Trochoid Pump Catalog

Transcription

Trochoid Pump Catalog
Trochoid Pump Performance Distribution Map
Please select the Trochoid pump best suited for your needs from the table below.
The pumps are classified based on the discharge amount and discharge pressure.
Please refer to the page numbers provided in the table for further information.
Pressure
（MPa）
No. of Revolutions1500∼1800min−1
No. of
P39∼P42
P20∼P28
P17
∼
P19
P29
∼
P31
P32∼P38
P45∼P48
P43
・
P44
P11∼P16
1
C
ONTENTS
Catalog
Instruction Manual for Trochoid and Lunary Pumps……13
（Oil : ISO-VG46 at 40℃）
Revolutions1000∼1200min−1
1A………………………………………………………………………11
1ME Motor Trochoid Pump…………………………………13
1ME S Motor Trochoid Pump (single-phase motor)…15
1HG…………………………………………………………………17
1MBY Equipped with Base Coupling……………………19
2HB…………………………………………………………………20
2MY Motor Trochoid Pump………………………………23
2ME S Motor Trochoid Pump (single-phase motor)…25
2MBY Equipped with Base Coupling…………………27
2.5HGA………………………………………………………………29
N3F……………………………………………………………………32
3MF Motor Trochoid Pump…………………………………35
N3H……………………………………………………………………39
3V (for high viscosity)……………………………………………43
Lunary Pumps
4AM…………………………………………………………………45
P51・P52
（960∼1750min−1）
4A………………………………………………………………………49
Lunary Pumps (GPL)……………………………………………51
1RA (forward - reverse rotation)………………………………53
P34
P49・P50
Relief Valves…………………………………………………………57
Performance Table…………………………………………………61
List of Special Materials…………………………………………63
Viscosity Table……………………………………………………63
Discharge Amount ( /min)
Seal Kit Specifications……………………………………………64
List of Applicable Bearings……………………………………64
Trochoid Pump is a registered trademark of
Nippon Oil Pump Co., Ltd.
2
Trochoid Pump and Lunary Pump Instruction Manual
Be sure to obtain a thorough understanding of all safety measures.
Always conduct the indicated precautionary steps and safety measures.
Special attention should be given to items highlighted by the following symbols and
headings as these deal with matters that could result in personal injury or material
damage.
DANGER
: Failure to observe the precautions indicated by this symbol would likely result in
serious injury or even death.
WARNING
: Failure to observe the precautions indicated by this symbol could result in
serious injury or even death.
CAUTION
: Failure to observe the precautions indicated by this symbol could result in injury
or damage to the pump and other equipment.
Pump Installation
●Installation
●
The pump should be installed at a position that is within 1m above or below the fluid level.
CAUTION
: Installing the pump at a height of more than 1m above the fluid line could
result in poor suction, depending on the operating conditions.
CAUTION
: Installing the pump at a height of more than 1m below the fluid line could
result in oil leaks, depending on the operating conditions.
●Installation Positions for the Trochoid Pump, Trochoid Pump with Motor, Trochoid
Pump with Motor and Base Coupling and Lunary Pump with Motor and Base Coupling
There are no particular restrictions when installing only the pump.
When installing a Trochoid pump with a motor, the pump cannot be installed at a position higher
than the motor (as seen from the horizontal position).
● When installing a Trochoid pump with a motor and a base coupling, the foundation section where
the base is attached must be level.
● Align the attachment anchor so that it can be smoothly affixed to the base and the motor
attachment holes.
●
●
CAUTION
: The motor may become damaged if it and the Trochoid pump are installed
incorrectly.
CAUTION
: If the installation site is not level, or if there is forcible installation in
which the installation holes are not in exact alignment, the angle plate
and base may become damaged or the pump may become damaged due
to gnawing of its internal workings caused by slippage.
●Installation Site
●
3
The equipment should not be installed in locations with lots of dust, very high or very low
temperatures (refer to "Ambient Temperature"). Please ask your Nippon Oil Pump representative
about what measures can be taken when the equipment must be used in special environments
other than the typical indoor installation sites.
Pipe Arrangement
●Tightening Torque for Pump Connecting Screws
●
The maximum torque allowances when tightening the screws used for the Trochoid pump's pipes
are as shown in the table below.
Diameter Rc
1/8
1/4
3/8
1/2
3/4
1
1-1/4
1-1/2
Torque N・m
10
20
20
25
30
70
80
90
CAUTION
: The pump bore may become damaged if these values are exceeded.
CAUTION
: The use of seal tape or liquid sealants may result in reduced resistance
friction and over tightening, which in turn could damage the pump bore.
●Pipe Connections
Carefully arrange the pipes so that the connections are completely sealed to prevent any leaks or
the intake of air.
● Always be sure to use pipe supports so that the pipes are not placing any weight on the pump.
● When making connections, always first confirm that the pipe lengths and angles are correct so
that no unnecessary pressure is placed on the pump.
● A pressure gauge should be installed so that pump conditions can be easily ascertained.
● Stop valves, union jacks and other couplings should be used to make pump maintenance easier.
● When handling liquids with very high viscosities, the pipes should have diameters bigger than the
pump in order to minimize pressure loss.
● Some of the high-pressure hoses and other parts have narrow internal diameters. Therefore, be
sure to confirm the inner diameter of not only the screw-in sections, but of the various pipes as
well.
●
●Types of Pipes and Couplings
Always be sure to clean the inside of the pipes before attaching to the pump. This is because the
pipes may contain dust from when they were stored or metallic dust from when they were
threaded.
● Always flush water through the pipes and confirm that they are completely clean before
assembling.
●
CAUTION
: The pump and connected equipment may become damaged if the pipes
are not adequately cleaned.
●Pipe Arrangement for Suction Side
●
For the suction side select pipes with a thickness that will keep the fluid velocity in the pipe at
1.5m/sec or less.
〈Calculation〉
3
Pump Flow Rate（m /sec）
Fluid Velocity（m/sec）= ―――――――――――――――――
2
Pipe Cross-section Area（ｍ）
●
Calculate the suction head based on the minimum oil level.
Hmax
4
●
Keep the suction-side piping as far away as possible from the return port of the relief valve or
actuator so that there will be no negative influence from the returning oil.
Return
Possible
Return
Not Possible
Piping on the suction side should be as short as possible and with the smallest number of curves
possible.
● Thoroughly inspect all of the valves, cocks and couplings before assembling the pipes. Do not
use any items with cavities or narrow ports.
● When bending or soldering the pipes, make sure that these areas do not become too small.
● Avoid any sudden changes to pipe cross sectional areas.
● Cleanly cut away the opening section of the packing.
● Be careful to not let any air into the pipes.
●
Air
Air
Possible
Not Possible
Possible
Not Possible
●
●
Use gate-type models when installing valves.
Set the suction side resistance to a pressure range of 0.03MPA∼0MPa.
CAUTION
●
Not Possible
: Air in the pipes or the generation of air bubbles could result in pump
noise, vibrations and the generation of heat, which in turn could damage
the pump.
If pressure will remain in the discharge-side pipes when operations are stopped, the check valve
will need to be installed not on the suction side, but rather on the discharge side.
●Discharge Side Piping
●
Select pipes wide enough that the speed of the fluids flowing through the discharge pipes will be
3m/sec.
●Filters
Usually a 150 mesh filter is used for the suction filter. Try to use filters with the largest capacity
possible.
● Confirm the manufacturer specifications and select filters with a passage resistance of 0.01MPa
or less.
● The main purpose of the suction filter is to remove any large objects that could hamper pump
operations. Even very minute matter passing through this filter can dramatically reduce the life of
the pump. Therefore, the liquid used with the pump will need to be changed on a regular basis.
Furthermore, maintenance will need to be performed on a regular basis when using 11-micron or
smaller filters.
●
CAUTION
5
: Foreign matter inside the oil may dramatically reduce the life of the pump.
In extreme cases this matter can even damage the pump. Therefore, the
filters will need to be washed on a regular basis. The use of clogged
filters may result in unusual noise, vibrations and poor discharge.
Safety
●Safety Equipment
Be sure to equip the motor with an earth-leakage circuit breaker and overload protection
equipment. Use this equipment only after first confirming that the ratings are within the prescribe
ratings written on the motor's nameplate.
● Be sure to follow any other applicable electrical standards.
●
CAUTION
: Failure to use earth-leakage circuit breakers and overload protection
equipment could result in the equipment becoming damaged and/or the
motor becoming burned.
Install a galvanometer, pressure sensors and other devices at the pump discharge port so that
inspections can be made through test runs without any fluids inside the pump. These inspections
are conducted to prevent burning of the oil supply section.
● The pump oil seals and packing cannot be used indefinitely. Installation should be in a safe
location and protection equipment should be used to ensure that people are not injured and the
equipment is not damaged in the event that there is an oil leak.
●
●Safety Measures
Children and others that cannot readily recognize dangerous conditions should not be allowed to
approach or touch the equipment.
● Protective equipment should be installed to prevent fingers, hands or other objects from
becoming caught in the drive section.
●
WARNING
●
Do not touch the pump or motor during or immediately after operations.
WARNING
●
: Serious injury may result if a finger, hand or other object becomes caught
in the equipment.
: Touching the pump or motor may result in burns.
There may be sparks from the centrifugal force switch section when starting up certain singlephase motors (IME200S, 2ME200S, 2ME400S, 2MY750S).
DANGER
: Do not place any flammable liquids or materials in the area surrounding
the motor. Such items could catch fire.
Preparations
●Before Operating
●
●
Confirm the direction of the pump rotation, suction port and discharge port.
The rotation direction for Nippon Oil Pump motors is shown in the wiring plates on the motor
frame and terminal box section. Make the necessary connections after first checking these
plates.
1）When using a Nippon Oil Pump motor (3-phase power source) set each of the pumps so
that their respective rotations are in accordance with the standard rotation directions
shown in the wiring diagram below.
U V W
R
S
T
2）For an all-purpose motor (3-phase) equipped with a base coupling, make the wiring
connections after first confirming the rotation direction displayed on the pump.
6
CAUTION
: Mistakes in the rotation direction and positioning of the suction and
discharge ports could result in oil leaks or damage to the pump.
Check whether the tank pipes on the suction side are clean or contain any oil.
Confirm that there are no loose sections in the piping.
● Confirm that the valves around the pump are all fully opened.
● The initial operation of the pump should be inching to confirm the direction of the pump rotation.
●
●
●Test Run
１）Dry Run
Do not operate the pump for more than 10 seconds when there is no liquid in the system.
２）When Suction not Possible
Confirm the following points whenever suction is not possible.
①Has resistance at the discharge side become so large that the removal of air is difficult?
②Is resistance at the suction side too large? Is the pipe length too long?
③Is air being captured?
④Has the system run out of oil? Is the pipe reaching the liquid level?
⑤Is the number of pump rotations insufficient?
Inspections
●Initial Operations Inspection
●
Be sure to make the necessary inspections before initial operations. In particular, be sure to
check for any oil leaks, abnormal noise and heat generation.
CAUTION
: If any abnormalities are discovered, immediately stop pump operations
and remedy the problem area.
●Regular Inspections
Any important safety parts that are used should be inspected at least once a year to confirm that
they are operating correctly.
● These inspections should be performed by a service technician working for or approved by Nippon
Oil Pump.
●
Maintenance
Seal kits and spare parts should be kept on hand to deal with sudden faults and poor operations
due to the gradual drop in performance over many years.
● The most common reason for poor performance is the use of fluids that have become dirty or
degraded. Therefore, the oil will need to be replaced and other maintenance will need to be
performed on a regular basis.
● Be sure to cease all operations if there are any strange sounds, heat generation or other
abnormalities when using a motor that had been kept in storage for a very long time.
● The coupling used with the Trochoid pump equipped with a motor is a consumable part and so will
need to be replaced on a regular basis (every year or 8,000 hours of use).
●
Warranty
●
7
Faults caused by conditions outside the stated specifications or attributed to foreign matter or
other external causes are not covered by the warranty.
Pump Selection
●Confirm the necessary flow rate.
Refer to the specifications on pages 1 and 2.
The discharge amount will vary depending on the type of liquid used, temperature and pressure.
● Pumps that provide plenty of leeway should be selected.
●
●
●Confirm the necessary pressure.
●
Refer to the specifications on pages 1 and 2.
※The setting must not exceed the pump's maximum applicable pressure and the motor's output.
●Confirm the relief valve set pressure.
The relief valve pressure is adjusted to the cracking pressure (refer to page 57).
※The setting must not exceed the pump's maximum applicable pressure and the motor's output.
※Cracking pressure is the pressure at which the valve opens to allow a certain amount of the oil to
flow through when the pressure within the circuit rises.
● The relief valve can be used as both a safety valve and as an adjustment valve. Two types of
relief valves are available depending on the intended purpose. Specifically, these are an externalreturn type and an internal-return type (refer to page 58).
●
●
CAUTION
: When using the internal-return type as the safety valve, do not allow
operations to continue for more than 30 seconds with the pump running
and the pump discharge side completely closed. Doing so could result in
the pump or motor becoming burned.
CAUTION
: When using the internal-return type as an adjustment valve, do not make
any settings that would allow for the relief amount to exceed 50% of the
pump discharge amount. This could result in abnormal pump heat
generation or damage to the pump.
CAUTION
: An external-return type relief valve can be used under these conditions
without any problems. However, in this case the relief oil should be
completely returned to below the liquid level of the tank.
Set the relief valve set pressure at a level higher than the amount of pressure actually needed.
The necessary discharge amount will not be obtained if oil leaks from the relief valve.
●Confirm the Applicable Liquids
Applicable Liquids
Trochoid pumps and lunary pumps can handle a very wide range of applications, but be aware
that these pumps were intend for use with oils.
● The settings and performance indications for all of the pumps shown in this catalog are based on
the use of ISO VG46 oil at a temperature of 40°C, except for specifically stated special
applications.
There will be differences in terms of performance and durability when using different oils. Please
feel free to ask your Nippon Oil Pump representative for more information.
● Trochoid pumps and lunary pumps adopt a self-lubricating method so that the rubbing surfaces
and bearings can be lubricated by the liquid used in the pumps.
●
CAUTION
●
: The pump may become damaged if it is used with water, liquids without
lubricating properties or liquids with corrosive properties.
The form may change and there may be limits on the maximum applicable pressure when using
liquids with low viscosities. Please feel free to ask your Nippon Oil Pump representative for more
information.
CAUTION
: The pump may become damaged when using liquids with low viscosity.
8
●
Some fuel oils contain properties that will cause the standard oil seals to swell. Be sure to
confirm the specifications before using these oils.
WARNING
: Do not use gasoline or any other volatile liquids. Doing so could result in
explosions or fires.
●Ambient Temperature
●
●
Trochoid and lunary pumps can be used in a temperature range of −20∼40°
C.
The temperature range under which a motor can be used is −10∼40°
C.
CAUTION
: Operations outside of the above temperature ranges could damage the
Trochoid pump, lunary pump or motor, resulting in a serious accident.
●Confirm the ambient temperature range.
●
●
The temperature range for the applicable liquids is −5°
C∼80°
C.
The difference in temperature between the pump and the liquid must be within 40°
C.
CAUTION
: Operations outside of the above temperature ranges could dramatically
shorten the life of the Trochoid and lunary pumps, lower performance and
result in leaks.
Operations outside of the above temperature ranges require special
specifications. Please feel free to ask your Nippon Oil Pump
representative for further details.
WARNING
: The use of very hot oil could cause burns to the pump from leaking oil.
●Confirm the applicable viscosity ranges.
●
●
The viscosity range for liquids used in the Trochoid pump is 10∼500mm2/sec.
The viscosity range for liquids used in the high-viscosity pumps (3V・Lunary pump) is 46∼
2,000mm2/sec.
CAUTION
: Operations outside of the above viscosity ranges could dramatically
shorten the life of the Trochoid and Lunary pumps, lower performance and
result in leaks.
The volume efficiency (discharge amount) drops as the viscosity becomes lower.
The required power (motor output) increases as the viscosity becomes higher.
※Settings should be made after taking into account the assumed low winter temperatures.
● The maximum applicable output is strictly limited when using low viscosities. Please feel free to
ask your Nippon Oil Pump representative for further details.
● Operations outside of the above viscosity ranges require special specifications. Please feel free
to ask your Nippon Oil Pump representative for further details.
●
●
●Confirm the rotation direction.
The rotation, suction and discharge directions for the Trochoid and lunary pumps are fixed, except
for those models that offer forward and reverse rotation.
Make the settings from the drive side in accordance with the rotation direction displayed on the
pump nameplate.
● The Trochoid and lunary pumps have holes on the pump suction side (negative pressure) to
release pressure from the oil seal section in order to protect these seals. If a mistake is made in
setting the rotation direction, the suction and discharge positions will be switched. As a result,
discharge pressure will flow through the holes intended for the release of pressure. This pressure
will build up against the oil seal, causing the seal to break and oil to be sprayed out of the pump.
