the
casing on the machine side.
Machine side
Table. D-14. Recommended Dimensions of Torque Arm Design (Inch)
Bore
H
2.13
3.15
3.15
Stop Hole
D
0.35
0.43
0.35
1320
1330, 361
1420
1430, 461
1520
1530, 1531, 56
60, 63, 64
4.72
5.12
5.51
6.30
5.91
7.87
11.02
3.43
3.43
3.82
3.82
4.41
4.41
5.98
0.55
0.43
0.71
0.55
0.87
0.71
0.87
Mounting Pitch
a
b
1.65
1.26
2.24
1.57
2.56
1.57
2.44
3.11
2.95
3.62
3.15
4.29
5.71
Mounting Hole
d
0.28
0.35
0.35
1.81
1.85
2.24
2.13
2.76
2.52
3.35
0.43
0.43
0.55
0.55
0.55
0.71
0.87
Thickness
Technical
Information
0.13
0.18
0.24
Torque Arm
1120
1220
1230
Length
AR
3.15
3.94
3.94
Frame size
0.18
0.35
0.24
0.35
0.35
0.35
0.47
Hyponic
D-9
Mounting
1. Mounting the Shaft in the Hollow Bore
2. Securing the Shaft in the Hollow Bore
a. After coating the shaft and the reducer hollow bore with
molybdenum disulfide, insert the shaft into the bore.
a. Refer to Fig. D-12 and Table for details on securing a staged
shaft.
b. A clearance fit is standard. A tight fit is recommended for
severe applications. For tight-fit applications, tap the end of the
hollow shaft with a rubber mallet to aid insertion into the bore.
Using fixtures b – e shown in Fig. D-10 is also recommended for
easy assembly.
b. Refer to Fig. D-13 and Table for details on securing a straight
shaft using a spacer.
3. Shaft Removal – Using fixtures i – k shown in Fig. D-11 is
recommended for easy removal of the shaft. The shaft should be
designed to allow use of these fixtures.
Fig. D-10 Driven Shaft Mounting
A2
e
Fig. D-11 Driven Shaft Removal
b
A3
k
A8
A7
i
d
A5
A6
j
c
A4
Fig. D-12 Secured by Staged Driven Shaft
L4 x L5 DEEP
A1
a
L1
L3
f
Fig. D-13 Secured by Spacer
h
øD
L2
LF
LG
LH
L
a
g
Table D-15. Driven Shaft Mounting & Removal Detail (Inch)
Bore Size
Model
a
L
LH
LG
LF
L1
L2
L3
L4
L5
A1
3.23
3.62
3.94
4.33
5.43
6.14
6.30
8.82
2.64
2.76
3.07
3.46
4.41
5.12
5.28
7.24
2.01
2.13
2.44
2.52
3.39
3.86
4.02
5.47
1.22
1.50
1.50
1.81
2.05
2.28
2.28
3.35
2.36
2.36
2.68
2.80
3.66
4.09
4.25
6.26
0.16
0.28
0.28
0.28
0.39
0.39
0.39
0.47
1.37
1.98
1.98
2.10
2.32
3.49
3.49
3.53
#10-32UNF
5/16-18UNC
5/16-18UNC
5/16-18UNC
3/8-16UNC
1/2-13UNC
1/2-13UNC
5/8-11UNC
0.63
0.79
0.79
0.79
0.98
1.18
1.18
1.57
0.20
0.28
0.28
0.28
0.31
0.39
0.39
0.51
min. max.
Mounting
Technical
Information
Recommended Shaft Size
øD
1120
0.750
1220
1.000
1230
1.000
1320,1330,361 1.250
1420,1430,461 1.375
1520,1530,1531 1.500
56
1.500
60,63,64
2.000
0.751
1.001
1.001
1.252
1.377
1.502
1.502
2.002
Recommended Component Size[1]
b
c
d
Thrust
Nut
Threaded Rod
Bearing
#10-32UNF
5/16-18UNC
5/16-18UNC
5/16-18UNC
3/8-16UNC
1/2-13UNC
1/2-13UNC
5/8-11UNC
#10-32UNF x 5.91
5/16-18UNC x 5.91
5/16-18UNC x 5.91
5/16-18UNC x 5.91
3/8-16UNC x 9.45
1/2-13UNC 9.45
1/2-13UNC 9.45
5/8-11UNC x 11.81
51100
51100
51100
51100
51201
51202
51202
51204
Model Recommended Component Size[1]
Model
1120
1220
1230
1320,1330,361
1420,1430,461
1520,1530,1531
56
60,63,64
e
f
A2
Bolt
0.59
0.51
0.51
0.51
0.59
0.55
0.55
1.02
#10-32UNF x 0.98
5/16-18UNC x 1.38
5/16-18UNC x 1.57
5/16-18UNC x 1.77
3/8-16UNC x 2.17
1/2-13UNC x 2.56
1/2-13UNC x 2.56
5/8-11UNC x 2.95
g
Retaining
Ring
0.75
1.00
1.00
1.25
1.38
1.50
1.50
2.00
h
I
O.D. x I.D.
Bolt
0.75 x 0.28 5/16-18UNC x 4.72
1.00 x 0.39 1/2-13UNC x 4.72
1.00 x 0.39 1/2-13UNC x 4.72
1.25 x 0.67 5/8-16UNC x 5.91
1.37 x 0.75 5/8-16UNC x 7.87
1.50 x 1.02 3/4-10UNC x 7.87
1.50 x 1.02 3/4-10UNC x 7.87
2.17 x 0.98
1-8UNC x 9.45
j
A3
0.16
028
0.28
0.51
0.51
0.63
0.63
0.75
A4
0.64
0.86
0.86
1.11
1.20
1.29
1.29
1.72
A5
0.75
1.00
1.00
1.25
1.37
1.50
1.50
2.00
-0.004
-0.012
-0.004
-0.012
-0.004
-0.012
-0.004
-0.012
-0.004
-0.012
-0.004
-0.012
-0.004
-0.012
-0.004
-0.012
k
A6
A7
A8
4.762
6.35
6.35
6.35
7.938
9.525
9.525
12.7
5/16-18UNC
1/2-13UNC
1/2-13UNC
5/8-16UNC
5/8-16UNC
3/4-10UNC
3/4-10UNC
1-8UNC
2
2
2
3
5
5
5
5
Note: [1] Parts a – k are not supplied by Sumitomo Machinery Corporation of America.
D-10
Hyponic
4. Securing the Hyponic Drive to Prevent Movement Away from the Machine Side (Figs. D-14~D-16).
Collar
Set screw
Machine side
Fig. D-14 Secured by a Spacer
and a Snap Ring
Machine side
End plate
Spacer
Machine side
Snap ring
Fig. D-15 Secured by
an End Plate
Fig. D-16 Secured by a Set
Screw and a Collar
5. Torque arm
a. Attach the torque arm to Hyponic Drive casing on the machine side with hex socket head cap screws. (Refer to the table
below for bolt sizes.)
b. Leave some allowance in the section of torque arm so that excessive force will not be applied between Hyponic Drive and the
driven shaft. Don't secure the torque arm with the torque arm bolt; otherwise, it may damage the bolt, torque arm, Hyponic
Drive or the machine.
c. For frequent start/stop operations, or repeated normal/reverse operations, use a rubber bushing between the torque arm and
mounting bolt (or spacer) to absorb the shock.
Spacer
Machine side
Flat washer
Keep some
allowance
Special bolt
(or pin)
Bolt
1120,1230
M8
1330, 361
M10
1320, 1430, 461
M12
1420, 1530, 1531, 56
M16
1520, 60, 63, 64
M20
No allowance between the
torque arm and the machine
(Adjust the allowance according to
the movement of the machine.)
(Excessive force on the torque arm
bolt, machine and Hyponic may
cause damage.)
Correct
Incorrect
Fig. D-17 Example of Torque Arm mounting
Hyponic
D-11
Technical
Information
Mounting
Torque arm
Frame size
Mounting cont.
6. Flange Mounting and Casing Bottom Mounting (optional)
Handle with care in order not to
apply excessive force to driven
shaft or hollow shaft by twisting
the Hyponic casing.
Correct
Bearing unit
Hollow shaft type
Hyponic Drive
Fig. D-18 Flange Mounting Surface
Incorrect
Bearing unit
Incorrect
Bearing unit
Hollow shaft type
Hyponic Drive
Hollow shaft type
Hyponic Drive
(Poor concentricity of the driven
shaft and mounting flange)
(Poor perpendicularity of the driven shaft
center and mounting flange surface)
(Excessive force on Hyponic and the bearing
unit may cause damage on inner parts.)
Lubrication
Hyponic drives are filled with long-life grease and sealed, so replenishment is practically unnecessary, but overhaul in
approximately 20,000 hours or three to five years of operation will provide longer service life. The durability of oil
seals is subject to operating conditions. Under severe conditions, they may require changing in less than 20,000
hours or three years of operation. Overhaul of gearmotors must be performed at factory-authorized locations.
