FIBROTOR® Electro-mechanical Indexing Table

Transcription

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FIBROTOR®
Electro-mechanical Indexing Table
FIBROTOR® EM.
FIBROTOR® EM.NC.
03_inhalt
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List of Contents
Page
FIBRO – The latest technology – with a tradition of service
4/5
FIBROTOR® Advantages
6
FIBROTOR® Construction features
7
FIBROTOR® EM. Drive principle
8
FIBROTOR® EM.NC. Drive principle
9
FIBROTOR® EM.NC. Holding brake and measuring systems
10
FIBROTOR® EM.
FIBROTOR® EM.NC.
Drive motors
Drive arrangements with bevel gear unit
Drive arrangements with parallel shaft gear unit
Additional assemblies
Accessories
Guidelines for drilling patterns
FIBROTOR® EM. with control card
FIBROTOR® EM. with frequency inverter
Electric control
Indexing accuracies
Principles of the service life calculation
Overload protection
11
12
13
14/15
16–19
20–21
22
23
24
26
27
28/29
30–73
30–33
34–37
38–41
42–49
50–53
54–57
58–61
62–65
66–69
70–73
Design drawings from the Internet
74
Determination of the moment of inertia
75
Type ordering sheet
76–78
Ordering code (example)
79
Application example
80
Product range
81
Representatives
82/83
1· 17984·2002·1
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Technical Data / Dimensions
EM.10 / EM.NC.10
EM.01 / EM.NC.01
EM.12 / EM.NC.12
EM.13 / EM.NC.13
EM.15 / EM.NC.15
EM.16 / EM.NC.16
EM.17 / EM.NC.17
EM.18 / EM.NC.18
EM.19 / EM.NC.19
EM.20 / EM.NC.20
18th edition
This edition supersedes all preceding catalogues. Subject to changes in the interest of technical improvement.
Right of modifications reserved
3
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Weibertreu
Castle at Weinsberg
Indexing tables
FIBRO works at Weinsberg
FIBRO – The latest technology – with a tradition of service
4
°
Indexing tables
From 1962 onwards FIBRO at Weinsberg pioneered the
design and manufacture of indexing tables and soon
gained an enviable reputation.
FIBROTAKT: indexing tables with face gear and ultrahigh-precision indexing, combined with dependable
rigidity. Drive options: pneumatic, hydraulic, electric.
Rotation by rack and pinion or worm drive. Manual or
NC control.
FIBROPLAN: indexing tables with worm drive and NC
indexing and drive, for circular milling and divisions of
any size.
FIBROTOR: revolving tables or indexing tables with
positive-drive cam, offering very short cycle times even
when transporting heavy loads. Suitable for automation
with short cycle times. Thousands of FIBRO units are in
use world-wide as integral key components in highoutput machinery.
Standard Parts
Today the Standard Parts division operates from
the Hassmersheim works which manufactures a
comprehensive range of standard parts and maintains
stocks ready for immediate despatch world-wide.
The machine tool, mechanical engineering and systems
engineering product range includes machine pillars,
guide rails, oilless guide elements and precision parts
such as cutting dies and die bushes, special steel
pressure springs, gas springs, forming materials, metal
bonding agents and moulding resins, accessories for
pressing and toolmaking, tool slides with cam or roller
drives and independent hydraulic drives.
FIBRO has become renowned world-wide for its
comprehensive range of products kept in stock and its
readiness to deliver.
0 · 17774 ·2002 ·1
The FIBRO of today started up in Weinsberg on a very
small scale back in 1958. Situated below the historic
Weibertreu Castle, the company made precision ground
round parts, the forerunners of today’s FIBRO Standard
Parts range for the toolmaking industry.
Progress was rapid and soon FIBRO needed new
production facilities. A new factory was built at
Hassmersheim on the River Neckar. Once again it was
a historic location, this time opposite Hornberg Castle.
subject to alterations
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Hornberg castle on the opposite side of
the river
Standard Parts
Automation+Robotics
The FIBRO Hassmersheim plant
Automation+Robotics
FIBRO has been active in the field of automation and
robotics since 1974 from the Hassmersheim works.
Modular construction based on translation units, rotary
units, grippers and guide gantries with trolleys make for
easy construction of individual machines and complete
systems, ranging from simple pick & place units right
through to multi-axis robots. These series-manufactured modules are available in several sizes for loads up
to 3.150 kg, traversing speeds up to 6.5 m/sec and
travel of up to 30 m. Module series with electric-motor,
hydraulic and pneumatic drive can be combined to suit
the specific requirements. The system has a track
record of success in many sectors of industry.
FIBRO: a company with a great history. FIBRO has
developed at a rapid pace in these fast-moving times
and will continue to demonstrate its proactive philosophy in the future.
FIBRO – precision technology for the toughest tasks.
More about FIBRO:
• 900 staff;
• 80 representatives and service stations world-wide;
• branch offices in France, USA, Singapore
and Switzerland.
0 · 17775 ·2002 ·1
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FIBRO is much in demand as a supplier to the
mechanical engineering and metalworking sectors.
This success is based largely on three factors: FIBRO’s
in-depth knowledge of the market, its commitment to
quality assurance in line with ISO 9001 and its flexible
and responsive organisational structure so typical of
medium-sized German companies.
subject to alterations
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Technical description
FIBROTOR® EM. and EM.NC.
http://www.fibro.com
FIBROTOR®-Strengths
• Service life
Lh10 = 16,000 h (up to
120 Million cycles)
Cam
rollers with slide
•
bearing
• Hardened and ground
barrel cam
• Axial needle bearing
with hardened race
• Long-term lubrication
FIBROTOR® EM.
FIBROTOR® EM.NC.
360°
Dwell phase
FIBROTOR®-Cam
Index phase
FIBROTOR®-Cam followers
• Slide bearing
• High stiffness
• Optimized crash characteristics
• No deflection of the outer rings
• Surface pressure between outer ring and bolt
• Higher capacity
• Longer lifetime
Collision
Example of how a needle bearing can result in failure
of a cam follower during a collision. Deflection of the
outer ring between the needles. This is avoided with
the FIBRO cam followers!
FIBROTOR®-Gear Unit
• No elastic drive elements tending to wear
• All drive elements run in a synthetic oil.
• Many attachment possibilities
°
FIBRO
axial needle bearing
FIBROTOR®-Bearing Advantages
• Large diameter needle bearing assembly
• Plastic cage allows maximum number of rollers
• High axial load capacity
• Hardened bearing races
• Pre-loaded tapered roller bearing
• Minimum centre-bore run-out and table top
wobble
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1.
Design features
1.1 Construction:
Typified by a rigid mechanical structure. The basic
unit comprises the housing, table top, bearing,
cam control system, drive motor with transmission and holding brake. Use in horizontal and
vertical attitudes is possible with many motor
arrangements. Additional assemblies are available
for system expansion.
The FIBROTOR© EM. can also be used as a built-in
indexing table and in vertical version.
1.2 Drive, control cam:
Drive is taken from the motor to the indexing
table via a spur gear transmission and control cam
system. The cam rollers are pre-tensioned against
the control cam on both sides.
1.3 Positioning system:
The table top is held without backlash in a precise
position by the control cam and cam roller.
A hydraulic table top clamping system can be
used when tangential forces are high (higher
stiffness, offloads the transmission components).
1.4 Bearing:
The table top is mounted in a generously
dimensioned bearing and pre-loaded both axially
and radially. The additional assembly “strengthened table top bearing” is available to cope with
large tilting moments, (e. g., when used as a
vertical indexing table) or in the case of tensile
forces on the table top (e.g. in installation
“upside-down”).
Table top
Housing
Bearing
Seal
1.5 Centre hole:
The FIBROTOR© is provided with a large, unobstructed centre hole. From size EM.12 on we
have an opening through the housing side for
energy supplies.
1.6 Direction of rotation:
The direction of rotation is optionally clockwise
(CW) or anti-clockwise (CCW). By direction
of rotation reversal of the drive motor the
indexing table can swing between the positions
(position detection required). There are
mechanical swing cams in special version
(swing angle max. 90°).
1.7 Lubrication:
Long-term lubrication by synthetic lubricants.
Ambient temperature 0° to 40°C.
1.8 Life Expectancy:
The concept is based on an operational lifespan
Lh 10 = 16,000 hours. Service life of motor brake
depending on brake system:
Standard brake motor: 10–20 million operating
cycles,
Special brake motor: more than 60 million
operating cycles, brake system is self-adjusting.
Mounting holes
Cam follower
°
Control cam
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FIBROTOR® EM.
2.
Drive principle
The design of the control cam ensures
smooth, jerk-free running even under high loads
(see ‘developed view of the control cam’).
The cam rollers are pre-tensioned against the
control cam on both sides.
Index phase
Dwell phase
This allows a backlash-free transition from standstill into motion, and vice versa. The indexing
time can be read of the load diagram against the
moment of inertia. The time taken for the control
cam to rotate breaks down into indexing and
dwell times in a predetermined ratio.
360°
Acceleration
Dwell phase
Index phase
Dwell phase
Speed
1
Movement
2
3
indexing div.
1 turn of control cam
Cycle time
1 angular step
Index motion:
Modified sine motion with constant velocity or
5th order polynomial according to VDI 2143.
The data for the indexing time (ts in s) refer to the
actual motion duration.
A division process goes from S12 to S12.
Index time ts
Start pulse
1
0
Drive motor “On”
1
0
Index table “turning”
1
0
S 10
„Index table stationary”
1
0
S 12
„Motor off“
1
0
t1
The length of the mechanical standstill phase is displayed with a position sign.
As from indexing division 16 there are several standstills on the circumference of the control cam.
t2t3t4t5 t6 t7
t8 t9 t10 t11
t12
In pendulum operation we recommend fitting
position detection.
°
Running sequence diagram
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FIBROTOR® EM.NC.
2.
Drive principle
Drive is taken from the motor to the table top via a
spur gear transmission and control cam system.
The cam rollers are pre-tensioned against the
control cam on both sides.
Positioning is under NC control with position
detection by rotary encoder. In the positioned
state the cam can be locked without backlash by
an electric brake. A hydraulic table top clamping
system can be used when tangential forces are
high (higher stiffness, offloads the transmission
components).
2.1 Functional sequence of an indexing motion
Prerequisites:
Table top in random position, electric brake
actuated (under voltage).
NC control: data input completed.
Electric brake de-energized.
Acceleration and indexing through positioning
motor, observe acceleration and deceleration
time! (NC controlled).
With the NC table at the required position, the
worm shaft is locked by the holding brake.
2.2 Drive Motors
Three-phase servo motors are fitted as standard
drive equipment. It is also possible to use DC or
hydraulic servo motors. For application with low
accuracy requirements it is possible to use threephase standard motors in conjunction with a
frequency inverter.
Index time ts
2.3 Reference point
The FIBROTOR® EM.NC has a fixed datum reference point to which the measuring system is
calibrated. Approach of the datum reference point
takes place via proximity switch. The switch serves
to reduce the speed of rotational motion; the
signal length extends over approx. 3 to 4°.
The switch is not actuated in the zero position.
Approach of the datum reference point can be
either clockwise (CW) or counter-clockwise (CCW)
rotation.
ta
n max
ta
1
0
1
0
Drive motor
Measuring system
1
0
Brake locked
Proximity switch
Datum reference point
signal of resolver
n max
n min
Rotational
speed of table top
n=0
ta
°
ta
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FIBROTOR® EM.NC.
2.4 Holding brake
The holding brake is energized to stop the worm
shaft.
Voltage: 24 V, DC
Datum reference point switch
Indirect
measuring system
Brake 24 V, DC
2.5 Measuring systems
Various versions and levels of accuracy of incremental or absolute rotary encoders are used as a
measuring system for recording the position of
the table top. The information is determined
according to the application and the NC control
used.
There are three possible measuring system
arrangements:
Indirect measurement (standard version)
The rotary encoder is located in the worm shaft
axis. The tolerances for the worm/roller gear unit
contribute to the measurement. For the levels
of accuracy which can be achieved, refer to data
sheets.
The centre hole remains free for energy supplies
and other uses.
Measuring system on motor
The measuring system is mounted directly on the
motor shaft, particularly for digital-servo-drives.
The precision and backlash of the reduction gear
are incorporated into the measured result. Only
in conjunction with mathematically accurate
reduction ratio.
°
FIBROTOR EM.NC. with direct measuring system
Direct measurement
The measuring system is installed on the table
top shaft. The accuracy of the measurement
largely depends on the accuracy of the measuring
system. The effects of errors, such as backlash in
the gearbox, are precluded. For applications
where demands for accuracy particularly high.
The measuring system is operated through the
centre hole. Not possible in conjunction with
centring flange.
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3.
Drive motors
Code number
Different drive motors are available
Field 3
for the optimum drive solution.
3.1
Three-phase brake motor
1
Standard drive form B 14.
Voltage:
230/400 V, DIN IEC 38,
Frequency:
50 Hz
Protective enclosure: IP 54
Brake:
230 V, AC
Special voltages and enhanced protective
enclosure on request.
Speed regulation possible in conjunction with
frequency inverter.
3.2
3.3
Three-phase motor with a clutch-brake
2
coupling unit
With high indexing frequency the drive motor
runs continuously. Indexing is achieved by a
combined clutch and braking unit installed
between drive motor and reduction gearbox.
A rapid switching electronics unit is used for
very high indexing frequency. Speed regulation
possible in conjunction with frequency inverter.
Three-phase squirrel-cage brake motor
3
(pole-changing, 2-speed)
makes it possible to restart the table, after an
emergency stop for instance, at creep speed.
The slow speed also facilitates setting-up work.
Voltage:
400 V, ∆ /YY
Frequency:
50 Hz,
Brake:
230 V, AC
3.4
DC-Servo motor
Used with special applications
(infinitely variable speed regulation).
4.
Type Series
Type
Type
Principal dimensions
Table top in mm
Installed height in mm
Centre hole in mm
Permissible add-on diam.
in mm
4
Code number
Field 3
3.5
Hydraulic motor
For especially compact drive solutions.
5
3.6
Pneumatic motor
For use in machines with pneumatic drive
or in explosion-proof areas.
6
3.7
AC-Servo motor
The highly dynamic positioning drive for
FIBROTOR EM.NC.
For the FIBROTOR EM for highest indexing
rate and large rotary speed range. Adapters
and couplings for practically all makes of
motor are available.
7
3.8
Special brake motor
8
The ideal drive for high indexing frequencies
and longer lifetime
Voltage:
230/400 V, DIN IEC 38,
Frequency:
50 Hz
Brake:
230 V, AC
For high indexing frequency (machine cycles)
and longer lifespan of the motor brake. Brake
system self-adjusting.
3.9
Special motor
Special version.
9
3.10 Without motor
prepared for subsequent fitting of a motor
0
EM.10
EM.01
EM.12
EM.13
EM.15
EM.16
EM.17
EM.18
EM.19
EM.20
EM.NC.10 EM.NC.01 EM.NC.12 EM.NC.13 EM.NC.15 EM.NC.16 EM.NC.17 EM.NC.18 EM.NC.19 EM.NC.20
100
100
10
160
100/125*
22*
220
150
35
280
175
35/70**
410
220
70
460
270
110
558
380
130
750
420
180
1000
580
180
1250
600
180
520
800
1000
1400
2000
2400
2800
3500
4500
5500
Load capacity data
Permissible transported load on:
horizontal table top in kg
100
vertical table top in kg
50
500
200
800
300
1000
400
1500
600
3000
800
5000
1000
6000
1200
7000
1250
8000
1250
Permissible mass moment of inertia J in kgm2 from transported load dependent upon indexing time ts seconds – see load diagram
°
* with T02 height 125 mm, centre hole eccentric (EM.01)
** T02–T05 35 mm, from T06 70 (EM.13)
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Technical Description
4.
Drive arrangements with bevel gear
Code number Field 4
FIBROTOR EM.10, EM.12, EM.13, EM.19, EM.20, EM.NC.10, EM.NC.19, EM.NC.20
A number of drive arrangements for optimum integration of the indexing table in the machine can be
achieved. The position of the terminal box can be determined for the positions 1–4 in the side view.
Gearbox, side – mounted left 1
Gearbox drive position 4
Motor mounting position 2
1 4 2
1 5 2
2
3
1
2
3
1
1 6 2
1 7 2
1
1
2
2
3
3
1 8 2
1 9 2
2
3
2
1
3
Gearbox, side – mounted right 2
2 4 2
1
1
2 5 2
3
2
1
3
2
2 6 2
2 7 2
1
1
2
2
3
2 9 2
3
°
2 8 2
1
12
3
2
1
3
2
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4.
Drive arrangements with parallel shaft gear unit
Code number Field 4
FIBROTOR EM.01, EM.13, EM.15, EM.16, EM.17, EM.18, EM.NC.01, EM.NC.12, EM.NC.13, EM.NC.15,
EM.NC.16, EM.NC.17, EM.NC.18
A number of drive arrangements for optimum integration of the indexing table in the machine can be
achieved. The position of the terminal box can be determined for the positions 1-4 in the side view.
Gearbox, side – mounted left 1
1 1 1
1 2 1
1 3 1
1
4
1
4
3
4
3
without gearbox
without motor
1 0 0
1 2 2
1 3 2
1
4
3
4
3
Gearbox, side – mounted right 2
2 2 1
2 1 1
2 3 1
1
4
1
4
3
4
3
without gearbox
without motor
2 0 0
2 2 2
2 3 2
1
4
3
°
4
3
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5.
Additional assemblies EM. and EM.NC
D3
D2
H2
Code number
H2
D5
D4
5.1 Strengthened table top bearing
Field 6
To absorb high tilting moments, e. g., when
1
installed with table top vertical. The table
top is pre-tensioned without backlash against
the housing by a second axial needle roller
bearing cage.
5.2 Table top lock
Field 6
When the indexing table is positioned,
2
it is positively locked to the housing with
no backlash by an hydraulically actuated
clamping disc. This allows high tangential
loads; the transmission components are offloaded. Clamping pressure is 64 bar.
A hydraulic assembly and/or pneumatichydraulic clamping unit is available as an
accessory.
Clamping time approx. 0.4 s
Release time
approx. 0.2 s
5.3 Built-in version
The FIBROTOR® is also available as
a built-in indexing table.
H7
D7
D6
H1
H6
Housing is secured from below directly
to the machine (not with EM.01).
Seal provided at machine table.
Housing is secured with the adapter ring.
Suitable for installation from above or
below.
Field 7
1
2
5.4 Vertical version
The FIBROTOR® can be equipped for
vertical operation (not in combination
with built-in version)
H3
Housing is secured from below directly
to the machine table.
3
4
°
Secured with base plate.
Field 7
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Code number
5.5 Centring ring
The centring ring can be used to mount an
additional table top.
D1
D8
D9
D10
D11
Field 8
1
M
H1
5.7 Centring ring and centring flange
H4
H5
5.6 Centring flange
Field 8
The centring flange is used for mounting
2
a “stationary upper table top”. Drilling pattern
in centring flange corresponds to standard
flange. Special heights possible (H5).
Field 8
3
°
5.8 Modified dimensions due to additional assemblies
Size
10
01
12
15
16
17
18
19
20
Strengthened
table top bearing
D2 Table top mm
D3 Housing
mm
H2 Overall height mm
13
T06 T06
100
118
200
115
190
260
150
250
320
175
380
450
220
394
500
270
446
600
380
660
800
420
930
1060
520
1150
1320
600
118
200
115
220
280
150
280
340
175
410
480
220
440
530
270
548
635
380
735
840
420
1000
1100
520
1220
1360
600
160
220
100
12/18
220
520
150
20/30
280
520
175
20/35
410
660
220
24/41
460
800
270
26/45
558
1000
380
30/52
750
1300
420
30/57
1000
1550
520
35/60
1250
2000
600
45/67
122
175
220
290
340
430
525
650
780
265
310k6/7
265
310k6/7
265
310k6/7
Table top lock
D4 Table top mm
D5 Housing
mm
H2 Overall height mm
100
100
100
Built-in version
D6 Table top mm 100
D7 Adapter ring mm 180
H1 Overall height mm 100
H6/H7
mm 15/25
Vertical version
H3 Centre height mm
Centre ring
D10
D8/H4
81
mm
36
mm 50k6/5
61
82
80k6/4,4 120k6/6
82
120k6/6
125
170k6/6
125
170k6/6
192
235
230k6/6 280k6/8
°
Centring flange
D11
mm 10+0,1 22,1+0,1 36+0,1 36+0,1 70,2+0,6 70,2+0,6 110,5+1 130+1 180+1 180+1 180+1
D9/H5
mm 45k6/28 76k6/16 100k6/25 100k6/25 150k6/25 150k6/25 220k6/40 270k6/32 300k6/32 300k6/50 300k6/50
Tilting moment M in Nm 100
200
600
1000
1000
1800
2500
3000
3500
4000
4000
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6.
Accessories for EM. and EM.NC.
6.1 Additional table top
To suit the individual sizes additional table tops
up to 2800 mm are available.
Material: Steel; for weight reduction grey cast
iron or aluminium.
6.2 Stationary upper table top
To mount or support fixtures or machining units
from 160 mm up to 1250 mm.
6.3 Stationary lower table top
The stationary lower table top is mounted
on the machine stand.
Available up to 2800 mm.
6.4 Seal for additional table top / stationary upper
table top
If there is a 1 mm gap (H6–H3) a seal can be
added between the additional and stationary
upper table tops.
°
FIBROTOR® with centring ring
Additional table top ∅ 740 × 23 mm of aluminium.