●
WARNING
9
: Be sure to correctly set the pump rotation direction. A mistaken rotation
setting could break the oil seal, resulting in the spray of oil outside the
pump and unexpected accidents.
Motor Selection
●Confirm the amount of power needed for the pump.
The amount of power required by the pump will vary depending on voltage, flow rate and viscosity
of the liquid to be used.
● Much more power is required as the viscosity of the liquid increases.
※Settings should be made after taking into account the assumed low winter temperatures.
●
●Confirm the applicable voltage and frequency.
CAUTION
: Using an incorrect voltage or frequency could damage the motor or result in
abnormal pressure or flow rate.
Pump Drive Method
●Confirm the attachment method.
Pump driven by special-purpose motor: Trochoid pump with motor
Pump driven by general-purpose motor: Trochoid pump with motor and base coupling or lunary
pump with motor and base coupling
● Power source other than electric motor: Trochoid pump, lunary pump
● Trochoid and lunary pumps are designed on the premise that the motor and shaft center are
arranged in a straight line. Centering of the drive shaft and pump should be within TIR0.05.
●
●
Rotate the dial gauge 360° and set so that the dial gauge run-out is within 0.05mm.
Pump-side Shaft
●
Drive-side Shaft
Please feel free to ask your Nippon Oil Pump representative for information about drive methods
in which the load is applied to the radial and thrust directions.
CAUTION
: Poor alignment between the motor and the Trochoid or lunary pump may
result in vibrations, loud noises and damage to the pump.
CAUTION
: When attaching the coupling to the pump shaft, do not forcibly hammer
the coupling into place. Doing so could result in poor pump operations.
Suction Capabilities
Set the suction head for the Trochoid and lunary pumps to within 1m when the number of
rotations is 1,000∼2,500min−1. Set the suction side resistance to a pressure range of 0.03MPA
∼0MPa.
● Suction side pressure greater than −0.03MPa could result in cavitation, abnormal noise, heat
generation, poor discharge and damage to the pump.
●
CAUTION
: Suction capabilities will drop when there is large resistance on the
discharge side.
CAUTION
: Suction capabilities will drop dramatically when air enters from the
suction side.
10
TOP-1A
■Specifications
Item
Model
Theoretical
Displacement
cm3/rev
1500min
1800min
Max. Discharge
Pressure
MPa
Theoretical Discharge /min
−1
−1
Max. Revolution Approx. Weight
min−1
kg
TOP-10A
0.8
1.2
1.4
0.5
3000
0.5（0.8）
TOP-11A
1.5
2.2
2.7
0.5
2000
0.5（0.8）
TOP-12A
2.5
3.7
4.5
0.5
1800
0.6（0.9）
TOP-13A
4.5
6.7
8.1
0.5
1800
0.8（1.1）
○The above maximum discharge and maximum revolution values are for when using ISO-VG46 oil with an oil temperature of 40°
C.
○The approximate weight values shown in the brackets ( ) are for when a relief valve is attached.
■Model
Rotation
Direction
Special
Symbol
Relief Valve
-
TOP - 10A
11A
12A
13A
US、VF
(Refer to page 63.)
No mark: Without relief valve
VB: With relief valve
○The relief valve set pressure is
cracking 0.3MPa.
No mark: Counter-clockwise rotation as seen from the end of the shaft
(standard rotation direction)
R: Clockwise rotation as seen from the end of the shaft
Model Examples:
TOP-10AVB (with relief valve)
TOP-11AR (clockwise rotation as seen from the end of the shaft)
■Performance Table
Test Conditions Oil: ISO-VG46 with a temperature of 40°
C
At 1,450 Rotations
At 1,750 Rotations
●Flow Rate Characteristics
10
9
7
13A
6
5
4
12A
3
2
11A
1
10A
Discharge Amount（ /min）
8
0.1
0.2
0.3
Pressure（MPa）
0.4
6
5
3
11A
2
10A
0.1
0.2
0.3
Pressure（MPa）
0.4
0.5
●Required Power
160
160
140
140
120
12A
100
80
11A
10A
60
Shaft Power（W）
13A
80
20
20
0
0.3
Pressure（MPa）
0.4
11A
10A
60
40
0.2
12A
100
40
0.1
13A
120
0.5
○Select the best motor using the lines in the "Required Power" table as the applicable standards.
11
12A
4
0
0.5
●Required Power
0
13A
7
1
0
Shaft Power（W）
8
0.1
0.2
0.3
Pressure（MPa）
0.4
0.5
■Dimensional Diagrams
○Be sure to check the Nippon Oil Pump homepage for the most up-to-date diagrams and dimensions.
Model：TOP - 1A
ROTATION
Ｆ
Ｇ
０
φ３０
-０．
０２１
1A
φ６０
５--００．．００９５
φ８--００．．００２１８１
２-Ｄ
OUT
IN
Dimensions
８ (Effective length)
６ＥＨ
１９．
５
６８
Ｂ
３-φ７
Ａ
Item
Model
10A
11A
12A
13A
A
B
D
E
F
G
H
57
57
63
78
37.5
37.5
43.5
58.5
Rc1/8
Rc1/8
Rc1/4
Rc3/8
8
8
8
5
11
11
11
14
3
3
3
5.5
11.5
11.5
11.5
14.5
Model：TOP - 1AVB
６８
ROTATION
Ｆ
Ｇ
φ３０-００．０２１
φ６０
．
０５
５--０
０．
０９
φ８--００．．００２１８１
２-Ｄ
Ｉ
Ｎ
ＯＵＴ
８
６ＥＨ (Effective length)
１９．
５
６９
Ｂ
３-φ７
Ａ
Dimensions
Item
Model
10AVB
11AVB
12AVB
13AVB
A
B
D
E
F
G
H
69
69
75
90
49.5
49.5
55.5
70.5
Rc1/8
Rc1/8
Rc1/4
Rc3/8
8
8
8
5
11
11
11
14
3
3
3
5.5
11.5
11.5
11.5
14.5
Model：TOP - 1AR
ROTATION
Ｆ
Ｇ
φ３０-００．０２１
φ６０
５--００．．００９５
φ８--００．．００２１８１
２-Ｄ
Ｉ
Ｎ
ＯＵＴ
８ (Effective length)
６ＥＨ
１９．
５
６８
Ｂ
３-φ７
Ａ
Dimensions
Item
Model
10AR
11AR
12AR
13AR
A
B
D
E
F
G
H
57
57
63
78
37.5
37.5
43.5
58.5
Rc1/8
Rc1/8
Rc1/4
Rc3/8
8
8
8
5
11
11
11
14
3
3
3
5.5
11.5
11.5
11.5
14.5
Model：TOP - 1ARVB
６８
ROTATION
Ｆ
０
φ３０
-０．
０２１
Ｇ
IN
８
６ＥＨ (Effective length) ３-φ７
１９．
５
６９
Ｂ
Ａ
φ６０
５--００．．００９５
φ８--００．．００２１８１
２-Ｄ
OUT
Dimensions
Item
Model
10ARVB
11ARVB
12ARVB
13ARVB
A
B
D
E
F
G
H
69
69
75
90
49.5
49.5
55.5
70.5
Rc1/8
Rc1/8
Rc1/4
Rc3/8
8
8
8
5
11
11
11
14
3
3
3
5.5
11.5
11.5
11.5
14.5
12
TOP-1ME
■Specifications
Item No. of Motor Revolutions 50Hz 1500min−1 No. of Motor Revolutions 60Hz 1800min−1
Theoretical
Discharge
/min
Model
Theoretical
Discharge
/min
Max. Pressure for Motor Output (MPa)
75W
100W
200W
75W
100W
200W
TOP-10MA
1.2
0.5
0.5
0.5
1.4
0.4
0.5
0.5
TOP-11MA
2.2
0.5
0.5
0.5
2.7
0.3
0.5
0.5
TOP-12MA
3.7
0.2
0.5
0.5
4.5
0.1
0.3
0.5
TOP-13MA
6.7
──
0.2
0.5
8.1
──
0.1
0.5
○The above maximum pressure for motor output values are for when using ISO-VG46 oil with an oil temperature of 40°
C.
■Motor Specifications
Output（W）
No. of Poles（P）
○Three-Phase Squirrel-Cage Induction Motor ○Totally enclosed ○Class E insulation
Rating
75
4
Continuous
100
4
Continuous
200
4
Continuous
Voltage（V） Frequency（Hz）
50
200
60
200
60
220
50
200
60
200
60
220
50
200
60
200
60
220
■Model
Motor
Output
Rotation
Direction
Attachment
TOP - 1ME 75 -
- 10MA
11MA
12MA
TOP - 1ME 100 - 10MA
1ME 200 11MA
12MA
13MA
1390
1660
1690
1430
1720
1730
1410
1690
1710
Current（A） Approx. Weight（kg）
0.60
Type-1 7.5
0.55
Type-2 8.0
0.57
0.65
8.0
0.60
0.60
1.15
9.0
1.10
1.05
Relief
Valve
○The relief valve set pressure is cracking 0.3MPa.
No mark: Clockwise rotation as seen from the pump side (standard rotation direction)
R: Counter-clockwise rotation as seen from the pump side
1: Horizontal
2: Flange
Motor Output
No. of Revolutions
（min−1）
Rotation
Direction
Relief
Valve
Model Examples
TOP-1ME 75 - 1 - 10MA VB (75W, three-phase, horizontal, with relief valve)
TOP-1ME 100 - 11MAR (100W, three-phase, counter-clockwise rotation as seen from the pump side)
13
Model：TOP - 1ME75 -1-1 MAVB
ROTATION
LB
88
69
Ｂ
117
11
HEAT-RESISTANT
VINYL WIRES
0.75m 3 wires
Lead Length: 40
26
2-D
99
68
1A
182
65
ＴＥＲＭＩＮＡＬ
1.25-4
Dimensions
IN
41
35.5 35.5
95
2.8
59
102
105
OUT
φ22
（w/Bushing）
Item
LB
B
D
Model
1ME75-1-10MAVB 231.5 49.5 Rc1/8
1ME75-1-11MAVB 231.5 49.5 Rc1/8
1ME75-1-12MAVB 237.5 55.5 Rc1/4
45
120
15
７
φ15
（DRAIN）
45
Model：TOP - 1ME75 -2-1 MAVB
135
202
ROTATION
LB
B
67
9 10
69
１
１
68
5
2-D
IN
85
３
φ104
φ106 0-0.035
φ140
φ98
OUT
25
φ1
Heat-resistant vinyl wires 0.75m
3 wires; Length: 40
HEAR-RESISTANT
VINYL WIRES
Dimensions
4-φ7
EARTH TERMINAL（Ｍ４）
41
72
TERMINAL1.25-4
50
54
φ15
（DRAIN）
φ22
（w/Bushing）
Item
LB
B
D
Model
1ME75-2-10MAVB 251.5 49.5 Rc1/8
1ME75-2-11MAVB 251.5 49.5 Rc1/8
1ME75-2-12MAVB 257.5 55.5 Rc1/4
Model：TOP - 1ME100 -1 MAVB
ROTATION
199
72
120
LB
B
69
114
68
127
26
F
2-D
120
126
OUT
G
Dimensions
40
108
41
32
φ15
（DRAIN）
3.2
Item
Model
1ME100-10MAVB
1ME100-11MAVB
1ME100-12MAVB
1ME100-13MAVB
φ２２
(w/Bushing)
50
50
135
40
15
７
40
IN
LB
B
D
F
G
248.5
248.5
254.5
269.5
49.5
49.5
55.5
70.5
Rc1/8
Rc1/8
Rc1/4
Rc3/8
11
11
11
14
66
66
66
68.5
Model：TOP - 1ME200 -1 MAVB
ROTATION
26
120
LB
B
127
69
114
68
F
2-D
32
φ15
（DRAIN）
φ22
(w/Bushing)
50
50
135
40
15
7
40
108
3.2
IN
41
40
120
126
OUT
G
83
210
Dimensions
Item
Model
1ME200-10MAVB
1ME200-11MAVB
1ME200-12MAVB
1ME200-13MAVB
LB
B
D
F
G
259.5
259.5
265.5
280.5
49.5
49.5
55.5
70.5
Rc1/8
Rc1/8
Rc1/4
Rc3/8
11
11
11
14
66
66
66
68.5
14
TOP-1ME S（single-phase motor）
■Specifications
Theoretical
Discharge
/min
Model
75W
200W
Theoretical
Discharge
/min
75W
200W
TOP-10MA
1.2
0.5
0.5
1.4
0.4
0.5
TOP-11MA
2.2
0.5
0.5
2.7
0.3
0.5
TOP-12MA
3.7
0.2
0.5
4.5
0.1
0.5
TOP-13MA
6.7
──
0.5
8.1
──
0.5
C.
No. of Revolutions
（min−1）
Output（W）
No. of Poles（P）
Rating
75
4
Continuous
100
50
60
1430
1730
2.0
1.6
5.9
200
4
Continuous
100
50
60
1430
1720
5.8
5.0
10
○IME75S is a condenser-operating type.
○IME200S is a condenser-starting type.
■Model
Motor SingleOutput phase
TOP - 1ME
Pump
75 S - 10MA
200 S
11MA
12MA
13MA
Relief Valve
Model Examples
TOP-1ME 75 S-11MA (75W, single-phase)
TOP-1ME 200 S-12MA VB (200W, single-phase, with relief valve)
■Can only be used for clockwise rotation as seen from the pump side.
15
Model：TOP - 1ME75 S - 1MAVB
LB
69
66
B
193
66
127
105
70
ROTATION
φ114
68
1A
11
ＯＵＴ
Ｉ
Ｎ
66
ＧＲＯＵＮＤ
40
108
Lead Length: 100±20
ＬＥＮＧＨ
No. of Leads: 2
1.25-4
QＵAＮＴ
Ｉ
ＴＹ
50
50
135
Item
LB
B
D
Model
1ME75S-10MAVB 242.5 49.5 Rc1/8
1ME75S-11MAVB 242.5 49.5 Rc1/8
1ME75S-12MAVB 248.5 55.5 Rc1/4
40
15
7
40
Dimensions
3.2
φ15
41
32
120
（151）
2-D
Model：TOP - 1ME200 S - 1MAVB
ROTATION
239
108
LB
85
69
B
131
68
φ126
F
2-D
ＯＵＴ
134
140
Ｉ
Ｎ
45
45
115
4
Lead Length: 300±20
ＬＥＮＧＨ
No. of Leads:2
QＵAＮＴ
Ｉ
ＴＹ 1.25-4
56
150
56
20
7
φ15
41
G
ＧＲＯＵＮＤ
Dimensions
Item
Model
1M200S-10MAVB
1M200S-11MAVB
1M200S-12MAVB
1M200S-13MAVB
LB
288.5
388.5
294.5
309.5
B
49.5
49.5
55.5
70.5
D
1/8
Rc
Rc1/8
Rc1/4
Rc3/8
F
G
11
11
11
14
74
74
74
76.5
16
TOP-1HG
■Specifications
Item
Model
Theoretical
Displacement
cm3/rev
Max. Discharge
Max. Revolution Approx. Weigh
Pressure
min−1
kg
MPa
1500min
1800min
TOP-11HG
1.5
2.2
2.7
2.5
3000
1.4
TOP-12HG
2.5
3.7
4.5
2.5
2500
1.5
−1
−1
C.
■Model
Attachment
Special
Symbol
Rotation
Direction
-
TOP - 11HG
12HG
VF (Refer to page 63.)