Paint And Rust Proofing Specifications
Lubication
Paint & Rust
Technical
Information
Table D-16. Paint Specifications
Paint Classification
Paint Color
Standard
Paint Name
Speed Dry DTM Water
Based Enamel
Epoxy (Optional)
Heavy-Duty Epoxy
Blue
Resin Type
Water Based
Acrylic Polymer
Polymide
Converted Epoxy
FDA-USDA (Optional)
Food and Beverage
Industry Coating
High Gloss White
Modified Alkyd
Blue
Dry Time
1~11⁄2 hours
4~6 hours
4~7 hours
Rust proofing treatment is applied to all completely assembled models prior to shipment.
Table D-17. Rust Proofing Specifications
Lubrication Type
Rust-Proofing Period[1, 2]
Storage Condition[2]
Grease
Oil
1 Year
6 Months
Indoor environment that is relatively free of humidity,
dust, extreme temperature fluctuation, corrosive
gas, etc.
Notes: [1] All oil-lubricated models for export receive rust-proofing treatment that is
effective for 6~12 months. Please specify “Export Rust-Proofing” for all export
models.
[2] Please consult factory for storage longer than those listed in Table D-17 or in
the event of adverse storage conditions.
D-12
Hyponic
Motor
• Conduit Box Specifications
• Standard Motor Characteristics
• Brakemotor Characteristics
Motor
Technical
Information
Hyponic
D-13
Conduit Box Mounting Direction
Fig. D-19 Conduit Box Mounting Direction (3-Phase
Standard and Inverter Duty Motors)
The direction in which the conduit box is mounted may be
changed in 90° increments. A mounting direction other than
standard must be changed by the factory and specified when
an order is placed. When ordering, refer to Fig. D-19 for lead
wire opening direction and mounting direction. The direction
cannot be changed after shipment.
Up
Left
Right
Standard
The mounting directions indicated in Fig. D-19 are viewed from the
opposite side of the fan cover. Arrows indicate lead wire opening
direction. Please consult factory for brakemotor, plug-in shaft, bolt-on
flange and bolt-on feet models.
Motor Cover Mounting Specifications
Fig. D-20 Motor End Clearance
Refer to the dimension FA or FB in Figure D-20 when
designing the mounting space into which the gearmotor is to fit.
1. Dimension FA: The space necessary to remove the fan
cover or brake cover without removing the motor for the
equipment. Note: It is not necessary to remove the
gearmotor from the equipment when removing the fan or
brake cover
FA or FB
2. Dimension FB: The minimum space required for
adequate ventilation
Table D-18. Space Requirements (Inch)
Motor
Motor
Technical
Information
Standard Motor
3 Phase
Brake Motor
FB
Inverter Duty
FA
FB
FA
FB
FA
—
—
1.9
0.8
2.0
—
2.5
0.8
1/4 x 4
1.9
0.8
1.9
0.8
2.5
0.8
2.5
0.8
1/3 x 4
1.9
0.8
1.9
0.8
2.5
0.8
2.5
0.8
1/2 x 4
1.9
0.8
2.0
0.8
2.5
0.8
3.7
0.8
3/4 x 4
2.0
0.8
2.1
0.8
3.7
0.8
4.6
0.8
1x4
2.0
0.8
2.1
0.8
3.7
0.8
4.6
0.8
1.5 x 4
2.1
0.8
2.2
0.8
4.6
0.8
5.2
0.8
2x4
2.1
0.8
2.2
0.8
4.6
0.8
5.2
0.8
3x4
2.2
0.8
2.4
0.8
5.2
0.8
5.2
0.8
5x4
2.4
0.8
2.4
0.8
5.2
0.8
5.2
0.8
7.5 x 4
2.4
0.8
3.0
1.0
5.2
0.8
6.7
1.0
HP x
Pole
FA
1/8 x 4
3 Phase
Inverter Duty
FB
D-14
Hyponic
Conduit Box Dimensions
Fig. D-21 Global Conduit Box (UL Washdown)
Fig. D-22 Indoor Duty Conduit Box (Option)
Table D-19. Conduit Box Dimensions (Inch)
HP
Specification
AB
C
D
F
G
X
E
F63S
F63M
F71M
1/8
1/4
1/3
1/2
Global Conduit Box
Washdown
UL
Washdown
UL Indoor
Non UL w/ Brake
Non UL w/o Brake
5.04
5.00
5.20
3.50
3.35
5.91
5.16
5.67
4.37
4.37
4.92
3.94
4.80
3.94
3.35
2.48
2.20
2.64
2.09
2.09
3.43
2.95
3.03
2.28
2.28
1.40 (1/8 HP)
2.30
(1/4 ~ 1/2 HP)
NPT 1/2
PF 1/2
N/A
N/A
N/A
3/4
1
Global Conduit Box
Washdown
UL
Washdown
UL Indoor
Non UL w/ Brake
Non UL w/o Brake
5.43
5.35
5.59
5.59
4.49
5.91
5.16
5.67
5.67
3.78
4.92
3.94
4.80
4.80
3.35
2.48
2.20
2.64
2.64
1.89
3.43
2.95
3.03
3.03
1.89
3.80
NPT 3/4
PF 3/4
N/A
N/A
N/A
1.5
2
Global Conduit Box
Washdown
UL
Washdown
UL Indoor
Non UL w/ Brake
Non UL w/o Brake
5.63
5.55
5.79
5.79
4.69
5.91
5.16
5.67
5.67
3.78
4.92
3.94
4.80
4.80
3.35
2.48
2.20
2.64
2.64
1.89
3.43
2.95
3.03
3.03
1.89
3.90
NPT 3/4
PF 3/4
N/A
N/A
N/A
Global Conduit Box
Washdown
UL
Washdown
UL Indoor
Non UL w/ Brake
5.91
5.83
6.06
6.06
5.91
5.16
5.67
5.67
4.92
3.94
4.80
4.80
2.48
2.20
2.64
2.64
3.43
2.95
3.03
3.03
Non UL w/o Brake
4.96
3.78
3.35
1.89
1.89
N/A
5
Global Conduit Box
Washdown
UL
Washdown
UL Indoor
Non UL w/ Brake
Non UL w/o Brake
6.54
7.20
6.69
6.69
5.79
5.91
6.02
5.67
5.67
4.41
4.92
3.94
4.80
4.80
3.94
2.48
2.56
2.64
2.64
2.09
3.43
3.46
3.03
3.03
2.32
5.00
NPT 3/4
PF 3/4
N/A
N/A
N/A
7.5
Global Conduit Box
Washdown
UL
Washdown
UL Indoor
Non UL w/ Brake
Non UL w/o Brake
6.54
7.20
6.69
6.69
5.79
5.91
6.02
5.67
5.67
4.41
4.92
3.94
4.80
4.80
3.94
2.48
2.56
2.64
2.64
2.09
3.43
3.46
3.03
3.03
2.32
5.00
NPT 1
PF 1
N/A
N/A
N/A
F80S
F80M
F90S
F90L
F100L
F112M
F132S
3
4.10
NPT 3/4
PF 3/4
N/A
N/A
Hyponic
D-15
Technical
Information
Motor
Frame
Size
Standard Motor Characteristics
Standard Motor Data
Full Load ratings and amperage for Hyponic® gearmotors are listed in Tables D-20~D-22. These ratings are
based on the motors’ design values. If additional information is required, please consult the factory.
Table D-20. 230/460 V, Synchronous Speed 1800 RPM, 60 Hz, Continuous Duty, TEF
Full Load
Full Load Current (A)
Starting Current (A)
Torque (% of F.L.)
Power
Efficiency Factor Code
[1]
Starting Breakdown (Percent) (Percent) Letter
Inertia WR2
HP
Frame
Size
RPM
Torque
in•lbs
230V
460V
208V
230V
460V
1/8[2]
F-63S
1730
4.50
0.7
0.35
0.65
2.8
1.4
326
329
64.0
59.5
K
1.11
1/4
F-63M
1730
9.06
1.1
0.6
1.1
5.2
2.6
300
293
69.8
65.2
K
1.71
1/3
F-63M
1710
12.3
1.3
0.65
1.3
5.2
2.6
232
232
70.8
72.0
G
1.71
1/2
F-71M
1740
18.3
2.1
1.1
2.0
9.8
4.9
295
280
71.9
65.1
J
2.22
3/4
F-80S
1730
27.4
2.5
1.2
2.5
12.3
6.2
266
245
76.9
73.0
H
3.45
1
F-80
1750
36.0
3.4
1.7
3.4
17.6
8.8
269
303
77.2
72.3
H
4.10
1.5
F-90S
1730
54.7
4.7
2.4
4.7
28.6
14.3
273
281
80.3
74.1
J
6.32
2
F-90L
1740
72.5
6.1
3.0
6.2
36.8
18.4
263
270
82.3
75.6
J
7.28
3
F-100L
1730
109
8.5
4.3
8.7
54.8
27.4
277
266
84.4
77.2
J
11.4
5
F-112M
1730
183
13.1
6.6
13.7
91.5
45.8
308
279
86.3
82.4
J
29.0
7.5
F-132S
1710
277
18.1
9.0
20.1
120
60
230
223
86.9
88.1
H
39.0
lb•in2
Table D-21. 575 Volt, Synchronous Speed, 1800 RPM, 60 Hz, Continuous Duty
Motor
Technical
Information
HP
Frame
Size
1/8[2]
1/4
1/3
1/2
3/4
1
1.5
2
3
5
7.5
F-63S
F-63M
F-63M
F-71M
F-80S
F-80M
F-90S
F-90L
F-100L
F-112M
F-132S
Full
RPM
Torque
in•lbs.