Machine stand 1000 × 1100 × 537 mm
Segments for the adaptation of assembly units.
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6.5 Machine columns
Machine columns are available in different variants and sizes.
Special versions and machined finishes can be supplied to customer specifications.
Preferred range: D4 = 600 / 800 / 1100 / 1400 mm
Variant I – Standard
Machine column,
Welded construction, consisting of:
Base ring, spacer profiles, table top.
D1 = D4 fixing holes and thread in base ring.
Fixed overall height.
End face machined at the top.
Variant I – Standard
Machine column, with levelling elements
Base ring, spacer profiles, table top.
D1 = D4 levelling elements bolted to base ring.
Overall height 20mm, adjustable.
End face machined at the top.
D1
D1
D4
D4
Variant II
Machine column,
Base ring, spacer profiles, mounting ring.
Mounting ring machined at the top.
Fixing holes and thread in base ring.
Fixed overall height.
Lower table top, machined on all sides, bolted
and pinned to machine column.
Variant II
Machine column, with levelling elements
Base ring, spacer profiles, mounting ring.
Mounting ring machined at the top.
Levelling elements bolted to base ring.
Overall height 20 mm, adjustable.
Lower table top, machined on all sides, bolted
and pinned to machine column.
D1
D1
D4
D4
°
1· 17998·2002·1
17
17
15.07.2003
14:31 Uhr
Seite 3
7.
Additional and stationary table tops
At FIBRO, we keep circular blanks in stock enabling us to guarantee short delivery times for special
stationary and additional table tops.
Material:
Dimensions
160 15
200 15
250 15
320 20
400 20
500 20
630 20
700 25
800 22
800 25
1000 22
1000 25
1250 25
Aluminium, AlMg4,5Mn W28/F27, drawn
Weight
0,84 kg
1,32 kg
2,06 kg
4,50 kg
7,04 kg
11,00 kg
17,14 kg
26,46 kg
30,41 kg
34,56 kg
47,52 kg
54,00 kg
84,37 kg
Moment of inertia
0,003 kgm2
0,007 kgm2
0,016 kgm2
0,058 kgm2
0,141 kgm2
0,344 kgm2
0,85 kgm2
1,62 kgm2
2,43 kgm2
2,47 kgm2
5,94 kgm2
6,75 kgm2
16,50 kgm2
The additional table top respectively the stationary table top is bolted and pinned to the indexing table.
The surfaces of both additional table tops and stationary table tops are precision turned.
Surface treatment available upon request (additional cost): Natural anodised finish EV 1
(0.017–0.020 mm), not pickled.
Drilling patterns and other machined finishes can be supplied to customers’ drawings using high-precision
NC rotary tables and jig drilling machines.
Accuracies:
Concentricity of centring hole
Type
Concentricity
without
centring ring
EM.10/EM.NC.10
EM.01/EM.NC.01
EM.12/EM.NC.12
EM.13/EM.NC.13
EM.13/EM.NC.13
EM.15/EM.NC.15
EM.16/EM.NC.16
EM.17/EM.NC.17
EM.18/EM.NC.18
EM.19/EM.NC.19
EM.20/EM.NC.20
0,02
0,01
0,01
0,01
0,01
0,015
0,015
0,02
0,02
0,02
0,02
40
75
110
110
150
150
220
260
300
300
300
Concentricity
centring ring
Totalconcentricity
Concentricity
additional
table top
0,02
0,02
0,02
0,02
0,02
0,02
0,02
0,02
0,02
0,02
0,02
0,04
0,03
0,03
0,03
0,03
0,035
0,035
0,04
0,04
0,04
0,04
0,05
0,04
0,04
0,04
0,04
0,05
0,05
0,06
0,06
0,06
0,06
Run-out:
Lower table top
18
0,01/100 mm
0,02/100 mm
°
Upper table top
Additional table top
1· 17999·2002·1
18
0,02/100 mm
14:31 Uhr
Seite 2
H3
H6
D1
D2
D3
H1
H5
X
H2
15.07.2003
H4
Item X
Seal option
> ø392
1
7
6
5
11
8 +0,3
D4
°
Size
10 01 12 13
Additional table top D 2 × H 2
∅ 160 × 15
●
∅ 200 × 15
● ●
∅ 250 × 15
● ●
∅ 320 × 15
● ● ●
∅ 400 × 15
● ● ● ●
∅ 500 × 20
● ● ●
∅ 630 × 20
● ● ●
∅ 700 × 25
● ● ●
∅ 800 × 22
● ●
∅ 800 × 25
● ●
∅1000 × 22
●
∅1250 × 25
●
∅1400 × 30
∅1600 × 30
∅1800 × 30
∅2000 × 35
15 16 17 18 19 20
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
Size
10 01 12 13 15 16
Stationary upper table top D 3 × H 3
∅ 160 × 20
● ● ● ● ●
∅ 200 × 20
● ● ● ● ●
∅ 250 × 20
● ● ● ● ●
∅ 320 × 25
● ● ● ● ●
∅ 400 × 25
● ● ● ●
∅ 500 × 30
● ● ●
∅ 630 × 30
● ●
∅ 800 × 30
● ●
∅1000 × 30
●
∅1250 × 30
●
●
●
●
●
●
●
●
17 18 19 20
●
●
●
●
●
●
●
● ●
● ● ●
● ● ●
Machine column
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
17 18 19 20
●
●
●
●
●
●
●
●
Size
10 01 12 13 15 16
Stationary lower table top D 1 × H 1/D 4
∅ 800×25/∅ 600 ● ● ● ● ●
∅1000×30/∅ 600 ● ● ● ● ● ●
∅1250×30/∅ 800 ● ● ● ● ● ●
∅1400×30/∅ 800 ● ● ● ● ● ●
∅1600×35/∅1100
● ● ● ● ●
∅1800×35/∅1100
● ● ●
∅2000×40/∅1400
● ●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
Size
Machine column
Stand. height H 4
Min. height
Stand. height H 5
Min. height
10 01 12 13 15 16 17 18 19 20
800
320
100
0
800
320
100
0
800
320
150
0
800
400
175
0
800
500
220
0
800
600
270
0
800
650
380
0
800
800
420
0
800
800
520
0
800
800
600
0
Reinforced machine column on request.
Height H 6 to customer’s specification.
In case of supplementary seal between upper table top
and additional table top H 6 = H 3 + 1 mm.
°
Subject to confirming load details!
1· 18000·2002·1
19
Special versions on request.
19
15.07.2003
14:33 Uhr
Seite 3
8.
Guidelines for drilling patterns in additional and stationary table tops
The fit and thread depths should be as short as possible in order to avoid unnecessary costs.
Core holes can be drilled right through the additional and lower table top.
The holes in the upper table top should be blind holes. FIBRO provides suitable shipping threads in the
additional and stationary table tops.
General recommendation:
Fit length = 2 nominal diameter, thread length = 2 thread diameter!
Type B
Hole
in exceptional cases only
Type A
Type B
Type C
ød
ød
ød
H
H
H
ø0,4
ø0,4
t
t
ø0,4
°
5,5
M5
d/t
Use
6,6
M6
9
M8
11
M 10
13,5
M 12
17,5
M 16
22
M 20
26
M 24
33
M 30
Type S Countersink
DIN 74 – KM countersink
for DIN 912 cheese head screws
Type A
Type B
ød 1
ød 2
H
H
ø0,4
ø0,4
S
S
ø0,4
ø0,4
ød 1
10/5,7/5,5 11/6,6/6,6 15/9/9 18/11/11
M5
M6
M8
M 10
°
20/13/13,5
M 12
26/17,5/17,5
M 16
1· 18001·2002·1
°
d1/t/d2
Use
H
H
ød 2
t +0,4
t +0,4
20
20
15.07.2003
14:33 Uhr
Seite 2
Type P Fitting hole
Standard: Depth t = 2 d
Type A
Type B
ød
ød
S
S
S
Type C
for H12
ø0,1
t
1x45°
1x45°
for H7/F7
ø0,04
t
1x45°
S
ø0,04
for H7/F7
ø0,04
S
for H12
ø0,1
S
ød
Type D
Type E
ød
max. fit length
Diameter (d)
Depth (t)
ø0,04
4 – 7,7
7,8 – 9,7
9,8 – 11,7
11,8 – 13,7
13,8 – 15,7
15,8 – 19,7
19,8 or more
14 mm
27 mm
30 mm
38 mm
45 mm
53 mm
60 mm
S
S
t
1x45°
t
1x45°
ø0,04
S
S
ød
Type G Thread
Standard: Depth (t1) = 2 M
Type A
Type B
M
M
Type C
ø0,4
t1
t1
ø0,4
ø0,4
M
Type D
Type E
M
t1
t2
t2
t1
ø0,4
ø0,4
max. thread depth
M
Depth (t1)
M4
M5
M6
M8
M10
M12
M16
M20
M24
10 mm
12 mm
15 mm
20 mm
25 mm
28 mm
35 mm
40 mm
48 mm
°
M
1· 18002·2002·1
21
d/t1/t2
M4/8/12
M5/10/13 M6/12/17 M8/16/22 M10/18/25
M12/20/28
M16/24/33
M20/30/41
M24/36/48
°
21
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14:31 Uhr
Seite 3
Electric control
FIBROTOR® EM.
(Three-phase brake motor drive)
Description of system
Control line and power supply
protective
motor switch,
active power
meter
9.
FIBROTOR® with Control Card
The significant characteristics of the control card are:
• functional sequences monitored and controlled by
microprocessor
• fast indexing time
• digital processing and monitoring of signals
• absence of timing squeezes
• fully independent sequence of functions
• no time delays through external cycle times
• improved brake function and life
• LED-display of faults as well as fault monitoring
• composite signal image display by LED’s
• selection of functions by way of card programming
• signal gating into machine tool controls via floating relay output
with positive contact control.
Through permanent surveillance of signals and control functions,
a large measure of operational reliability is achieved.
System voltage: 24 V, DC
Characteristic features at a glance
power
contactor
– mechanical
– electronic
Case
Phoenix case
• Attachable to any DIN mounting rail
• Plug adapter terminals
• Size – width length height – 130 178 50
• IP20 enclosure
Connection Inputs
• -S10 table top at standstill
(pendulum position 0)
• -S11 pendulum position 1
• -S12 motor OFF
• Start CW rotation
• Start CCW rotation
• Brake release
• Stop
• Reset
• Two-hand operation
Initiators
“motor OFF”
“table top in
position”
Outputs
• CW rotation
• CCW rotation
• Rapid
• Slow
• Brake
• Fault
• Enable – S10
• Enable – S11
Programme Variants for three-phase brake motors
• CW rotation
• CCW rotation
• Pendulum motion
• Pole-changing motor
• Two-hand operation
•
•
FSK-B024/1 for brake voltage 24 V, DC
FSK-B230/1 for brake voltage 230 V, AC
°
Variants
1· 18003·2002·1
22
22
14:32 Uhr
Seite 2
Electric control
FIBROTOR® EM.
10. FIBROTOR with frequency inverter and indexing table software
All essential properties and functions of uncomplicated and
economic indexing table control are united in the frequency
inverter. It can be put into operation and operated very simply.
• soft start, even after emergency stop
• rapid speed – creep speed
• optimization of indexing times
• monitoring of three-phase brake motor
• no wear of brake, acceleration and deceleration of motor via
frequency inverter
• external selection of direction of rotation “CW or CCW rotation”
The frequency inverter allows the indexing time to be steplessly
varied in the range 1 : 6. Limited to the shortest indexing time
due to equipment loading in accordance with the load diagram.
In addition, a soft restart can be achieved after Emergency Stop
action.
Characteristic features at a glance
Compact
Compact unit
• Integrated brake chopper
• Braking resistor can be integrated (optional)
• Integrated EMC line filter class B at 230 V,
class A at 400 V (EN 55011)
• Design with IP20 enclosure / NEMA
Simple
Simple operation and start-up
• Extremely short start-up time
• Automatic motor adaptation with standard
V/f control process
• Integrated operating device with menu structure
• Easy parameter setting and diagnostics using
PC software
• Reduced wiring
• Connection of initiators directly at frequency
inverter
Right for the job Functions appropriate for the application
• High overload capacity
125 % IN continuous duty
150 % IN for maximum 60 seconds
180% breakaway torque maximum
• Integrated PI controller
• Extended temperature range –10°C to +50°C
• Integrated protection and monitoring functions
(short circuit, ground fault)
FIBRO indexing table software
System bus
The system bus is available as standard. It permits
up to 64 frequency inverters to be networked as
slaves with a PC or a PLC.
Options
•
•
•
•
•
•
•
°
Software
Description of system
1 x 200 ... 240 V, AC 50/60 Hz
3 x 360 ... 500 V, AC 50/60 Hz
operating software
frequency
inverter
interface adapter
braking resistor
optional
machine control
15.07.2003
1· 18004·2002·1
23
output choke
(optional)
Initiators
“motor OFF”
“table top in
position“
Braking resistor (necessary for intermittent duty)
Parameter memory module
Interface RS 232 in RS 485
Interface Profibus
Device Net/Interbus
Mains choke (to support the excess voltage
protection)
Output choke (for suppressing the interference
emission of the unshielded motor cable)
23
15.07.2003
14:32 Uhr
Seite 3
Electric control
FIBROTOR® EM. and FIBROTOR® EM.NC.
FIBROTOR® EM.
11.1 Complete control with switch cabinet
Control card and motor supply devices are
completely housed in a switch cabinet with
outside controls. Plug-and-socket connectors
are provided for inputs and outputs.
11.2 Drive protection
For the protection of the mechanical drive
system, a protective device that measures motor
current all the time, can be integrated into the
controls; as soon as the preset current value is
exceeded – for instance through jammed parts
or blocking of the table top - the motor is
switched off at once and a “FAULT”-signal is
emitted. The response sensitivity is adjustable.
Voltage:
400 V, 3 AC IEC 38
Frequency: 50–60 Hz
Special voltages on request.
11.3 Position detection
Position detection (BCD code) can be added for
obtaining specific positions.
FIBROTOR® EM.NC.
12. NC single-axis control
Programmable rotary table CNC-positioning
control. Easy programming and convenient
operation with menu-assisted sequences.
• Complete control in the table housing
• For AC servomotors up to 16 Nm
• Menu-assisted operation
• Simple entry of indexing division, angle,
segments and absolute positions
• Automatic sequence of clamping and brake
release
• Options:
• – Connection of a hand-wheel
• – serial interface RS 232
• Design alternatives
Operating modes:
• Reference traversing
• Automatic
• Programme input
• Manual traversing
• Parameter input
Features:
• Function-orientated operator´s panel
• Membrane keyboard
• LCD plain text display
• Multilingual operator communication
• Fault report in plain text
• Input angle 0,01°
• Division 1–999
• 180 programme blocks
• 1–90 programmes
• Free programming of divisions and paths in
absolute and incremental dimension within
a programme
• Storage of all data safeguarded against power
failure
36000 inc./360°
• Resolution
• Sin2-function
• Software traversing limit
• Programmable speeds
• Pluggable inputs and outputs
Options:
• Memory extension to 760 programme blocks
• RS-232 interface with menu-assisted PC
programme for archiving programmes
• BCD-interface for programme selection
• BCD-interface for external position requirement
Variants:
NC 651.CDS 22.81.LC (230 V),
max. motor moment 5 Nm
NC 651.CPS 20.81.LC (400 V),
max. motor moment 16 Nm
°
11.4 Safety limit switch for overtravel protection
When there is pendulum operation between
positions with reversal of the direction of
rotation of the motor, mechanical switches can
be used to regulate overtravel past the limit
positions.
1· 18005·2002·1
24
24
15.07.2003
14:33 Uhr
Seite 2
FIBROTOR® EM. and
FIBROTOR® EM.NC.
°
13. The FIBROTOR® electro-mechanical indexing
table is used as:
• an assembly table
• a welding table
• a rotary storage table
• for non-cutting forming
• for rotary transfer and feeding tasks
• as a stepping drive
• to drive indexing conveyor belts
• for light metal-cutting jobs
• in de-burring machines
• in honing machines
• in screen and tampon printing equipment
• for the manufacture of CDs and DVDs.
1· 18006·2002·1
25
25
15.07.2003
14:32 Uhr
Seite 3
14. Indexing accuracies
Seconds of arc, length of arc
IB
(
IB =
a
α⋅d
413 000
(
d
α = 413 000 ⋅ IB
d
(
IB = Length of arc in mm
α = Seconds of arc
d = Circle diameter in mm
±10”
Indexing
accuracy
in s
±15”
±20”
±25”
±30”
±35”
±45”
2000
1800
1600
1400
1200
1000
mm ø
800
630
500
320
160
±25
±50
±75
±100
±125
±150
±175
±200
±225
26
°
Radian measure
µm
1· 18007·2002·1
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15.07.2003
14:29 Uhr
Seite 2
Principles of the service life
calculation
15.
Principles of the service life calculation
The service life is defined as the period in hours
that elapses before peeling occurs over a
predefined area. The service life of a correctly
installed electromechanical rotary indexing table
normally elapses once an alternating stress has
caused peeling or chipping over a certain area
on a roller or slider segment.
The fatigue of materials is a statistical phenomenon, so it is not possible to predict the service
life of an individual rotary indexing table.
A number of apparently identical rotary indexing
tables can achieve a broad spread of values
under test conditions.
15.1 Calculated service life Lh10
The calculated service life Lh10 is the service life
that is achieved or exceeded by 90 % of a group
of apparently identical rotary indexing tables
before the degree of damage due to fatigue
reaches a certain magnitude.
The design of this table is based on a service life
of Lh10 = 16 000 hours.
15.2 Service life in practice
Electromechanical rotary indexing tables have
been used in production since 1969. The service
life is regularly tested. Examinations of service
life are available for all table sizes. Since 1998 an
electromechanical rotary indexing table
FIBROTOR® EM.13.0280.8.132.06.0.0.0 has
been subjected to endurance testing at
maximum loading, operating continuously for
more than 35 000 hours up till now
(corresponding to more than 83 000 000
operating cycles). No evidence of wear could be
identified when checking the drive elements on
a regular basis.
In 1999 a FIBROTOR® rotary indexing table was
examined for signs of wear and overhauled.
Prior to this overhaul, this rotary indexing table
had been running in 3 shifts in the automobile
production since 1982. All drive elements had
been still in proper working conditions.
15.3 Service life of motor brakes
The service life of motor brakes depends on the
number of operating cycles per minute, the
indexing time of the rotary indexing table, the
motor speed and the ambient temperature.
Standard brake motor
(box 3, reference numeral 1)
Service life of the motor brake: 10–20 million
operating cycles, adjustment after 3–5 million
operating cycles (see Operating Instructions).
Special brake motor
(box 3, reference numeral 8)
Service life of the motor brake: 40–60 million
operating cycles, brake system is self-adjusting.
15.4 Lubricants
The lubricants are designed for a service
life of 16 000 operating hours (see Operating
Instructions).
10%
32.000h
48.000h
64.000h 80.000h
°
16.000h
15.5 Emergency stop operation
Frequent use of emergency stop may result in
reduced service life. For smooth start after
emergency stop we recommend the use of
pole-changing multi-speed motors, smooth
start units or frequency inverters.
Inching is not permissible at maximum mass
moment of inertia.
1· 18008·2002·1
27
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15.07.2003
14:34 Uhr
Seite 3
Protection against Overloads
16.
16.1 Permissible loading of the table top
To achieve perfect and lasting function of the
indexing table, the loads or mass moments of
inertia of the fitted jig plates, holders, etc. must
not exceed the permissible values in the
indexing time tables.
16.3 Unwanted operating modes
The permissible mass moments of inertia for the
FIBROTOR electro-mechanical indexing table
result from acceleration and friction torques as
well as from external forces (e. g. transport load
torques in vertical use). The drive elements of the
indexing table are subjected to higher loads in
the following operating states that deviate from
normal operation.
• Inching mode
Inching mode in the nominal speed of the
drive motor is not permitted.
If inching is required, a pole-changing motor
or a frequency inverter must be used. The
indexing table must be operated basically at
slow speed in the inching mode. If it is
operated in inching mode, then this means
that at every motor stop and restart in the
region of the indexing phase of the control
cam the drive elements are clearly higher
loaded. The load depends on the braking and
nominal torque of the motor, the position of
the control cam (transmission angle), the
mass moments of inertia on the drive and
power take-off and the efficiency of the
transmission gear.
• Emergency stop
In an emergency stop the indexing table is
braked between 2 stations, this results in an
acceleration step change. The drive elements
are subjected to higher loads on braking and
restarting, as in the inching mode. Frequent
emergency stops can reduce the life. A soft
start after an emergency stop can be achieved
by using pole-changing motors, soft starters or
frequency inverters.
• Collision
In a collision of the indexing table the drive
elements are extremely loaded. The level of
the kinetic energy of the system and the still
possible deceleration distance due to elastic
deformation determine the forces that can
lead to damage of the drive elements.
• Overload
An overload exists if the dynamic forces due to
a too large moment of inertia, transport load
torque, tilting or friction torque or too high
speeds lie above the application determined
in project planning.
• Stop outside the dwell phase
Faulty setting of the limit switches, an
overload or brake wear can lead to the
indexing table not coming to rest in the region
of the home position (dwell phase) in the
intermittent mode. The drive elements are
subjected to higher loads on braking and
restarting, as in the inching mode.