No mark: Counter-clockwise rotation as seen from the end of the shaft (standard rotation direction)
No mark: Without angle plate
I: With angle plate
Model Examples:
TOP-11HGI (with angle plate)
TOP-12HGR (clockwise rotation as seen from the end of the shaft)
C
At 1,450 Rotations
At 1,750 Rotations
4.5
4.5
4
3.5
12HG
3
2.5
2
11HG
12HG
4
3.5
3
2.5
11HG
2
1.5
1.5
0
0.5
1
1.5
2
2.5
0
3
0.5
1
Pressure（MPa）
300
280
260
240
220
200
180
160
140
120
100
80
60
40
20
12HG
11HG
0.5
1
1.5
2
2.5
3
300
280
260
240
220
200
180
160
140
120
100
80
60
40
20
2.5
3
12HG
11HG
0
Pressure（MPa）
17
2
●Required Power
Shaft Power（W）
Shaft Power（W）
●Required Power
0
1.5
Pressure（MPa）
0.5
1
1.5
Pressure（MPa）
2
2.5
3
Model：TOP - 1HG
ROTATION
75
64
48
A
3
２
Ｒ１
ＯＵＴ
Ｉ
Ｎ
Dimensions
Item
Model
11HG
12HG
4 -φ9
1HG
1.3
24
φ1
3 0-0.025
11.2 0-0.25
25.9
11
10
2-Rc 1/4
27.5
25
12
22.1
25
φ10 0-0.012
φ44.4-0.02
-0.04
B
A
B
110
115
57.5
62.5
A
B
110
115
57.5
62.5
Model：TOP - 1HGI
ROTATION
Ａ
3 0-0.025
φ10 0-0.012
φ44.4 -0.02
-0.04
24
φ1
3
ＯＵＴ
Ｉ
Ｎ
Dimensions
Item
15
55.3
2
Ｒ1
54
１１
2-Rc1/4
75
64
48
27.5
25
12
11.2 0-0.25
25.9
25
22.1
Ｂ
9
38
60
20
13
60
84
100
52.5
20
4-φ9
Model
11HGI
12HGI
Model：TOP - 1HGR
ROTATION
75
64
48
A
25
11
10
3 0-0.025
φ1
3
φ10 0-0.012
φ44.4-0.02
-0.04
1.3
2
Ｒ1
OUT
IN
22.1
24
2-Rc1/4
27.5
25
12
11.2 0-0.25
25.9
B
Dimensions
Item
Model
11HGR
12HGR
4-φ9
A
B
110
115
57.5
62.5
Model：TOP - 1HGIR
ROTATION
A
11.2 0-0.25
Ｉ
Ｎ
ＯＵＴ
15
55.3
2
Ｒ1
54
24
φ1
3
0
-0.025
３
25.9
2-Rc１/4
75
64
48
27.5
25
12
22.1
11
φ10 0-0.012
φ44.4 -0.02
-0.04
25
Ｂ
9
38
60
20
13
52.5
60
84
100
20
４-φ９
Dimensions
Item
Model
11HGIR
12HGIR
A
B
110
115
57.5
62.5
18
TOP-1MBY
■Specifications
Theoretical
Discharge
/min
Model
200W
400W
Theoretical
Discharge
/min
200W
400W
TOP-11HG
2.2
2.5
2.5
2.7
2.5
2.5
TOP-12HG
3.7
2.0
2.5
4.5
1.6
2.5
C.
1HG
■Model
Rotation
Direction
Motor Output
Special
Symbol
-
TOP - 1MBY 200 - 11HG I
400
12HG
Model Examples:
TOP-1MBY200-11HGIR (200W, counter-clockwise rotation as seen from the pump side)
Model：TOP - 1MBY200-1HGI
３２０
２５３
１５
１７
１４２
１１２
１００
９４．
３
３８
８４
１１２
１４０
１７０
４-Ｍ８Ｐ１．
２５
２-Ｒｃ１/４
93
63
５２
３５
４-φ１１
７２
１５
２５３
３２０
４-Ｍ６Ｐ１
９
５２
８０
７２
４-φ１１
１９８
Model：TOP - 1MBY400-1HGI
１５
３４５
１９８
８０
１７
１６２
１３２
１１２
１０７．
３
106
71
８０
１５
19
３８
２７８
３４５
９
５２
４-φ１１
９０
４-Ｍ６Ｐ１
８０
２１５
８４
１１２
１４０
１７０
４-Ｍ８Ｐ１．
２５
２-Ｒｃ１/４
４-φ１１
５２
３５
TOP-2HB
■Specifications
Item
Model
Theoretical
Displacement
cm3/rev
Max. Discharge Max. Revolution Approx. Weight
Pressure
min−1
kg
MPa
1500min−1
1800min−1
5.0
3.0
3000
3.5 （3.9）
TOP-203HB
2.8
4.2
TOP-204HB
4
6.0
7.2
3.0
3000
3.6 （4）
TOP-206HB
6
9.0
10.8
2.5
2500
3.8 （4.2）
TOP-208HB
8
12.0
14.4
2.5
2500
4 （4.4）
TOP-210HB
10
15.0
18.0
2.5
2500
4.1 （4.6）
TOP-212HB
12
18.0
21.6
2.0
2000
4.3 （4.7）
TOP-216HB
16
24.0
28.8
1.5
1800
4.6 （5.1）
TOP-220HB
20
30.0
36.0
1.2
1800
5 （5.5）
Rotation
Attachment Direction
■Model
Special
Symbol
Relief Valve
Relief Valve
Set Pressure
TOP - 203HB
204HB
206HB
208HB
210HB
212HB
216HB
220HB
2HB
C.
US, UT, VF, VH
(Refer to page 63.)
VD: With relief valve (external return-type) (Refer to page 55.)
○Refer to page 57 for the relief valve set pressure, and
indicate the desired type when placing your order. Indicate
the set pressure (to the first decimal point) at the end of the
model number (Ex.: 0.1MPa).
No mark: With angle plate
F: With angle flange
Model Examples:
TOP-203HBVB (with relief valve)
TOP-204HBFR (with angle flange, clockwise rotation as seen from the end of the shaft)
C
At 1,450 Rotations
At 1,750 Rotations
40
220HB
25
216HB
20
212HB
15
210HB
208HB
10
206HB
204HB
203HB
5
35
30
216HB
25
212HB
20
15
210HB
208HB
10
206HB
204HB
203HB
5
0
0
0
0.5
1
1.5
2
Pressure（MPa）
2.5
3
0
3.5
●Required Power
0.5
1
1.5
2
Pressure（MPa）
2.5
3
3.5
●Required Power
1000
1600
900
212HB
800
1400
210HB
220HB 216HB
700
1200
Shaft Power（W）
Shaft Power（W）
220HB
30
208HB
600
206HB
500
204HB
400
203HB
300
200
1000
800
210HB
208HB
600
206HB
220HB 216HB
212HB
204HB
203HB
400
200
100
0
0
0
0.5
1
1.5
2
Pressure（MPa）
2.5
3
3.5
0
0.5
1
1.5
2
2.5
3
3.5
Pressure（MPa）
20
TOP-2HB
Model：TOP - 2HB
ROTATION
８０．
５
４＋＋００．．０００１５５
３５
９３８１３
２３３８．
５
Ａ
８４
１００
Ｉ
Ｎ
１１３
ＯＵＴ
０
φ１４
-０．
０１８
２-Ｄ
４-φ９
Dimensions
21.2 26.8
０
φ４７
-０．
０２５
φ８４
１５
56.8
φ３８
１３
φ１９
５４
Ｃ
０
-０．
３
１６
９６
２４２４
Item
Model
203HB
204HB
206HB
208HB
210HB
212HB
216HB
220HB
A
C
144.5
147.5
152.5
157.5
162.5
167.5
177.5
187.5
7
10
15
20
25
30
40
50
D
Rc1/2
Rc3/4
Model：TOP - 2HBVB
ROTATION
１０５
９６
Ｃ
８０．
５
０．
０１５
４＋
＋０．
００５
１３
Dimensions
８４
１００
２-Ｄ
９３８１３
３５
２３３８．
５
Ａ
４-φ９
21.2 26.8
１35
１６ -００．３
５４
OUT
φ１４ -００．０１８
１５
56.8
φ３８
φ８４
０
φ４７
-０．
０２５
φ１９
Item
Model
203HBVB
204HBVB
206HBVB
208HBVB
210HBVB
212HBVB
216HBVB
220HBVB
IN
２４２４
A
C
144.5
147.5
152.5
157.5
162.5
167.5
177.5
187.5
7
10
15
20
25
30
40
50
A
C
144.5
147.5
152.5
157.5
162.5
167.5
177.5
187.5
7
10
15
20
25
30
40
50
A
C
144.5
147.5
152.5
157.5
162.5
167.5
177.5
187.5
7
10
15
20
25
30
40
50
D
Rc1/2
Rc3/4
Model：TOP - 2HBR
ROTATION
９６
Ｃ
８０．
５
４＋＋００．．０００１５５
４-φ９
３５
９３８１３
２３３８．
５
Ａ
８４
１００
１１３
21.2 26.8
OUT
５４
IN
１６ -００．３
０
φ４７
-０．
０２５
２-Ｄ
Dimensions
φ１４ -００．０１８
φ８４
１５
56.8
φ３８
１３ φ１９
２４２４
Item
Model
203HBR
204HBR
206HBR
208HBR
210HBR
212HBR
216HBR
220HBR
D
Rc1/2
Rc3/4
Model：TOP - 2HBRVB
ROTATION
１０５
９６
Ｃ
８０．
５
４＋＋００．．０００１５５
１３
Dimensions
４-φ９
21
９３８１３
３５
２３３８．
５
Ａ
１35
21.2 26.8
２４２４
ＯＵＴ
５４
Ｉ
Ｎ
０
１６
-０．
３
０
φ４７
-０．
０２５
φ８４
２-Ｄ
８４
１００
φ１４ -００．０１８
１５
56.8
φ３８
φ１９
Item
Model
203HBRVB
204HBRVB
206HBRVB
208HBRVB
210HBRVB
212HBRVB
216HBRVB
220HBRVB
D
Rc1/2
Rc3/4
Model：TOP - 2HBVD
１１４．
３
Ｒｃ３/８
４＋＋００．．０００１５５
φ１４ -００．０１８
２-Ｄ
３５
９３８１３
２３３８．
５
Ａ
Ｉ
Ｎ
２４２４
Item
Model
203HBVD
204HBVD
206HBVD
208HBVD
210HBVD
212HBVD
216HBVD
220HBVD
A
C
144.5
147.5
152.5
157.5
162.5
167.5
177.5
187.5
7
10
15
20
25
30
40
50
D
Rc1/2
Rc3/4
2HB
８４
１００
ＯＵＴ
21.2 26.8
５４
149
０
-０．
０２５
φ４７
φ８４
56.8
φ３８
５４
１５
４-φ９
Dimensions
φ１９
１３
０
-０．
３
１６
９６
ROTATION
８０．
５
１９
Model：TOP - 2HBF
ROTATION
８０．
５
９６
４＋＋００．．０００１５５
１３
３５
１３８３８．
５
４６．
５
２４２４
Ｂ
Dimensions
４-φ９
４５
９０
１０８
OUT
０
１６
-０．
３
０
-０．
０２５
φ４７
２-Ｄ
０
φ１４
-０．
０１８
φ８４
２．
８
φ３８
21.2 26.8
５９
φ１９
IN
９０
１０８
Ａ
Item
Model
203HBF
204HBF
206HBF
208HBF
210HBF
212HBF
216HBF
220HBF
A
B
C
144.5
147.5
152.5
157.5
162.5
167.5
177.5
187.5
98
101
106
111
116
121
131
141
7
10
15
20
25
30
40
50
A
B
C
144.5
147.5
152.5
157.5
162.5
167.5
177.5
187.5
98
101
106
111
116
121
131
141
7
10
15
20
25
30
40
50
A
B
C
144.5
147.5
152.5
157.5
162.5
167.5
177.5
187.5
98
101
106
111
116
121
131
141
7
10
15
20
25
30
40
50
D
Rc1/2
Rc3/4
Model：TOP - 2HBFVB
ROTATION
１０５
９６
Ｃ
８０．
５
＋０．
０１５
４＋
０．
００５
１３
Dimensions
Ｂ
１６ -００．３
０
φ４７
-０．
０２５
φ１４ -００．０１８
２１．
２２６．
８
φ３８
φ８４
２．
８
３５
１３８３８．
５
４６．
５
Item
Model
203HBFVB
204HBFVB
206HBFVB
208HBFVB
210HBFVB
212HBFVB
216HBFVB
220HBFVB
IN
９０
１０８
２-Ｄ
２４２４
OUT
４５
８１
φ１９
４-φ９
９０
１０８
Ａ
D
Rc1/2
Rc3/4
Model：TOP - 2HBFVD
１１４．
３
Ｒｃ３/８１９
＋０．
０１５
０．
００５
４＋
６
９６
ROTATION
８０．
５
１３
９５
８９
Dimensions
３５
１３８３８．
５
４６．
５
Ｂ
Ａ
４-φ９
４５
９０
１０８
OUT
０
-０．
３
１６
０
φ４７
-０．
０２５
２-Ｄ
２４２４
０
φ１４
-０．
０１８
φ８４
２．
８
φ３８
21.2 26.8
φ１９
９０
１０８
IN
Item
Model
203HBFVB
204HBFVB
206HBFVB
208HBFVB
210HBFVB
212HBFVB
216HBFVB
220HBFVB
D
Rc1/2
Rc3/4
22
TOP-2MY
■Specifications
Item
Theoretical
Discharge
/min
Model
No. of Motor Revolutions 60Hz 1800min−1
200W
400W
750W
1500W
Theoretical
Discharge
/min
200W
400W
750W
1500W
TOP-203HBM
4.2
1.7
3.0
3.0
3.0
5.0
1.3
3.0
3.0
3.0
TOP-204HBM
6.0
1.2
3.0
3.0
3.0
7.2
0.9
2.3
3.0
3.0
TOP-206HBM
9.0
0.7
1.8
2.5
2.5
10.8
0.5
1.4
2.5
2.5
TOP-208HBM
12.0
0.5
1.3
2.5
2.5
14.4
0.3
1.0
2.3
2.5
TOP-210HBM
15.0
0.4
1.1
2.5
2.5
18.0
0.3
0.9
2.0
2.5
TOP-212HBM
18.0
0.3
0.9
2.0
2.0
21.6
──
0.7
1.6
2.0
TOP-216HBM
24.0
0.2
0.7
1.5
1.5
28.8
──
0.5
1.2
1.5
TOP-220HBM
30.0
──
0.4
1.2
1.2
36.0
──
0.3
0.9
1.2
C.
Output（W）
No. of Poles（P）
Rating
200
4
Continuous
400
4
Continuous
750
4
Continuous
1500
4
Continuous
50
200
60
200
60
220
50
200
60
200
60
220
50
200
60
200
60
220
50
200
60
200
60
220
No. of Revolutions
（min−1）
1440
1720
1730
1420
1710
1730
1440
1720
1740
1430
1720
1730
1.34
1.12
7.0
1.17
2.2
1.93
10.0
1.95
3.6
3.3
14.0
3.2
6.9
6.2
22.0
6.1
*Please fee l free to ask your Nippon Oil Pump representative for more information about special motor specifications such as for outdoor use, explosion-proof, special voltages and reverse box position.
■Model
Motor Output
TOP - 2MY
200 - 203HBM
400
204HBM
750
206HBM
208HBM
1500
210HBM
212HBM
216HBM
220HBM
Rotation
Direction
Relief
Valve
Relief Valve
Set Pressure
VD: With relief valve (external return-type)
○Refer to page 57 for the relief valve set
pressure, and indicate the desired type
when placing your order. Indicate the set
pressure (to the first decimal point) at the
end of the model number (Ex.: 0.1MPa).
Model Examples
TOP-2MY200-203HBMVB (200W, three-phase, with relief valve)
TOP-2MY400-206HBMR (400W, three-phase, counterclockwise rotation as seen from the pump side)
TOP-2MY750-210HBMVD (750W, three-phase, with relief valve <external return type>)
23
Model：TOP - 2MY200 - 2HBMVB
ROTATION
125
105
LB
241.5
114
Ｂ
19 Ｃ
127.5
41
127
96
Dimensions
40 40
108
3.2
φ22
（w/Bushing）
２-Ｄ
106.5
Item
Model
2MY200-203HBMVB
2MY200-204HBMVB
2MY200-206HBMVB
2MY200-208HBMVB
2MY200-210HBMVB
2MY200-212HBMVB
2MY200-216HBMVB
144
15 °
ＯＵＴ
50 50
135
40
LB
B
324.5 83
327.5 86
332.5 91
337.5 96
342.5 101
347.5 106
357.5 116
C
7
10
15
20
25
30
40
D
Rc1/2
Rc3/4
2HB
15
7
G1/4
32
Ｉ
Ｎ
65.8
127
φ84
NOP
ROTATION
245.5
113
LB
132.5
36
132
105
Ｂ
Ｃ
19
140
96
Dimensions
３２
45 45
115
φ22
（w/Bushing）
50
106.5
152
3.2
２-Ｄ
ＯＵＴ
56
56
150
40
２０
７
Ｇ１/４
73.8
141
φ84
Ｉ
Ｎ
15 °
NOP
Item
Model
2MY400-203HBMVB
2MY400-204HBMVB
2MY400-206HBMVB
2MY400-208HBMVB
2MY400-210HBMVB
2MY400-212HBMVB
2MY400-216HBMVB
2MY400-220HBMVB
LB
B
C
328.5
331.5
336.5
341.5
346.5
351.5
361.5
371.5
83
86
91
96
101
106
116
126
7
10
15
20
25
30
40
50
LB
B
C
366.5
369.5
374.5
379.5
384.5
389.5
399.5
409.5
83
86
91
96
101
106
116
126
7
10
15
20
25
30
40
50
LB
B
C
408.5
411.5
416.5
421.5
426.5
431.5
441.5
451.5
83
86
91
96
101
106
116
126
7
10
15
20
25
30
40
50
D
Rc1/2
Rc3/4
ROTATION
138
105
LB
283.5
145
50
B
C
19
138.5
168
96
Dimensions
35
161
φ22
（w/Bushing）
48
62.5 62.5
165
25
50
107.5
10
50
130
ＯＵＴ
5
2-D
G1/4
50
82.8
165
φ84
Ｉ
Ｎ
15 °
NOP
Item
Model
2MY750-203HBMVB
2MY750-204HBMVB
2MY750-206HBMVB
2MY750-208HBMVB
2MY750-210HBMVB
2MY750-212HBMVB
2MY750-216HBMVB
2MY750-220HBMVB
D
Rc1/2
Rc3/4
ROTATION
325.5
LB
163.5
19
148
105
Ｂ
Ｃ
48
188
96
Dimensions
35
62.5 62.5
155
50.5
120
２-Ｄ
φ22
（w/Bushing）
６
Ｇ1/4
ＯＵＴ
70
70
180
45
25
10
φ84
2.5°
Ｉ
Ｎ
171
185
NOP
92.8
162
Item
Model
2MY1500-203HBMVB
2MY1500-204HBMVB
2MY1500-206HBMVB
2MY1500-208HBMVB
2MY1500-210HBMVB
2MY1500-212HBMVB
2MY1500-216HBMVB
2MY1500-220HBMVB
D
Rc1/2
Rc3/4
24
TOP-2ME S（Single-Phase Motor）
■Specifications
Theoretical
Discharge
/min
Model
200W
400W
750W
Theoretical
Discharge
/min
200W
400W
750W
TOP-203HBM
4.2
1.7
3.0
3.0
5.0
1.3
3.0
3.0
TOP-204HBM
6.0
1.2
3.0
3.0
7.2
0.9
2.3
3.0
TOP-206HBM
9.0
0.7
1.8
2.5
10.8
0.5
1.4
2.5
TOP-208HBM
12.0
0.5
1.3
2.5
14.4
0.3
1.0
2.3
TOP-210HBM
15.0
0.4
1.1
2.5
18.0
0.3
0.9
2.0
TOP-212HBM
18.0
0.3
0.9
2.0
21.6
──
0.7
1.6
TOP-216HBM
24.0
0.2
0.7
1.5
28.8
──
0.5
1.2
TOP-220HBM
30.0
──
0.4
1.2
36.0
──
0.3
0.9
C.