Full Load
Current (A)
575V
Starting
Current (A)
575V
1720
1720
1710
1700
1720
1680
1720
1720
1710
1730
1720
4.58
9.17
12.8
18.6
27.5
37.5
55.1
73.3
111
182
278
0.28
0.48
0.52
0.79
0.94
1.3
1.8
2.3
3.3
5.2
7.7
1.3
2.2
2.2
3.7
4.5
6.6
11.5
14.3
21.3
39.5
62
Torque (% of F.L.)
Efficiency
Starting
Breakdown
(Percent)
376
316
250
309
247
252
280
264
269
268
298
391
340
270
300
227
256
294
268
264
271
263
65.2
69.4
71.3
75.8
77.4
78.1
81.5
82.5
84.2
86.6
87.1
Power
Factor
54.1
60.3
67.7
67.4
75.9
74.9
75.0
77.8
79.5
82.7
82.6
Code
Letter[1]
L
K
H
H
G
H
J
H
J
J
K
Inertia WR2
in•lbs
1.11
1.71
1.71
2.22
3.27
4.10
6.49
7.26
11.4
28.9
39.0
Table D-22. Single Phase, 115/230V, Synchronous Speed, 1800 RPM, 60 Hz, TEFC
Full Load Amp.
Inertia WR2
115 V
230 V
lb•in2
1/8
S-71S
3.4
1.7
5.13
1/4
S-71S
4.2
2.1
5.13
1/3
1750
S-71
6.5
3.2
7.69
1/2
S-71
7.1
3.5
7.69
Notes: [1] Code letter shown is for 230V or 460V operation. Consult the factory for other voltages.
[2] No Fan 1/8 H.P., F-63S frame.
HP
D-16
RPM
Frame Size
Hyponic
Standard Wiring Diagrams
Illustrated below are the wiring diagrams for our standard motors. For additional information, please refer to motor
nameplate. Due to changes in design features, this diagram may not always agree with that on the motor. If different,
the motor diagram found inside the conduit box cover is correct.
A. Three Phase Motors
Fig. D-23 Y-Connected (5 HP and smaller)
Line 208/230V 60 Hz
Line 460V 60 Hz
Fig. D-24 Delta-Connected (7.5 HP)
Line 208/230V 60 Hz
Line 460V 60 Hz
B. Single Phase Motors
Fig. D-25
Line 115V
Line 230V or 208V
Motor
Technical
Information
Hyponic
D-17
Assembly Drawings
Assembly of Motors
Fig. D-26 Frame Size F-63M thru F-160M
Table D-23. Part Name
Motor
Technical
Information
1
Bearing Cover[1]
13
Stationary Core
2
Bearing
14
Stator Frame
3
Bolt[1]
15
Stator Winding
4
Fan
16
Bolt
5
Fan Cover
17
Eye Bolt
6
End Bracket
18
Cyclo Flange Bracket
7
Bolt
19
Bearing
8
Bolt
20
Slinger/Oil Seal
9
Internal Fan
21
Motor Shaft
10
Hub
22
Conduit Box
11
Short Circuit Ring
23
Bearing Cover
12
Rotor Core
24
Bearing Sleeve
[2]
Notes: [1] Parts not included in F-63 through F-132S Motors.
[2] No Fan 1/8 H.P., F-63S frame.
D-18
Hyponic
Motor Thermal Ratings
Table D-24. Motor Thermal Rating (C x Z) [1]
Motor Moment of Inertia (lb-in2)
Allowable C x Z
Motor Power
HP
(35%ED)[2]
Standard
With Brake
1/8
3200
3000
2000
1200
1.13
1.20
1/4
2200
2800
2800
2500
1.71
1.88
1/3
2200
2800
2800
2500
1.71
1.88
1/2
1800
2200
1500
1500
2.22
2.33
3/4
1800
2200
1500
1500
3.45
3.80
1
1400
1400
800
500
4.10
4.45
1.5
1400
1400
800
500
6.33
7.11
2
1200
1200
500
400
7.28
8.04
3
1000
900
400
200
11.4
12.8
5
800
800
800
700
29.0
32.8
7.5
300
300
200
150
39.1
42.9
35% - 50%
ED[2]
50% - 80%
ED[2]
80% - 100%
ED[2]
The calculated C x Z value (steps 1 - 3 outlined below) should be less than the allowable value listed in Table D-24
1. Obtain the C value.
C=
IM + IL
IM
IM = Moment of inertia of motor.
IL = Total moment of inertia of load as seen from the motor.
2. Obtain the Z value (number of starts per hour).
(a) Assume that one operating period consists of “on time” ta (sec), “off time” tb (sec) and the motor is started nr
(times/cycle).
Zr =
3600nr
(times/hr)
ta + tb
(b) When inching, ni (times/cycle) is included in 1 cycle (ta+tb), the number of inching times per hour, Zi,
is then included in the number of starts.
Technical
Information
(times/hr)
Motor
3600ni
Zr =
ta + tb
(c) Calculate Z by adding Zr to Zi.
3600
Z = Zr + 1 Zi =
ta + tb
2
• (nr +
1
ni) (times/hr)
2
3. Calculate C multiplied by Z.
Use the value of C obtained in step 1 and Z from step 2.
4. Obtain the duty cycle %ED and check with Table D-24.
%ED =
ta
x 100 ta = on-time
tb = off-time
ta +tb
Notes: [1] Please consult the factory for Inverter Duty and Single Phase motors.
[2] %ED = Duty Cycle
Hyponic
D-19
Brakemotor Characteristics
Brakemotor Data
The brakemotor on Hyponic® gearmotors operates
with direct current supplied by a dual voltage rectifier
mounted in the motor conduit box.
When used for outdoor installations, our standard
brakemotor must be protected by some type of cover.
Such covers are available from the factory; please
inquire when ordering.
The standard brake input voltage is 208V OR 230V OR
460V at 60 Hz.
Table D-25. Required Brake Torque [1]
Condition
% Motor
Torque
Typical
Application [2]
Machine Tool Cutter and
Table Transfer
Rapid Brake Action
100%
Frequent Start/Stop
100%
Conveyor Drive
Rapid Braking and Fail Safe
Over 150%
Crane, Hoist Winch, Gate, Lifting
Rapid Deceleration of
High Inertia
Over 150%
Centrifuge Drive Textile
Remarks
Fast Brake Action or Quick
Brake Relay May Be Required
Wiring Connection for Fast Brake
Action or Quick Brake Relay
Table D-26. Brakemotor Characteristics
Type
HP
Motor
Technical
Information
Motor
Frame
Brake
Model
1/8
F-63S
1/4
Brake Torque
Standard
Maximum
Inertia WR 2
lb•in2
Brake Delay Time (sec)
Normal
Fast or Quick
Braking
Braking
Action
Action
Coil Current (AC Amperage)
208V
230V
460V
0.015~0.02
0.06
0.06
0.04
0.15~0.2
0.015~0.02
0.1
0.1
0.06
1.88
0.15~0.2
0.015~0.02
0.1
0.1
0.06
3.0
2.31
0.1~0.15
0.01~0.015
0.1
0.1
0.06
5.5
7.7
3.79
0.2~0.3
0.01~0.02
0.1
0.1
0.1
FB-1B
5.5
7.7
4.44
0.2~0.3
0.01~0.02
0.1
0.1
0.1
F-90S
FB-2B
11
14.0
7.11
0.2~0.3
0.01~0.02
0.3
0.3
0.2
2
F-90L
FB-2B
11
14.0
8.03
0.2~0.3
0.01~0.02
0.3
0.3
0.2
3
F-100L
FB-3B
16
21.0
12.7
0.3~0.4
0.01~0.02
0.4
0.4
0.2
5
F-112M
FB-5B
27
36.0
32.7
0.4~0.5
0.01~0.02
0.4
0.5
0.3
7.5
F-132S
FB-8B
41
53.0
42.7
0.3~0.4
0.01~0.02
0.4
0.5
0.3
ft•lbs
ft•lbs
FB-01A
0.7
1.0
1.20
0.15~0.2
F-63M
FB-02A
1.5
2.0
1.88
1/3
F-63M
FB-02A
1.5
2.9
1/2
F-71M
FB-05A
3.0
3/4
F-80S
FB-1B
1
F-80M
1.5
Notes: [1] If application requires larger or smaller brake torque than those listed, please advise the factory when ordering.
[2] Quick brake relay may not be used with inverter applications.
D-20
Hyponic
Standard Wiring Connection, Dual Voltage
Models FB-01A thru FB-8B
D-27
D-28
D-29
D-30
MC:
MCB:
OLR:
VR:
Electromagnetic Relay
Magnetic Circuit Breaker
Overload or Thermal Relay
Varistor (protective device) [1]
Table D-27. Varistor Specifications
Operating Voltage
Varistor Rated Voltage
Varistor Voltage
FB01A, 02A
FB-05A
FB-1B
Rated Watt
FB-2B, 3B
FB-5B, 8B
200-230V
AC260~300V
430~470V
Over 0.2W
Over 0.2W
Over 0.4W
Over 0.6W
Over 0.6W
380-460V
AC510V
820V
Over 0.4W
Over 0.4W
Over 0.6W
Over 1.5W
Over 1.5W
575V
AC604V
1000V
Over 0.4W
Over 0.6W
Over 1.5W
Note: [1] Refer to Table D-27 for Varistor Specifications.