°
16.2 Protection of the drive elements against
damage
The attachments, jigs and units must be
designed or monitored so that blockage during
indexing is excluded. The drive elements can be
damaged on blockage or collision of the table
top. If the table top comes to a standstill
between 2 stations because of a fault, e. g. due
to a power failure, then the table top may be
brought into its home position only by using the
drive. The cam gearing is self-locking in the
region of the end positions, therefore the
movement of the table top is possible only by
using the drive. If an inadmissible tangential
moment is applied to the table top while the
indexing table is at standstill, this leads to
damage to the drive elements.
In normal operation of the indexing table
(starting from the home position) the built-up
mass moment of inertia is gently accelerated
and decelerated by the cam drive. In the case
of an emergency stop (the indexing table is
stopped in the indexing phase by the motor
brake and accelerated again by the three-phase
motor) there is an acceleration step change.
This leads to a larger load on the drive elements
and thus to a reduction of their life.
We suggest the following measures to reduce
these torque peaks:
• Lengthening the indexing time or reducing the
mass moment of inertia.
• Soft start and slow speed with frequency
inverter
• Optimally adapted braking torque on the
motor
• Use of a pole-changing motor, so that the
table top can be driven in slow speed from
the emergency stop position into the home
position
1· 18009·2002·1
28
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15.07.2003
14:33 Uhr
Seite 2
16.4 Consequences of unwanted operating states
Overloading the indexing table leads to a
shortened life, a fatigue fracture or a force
fracture of the drive elements.
16.5 Reduction of life
The increased loads on the drive elements
(gearing, control cam and cam rollers) must be
taken into account in calculating their life. The
number of the emergency stop operations and
the level of the forces occurring influence the
life.
A life of Lh10 = 16 000 h results at an emergency
stop rate of up to 3 shutdowns per shift.
With 100 emergency stop shutdowns per shift
the statistical life Lh10 is reduced to 5 600 h.
These high shutdown rates can occur during
start-up in the inching mode.
In the case of overload or shorter indexing time
compared with the permissible load data, the
life is reduced according to the formula
10
Lh10 = (c/p) 3 .
Doubling the mass moment of inertia reduces
the life by 90 %.
max. output torque
200%
16.6 Destruction of the drive elements
Collisions cause higher loads and can lead to
failure due to force or residual force fracture.
The extent of damage depends on the load
occurring. A single collision can stress the drive
elements beyond the breaking strength limit and
lead to a force fracture or to incipient cracking
with later residual force fracture.
16.7 Emergency stop with the FIBROTOR® EM.NC.
To avoid mechanical overloads of the indexing
table, the acceleration time ta (see “Technical
data”) must not be too low even in emergency
stop. There are 4 emergency stop operating
modes.
Deceleration of the AC servomotor on the NC
control. The motor brakes the built-up masses in
the predetermined acceleration time ta.
Deceleration time acceleration time ta
Coasting of the AC servomotor (without its own
motor brake) after switching off the NC control.
The run-on of the indexing table depends on the
built-up moment of inertia, the speed and the
efficiency of the indexing table.
Emergency stop with motor brake. In this case
the determined motor torque must not be
exceeded by the braking torque.
Decelerating the AC servomotor by the peak
current. In this mode the maximum permissible
peak current must be checked.
100%
50%
560
1600
5600
16000 56000 160000
Life Lh in h
Life at max. 3 emergency
stop operations/shift
°
Life at max. 100 emergency
stop operations/shift
1· 18010·2002·1
29
29
15.07.2003
14:32 Uhr
Seite 3
Technical Data
EM.10 and EM.NC.10
1. Type designation
FIBROTOR EM.
FIBROTOR EM.NC.
Field 1
EM
EM.NC
fixed indexing division
NC version
Size
Size
EM.10
EM.NC.10
Standard dimension
Strengthened table top bearing
Table top lock
Built-in version
0100 mm
0100 mm
0100 mm
0100 mm
.0100
.0100
.0100
.0100
Brake motor, pole-changing
Hydraulic motor
Pneumatic motor
AC-Servo motor
Special brake motor
Special version
without motor
1
3
5
6
7
8
9
0
2. Table top
Field 2
Table top dimensions – see page 15
3. Drive motor
Field 3
.1
.3
.5
.6
.7
.8
.9
.0
4. Drive arrangement
Field 4
see page 12–13
.XXX
5. Indexing divisions
Division 2, 3, 4, 5, 6, 8, 10, 12, 16, 24
NC version
Field 5
EM
EM.NC
Special divisions up to T 48 on request
can be positioned arbitrarily
.XX
.00
6. Additional assemblies
see page 14–15.
Note code numbers and altered sizes.
Without additional assemblies code number 0
Table top lock
Built-in version
Built-in version with adapter ring
Vertical version
Vertical version with base plate
Centring ring
Centring flange
Centring ring and centring flange
1
2
1
2
3
4
1
2
3
Division 2 – 12
Division 14 – 24
over 24
Division 2 – 12
Division 14 – 24
over 24
Indirect measuring system
Measurement at motor
(rel. to 100 mm)
(rel. to 40 mm)
± 60"
± 120"
± 240"
± 0,015 mm
± 0,029 mm
± 0,058 mm
± 120"
± 300"
± 0,029 mm
± 0,073 mm
0,02 mm
0,02 mm
(rel. to 100 mm)
0,04 mm
Field 6
.X
Field 7
.X
Field 8
.X
7. Accuracies
Indexing accuracy in seconds of arc
(upgraded indexing accuracy on request)
in length of arc (at 100 mm)
EM
EM
EM
EM
EM
EM
EM.NC
EM.NC
EM.NC
EM.NC
Flatness of indexing table
Parallelism of table top to housing
mounting surface
8. Technical data
EM
EM
EM
EM
Index / dwell angle
EM
EM
EM
EM
EM
Voltage
Motor power
Direction of rotation
Reduction ratio worm/roller gearing
Overall gearing ratios
RPM at table top
Centre hole
Working attitude
Weight
30
EM
EM.NC
EM.NC
EM.NC
EM.NC
as desired, limit switch set for CW rotation
Special brake motor
Other drives are available for higher
indexing rates
Division 2
Division 3 – 5
Division 6 – 12
over 12
Motor
Special voltages on request
Brake
depending on indexing time and mass moment of inertia
CW – CCW rotation
i = 60, i = 84, i =120, i = 360
as desired, standard: horizontal table top
(state other mounting attitudes when ordering)
40 c/min
max. 100 c/min.
300° / 60°
300° / 60°
300° / 60°
135° / 45°
230/400 V, 50 Hz, IEC 38
230 V, AC
0,09 – 0,18 kW
i = 12
i = 120,000
nmax. = 501/min
10 mm
°
Indexing frequency
1· 18011·2002·1
30
approx. 10 kg
15.07.2003
14:39 Uhr
Seite 2
Technical Data
EM.10 and EM.NC.10
9. Indexing Times FIBROTOR® EM.10
Division
2 ts in s
J in kgm2
3 ts in s
J in kgm2
4 ts in s
J in kgm2
5 ts in s
J in kgm2
6 ts in s
J in kgm2
8 ts in s
J in kgm2
10 ts in s
J in kgm2
12 ts in s
J in kgm2
16 ts in s
J in kgm2
20 ts in s
J in kgm2
24 ts in s
J in kgm2
2,20
12,00
2,20
13,00
2,20
14,00
2,20
15,00
1,80
9,00
1,80
10,00
1,80
11,00
1,80
12,00
2,20
6,50
2,20
9,00
2,20
11,00
1,35
6,00
1,35
7,00
1,35
9,00
1,35
9,00
1,00
7,50
1,00
8,50
1,00
10,00
(not applicable to eccentric load and vertical installation)
2,20
4,00
1,80
4,00
1,80
6,00
1,80
8,00
1,05
3,50
1,05
5,00
1,05
5,00
1,05
6,00
0,80
5,00
0,80
5,50
0,80
6,50
10. Indexing Times FIBROTOR® EM.NC.10
1,80
2,70
1,35
2,60
1,35
3,70
1,35
4,80
0,90
2,60
0,90
3,60
0,90
3,60
0,90
4,50
0,60
2,90
0,60
3,30
0,60
4,00
1,35
1,50
1,05
1,60
1,05
2,20
1,05
3,00
0,70
1,60
0,70
2,30
0,70
2,30
0,70
2,80
0,48
1,90
0,48
2,00
0,48
2,60
1,05
0,90
0,90
1,20
0,90
1,70
0,90
2,20
0,54
0,90
0,54
1,30
0,54
1,30
0,54
1,60
0,40
1,30
0,40
1,40
0,40
1,80
in conjunction with special brake motor
0,90
0,70
0,54
0,70
0,40
0,24
0,70
0,54
0,36
0,70
0,40
0,18
0,70
0,54
0,36
1,00
0,55
0,25
0,70
0,54
0,36
1,30
0,75
0,33
0,36
0,25
0,18
0,40
0,20
0,10
0,36
0,25
0,18
0,60
0,30
0,15
0,36
0,25
0,18
0,58
0,30
0,15
0,36
0,25
0,18
0,75
0,36
0,18
0,32
0,24
0,16
0,86
0,48
0,20
0,32
0,24
0,16
0,90
0,55
0,24
0,32
0,24
0,16
1,10
0,65
0,30
kgm2
Mass moment of inertia J in
0,5
1,0
1,5
40
27
20
Max. perm. table top speed 1/min
Acceleration time ta in s
0,2
0,2
0,3
Overall gear ratio reduction i
60
84
120
Motor speed n in 1/min
2400
2268
2400
Motor torque required in Nm
0,9
0,9
0,8
Swivel time ts in s for
360°
1,9
2,6
3,4
180°
1,1
1,5
1,9
120°
0,9
1,1
1,5
90°
0,75
0,9
1,1
60°
0,6
0,75
0,9
45°
0,55
0,65
0,8
30°
0,5
0,55
0,5
20°
0,45
0,5
0,55
10°
0,4
0,45
0,45
5°
0,4
0,4
0,4
2°
0,35
0,4
0,4
0.1 s control time are included in the indexing time.
The indexing time can be optimized by appropriately altering the rotational speed of the table top, the overall gear reduction
and the acceleration time ta.
11. Load data
Perm. transported load
Horizontal table top
Vertical table top
Table top upside-down
Perm. tilting moment on rotating table top
with strengthened table top bearing
upside-down
Perm. add-on diameter
Perm. axial loading on table top
horizontal
vertical
Perm. radial loading on table top
Perm. tilting moment on locked table top
horizontal
vertical
upside-down
Perm. tangential moment on locked table top,
from machining force and in vertical attitude
additionally from eccentric transported load
FIBROTOR EM
FIBROTOR EM.NC
with table top lock
1
kg
100
kg
50
kg
50
Nm
100
(Nm 200)
Nm
50
mm
520
N
N
N
4000
1500
1000
Nm
350
(Nm 1000)
Nm
200
(Nm 600)
Nm
150
Nm
25
Nm
25
(Nm 100)
2
+
4,0
8
0,3
360
2880
0,8
7,9
4,2
2,9
2,3
1,65
1,35
1,05
0,85
0,65
0,5
0,45
3
Ø
2
Load diagram
does not apply
to vertical
operation
and eccentric
load
4
6
7
5
8
9
°
Machining forces
2 · 18012·2002·1
31
Tranported load
31
15.07.2003
14:42 Uhr
Seite 3
Technical Data
EM.10
12. Installed dimensions FIBROTOR EM.10
(Drive arrangement 162, for other drive arrangements drawings or DXF-files are available on request.)
10
78
60
ø6 H7
ø6,6
4
1
3
three-phase brake motor
1–4: terminal box can be
placed 4x90° (numbering
clockwise 1 to 4)
(~ø110)
~ø95
table top locked S 10
30
motor off S 12
drive shaft
ø15
mounting thread
centring ring
on table top
5
122
124
10
10
105
10
25
plan view:
stationary
flange
(standard)
reference hole for
divisions and hole pattern
hole pattern, for table
mounting fixtures etc.
terminal box
45
M6x9 deep
17
28
stationary flange
(standard)
105
100
48 48
35 35
ø40
ø30 h7
4x ø6,6
centring flange,
stationary
K6
1
3
(105)
98
ø50 k6
ø45 k6
ø36
detail X
(~221,5)
15
100
75
38
5
~31,5
ø40
worm-wheel drive
M6
X
32
X
ø100
36
10
M6
15
table top
6xM6x9 deep
(~45,5)
ø80
2xø6H7x9 deep
~202
~135
number of cam
followers dependent
on divisions
ø10
ø8H7-dowel hole, pre-drilled ø6,6
~12 deep
3xM6x11 deep
plan view
centring flange
mounting thread 3x120°
48 48
58
58
66
66
76
(85)
Ordering information with code No.:
EM.10 . 0100 .
Field 1
2
.
3
.
4
.
5
.
6
.
7
8
Mass moment of inertia J in kgm2 from transported load
Indexing time ts in seconds for indexing angle
kgm2
s
°
Direct access to CAD database:
http://fibro.partserver.de
1· 18013·2002·1
32
32
15.07.2003
14:35 Uhr
Seite 2
Technical Data
EM.NC.10
13. Installed dimensions FIBROTOR EM.NC.10
ø100
M6
1
31
52
plug connectors for
power and monitoring
three-phase
servo motor
1
3
1–4: plug connectors can
be placed 4x90° (numbering
clockwise 1 to 4)
88
50
ø80
ø6,6
10
5
reference hole for
hole pattern
30
40
81
10
25
48
22
48
centring ring
on table top
M6x9 deep
17
28
stationary flange
(standard)
centring flange,
stationary
hole pattern, for tablemounting fixtures etc.
plan view:
stationary
flange
(standard)
encoder
45
ø40 K6
ø30 h7
105
100
48 48
35 35
detail X
70
ø58
88
140
mounting thread
ø50 k6
ø45 k6
ø36
55
145
approx.
186
4
10
2
approx.
141,5
ø6 H7
ø6,6
app. 47
ø40
app. 30
5
15
25
9,5
100
75
38
X
worm-wheel drive
36 36
53
M6
15,5
table top
M6x9 deep
50
ø80
ø6H7x9 deep
ø10
ø8H7-dowel hole, pre-drilled ø6,6
~12 deep
3x M6 x 11 deep
58
66
plan view:
centring flange
30
58
66
brake (option)
mounting thread 3 x 120°
zero-reference point switch has to be externally mounted!
EM.NC.10 . 0100 .
Field 1
2
.
3
.
4
.
5
.
6
.
7
8
max. permissible table top speed n =
Acceleration time ta in seconds
kgm2
/min
s
1
°
1· 18014·2002·1
33
33
15.07.2003
14:36 Uhr
Seite 3
Technical Data
EM.01 and EM.NC.01
1. Type designation
FIBROTOR EM.
FIBROTOR EM.NC.
Field 1
EM
EM.NC
NC version
Size
Size
EM.01
EM.NC.01
Standard dimension
Table top lock
Built-in version
0160 mm
0118 mm
0118 mm
0160 mm
.0160
.0118
.0118
.0160
Hydraulic motor
Pneumatic motor
AC-Servo motor
Special brake motor
Special version
without motor
1
3
5
6
7
8
9
0
2. Table top
Field 2
3. Drive motor
Field 3
.1
.3
.5
.6
.7
.8
.9
.0
Field 4
see page 12–13
.XXX
Division 2, 3, 4, 5, 6, 8, 10, 12, 16, 24
NC version
Field 5
EM
EM.NC
.XX
.00
see page 14–15.
Table top lock
Built-in version
Vertical version
Centring ring
Centring flange
1
2
1
2
3
4
1
2
3
Division 2 – 12
Division 14 – 24
over 24
Division 2 – 12
Division 14 – 24
over 24
Direct measuring system
(rel. to 160 mm)
(rel. to 75 mm)
± 30"
± 60"
± 120"
± 0,012 mm
± 0,024 mm
± 0,048 mm
± 60"
± 20"
± 300"
± 0,024 mm
± 0,008 mm
± 0,120 mm
0,01 mm
0,01 mm
(rel. to 160 mm)
0,02 mm
Field 6
.X
Field 7
.X
Field 8
.X
7. Accuracies
EM
EM
EM
EM
EM
EM
EM.NC
EM.NC
EM.NC
EM.NC
EM.NC
EM.NC
Flatness of indexing table
mounting surface
Indexing frequency
Index/dwell angle
Voltage
Motor power
RPM at table top
Centre hole
Working attitude
Weight
34
EM
EM
EM
EM
EM
EM
EM
EM
EM
EM
EM.NC
EM.NC
EM.NC
EM.NC
40 c/min
Special brake motor
max. 90 c/min.
Other drives are available for higher indexing rates
Division 2
330° / 30°
Division 3 – 5
300° / 60°
Division 6 – 12
240° / 120°
over 12
120° / 60°
Motor
230/400 V, 50 Hz, IEC 38
Brake
230 V, AC
depending on indexing time and mass moment of inertia 0,09 – 0,18 kW
CW – CCW rotation
i = 12
i = 120, i ~105, i ~123, i ~ 177, i ~ 218
i = 120,000
nmax. = 50 1/min
22 mm
approx. 20 kg
°
8. Technical data
1· 18015·2002·1
34
15.07.2003
14:35 Uhr
Seite 2
Technical Data
EM.01 and EM.NC.01
Division
2 ts in s
J in kgm2
3 ts in s
J in kgm2
4 ts in s
J in kgm2
5 ts in s
J in kgm2
6 ts in s
J in kgm2
8 ts in s
J in kgm2
10 ts in s
J in kgm2
12 ts in s
J in kgm2
16 ts in s
J in kgm2
20 ts in s
J in kgm2
24 ts in s
J in kgm2
4,6
26
4,6
30
4,6
36
3,7
37
3,7
44
3,7
50
3,7
58
4,1
21
4,1
26
4,1
32
3,3
30
3,3
35
3,3
40
3,3
47
1,8
31
1,8
36
1,8
41
5,1
19
3,3
15
3,3
24
3,3
30
2,6
27
2,6
30
2,6
35
2,6
42
1,6
27
1,6
32
1,6
37
4,5
15
2,9
12
2,9
22
2,9
27
2,3
25
2,3
28
2,3
31
2,3
36
1,3
23
1,3
28
1,3
33
3,7
13
2,4
10
2,4
18
2,4
24
1,9
18
1,9
24
1,9
28
1,9
32
1,1
18
1,1
23
1,1
27
3,1
11
2
9
2
13
2
17
1,6
14
1,6
20
1,6
26
1,6
30
0,9
12
0,9
16
0,9
18
2,6
9,8
1,7
6,5
1,7
10
1,7
13
1,4
11
1,4
15
1,4
19
1,4
23
0,8
10
0,8
13
0,8
15
2,2
6,8
1,3
4
1,3
6
1,3
8
1,2
8
1,2
11
1,2
15
1,2
18
0,7
7,6
0,7
10
0,7
12
1,6
3,4
1
2,3
1
3,5
1
5
1
6,5
1
8
1
11
1
13,5
0,6
5,7
0,6
7,5
0,6
9
1,4
2,9
0,9
1,9
0,9
2,9
0,9
4
0,8
3,5
0,8
5
0,8
7
0,8
8
0,5
4,6
0,5
5,4
0,5
6,6
1,2
2
0,8
1,5
0,8
2,2
0,8
3,2
0,65
2,4
0,65
3,5
0,65
4,7
0,65
5,7
0,4
2,9
0,4
3,4
0,4
4,2
1
1,4
0,65
1
0,65
1,5
0,65
2
0,5
1,5
0,5
2,1
0,5
2,8
0,5
3,4
0,35
2,2
0,35
2,6
0,35
3,2
in conjunction with
special brake motor
0,8
0,7
0,58
0,9
0,7
0,45
0,5
0,42
0,35
0,6
0,42
0,22
0,5
0,42
0,35
0,9
0,65
0,4
0,5
0,42
0,35
1,3
0,9
0,5
0,42
0,28
0,25
1
0,45
0,3
0,42
0,28
0,25
1,5
0,65
0,45
0,42
0,28
0,25
2
0,9
0,6
0,42
0,28
0,25
2,4
1,1
0,75
0,2
0,15
0,7
0,35
0,2
0,15
0,8
0,4
0,2
0,15
1
0,55
kgm2
1
2
2
4
8
30
25
23
15
10
0,2
0,2
0,2
0,2
0,2
105,228
120
122,7
177,228
218,496
3157
3000
2822
2658
2185
1,0
1,0
1,0
1,0
1,0
360°
2,30
2,70
2,91
4,30
6,30
180°
1,30
1,50
1,60
2,30
3,30
90°
0,80
0,90
0,95
1,30
1,80
60°
0,63
0,70
0,73
0,97
1,30
45°
0,55
0,60
0,63
0,80
1,05
30°
0,47
0,50
0,52
0,63
0,80
20°
0,41
0,43
0,44
0,52
0,63
10°
0,36
0,37
0,37
0,41
0,47
5°
0,33
0,33
0,34
0,36
0,38
2°
0,31
0,31
0,31
0,32
0,33
11. Load data
Vertical table top
upside-down
horizontal
vertical
horizontal
vertical
upside-down
from machining force and in vertical attitude,
FIBROTOR EM
FIBROTOR EM.NC
with table top lock
1
kg
500
kg
200
kg
200
Nm
200
(Nm 400)
Nm
100
mm
800
N
N
N
8000
3500
3500
Nm
750
(Nm 2250)
Nm
450
(Nm 1350)
Nm
250
Nm
300
Nm
125
(Nm 450)
2
+
3
Ø
2
Load diagram
does not apply
to vertical
operation and
eccentric load
4
7
6
5
8
9
°
Machining forces
1· 18016·2002·1
35
Transported load
35
15.07.2003
14:40 Uhr
Seite 3
Technical Data
EM.01
detail X
M5x8 deep
35
52
28
~247
(~221)
(~135)
~132
base plate
(accessory)
number of cam followers
dependent on divisions
(~45)
~30
60
6
80
150
10
10
80
138
54
70
80
~119
120
(~105)
~ø123
(~ø110)
3
93
102
45
4,4
ø9
~403
(~377)
16
5
ø22 +1
25
40
ø8 H7
parallel shaft
gearbox
ø80 k6
centring flange,
ø76 k6
stationary
ø75 K6
centring ring on
ø60 k6
table top
ø35
ø22 H7
M5x8 deep
100
125
0,6
15
70
4
plan view:
stationary
flange
(standard)
plan view:
centring flange
venting
ø6H7-dowel hole,
pre-drilled ø5,5
∼12 deep
*(
**
X
2
placed 4 x 90°(numbering
clockwise 1 to 4)
stationary
flange
(standard)
ø160
ø109
45
4
Inductive proximity
switch M12x1
table top
(~76)
~87
~34
ø130
ø96
ø8H7x12 deep
M6x9 deep
M6x9
deep
terminal box
10
~14
96
reference hole for divisions
and hole pattern
) for special Brake-motor (Code No 8 , box 3)
for division 2, centre hole is not concentric
EM.01 .