Output（W）
No. of Poles（P）
○Open, drip-proof ○Condenser-start type
Rating
200
4
Continuous
400
4
Continuous
750
4
Continuous
50
100
60
50
200
60
50
100
60
50
200
60
50
100
60
50
200
60
No. of Revolutions
（min−1）
1430
1720
1430
1720
1420
1710
1420
1710
1450
1740
1450
1740
5.6
4.9
10
2.8
2.5
8.4
7.6
15
4.2
3.8
11.2
9.6
21
5.7
4.9
■Model
Motor
Output Phase
TOP - 2ME 200 S - 203HBM
204HBM
400 S
206HBM
750 S
208HBM
210HBM
212HBM
216HBM
220HBM
Rotation
Direction
Relief
Valve
Relief Valve
Set Pressure
pressure, and indicate the desired type when
placing your order. Indicate the set pressure (to
the first decimal point) at the end of the model
number (Ex.: 0.1MPa).
Model Examples
TOP-2ME200S-203HBMVB (200W, single-phase, with relief valve)
TOP-2ME400S-206HBMR (400W, single-phase, counterclockwise rotation as seen from the pump side)
TOP-2ME750S-210HBMVD (750W, single-phase, with relief valve <external return type>)
25
Model：TOP - 2ME200 S - 2HBMVB
ROTATION
LB
246
94
19
152
105
（85）
Ｂ
Ｃ
126
96
NOP
45 45
115
152
140
ＧＲＯＵＮＤ
56
50.5
56
150
LB
B
C
329
332
337
342
347
352
362
83
86
91
96
101
106
116
7
10
15
20
25
30
40
D
Rc1/2
Rc3/4
2HB
20
７
Lead Length:100±10
ＬＥＮＧＨ
No. of Leads:6
QＵAＮＴ
Ｉ
ＴＹ 1.25-5
２-Ｄ
Item
Model
2ME200S-203HBMVB
2ME200S-204HBMVB
2ME200S-206HBMVB
2ME200S-208HBMVB
2ME200S-210HBMVB
2ME200S-212HBMVB
2ME200S-216HBMVB
４
Ｇ1/4
φ84
73.8
134
Dimensions
ＯＵＴ
Ｉ
Ｎ
ROTATION
LB
276
125
19
251
105
（94）
Ｂ
Ｃ
140
96
Dimensions
181
ＧＲＯＵＮＤ
50.5
50 50
130
Item
Model
2ME400S-203HBMVB
2ME400S-204HBMVB
2ME400S-206HBMVB
2ME400S-208HBMVB
2ME400S-210HBMVB
2ME400S-212HBMVB
2ME400S-216HBMVB
2ME400S-220HBMVB
62.5 62.5
165
25
10
＋50
Lead Length:500 0
ＬＥＮＧＨ
No. of Leads:：
６
QＵAＮＴ
Ｉ
ＴＹ 1.25-５
２-Ｄ
ＯＵＴ
Ｉ
Ｎ
５
Ｇ１-４
82.8
150
φ84
（152）
NOP
LB
B
C
359
362
367
372
377
382
392
402
83
86
91
96
101
106
116
126
7
10
15
20
25
30
40
50
LB
B
C
426.5
429.5
434.5
439.5
444.5
449.5
459.5
469.5
83
86
91
96
101
106
116
126
7
10
15
20
25
30
40
50
D
Rc1/2
Rc3/4
ROTATION
LB
343.5
180
19
163.5
105
B
C
168
96
Dimensions
φ84
50 50
130
3.2
２-Ｄ
ＧＲＯＵＮＤ
70
50.5
70
180
25
10
Lead Length:：500 ＋50
0
ＬＥＮＧＨ
No. of Leads:：6
QＵAＮＴ
Ｉ
ＴＹ
1.25-5
92.8
Ｇ1/4
ＯＵＴ
Ｉ
Ｎ
171
174
NOP
Item
Model
2ME750S-203HBMVB
2ME750S-204HBMVB
2ME750S-206HBMVB
2ME750S-208HBMVB
2ME750S-210HBMVB
2ME750S-212HBMVB
2ME750S-216HBMVB
2ME750S-220HBMVB
D
Rc1/2
Rc3/4
■Wiring Diagram
100V
200V
Clockwise seen from pump side
Counter-clockwise seen from the pump side
Y
X
X
Y
U2
V2
U2
V2
U1
V1
U1
V1
100V
Power Source
100V
Power Source
Clockwise seen from pump side
U2
Y
V1
Counter-clockwise seen from the pump side
U2
X
X
U1
V2
200V
Power Source
V1
Y
U1
V2
200V
Power Source
U2-Y-V1 in the clockwise direction as seen from the pump side
When going in the counter-clockwise direction as seen from the pump side, there will be no need
to connect directly to the power source if the three lines of U2, X and V1 are bundled together.
26
TOP-2MBY
■Specifications
Item
Theoretical
Discharge
/min
Model
Theoretical
Discharge
750W 1500W 2200W /min
Max. Pressure for Motor Output（MPa）
200W
400W
200W
400W
750W 1500W 2200W
TOP-203HB
4.2
1.7
3.0
3.0
3.0
3.0
5.0
1.3
3.0
3.0
3.0
3.0
TOP-204HB
6.0
1.2
3.0
3.0
3.0
3.0
7.2
0.9
2.3
3.0
3.0
3.0
TOP-206HB
9.0
0.7
1.8
2.5
2.5
2.5
10.8
0.5
1.4
2.5
2.5
2.5
TOP-208HB
12.0
0.5
1.3
2.5
2.5
2.5
14.4
0.3
1.0
2.3
2.5
2.5
TOP-210HB
15.0
0.4
1.1
2.5
2.5
2.5
18.0
0.3
0.9
2.0
2.5
2.5
TOP-212HB
18.0
0.3
0.9
2.0
2.0
2.0
21.6
──
0.7
1.6
2.0
2.0
TOP-216HB
24.0
0.2
0.7
1.5
1.5
1.5
28.8
──
0.5
1.2
1.5
1.5
TOP-220HB
30.0
──
0.4
1.2
1.2
1.2
36.0
──
0.3
0.9
1.2
1.2
C.
■Model
Motor Output
TOP - 2MBY
200 - 203HB
400
204HB
750
206HB
208HB
1500
2200
210HB
212HB
216HB
220HB
Rotation
Direction
Relief
Valve
Special
Symbol
Relief Valve
Set Pressure
US、UT、VF、VH
（Refer to page 63.）
pressure, and indicate the desired type when
placing your order. Indicate the set pressure (to
the first decimal point) at the end of the model
number (Ex.: 0.1MPa).
Model Examples
TOP-2MBY200-203HBVB (200W, with relief valve)
TOP-2MBY400-206HBR (400W, counterclockwise rotation as seen from the pump side)
27
Model：TOP - 2MBY200 - 2HB
３２０
２５３
１５
４-Ｍ８Ｐ１．
２５
ＰＬ
４-Ｍ６Ｐ１
４-φ１１
８０
Item
Model
203HB
204HB
206HB
208HB
210HB
212HB
216HB
PL
64
67
72
77
82
87
97
D
Rc1/2
Rc3/4
2HB
１７
１９８４-φ１１
２５３
５２
３２０
８４
１１２
１４０
１７０
１４２
１１２
１００
30
７２
３８
９５．
８
93
63
φ８４
Dimensions
２-Ｄ
１５
５２
１７３５
３４５
２７８
１５
１７
ＰＬ
４-Ｍ８Ｐ１．
２５
２-Ｄ
３０
８４
１１２
１４０
１７０
１６２
１３２
１１２
３８
１０８．
８
106
71
φ８４
Dimensions
４-φ１１
９０
４-Ｍ６Ｐ１
１７
215 ４-φ１１
２７８
３４５
８０
１５
５２
３５
５２
Item
Model
203HB
204HB
206HB
208HB
210HB
212HB
216HB
220HB
PL
64
67
72
77
82
87
97
107
D
Rc1/2
Rc3/4
３６５
３００
１５
５０
１５
３５
４-φ１１
４-Ｍ８Ｐ１．
２５
ＰＬ
３０
２-Ｄ
１５
８０
235
４-φ１１
３００
３６５
８４
１１２
１４０
１７０
１８０
１５０
１２５
３８
１１２．
８
110
80
φ８４
Dimensions
４-Ｍ８Ｐ１．
２５
１００
１５
５０
Item
Model
203HB
204HB
206HB
208HB
210HB
212HB
216HB
220HB
PL
64
67
72
77
82
87
97
107
D
Rc1/2
Rc3/4
Model：TOP - 2MBY1500-2HB/ TOP - 2MBY2200-2HB
４-Ｍ８Ｐ１．
２５
J
I
H
φ８４
３０
Ｍ
３０
１５
Output
1500W
2200W
A
440
479
Ｆ
B
390
429
Ｂ
Ａ
E
267
295
F
123
134
E
K
２-Ｄ
L
Ｎ
Ｏ
３８
G
４-φ１１
4-Ｍ8Ｐ1.25
E
F
３５
G
125
140
H
140
160
I
160
160
J
204
230
K
127.8
152.8
L
71
96
M
35
50
N
125
150
O
90
100
８４
１１２
１４０
４-φ１１
ＰＬ
Dimensions
Item
Model
203HB
204HB
206HB
208HB
210HB
212HB
216HB
220HB
PL
64
67
72
77
82
87
97
107
D
Rc1/2
Rc3/4
28
TOP-2.5HGA
■Specifications
Item
Model
Theoretical
Displacement
cm3/rev
1500min
1800min
Max. Discharge
Pressure
MPa
−1
−1
min−1
kg
TOP-2516HGA
16
24
28.8
2.5
2500
7.0（7.5）
TOP-2520HGA
20
30
36.0
2.0
2000
7.0（7.5）
C.
■Model
Rotation
Attachment Direction
TOP - 2516HGA
2520HGA
Relief
Valve
Relief Valve
Set Pressure
VD: With relief valve (external return-type) (Refer to page 55.)
indicate the desired type when placing your order.
Indicate the set pressure (to the first decimal point) at
the end of the model number (Ex.: 0.1MPa).
Model Examples:
TOP-2516HGAVB (with angle plate and relief valve)
TOP-2516HGAF (with angle flange)
TOP-2520HGARVB (clockwise rotation seen from the end of the shaft, with relief valve)
C
At 1,450 Rotations
At 1,750 Rotations
40
30
35
2520HGA
25
2516HGA
20
15
10
5
35
2520HGA
30
2516HGA
25
20
15
10
5
0
0
0
0.5
1
1.5
2
2.5
0
3
0.5
1
1.5
Pressure（MPa）
●Required Power
2520HGA
2516HGA
3
2520HGA
1600
Shaft Power（W）
1200
Shaft Power（W）
2.5
●Required Power
1400
1000
800
600
400
2516HGA
1400
1200
1000
800
600
400
200
200
0
0
0
0.5
1
1.5
2
2.5
3
0
Pressure（MPa）
29
2
Pressure（MPa）
0.5
1
1.5
Pressure（MPa）
2
2.5
3
Model：TOP - 2.5HGA
ROTATION
29
4 0-0.03
83.5
13
29
131.5
26.2 31.8
OUT
64.8
φ55
2-Rc1
IN
62
φ16 0-0.018
φ19
17.5 0-0.3
120
15
Dimensions
95
115
10
4-φ9
65
85
Ａ
Item
A
Model
194.5
2516HGA
200.5
2520HGA
35
42
Model：TOP - 2.5HGAVB
ROTATION
106.5
29
17.5 0-0.3
26.2 31.8
OUT
IN
Dimensions
62
64.8
φ55
2-Rc1
１55.8
φ19
φ16 0-0.018
13
29
4 0-0.03
2.5
HGA
83.5
120
Item
A
Model
2516HGAVB 194.5
2520HGAVB 200.5
15
4-φ9
10
95
115
65
85
Ａ
35
42
Model：TOP - 2.5HGAR
ROTATION
１２０
２９２９
０
４-０．０３
８３．
５
１３１．
５
31.8
26.2
ＯＵＴ
６２
Ｉ
Ｎ
Dimensions
１５
６４．
８
φ５５
２-Ｒｃ１
０
１７．
５
-０．
３
０
-０．
０１８
φ１６
１３ φ１９
９５
１１５
１０
４-φ９
６５
８５
Ａ
Item
A
Model
194.5
2516HGAR
200.5
2520HGAR
３５
４２
Model：TOP - 2.5HGARVB
ROTATION
29
４ 0-0.03
106.5
83.5
15
４-φ９
10
65
85
Ａ
35
42
155.8
62
17.5
IN
26.2 31.8
64.8
φ55
２-Ｒｃ１
95
115
φ19
φ16 0-0.018
13
29
０
-0.3
120
OUT
Dimensions
Item
A
Model
2516HGARVB 194.5
2520HGARVB 200.5
30
Model：TOP - 2.5HGAF
ROTATION
φ５８＋００．０３
Ｂ
OUT
０
φ１６
-０．
０１８
２．
８
φ５５
２-Ｒｃ１
１４
４２．
５
０
４
-０．
０３
φ１９
５０．
３
９５
１１５
１３
１７．
５ -００．３
７０．
３
８３．
５
８
IN
Dimensions
９５
１１５
１２０
３５
４１
Ａ
４-φ９
Item
Model
2516HGAF
2520HGAF
A
B
195
201
154
160
Model：TOP - 2.5HGAFVB
ROTATION
８３．
５
０
-０．
０３
４
１４
４２．
５
３５
４１
Ｂ
ＯＵＴ
０
-０．
０１８
φ１６
２．
８
φ５５
０．
０３
φ５８＋
０
９３．
８
2.5
HGA
２-Ｒｃ１
０
１７．
５
-０．
３
１３ φ１９
８
５０．
３
９５
１１５
１０６．
５
Ｉ
Ｎ
Dimensions
９５
１１５
１２０
Ａ
Item
A
B
Model
2516HGAFVB 194.5 153.5
2520HGAFVB 200.5 159.5
４-φ９
Model：TOP - 2.5HGAFR
ROTATION
φ５８＋００．０３
Ｂ
Ｉ
Ｎ
φ１６ -００．０１８
２．
８
φ５５
２-Ｒｃ１
１４
４２．
５
０
４
-０．
０３
φ１９
５０．
３
９５
１１５
１３
１７．
５ -００．３
７０．
３
８３．
５
８
ＯＵＴ
Dimensions
９５
１１５
１２０
３５
４１
Ａ
４-φ９
Item
Model
2516HGAFR
2520HGAFR
A
B
195
201
154
160
Item
A
Model
2516HGAFRVB 195
2520HGAFRVB 201
154
160
Model：TOP - 2.5HGAFRVB
ROTATION
８３．
５
φ５８＋００．０３
１４
４２．
５
１２０
Ｂ
Ａ
31
３５
４１
０
-０．
０１８
φ１６
２．
８
φ５５
２-Ｒｃ１
IN
０
１７．
５
-０．
３
１３ φ１９
９３．
８
８
０
-０．
０３
４
５０．
３
９５
１１５
１０６．
５
OUT
Dimensions
９５
１１５
１２０
４-φ９
B
TOP-N3F
■Specifications
Item
Model
Theoretical
Displacement
cm3/rev
FAM
TOP-N320 FAMVB
FBM
FAM
TOP-N330 FAMVB
FBM
FAM
TOP-N340 FAMVB
FBM
Max. Discharge
Pressure
MPa
min−1
kg
1500min
1800min
26
39.0
46.8
2.5
1800
39
58.5
70.2
※2.5
1800
52
78.0
93.6
※2.0
1800
−1
−1
8.0
10.5
9.0
8.0
10.5
9.0
8.0
10.5
9.0
C.