Hyponic
D-21
Motor
Technical
Information
Standard Wiring Connection
Quick Brake Relay Equipped Models
Fig. D-31 Quick Brake Action, High Voltage
(FB-2B, FB-3B, FB-5B, FB-8B)
T1
Motor
QB Relay
T2
1
T3
2
3
Fig. D-32 Quick Brake Action, Low Voltage
(FB-05A, FB-1B, FB-2B, FB-3B)
Rectifier
4 1
2
3
Brake
4
M
N
T1
Motor
QB Relay
T2
1
T3
3
4 1
2
3
Brake
4
M
N
OLR
OLR
MC
2
Rectifier
Furnished
by
Customer
LINE 460V
MC
Furnished
by
Customer
LINE 230V
FB Brake (1/8 HP – 7.5 HP) with Inverter
D-33
D-35
D-34
D-36
Motor
Technical
Information
MC: Electromagnetic Relay
MCB: Magnetic Circuit Breaker
VR: Varistor (protective device) [1]
Note: [1] Refer to Table D-27 for Varistor Specifications.
D-22
Hyponic
Assembly of Brakemotors
Types FB-01A, 02A, 05A, 1B, 2B, 3B, 5B, 8B
Fig. D-37 Brakemotor
a.
6
7
4
5
3
2
1
Table D-28a.
Part No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
Type FB-01A, -02A, -05A
Description
Stationary Core
Spacer
Brake Lining
Restraining Bolt
Hub
C-type Retaining Ring
Cover
Fan (TEFC model only)
Leaf Spring
Brake Shoe
Armature
Pressure Spring
Solenoid Coil
Ball Bearing
Motor Shaft
Table D-28b. Type FB-1B thru 3B
8
9
10
11
12
13
14
Type FB-01A, 02A, 05A
b.
15
Part No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
Description
Stationary Core
Brake Release Support
Shifting Pin
Spacer
GAP Adjusting Sleeve
Brake Release Lever
Restraining Bolt
Brake Lining
Leaf Spring
Hub
Retaining Ring
Fan Cover
Fan Set Screw
Fan
Fixed Plate
Noise Shield
Brake Shoe
Armature Plate
Pressure Spring
Solenoid Coil
Fan Side Motor Bearing
Motor Shaft
Technical
Information
Table D-28c. Type FB-5B thru 8B
c.
Type FB-5B thru 8B
Hyponic
Part No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
Description
Stationary Core
Brake Release Support
Stud Bolt
GAP Adjusting Sleeve
Shifting Pin
Brake Release Lever
Spring Washer
Nut
Brake Lining
Hub
Retaining Ring
Fan Cover
Fan Set Screw
Fan
Brake Shoe
Armature Plate
Pressure Spring
Solenoid Coil
Fan Side Motor Bearing
Motor Shaft
Bearing Cover
Motor
Type FB-1B thru 3B
D-23
Assembly of Brakemotors
Rectifier Data
Table D-29. Rectifier Data
Brake
Type
Motor
(HP x P)
FB-01A
1/8 x 4
FB-02A
1/4 x 4
1/3 x 4
FB-05A
1/2 x 4
FB-2B
3/4 x 4
1x4
1.5 x 4
1x4
FB-3B
3x4
FB-5B
5x4
FB-8B
7.5 x 4
FB-1B
Voltage
(V)
190 ~ 230
380 ~ 460
190 ~ 230
380 ~ 460
190 ~ 230
380 ~ 460
190 ~ 230
380 ~ 460
190 ~ 230
380 ~ 460
190 ~ 230
380 ~ 460
190 ~ 230
380 ~ 460
190 ~ 230
380 ~ 460
Rectifier P.N.
Single Voltage [1]
Product I.D.
Number
25FW - 4FB
DX527WW-01
25FW - 4FB
DX527WW-01
25FW - 4FB
DX527WW-01
25FW - 4FB
DX527WW-01
25FW - 4FB
DX527WW-01
25FW - 4FB
DX527WW-01
25FW - 4FB
DX527WW-01
25FW - 4FB
DX527WW-01
Note: [1] Dual Voltage P.N. 25FW-4FB is now standard for all FB brakes. The voltage range is 190 ~ 460V.
Motor
Technical
Information
D-24
Hyponic
Standards
• Motor Protection
• International Standards & Sumitomo Standards
• EC Directives & CE Markings
• Precautions for Inverter Driving
• Constant Torque Operation of General Purpose Motors
Standards
Technical
Information
Hyponic
D-25
Motor Protection
The first number (No. 1) denotes the level of motor protection against human or other foreign substances.
The second number (No. 2) denotes the level of motor protection against water permeation.
}
Classified according
to combination.
Table D-31. Protection Method of Motors
First
Number
(No. 1)
0
Non-Protected
0
Non-Protected
1
Semi-Protected
2
Protected
4
Totally Enclosed
5
Dust-Protected
6
Dust-Tight
2
Drip-Proof
3
Spray-Proof
IP00
Second Number (No. 2)[1, 2, 3]
4
5
6
7
8
Splash-Proof Water-Jet-Proof Sea-Wave-Proof Immersion-Proof Submersible
X
X
X
X
X
X
X
IP24
X
X
X
X
IP44
IP45
X
IP54
IP55
IP10
IP12
IP20
IP22
IP23
IP56
IP65
Table D-32. First Number Description
Type
Number
Non-Protected
0
Semi-Protected
1
Protected
2
Totally Enclosed
4
Dust-Protected
5
Dust-Tight
6
Description
Constructed without special protection against human contact and penetration of solid foreign
objects.
Constructed to prevent inadvertent contact with rotating and conductive parts inside the
machine, by hand or other critical parts of the human body. Constructed to prevent penetration
of solid foreign substances over 50 mm in diameter.
Constructed to prevent contact with rotating and conductive parts inside the machine, by hand or
other critical parts of the body. Constructed to prevent penetration by solid substances over 12
mm in diameter.
Constructed to prevent contact with the rotating and conductive parts inside the machine by
tools, electric wires, etc. with minimum width and thickness over 1 mm. Constructed to prevent
penetration of solid foreign substances over 1 mm diameter. However, water drainage outlet and
exhaust outlet may be of Number 2 construction.
Constructed to prevent contact with rotating and conductive parts inside the machine by any
form of objects. Constructed for protection against dust particle penetration, but will not interfere
with normal operation, despite such penetration.
Constructed to prevent contact with rotating and conductive parts inside the machine by any
form of objects. Constructed to prevent ingress of dust particle penetration.
Table D-33. Second Number Description
Standards
Technical
Information
Type
Non-Protected
Number
0
Drip-Proof
2
Spray-Proof
3
Splash-Proof
Water-Jet Proof
Sea-Wave Proof
4
5
6
Immersion-Proof
7
Submersible
8
Description
Constructed without special protection against water permeation.
Constructed to prevent harmful effect from dripping water falling from within 15° direction from
vertical.
Constructed to prevent harmful effect from dripping water falling from within 60° direction from
vertical.
Constructed to prevent harmful effect from dripping water falling from any direction.
Constructed to prevent harmful spray from any direction.
Constructed to prevent harmful effect from strong spray from any direction.
Constructed for submersion into water of prescribed depth and time but not having any harmful
effect in spite of water permeation.
Constructed to assure normal operations under water.
Example:
IP – 5 4
Form of protection against water permeation: Splash-Proof Type
Form of protection against bodily injury and solid foreign substance peneration: Dust-Proof Type
ICE Standards abbreviation.
Table C-26 Cooling
Enclosure Construction
Totally Enclosed, Non-Ventilated (TENV)
Totally Enclosed, Fan-Cooled (TEFC)
Notes [1] “X” denotes a protection combination that is difficult to produce.
[2] IP44 and IP54 are standardly available from Sumitomo.
[3] Please consult factory for IP45 and IP55 selections.
D-26
JEC Standards
JCN4
JC4
IEC Standard
IC410
IC411
Hyponic
International Standards &
Corresponding Sumitomo Standards
UL Standards (Underwriters Laboratories)
UL Standards, which are based on a series of scientific
studies, research and experiments, are established for
safety by a commercial testing institute in the U.S. to
prevent fire, disaster and harm to human life. They are
not regulated to comply with U.S. Federal Government
standards, but they are regulated by some U.S. cities
and states.
Table D-35
Motor
Non-explosion proof
single-phase induction
motor[1]
Non-explosion proof
3-phase induction motor
with brake
Power
1/8~1/2HPx4P
1/8~7.5HPx4P
1/8~7.5HPx4P
Voltage
115V, C230V
Frequency
60Hz
Insulation
Class A
UL mark
208V, 230V, 460V, 575V
60Hz
Class A (Class B, Class F) [3]
Class F
Indoor type[2]
Ambient Conditions
HP
Differences from Sumitomo Machinery Corporation of America (SMA) standard models:
• Numbered motor leads
• Nameplate with UL mark
• Large volume terminal box
• UL recognized insulation system.
P
TYPE
VOLTS
Hz
AMP
RPM
CODE
SER. NO.