Field 1
.
2
.
3
.
4
.
5
.
6
.
7
8
kgm2
s
°
1· 18017·2002·1
36
36
15.07.2003
14:35 Uhr
Seite 2
Technical Data
EM.NC.01
ø130
ø96
ø160
ø109
M6x9 deep
table top
X
35
90
~ 70
100
28
2
three-phase servo motor
be placed 4 x 90° (numbering
clockwise 1 to 4)
detail X
centring flange,
stationary
centring ring
on table top
ø80 k6
ø76 k6
ø75 K6
ø60 k6
ø35
ø22 H7
stationary
flange
(standard)
M5x8 deep
15
4
ø8 H7
parallel shaft
gearbox
25
ø8 x12 deep
M6x9 deep
0,6
H7
rotary encoder
ø9
base plate
(accessory)
plug connectors for power and monitoring
~362
~206
60
M5x8 deep
ø58
70
45
93
102
120
3
45
90
plan view:
stationary
flange
(standard)
25
70
80
~67
210
ø22 +1
42
80
138
54
4
10
5
16
6
~ 147
80
10
plan view:
centring flange
ø6H7-dowel hole,
pre-drilled ø5,5
∼12 deep
40
holding brake
24 V, DC
96
reference hole
for hole pattern
hole pattern,
for table-mounting
fixtures etc.
zero-reference point switch has to be externally mounted!
EM.NC.01 .
Field 1
.
2
.
3
.
4
.
5
.
6
.
7
8
Max. permissible table top speed n =
kgm2
/min
s
1
°
1· 18018·2002·1
37
37
15.07.2003
14:40 Uhr
Seite 3
Technical Data
EM.12 and EM.NC.12
1. Type designation
FIBROTOR EM.
FIBROTOR EM.NC.
Field 1
EM
EM.NC
NC version
Size
Size
EM.12
EM.NC.12
Standard dimension
Table top lock
Built-in version
0220 mm
0190 mm
0220 mm
0220 mm
.0220
.0190
.0220
.0220
Hydraulic motor
Pneumatic motor
AC-Servo motor
Special version
without motor
1
3
5
6
7
9
0
2. Table top
Field 2
3. Drive motor
Field 3
.1
.3
.5
.6
.7
.9
.0
Field 4
see page 12–13
.XXX
Division 2, 3, 4, 5, 6, 8, 10, 12, 16, 24
NC version
Field 5
EM
EM.NC
.XX
.00
see page 14–15.
Table top lock
Built-in version
Vertical version
Centring ring
Centring flange
1
2
1
2
3
4
1
2
3
Division 2 – 12
Division 14 – 24
over 24
Division 2 – 12
Division 14 – 24
over 24
(rel. to 220 mm)
± 25"
± 30"
± 60"
± 0,014 mm
± 0,016 mm
± 0,032 mm
± 45"
± 10"
± 180"
± 0,024 mm
± 0,006 mm
± 0,096 mm
0,01 mm
0,01 mm
(rel. to 220 mm)
0,03 mm
Field 6
.X
Field 7
.X
Field 8
.X
7. Accuracies
EM
EM
EM
EM
EM
EM
EM.NC
EM.NC
EM.NC
EM.NC
EM.NC
EM.NC
Flatness of table top
mounting surface
8. Technical data
EM
EM
EM
Index/dwell angle
EM
EM
EM
EM
EM
Voltage
Motor power
RPM at table top
Centre hole
Working attitude
Weight
38
EM
EM.NC
EM.NC
EM.NC
EM.NC
Other drives are available for higher indexing
rates
Division 2
Division 3 – 5
Division 6 – 12
over 12
Motor
Brake
depending on indexing time and mass moment of inertia
CW – CCW rotation
i ~105, i ~123, i ~ 177, i ~ 218
with lateral opening in the housing
60 c/min
330° / 30°
300° / 60°
270° / 90°
135° / 45°
230/400 V, 50 Hz, IEC 38
230 V, AC
0,12 – 0,37 kW
i = 12
i = 120,000
nmax. = 301/min
35 mm
°
Indexing frequency
1· 18019·2002·1
38
approx. 30 kg
15.07.2003
14:36 Uhr
Seite 2
Technical Data
EM.12 and EM.NC.12
Division
2 ts in s
J in kgm2
3 ts in s
J in kgm2
4 ts in s
J in kgm2
5 ts in s
J in kgm2
6 ts in s
J in kgm2
8 ts in s
J in kgm2
10 ts in s
J in kgm2
12 ts in s
J in kgm2
16 ts in s
J in kgm2
20 ts in s
J in kgm2
24 ts in s
J in kgm2
4,5
67
4,1
95
4,1
140
4,1
180
3,7
190
3,7
240
3,7
280
3,7
300
1,8
120
1,8
160
1,8
200
3,6
43
3,3
60
3,3
90
3,3
120
3,0
120
3,0
160
3,0
180
3,0
200
1,5
80
1,5
110
1,5
130
3,0
31
2,7
45
2,7
70
2,7
90
2,5
90
2,5
120
2,5
140
2,5
160
1,25
60
1,25
80
1,25
100
2,4
19
2,1
29
2,1
45
2,1
60
1,9
60
1,9
80
1,9
100
1,9
110
1
38
1
53
1
65
1,9
12,5
1,7
19
1,7
30
1,7
40
1,5
40
1,5
55
1,5
65
1,5
80
0,75
25
0,75
35
0,75
40
1,6
9,2
1,4
14
1,4
22
1,4
30
1,3
30
1,3
42
1,3
50
1,3
60
0,65
18
0,65
25
0,65
30
1,3
6,4
1,2
10
1,2
15
1,2
20
1,1
20
1,1
28
1,1
35
1,1
40
0,55
13
0,55
18
0,55
22
1
3,7
1
7,2
1
11
1
15
0,9
16
0,9
21
0,9
26
0,9
30
0,47
9,5
0,47
13
0,47
16
0,8
2,4
0,9
5,7
0,9
9
0,9
12
0,8
12
0,8
17
0,8
21
0,8
24
0,42
7,5
0,42
10
0,42
12
0,7
0,6
1,7
1,1
0,75
0,63
3,7
2,6
0,75
0,63
6
4,2
0,75
0,63
8
5,8
0,67
0,57
8
6
0,67
0,57
11
8
0,67
0,57
14
10
0,67
0,57
16
12
0,34
0,28
4,8
3,5
0,34
0,28
7
5
0,34
0,28
8,5
6
0,55
2,0
0,55
3,2
0,55
4,2
0,49
4,5
0,49
6
0,49
7,5
0,49
9
0,25
2,6
0,25
3,8
0,25
4,5
0,35
2,3
0,35
3
0,35
4
0,35
4,5
0,18
1,3
0,18
1,9
0,18
2,2
1
2
5
5
8
12
16
30
30
25
23
20
16
12
0,1
0,2
0,2
0,2
0,2
0,2
0,2
105,228
105,228
120,000
122,7
122,7
122,7
177,228
3157
3157
3000
2822
2454
1964
2127
3,3
2,2
2,2
2,2
2,2
2,2
2,0
360°
2,20
2,30
2,70
2,91
3,30
4,05
5,30
180°
1,20
1,30
1,50
1,60
1,80
2,20
2,80
90°
0,70
0,80
0,90
0,95
1,05
1,24
1,55
60°
0,53
0,63
0,70
0,73
0,80
0,93
1,13
45°
0,45
0,55
0,60
0,63
0,68
0,77
0,93
30°
0,37
0,47
0,50
0,52
0,55
0,61
0,72
20°
0,31
0,41
0,43
0,44
0,47
0,51
0,58
10°
0,26
0,36
0,37
0,37
0,38
0,40
0,44
5°
0,23
0,33
0,33
0,33
0,34
0,35
0,37
11. Load data
Vertical table top
upside-down
horizontal
vertical
horizontal
vertical
upside-down
FIBROTOR EM
FIBROTOR EM.NC
with table top lock
0,28
1,4
0,28
2
0,28
2,5
0,28
3
0,14
0,8
0,14
1,1
0,14
1,4
kgm2
1
kg
800
kg
300
kg
300
Nm
600
(Nm 1200)
Nm
300
mm 1000
N
N
N
12000
5000
8000
Nm 2000
(Nm 6000)
Nm 1500
(Nm 4500)
Nm
600
Nm
400
Nm
200
(Nm 800)
2
+
20
10
0,2
218,496
2185
2,0
6,30
3,30
1,80
1,30
1,05
0,80
0,63
0,47
0,38
3
Ø
2
Load diagram
does not apply
to vertical
operation and
eccentric load
4
7
6
5
8
9
°
Machining forces
1· 18020·2002·1
39
Transported load
39
15.07.2003
14:39 Uhr
Seite 3
Technical Data
EM.12
X
ø11
15
30
15
ø18
180
105
93
200
number of cam
followers depend on
divisions
298
193
ø132
terminal box
centring flange,
stationary
ø10 H7
ø112
2 inductive proximity
switches M12x1
204
plan view
centring flange
ø8H7-dowel hole,
pre-drilled ø6,6
∼12 deep
1/3
65
80
95
2
137
150
65
centring ring
on table top
ø35 +1
170
100
355
25
1
6
14
3
100
90
M6x11 deep
M6x11 deep
plan view
stationary
flange
(standard)
ø10 H7
50
101
ø110
2
stationary
flange
(standard)
11
12
15
3
gearbox motor, plug-in
version with flange
clockwise 1 to 4)
ø120 k6
ø100 k6
ø110 K6
ø80
ø55
ø36 H7
ø36 +1
ø47
100
60
2
3
detail X
ø15
149
100
50
72
83
120
150
116
1
ø11
table top
1
M8x10 deep
ø10H7 x16 deep
25
M8x10 deep
ø260
ø220
ø154
15
ø170
ø128
8
8
120
130
100
100
245
hole pattern
for fixtures
reference hole for
divisions and hole
pattern
EM.12 .
Field 1
.
2
.
3
.
4
.
5
.
6
.
7
8
kgm2
s
°
1· 18021·2002·1
40
40
15.07.2003
14:36 Uhr
Seite 2
Technical Data
EM.NC.12
M8x10 deep
ø10H7x16 deep
ø260
ø220
ø154
M8x10 deep
table top
1
25
ø170
ø128
100
90
1/3
60
1
2
72
120
149,5
56
150
116
X
stationary
flange
(standard)
ø11
30
holding brake
24 V, DC
15
ø18
200
plug connectors for power
and monitoring
centring flange,
stationary
M6x11 deep
ca. 515,5
100
4
243
85
60
90
25
82
70
65
ø58
ø78
ø98
137
45
210
120
65
2/4
centring ring
on table top
ø35 +1
rotary encoder
150
3
1
6
14
8
1
ø10 H7
170
23,5
3
top view
centring flange
ø8H7-dowel hole,
pre-drilled ø6,6,
∼12 deep
EM.NC.12 .
Field 1
ø10 H7
23,5
M6x11 deep
top view
stationary
flange
(standard)
15
1–4: plug connectors
can be placed 4 x 90°
(numbering clockwise 1 to 4)
parallel shaft
gearbox
.
2
.
3
.
4
.
5
.
6
.
7
8
reference
point switch
80
95
ø120 k6
ø100 k6
ø110 K6
ø80
ø55
ø36 H7
ø36 +1
detail X
11
ø11
12
15
4
120
136
100
50
79
hole pattern
for fixtures
52
reference hole
div./hole pattern
kgm2
/min
s
1
°
1· 18022·2002·1
41
41
15.07.2003
14:40 Uhr
Seite 3
Technical Data
EM.13 and EM.NC.13
1. Type designation
FIBROTOR EM.
FIBROTOR EM.NC.
Field 1
EM
EM.NC
NC version
Size
Size
EM.13
EM.NC.13
Standard dimension
Table top lock
Built-in version
0280 mm
0250 mm
0280 mm
0280 mm
.0280
.0250
.0280
.0280
Hydraulic motor
Pneumatic motor
AC-Servo motor
Special brake motor
Special version
without motor
1
3
5
6
7
8
9
0
2. Table top
Field 2
3. Drive motor
Field 3
.1
.3
.5
.6
.7
.8
.9
.0
Field 4
see page 12–13
.XXX
Division 2, 3, 4, 5, 6, 8, 10, 12, 16, 24
NC version
Field 5
EM
EM.NC
.XX
.00
see page 14–15.
Table top lock
Built-in version
Vertical version
Centring ring
Centring flange
1
2
1
2
3
4
1
2
3
Division 2 – 12
Division 14 – 24
over 24
Division 2 – 12
Division 14 – 24
over 24
(rel. to 280 mm)
± 25"
± 30"
± 60"
± 0,017 mm
± 0,020 mm
± 0,041 mm
± 45"
± 10"
± 180"
± 0,031 mm
± 0,007 mm
± 0,122 mm
0,01 mm
0,01 mm
(rel. to 280 mm)
0,03 mm
Field 6
.X
Field 7
.X
Field 8
.X
7. Accuracies
EM
EM
EM
EM
EM
EM
EM.NC
EM.NC
EM.NC
EM.NC
EM.NC
EM.NC
mounting surface
Indexing frequency
Index/dwell angle
Voltage
Motor power
RPM at table top
Centre hole
Working attitude
Weight
42
EM
EM
EM
EM
EM
EM
EM
EM
EM
EM
EM.NC
EM.NC
EM.NC
EM.NC
35 c/min
Special brake motor
max. 80 c/min.
Division 2
330° / 30°
Division 3 – 5
300° / 60°
Division 6 – 12
270° / 90°
over 12
135° / 45°
Motor
230/400 V, 50 Hz, IEC 38
Brake
230 V, AC
CW – CCW rotation
i = 12
i = 96, i = 120, i ~156, i ~182, i ~ 214, i ~ 257
i = 120,000
nmax. = 301/min
35 mm
approx. 70 kg
°
8. Technical data
1· 18023·2002·1
42
15.07.2003
14:41 Uhr
Seite 2
Technical Data
EM.13 and EM.NC.13
Division
2 ts in s
J in kgm2
3 ts in s
J in kgm2
4 ts in s
J in kgm2
5 ts in s
J in kgm2
6 ts in s
J in kgm2
8 ts in s
J in kgm2
10 ts in s
J in kgm2
12 ts in s
J in kgm2
16 ts in s
J in kgm2
20 ts in s
J in kgm2
24 ts in s
J in kgm2
4,5
90
4,1
140
4,1
180
4,1
230
3,7
230
3,7
280
3,7
320
3,7
350
1,8
150
1,8
190
1,8
220
3,6
60
3,3
95
3,3
120
3,3
160
3,0
160
3,0
210
3,0
240
3,0
270
1,5
110
1,5
140
1,5
170
Version with bevel gearing
3,0 2,5 2
1,6 1,3 1
0,75
42
29
21
13
8,5 5
2,7
2,7 2,2 1,8 1,4 1,2 0,9 0,7
68
47
33
20
13,5 8,4 4,5
2,7 2,2 1,8 1,4 1,2 0,9 0,7
90
65
45
28
19
12
6,5
2,7 2,2 1,8 1,4 1,2 0,9 0,7
120
85
60
38
25
15
9
2,5 2
1,6 1,3 1,1
0,85 0,6
120
85
60
38
25
15
9
2,5 2
1,6 1,3 1,1
0,85 0,6
150 110
75
48
34
20
11
2,5 2
1,6 1,3 1,1
0,85 0,6
180 130
90
58
40
26
14
2,5 2
1,6 1,3 1,1
0,85 0,6
210 155 110
70
50
31
17
1,25 1
0,8 0,65 0,55 0,42 0,3
80
56
38
24
16
10
5,5
1,25 1
0,8 0,65 0,55 0,42 0,3
100
70
48
31
21
13
7,2
1,25 1
0,8 0,65 0,55 0,42 0,3
125
88
60
38
26
16
9
0,65
1,8
0,6
3
0,6
4,5
0,6
6
0,5
6
0,5
8
0,5
10
0,5
12
0,25
3,8
0,25
5
0,25
6
0,5
1,8
0,5
3
0,5
5
0,42
5
0,42
6
0,42
8
0,42
9
Division
2 ts in s
J in kgm2
3 ts in s
J in kgm2
4 ts in s
J in kgm2
5 ts in s
J in kgm2
6 ts in s
J in kgm2
8 ts in s
J in kgm2
10 ts in s
J in kgm2
12 ts in s
J in kgm2
16 ts in s
J in kgm2
20 ts in s
J in kgm2
24 ts in s
J in kgm2
0,32
2
0,32
3
0,32
3,8
0,32
4,5
in conjunction with
Version with parallel shaft gearing
special brake motor
5,1 4,3 3,4 2,7 2
1,6 1,3 1,1
1
0,85 0,7 0,5
110
85
55
35
21
13
8,5 6
5,2 3,4 2,2 0,7
4,6 4
3,0 2,4 1,8 1,4 1,2 1
0,75 0,6 0,5 0,45
165 130
84
54
33
20
13,5 9,3 5,4 3,4 2,4 1,4
4,6 4
3,0 2,4 1,8 1,4 1,2 1
0,75 0,6 0,5 0,45
220 170 110
75
45
28
19
13
7,7 5,3 3,4 2,5
4,6 4
3,0 2,4 1,8 1,4 1,2 1
0,75 0,6 0,5 0,45
270 210 140
90
60
38
25
17
10
7
5
3,6
3,5 2,7 2,2 1,6 1,3 1
0,9 0,7 0,55 0,5 0,42 0,32
210 140
90
60
38
25
17
10
7
5
3,5 1,8
3,5 2,7 2,2 1,6 1,3 1
0,9 0,7 0,55 0,5 0,42 0,32
260 180 120
75
48
32
23
14
9,5 7
5
2,2
3,5 2,7 2,2 1,6 1,3 1
0,9 0,7 0,55 0,5 0,42 0,32
300 220 150
90
58
40
29
17
12
9
6
3
3,5 2,7 2,2 1,6 1,3 1
0,9 0,7 0,55 0,5 0,42 0,32
360 260 180 110
70
48
35
20
14 10
7,2 4
1,8 1,4 1,1
0,85 0,65 0,55 0,45 0,35 0,3 0,25 0,2 0,16
150 100
65
40
24
16
11
6,7 4,5 3,2 2,3 1
1,8 1,4 1,1
0,85 0,65 0,55 0,45 0,35 0,3 0,25 0,2 0,16
190 125
82
50
31
21
14
8,5 6
4,2 3
1,7
1,8 1,4 1,1
0,85 0,65 0,55 0,45 0,35 0,3 0,25 0,2 0,16
220 150 100
60
38
26
18
10,5 7,3 5,2 3,8 2
kgm2
4
8
16
24
32
30
25
23
18
15
0,2
0,2
0,3
0,4
0,5
96
120
120
155,784
182,064
2880
3000
2760
2804
2731
3,4
3,4
3,4
3,4
3,4
360°
2,30
2,70
3,01
3,83
4,60
180°
1,30
1,50
1,70
2,17
2,60
90°
0,80
0,90
1,05
1,33
1,60
60°
0,63
0,70
0,83
1,06
1,27
45°
0,55
0,60
0,73
0,92
1,10
30°
0,47
0,50
0,62
0,78
0,93
20°
0,41
0,43
0,54
0,69
0,82
10°
0,36
0,37
0,47
0,59
0,71
5°
0,33
0,33
0,44
0,55
0,66
2°
0,31
0,31
0,41
0,52
0,62
11. Load data
Vertical table top
upside-down
horizontal
vertical
horizontal
vertical
upside-down
FIBROTOR EM
FIBROTOR EM.NC
with table top lock
1
kg
1000
kg
400
kg
400
Nm
800
(Nm 1600)
Nm
400
mm 1400
N
N
N
16000
6000
10000
Nm 2500
(Nm 7500)
Nm 1500
(Nm 4500)
Nm
800
Nm
600
Nm
250
(Nm 900)
2
+
3
Ø
2
Load diagram
does not apply
to vertical
operation and
eccentric load
4
7
6
5
8
9
°
Machining forces
1· 18024·2002·1
43
Transported load
43
15.07.2003
14:39 Uhr
Seite 3
Technical Data
EM.13 Version with bevel gearing
M8 x13 deep
M8 x13 deep
ø280
ø200
X
gearbox motor, plug-in version with flange
1–4: terminal box can be placed
129
4 x 90°(numbering clockwise 1 to 4)
ø13,5
14
ø12 H7
14
35
280
109
23
ø49
ø136
70
172,5
97
78,5
83
100
140
3
20
23
3
2
1
175
137
ø10 x16 deep
1
table top
ø220
ø150
H7
30
Division 02–05
187
205,5
detail X
terminal box
centring flange,
stationary
378
M6x11 deep
251
M6x11 deep
25
ø145
137
137
240
8
6
15
106
switches M12 x 1
plan view
centring flange
ø8H7-dowel hole,
pre-drilled ø6,6
~12 deep
120
129
140
80
63
112
ø136
15,5
402
ø35 +1
227
127
centring ring on
table top
plan view
stationary flange
(standard)
8
200
158,5
140
140
312,5
175
190
ø120 k6
M6x11 deep ø100 k6
ø110 K6
stationary
ø80
flange
ø55
(standard)
ø36 H7
ø36 +1
8
reference hole for
divisions and hole
pattern
EM.13 .