Pump
Cover
Rotation
Direction
TOP - N320 M
N330
N340
Relief
Valve
Special
Symbol
-
Relief Valve
Set Pressure
VF, (Refer to page 63.)
○ In this case on the FA pump cover can be used.
○Refer to page 57 for the relief valve set pressure, and indicate the desired type when placing your order.
Indicate the set pressure (to the first decimal point) at the end of the model number (Ex.: 0.1MPa).
No mark: Clockwise rotation as seen from the end of the shaft (standard rotation direction)
L: Counter-clockwise rotation as seen from the end of the shaft
FA: Port parallel to pump shaft
FB: Port perpendicular to pump shaft
N3F
■Model
Model Examples:
TOP-N320FAMLVB (port parallel to pump shaft, with relief valve)
TOP-N330FBML (port perpendicular to pump shaft, counter-clockwise rotation as seen from end of shaft)
C
At 1,450 Rotations
At 1,750 Rotations
100
70
80
N340F
60
N330F
50
40
N320F
30
20
10
90
N340F
80
70
N330F
60
50
N320F
40
30
20
10
0
0
0
0.5
1
1.5
2
2.5
3
0
3.5
0.5
1
Pressure（MPa）
●Required Power
2
2.5
3
3.5
3
3.5
●Required Power
5
7
N340F
4.5
6
4
N330F
3.5
Shaft Power（W）
Shaft Power（W）
1.5
Pressure（MPa）
3
2.5
N320F
2
1.5
1
N340F
5
N330F
4
3
N320F
2
1
0.5
0
0
0
0.5
1
1.5
2
2.5
3
3.5
0
Pressure（MPa）
0.5
1
1.5
2
2.5
Pressure（MPa）
32
TOP-N3F
Model：TOP - N3FAM
ROTATION
３０
０．
０１５
７＋
＋０．
００５
３０
M8×1.25 depth 16
４-φ１１
１４３２
１２２
４５
７７
２３ -００．３
１３４
６２．
９
５５．
１
４９．
９
４２．
１
ＯＵＴＬＥＴ
Ｒｃ１
Ｉ
ＮＬＥＴ
Ｒｃ１
φ２０ -００．０２１
０
φ８０
-０．
０３
３．
９
３４
４０
４０
１０８
１１９
Length of φ20 section: At least
44.5 from end of shaft
１９９
Model：TOP - N3FAMVB
ROTATION
M8×1.25 depth 16
DEPTH
２７２７
０．
０１５
７＋
＋０．
００５
４-φ１１
１４
１０７
１５４
２３１
３２
４５
７７
２３ -００．３
１３４
６２．
9
５５．
１
４９．
９
４２．
1
ＯＵＴＬＥＴ
Ｒｃ１
Ｉ
ＮＬＥＴ
Ｒｃ１
０
φ２０ｈ７
-０．
０２１
３．
９
φ８０ -００．０３
３４
４０
４０
１０８
１１９
１８３
Model：TOP - N3FAML
ROTATION
M8×1.25 depth 16
３０
３０
７＋＋００．．００１０５５
４-φ１１
Ｉ
ＮＬＥＴ
Ｒｃ１
１４３２
１２２
１９９
33
４５
７７
０
２３
-０．
３
１３４
６２．
９
５５．
１
４９．
9
４２．
１
ＯＵＴＬＥＴ
Ｒｃ１
０
．
０２１
φ２０ -０
３．
９
φ８０ -００．０３
３４
４０
４０
１０８
１１９
Model：TOP - N3FAMLVB
ROTATION
２７２７
＋０．
０１５
７＋０．００５
M8×1.25 depth 16
４-φ１１
４９．
９
４２．
１
６２．
９
５５．
１
１３４
０
-０．
３
２３
ＮＯＰ
φ２０ -００．０２１
ＯＵＴＬＥＴ
Ｒｃ１
φ８０ -００．０３
３．
９
３４
Ｉ
ＮＬＥＴ
Ｒｃ１
１４
１０７
１５４
２３１
３２
４５
７７
４０
４０
１０８
１１９
１８３
Model：TOP - N3FBM
ROTATION
７＋＋００．．００１０５５
M8×1.25 depth 16
４-φ１１
２-Ｒｃ１ 1/4
１４
１０４
１４７
２２４
３２
４５
７７
N3F
２３ -００．３
１３４
６２．
９
５５．
１
４９．
８４２．
１
φ８０ -００．０３
φ２０ -００．０２１
OUT
３．
９
φ６０
IN
φ６０
３４
４０
４０
１０８
１１９
１５０
Model：TOP - N3FBML
ROTATION
０．
０１５
７＋
＋０．
００５
M8×1.25 depth 16
４-φ１１
２-Ｒｃ１1/4
１４
１０４
１４７
２２４
３２
４５
７７
２３ -００．３
１３４
６２．
９
５５．
１
４９.９４２．
１
０
φ８０
-０．
０３
φ２０ -００．０２１
IN
３．
９
φ６０
OUT
φ６０
３４
４０
４０
１０８
１１９
１５０
34
TOP-3MF
■Specifications
Theoretical
Discharge
/min
Model
FA
TOP-N320 FA VB
FB
FA
TOP-N330 FA VB
FB
FA
TOP-N340 FA VB
FB
750W
1500W
2200W
39
0.4
1.3
2.1
58.5
0.1
0.8
──
0.5
78
Theoretical
Discharge
/min
750W
1500W
2200W
46.8
0.2
1.0
1.7
1.3
70.2
──
0.6
1.0
0.9
93.6
──
0.3
0.6
C.
Output（W）
No. of Poles（P）
Rating
750
4
Continuous
1500
4
Continuous
2200
4
Continuous
■Model
Motor Output
TOP - 3MF 750 - N320
1500
N330
2200
N340
50
200
60
200
60
220
50
200
60
200
60
220
50
200
60
200
60
220
Pump
Cover
Rotation
Direction
No. of Revolutions
（min−1）
1440
1720
1740
1440
1720
1730
1420
1710
1730
Relief
Valve
3.6
14
3.3
3.2
6.8
24
6.2
6.0
9.0
30
8.5
7.9
Special
Symbol
-
Relief Valve
Set Pressure
○In this case only the FA pump cover can be used.
○Refer to page 57 for the relief valve set pressure, and indicate the
desired type when placing your order. Indicate the set pressure (to
the first decimal point) at the end of the model number (Ex.: 0.1MPa).
L: Clockwise rotation as seen from the end of the shaft
FA: Port parallel to pump shaft
FB: Port perpendicular to pump shaft
Model Examples:
TOP-3MF1500-N320FAVB (1,500W, port parallel to pump shaft, with relief valve)
TOP-3MF2200-N330FBL (2,200W, port perpendicular to pump shaft, clockwise rotation as seen from end of shaft)
35
Model：TOP - 3MF750-N3FA
ROTATION
415
293
122
135
130
158
168
30 30
φ22 hole
Ｒｃ１
Ｒｃ１
50
Ｇ１/４
50
130
48
62.5
62.5
Diagram of Wiring
Nameplate
CAUTION
165
25
10
35
50
５
OUTLET
INLET
76.1
164
40
U
V
W
R
S
T
ROTATION
Model：TOP - 3MF750-N3FAVB
ROTATION
４４７
２９３
１３５
１３０
１２３
１５４
１０７
１５８
１６８
２７２７
４８
６２．
５６２．
５
１６５
２５
50
Ｇ１/４
Diagram of Wiring
Nameplate
CAUTION
１０
３５
５０５０
１３０
５
Ｒｃ１
ＯＵＴＬＥＴ
Ｒｃ１
Ｉ
ＮＬＥＴ
N3F
φ22 hole
76.1
１６４
４０
U
V
W
R
S
T
ROTATION
Model：TOP - 3MF750-N3FB
ROTATION
４４０
１４７
１０４
２９３
１３５
１５８
１３０
４０
７５
１６８
７５
３５
５０５０
１３０
50
Ｇ１/４
φ22 hole
OUT
５
IN
４８
６２．
５６２．
５
１６５
２５
Diagram of Wiring
Nameplate
CAUTION
U
V
W
R
S
T
ROTATION
１０
７６．
１
１６４
２-Ｒｃ１１/４
36
TOP-3MF
３３７
１２２
１７５
４８
１４８
１８８
３０３０
86.1
１８５
１６２
ROTATION
４５９
３５
CAUTION
Ｒｃ１/８
４５
７０
７０
１８０
４５
Ｒｃ１
ＯＵＴＬＥＴ
２５
U
V
W
R
S
T
ROTATION
１０
６２．
５６２．
５
１５５
Diagram of Wiring
Nameplate
５
φ22 hole
Ｒｃ１
Ｉ
ＮＬＥＴ
ROTATION
４８
１４８
１２３
１５４
１０７
１７５
１８８
２７２７
１８５
Ｒｃ１/８
４５
７０
７０
１８０
４５
２５
CAUTION
U
V
W
R
S
T
ROTATION
１０
３５
６２．
５６２．
５
１５５
Diagram of Wiring
Nameplate
５
Ｒｃ１
ＯＵＴＬＥＴ
φ22 hole
Ｒｃ１
Ｉ
ＮＬＥＴ
86.1
３３７
２．
５°
１６２
４９１
162
337
48
ROTATION
484
147
104
175
148
75
188
75
86.1
185
2-Rc1 1/4
OUT
φ22 hole
37
RC1/8
45
70
70
180
45
25
Diagram of Wiring
Nameplate
CAUTION
10
35
62.5 62.５
155
５
IN
U
V
W
R
S
T
ROTATION
ROTATION
496.5
374.5
122
185
158
189.5
208
30 30
58
70
Rc 1/8
45
Diagram of Wiring
Nameplate
７
φ22 hole
Rc１
INLET
80
80
CAUTION
40
U
V
W
R
S
T
215
170
ROTATION
12
42
70
96.1
205
Rc1
OUTLET
16
ROTATION
528.5
158
154
107
374.5
185
189.5
123
208
27 27
58
70
70
Rc1/8
45
Diagram of Wiring
Nameplate
７
φ22 hole
Rc１
INLET
CAUTION
40
80
80
U
V
W
R
S
T
215
170
16
ROTATION
12
42
96.1
205
N3F
Rc1
OUTLET
ROTATION
521.5
147
104
374.5
185
189.5
158
58
75
208
75
96.1
205
２°
２-Rc1１/４
OUT
φ22 hole
170
45
80
80
215
40
16
Diagram of Wiring
Nameplate
CAUTION
12
70
Ｒc１/8
７
IN
42
70
U
V
W
R
S
T
ROTATION
38
TOP-N3H
■Specifications
Item
Model
Theoretical
Displacement
cm3/rev
Max. Discharge
Pressure
min−1
kg
MPa
1500min
1800min
−1
−1
TOP-N320H
26
39.0
46.8
4.0
1800
14.8（15.4）
TOP-N330H
39
58.5
70.2
※4.0
1800
14.9（15.5）
TOP-N340H
52
78.0
93.6
※3.0
1800
14.9（15.5）
TOP-N350H
65
97.5
117.0
※2.0
1800
15.6（16.2）
C. ○The approximate weight values shown in the brackets ( ) are for when a relief valve is attached.
*Please consult with your Nippon Oil Pump representative before using the specifications marked with "※".
Rotation
Direction
■Model
Relief
Valve
Special
Symbol
Relief Valve
Set Pressure
-
TOP - N320H
N330H
N340H
N350H
UT, VF, VH (Refer to page 63.)
indicate the desired type when placing your order.
Indicate the set pressure (to the first decimal point) at
the end of the model number (Ex.: 0.1MPa).
*When using the UT seal materials the configuration of the pumps will
be different than those shown on page 40. The appropriate diagrams
can be obtained from the Nippon Oil Pump homepage.
Model Examples:
TOP-N320HVB (with relief valve)
TOP-N330HL (counter-clockwise rotation as seen from end of shaft)
C
At 1,450 Rotations
At 1,750 Rotations
100
120
N350H
80
70
N340H
60
50
N330H
40
N320H
30
20
10
N350H
100
90
N340H
80
60
N330H
40
N320H
20
0
0
0
0.5
1
1.5
2
2.5
3
3.5
4
0
4.5
0.5
1
1.5
Pressure（MPa）
2
2.5
3
3.5
4
4.5
Pressure（MPa）
●Required Power
●Required Power
6
N340H
7
N330H
N350H
4
N320H
3
2
1
Shaft Power（kw）
Shaft Power（kw）
5
N330H
5
N320H
4
3
2
1
0
0
0
0.5
1
1.5
2
2.5
3
3.5
4
4.5
0
Pressure（MPa）
39
N340H
N350H
6
0.5
1
1.5
2
2.5
Pressure（MPa）
3
3.5
4
4.5
Model：TOP - N3H
Ｄ
ROTATION
34
７＋＋００．．０００１５５
Ｉ
Ｎ
70
110
Ｂ
Ａ
16
16
Item
Model
N320H
N330H
N340H
N350H
２５
24
Dimensions
０
-０．
３
96
φ２２ -００．０２１
75
71.1
116
140
４-φ１２
ＯＵＴ
146.5
21
129.5
79.5
φ９４
21
176
134
42
50
A
237
237
237
247
D（port diameter）
In
Out
187 Rc1
187
Rc1
187 Rc11/4
197
B
Model：TOP - N3HVB
１０６．
５
ROTATION
３４
＋０．
０１５
７＋０．００５
１６９．
５
２５
φ９４
Ｄ
０
-０．
３
２１
４-φ１２
１６
７５
７１．
１
OUT
９６
１１６
１４０
２４
７０
１６
１１０
Ｂ
Ａ
４２
５０
IN
Dimensions
Item
Model
N320HVB
N330HVB
N340HVB
N350HVB
A
237
237
237
247
In
Out
187 Rc1
187
Rc1
187 Rc11/4
197
B
N3H
１２９．
５
７９．
５
φ２２ -００．０２１
２１
１７６
１３４
Model：TOP - N3HL
Ｄ
ROTATION
34
＋０．
０１５
７＋０．００５
70
110
Ｂ
Ａ
16
16
Item
Model
N320HL
N330HL
N340HL
N350HL
２５
24
Dimensions
０
-０．
３
96
116
140
φ２２ -００．０２１
４-φ１２
ＯＵＴ
75
71.1
Ｉ
Ｎ
146.5
21
129.5
79.5
φ９４
21
176
134
42
50
A
237
237
237
247
In
Out
187 Rc1
187
Rc1
187 Rc11/4
197
B
Model：TOP - N3HLVB
２１
１０６．
５
１７６
２１
１３４
１２９．
５
７９．
５
ROTATION
３４
０．
０１５
７＋
＋０．
００５
９６
２４
１６
７０
１１０
Ｂ
Ａ
４２
５０
１６９．
５
ＯＵＴ
１６
７５
Dimensions
２５
１１６
１４０
Ｉ
Ｎ
０
-０．
３
４-φ１２
φ２２ -００．０２１
７１．
1
φ９４
Ｄ
Item
Model
N320HLVB
N330HLVB
N340HLVB
N350HLVB
A
237
237
237
247
In
Out
187 Rc1
187
Rc1
187 Rc11/4
197
B
40
TOP-3MBY
■Specifications
Theoretical
Discharge
/min
1500W
2200W
3700W
TOP-N320H
39.0
1.3
2.2
3.0
4.0
TOP-N330H
58.5
0.8
1.4
2.6
※4.0
TOP-N340H
78.0
0.5
0.9
1.8
TOP-N350H
97.5
0.3
0.7
1.4
Model
5500W
Theoretical
Discharge
/min
1500W
2200W
3700W
5500W
46.8
1.0
1.7
3.2
4.0
70.2
0.5
1.0
2.1
3.3
※3.0
93.6
0.3
0.6
1.4
2.3
※2.0
117.0
0.1
0.4
1.0
1.8
C.
■Model
Motor Output
TOP - 3MBY 1500 - N320H
N330H
2200
3700
N340H
N350H
5500
Rotation
Special
Symbol
Relief Valve
-
Relief Valve
Set Pressure
UT, VF, VH (Refer to page 63.)
pressure, and indicate the desired type
when placing your order. Indicate the set
pressure (to the first decimal point) at the
end of the model number (Ex.: 0.1MPa).
No mark: Counter-clockwise rotation as seen from the pump side (standard rotation direction)
L: Clockwise rotation as seen from the pump side
* When using the UT seal materials the configuration of the pumps
will be different than those shown on page 42. The appropriate
diagrams can be obtained from the Nippon Oil Pump homepage.