FRAME
INS. CLASS
TIME RATING
SERVICE FACTOR
MAX AMB
SUMITOMO
˚C
MACHINERY CORP. OF AMERICA
Fig. D-42 UL nameplate
Additional Remarks:
• Manufacturing and repair work may be conducted only at an authorized facility.
CSA Standards (Canadian Standards Association)
CSA Standards are standards that have been established by a semi-governmental
organization in Canada. Most areas in Canada require electronic products to be approved
by CSA.
Table D-36
Motor
Single phase induction
motor[1]
with brake
High efficiency 3-phase
induction motor
Power
1/8~1/2HPx4P
1/8~1HPx4P
1/8~1HPx4P
2~7.5HPx4P
Voltage
115V, A230V
High efficiency 3-phase
induction motor with
brake
2~7.5HPx4P
208V, 230V, 460V, 575V
60Hz
Insulation
Class B and Class F[3]
Ambient conditions
Indoor type[2]
Differences from SMA standard models:
• Oversized frame for a high-efficiency motor
• Nameplate with CSA mark
• Large volume terminal box
• CSA standard motor coil.
Additional Remarks:
• If the unit is to be exported to Canada, it should include a CSA approved motor.
• Manufacturing and repair work may only be done at authorized facilities.
• Inverter (AF) motors are excluded from UL approval. Sumitomo supplies CSA compliant AF
motors (CSA mark is not fixed on the nameplates of CSA compliant products).
Technical
Information
HP
VOLTS
Hz
M.AMP
RPM
B.AMP
B.TORQUE
MANUF. No.
Standards
Frequency
P
TYPE
FT-LB
FRAME
M / B INS. CLASS /
TIME RATING
SERVICE FACTOR
MAX.AMB
˚C
ENCLOSURE
TE
SM CYCLO OF CANADA, LTD
TORONTO, MONTREAL, VANCOUVER
Fig. D-43 CSA nameplate
NRCan established the Energy Efficiency Act (EEACT) in 1992 and the Energy Efficiency Regulations
(EER) in 1995. Additional regulations were applied to gearmotors imported on November 27, 1999 or later.
The import of gearmotors that do not meet the efficiency standards has been banned.
Notes: [1] Contact factory for manufacturers of single-phase motors or brakemotors.
[2] The outdoor type is unavailable.
[3] Contact the factory for manufacture of insulation types B or F.
Hyponic
D-27
NEMA Standards (National Electrical Manufacturers Association)
Established by a manufacturers’ association to provide manufacturer and consumer
standards for most electrical products.
Differences from Sumitomo Machinery Corporation of America standard models:
• Nameplate marked with NEMA design
• NEMA standard motor coil.
HP
P TYPE
VOLTS
Hz
M. AMP
RPM
CODE
B. AMP
SERIAL NO.
Additional Remarks:
• No approval is required to state NEMA compliance.
• NEMA standards also apply to inverter motor (AF).
SUMITOMO
FRAME
M B INS. CLASS
TIME RATING
SERVICE FACTOR
MAX. AMB.
B. TORQUE
NEMA DESIGN
˚C
FT LB
MACHINERY CORP. OF AMERICA
Fig. D-44 NEMA nameplate
Other Standards
Table D-37. Application of International Standards (Example)
Country/Standards
JIS
JEM
JEC
Japan• 000
International•IEC
Standard output
Applicable output frame size
UK•BS
: 4kW max.
: 5.5kW min.
Germany• VDE
DIN
: 4kW max.
: 5.5kW min.
–
Motor mounting dimension
of corresponding frame size
[1]
[1]
[1]
[1]
Shaft end dimension
[1]
[1]
[1]
[1]
Dimension tolerance of shaft
end key and key groove
[1]
[1]
[1]
[1]
–
Insulation class
Lead wire code
: Sumitomo standards
: Manufactured to special specification
on customer’s request
IEC–International Electrotechnical
Commission.
BS–British Standards.
Standard direction of
rotation
Description on nameplate
Characteristic testing method
Standard voltage
200V • 220V
400V • 440V
Standard frequency
50Hz • 60Hz
50Hz • 60Hz
415V
220V
380V
50Hz
50Hz
Note: [1] Denotes dimension of standard flange-mount CYCLO DRIVE. Consult the factory for flange
dimensions required for standards.
Standards
Technical
Information
D-28
Hyponic
EC Directives & CE Marking
The CE mark is affixed to products that conform to EC
directives in order to certify the quality and safety of
products and ensure free distribution of products across
borders within the region of the EU (European Union).
EC Directives Applicable to Machine Products and Implementation Period
Table D-38. Directives that Apply to Ordinary Machine Products
EC directives
Details
Machinery Directive
Machinery
Directive
Low Voltage Directive
Low Voltage
Directive
EMC Directives
Electromagnetic
Compatibility
Directive
Electromagnetic
Objects
Details of directive
Aggregates of parts, which are movable
(Industrial machines, primarily)
Essential matters related to safety of machines
are stipulated. Machines that are electrically
dangerous must meet the requirements for low
voltage.
Products driven by power of 50-1,000 VAC or
75-15,000 VDC
All types of products that may cause jamming
(electromagnetic radiation) or have their
functions impeded by nearby radio waves
Products not conforming to standards cannot be
put on the market.
EMI : Not to cause external electromagnetic
interference
EMS : To withstand external electromagnetic
interference
Table D-39. Transition Period and Time Limit for Enforcement of CE Marking for Major Directives
Year
1990
1991
1992
Machinery Directive
89/392/EEC Original
91/368/EEC Revision I
93/44/EEC
Revision II
EMC Directives
89/336/EEC Original
92/31/EEC
Revision I
1993
1994
1/1
1995
1996
1997
1998
1999
2000
2001
2002
2003
1/1
Transition
Enforcement
1/1
1/1
Transition
Low Voltage Directive
73/23/EEC
Original
93/68/EEC
Revision I
Enforcement
1/1
1/1
Transition
Technical
Information
Enforcement
Standards
EC Directive
Measures to Take for EC Directives and CE Marking Related to Gearmotors
Among EC directives, the machinery directive (issued in
January 1995) concerning induction motors and low
voltage directive (issued in January 1997) are
applicable.
The EMC directive (issued in January 1996) does not
apply to induction motors.
CE marking logo shown
on nameplates
Hyponic
D-29
EC Directives & CE Marking, cont.
Standard Specifications for CE Marking Motors
Input power
: 0.1kW~4kW 230/400V 50Hz Dual voltage direct starting
Y
–
5.5kW or more 400V 50Hz
Start
Insulation
: 0.1kW~0.4kW Class E
Rated time
: Continuous
Characteristics
: IEC34-1
Protection
: IP54 (without brake), IP44 (with brake)
Terminal box
: (Material)
0.75kW or more Class B
5.5kW or less: Aluminum (PG16 boltsx2pcs)
7.5kW or more: cast iron (PG21 boltsx3pcs)
(specification) Terminal plate (six terminals European style)
with grounding terminal
Conduit tube in European size ( PG bolts)
different from Japanese
standard of conduit tube PF bolts
Insulation
: Distances between insulated surfaces and spaces in accordance with IEC standards
External dimensions : Same as standard except for the terminal box
TEUV test report
: Acquired for a representative model 0.75kWx4p, 230V/400V (Oct 1996)
CE marking motors are manufactured in accordance with the model
Declaration of Conformity
: Declaration of Conformity is available when necessary for CE marking
Fig. D-45 Example of Terminal Box – 5.5 kW or less
Terminal plate
(six terminals
in European
style)
59
49
56
97
81
50
Standards
Technical
Information
Connection
bar
16
16
30.5
2-PG16
Manufacturing Range of CE Marking Motors
Table D-40. 3-phase Induction Motor
230/400V dual voltage
400V
Input Power Symbol
01
012
018
02
03
04
05
08
1
1H
2
3
5
6
8
kWx4P
(0.1)
0.12
0.18
(0.2)
0.25
0.37
(0.4)
0.55
0.75
1.1
1.5
2.2
(3.7)
4
5.5
Frame
F63S
F63M
F71M
F80S F80M F90S F90L F100L
F112M
F132S
• Motors with kWs not shown in parentheses ( ) in the above table are standard in Europe, while motors with kWs shown in
parentheses ( ) are used only in Japan and other countries.
• European standard kW motors are recommended. Motors with kWs shown in parentheses ( ) are also available
3-Phase 100V/50Hz, 200V/60Hz, 220V/60Hz
3-Phase 400V/50Hz, 400V/60Hz, 440V/60Hz
3-Phase 380V/50Hz
3-Phase 415V/50Hz
Contact the factory when motors with kW and voltage not listed in Table D-37 are required.
D-30
Hyponic
Precautions for Inverter Driving
1. Constant Torque Operation
Constant torque operation requires a special motor for the inverter. Consult factory when the operation frequency range is less than 6 Hz.
The sensorless operation mode of the HF-320 inverter permits constant torque operation of general-purpose motors at 3.7 kW or less.
2. Operation in Frequency Range Exceeding the Base Frequency (60 Hz)
Rated output operation will be carried out in the frequency range exceeding the base frequency. Therefore, the torque will decrease as the
speed increases. Select an appropriate motor capacity according to the machine load characteristics. (See Fig. D-46.)