Field 1
.
2
.
3
.
4
.
5
.
6
.
7
8
kgm2
s
°
1· 18025·2002·1
44
44
15.07.2003
14:37 Uhr
Seite 2
Technical Data
EM.13
Division 02–05
ø280
ø200
venting
X
30
M8 x13 deep
M8 x13 deep
1
table top
ø220
ø150
ø10H7x16 deep
ø49
ø136
70
4
20
23
4
clockwise 1 to 4)
ø120 k6
ø100 k6
ø110 K6
ø80
ø55
ø36 H7
ø36 +1
stationary
flange
(standard)
14
35
280
gearbox
187
205,5
terminal box
centring flange,
stationary
M6x11 deep
272
(243)
25
M6x11 deep
centring ring
on table top
106
77
number of cam
followers dependent
on divisions
3
80
plan view
stationary flange
(standard)
10
137
240
switches M12 x 1
180
ø35 +1
137
59
ø138
(ø127)
131
(113,5)
8
8
6
15
135
~ 513
~ (484) 17
120
129
140
detail X
ø12 H7
ø13,5
14
23
83
94
140
175
137
2
67
175
190
plan view
centring flange
ø8H7-dowel hole,
pre-drilled ø6,6
~12 deep
reference hole for
divisions and hole
pattern
200
140
140
EM.13 .
Field 1
.
2
.
3
.
4
.
5
.
6
.
7
8
kgm2
s
°
1· 18026·2002·1
45
45
15.07.2003
14:41 Uhr
Seite 3
Technical Data
EM.13 Version with bevel gearing
ø280
ø200
X
gearbox motor, plug-in version with flange
1–4: terminal box can be placed
129
4 x 90°(numbering clockwise 1 to 4)
ø13,5
14
ø12 H7
14
60
280
109
23
ø49
ø136
70
172,5
97
78,5
3
20
23
3
2
1
83
100
140
175
137
M8 x13 deep
M8 x13 deep
30
table top
ø220
ø162
ø10H7x16 deep
1
Division 06–24
187
205,5
detail X
ø170 k6
ø150 k6
ø150 K6
ø120
ø94
ø76 H7
terminal box
centring flange,
stationary
M8x12 deep
378
M8x11 deep
25
251
137
ø145
106
plan view
centring flange
ø12H7-dowel hole,
pre-drilled ø9
~20 deep
120
129
140
switches M12 x 1
90
63
112
ø136
15,5
402
ø70 +1
227
127
centring ring on
table top
plan view
stationary flange
(standard)
number of cam
followers dependent
on divisions
240
6
14
8
137
8
175
190
stationary
flange
(standard)
8
200
158,5
140
140
312,5
reference hole for
divisions and hole
pattern
EM.13 .
Field 1
.
2
.
3
.
4
.
5
.
6
.
7
8
kgm2
s
°
1· 18027·2002·1
46
46
15.07.2003
14:42 Uhr
Seite 2
Technical Data
EM.13
Division 06–24
ø280
ø200
venting
X
30
M8 x13 deep
M8 x13 deep
1
table top
ø220
ø162
ø10H7x16 deep
ø49
ø136
70
4
20
23
4
clockwise 1 to 4)
ø13,5
14
ø12 H7
14
60
280
gearbox
23
83
94
140
175
137
2
187
205,5
detail X
ø170 k6
ø150 k6
ø150 K6
ø120
ø94
ø76 H7
stationary
flange
(standard)
terminal box
centring flange,
stationary
M8x12 deep
272
(243)
25
M8x12 deep
137
59
10
137
240
106
77
switches M12 x 1
180
ø70 +1
90
3
67
175
190
plan view
centring flange
plan view
stationary
flange
(standard)
number of cam
followers dependent
on divisions
120
129
140
centring ring
on table top
ø138
(ø127)
131
(113,5)
8
8
6
14
135
~ 513
~ (484) 17
ø12H7-dowel hole,
pre-drilled ø9
~20 deep
reference hole for
divisions and hole
pattern
200
140
140
hole pattern,
for table-mounting
fictures etc.
EM.13 .
Field 1
.
2
.
3
.
4
.
5
.
6
.
7
8
kgm2
s
°
1· 18028·2002·1
47
47
15.07.2003
14:37 Uhr
Seite 3
Technical Data
EM.NC.13
ø10H7x16 deep
table top
M8 x13 deep
M8 x13 deep
ø280
ø200
venting
1
30
ø220
ø162
X
70
ø124
ø136
1
be placed 4 x 90°
detail X
ø170 k6
ø150 k6
ø150 K6
ø120
ø94
ø76 H7
stationary
flange
(standard)
ø13,5
14
parallel shaft
gearbox
137
10
25
120
129
140
ø115
180
.
.
4
.
5
.
6
7
ø80
ø58
67
rotary
encoder
home position
switch
.
8
175
190
90
3
3
106
17
109
6
14
8
centring
flange on
table top
plan view:
centring flange
2
137
240
77
ø12H7-dowel hole,
pre-drilled ø9
∼20 deep
Field 1
59
~ 562
321
M8 x12 deep
plan view:
stationary
flange
(standard)
.
14
60
280
holding brake 24 V, DC
M8 x12 deep
EM.NC.13 .
ø12 H7
plug connectors for
centring flange,
stationary
ø70 +1
23
4
20
23
4
170
2
83
140
175
137
2
12
42
25
hole pattern,
for tablemounting
fixtures etc.
200
140
166
140
reference hole for
hole pattern
Acceleration time ta in second
kgm2
/min
s
1
°
1· 18029·2002·1
48
48
14:37 Uhr
Seite 2
°
15.07.2003
2 · 18030·2002·1
49
49
15.07.2003
14:40 Uhr
Seite 3
Technical Data
EM.15 and EM.NC.15
1. Type designation
FIBROTOR EM.
FIBROTOR EM.NC.
Field 1
EM
EM.NC
NC version
Size
Size
EM.15
EM.NC.15
Standard dimension
Table top lock
Built-in version
0410 mm
0380 mm
0410 mm
0410 mm
.0410
.0380
.0410
.0410
Hydraulic motor
Pneumatic motor
AC-Servo motor
Special brake motor
Special version
without motor
1
3
5
6
7
8
9
0
2. Table top
Field 2
3. Drive motor
Field 3
.1
.3
.5
.6
.7
.8
.9
.0
Field 4
see page 12–13
.XXX
Division 2, 3, 4, 5, 6, 8, 10, 12, 16, 24
NC version
Field 5
EM
EM.NC
.XX
.00
see page 14–15.
Table top lock
Built-in version
Vertical version
Centring ring
Centring flange
1
2
1
2
3
4
1
2
3
Division 2 – 12
Division 14 – 24
over 24
Division 2 – 12
Division 14 – 24
over 24
(rel. to 410 mm)
(rel. to 150 mm)
± 18"
± 22"
± 40"
± 0,018 mm
± 0,022 mm
± 0,040 mm
± 45"
± 10"
± 180"
± 0,045 mm
± 0,010 mm
± 0,179 mm
0,015 mm
0,015 mm
(rel. to 410 mm)
0,040 mm
Field 6
.X
Field 7
.X
Field 8
.X
7. Accuracies
EM
EM
EM
EM
EM
EM
EM.NC
EM.NC
EM.NC
EM.NC
EM.NC
EM.NC
mounting surface
Indexing frequency
Index/dwell angle
Voltage
Motor power
RPM at table top
Centre hole
Working attitude
Weight
50
EM
EM
EM
EM
EM
EM
EM
EM
EM
EM
EM.NC
EM.NC
EM.NC
EM.NC
35 c/min
Special brake motor
max. 60 c/min.
Division 2
330° / 30°
Division 3 – 5
300° / 60°
Division 6 – 12
270° / 90°
over 12
135° / 45°
Motor
230/400 V, 50 Hz, IEC 38
Brake
230 V, AC
CW – CCW rotation
i = 12
i = 96, i = 155, i ~182, i ~ 257
i = 120,000
nmax. = 301/min
70 mm
approx. 100 kg
°
8. Technical data
1· 18031·2002·1
50
15.07.2003
14:37 Uhr
Seite 2
Technical Data
EM.15 and EM.NC.15
Division
2 ts in s
J in kgm2
3 ts in s
J in kgm2
4 ts in s
J in kgm2
5 ts in s
J in kgm2
6 ts in s
J in kgm2
8 ts in s
J in kgm2
10 ts in s
J in kgm2
12 ts in s
J in kgm2
16 ts in s
J in kgm2
20 ts in s
J in kgm2
24 ts in s
J in kgm2
5,10
500
4,60
670
4,60
900
4,60
1100
3,50
1200
3,50
1500
3,50
1800
3,50
1550
2,40
1200
2,40
1500
2,40
1200
4,30
370
4,00
520
4,00
700
4,00
900
2,70
800
2,70
1000
2,70
1200
2,70
1050
1,80
850
1,80
1100
1,80
900
3,40
240
3,00
310
3,00
430
3,00
560
2,20
550
2,20
750
2,20
900
2,20
760
1,40
540
1,40
750
1,40
600
2,70
160
2,40
200
2,40
280
2,40
370
1,70
340
1,70
460
1,70
570
1,70
480
1,10
340
1,10
480
1,10
400
2,10
95
1,90
130
1,90
180
1,90
240
1,30
200
1,30
280
1,30
340
1,30
290
0,85
210
0,85
300
0,85
250
1,70
62
1,50
80
1,50
115
1,50
150
1,10
140
1,10
200
1,10
250
1,10
220
0,65
125
0,65
175
0,65
150
1,30
37
1,20
52
1,20
74
1,20
95
0,90
100
0,90
135
0,90
170
0,90
145
0,55
90
0,55
125
0,55
105
1,10
27
1,00
36
1,00
50
1,00
65
0,70
60
0,70
82
0,70
100
0,70
88
0,45
60
0,45
85
0,45
72
in conjunction with
1,00
0,82
22
14
0,75
0,60
20
12
0,75
0,60
28
18
0,75
0,60
38
24
0,55
0,50
36
30
0,55
0,50
51
42
0,55
0,50
64
53
0,55
0,50
54
45
0,35
0,28
36
23
0,35
0,28
52
33
0,35
0,28
44
28
special brake motor
0,70
0,60
10
6
0,50
0,45
8
6
0,50
0,45
12
9,5
0,50
0,45
16
13
0,42
0,32
22
12
0,42
0,32
29
16
0,42
0,32
37
21
0,42
0,32
31
18
0,24
0,20
16
11
0,24
0,20
24
16
0,24
0,20
20
13,5
kgm2
4
25
50
100
150
200
300
30
30
20
15
12
10
8
0,1
0,2
0,2
0,3
0,4
0,4
0,5
96,000
96,000
120,000
120,000
213,684
213,684
213,684
2880
2880
2400
1800
2564
2137
1710
8
8
8
8
6
5
5
360°
2,20
2,30
3,30
4,40
5,50
6,50
8,10
180°
1,20
1,30
1,80
2,40
3,00
3,50
4,35
90°
0,70
0,80
1,05
1,40
1,75
2,00
2,48
60°
0,53
0,63
0,80
1,07
1,33
1,50
1,85
45°
0,45
0,55
0,68
0,90
1,13
1,25
1,54
30°
0,37
0,47
0,55
0,73
0,92
1,00
1,23
20°
0,31
0,41
0,47
0,62
0,78
0,83
1,02
10°
0,26
0,36
0,38
0,51
0,64
0,70
0,85
5°
0,23
0,33
0,34
0,46
0,57
0,58
0,70
11. Load data
Vertical table top
upside-down
horizontal
vertical
horizontal
vertical
upside-down
FIBROTOR EM
FIBROTOR EM.NC
with table top lock
1
kg
1500
kg
600
kg
600
Nm 1500
(Nm 3000)
Nm
700
mm 2000
N
N
N
25000
9000
15000
Nm 5000
(Nm 15000)
Nm 3000
(Nm 10000)
Nm 1500
Nm 1200
Nm
320
(Nm 1800)
2
+
400
6
0,5
256,980
1542
4
10,6
5,60
3,10
2,27
1,85
1,43
1,16
0,88
0,74
3
Ø
2
Load diagram
does not apply
to vertical
operation and
eccentric load
4
6
5
7
8
9
°
Machining forces
1· 18032·2002·1
51
Transported load
51
15.07.2003
14:38 Uhr
Seite 3
Technical Data
EM.15
ø450
ø410
ø270
ø17,5
ø26
20
1/3
160
85
134
X
4
three-phase brake motor; 1–4: terminal box can
be placed 4 x 90°(numbering clockwise 1 to 4)
20
ø17,5
ø26
ø12 H7
60
parallel shaft
gearbox
23
4
85
179
62
1
20
25
220
176
2
table top
ø15
ø47
1
34
M12x20 deep
M12x20 deep
43
ø12H7 x16 deep
ø360
ø200
20
ø70
340
253
ø170 k6
ø150 k6
ø150 K6
ø120
ø94
ø76 H7
terminal box
centring flange,
stationary
M8x12 deep
150
165
120
232
250
plan view
stationary
flange
(standard)
switches M12x1
ø12 H7
2/4
3
67
180
centring ring
on table top
ø70 +1
number of cam
followers dependent
on divisions
1
ø 156
(ø 147)*
8
1
6
14
25
M8x12 deep
app. 577, app. (561)*
165
10
app. 300,
165
app. (284)* 77
150
32
240
150
25
312
stationary
flange
(standard)
app. 142,
app. (123,5)*
detail X
12
plan view
centring flange
hole pattern
for fixtures
280
dowel hole ø12H7,
pre-drilled ø9
∼20 deep
170
170
reference hole for
division/hole pattern
* ( ) for special brake motor (code No 8 , box 3)
EM.15 .
Field 1
.
2
.
3
.
4
.
5
.
6
.
7
8
kgm2
s
°
1· 18033·2002·1
52
52
15.07.2003
14:38 Uhr
Seite 2
Technical Data
EM.NC.15
table top
X
34
M12x20 deep
M12x20 deep
56
1/3
160
85
136
206
134
85
179
220
176
2
20
ø12H7x16 deep
ø450
ø410
ø270
1
ø360
ø200
ø12 H7
three-phase servo motor; 1–4: plug connectors
can be placed 4 x 90° (numbering clockwise 1 to 4)
60
parallel shaft
gearbox
plug connector for
25
1
6
14
8
approx.
approx. 546
264
10
98
77
5
115
dowel hole ø12H7,
pre-drilled ø9
∼20 deep
EM.NC.15 .
Field 1
.
2
.
3
.
4
.
5
.
6
.
7
8
ø12 H7
2/4
180
ø84
3
ø58
plan view
centring flange
165
150
240
1
67
plan view
stationary
flange
(standard)
165
25
12
centring ring
in table top
ø70 +1
53
120
232
250
centring flange,
stationary
M8x12 deep
M8x12 deep
ø70
312
stationary
flange
(standard)
holding brake
24 V, DC
340
approx. 85,5
ø170 k6
ø150 k6
ø150 K6
ø120
ø94
ø76 H7
detail X
20
150
165
20
25
20
ø17,5
ø26
23
4
ø17,5
ø26
23
52
reference
point switch
rotary
encoder
hole pattern
for fixtures
240
170
230
170
reference hole
for division/hole
pattern
kgm2
/min
s
1
°
1· 18034·2002·1
53
53
15.07.2003
14:41 Uhr
Seite 3
Technical Data
EM.16 and EM.NC.16
1. Type designation
FIBROTOR EM.
FIBROTOR EM.NC.
Field 1
EM
EM.NC
NC version
Size
Size
EM.16
EM.NC.16
Standard dimension
Table top lock
Built-in version
0460 mm
0394 mm
0440 mm
0460 mm
.0460
.0394
.0440
.0460
Hydraulic motor
Pneumatic motor
AC-Servo motor
Special brake motor
Special version
without motor
1
3
5
6
7
8
9
0
2. Table top
Field 2
3. Drive motor
Field 3
.1
.3
.5
.6
.7
.8
.9
.0
Field 4
see page 12–13
.XXX
Division 2, 3, 4, 5, 6, 8, 10, 12, 16, 24
NC version
Field 5
EM
EM.NC
.XX
.00
see page 14–15.
Table top lock
Built-in version
Vertical version
Centring ring
Centring flange
1
2
1
2
3
4
1
2
3
Division 2 – 12
Division 14 – 24
over 24
Division 2 – 12
Division 14 – 24
over 24
(rel. to 460 mm)
(rel. to 220 mm)
± 15"
± 20"
± 40"
± 0,017 mm
± 0,022 mm
± 0,045 mm
± 30"
± 10"
± 180"
± 0,033 mm
± 0,011 mm
± 0,200 mm
0,015 mm
0,015 mm
(rel. to 460 mm)
0,040 mm
Field 6
.X
Field 7
.X
Field 8
.X
7. Accuracies
EM
EM
EM
EM
EM
EM
EM.NC
EM.NC
EM.NC
EM.NC
EM.NC
EM.NC
mounting surface
Indexing frequency
Index/dwell angle
Voltage
Motor power
RPM at table top
Centre hole
Working attitude
Weight
54
EM
EM
EM
EM
EM
EM
EM
EM
EM
EM
EM.NC
EM.NC
EM.NC
EM.NC
25 c/min
Special brake motor
max. 50 c/min.
Division 2
330° / 30°
Division 3 – 5
300° / 60°
Division 6 – 12
270° / 90°
over 12
135° / 45°
Motor
230/400 V, 50 Hz, IEC 38
Brake
230 V, AC
CW – CCW rotation
i = 18
i = 180, i ~ 153, i ~199, i ~ 248, i ~ 309
i = 180,000
nmax. = 201/min
110 mm
approx. 220 kg
°
8. Technical data
1· 18035·2002·1
54
15.07.2003
14:38 Uhr
Seite 2
Technical Data
EM.16 and EM.NC.16
Division
2 ts in s
J in kgm2
3 ts in s
J in kgm2
4 ts in s
J in kgm2
5 ts in s
J in kgm2
6 ts in s
J in kgm2
8 ts in s
J in kgm2
10 ts in s
J in kgm2
12 ts in s
J in kgm2
16 ts in s
J in kgm2
20 ts in s
J in kgm2
24 ts in s
J in kgm2
6,20
1300
5,10
1600
5,10
2200
5,10
2800
5,10
3200
5,10
4100
5,10
5200
5,10
5800
2,50
2150
2,50
2700
2,50
3500
5,50
1100
4,20
1100
4,20
1600
4,20
2000
4,00
2200
4,00
2800
4,00
3500
4,00
4200
2,00
1450
2,00
1850
2,00
2400
4,90
900
3,80
950
3,80
1300
3,80
1700
3,40
1600
3,40
2150
3,40
2800
3,40
3300
1,70
1100
1,70
1400
1,70
1800
4,10
3,30
2,90
2,30
650
440
340
220
3,30
2,70
2,40
1,90
750
500
400
250
3,30
2,70
2,40
1,90
1000
700
550
350
3,30
2,70
2,40
1,90
1300
900
720
450
2,70
2,20
1,90
1,75
1100
750
550
480
2,70
2,20
1,90
1,75
1400
980
740
630
2,70
2,20
1,90
1,75
1900
1300
1000
850
2,70
2,20
1,90
1,75
2250
1550
1200
1000
1,50
1,35
1,10
0,95
870
700
480
360
1,50
1,35
1,10
0,95
1100
920
620
450
1,50
1,35
1,10
0,95
1400
1200
800
600
1,90
150
1,50
160
1,50
200
1,50
290
1,20
230
1,20
300
1,20
400
1,20
500
0,85
290
0,85
380
0,85
500
1,45
90
1,20
100
1,20
140
1,20
190
0,95
140
0,95
190
0,95
260
0,95
310
0,60
145
0,60
180
0,60
250
1,30
70
0,95
65
0,95
90
0,95
120
0,70
75
0,70
100
0,70
140
0,70
170
0,49
95
0,49
125
0,49
165
in conjunction with
special brake motor
1,05
0,85
45
30
0,75
0,60
40
22
0,75
0,60
55
35
0,75
0,60
75
47
0,50
0,42
40
27
0,50
0,42
50
37
0,50
0,42
70
50
0,50
0,42
85
60
0,43
0,34
74
45
0,43
0,34
95
60
0,43
0,34
130
80
kgm2
Mass moment of inertia, J in
50
80
120
240
480
18
15
12
10
8
0,2
0,2
0,3
0,4
0,6
153,360
180
198,630
247,824
309,222
2760
2700
2384
2478
2474
14
14
9
7
6
360°
3,63
4,30
5,40
6,50
8,20
180°
1,97
2,30
2,90
3,50
4,45
90°
1,13
1,30
1,65
2,00
2,58
60°
0,86
0,97
1,23
1,50
1,95
45°
0,72
0,80
1,03
1,25
1,64
30°
0,58
0,63
0,82
1,00
1,33
20°
0,49
0,52
0,68
0,83
1,12
10°
0,39
0,41
0,54
0,67
0,91
5°
0,35
0,36
0,47
0,58
0,80
2°
0,32
0,32
0,43
0,53
0,74
11. Load data
Vertical table top
upside-down
horizontal
vertical
horizontal
vertical
upside-down
FIBROTOR EM
FIBROTOR EM.NC
with table top lock
1
kg
3000
kg
800
kg
800
Nm 2000
(Nm 4000)
Nm
900
mm 2200
N
N
N
32000
11000
20000
Nm 7000
(Nm 21000)
Nm 4200
(Nm 12600)
Nm 2300
Nm 1400
Nm
500
(Nm 1900)
2
+
3
Ø
2
Load diagram
does not apply
to vertical
operation and
eccentric load
4
6
5
7
8
9
°
Machining forces
1· 18036·2002·1
55
Transported load
55
15.07.2003
14:42 Uhr
Seite 3
Technical Data
EM.16
210
~ 22
110
196
110
210
360
160
180
195
210
~ 154
~ ø176
~ 150
160
3
98
ø140
+1
plan view:
centring flange
14
22
inductive proximity
switch M12x1
80
Ø12H7-dowel hole,
pre-drilled Ø11
~20 deep
plan view:
stationary flange
(standard)
33
25
790
20 22
dependent on divisons
112
M10x15 deep
terminal box
22
420
~ 316
277
ø110,5
ø12 H7
~ 96
ø17,5
22
reference hole for
division and hole
pattern
295
315
centring ring
on table top
6
stationary flange
(standard)
parallel shaft
gearbox
centring flange,
stationary
40
ø110 H7
ø30
~61,5
25
M10x15 deep
ø230 k6
ø220 k6
ø220 K6
ø190 h11
ø140
2
4
1–4: terminal box can
be placed 4 x 90°
detail X
X
~105
35
237
M12x
20 deep(4x)
ø500
ø464
ø460
table top
venting
clutch
M12x20 deep(8x)
160
225
270
Ø12H7x19 deep
ø370
ø280
10
10
280
215
215
279
hole pattern,
for table mounting
fixtures etc.