Model Examples:
TOP-3MBY1500-N320HVB (1,500W, with relief valve)
TOP-3MBY2200-N330HL (2,200W, clockwise rotation as seen from the pump side)
41
Model：TOP - 3MBY1500-N3HVB
１２５
４-Ｍ８Ｐ１．
２５
ＰＬ
７０
４-Ｍ１０Ｐ１．
５
４-φ１１
１５
１３９
１１６
１５０
１９０
Dimensions
３０
１．
５
３０
１３１．
１
１３５
９０
２２０
１６０
１４０
Ｄ
１３９
３１５
１５
３１５
４５４
５４３
４５４
５４３
７４
Item
Model
N320HVB
N330HVB
N340HVB
N350HVB
４-φ１１
７４
PL
In
Out
107.5 Rc1
107.5
Rc1
107.5 Rc11/4
117.5
１１６
１５０
１９０
４-φ１１
１４６
１５
１．
５
７４
４８６
５７５
Item
Model
N320HVB
N330HVB
N340HVB
N350HVB
７４
PL
In
Out
107.5 Rc1
107.5
Rc1
107.5 Rc11/4
117.5
N3H
４８６
５７５
７０
Dimensions
３０
１４６
４-Ｍ１０Ｐ１．
５
１６０
２３０
１６０
１４６．
１
１５０
１００
４-φ１１
１５
１４０
４-Ｍ１０Ｐ１．
５
ＰＬ
Ｄ
１４０
７０
１１６
１５０
１９０
Dimensions
３５
４-φ１１
１５
１８０
５２５
６１４
１．
５
７４
４-Ｍ１０Ｐ１．
５
１９０
１６８．
１
２５０
１８０
４-Ｍ１０Ｐ１．
５
１１２
３５
１７２
ＰＬ
Ｄ
１８０
１５
Item
Model
N320HVB
N330HVB
N340HVB
N350HVB
４-φ１１
５２５
６１４
７４
PL
In
Out
107.5 Rc1
107.5
Rc1
107.5 Rc11/4
117.5
４-Ｍ１０Ｐ１．
５
１４０
７０
４-φ１１
１５
２１０
５９５
６８４
１．
５
１１６
１５０
１９０
４-Ｍ１０Ｐ１．
５
Dimensions
４-φ１１
２１０
１５
７４
２１８
３０
１８８．
１
１３５
３０
１９５
２８９
２１７
ＰＬ
Ｄ
５９５
６８４
７４
Item
Model
N320HVB
N330HVB
N340HVB
N350HVB
PL
In
Out
107.5 Rc1
107.5
Rc1
107.5 Rc11/4
117.5
42
TOP-3V
Used for transferring oils with high viscosity (46∼2,000mm2/sec) such as high-viscosity lubricating oils and gear oils.
■Specifications
Item
Model
Theoretical
Displacement
cm3/rev
1500min
1800min
−1
−1
Max. Discharge
Pressure
MPa
min−1
kg
TOP-330V
39.0
58.5
70.2
1.0
1800
19.3（20.7 ）
TOP-340V
52.0
78.0
93.6
1.0
1800
19.5（20.9）
TOP-350V
65.0
97.5
117.0
1.0
1800
19.3（20.7）
C.
■Model
Relief
Valve
Attachment
Relief Valve
Set Pressure
TOP - 330V
340V
350V
○Refer to page 57 for the relief valve set pressure,
and indicate the desired type when placing your
order. Indicate the set pressure (to the first decimal
point) at the end of the model number (Ex.: 0.1MPa).
Model Examples:
TOP-N330VVB (with angle plate and relief valve)
TOP-N330VFVB (with angle flange and relief valve)
C
At 1,450 Rotations
At 1,750 Rotations
120
90
350V
80
70
340V
60
330V
50
40
30
20
100
100
350V
80
340V
330V
60
40
20
10
0
0.1
0.3
0.5
Pressure（MPa）
0.7
0
1
●Required Power
0.1
0.3
0.5
Pressure（MPa）
0.7
1
●Required Power
5.0
4.0
340V
330V
2.0
Shaft Power（kw）
Shaft Power（kw）
350V
3.0
350V
4.0
340V
3.0
330V
2.0
1.0
1.0
0.0
0.1
0.3
0.5
Pressure（MPa）
0.7
1
0.0
43
0.1
0.3
0.5
Pressure（MPa）
0.7
1
Model：TOP - 3V
ROTATION
２２
φ１
５５
２２２
２０４
１６０
２２
７＋＋００．．００１０５５
１７５．
５
２５ -００．３
IN
９８
８０
６０
３４
６０
１５
３０
７
５
１２０
２６２
４２
４６
１６
OUT
９８
φ２２-００．０２１
Ｄ
１５０
１８０
４-φ１１
Dimensions
Item
Model
In
Out
Rc11/4
330V
Rc11/4
340V
Rc11/2
350V
Model：TOP - 3VVB
ROTATION
２２
IN
Dimensions
９８
８０
６０
３４
０
-０．
０２１
φ２２
Ｄ
９８
φ１
５５
２０４
１６０
７＋＋００．．０００１５５
２５ -００．３
１３１
２２９
２２
２２２
１５
７５３０４２
４６
１２０
２６２
１５０
１８０
４-φ１１
Item
Model
In
Out
330VVB Rc11/4
Rc11/4
340VVB
Rc11/2
350VVB
3V
６０
８０
１６
OUT
Model：TOP - 3VF
ROTATION
φ１
５５
２２２
１７３
２２
２０４
１６０
２２
＋０．
０１５
７＋０．００５
２５ -００．３
１２８
１５５
８０
６０
３４
０
-０．
０２１
φ２２
φ１０５ -００．０２５
Ｄ
IN
OUT
６０
８０
２１３
２６２
１２８
１５５
４２
１７４
４９
４-φ１１
Dimensions
Item
Model
In
Out
Rc11/4
330VF
Rc11/4
340VF
Rc11/2
350VF
Model：TOP - 3VFVB
ROTATION
２２
２０４
１６０
＋０．
０１５
７＋
０．
００５
２２
８０
６０
３４
０
φ２２
-０．
０２１
０
-０．
０２５
φ１０５
Ｄ
２５ -００．３
１２８
１５５
１３１
φ１
５５
２２２
１７３
IN
OUT
６０
８０
２１３
２６２
１７
４２
４
４９
１２８
１５５
４-φ１１
Dimensions
Item
Model
In
Out
330VFVB Rc11/4
Rc11/4
340VFVB
Rc11/2
350VFVB
44
TOP-4AM
■Specifications
Item
Model
Theoretical
Displacement
cm3/rev
1000min
1200min
Max. Discharge
Pressure
MPa
−1
−1
Max. Revolution
min−1
Approx. Weight
kg
TOP-4100AM
116
116
139.2
2.0
1800
31
TOP-4130AM
148
148
177.6
2.0
1800
33
C.
■Model
Rotation
Direction
Attachment
Relief Valve
TOP - 4100AM
4130AM
VB
No mark: Without angle plate
I: With angle plate
Model Examples:
TOP-4100AMVB (with relief valve)
TOP-4130AMIVB (with angle plate and relief valve, counter-clockwise rotation as seen from the end of the shaft)
Test Conditions Oil: ISO-VG46 with a temperature of 40°C
At 1,000 Rotations
At 1,200 Rotations
200
4130AM
140
160
120
4100AM
100
80
60
40
20
180
4130AM
160
140
4100AM
120
100
80
60
40
20
0
0
0
0.5
1
1.5
2
0
2.5
0.5
●Required Power
2
9
7
2.5
6
4130AM
8
4130AM
Shaft Power（kw）
Shaft Power（kw）
1.5
●Required Power
8
4100AM
5
4
3
2
1
7
4100AM
6
5
4
3
2
1
0
0
0
0.5
1
1.5
2
2.5
0
Pressure（MPa）
45
1
Pressure（MPa）
Pressure（MPa）
0.5
1
1.5
Pressure（MPa）
2
2.5
Model：TOP - 4AMVB
Ａ
Ｂ
Ｅ
２-Ｄ
OUTLET
ROTATION
165
88
77
70
65
７×７×65 key
72
72
85.8
74.2
194
110
７
φ32h7 ０
-0.025
INLET
□60
□80
238
35 ０
-0.3
22
４-φ14
COUNTERBOREφ28
Dimensions
80
80
Item
Model
4100AMVB
4130AMVB
194
224
A
354
364
B
D
E
189 Rc11/2 153
199 Rc2 163
Model：TOP - 4AMIVB
ROTATION
Ａ
７２
９４
１１１
１０６
１２３
２３４
７
φ３２ -００．０２５
φ１１０
□６０
□８０
２２
１８
１０
４１
１２４
７×７×６５ key
35 ０
-0.3
７２
２２５
７
４１
１３０４０
１３６∼１７６
２９４
２-Ｄ
ＯＵＴＬＥＴ
Ｉ
ＮＬＥＴ
１０
１４５
１８５
２０
１６５
８８
７７
７０
６５
８５．
８７４．
２
０
-０．
３
３５
Ｂ
Ｅ
１６０
４２
Dimensions
Item
Model
4100AMIVB
4130AMIVB
A
354
364
B
D
E
189
199
Rc11/2
Rc2
153
163
B
D
E
Model：TOP - 4AMLVB
4AM
ROTATION
Ａ
７２
１６５
８８
７７
７０
６５
２２
７２
Ｉ
ＮＬＥＴ
２２４
１９４
８０
８０
７×７×６５ key
８５．
８７４．
２
１９４
２-Ｄ
ＯＵＴＬＥＴ
Ｂ
Ｅ
０
７
０
-０．
０２５
φ３２ｈ７
２３８
φ６０
φ８０
φ１１０
３５-０．３
４-φ１４
ＣＯＵＮＴＥＲＢＯＲＥ
φ２８
Dimensions
Item
A
Model
4100AMLVB 354
4130AMLVB 364
189 Rc11/2 153
199 Rc2 163
Model：TOP - 4AMILVB
ROTATION
７×７×６５ key
０
□６０
□８０
０
φ３２
-０．
０２５
φ１１０
７
３５-０．３
７２
７２
９４
１１１
１０６
１２３
２３４
１４５
１８５
４２
１８
１０
４１
１２４
Ｉ
ＮＬＥＴ
２２５
７
４１
１３０４０
１３６∼１７６
２９４
２-Ｄ
ＯＵＴＬＥＴ
１０
74.2
０
-０．
３
３５
１６５
８８
７７
７０
６５
２２
８５．
８
Ｂ
Ｅ
１６０
２０
Ａ
Dimensions
Item
A
Model
4100AMILVB 354
4130AMILVB 364
B
D
E
189 Rc11/2 153
199 Rc2 163
46
TOP-4MBY
■Specifications
Model
Theoretical
Discharge
/min
3700W
5500W
7500W
Theoretical
Discharge
/min
3700W
5500W
7500W
TOP-4100AM
116
1.1
1.9
2.0
139.2
0.8
1.4
2.0
TOP-4130AM
148
0.7
1.4
2.0
177.6
0.5
1.1
1.6
C.
○No. of motor poles: 6
■Model
No. of
Motor Output Motor Poles
TOP - 4MBY 3700 - 6 - 4100AM I
4130AM
5500
7500
Rotation
Direction
Relief Valve
VB
No mark: Counter-clockwise rotation as seen from the pump side (standard rotation direction)
L: Clockwise rotation as seen from the pump side
Model Examples:
TOP-4MBY3700-6-4100AMIVB (3,700W, with angle plate and relief valve)
TOP-4MBY5500-6-4130AMILVB (5,500W, with angle plate and relief valve, clockwise rotation as seen from the pump side)
47
Model：TOP - 4MBY3700 - 6 - 4AMVB
４-φ１４
４-Ｍ１０Ｐ１．
５
５５０
４-Ｍ１２Ｐ１．
７５
８０
6
２１９
１３２
２５０
２１６
１８５
２１０
８０
７０
Ｅ
１４０
８０
５５０
７１０
４-φ１４
８０
１４０
２４５
７１０
２００
５５
Dimensions
Item
Model
4100AMIVB
4130AMIVB
Ｆ
E
F
84
94
40
50
４-φ１４
４-Ｍ１０Ｐ１．
５
５５０
４-Ｍ１２Ｐ１．
７５
８０
6
２１９
１３２
２５０
２１６
１８５
２１０
８０
７０
E
１２１
８０
５５０
７１０
４-φ１４
８０
１４０
２４５
７１０
２００
５５
Dimensions
Item
Model
4100AMIVB
4130AMIVB
Ｆ
E
F
84
94
40
50
１６４
２００
３００
２５４
２４１
160
Ｅ
８０
１３６
８０
６４０
８００
４-φ１４
６４０
８００
８０
Dimensions
４-φ１４
８０Ｆ
4AM
５００
４-Ｍ１２Ｐ１．
７５
１８５
２６０
１３６
２１０
４-Ｍ１２Ｐ１．
７５
Item
Model
4100AMIVB
4130AMIVB
E
F
75
85
60
70
48
TOP-4A
■Specifications
Item
Model
Theoretical
Displacement
cm3/rev
1000min
1200min
Max. Discharge
Pressure
MPa
−1
−1
min−1
kg
TOP-4300A
352
352
422.4
1.0
1200
120
TOP-4500A
586
586
703.2
1.0
1200
125
C.
■Model
Rotation
Direction
Relief Valve
TOP - 4300A
4500A
VB
Model Example:
TOP-4500ALVB (counter-clockwise rotation as seen from the end of the shaft)
C
At 960 Rotations
At 1,160 Rotations
700
600
4500A
500
400
4300A
300
200
100
4500A
600
500
400
4300A
300
200
100
0
0
0
0.5
1
0
1.5
0.5
Pressure（MPa）
●Required Power
18
4500A
Shaft Power（kw）
10
4300A
8
4500A
16
12
Shaft Power（kw）
1.5
●Required Power
14
6
4
2
14
12
10
4300A
8
6
4
2
0
0
0
0.5
1
1.5
0
Pressure（MPa）
49
1
Pressure（MPa）
0.5
1
Pressure（MPa）
1.5
Model：TOP - 4AVB
ROTATION
（３６５）
０
４５．
５
-０．
３
OUT
IN
４-φ１８
２６
１５９．
２
１６５ -００．０２５
４
Ｒｃ
２-
０．
０３６
１２＋
＋０．
０１８
φ４２ -００．０２５
１９６
２２０
２７０
Ｆ
７０
９０
Ａ
１３５
２２５
２７０
（２６）
Ｅ
（２６）
Dimensions
Item
A
E
F
Model
4300AVB 518.5 315.5 90.5
4500AVB 588.5 350.5 125.5
Model：TOP - 4ALVB
ROTATION
２２０
２７０
２６
４-φ１８
（３６５）
Ｉ
Ｎ
７０
Ｆ
９０
（２６）
Ａ
ＯＵＴ
１３５
２２５
２７０
4A
０
-０．
３
４５．
５
０
-０．
３
１６５
１６５ -００．３
１５９．
２
４
Ｒｃ
２-
１２＋＋００．．００３１６８
φ４２ -００．０２５
１９６
（２６）
Ｅ
Dimensions
Item
A
E
F
Model
4300ALVB 518.5 315.5 90.5
4500ALVB 588.5 350.5 125.5
50
Lunary Pump（GPL）
Used for transferring oils with high viscosity (46∼2,000mm2/sec) such as high-viscosity lubricating oils and gear oils.
■Specifications
Theoretical
Displacement
cm3/rev
1000min
1200min
GPL-150VB
150
150
180
1.0
GPL-200VB
200
200
240
GPL-250VB
250
250
300
Item
Model
−1
−1
Max. Discharge Pressure Max. Revolution Approx. Weight
min−1
kg
Normal MPa Max. MPa
2.0
1800
38.9
1.0
2.0
1800
40.3
1.0
※2.0
1800
42.5
C.