The frequency exceeding 60 Hz is regarded as the base frequency. The output torque is lower than that at 60 Hz, which is the standard base
frequency, also when V/f is set for constant torque operation.
When such adjustment is made, insufficient torque may result at low frequency or during start-up.
Do not change the base frequency figure for cases other than reduction load characteristics.
3. V/f Mode Operation of General-purpose Inverter
In the case of multiple operation of motors or V/f operation with an inverter that has no sensorless function, it is necessary to adjust the boost
value to compensate for the start-up torque and slow-speed torque. Standard values are usually set before shipment from the manufacturer
but overcurrent may result depending on the load condition and acceleration/deceleration. In such a case, change values appropriately as
follows :
Fig. D-46
a. In the case of a small capacity motor and a small load, a large boost setting may cause
overexcitation of a motor, leading to overcurrent. In that case, lower the boost to return
to a normal value.
b. In cases where a load is large and overcurrent during start-up and slow-speed
operation easily causes tripping, increase the boost to lower the current value. Examine
the motor capacity if no improvement is observed after boost adjustment.
Output frequency (Hz)
Base frequency
Boost
4. Operation by Sensorless Vector Inverter
Base voltage
Output voltage (V)
Some of the newest high-performance inverters are equipped with a sensorless vector
operation function. Usually this function is valid only when a motor and an inverter are
operated in one-to-one correspondence. The function does not apply to multiple operation or pole-change operation. Products to which the
auto-tuning method is applied do not need adjustment as in the case of V/f operation due to automatic control of the motor characteristics.
Vector operation is carried out on the basis of the motor data read by the inverter, and operation is controlled instantaneously in accordance
with the load condition to continue optimal operation.
When the wiring distance between the motor and inverter becomes long (20 m or more), compensation may be necessary according to the
drop in the line impedance. Select sufficiently thick cables when the wiring distance is long.
5. Output Torque Characteristics of Motor
Fig. D-47
Output Torque
Torque curve
100
100
Output curve
80
AF motor
50
50
Technical
Information
When a general-purpose motor is
driven by an inverter, the reduction
torque operation characteristics
shown below will appear.
(%)
Torque (%)
(%)
Continuous operation characteristics when a general-purpose
motor is driven by an inverter
95~100
80~90
Standards
Total output/torque characteristics curve when AF motor and
SUMITOMO inverter are operated in combination
220V (440V)
200V (400V)
General-purpose motor
40~60
35~45
20
0 6
60
120
6
20~30
60
120
Note: Constant torque operation is possible from 1 Hz when an axial
fan type is used.
6. Motor Temperature Rise
When a general-purpose motor is combined with an inverter for variable-speed operation, the motor temperature rise may be slightly greater
than if the motor is operated by a commercial power supply.
Possible causes are shown below :
Influence of output waveform…Unlike a commercial power supply, the output waveform of an inverter is not a complete sine wave but includes
harmonics; therefore, motor damage will increase, raising the temperature slightly higher.
Decrease in motor cooling effect during slow-speed
operation…………………………A motor is cooled by its own fan. Therefore, when the motor speed is decreased by an inverter, the quantity of
cooling air decreases, reducing the cooling effect.
When a motor is to be operated at frequencies lower than the frequency of a commercial power supply, reduce the load torque to hold down
the temperature rise or use a special motor designed for inverter operation.
Hyponic
D-31
Constant Torque Operation of General-Purpose Motors
Operation with the following characteristics is possible when the HF-320 series inverter is used for sensorless control in combination
with general-purpose motors (3.7 kW or less).
A combination with a standard frame size motor can be used for constant torque operation where an AF motor with a reducer of a
larger frame size has conventionally been used.
Notes: 1. To select the combination with Hyponic ®, examine the lubrication method and torque during slow speed operation and
rated output operation. Specify that inverter operation is desired when placing an order.
2. Consult factory for 400V class model to select insulation necessary for inverter operation.
3. When a brakemotor is operated for an extended period at slow speed, the cooling effect of the fan will decrease and the
brake temperature will rise substantially.
Consult factory for details.
4. Consult factory for details when a general-purpose motor will be operated under V/F control. (Also consult factory when using
the SF-320 series.)
Table D-41
kW
Motor frame
size
0.1
F63S
0.2
F63M
0.4
F71M
0.75
F80M
1.5
F90L
2.2
F100L
3.7
F112M
Insulation
Frequency
range
Series of
inverter
6~120Hz
HF-320
Series
Class E
(Base frequency
60Hz)
Class B
Fig. D-48 HF-320 Output Torque Characteristics during Operation in Sensorless Mode
Short time maximum torque
Standards
Technical
Information
150
Continuous operation
torque
100
150
80
50
40
50
40
6
20
40
60
120
Continuous operation
torque
100
80
0
Short time maximum torque
200
Torque (%)
Torque (%)
200
0
6
20
40
60
Frequency (Hz)
0.2~0.4kW
•
120
Frequency (Hz)
0.75~3.7kW
The combination-output torque presupposes that the rating is 100% when the motor frequency is 60 Hz. Use an AF motor when
constant torque is required at power exceeding 7.5 HP.
D-32
Hyponic
General
Engineering
Information
• Basic Power Transmission Formulas
• Derivations of Common Power Transmission Formulas
• Conversion Factors
Engineering
Technical
Information
Hyponic
D-33
Power Transmission Formulas
Basic Mechanics
T=F•r
Basic Torque Formula
T = Torque (inch •pounds)
F = Force (pounds)
r = Radius (inches)
Horsepower (when Torque and Speed is known)
HP = Horsepower
T•N
HP =
63025
N = Rotational Speed (RPM)
Torque (when Horsepower and Speed is known)
HP•63025
HP = Horsepower
T=
N
Speed (Rotary to Linear)
V = Linear Velocity (ft/min)
V = 0.262 • N • D
D = Diameter (inch)
N=
TA =
V
0.262 • D
WK2 • ∆N
3696 • t
Speed (Linear to Rotary)
V = Linear Velocity (ft/min)
D = Diameter (inch)
Torque to Accelerate Inertia
TA2 = Torque (inch •pounds)
WK2 = Inertia (pound•inch2)
∆N = Speed Change (RPM)
t = Time (seconds
Conveyors
Continuous Torque
TC = Continuous Torque (in •lbs)
W = Weight (pounds)
= Incline Angle (degrees)
TC = W(sinø + f cosø ) r
f = Friction Coefficient
r = Radius (inch)
2 = w • r2
WK L
Load Inertia at Pulley
WK2L = Load Inertia (lb•in2)
W=
Weight (pounds)
r=
Radius (inch)
Total Inertia to Accelerate
WK2T = Total Inertia (lb •in2)
2
2
2
2
2
2 WK L = Load Inertia (lb•in )
WK L = WK L +WK D +WK M
WK2D = Drive Inertia (lb•in2)
WK2M = Motor Inertia (lb•in2)
Engineering
Technical
Information
TM
TM
Motor Torque Required
TM = Motor Torque (in •lb)
TC = Continuous Torque (in •lb)
TA = Acceleration Torque (in •lb)
RR = Reduction Ratio
e = Reducer Efficiency
= TC + TA
1.5 • RR • e
≥ TC
RR • e
OHL =T • K
r
Friction Coefficient (f)
Belt/Rollers = 0.025
Fabric/Steel = 0.27
Plastic/Steel = 0.35
Rubber/Steel = 0.50
Leather/Steel = 0.56
OHL K-Factors
Chain =
1.0
Polychain =
1.25
Pinion Gear =
1.25
V - Velt =
1.5
Flat Belt =
2.5
Overhung Load
OHL = Overhung Load (pounds)
T=
Torque (inch •pounds)
K=
OHL Factor
r=
Radius (inch)
Solid Cylinder (Pulley) Inertia
WK2 = Load Inertia (lb•in2)
WK2 = 1
•
w
•
r2
W=
Weight (pounds)
2
r=
Radius
Hollow Cylinder Pulley Inertia
2
2
W=
Weight (pounds)
w • (r1 + r 2)
WK2 =
r21 = Radius (inch)
2
r22 = Radius (inch)
D-34
Hyponic
Electrical[1]
Current (when Horsepower is known)
I = Current (A)
HP = Power (HP)
HP • 746
I=
E = Voltage (v)
1.73 • E • e • pf
e = Efficiency
pf = Power Factor
kW = 1.73 • I • E • pf
1000
Current (when kilowatts are known)
I = Current (A)
kW
= Power (kW)
kW
•
1000
I=
E = Voltage (v)
1.73 • E • pf
pf = Power Factor
Kilowatts
kW = Power (kW)
I = Current (A)
E = Voltage (v)
pf = Power Factor
Current (when kilowatts are known)
HP = Power (HP)
kW = Current (A)
HP = 1.73 • I • E • e • pf
E = Voltage (v)
746
e = Efficiency
pf = Power Factor
Current (when kilovolt-amperes are known)
I = Current (A)
I = Kva • 1000
Kva = Kilovolt-Amperes
1.73 • E
E = Voltage (v)
Reducer Effect (Cyclo, Gear, Belt, or Chain Drive)
NM = NL • RR
Speed
RR = Reuction Ratio
M = Motor
L = Load
WK 2 =
Wk M
2
WK L
2
e • RR
TM =
TL
e • RR
Torque
L = Load
Inertia
M = Motor
L = Load
COMMON RULES OF THUMB (APPROXIMATION):
At 1750 RPM, a motor develops 36 inch•pounds of torque per horsepower under full motor load conditions.