EM.16 .
Field 1
.
2
.
3
.
4
.
5
.
6
.
7
8
kgm2
s
°
1· 18037·2002·1
56
56
15.07.2003
14:39 Uhr
Seite 2
Technical Data
EM.NC.16
ø370
ø280
M12x20 deep(8x)
X
~
M12x20
deep (4x)
ø500
ø464
ø460
table top
venting
clutch
142
ø12H7x19 deep
33
196
110
160
225
270
(numbering clockwise
1 to 4)
reference point
switch
M10x15 deep
ø230 k6
ø220 k6
ø220 K6
ø190 h11
ø140
plug connectors for
centring ring
on table top
~ 273
M10x15 deep
215
110
215
360
160
plan view:
centring flange
rotary encoder
ø12H7-dowel hole,
pre-drilled ø11
∼20 deep
plan view:
stationary flange
(standard)
EM.NC.16 .
Field 1
.
2
.
3
.
4
.
5
.
6
.
7
8
ø80
ø58
ø110,5 +1
160
3
98
140
277
stationary
flange
(standard)
180
195
210
160
40
6
~ 742
22
15
112
H7
10
10
ø110
centring flange,
stationary
55
~ 96
430
parallel shaft
gearbox
~ 105
detail X
ø12 H7
ø17,5
22
25
25
4
14
22
32
42
holding brake
24 V, DC
280
215
295
315
35
237
2
215
~ 438
hole pattern,
for table-mounting
fixtures etc.
reference hole
for hole pattern
kgm2
/min
s
1
°
1· 18038·2002·1
57
57
15.07.2003
14:40 Uhr
Seite 3
Technical Data
EM.17 and EM.NC.17
1. Type designation
FIBROTOR EM.
FIBROTOR EM.NC.
Field 1
EM
EM.NC
NC version
Size
Size
EM.17
EM.NC.17
Standard dimension
Table top lock
Built-in version
0558 mm
0446 mm
0548 mm
0558 mm
.0558
.0446
.0548
.0558
Hydraulic motor
Pneumatic motor
AC-Servo motor
Special brake motor
Special version
without motor
1
3
5
6
7
8
9
0
2. Table top
Field 2
3. Drive motor
Field 3
.1
.3
.5
.6
.7
.8
.9
.0
Field 4
see page 12–13
.XXX
Division 2, 3, 4, 5, 6, 8, 10, 12, 16, 24
NC version
Field 5
EM
EM.NC
.XX
.00
see page 14–15.
Table top lock
Built-in version
Vertical version
Centring ring
Centring flange
1
2
1
2
3
4
1
2
3
Division 2 – 12
Division 14 – 24
over 24
Division 2 – 12
Division 14 – 24
over 24
(rel. to 558 mm)
(rel. to 260 mm)
± 15"
± 20"
± 40"
± 0,021 mm
± 0,027 mm
± 0,054 mm
± 30"
± 10"
± 180"
± 0,04 mm
± 0,014 mm
± 0,243 mm
0,02 mm
0,02 mm
(rel. to 558 mm)
0,04 mm
Field 6
.X
Field 7
.X
Field 8
.X
7. Accuracies
EM
EM
EM
EM
EM
EM
EM.NC
EM.NC
EM.NC
EM.NC
EM.NC
EM.NC
mounting surface
Indexing frequency
Index/dwell angle
Voltage
Motor power
RPM at table top
Centre hole
Working attitude
Weight
58
EM
EM
EM
EM
EM
EM
EM
EM
EM
EM
EM.NC
EM.NC
EM.NC
EM.NC
25 c/min
Special brake motor
max. 50 c/min.
Division 2
330° / 30°
Division 3 – 5
300° / 60°
Division 6 – 12
270° / 90°
over 12
135° / 45°
Motor
230/400 V, 50 Hz, IEC 38
Brake
230 V, AC
CW – CCW rotation
i = 18
i = 180, i ~ 153, i ~199, i ~ 248, i ~ 309
i = 180,000
nmax. = 151/min
130 mm
approx. 450 kg
°
8. Technical data
1· 18039·2002·1
58
15.07.2003
14:41 Uhr
Seite 2
Technical Data
EM.17 and EM.NC.17
Division
2 ts in s
6,20
J in kgm2 2600
3 ts in s
5,10
J in kgm2 2800
4 ts in s
5,10
J in kgm2 4200
5 ts in s
5,10
J in kgm2 5000
6 ts in s
5,10
J in kgm2 6000
5,10
8 ts in s
J in kgm2 8000
10 ts in s
5,10
J in kgm2 10000
5,10
12 ts in s
J in kgm2 11000
16 ts in s
2,50
J in kgm2 3800
20 ts in s
2,50
J in kgm2 5500
2,50
24 ts in s
J in kgm2 6500
5,50
2100
4,20
2000
4,20
2900
4,20
3600
4,00
4000
4,00
5500
4,00
6800
4,00
8000
2,00
2500
2,00
3700
2,00
4500
4,90
1700
3,80
1600
3,80
2400
3,80
3000
3,40
3000
3,40
4000
3,40
5200
3,40
6000
1,70
1900
1,70
2750
1,70
3300
4,10
1200
3,30
1250
3,30
1800
3,30
2500
2,70
2000
2,70
2800
2,70
3400
2,70
4100
1,50
1500
1,50
2200
1,50
2600
3,30
800
2,70
850
2,70
1250
2,70
1700
2,20
1300
2,20
1900
2,20
2300
2,20
2800
1,35
1200
1,35
1800
1,35
2200
2,90
600
2,40
650
2,40
1000
2,40
1350
1,90
1000
1,90
1400
1,90
1750
1,90
2100
1,10
800
1,10
1200
1,10
1400
2,30
380
1,90
420
1,90
650
1,90
850
1,75
850
1,75
1200
1,75
1500
1,75
1800
0,95
600
0,95
900
0,95
1100
1,90
250
1,50
260
1,50
400
1,50
540
1,20
400
1,20
550
1,20
700
1,20
880
0,85
480
0,85
720
0,85
880
in conjunction with
1,45
1,30
150
120
1,20
0,95
160
100
1,20
0,95
250
160
1,20
0,95
340
210
0,95
0,70
250
140
0,95
0,70
350
190
0,95
0,70
450
240
0,95
0,70
550
300
0,60
0,49
240
160
0,60
0,49
360
240
0,60
0,49
450
300
special brake motor
1,05
0,85
75
38
0,75
0,60
60
30
0,75
0,60
100
55
0,75
0,60
130
84
0,50
0,42
70
48
0,50
0,42
100
68
0,50
0,42
120
85
0,50
0,42
150
100
0,43
0,34
120
75
0,43
0,34
180
110
0,43
0,34
230
140
kgm2
100
150
200
400
800
15
13
12
10
8
0,2
0,2
0,3
0,4
0,6
153,360
180
198,630
247,824
309,222
2300
2340
2384
2478
2474
38
32
20
14
9
360°
4,30
4,92
5,40
6,50
8,20
180°
2,30
2,61
2,90
3,50
4,45
90°
1,30
1,45
1,65
2,00
2,58
60°
0,97
1,07
1,23
1,50
1,95
45°
0,80
0,88
1,03
1,25
1,64
30°
0,63
0,68
0,82
1,00
1,33
20°
0,52
0,56
0,68
0,83
1,12
10°
0,41
0,43
0,54
0,67
0,91
5°
0,36
0,36
0,47
0,58
0,80
2°
0,32
0,33
0,43
0,53
0,74
11. Load data
Vertical table top
upside-down
horizontal
vertical
horizontal
vertical
upside-down
FIBROTOR EM
FIBROTOR EM.NC
with table top lock
1
kg
5000
kg
1000
kg
1000
Nm 2500
(Nm 5000)
Nm 1100
mm 2800
N
N
N
70000
12000
25000
Nm 9000
(Nm 27000)
Nm 5000
(Nm 15000)
Nm 3000
Nm 1600
Nm
700
(Nm 2500)
2
+
3
Ø
2
Load diagram
does not apply
to vertical
operation and
eccentric load
4
6
5
7
8
9
°
Machining forces
1· 18040·2002·1
59
Transported load
59
15.07.2003
14:38 Uhr
Seite 3
Technical Data
EM.17
detail X
stationary flange
(standard)
2
280
~67
X
30
~115
60
35
120
328
380
M12x20 deep
4
three-phase brake
parallel shaft
motor
gearbox
be placed 4 x 90°
ø280 k6
ø270 k6
ø260 K6
ø230 h11
ø170
ø135 H7
M10x15 deep
M10x15 deep
ø600
ø560
ø558
table top
venting
clutch
153
ø500
ø300
M12x
20 deep
Ø16H7x30 deep
44
335
325
ø17,5
20
ø16 H7
~59
dentring ring
on table top
terminal box
~385
~902
10 20
265
112
32
20
530
centring flange,
stationary
~204
~48
265
440
110
200
8
220
240
265
3
200
277
~172
~ø198
10
10
ø130 +1
380
400
plan view:
centring flange
98
ø140
inductive proximity
switch M12x1
Ø12H7-dowel hole,
pre-drilled Ø11
~20 deep
plan view:
stationary flange
(standard)
14
22
80
400
270
reference hole for
division and hole
pattern
270
fixing hole pattern,
for table-mounting
fixtures etc.
EM.17 .
Field 1
.
2
.
3
.
4
.
5
.
6
.
7
8
kgm2
s
°
1· 18041·2002·1
60
60
15.07.2003
14:47 Uhr
Seite 2
Technical Data
EM.NC.17
~ 142
280
30
280
120
328
380
4
60
35
335
325
2
ø16 H7
~59
530
265
440
200
220
240
265
160
H7
ø12 -dowel hole,
pre-drilled ø11
∼20 deep
.
2
.
3
.
4
.
5
.
6
.
7
8
380
400
200
98
140
ø80
ø58
plan view:
centring flange
rotary encoder
EM.NC.17 .
holding
brake
24 V, DC
3
277
ø130 +1
plan view:
stationary flange
(standard)
55
~105
8
32
10
10
stationary
flange
(standard)
Field 1
X
ø17,5
20
parallel shaft
gearbox
(numbering clockwise
1 to 4)
plug connectors for
centring flange,
stationary
~795
~273
centring ring
20
15
on table top
M10x15 deep
265
112
110
ø280 k6
ø270 k6
ø260 K6
ø230 h11
ø170
ø135 H7
M10x15 deep
table top
venting
clutch
M12x20 deep
reference point switch
detail X
ø600
ø560
ø558
153
ø500
ø300
M12x20
deep
ø16H7x30 deep
44
14
22
32
42
400
270
~ 491
270
reference
hole for
hole pattern
fixing hole
pattern,
for tablemounting
fixtures etc.
kgm2
/min
s
1
°
1· 18042·2002·1
61
61
15.07.2003
14:43 Uhr
Seite 3
Technical Data
EM.18 and EM.NC.18
1. Type designation
FIBROTOR EM.
FIBROTOR EM.NC.
Field 1
EM
EM.NC
NC version
Size
Size
EM.18
EM.NC.18
Standard dimension
Table top lock
Built-in version
0750 mm
0660 mm
0735 mm
0750 mm
.0750
.0660
.0735
.0750
Hydraulic motor
Pneumatic motor
AC-Servo motor
Special brake motor
Special version
without motor
1
3
5
6
7
8
9
0
2. Table top
Field 2
3. Drive motor
Field 3
.1
.3
.5
.6
.7
.8
.9
.0
Field 4
see page 12–13
.XXX
Division 2, 3, 4, 5, 6, 8, 10, 12, 16, 24
NC version
Field 5
EM
EM.NC
.XX
.00
see page 14–15.
Table top lock
Built-in version
Vertical version
Centring ring
Centring flange
1
2
1
2
3
4
1
2
3
Division 2 – 12
Division 14 – 24
over 24
Division 2 – 12
Division 14 – 24
over 24
(rel. to 750 mm)
(rel. to 300 mm)
± 12"
± 16"
± 30"
± 0,022 mm
± 0,029 mm
± 0,054 mm
± 30"
± 10"
± 180"
± 0,055 mm
± 0,018 mm
± 0,327 mm
0,02 mm
0,02 mm
(rel. to 750 mm)
0,04 mm
Field 6
.X
Field 7
.X
Field 8
.X
7. Accuracies
iin length of arc (at 750 mm)
EM
EM
EM
EM
EM
EM
EM.NC
EM.NC
EM.NC
EM.NC
EM.NC
EM.NC
mounting surface
Indexing frequency
Index/dwell angle
Voltage
Motor power
RPM at table top
Centre hole
Working attitude
Weight
62
EM
EM
EM
EM
EM
EM
EM
EM
EM
EM
EM.NC
EM.NC
EM.NC
EM.NC
25 c/min
Special brake motor
max. 50 c/min.
Division 2
330° / 30°
Division 3 – 5
300° / 60°
Division 6 – 12
270° / 90°
over 12
135° / 45°
Motor
230/400 V, 50 Hz, IEC 38
Brake
230 V, AC
CW – CCW rotation
i = 18
i = 180, i ~ 153, i ~197, i ~ 248, i ~ 309
i = 180,000
nmax. = 151/min
180 mm
approx. 800 kg
°
8. Technical data
1· 18043·2002·1
62
15.07.2003
14:43 Uhr
Seite 2
Technical Data
EM.18 and EM.NC.18
Division
2 ts in s
6,20
5,50
4,90
J in kgm2 4000
3300
2600
2V ts in s
9,00
8,00
7,00
J in kgm2 12000
10000
8000
3 ts in s
5,60
5,10
4,20
6000
4000
J in kgm2 7000
4 ts in s
5,60
5,10
4,20
J in kgm2 10000
8500
6000
5 ts in s
5,60
5,10
4,20
J in kgm2 13000
11000
8000
5,10
4,00
3,40
6 ts in s
9500
7000
J in kgm2 15000
8 ts in s
5,10
4,00
3,40
J in kgm2 19000
12000
9000
5,10
4,00
3,40
10 ts in s
15000
11000
J in kgm2 23000
12 ts in s
5,10
4,00
3,40
J in kgm2 26000
17000
13000
16 ts in s
2,50
2,00
1,70
J in kgm2 9400
6200
4500
2,50
2,00
1,70
20 ts in s
J in kgm2 13000
8000
6000
24 ts in s
2,50
2,00
1,70
J in kgm2 15000
10000
7500
2 V = strengthened version, with bevel gearing
4,60
2400
6,20
6500
3,80
3300
3,80
5000
3,80
6700
2,70
4500
2,70
6000
2,70
7500
2,70
8800
1,50
3500
1,50
5000
1,50
6000
4,10
1800
5,50
5200
3,30
2500
3,30
3800
3,30
5200
2,20
3000
2,20
4000
2,20
5000
2,20
5900
1,35
2900
1,35
4000
1,35
4800
3,70
1500
4,90
4200
2,70
1700
2,70
2600
2,70
3600
1,90
2200
1,90
3000
1,90
3800
1,90
4500
1,10
1900
1,10
2700
1,10
3200
3,30
1200
4,10
3000
2,40
1300
2,40
2000
2,40
2800
1,75
1900
1,75
3500
1,75
3200
1,75
3800
0,95
1400
0,95
2000
0,95
2400
2,90
900
3,30
1950
1,90
850
1,90
1300
1,90
1800
1,40
1200
1,40
1600
1,40
2000
1,40
2400
0,85
1100
0,85
1600
0,85
1900
2,70
800
2,90
1500
1,50
500
1,50
800
1,50
1100
1,20
900
1,20
1200
1,20
1500
1,20
1800
0,60
550
0,60
800
0,60
950
in conjunction with
special brake motor
2,30
1,90
600
400
2,30
1,90
950
650
1,20
0,95
320
160
1,20
0,95
500
300
1,20
0,95
700
450
0,95
0,75
600
340
0,95
0,75
750
450
0,95
0,75
950
600
0,95
0,75
1100
700
0,49
0,43
360
280
0,49
0,43
500
400
0,49
0,43
650
500
1,45
200
1,45
370
0,75
70
0,75
140
0,75
230
0,60
160
0,60
280
0,60
360
0,60
450
0,34
160
0,34
250
0,34
300
150
225
300
600
1200
15
13
12
10
8
0,2
0,2
0,3
0,4
0,5
153,360
180
198,630
247,824
309,222
2300
2340
2384
2478
2474
44
34
22
16
10
360°
4,30
4,92
5,40
6,50
8,10
180°
2,30
2,61
2,90
3,50
4,35
90°
1,30
1,45
1,65
2,00
2,48
60°
0,97
1,07
1,23
1,50
1,85
45°
0,80
0,88
1,03
1,25
1,54
30°
0,63
0,68
0,82
1,00
1,23
20°
0,52
0,56
0,68
0,83
1,02
10°
0,41
0,43
0,54
0,67
0,81
5°
0,36
0,36
0,47
0,58
0,70
2°
0,32
0,33
0,43
0,53
0,64
kgm2
11. Load data
Vertical table top
upside-down
horizontal
vertical
horizontal
vertical
upside-down
FIBROTOR EM
FIBROTOR EM.NC
with table top lock
1
kg
6000
kg
1200
kg
1200
Nm 3000
(Nm 6000)
Nm 1250
mm 3500
N
N
N
100000
16000
36000
Nm 12000
(Nm 36000)
Nm 7000
(Nm 21000)
Nm 4000
Nm 2500
Nm
800
(Nm 4000)
2
+
3
Ø
2
Load diagram
does not apply
to vertical
operation and
eccentric load
4
6
5
7
8
9
°
Machining forces
1· 18044·2002·1
63
Transported load
63
15.07.2003
14:43 Uhr
Seite 3
Technical Data
EM.18
X
170
330
2
34
~115
~67
130
420
M12x20 deep
30
60
ø800
ø752
ø750
table top
venting
clutch
49
ø690
ø360
M16x
26 deep
Ø16H7x30 deep
370
360
4
ø310 k6
ø300 k6
ø300 K6
ø260 h11
ø212
ø186 H7
M10x15 deep
M10x15 deep
stationary flange
(standard)
ø16 H7
~95
22
centring ring on
table top
~988
terminal box
355
~385
10
355
8
270
300
320
355
~48
270
~172
~ø198
465
485
3
98
ø140
277
plan view:
centring flange
14
22
inductive proximity
switch M12x1
Ø12H7-dowel hole,
pre-drilled Ø11
~20 deep
plan view:
stationary flange
(standard)
ø320x1
600
112
~204
ø180
ø190
22
700
centring flange,
stationary
32
detail X
ø22
parallel shaft
gearbox
be placed 4 x 90°
10
10
80
540
355
110
reference hole for
division and hole
pattern
355
fixing hole pattern,
for table-mounting
fixtures etc.
EM.18 .
Field 1
.
2
.
3
.
4
.
5
.
6
.
7
8
kgm2
s
°
1· 18045·2002·1
64
64
15.07.2003
14:43 Uhr
Seite 2
Technical Data
EM.NC.18
plug connectors
for power
and
~323
monitoring
centring flange,
stationary
centring ring
on table top
ø16 H7
~95
ø22
22
M10x15 deep
330
21
700
~931
15
355
355
112
600
270
10
M10x15 deep
34
330
130
420
4
parallel shaft
gearbox
be placed 4 x 90°
ø310 k6
ø300 k6
ø300 K6
ø260 h11
ø212
ø186 H7
detail X
X
2
60
30
370
360
~ 142
M12x20 deep
reference point switch
ø800
ø752
ø750
table top
venting
clutch
170
ø690
ø360
M16x26 deep
ø16H7x30 deep
49
300
320
355
~ 105
465
485
ø80
ø58
plan view:
centring flange
plan view:
stationary flange
(standard)
3
270
ø180
ø190
98
ø140
277
160
10
7
32
126
ø12H7-dowel hole,
pre-drilled ø11,
∼20 deep
rotary
encoder
14
22
32
42
540
355
110
~ 577
EM.NC.18 .