■Model
Attachment
Rotation
Direction
Relief Valve
GPL - 150
200
250
VB
I : With angle plate
F: Without angle plate
Model Examples:
GPL-150IVB (with angle plate)
GPL-150FLVB (without angle plate, counter-clockwise rotation seen from end of shaft)
C
At 960 Rotations
At 1,160 Rotations
300
300
250
250
200
200
150
150
100
50
250
250
200
200
150
150
100
50
0
0
0
0.5
1
1.5
2
0
2.5
0.5
Pressure（MPa）
1
1.5
2
2.5
Pressure（MPa）
●Required Power
●Required Power
12
12
10
10
Shaft Power（kw）
Shaft Power（kw）
250
250
8
200
150
6
4
200
8
150
6
4
2
2
0
0
0
0.5
1
1.5
2
2.5
0
Pressure（MPa）
51
0.5
1
1.5
Pressure（MPa）
2
2.5
Model：GPL - IVB
ROTATION
８０
Ｍ８Ｐ１．
２５
DEPTH２０
４３
２２
２２
２５２
２９６
３２０
１７
SHAFT DETAILS
１７
２００
２３４
OUT
IN
１２５∼１３５
１５５∼１６５
２９０
１００
１２０
０
φ２０
７ -００．０３６
２０
１４５
１８５
２２５
２０
１６９
１４．
５５２-６５Ａ
０
-０．
３
３１
Ａ
８６
６４
１６０
２０
Dimensions
Item
Model
GPL-150IVB
GPL-200IVB
GPL-250IVB
A
268
287
306
Model：GPL - ILVB
Ａ
８６８０
６４
０
７
-０．
０３６
IN
OUT
Ｍ８Ｐ１．
２５
DEPTH ２０
４３
２０
１００
１２０
０
φ２０
２-６５Ａ
SHAFT DETAILS
２２
２５２
２９６
３２０
１７
２２
２００
２３４
１７
２０
１４５
１８５
２２５
１２５∼１３５
１５５∼１６５
２９０
１４．
５５
ROTATION
０
３１
-０．
３
１６９
１６０
２０
Dimensions
Item
Model
GPL-150ILVB
GPL-200ILVB
GPL-250ILVB
A
268
287
306
Model：GPL - FVB
Ａ
８６
８０
６４
６０
１４．
５５６２-６５Ａ
ROTATION
OUT
IN
０
３１
-０．
３
０
-０．
０３６
７
φ２１５
Ｍ８Ｐ１．
２５
DEPTH ２０
GPL
１００
０
φ２０
１２０
１６９
φ２８ -００．０２１
φ３５
０
φ１９０-０．０４６
１６０
SHAFT DETAILS
２２
２５２
２９６
３２０
４-φ１４
５
２２
Ｂ
１６０
１９４
１５
O-ring groove
INSTALLATION FOR O-RING
φ２０５ DEPTH ４．
６
APPLICATION SIZE Ｇ９０
Dimensions
Item
Model
GPL-150FVB
GPL-200FVB
GPL-250FVB
A
B
268
287
306
188
207
226
Model：GPL - FLVB
２２
２５２
２９６
３２０
２２
０
３１
-０．
３
７- ００．０３６
１５
IN
OUT
φ２１５
Ｍ８Ｐ１．
２５
DEPTH ２０
SHAFT DETAILS
５
Ｂ
０
-０．
０４６
φ１９０
１２０
１６９
１００
0
φ20
ROTATION
８０
６０
５６２-６５Ａ
φ２８ -００．０２１
１６０
φ３５
Ａ
８６
６４
１４．
５
１６０
１９４
４-φ１４
O-ring groove INSTALLATION FOR O-RING
φ２０５ DEPTH ４．
６
APPLICATION SIZE Ｇ９０
Dimensions
Item
Model
GPL-150FLVB
GPL-200FLVB
GPL-250FLVB
A
B
268
287
306
188
207
226
52
TOP-1RA,2RA,3RD
Forward and reverse rotations are possible! Trochoid Pumps TOP-1RA, 2RA, 3RD
The positioning of the oil suction and discharge ports does not change regardless of whether the pump is
revolving to the right or left. The Trochoid pump uses a special loop ring for the Trochoid rotor and an additional
180°rotation in the rotation direction. This ensures that the oil will flow in only one direction at all times
regardless of whether the pump is turned in the forward or reverse direction.
■Model：1RA
■Specifications
Item
Model
Theoretical
Displacement
cm3/rev
1500min
1800min
Max. Discharge
Pressure
MPa
−1
−1
Max. Revolution
min−1
Approx. Weight
kg
TOP-1RA-100
1.16
1.74
2.08
0.5
2000
1.0
TOP-1RA-200
1.80
2.70
3.24
0.5
2000
1.1
TOP-1RA-300
2.50
3.75
4.50
0.5
2000
1.2
C.
Regardless of whether the pump is turned to the right or left . . .
■Model
the oil flows in only one
direction at all times.
TOP - 1RA - 100
200
300
C
At 1,450 Rotations
At 1,750 Rotations
3.0
１RA-200
2.0
１RA-100
1.0
0.0
0.1
0.2
0.3
Pressure（MPa）
0.4
Shaft Power（W）
１RA-200
3
１RA-100
2
1
0.1
0.2
0.3
Pressure（MPa）
0.4
0.5
●Required Power
120
１RA-300
90
１RA-300
１RA-200
80
70
１RA-100
60
50
40
30
20
100
１RA-２00
80
１RA-100
60
40
20
10
53
１RA-300
4
0
0.5
●Required Power
0
5
１RA-300
Shaft Power（W）
4.0
0.1
0.2
0.3
Pressure（MPa）
0.4
0.5
0
0.1
0.2
0.3
Pressure（MPa）
0.4
0.5
■Model：2RA
■Specifications
Item
Model
Theoretical
Displacement
cm3/rev
1800min−1
Max. Discharge
Pressure
MPa
Max. Revolution
min−1
Approx. Weight
kg
1500min−1
TOP-2RA-4C
4.0
6.0
7.2
0.5
2000
3.5
TOP-2RA-8C
8.0
12.0
14.4
0.5
2000
4.0
12.0
18.0
21.6
0.5
1800
4.5
TOP-2RA-12C
C.
■Model
TOP - 2RA -
4C
8C
12C
C
At 1,450 Rotations
At 1,750 Rotations
25
14
12
8C
10
8
6
4C
4
20
12C
15
8C
10
4C
5
2
0
0.1
0.2
0.3
Pressure（MPa）
0.4
0
0.5
●Required Power
0.3
Pressure（MPa）
0.4
0.5
500
400
350
8C
300
250
4C
200
150
12C
450
12C
Shaft Power（W）
Shaft Power（W）
0.2
●Required Power
450
400
350
8C
300
4C
250
200
150
100
100
50
0
0.1
1RA 2RA 3RD
12C
16
18
50
0.1
0.2
0.3
Pressure（MPa）
0.4
0.5
0
0.1
0.2
0.3
Pressure（MPa）
0.4
0.5
54
■Model：3RD
■Specifications
Item
Model
Theoretical
Displacement
cm3/rev
1000min−1
1200min−1
Max. Discharge
Max. Revolution
Pressure
min−1
MPa
Approx. Weight
kg
TOP-3RD-10T
13.0
13.0
15.6
0.5
1800
10.0
TOP-3RD-15T
19.5
19.5
23.4
0.5
1800
10.0
TOP-3RD-20T
26.0
26.0
31.2
0.5
1800
10.5
TOP-3RD-25T
32.5
32.5
39.0
0.5
1800
11.0
TOP-3RD-30T
39.0
39.0
46.8
0.5
1800
11.5
C.
■Model
TOP - 3RD - 10T
15T
20T
25T
30T
C
At 1,000 Rotations
At 1,200 Rotations
50
40
30T
35
25T
30
25
20T
20
15T
15
10T
10
45
5
0
0.1
0.2
0.3
Pressure（MPa）
0.4
20T
25
20
15T
15
10
10T
0.1
0.2
0.3
Pressure（MPa）
0.4
0.5
●Required Power
1200
1400
30T
30T
1000
25T
800
20T
15T
600
10T
400
1200
Shaft Power（W）
Shaft Power（W）
25T
35
30
5
0
0.5
●Required Power
30T
45
40
25T
20T
15T
10T
1000
800
600
400
200
0
200
0.1
0.2
0.3
Pressure（MPa）
55
0.4
0.5
0
0.1
0.2
0.3
Pressure（MPa）
0.4
0.5
Model：TOP-1RA
φ６７
φ３２
IN
７７
Ｅ
Ｂ
φ３６ｆ
７--００．．００２５５０
２-Ｒｃ１/４
Ｒ１
３
φ５
２±
OUT
ROTATION
５--００．．００９５
φ８ｆ
７--００．．００２１３８
０．
１
３-φ６．
８
φ１２．
５ＣＯＵＮＴＥＲＢＯＲＥ
０．
５ＤＥＰＴＨ
Dimensions
．
７
length）
８＋００（Effective
１０．
５
１１
Item
Model
1RA-100
1RA-200
1RA-300
２０１９
３９
Ａ
A
B
E
86.5
90.5
94.5
47.5
51.5
55.5
40
44
48
E
D1
D2
Model：TOP-2RA
６-φ１１
φ２２Counter bore
ROTATION
０
０
Ｒ２
OUT
IN
φ８８
φ５０
φ３４
Ｄ２
Ｄ１
φ１２．
４４６ -００．０１１
０
-０．
０３
φ７４
φ１４０
５-０．２
９
（Effective length）
Ｒ２
１６
φ１
７５
１５０
２２
Ｂ
Ａ
１４
２２１０
１５
Dimensions
Item
Model
2RA-4C
2RA-8C
2RA-12C
０．
０５
．
０９
７--０
A
92
102
112
77
87
97
1/2
Rc3/8
Rc
Rc3/4 Rc1/2
Rc3/4 Rc3/4
Model：TOP-3RD
ROTATION
２-Ｄ
Effective length
６
３０°
Dimensions
Item
Model
3RD-10T
3RD-15T
3RD-20T
3RD-25T
3RD-30T
A
B
D
E
147
152
157
162
167
141
146
151
156
161
Rc1/2
Rc1/2
Rc3/4
Rc3/4
Rc1
89
94
99
104
109
1RA 2RA 3RD
Ｅ
Ｂ
Ａ
１２
５０
φ１４０--００．．００４８３３
φ２００
１４
１７１５
φ６０
２４
φ１３５
OUT
３０°
IN
φ１
７０
φ２０ --００．．００４２１
６-φ１４
φ２８Counter bore
１０ -００．０５
１４４
CAUTION
※The use of low-speed rotations and liquids with high viscosity could result in poor pump operations.
※Applying a thrust load or radial load to the pump shaft could result in poor pump operations.
※When using a check valve, be sure to install it on the pump discharge side. If a check valve is installed on the pump
suction side, pressure will be applied to the oil seal during reverse rotation, which could result in leaks.
56
Relief Valves
■Operations
When the pressure in the oil pressure circuit exceeds the set value for the valve, the valve will
open to return a portion or all of the oil. In this manner the valve maintains consistent circuit
pressure, limits the maximum pressure and in doing so protects the pump and related equipment.
Pressure Override
Pressure difference between cracking pressure
(set pressure) and total relief pressure Ｔ-1
Flow Rate
Ｔ-2
Q-1
Ｔ-3
Q-2
Q-3
OMPa
Pressure Increases
When relief valves and do not operate
Q-1
Cracking Pressure (set pressure) Total Relief Pressure
When relief valves
and
operate
Q-3
Q-2
Relief valve
Ｔ-1
Relief valve
Ｔ-2
Cracking Pressure
The amount of pressure that will allow for the start
of the opening of the valve to release a certain
amount of oil when pressure in the circuit increases
57
When the total amount is relieved
Relief valve
Ｔ-3
■Proper Method for Using a Trochoid Pump Relief Valve
Internal Return (safety valve)
①
VB Model
◎ With this method the valve is connected directly to the
pump to momentarily lower pressure when the oil is
being transmitted.
With this circuit configuration, if the system is used for a
long period of time with the valve constantly working and
the discharge port closed, various problems may occur
such as the generation of air bubbles, loud noises and a
rise in the temperature of the oil. Method ② or ③ should
be adopted in this case.
External Return (safety valve / adjustment valve)
②
VBD Model
◎ This method uses adjustment valves (valve and subplate) to regulate the oil pressure (or for forced
circulation).
The most desirable method is to attach a sub-plate to
the VB model and then use the bypass circuit created
from the piping as the relief valve. This should be used for
a full-amount bypass conducted over a long period of
time, regular use and to adjust the pressure.
Return
③
2VD Model
This relief vale is used in the same manner as the above ② , but it
can also be directly attached to the Trochoid pump 2HB model.
*When attaching the 2VD model, always be sure to also install a plate to block the suction side.
133.3
76.5
56.8
6
2-φ7key hole、φ11counterbore depth1
Return
26
2-φ7key hole、
φ11counterbore depth0.5
6
R1
φ22
φ30
6
Rc3/8
2-φ7
19
26
23
NOP
17
24
41
T
○Refer to the Nippon Oil Pump homepage for the most up-to-date diagrams.
■Internal Structure
Spring Spring Retaining Plate O-ring
Valve Unit
Valve
■Pressure Adjustment Method
(spring nut)
Hexagon Nut
Pressure
Adjustment Bolt
Cap
(pressure from
(to pump suction side)
pump discharge side)
O-ring
Packing
① Remove the cap.
② Loosen the hexagonal nut.
③ Turn the adjustment bolt to the right (to raise the
pressure setting) or to the left (to lower the pressure
setting).
④ Tighten the hexagonal nut to affix the adjustment
bolt.
⑤ Tighten the cap. (Be careful not to damage the
packing during this process.)
■Model
Spring No.
TOP - 2VB
3VB
4VBP
Refer to the specifications shown in the diagrams on pages 59 and 60.
No mark: Attached directly to the Trochoid pump
D: With a valve stand (for pipe attachment)
58
ReliefValves
■DimensionalDiagrams
○BesuretochecktheNipponOilPumphomepageforthemostt
u
o
p
datediagramsanddimensions.
Mo
de
l
：2
V
B
D
8.
5
1
39
13
0.5
23
.5
8
R
5
6
φ22
φ32
56
38
0.5
5
1
4
φ9
2
6
2
3
1L
2L
3L
4L
φ
φ
1.7
1.8
2.2
2.9
13
13
13
13
13.0
13.5
12.0
13.0
FreeLength
7
0
External
Diameter
34
18
2Rc
1/
2
Effective
No.ofTurns
Dimensions
External
Diameter
T
P
NO P
5
.
37
6
1
12
5
1.
7
O
-ri
ng
P
ack
in
g
Wire
Diameter
44
SpringNo.
1
3
54.0
60.5
57.5
54.5
Pressure
ApplicableParts
AdjustmentRange
CrackingPressure O-ring
Packing
MPa
P10A
0.08∼0.25
0.26∼0.50
0.51∼1.19
1.20∼2.50
No
Yes
Yes
No
Mo
de
l
：3
V
B
D
1
47(
14
7.8
)
14
1(1
41.
8)
23
4
8(4
8.
8)
76
58
54
38
4
8
O
-ri
ng
29
23
46
30
T
82
59
45
.5
24
10
P
φ４１
91
.5
SpringNo.
Dimensions
2Rc
3/
4
1L
2L
3L
4L
5L
6L
φ
φ
FreeLength
Pa
cki
ng
Effective
No.ofTurns
４φ９
1.8
2.0
2.6
2.5
3.0
3.2
14
14
14
14
14
14
7
7
12
10
9
11
52
52
55
60
54
51
Wire
Diameter
9
70
5
2
φ２２
φ３２
6
Pressure
ApplicableParts
AdjustmentRange
CrackingPressure O-ring
Packing
MPa
P10A
0.08∼0.25
0.26∼0.55
0.56∼1.30
1.31∼1.70
1.71∼2.49
2.50∼3.00
No
Yes
Yes
No
Model：4VBPD
４-φ１１
φ２２counterbore depth０．
５
101
2
R1
30.5
113
174
30.5
246
φ
φ
26
26
26
26
Free Length
3.5
4.0
4.0
5.0
Effective
No. of Turns
1L
2L
3L
4L
External
Diameter
Wire
Diameter
1
/4
2-Rc1 Dimensions
Spring No.
144
50
85
T
15
P
φ６５
30
59
78
50
32
Pressure
Adjustment Range
Cracking Pressure
MPa
10
8
7
5
65
65
65
60
0.15∼0.25
0.26∼0.55
0.50∼0.80
0.81∼2.00
60
Trochoid Pump Performance Table
◎The figures (averages) in the tables below are based on the use of ISO-VG46 oil with a temperature of 40C.
◎The oil temperature will drop during the colder winter months, resulting in increased oil viscosity. Therefore, it may be difficult to use the rated
pressure values shown below during colder periods as the amount of power required will increase proportional to the viscosity level.