Technical
Information
Engineering
At 1165 RPM, a motor develops 54 inch•pounds of torque per horsepower under full motor load conditions.
At 575 volts, a 3-phase motor draws 1 amp per horsepower under full motor load condition.
At 460 volts, 3-phase motor draws 1.25 amps per horsepower under full motor load condition.
At 230 volts, a 3-phase motor draws 2.5 amps per horsepower under full motor load condition.
Note: [1] All electrical formulas apply to Alternating Current, 3-phase motors only.
Hyponic
D-35
Formula Derivations
Velocity
ØD = Wheel Diameter = 2 • R (ft, m)
R = Wheel Radius (ft, m)
π = 3.1416
V = π • 2 • R • N = 0.5236 • R • N (ft/min)
12
V = π • OD • N (m/s)
60
Torque
R = Wheel Radius (in, m)
F = Load (lbs, N)
T = Torque = F • R (in•lbs, N•m)
Power
F = Loads (lbs, N)
V = Velocity (ft/min, m/s)
HP = F • V
33000
kW = F • V
1000
Power & Torque
Engineering
Technical
Information
English
HP =
F•V
33000
Metric
kW =
F•V
1000
2•π
N
1000 • 60 • N • F • R ∞ substitute π • 2 • R • 60 for V
= F • (0.5236 • R • N) ∞ substitute 0.5236 • R • N for V
33000
=
= F•R•N
63025
= N•F•R
9550
=
T • N ∞ substitute T for F • R
63025
T = HP • 63025
N
Power & Torque
D-36
=
T • N ∞ substitute T for F • R
9550
T = kW • 9550
N
FA = M • a
V2-V1
= M•
tA
V2
V1
∴a =
tA
FA = Acceleration Force (lbs, N)
V = Velocity (ft/sec, m/sec)
tA = Acceleration Time (sec)
M = Mass (slug, kg)
a = Acceleration (ft/sec2, m/sec2)
Hyponic
Common Conversion Factors
Length
1m
1 dm
1 cm
1mm
1 yd
1 ft
1 in.
1 mil
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
m
dm
cm
mm
1
0.1
0.01
0.001
0.9144
0.3048
25.4X10-3
25.4X10-6
10
1
0.1
0.01
9.144
3.048
0.2540
254X10-6
100
10
1
0.1
91.44
30.48
2.540
25.4X10-3
1000
100
10
1
914.4
304.8
25.40
25.4X10-3
yd
ft
in
mil
1.094
0.1094
10.9X10-3
1.09X10-3
1
0.3333
27.8X10-3
27.8X10-6
3.281
0.3281
32.8X10-3
3.28X10-3
3
1
83.3X10-3
83.3X10-6
39.370
3.937
0.3937
39.4X10-3
36
12
1
1X10-3
39.4X103
3937
393.7
39.37
36X103
12X103
1000
1
1 mile (statute or British mile) = 1760 yd
1 n mile (nautical mile)
= 6080 ft
1 km = 39370 in = 3281 ft = 1093.6 yd
1 fathom
= 6 ft
= 5280 ft = 1609.344 m
= 1.853 km
= 0.6214 mile
= 0.5396 n mile
= 1.8288 m
Area
1 m2
1 dm2
1 cm2
1mm2
1 yd2
1 ft2
1 in2
1 CM
1 m2
1 dm2
1 cm2
1 mm2
1 yd2
1 ft2
1 in2
1 CM
1m
1 dm3
1 cm3
1 yd3
1 ft3
1 in3
1 gal (UK)
1 gal (US)
3
1 m3
1 dm3
1 cm3
1 yd3
1 ft3
1 in3
1 gal (UK)
1 gal (US)
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
m3
dm3
cm3
1
1X10-3
1X10-6
0.765
28.3X10-3
16.4X10-6
4.55X10-3
3.79X10-3
1000
1
1X10-3
764.6
28.32
16.4X10-3
4.546
3.785
1X10
1000
1
765X103
28.3X103
16.39
4546
3785
yd3
in3
gal (UK)
gal (US)
35.32
35.3X10-3
35.3X10-6
27
1
579X10-6
0.1605
0.1337
61.02X103
61.02
61X10-3
46.7X103
1728
1
277
231
220
0.22
0.22X10-3
168.2
6.229
3.6X10-3
1
0.8327
264.2
0.2642
0.26X10-3
202
7.481
4.3X10-3
1.201
1
1 bushel (UK)
1 bushel (US)
1 pint (UK)
1 liq. pt. (US)
1l
=
=
=
=
=
8 gal (UK)
0.969 bu (UK)
1/8 gal (UK)
1/8 gal (US)
1.76 pt (UK)
yd3
6
=
=
=
=
=
1.3079
1.3X10-3
1.3X10-6
1
37X10-3
21.4X10-6
5.95X10-3
4.95X10-3
64 pt (UK) = 36.371
35.24 l
0.5682 l
0.4732 l
2.113 liq. pt (US)
Force and Weight
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
1 square mile
1 acre
1 km2
1 ha
1a
m2
dm2
cm2
mm2
1
0.01
0.1X10-3
1X10-6
0.8361
92.9X10-3
0.645x10-3
–
100
1
0.01
0.1X10-3
83.61
9.290
64.5X10-3
–
10X103
100
1
0.01
8361
929.03
6.4516
5.07X10-6
1X106
10X103
100
1
836X103
92.9X103
645.16
0.507X10-3
1N
1 kp
1p
1 dyn
1 tonf (UK)
1 lbf
1 ozf
yd2
ft2
in2
CM
1.196
12X10-3
0.12X10-3
1.2X10-6
1
0.1111
772X10-6
–
10.764
0.1076
1.08X10-3
10.8X10-6
9
1
6.94X10-3
5.45X10-9
1550
15.50
0.1550
1.55X10-3
1296
144
1
0.785X10-6
–
–
197X103
1.97X103
–
183X10 6
1.27X106
1
1N
1 kP
1P
1 dyn
1 tonf (UK)
1 lbf
1 ozf
=
=
=
=
=
640 acres
4840 yd2
0.386 mi2
100 a
100 m2
Hyponic
=
=
=
=
=
2.590 km2
0.405 ha
100 ha
2.471 acres
119.6 yd 2
=
=
=
=
=
259 ha
4047 m2
10000 a
11959.6 yd 2
1076.4 ft2
=
=
=
=
=
=
=
=
=
=
=
=
=
=
1 (long) ton (UK)
1 (short) ton (US)
1 stone
1 ton
1 cwt (UK)
1 cwt (US)
1t
N
kP
P
1
9.807
9.81X10-3
1X10-5
9964
4.448
0.1020
1
1X10-3
1.02X10-6
1016
0.4536
28.4X10-3
102.0
1000
1
1.02X10-3
1.02X106
453.6
28.35
dyn
tonf (UK)
lbf
ozf
1X105
981x103
980.7
1
996X106
445X103
27.8X103
100.4X10-6
0.984X10-3
0.984X10-6
1X10-9
1
446X10-6
27.9X10-6
0.2248
2.205
2.2X10-3
2.25X10-6
2240
1
62.5X10-3
3.597
35.27
35.3X10-3
36X10-6
35.8X103
16
1
=
=
=
=
=
=
=
160 stones
142.9 stones
14 lb
20 cwt
4 quarters
100 lb
1000 kg
= 2240 lb
= 2000 lb
= 224 oz
= 1.016 t
= 0.907 t
= 6.35 kg
= 8 stones
= 45.36 kg
= 0.984 ton (UK)
= 112 lb
= 1.101 ton (US)
D-37
Technical
Information
Engineering
1m
1 dm
1 cm
1 mm
1 yd
1 ft
1 in.