Field 1
.
2
.
3
.
4
.
5
.
6
.
7
8
holding
brake
24 V, DC
355
fixing hole pattern, for
table-mounting fixtures etc.
reference hole for
hole pattern
kgm2
/min
s
1
°
1· 18046·2002·1
65
65
15.07.2003
14:44 Uhr
Seite 3
Technical Data
EM.19 and EM.NC.19
1. Type designation
FIBROTOR EM.
FIBROTOR EM.NC.
Field 1
EM
EM.NC
NC version
Size
Size
EM.19
EM.NC.19
Standard dimension
Table top lock
Built-in version
1000 mm
0930 mm
1000 mm
1000 mm
.1000
.0930
.1000
.1000
Hydraulic motor
Pneumatic motor
AC-Servo motor
Special brake motor
Special version
without motor
1
3
5
6
7
8
9
0
2. Table top
Field 2
Table top dimensions - see page 15
3. Drive motor
Field 3
.1
.3
.5
.6
.7
.8
.9
.0
Field 4
see page 12–13
.XXX
Division 2, 3, 4, 5, 6, 8, 10, 12, 16, 24
NC version
Field 5
EM
EM.NC
.XX
.00
see page 14–15.
Table top lock
Built-in version
Vertical version
Centring ring
Centring flange
1
2
1
2
3
4
1
2
3
Division 2 – 12
Division 14 – 24
over 24
Division 2 – 12
Division 14 – 24
over 24
(rel. to 1000 mm)
(rel. to 300 mm)
± 12"
± 16"
± 30"
± 0,030 mm
± 0,035 mm
± 0,072 mm
± 30"
± 10"
± 120"
± 0,073 mm
± 0,024 mm
± 0,291 mm
0,02 mm
0,02 mm
(rel. to 1000 mm)
0,04 mm
Field 6
.X
Field 7
.X
Field 8
.X
7. Accuracies
EM
EM
EM
EM
EM
EM
EM.NC
EM.NC
EM.NC
EM.NC
EM.NC
EM.NC
mounting surface
Indexing frequency
Index/dwell angle
Voltage
Motor power
RPM at table top
Centre hole
Working attitude
Weight
66
EM
EM
EM
EM
EM
EM
EM
EM
EM
EM.NC
EM.NC
EM.NC
EM.NC
15 c/min
Division 2
330° / 30°
Division 3 – 5
300° / 60°
Division 6 – 12
270° / 90°
over 12
135° / 45°
Motor
230/400 V, 50 Hz, IEC 38
Brake
230 V, AC
CW – CCW rotation
i = 18
i = 180, i = 280, i =504, i = 720
i = 180,000
nmax. = 121/min
180 mm
approx. 1500 kg
°
8. Technical data
1· 18047·2002·1
66
15.07.2003
14:44 Uhr
Seite 2
Technical Data
EM.19 and EM.NC.19
Division
2 ts in s
J in kgm2
3 ts in s
J in kgm2
4 ts in s
J in kgm2
5 ts in s
J in kgm2
6 ts in s
J in kgm2
8 ts in s
J in kgm2
10 ts in s
J in kgm2
12 ts in s
J in kgm2
16 ts in s
J in kgm2
20 ts in s
J in kgm2
24 ts in s
J in kgm2
7,75
10000
7,75
20000
7,0
31000
7,0
37000
6,3
37000
6,3
48000
4,0
28000
4,0
33000
4,0
46000
4,0
55000
4,0
62000
6,85
7000
6,85
14000
5,85
22000
5,85
27000
5,3
27000
5,3
35000
3,2
17000
3,2
21000
3,2
30000
3,2
37000
3,2
42000
5,0
4300
5,0
8600
4,5
14000
4,5
17000
4,0
17000
4,0
22000
2,5
10500
2,5
13000
2,5
19000
2,5
26000
2,5
30000
3,9
2600
3,9
5200
3,55
8500
3,55
10500
3,2
10500
3,2
13500
2,0
7000
2,0
8700
2,0
13000
2,0
16000
2,0
19000
3,4
2000
3,4
4000
2,75
5200
2,75
6400
2,5
6400
2,5
8300
1,8
5500
1,8
6800
1,8
10000
1,6
10500
1,6
12000
3,0
1600
3,0
3200
2,5
4200
2,5
5200
2,0
4300
2,0
5500
1,6
4400
1,6
5400
1,6
8200
1,25
6400
1,25
7400
2,5
1000
2,5
2000
2,25
3500
2,25
4300
1,8
3400
1,8
4400
1,4
3300
1,4
4200
1,4
6400
1,0
4300
1,0
5000
2,2
800
2,2
1600
2,0
2700
2,0
3400
1,6
2700
1,6
3500
1,15
2200
1,15
2800
1,15
4200
0,8
2600
0,8
3100
1,95
650
1,95
1300
1,75
2100
1,75
2700
1,4
2000
1,4
2600
1,0
1650
1,0
2100
1,0
3200
0,6
1350
0,6
1600
1,7
500
1,7
1000
1,55
1600
1,55
2000
1,15
1350
1,15
1800
0,8
1100
0,8
1400
0,8
2100
0,4
650
0,4
800
kgm2
300
600
1000
1600
2400
12
10
8
6
4
0,2
0,3
0,4
0,5
0,6
180
288
288
504
720
2160
2880
2304
3024
2880
60
40
22
12
10
360°
5,30
6,40
8,00
10,60
15,70
180°
2,80
3,40
4,25
5,60
8,20
90°
1,55
1,90
2,38
3,10
4,45
60°
1,13
1,40
1,75
2,27
3,20
45°
0,93
1,15
1,44
1,85
2,58
30°
0,72
0,90
1,13
1,43
1,95
20°
0,58
0,73
0,92
1,16
1,53
10°
0,44
0,57
0,71
0,88
1,12
5°
0,37
0,48
0,60
0,74
0,91
2°
0,33
0,43
0,54
0,66
0,78
11. Load data
Vertical table top
upside-down
horizontal
vertical
horizontal
vertical
upside-down
FIBROTOR EM
FIBROTOR EM.NC
with table top lock
1
kg
7000
kg
1250
kg
1000
Nm 3500
(Nm 7000)
Nm 1500
mm 4500
N
N
N
125000
20000
50000
Nm 15000
(Nm 45000)
Nm 9000
(Nm 24000)
Nm 7000
Nm 5000
Nm 1000
(Nm 9000)
2
+
3
Ø
2
Load diagram
does not apply
to vertical
operation and
eccentric load
4
6
5
7
8
9
°
Machining forces
1· 18048·2002·1
67
Transported load
67
15.07.2003
14:44 Uhr
Seite 3
Technical Data
EM.19
venting
230
ø420
180
425
458
468
ø420
ø350
338
26
126
X
30
60
15
25
ø310 k6
ø300 k6
ø300 K6
ø260 h11
ø212
ø186 H7
detail X
50
M16 x 30 deep
1
Ø16H7x 30
deep
ø1060
ø1004
ø1000
ø700
centring flange
M10 x 15 deep
ø20 H7 (2x)
ø26
425
425
465
400
465
400
375
160
ø221
179
number of
cam followers
dependent
on divisions
Ø12H7-dowel hole,
pre-drilled Ø11
~20 deep
320
bevel gear drive with
brake motor
1075
585
610
140
ø157
plan view:
centring flange
ø250
350
257
terminal box
plan view:
stationary flange
(standard)
400
425
465
189
ø180
ø220
465
centring ring
on table top
stationary
flange
(standard)
139
10
10
7
50
M10 x 15 deep
30
ø900
ø360
M16 x 30 deep
520
450
330
330
600
inductive
proximity switch
M12x1
EM.19 .
Field 1
.
2
.
3
.
4
.
5
.
6
.
7
8
kgm2
s
°
1· 18049·2002·1
68
68
15.07.2003
14:44 Uhr
Seite 2
Technical Data
EM.NC.19
100
30
60
30
25
centring flange,
stationary
15
ø20 H7 (2x)
ø26
425
425
465
400
465
400
375
M10 x 15 deep
160
rotary
encoder
50
M10 x 15 deep
Ø12H7-dowel hole,
pre-drilled Ø11
~20 deep
Field 1
38
223
low backlash servo-gearing
.
2
.
3
.
4
.
5
.
6
.
7
8
585
610
plan view:
centring flange
EM.NC.19 .
350
402,5
300
152,5
ø110
plug connectors for
plan view:
stationary
flange
(standard)
ø190
14
ø180
ø220
313
centring ring
on table top
stationary
flange
(standard)
98
ø140
400
425
465
4
10
10
7
three-phase
servo motor
1075
ø310 k6
ø300 k6
ø300 K6
ø260 h11
ø212
ø186 H7
detail X
ø58
ø80
ø420
335
137,5
180
425
458
468
520
450
X
reference point
switch
50
venting
230
ø420
M16 x 30 deep
1
Ø16H7x 30
deep
ø1060
ø1004
ø1000
ø700
30
ø900
ø360
M16 x 30 deep
330
577,5
330
520
80
holding
brake
24 V, DC
kgm2
1
/min
s
°
1· 18050·2002·1
69
69
15.07.2003
14:45 Uhr
Seite 3
Technical Data
EM.20 and EM.NC.20
1. Type designation
FIBROTOR EM.
FIBROTOR EM.NC.
Field 1
EM
EM.NC
NC version
Size
Size
EM.20
EM.NC.20
Standard dimension
Table top lock
Built-in version
1250 mm
1150 mm
1220 mm
1250 mm
.1250
.1150
.1220
.1250
Hydraulic motor
Pneumatic motor
AC-Servo motor
Special brake motor
Special version
without motor
1
3
5
6
7
8
9
0
2. Table top
Field 2
3. Drive motor
Field 3
.1
.3
.5
.6
.7
.8
.9
.0
Field 4
see page 12–13
.XXX
Division 2, 3, 4, 5, 6, 8, 10, 12, 16, 24
NC version
Field 5
EM
EM.NC
.XX
.00
see page 14–15.
Table top lock
Built-in version
Vertical version
Centring ring
Centring flange
1
2
1
2
3
4
1
2
3
Division 2 – 12
Division 14 – 24
over 24
Division 2 – 12
Division14 – 24
over 24
(rel. to 1250 mm)
(rel. to 300 mm)
± 12"
± 16"
± 30"
± 0,038 mm
± 0,044 mm
± 0,090 mm
± 30"
± 10"
± 120"
± 0,091 mm
± 0,030 mm
± 0,363 mm
0,05 mm
0,02 mm
(rel. to 1250 mm)
0,10 mm
Field 6
.X
Field 7
.X
Field 8
.X
7. Accuracies
EM
EM
EM
EM
EM
EM
EM.NC
EM.NC
EM.NC
EM.NC
EM.NC
EM.NC
mounting surface
Indexing frequency
Index/dwell angle
Voltage
Motor power
RPM at table top
Centre hole
Working attitude
Weight
70
EM
EM
EM
EM
EM
EM
EM
EM
EM
EM.NC
EM.NC
EM.NC
EM.NC
10 c/min
Division 2
330° / 30°
Division 3 – 5
300° / 60°
Division 6 – 12
270° / 90°
over 12
135° / 45°
Motor
230/400 V, 50 Hz, IEC 38
Brake
230 V, AC
CW – CCW rotation
i = 18
i = 180, i = 280, i = 504, i = 720
i = 180,000
nmax. = 121/min
180 mm
approx. 2200 kg
°
8. Technical data
1· 18051·2002·1
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14:45 Uhr
Seite 2
Technical Data
EM.20 and EM.NC.20
Division
2 ts in s
J in kgm2
3 ts in s
J in kgm2
4 ts in s
J in kgm2
5 ts in s
J in kgm2
6 ts in s
J in kgm2
8 ts in s
J in kgm2
10 ts in s
J in kgm2
12 ts in s
J in kgm2
16 ts in s
J in kgm2
20 ts in s
J in kgm2
24 ts in s
J in kgm2
8,2
22000
7,4
27000
7,4
45000
7,4
55000
7,4
70000
7,4
87500
7,4
100000
7,4
120000
7,4
140000
4,1
70000
4,1
80000
7,2
17500
6,5
22000
6,5
36000
6,5
44000
6,5
57000
6,5
72000
6,5
90000
6,5
100000
6,5
120000
3,4
50000
3,4
58000
6,1
13000
5,6
18000
5,6
27000
5,6
33000
5,6
43000
5,6
52000
5,6
70000
5,6
80000
5,6
96000
3,0
40000
3,0
47000
5,5
10500
5,0
14500
5,0
21500
5,0
27000
5,0
35000
5,0
45000
5,0
57000
5,0
65000
5,0
80000
2,8
35000
2,8
41000
5,0
9000
4,5
12500
4,5
18000
4,5
22500
4,5
30000
4,5
38000
4,5
48000
4,5
55000
4,5
70000
2,4
27000
2,4
32000
4,2
6500
3,8
9000
3,8
13000
3,8
16300
3,8
22000
3,8
28000
3,8
36000
3,8
41000
3,8
53000
2,0
19000
2,0
22000
3,9
5600
3,3
6400
3,3
10000
3,3
12500
3,3
16500
3,3
22000
3,3
27500
3,3
32000
3,3
41000
1,6
12000
1,6
14000
3,6
4900
2,7
4500
2,7
7000
2,7
8800
2,7
11700
2,7
15800
2,7
19750
2,7
22500
2,7
30000
1,2
7500
1,2
8700
3,0
3500
2,1
2700
2,1
4300
2,1
5400
2,1
7200
2,1
9800
2,1
12250
2,1
14000
2,1
19000
1,0
5000
1,0
5800
2,4
2100
1,6
1500
1,6
2500
1,6
3200
1,6
4250
1,6
5800
1,6
7250
1,6
8500
1,6
11500
0,75
2900
0,75
3200
kgm2
600
1200
2000
3200
4800
12
10
8
6
4
0,4
0,4
0,5
0,6
0,8
180
288
288
504
720
2160
2880
2304
3024
2880
90
70
50
35
20
360°
5,50
6,50
8,10
10,70
15,90
180°
3,00
3,50
4,35
5,70
8,40
90°
1,75
2,00
2,48
3,20
4,65
60°
1,33
1,50
1,85
2,37
3,40
45°
1,13
1,25
1,54
1,95
2,78
30°
0,92
1,00
1,23
1,53
2,15
20°
0,78
0,83
1,02
1,26
1,73
10°
0,64
0,67
0,81
0,98
1,32
5°
0,57
0,58
0,70
0,84
1,11
2°
0,53
0,53
0,64
0,76
0,98
11. Load data
Vertical table top
upside-down
horizontal
vertical
horizontal
vertical
upside-down
FIBROTOR EM
FIBROTOR EM.NC
with table top lock
1
kg
8000
kg
1250
kg
1000
Nm 4000
(Nm 8000)
Nm 1500
mm 5500
N
N
N
150000
25000
62500
Nm 18750
(Nm 56250)
Nm 9000
(Nm 24000)
Nm 7000
Nm 10000
Nm 12500
(Nm 18000)
2
+
3
Ø
2
Load diagram
does not apply
to vertical
operation and
eccentric load
4
6
5
7
8
9
°
Machining forces
1· 18052·2002·1
71
Transported load
71
15.07.2003
14:45 Uhr
Seite 3
Technical Data
EM.20
detail X
270
20
ø26
465
465
405
338,4
50
ø300
ø221
number of
cam followers
dependent
on divisions
179
Ø12H7-dowel hole,
pre-drilled Ø11
~20 deep
575
ø186
plan view:
centring flange
160
277
terminal box
420
ø180
1350
465
189 139
centring ring
on table top
483,3
590
615
7
10
10
405
338,4
200
M10 x 15 deep
plan view:
stationary flange
(standard)
20
860
centring flange,
stationary
M10 x 15 deep
stationary
flange
(standard)
ø20 H7 (2x)
35
5
80
35
ø310 k6
ø300 k6
ø300 K6
ø260 h11
ø212
ø186 H7
ø490
180
495
533
548
ø490
ø390
414
32
149
X
50
M20 x 30 deep
venting
390
bevel gear drive
with brake motor
345
345
670
710
735
Ø16H7x 30
deep
ø1320
ø1254
ø1250
ø980
1
ø1100
ø360
M16 x 30 deep
600
525
inductive
proximity
switch
M12x1
EM.20 .
Field 1
.
2
.
3
.
4
.
5
.
6
.
7
8
kgm2
s
°
1· 18053·2002·1
72
72
15.07.2003
14:45 Uhr
Seite 2
Technical Data
EM.NC.20
venting
reference point
switch
ø310 k6
ø300 k6
ø300 K6
ø260 h11
ø212
ø186 H7
detail X
ø490
270
20
ø26
465
465
405
338,4
M10 x 15 deep
ø140
50
ø20 H7 (2x)
20
860
centring flange,
stationary
M10 x 15 deep
405
338,4
rotary
encoder
200
98
483,3
590
615
Ø12H7-dowel hole,
pre-drilled Ø11
~20 deep
38
plan view:
stationary flange
(standard)
low backlash servo-gearing
EM.NC.20 .
.
2
.
3
.
4
.
5
.
6
.
7
8
243
345
345
80
710
735
420
ø190
152,5
402,5
300
plan view:
centring flange
1350
4
313
plug connectors for
ø110 14
ø180
575
10
10
7
three-phase
servo motor
centring ring
on table top
stationary
flange
(standard)
Field 1
ø58
ø80
ø490
335
100 137,5
80
35
180
495
533
545
600
525
X
50
M20 x 30 deep
35
Ø16H7x 30
deep
ø1320
ø1254
ø1250
ø980
1
ø1100
ø360
M16 x 30 deep
holding
brake
24 V, DC
kgm2
/min
s
1
°
1 · 18054·2002·1
73
73
15.07.2003
14:46 Uhr
Seite 3
Design drawings from the Internet
for all CAD systems
FIBROTOR® Indexing Tables
You can access a CAD database via the FIBRO website
http://www.fibro.de.
This database contains the FIBROTOR® EM and
FIBROTOR® EM.NC indexing tables in all standard
formats (2D and 3D) and also FIBRO Standard Parts.
You can access the database directly at
http://fibro.partserver.de. When you have selected
the indexing table you require, the data is e-mailed
direct to you. Data requests are logged.
All standard CAD systems are supported.
2D and 3D data are available for about
700 FIBROTOR® models.
Just let us know if you would like us to send you the
FIBROTOR® catalogue in pdf.
Languages: German, English, French.
We shall be pleased to supply any further information
you may require.
°
The electronic catalogue includes a type determination sheet for
Word 97 and a spreadsheet for Excel 97. These files can be stored
directly on a PC. The files are protected in each case and permit input
only in certain fields.
1· 18061·2002·1
74
74
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Seite 2
Determination of
the moment of inertia
1.
Bodies with central axis
1.1
2.
Solid cylinder or flat disc
rotating about its own axis.
2.1
Bodies with offset axis
r
Solid cylinder or flat disc
rotating about an external
axis.
D
2
J= D x m
8
J=
D
D8 + r x m
2
2
D
1.2
Hollow cylinder or flat ring
rotating about its own axis.
D
2.2
Hollow cylinder or flat ring
rotating about an external
axis.
r
D
2
2
J = D +d x m
8
d
2
2
J = D +d + r2
8
d
xm
D
D
1.3
Solid cylinder rotating about
an axis perpendicular to its
central axis.
L
J=
D
2.3
r
Solid cylinder rotating
about an external axis
perpendicular to its own
central axis.
L +D
xm
12
16 2
2
2
2
J = L + D + r2 x m
12 16
D
L
1.4
Hollow cylinder rotating about
an axis perpendicular to its
central axis.
L
J=
d
2.4
r
Hollow cylinder rotating
about an external axis
perpendicular to its own
central axis.
L D +d
+
xm
12
16 2
2
2
d
D
D
J=
L + D +d
12
16
2
2
2
+ r2 x m
L
1.5
B
A
Rectangular plate of any
thickness rotating about one
central axis.
2.5
r
B
2
2
J = A +B x m
12
Rectangular plate of any
thickness rotating about
an external central axis
parallel to the axis of
symmetry.
A
J=
1.6
Long thin rod of any crosssection rotating about one
central axis.
L
2
J= L x m
12
2.6
r
L
J=
J = Moment of inertia in kgm2
Dimensions in meters, masses in kg
+B
A 12
2
2
+ r2
xm
Long thin rod of any crosssection rotating about an
external axis perpendicular
to its own central axis.
°
1· 18055·2002·1
75
J = Moment of inertia in kgm2
Dimensions in meters, masses in kg
L +
r xm
12
2
2
75
15.07.2003
14:46 Uhr
Seite 3
Type Ordering Sheet
Sender:
Company
Name
FIBRO GMBH
Dept. Indexing Table
P.O. Box 1120
Department
D-74183 Weinsberg
Fax
Federal Republic of Germany
Inquiry No.
Fax: (0049)(0)7134/73-120
FIBRO Representative
Name
FIBROTOR® EM.
Telephone
Street
City
E-mail
FIBROTOR® EM.NC.
1.
Division EM.
(number of stations)
2.