61
1A Type Performance Table
Standard Specifications when Discharge Amount is 1,450min−1 (50Hz)
Required Power (W)
Specification Discharge Amount ( /min)
Pressure (MPa)
Pressure (MPa)
Model
0.1 0.2 0.3 0.4 0.5 0.1 0.2 0.3 0.4 0.5
64
60
55
50
45
TOP-10Ａ 1.24 1.23 1.23 1.22 1.21
74
68
62
57
51
11A 2.24 2.22 2.20 2.19 2.17
103
90
80
69
59
12A 3.71 3.70 3.68 3.67 3.63
137
120
104
88
72
13A 6.65 6.58 6.54 6.50 6.45
Required Power (W)
Pressure (MPa)
Pressure (MPa)
Model
0.1 0.2 0.3 0.4 0.5 0.1 0.2 0.3 0.4 0.5
79
73
66
60
54
TOP-10Ａ 1.51 1.50 1.49 1.48 1.46
90
83
75
68
61
11A 2.71 2.69 2.67 2.65 2.63
122
109
97
83
71
12A 4.50 4.47 4.45 4.42 4.40
167
146
126
108
88
13A 7.99 7.98 7.93 7.85 7.80
1HG Type Performance Table
Required Power (W)
Pressure (MPa)
Pressure (MPa)
Model
0.1 0.5 1.0 1.5 2.0 2.5 0.1 0.5 1.0 1.5 2.0 2.5
TOP-11HG 2.21 2.17 2.13 2.09 2.05 2.00 32 56
85 112 140 168
12HG 3.58 3.54 3.48 3.43 3.37 3.32 45 77 117 160 200 240
1HG Type Performance Table
Required Power (W)
Pressure (MPa)
Pressure (MPa)
Model
0.1 0.5 1.0 1.5 2.0 2.5 0.1 0.5 1.0 1.5 2.0 2.5
TOP-11HG 2.67 2.63 2.58 2.54 2.49 2.45 38 65
96 129 160 191
12HG 4.32 4.27 4.21 4.16 4.10 4.04 50 90 140 188 239 285
2HB Type Performance Table
Required Power (W)
Pressure (MPa)
Pressure (MPa)
Model
0.1 0.5 1.0 1.5 2.0 2.5 3.0 0.1 0.5 1.0 1.5 2.0 2.5 3.0
TOP-203HB 4.0 4.0 3.9 3.9 3.8 3.8 3.7 48 84 131 178 228 277 325
204HB 5.8 5.7 5.6 5.6 5.5 5.4 5.3 66 110 169 227 283 340 394
86 158 240 329 415 497
206HB 8.7 8.6 8.5 8.4 8.3 8.2
91 186 305 423 543 662
208HB 11.6 11.5 11.5 11.4 11.4 11.3
104 210 345 480 615 749
210HB 14.4 14.4 14.3 14.0 13.9 13.8
123 250 405 565 730
212HB 17.4 17.2 17.0 16.8 16.6
148 308 510 715
216HB 23.1 22.9 22.8 22.4
205 396 633
220HB 28.9 28.7 28.4
2HB Type Performance Table
Required Power (W)
Pressure (MPa)
Pressure (MPa)
形式
0.1 0.5 1.0 1.5 2.0 2.5 3.0 0.1 0.5 1.0 1.5 2.0 2.5 3.0
TOP-203HB 4.9 4.8 4.8 4.7 4.7 4.6 4.5 58 101 158 215 272 330 386
204HB 7.0 6.9 6.8 6.7 6.7 6.6 6.5 80 133 204 274 342 410 476
104 188 290 397 500 599
9.9
206HB 10.4 10.3 10.2 10.1 10
110 225 368 510 655 800
208HB 14.0 13.9 13.8 13.8 13.8 13.7
125 250 413 575 740 904
210HB 17.6 17.5 17.2 17.0 16.9 16.7
148 302 488 681 881
212HB 21.0 20.9 20.6 20.4 20.2
179 372 616 863
216HB 27.8 27.7 27.4 27.0
248 478 764
220HB 34.8 34.6 34.3
2.5HGA Type Performance Table
Required Power (W)
Pressure (MPa)
Pressure (MPa)
Model
0.1 0.5 1.0 1.5 2.0 2.5 0.1 0.5 1.0 1.5 2.0 2.5
TOP-2516HGA 23.8 23.4 22.9 22.3 21.7 21.1 150 353 587 822 1056 1299
2520HGA 28.9 28.7 28.4 28.1 27.8
200 450 732 1027 1313
2.5HGA Type Performance Table
Required Power (W)
Pressure (MPa)
Pressure (MPa)
Model
0.1 0.5 1.0 1.5 2.0 2.5 0.1 0.5 1.0 1.5 2.0 2.5
TOP-2516HGA 28.7 28.2 27.8 27.2 26.6 26.0 185 410 702 989 1267 1540
2520HGA 34.7 34.5 34.2 34.0 33.7
250 520 864 1211 1551
N3F Type Performance Table
Required Power (kw)
Pressure (MPa)
Pressure (MPa)
Model
0.1 0.5 1.0 1.5 2.0 2.5 0.1 0.5 1.0 1.5 2.0 2.5
0.45 0.78 1.20 1.60 2.02 2.22
TOP-N320F 37.2 36.9 36.5 36.1 35.7 35
N330F 55.5 54.9 54.0 53.2 52.3 51.5 0.64 1.12 1.72 2.31 2.91 3.52
N340F 74.6 73.9 73.0 72.1 71.2 68.5 0.80 1.45 2.25 3.10 3.90 4.72
N3F Type Performance Table
Required Power (kw)
Pressure (MPa)
Pressure (MPa)
Model
0.1 0.5 1.0 1.5 2.0 2.5 0.1 0.5 1.0 1.5 2.0 2.5
TOP-N320F 44.9 44.6 44.1 43.6 43.1 42.5 0.55 0.98 1.45 1.95 2.44 2.92
N330F 67.3 66.5 65.5 64.4 63.3 62.3 0.78 1.34 2.05 2.80 3.51 4.24
N340F 89.2 88.5 87.5 86.6 85.6 84.6 1.00 1.81 2.84 3.84 4.82 5.80
N3H Type Performance Table
Required Power (kw)
Pressure (MPa)
Pressure (MPa)
Model
0.1 0.5 1.0 1.5 2.0 3.0 4.0 0.1 0.5 1.0 1.5 2.0 3.0 4.0
TOP-N320H 37.2 36.9 36.5 36.2 35.7 34.9 33.5 0.45 0.78 1.20 1.60 2.02 2.83 3.64
N330H 55.5 55.1 54.3 53.2 52.2 50.6 49.0 0.64 1.12 1.72 2.31 2.91 4.10 5.30
0.80 1.45 2.25 3.10 3.90 5.50
N340H 74.6 73.9 73.0 72.1 71.2 69.5
1.00 1.77 2.78 3.79 4.74
N350H 92.1 91.2 90.0 88.8 87.6
N3H Type Performance Table
Required Power (kw)
Pressure (MPa)
Pressure (MPa)
Model
0.1 0.5 1.0 1.5 2.0 3.0 4.0 0.1 0.5 1.0 1.5 2.0 3.0 4.0
TOP-N320H 44.9 44.6 44.1 43.6 43.1 42.0 40.6 0.59 0.96 1.45 1.95 2.44 3.40 4.35
N330H 67.3 66.5 65.5 64.4 63.3 61.2 59.0 0.78 1.34 2.05 2.80 3.51 4.93 6.40
1.00 1.80 2.84 3.84 4.80 6.80
N340H 89.2 88.5 87.5 86.6 85.6 83.6
1.35 2.28 3.48 4.65 5.83
N350H 108.4 108.0 107.4 106.8 106.3
3V Type Performance Table
Required Power (kw)
Pressure (MPa)
Pressure (MPa)
Model
0.1 0.3 0.5 0.7 1.0
0.1 0.3 0.5 0.7 1.0
TOP-330V 56.2 55.6 55.4 54.9 54.2 1.01 1.26 1.52 1.76 2.14
1.29 1.62 1.95 2.29 2.79
340V 72.1 71.8 70.8 69.5 68
350V 93.2 91.3 89.4 87.6 84.8 1.57 1.98 2.41 2.83 3.49
3V Type Performance Table
Required Power (kw)
Pressure (MPa)
Pressure (MPa)
Model
0.1 0.3 0.5 0.7 1.0
0.1 0.3 0.5 0.7 1.0
66.7 66.3 65.6 1.30 1.60 1.90 2.20 2.65
67
TOP-330V 67.3
83.1 1.48 1.93 2.35 2.81 3.49
85
86.5
88
340V 88.4
350V 109.6 107.7 106.5 105.5 103.1 1.97 2.45 2.97 3.45 4.21
4AM Type Performance Table
Required Power (kw)
Pressure (MPa)
Pressure (MPa)
Model
0.1 0.5 1.0 1.5 2.0 0.1 0.5 1.0 1.5 2.0
TOP-4100AM 115 113 112 110 109 1.40 2.26 3.43 4.49 5.60
4130AM 150 149 148 147 145 1.84 2.90 4.27 5.66 6.92
4AM Type Performance Table
Required Power (kw)
Pressure (MPa)
Pressure (MPa)
Model
0.1 0.5 1.0 1.5 2.0 0.1 0.5 1.0 1.5 2.0
TOP-4100AM 137
135
133
132
130 1.78 2.83 4.19 5.52 6.83
4130AM 180
179
178
177
174 2.16 3.50 5.12 6.80 8.55
Standard Specifications when Discharge Amount is 960min−1 (50Hz)
Required Power (kw)
Pressure (MPa)
Pressure (MPa)
Model
0.2 0.4 0.6 0.8 1.0
0.2 0.4 0.6 0.8 1.0
TOP-4300A 328
326
324
321
319 3.37 4.51 5.66 6.80 7.95
4500A 546
542
538
534
530 5.60 7.50 9.40 11.30 13.20
Required Power (kw)
Pressure (MPa)
Pressure (MPa)
Model
0.2 0.4 0.6 0.8 1.0
0.2 0.4 0.6 0.8 1.0
TOP-4300A 397
394
391
388
385 4.07 5.44 6.83 8.21 9.60
4500A 659
654
650
645
640 6.76 9.06 11.35 13.65 15.95
GPL Type Performance Table
Standard Specifications when Discharge Amount is 960min−1 (50Hz)
Required Power (kw)
Pressure (MPa)
Pressure (MPa)
Model
0.1 0.5 1.0 1.5 2.0
0.1 0.5 1.0 1.5 2.0
121 1.05 2.03 3.38 4.61 5.98
127
135
141
147
GPL-150
170 1.21 2.53 4.27 5.89 7.42
174
178
184
190
200
207 1.62 3.04 5.03 6.93 8.92
217
225
236
245
250
GPL Type Performance Table
Required Power (kw)
Pressure (MPa)
Pressure (MPa)
Model
0.1 0.5 1.0 1.5 2.0
0.1 0.5 1.0 1.5 2.0
153 1.22 2.49 4.05 5.57 7.13
157
161
165
169
GPL-150
212 1.62 3.17 5.03 6.82 8.65
218
223
229
239
200
260 1.96 3.64 6.09 8.29 10.61
267
275
282
289
250
1RA Type Performance Table
Required Power (W)
Pressure (MPa)
Pressure (MPa)
Model
0.1 0.2 0.3 0.4 0.5 0.1 0.2 0.3 0.4 0.5
63
54
44
34
25
TOP-1RA-100 1.69 1.68 1.66 1.61 1.59
75
63
51
40
29
1RA-200 2.72 2.70 2.65 2.67 2.62
91
77
63
49
36
1RA-300 3.71 3.72 3.68 3.66 3.64
Required Power (W)
Pressure (MPa)
Pressure (MPa)
Model
0.1 0.2 0.3 0.4 0.5 0.1 0.2 0.3 0.4 0.5
68
58
47
37
28
TOP-1RA-100 2.10 2.03 2.02 2.01 2.01
84
71
58
45
32
1RA-200 3.29 3.28 3.25 3.23 3.19
110
94
77
61
45
1RA-300 4.51 4.50 4.49 4.45 4.33
Required Power (W)
Pressure (MPa)
Pressure (MPa)
Model
0.1 0.2 0.3 0.4 0.5 0.1 0.2 0.3 0.4 0.5
220
184
148
111
75
5.4
5.4
5.5
5.5
TOP-2RA-4C
5.6
270
228
185
143
2RA-8C 11.2 11.2 11.2 11.1 11.1 101
390
325
263
202
2RA-12C 16.4 16.3 16.3 16.3 16.2 138
Required Power (W)
Pressure (MPa)
Pressure (MPa)
Model
0.1 0.2 0.3 0.4 0.5
0.1 0.2 0.3 0.4 0.5
270
227
185
143
6.6 101
6.6
6.7
6.7
TOP-2RA-4C
6.7
334
281
230
177
2RA-8C 13.6 13.5 13.5 13.4 13.4 126
475
397
320
245
2RA-12C 19.7 19.6 19.6 19.5 19.5 170
3RD Type Performance Table
Required Power (W)
Pressure (MPa)
Pressure (MPa)
Model
0.1 0.2 0.3 0.4 0.5 0.1 0.2 0.3 0.4 0.5
650
550
450
350
TOP-3RD-10T 12.5 12.5 12.4 12.3 12.3 250
750
635
520
402
3RD-15T 19.3 19.2 18.8 18.7 18.7 285
830
703
580
460
3RD-20T 25.2 25.0 24.7 24.6 24.3 315
940
800
650
500
3RD-25T 32.1 32.0 32.0 31.9 31.8 345
906 1090
740
560
3RD-30T 38.1 38.0 37.8 37.8 37.7 395
3RD Type Performance Table
Required Power (W)
Pressure (MPa)
Pressure (MPa)
Model
0.1 0.2 0.3 0.4 0.5 0.1 0.2 0.3 0.4 0.5
673 793
553
433
TOP-3RD-10T 27.6 27.5 27.4 27.4 27.3 313
775 913
637
495
3RD-15T 35.7 35.6 35.2 35.1 35.0 355
856 1009
709
565
3RD-20T 42.8 42.6 42.3 42.1 41.8 391
973 1141
793
613
3RD-25T 51.0 51.0 51.0 50.9 50.8 427
901 1100 1321
685
3RD-30T 58.2 58.2 58.0 57.9 57.8 487
62
Trochoid Pump - List of Special Materials / Viscosity Table
■List of Special Materials
Item
Type
Oil Seal
Special Code
TOP-1A
TOP-1HG
TOP-2HB
TOP-N3H
TOP-4AM
Bearing
O-ring
Packing
-US
Silicon
Silicon
-VF
Viton
Viton
-VF
Viton
Viton
Standard
-US
Silicon
Silicon
Standard
Standard
Standard
-UT
Teflon
Teflon angle ring
Standard
Teflon sheet
Standard
-VF
Viton
Viton
Standard
Teflon sheet
Standard
-VH
Internal: Teflon
External: Viton
Teflon angle ring
C3
Teflon sheet
208∼220
Special rotor
-UT
Teflon
Teflon angle ring
Standard
Teflon sheet
Standard
-VF
Viton
Viton
Standard
Teflon sheet
Standard
-VH
Teflon
Viton
C3
Teflon sheet
Special rotor
-UT
Teflon
Viton G75x1
(Teflon angle ring
for others)
Standard
Standard
-VH
Teflon
Viton G75x1
(Teflon angle ring
for others)
6307C3×2
NA6908×1
Standard
Standard
Standard
Standard
○ VF
and VH specifications are not possible for Trochoid pumps with a motor, such as the 2MY and 2ME.
to page 64 for the numbers for each product.
○Viton is a registered trademark of Du Pont de Nemour.
○Teflon is a registered trademark of Du Pont de Nemour.
○Refer
■Viscosity Table
2,000
(VG)
1,000
The applicable range
for the Trochoid
pumps is shown in
the grey box.
500
400
300
200
100
0
40
15
32
50
3
0 8
10
6 46
68 5
75
22
15
Viscosity mm2/s
150
30
20
15
10
9
8
-40
-30
-20
-10
0
10
20
30
40
50
Temperature ℃
63
Rotor
Materials & Model Number
60
70
80
90 100 110 120
Seal Kit Specifications and List of Applicable Bearings
■Seal Kit Specifications
Oil Seal
Item
Type
○Nippon Oil Pump cannot be responsible for any products independently assembled or
dissembled by the customer.
○Clearly write the model and manufacturing numbers when placing orders.
○Bearings are not included in the seal kits and so must be ordered separately.
Model No.
Packing
Oil Ring
Qty
Model No.
Qty
JAS01033
1
S38
1
S42
1
TOP-1A
SC08227
1
TOP-1HG
TC12327
1
TOP-2HB
SC15357
2
S53
2
TOP-2.5HGA
SC19358
1
S65
1
TC25528
1
G90
1
G90
1
S60
1
G45
2
S67
1
G60
2
G115
1
142.47×3.53
1
G75
1
S65
2
N3FA
N3FB
N3H
TC25528
3V
TC254511
4AM
TC355511
4A
SC456812
GPL
TC355212
1
1
1
2
Model No.
Qty
−
−
−
−
Packing
1
Top Cover Packing
1
Packing
1
Top Cover Packing
−
−
Packing
1
−
−
−
P38
2
142.47×3.53
2
Flange Packing
2
G100
2
Packing
1
G145
1
P38
2
Flange Packing
2
G45
3
1
1
1RA
SC8227
1
38×1.5
2RA
TCV12. 45×30×9
1
−
Teflon Packing
1
3RD
TCV204011
1
−
Teflon Packing
1
−
−
■List of Applicable Bearings
Bearing
Item
Type
Model No.
Qty
6201
2
6202
1
6301
1
6201
1
TAF192720
2
N3FA
6205
2
N3FB
TA2225Z
1
6205
2
6305
1
TOP-1HG
TOP-2HB
TOP-2.5HGA
N3H
Bearing
Item
Type
4AM
4A
GPL
3RD
Model No.
Qty
6307
2
NA309
1
6309
2
N309
2
TR354830
4
6205
1
51104
1
64
Memo:
65

Trochoid Pump Catalog

Transcription

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