1 mil
Volume
Common Conversion Factors
Velocity
Moment of Inertia and Other Flywheel Effects
1 km/h
1 m/min
1 m/s
1 mile/h
1 ft/min
1 ft/s
1 in/s
=
=
=
=
=
=
=
km/h
m/min
m/s
1
0.06
3.6
1.609
18.3X10-3
1.097
91X10-3
16.667
1
60
26.82
0.3048
18.288
1.524
0.2778
16.7X10-3
1
0.4470
5.08X10-3
0.3048
25.4X10-3
1 kgm (mr )
1 kgfm2 (GD 2)
1 lbf•ft2 (Wr 2)
1 kpms2
1 ft•lbf•s2
2
1 kgm (mr )
1 kgfm2 (GD 2)
1 lbf•ft2 (Wr 2)
1 kpms2
1 ft•lbf•s2
2
1 km/h
1 m/min
1 m/s
1 mile/h
1 ft/min
1 ft/s
1 in/s
=
=
=
=
=
=
=
mile/h
ft/min
ft/s
in/s
0.6214
37.3X10-3
2.237
1
11.4X10 -3
0.6818
56.8X10-3
54.68
3.281
196.85
88
1
60
5
0.9113
54.7x10-3
3.281
1.467
16.7X10-3
1
83.3X10-3
10.936
0.656
39.37
17.6
0.2
12
1
1 Nm
1 cNm
1 kgfm
1 cpm
1 lbf•ft
1 lbf•in
1 ozf•in
1 Nm
1 cNm
1 kgfm
1 cpm
1 lbf•ft
1 lbf•in
1 ozf•in
Engineering
Technical
Information
=
=
=
=
=
=
=
=
=
=
=
=
=
=
Nm
cNm
kgfm
1
0.01
9.8067
98.1X10-6
1.356
0.1129
7.062X10-3
100
1
980.67
9.81X10-3
135.6
11.29
0.7062
0.10197
1.02X10-3
1
10X10-6
0.1383
11.5X10 -3
0.72X10-3
cpm
lbf•ft
lbf•in
ozf•in
10.2X103
101.97
100X103
1
13.8X103
1152
72.01
0.73756
7.376X10-3
7.233
72.3X10-6
1
83.3X10 -3
5.21X10-3
8.8507
88.5X10-3
86.796
868X10-6
12
1
62.5X10-3
141.61
1.4161
1389
13.9X10-3
192
16
1
2
1 N/m
1 bar
1 kgf/m2
1 kgf/cm2
1 kgf/mm2
1 lbf/yd2
1 lbf/ft2
1 lbf/in2
1 tonf/in2
1 N/m2
1 bar
1 kgf/m2
1 kgf/cm2
1 kgf/mm2
1 lbf/yd2
1 lbf/ft2
1 lbf/in2
1 tonf/in2
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
Power
1 kW
1 PS
1 hp
1 kgfm/s
1 ft•lbf/s
1 kcal/s
1 Btu/s
1 kW
1 PS
1 hp
1 kgfm/s
1 ft•lbf/s
1 kcal/s
1 Btu/s
D-38
=
=
=
=
=
=
=
=
=
=
=
=
=
=
kW
PS
hp
1
0.7355
0.7457
9.81X10-3
1.36X10-3
4.1868
1.055
1.360
1
1.014
13.33X10-3
1.84X10-3
5.692
1.435
1.341
0.9863
1
13.15X10-3
1.82X10-3
5.615
1.415
1 N/m
1 bar
1 kgf/m2
1 kgf/cm2
1 kgf/mm2
1 lbf/yd2
1 lbf/ft2
1 lbf/in2
1 tonf/in2
2
kgfm/s
ft•lbf/s
kcal/s
Btu/s
102.0
75
76.04
1
0.1383
426.9
107.6
737.6
542.5
550
7.233
1
3088
778.2
0.2388
0.1757
0.1781
2.342X10-3
0.324X10-3
1
0.2520
0.9478
0.6971
0.7068
9.295X10-3
1.285X10-3
3.968
1
kgm2(mr 2)
kgfm2 (GD 2)
1
0.25
42.1X10-3
9.807
1.356
4
1
0.1686
39.23
5.423
lbf•ft2 (Wr 2)
kpms2
ft•lbf•s2
23.73
5.933
1
232.7
32.17
0.102
25.5X10-3
4.30X10-3
1
0.1383
0.7376
0.1844
31.1X10-3
7.233
1
N/m2
bar
kgf/m2
1
1X105
9.81
98.1X103
9.81X106
5.32
47.88
6.89X103
15.4X103
1X10
1
98.1X10-6
0.981
98.1
53.2X10-6
479X10-6
68.9X10-3
154
0.102
10.2X103
1
10X103
1X106
0.543
4.882
703
1.58X106
kgf/cm2
kgf/mm2
lbf/yd2
10.2x10-6
1.02
0.1X10-3
1
100
54X10-6
0.488X10-3
70.3X10-3
157.5
0.102x10-6
10.2X10-3
1X10-6
0.01
1
0.54X10-6
4.88X10-6
0.703X10-3
1.575
0.188
18.8X103
1.843
18.4X103
1.84X106
1
9
1296
2.9X106
lbf/ft2
lbf/in2
tonf/in2
Pressure and Stress
2
Torque
2
=
=
=
=
=
=
=
=
=
-5
20.88X10
2.088X103
0.2048
2.05X103
205X103
0.1111
1
144
0.323X106
-3
145X10
14.5
1.42X10-3
14.223
1.422X103
772X10 -6
6.94X10-3
1
2240
-6
64.75X10-9
6.475X10-3
0.64X10-6
6.4X10-3
0.6349
0.345X10-6
3.1X10-6
0.446X10-3
1
Hyponic
We keep things moving.
Bottling/Baking
Water Treatment
The same technology and know-how
that have been accumulated through
50 years of CYCLO speed
reducer and gearmotor experience
have been employed in the development of the HYPONIC of which
there are now over one million in
service worldwide.
Each of these
Sumitomo Paramax
speed reducers helps
pump up to 13 million
gallons a day at this
state-of-the-art wastewater treatment facility
in the City of Clearwater,
Florida.
This 350-ft. Oven Band Conveyor is driven
by a 15-hp BEIER mechanical vs. drive
with electric remote control.
Material Handling
This 35-ton capacity DC
Trolley Hoist is designed for
heavy-duty coil handling service. Both hoist and trolley
drive systems incorporate
Sumitomo PARAMAX reducers providing quiet, reliable
operation.
CYCLO mixer drives are a key component of this award-winning water
treatment facility in Hillsborough
County, Florida.
Custom Designs
This crane manufacturer utilizes both Paramax
and CYCLO drives in
the design of over 60
cranes a year for some
of the largest steel mills,
paper mills, shipyards,
foundries, and power companies in the nation.
The 13,000-ton roof on Seattle’s
new Safeco Field can be retracted
in less than 20 minutes in case of
inclement weather. 96 Sumitomo
CYCLO Bevel Buddybox gearmotors
help move it.
The Sumitomo gearmotors on eight travel
truck assemblies turn 128 36˝ wheels.
Steel
Wood Products
Sumitomo CYCLO drives are an
integral part of this manufacturing
plant which produces 150,000
board feet of unfinished strip and
plank hardwood flooring each week.
Once flooring is side-matched, it is inspected for defects.
This conveyor, driven by Sumitomo CYCLO drives, carries
defective material to the hammer mill.
After molten steel is formed in the five-strand continuous
caster at this steel mill, it is conveyed by Sumitomo
CYCLO drives on the auto-torch conveyors where the steel
is cut into billets.
Worldwide Locations
Headquarters & Manufacturing
4200 Holland Boulevard
Chesapeake, VA 23323
Tel: 757-485-3355 • Fax: 757-487-3075
www.smcyclo.com
E-mail: [email protected]
U.S. Sales and Support
Mexico
Europe
Mid-West
Monterrey
Sumitomo Machinery Corporation of America
175 West Lake Drive
Glendale Heights, IL 60139
Tel: 630-752-0200 • Fax: 630-752-0208
SM-Cyclo de Mexico, S.A. de C.V.
Calle “C” No. 506A
Parque Industrial Almacentro
Apodaca, N.L., Mexico 66600
Tel: 011-52-81-8369-3697/8 • Fax: 011-52-81-8369-3699
Austria
Belgium
France
Germany
Italy
Netherlands
Spain
Sweden
Switzerland
West
2375 Railroad Street
Corona, CA 92880-5411
Tel: 909-340-4100 • Fax: 909-340-4108
Southwest
1420 Halsey Way #130
Carrollton, TX 75007
Tel: 972-323-9600 • Fax: 972-323-9308
South America
Brazil
SM-Cyclo Redutores do Brasil Ltda.
Av. Dr. Ulysses Guimarães, 3533
09990-080 Diadema
São Paulo, Brazil
Tel: 011-55-11-4071-4388 • Fax: 011-55-11-4071-2922
Chile
Canada
Toronto (East)
SM-Cyclo of Canada, Ltd.
870 Equestrian Court
Oakville, Ontario, Canada L6L 6L7
Tel: 905-469-1050 • Fax: 905-469-1055
British Columbia (West)
740 Chester Road, Annacis Island, Delta
B.C., Canada V3M 6J1
Tel: 604-525-5403 • Fax: 604-525-0879
Montreal
226 Migneron Street
St. Laurent, Quebec, Canada H4T 1Y7
Tel: 514-340-1300 • Fax: 514-340-1343
SM-Cyclo de Chile Ltda.
Avenida Zanartu #1231
Comuna Nunoa - Santiago, Chile
Tel: 011-562-237-2407 • Fax: 011-562-237-0225
Argentina
SM-Cyclo de Argentina SA
Manuel Montes de Oca 6719
B1601BMG, Munro
Buenos Aires, Argentina
Tel: 011-54-11-4697-6583 • Fax: 011-54-11-4697-3209
Asia
China
Hong Kong
Indonesia
Korea
Malaysia
Philippines
Taiwan
Thailand
Other Locations
Australia
India
New Zealand
South Africa
World Headquarters
O 90
D
01
For Worldwide contact information:
www.shi.co.jp/ptc
CE
R T IFI
E
Sumitomo Heavy Industries, Ltd.
Power Transmission & Controls Group
5-9-11, KITA-Shinagawa, Shinagawa-Ku
Tokyo 141-8686 Japan
Tel: 011-813-5488-8363 • Fax: 011-813-5488-8365
IS
Japan

Hyponic - Akron Gear

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