Installation attitude
horizontal
vertical
upside-down
clockwise
anti-clockwise
cw and ccw
4.
Specifications for the calculation of mass moment of inertia and of transported load moment
4.1 Additional table top
Material
Diameter
Thickness
Weight
Mass moment of inertia
mm
mm
kg
kgm2
8
(kgm2)
mm
kgm2
m = weight in kg
4.4 Load moment
Moments resulting from
transported load on vertical
table top (if applicable)
Nm
76
m ⋅ Da2
Da = diameter in m
kgm2
Desired indexing time and
indexing frequency
5.1 Indexing time
(ts + approx. 10%)
(time from “Activate Start” signal
to S10 “Table top at standstill” signal)
Calculation for shortest indexing time
Calculation for max. life time
=
kg
4.3 ∑ Moment of inertia
5.2 Indexing frequency
Mass moment of inertia for solid body
J
4.2 Workpiece and Fixture
Individual weight
Number
Mounting radius
Moment of inertia
5
pendulum
Da
m
Moment of inertia from individual weights
(approximate equation)
J m ⋅ c ⋅ r2 ⋅ 1,1 (kgm2)
r
m = individual weight in kg
c = number
r = mounting radius m
s
m
°
3.
Division or angular increment
(for determining indexing time)
1· 18057·2002·1
76
c/min
Word document in the Internet for downloading
15.07.2003
14:46 Uhr
Seite 2
Type Ordering Sheet
6.
Machining forces
Moment due to machining
forces and transported load
7.
8.
Nm
Tilting moment on rotating
table top, horizontal
Nm
Tilting moment on locked
table top, vertical
Nm
Tilting moment on rotating
table top, vertical
Nm
Nm
Tangential moment on
rotating table top
Nm
Drive motor
prepared for subsequent fitting of motor
Three-phase brake motor
Three-phase motor with clutch-brake coupling unit
2 speed, 3-phase brake motor
DC-servo motor
Hydraulic motor
Pneumatic motor
AC-servo motor
Special brake motor
8.1 Drive arrangements
°
9.
Momentum
Moment from
transported load
Tilting moment on locked
table top, horizontal
Tangential moment on locked
table top
1· 18058·2002·1
77
Additional assemblies
Built-in version
Vertical version
Centring ring
Voltage
Frequency
Brake Voltage
Protective enclosure (Standard IP 54)
Motor protecting cover
for wet machining
V
Hz
V
Remarks relating to drive:
Code number
Hydraulic table top clamping
with adapter ring
with base plate
Centring flange
10. Limit switches
2 proximity switches M12x1, plug-in type (standard)
2 antivalent proximity switches with connector
2 proximity switches M 12x1, welding current-resistant Position detection
Safety switches
Protective cover for wet machining
11. Measuring system (EM.NC. only)
Incremental encoder, 1500 lines
Measuring system at motor
Frequency inverter
Active power meter for EM
CNC-Control for EM.NC
12. Electric components
FIBROTOR® Control Card for EM.
Control unit in switch cabinet for EM
Electronic contactor for EM
Frequency inverter with indexing
table software
77
14:46 Uhr
Seite 3
Type Ordering Sheet
13. Accessories
Material:
Boring pattern:
D2:
H2:
Upper table top
Material:
Boring pattern:
D3:
H3:
H6:
Lower table top
Material:
Boring pattern:
D1:
H1:
H5:
Machine column
D4:
H4:
H3
H6
Upper table top,
stationary
D1
D2
D3
H2
15.07.2003
Lower table top,
stationary
Machine column
14. Painting
Standard: RAL 7039 quartz grey
(EM.10 and EM.NC.10 anodized)
H4
H5
H1
Special painting:
°
Remarks
1· 18059·2002·1
78
78
15.07.2003
14:47 Uhr
Seite 2
Ordering Code (example)
Field 1
Electro-mechanical indexing table
FIBROTOR® type
E M.
2
3
4
5
6
7
8
E M. N C.
Constructional size of table (see data sheets)
Diameter of table top
(for additional assemblies see pgs. 14+ 15)
Drive motor
(see pg. 11)
Drive arrangement (see pgs. 12+ 13)
Indexing division (respectively NC-version)
Additional assemblies (see pgs. 14 + 15)
Additional specific data required:
Mass moment of inertia J in kgm2 resulting from
transported load
Indexing time ts in seconds for index angle
Transported load moment, on vertical table models
Accessories (pgs. 18 – 24)
Written detail when ordering
e.g. with additional table top ∅ 800 dia. × 22
of aluminium
upper table top
∅ 320 dia. × 25
°
height H 6 = 30 mm
1· 18060·2002·1
79
79
15.07.2003
14:48 Uhr
Seite 3
Application examples
FIBROTOR® EM. with counter-bearing and rocker
°
FIBROTOR® EM.NC.16 with machine column,
lower table top,
carrier plate vertically adjustable
additional table top
1· 18062·2002·1
80
Combination of 3 units of
FIBROTOR® EM.NC.01.0160.0.000.00.0.4.0 with common base plate
80
15.07.2003
14:47 Uhr
Seite 2
°
1· 18056·2002·1
81
Product range
Product Overview
FIBROTAKT®
FIBRO produces various models of rotary indexing tables, so users
can be sure of finding the ideal solution for any application.
Just ask for more information on our full range of rotary indexing
tables.
The FIBROTAKT ® indexing table is an established range under
continuous development and improvement. Produced for use as an
indexing axis in machine tools, rotary indexing machines, production
and manufacturing systems of various types.
The FIBROTAKT® is used to mount fixtures and work pieces or as
tool holders.
A characteristic of the FIBROTAKT® is the principal function of clamping
into a face gear, that affords high indexing accuracy and extreme
rigidity.
• High indexing accuracy up to ± 1,5”
• High repeatability (20–30 % of the indexing accuracy)
• High rigidity against applied machining forces
• High reliability and long life
Range available with nominal diameters from 100 to 2000 mm
FIBROPLAN®
FIBROTAKT® Flush-Mount Tables
The well-graded range of FIBROPLAN® NC-Rotary Tables is
characterised by the very extensive capabilities of the rotary table
movement and angular positioning, both under full CNC-control.
FIBROPLAN® NC-Rotary Tables are used on machine tools of diverse
type and description, with the control of their rotational axis provided
either by an additional control axis of the machine's CNC, or by a
separate CNC-unit for the rotary table itself.
FIBROPLAN® Rotary Tables are the result of progressive, noncompromising design concepts, aimed at utmost versatility and
operational rigidity. These attributes, together with drive – and control
elements of outstanding quality, enable the user to achieve:
• unrestricted rotary positioning in freely selectable sequence and
magnitude
• positioning accuracies from ± 3” (direct measuring system) to ±10”
(indirect measuring system)
• high precision in terms of radial and facial runout, due to selected,
preloaded radial/axial combination bearings of the largest possible
diameter
Range is available in any size from 160 mm to 1600 mm in
horizontal and vertical execution
FIBROTAKT® Flush-Mount Tables with face gear were developed for
use on rotary transfer machines. The concept derives from the well-tried
FIBROTAKT®-series and is based on the principle of combining indexing
and locking in a non-lifting system of face gear rings. Besides many
other special advantages, FIBROTAKT® Flush-Mount Tables offer the
following benefits:
• housing of uninterrupted round shape.
Underslung drive train.
• great rigidity, by virtue of locking into face gear rings of largest
possible diameter
• high indexing accuracy up to ±1”
• very fast indexing times with heavy table loads
• special designs for specific applications
Range available in any size from 345 mm to 2500 mm in
horizontal and vertical execution
81
15.07.2003
1
Normalien
Standard Parts
Eléments normalisés
2
Rundschalttische
Indexing Tables
Plateaux diviseurs
3
Automation+Robotik
Automation+Robotics
Automatisme+robotique
13:46 Uhr
DE
123
14000
123
28000
23
30000
33000
1 31000
1 33000
1 35000
23
40000
1 42000
1 42000
1 57000
1 58000
1 64000
23
65000
23
71000
23
72000
1 74000
1 74000
Seite 2
Vertretungen
Representatives
Représentations
Postleitzahlgebiet
Zip Code
Code postal
1 Heinrich Siggel GmbH
Waldstraße 1 · 14163 Berlin
Tel. 030-802 90 13 · Fax 030-802 90 14
[email protected]
75000
Walter Ruff GmbH
Postfach 110266 · 28082 Bremen
Heerenholz 9 · 28307 Bremen
Tel. 0421-438 78-0 · Fax 0421-438 78-22
[email protected] · www.praeziruff.de
76000
Außendienst Karl-Heinz Keßler
Mehlstraße 8 · 33729 Bielefeld
Tel. 0521-764 43 · Fax 0521-770 75 58
Mobil-Tel. 0170-564 34 15
[email protected]
Walter Ruff GmbH Präzisionswerkzeuge
Berliner Straße 28 · 31174 Schellerten
Tel. 05123-20 40 · Fax 05123-26 40
1 1 78000
123
80000
Nestle & Koch · Stahllager GmbH
Maximilianstraße 159 · 75172 Pforzheim
Tel. 07231-457 67-0 · Fax 07231-457 67 99
[email protected]
Außendienst Wilhelm Volk
Rintheimer Hauptstraße 135 · 76131 Karlsruhe
Tel. 0721-61 20 95 · Fax 0721-61 20 95
Mobil-Tel. 0710-850 56 86
Hamacher GmbH
Postfach 3308 · 78022 VS-Schwenningen
Grabenäckerstraße 47 · 78054 VS-Schwenningen
Tel. 07720-349 69 · Fax 07720-341 73
[email protected]
www.hamacher-normalien.de
Jugard & Künstner GmbH
Landsberger Straße 289/l · 80687 München
Tel. 089-546 15 60 · Fax 089-580 27 96
[email protected]
www.jugard-kuenstner.de
Oltrogge & Co.
Postfach 102093 · 33520 Bielefeld
1 2 3 Jugard & Künstner GmbH
Finkenstraße 61 · 33609 Bielefeld
Postfach 900152 · 90492 Nürnberg
Tel. 0521-32 08-0 · Fax 0521-32 08-129
Thomas-Mann-Straße 63 · 90471 Nürnberg
[email protected] · www.oltrogge.de 90000
Tel. 0911-86 08 11 · Fax 0911-86 08 90
Schwab GmbH
[email protected]
Postfach 1209 · 35323 Mücke
www.jugard-kuenstner.de
Bergwiesenstraße 10 · 35325 Mücke
Tel. 06400-80 11 · Fax 06400-80 12
1 HELD Werkzeugmaschinen
Präzisionswerkzeuge GmbH
Ing. Büro für Automation Dirk Ahke VDI
07500
Tivolistraße 1 · 07545 Gera
Zum Wenzelnberg 2a · 40764 Langenfeld
Tel. 0365-824 91-0 · Fax 0365-824 91 11
Tel. 02173-270 41-0 · Fax 02173-270 41-30
e-mail: [email protected] · www.held-wzm.de
[email protected]
2
3
Außendienst Stefan Schumann
FIBRO GmbH Auslieferungslager
Forstweg 44 · 07570 Weida
Postfach 110420 · 42664 Solingen
07500
Tel. 036603-408 02 · Fax 036603-602 37
Heiligenstock 34 · 42697 Solingen
Mobil-Tel. 0170-564 51 15
Tel. 0212-38 20 68-0 · Fax 0212-382 06 89
[email protected]
[email protected] · www.fibro.com
Außendienst Hartwig Hennemann
Staubenthaler Höhe 79
42369 Wuppertal
Tel. + Fax 0202-759 55 80
Mobil-Tel. 0175-296 59 30
[email protected]
Normalien-Zentrale-Siegerland Bernd Kreitzberg
Postfach 1132 · 57225 Wilnsdorf
Rudersdorfer Straße 18 · 57234 Wilnsdorf
Tel. 02739-25 44 · Fax 02739-41 16
Mobil-Tel. 0170-274 27 95
AT
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1 Stahlschmidt Industriebedarf und -vertretungen
Postfach 65 · 58846 Herscheid
Eichenweg 12 · 58849 Herscheid
Tel. 02357-30 99 · Fax 02357-22 55
Mobil-Tel. 0171-642 57 97
[email protected]
www.stahlschmidt-industrievertretung.de
23
Außendienst Volker Hottes
Erzberger Straße 1 · 64846 Groß-Zimmern
Tel. 06071-416 10 · Fax 06071-416 10
Mobil-Tel. 0171-957 79 89
[email protected]
123
Außendienst Guido Steinbrück
Gartenfeldstraße 28 · 65396 Walluf
Tel. 06123-70 46 90 · Fax 06123-70 46 91
Mobil-Tel. 0171-229 45 14
[email protected]
23
Außendienst Ingmar Schimmer
Beethovenstraße 41 · 71711 Steinheim/Murr
Tel. 07144-89 02 64 · Fax 07144-89 02 63
Mobil-Tel. 0170-331 42 03
Außendienst Peter Finkenbeiner
Grüner Weg 2 · 72218 Wildberg
Tel. 07054-83 07 · Fax 07054-92 89 59
Mobil-Tel. 0170-564 31 78
[email protected]
Außendienst Matthias Ehrenfried
Breisgaustraße 9 · 74172 Neckarsulm
Tel. 07132-98 94 82 · Fax 07132-98 94 82
Mobil-Tel. 0171-864 95 52
[email protected]
Außendienst Manfred Wagner
Breslauer Straße 57 · 74372 Sersheim
Tel. 07042-350 86 · Fax 07042-350 86
Mobil-Tel. 0170-563 52 30
[email protected]
Rath & Co. Ges. m.b.H.
Teiritzstrasse 3 · 2100 Korneuburg
Tel. 02262-608 · Fax 02262-608-60
[email protected] · www.rath-co.at
AU
Bruderer Presses Australia Pty. Ltd.
92 Trafalgar Street · Annandale, NSW 2038
Tel. 04-1940-0995 · Fax 02-9686-4809
[email protected]
Enmor Tool & Machine Co. Pty. Ltd.
Unit 18 · 41 Walter Street
P.O. Box 39 · Belmont, NSW 2280
Tel. 02-4945-5898 · Fax 02-4947-9919
[email protected]
23
1 1 12 12 1 13
2
1 2
3
BA
1 1 2
1 Oro-Tech trgovina d.o.o.
Ulica borcev 1/b · 2000 Maribor
Tel. 062-426 08 43 · Fax 062-426 08 44
[email protected]
BE
Doedijns Fluitronics NV/SA
Zoning d’Amay Allée II n° 4 · 4540 Amay
Tel. 085 51.96.96 · Fax 085 51.96.97
Schiltz S.A.
Chaussee de Gand 1034 · 1082 Bruxelles
Tel. 024 64.48.30 · Fax 024 64.48.39
[email protected]
1 1 1 BG
Bavaria 2002 EOOD
Pirotstr. 22 · 5100 Gorna Orjachoviza
Tel.: 961 84 23 96 · Fax: 961 84 18 74
[email protected]
BR
Coloman Industria e Comercio
de Maquinas e Ferramentas Ltda.
Rau A-Nr. 315 · Parque Industrial · Caixa Postal 49
Franco da Rocha - SP · CEP - 07851-970
Tel. 011-4449-4460 · Fax 011-826-3094
[email protected]
LCPA Ltda.
Rua Maria Maiolino de Souza, 40/Sala 04
CEP 13.230-270 São Paulo, SP
Tel. 011-4039-1896 · Fax 011-4039-1896
[email protected]
CH
FIBRO GmbH Zweigniederlassung
Buechstrasse 10 · 5027 Herznach
Tel. 062-878 18 80 · Fax 062-878 18 82
Brütsch/Rüegger AG
In der Luberzen 1 · 8902 Urdorf
Tel. 01-736 63 63 · Fax 01-736 63 00
[email protected] · www.b-r.ch
CL
Bermat S.A.
Coyancura 2283, Of. 601 · Casilla 9781 · Santiago
Tel. 02-231 88 77 · Fax 02-231 42 94
[email protected] · www.bermat.cl
CN
Forsteppe Precision Engineering Co. Ltd.
Room 613 · Golden Gate Square · 389 Jin Wan Road
Jin Qiao Pudong New Area, 201206 Shanghai
Tel. 021-58 99 44 68 · Fax 021-58 99 44 70
[email protected]
Forsteppe Trading (Guangzhou)
Room E, 11/F. · East Tower Tianxing Building
No. 21, Zhongshan First Road · 510600 Guangzhou
Tel. 020-87 32 91 29 · Fax 020-87 32 82 12
[email protected]
CY
Militos Trading Ltd.
K. Erotokritou & A. Demetriou Ltd.
P.O.B. 27297 · 1643 Nicosia
Tel. 02-75 12 56 · Fax 02-75 22 11
CZ
Gore s.r.o.
Prístavní 6 · 63500 Brno-Bystrc
Tel. 05-41 59 25 18 · Fax 05-41 59 25 19
[email protected] · www.gore.cz
SK Technik, spol. s r.o.
Merhautova 20 · 61300 Brno
Tel. 05-45 42 95 11 · Fax 05-45 21 12 75
[email protected] · www.sktechnik.cz
DK
A/S Erling B. Ibsen
Metalbuen 28 · Postbox 79 · 2750 Ballerup
Tel. 044-97 81 11 · Fax 044-68 06 26
[email protected] · www.ebi.dk
BONDY A/S
Industriparken 16-18 · 2750 Ballerup
Tel. 7015 1414 · Fax 4464 1416
PMC Technology A/S
Klausdalsbrovej 1 · 2860 Søborg
Tel. 070 21 2121 · Fax 070 21 2122
[email protected] · www.pmctechnology.dk
DZ
Pneumacoupe Blida Boufarik
86 Bld. Menad Mohamed · Boufarik, 09400 Blida
Tel. 03-47 56 55 · Fax 03-47 56 55
EE
Cle Baltik Oue
Laki 9A · 10621 Tallin
Tel. 372 509 3228 · Fax 372 650 7998
[email protected]
EG
Smeco
68, Abdel Rahman El Raffei St.
11351-Heliopolis West, Cairo
Tel. 02-620 00 71 · Fax 02-620 06 74
[email protected]
ES
123
Daunert Máquinas-Herramientas, S.A.
C/. Tirso de Molina s/n Esqina C/. Albert Einstein
Polígono Industrial Almeda
08940 Cornellá de Llobregat · Barcelona
Tel. 93-475 14 80 · Fax 93-377 64 64
[email protected] · www.daunert.com
123
OY Christer Lindholm Eng. AB
Santalantie 25, PL. 66 · 10901 Hanko
Tel. 019-280 72 00 · Fax 019-248 43 23
[email protected] · www.clegroup.fi
FI
0 · 17782 · 07/2003 · 13 AktuelleVertreterD+S
AktuelleVertreterD+S
15.07.2003
13:46 Uhr
FIBRO 1
GmbH
[email protected]
www.fibro.com
Seite 3
Normalien · Standard Parts · Eléments normalisés
Postfach 1120 · D-74851 Hassmersheim
August-Läpple-Weg · D-74855 Hassmersheim
Tel. (+49)6266-73-0*· Fax (+49)6266-73-237
2
Rundschalttische · Indexing Tables · Plateaux diviseurs
Postfach 1120 · D-74183 Weinsberg
Weidachstrasse 41-43 · D-74189 Weinsberg
Tel. (+49)7134-73-0*· Fax (+49)7134-73-120
3
Automation+Robotik · Automation+Robotics · Automatisme+robotique
Postfach 1120 · D-74851 Hassmersheim
August-Läpple-Weg · D-74855 Hassmersheim
Tel. (+49)6266-73-0*· Fax (+49)6266-73-213
FR
123
FIBRO SARL
19/21, rue Jean Lolive · 93170 Bagnolet
B.P. no 129 · 93172 Bagnolet Cedex
Tél. 01-43-62-18-80 · Télécop. 01-48-59-17-47
[email protected] · www.fibro.fr
1 Secteur Franche Comté
Codimec SA
Rue des Maurapans · ZAC de Valentin
BP no. 3051 · 25046 Bésançon Cedex
Tel. 03-81-88-83-11 · Télécop. 03-81-88-05-45
1 23
1 1 GB
Burrhart Machinery Ltd.
Cradock Road · Luton · Beds LU4 0JF
Tel. 1582-56 3400 · Fax 1582-49 39 93
[email protected] · www.burrhart.co.uk
W. & H. Eves Ltd.
15, Macdonald Street · Birmingham B5 6TF
Tel. 0121-622 45 61 · Fax 0121-666 62 98
[email protected]
GR
Mek-Maria Koutseris & Co.
Pyloy 100 · 10441 Athen
Tel. 0210-522 05 57 · Fax 0210-522 12 08
[email protected] · www.mek.com.gr
1 1 1 13
1 23
2
1 2
3
Oro-Tech trgovina d.o.o.
Tel. 062-426 08 43 · Fax 062-426 08 44
[email protected]
123
23
1 HU
Rath & Co. Ges. m.b.H.
Teiritzstraße 3 · 2100 Korneuburg
Tel. 02 262-608 · Fax 02 262-608-60
[email protected] · www.rath-co.at
ID
Pt. Normalindo Tunas Sentosa
Jintanjung Duren Raya 21 A · Jakarta 11470
Tel. 021-564 07 18 · Fax 021-564 07 19
[email protected]
2
1 IE
K & A Engineering Ltd.
49 Barrack Street · Waterford City
Tel. 051-37 82 55 · Fax 051-37 90 26
[email protected]
1 IL
A. J. Englander 1980 Ltd.
13 Harechev Street · Tel Aviv 67771
Tel. 03-537 36 36 · Fax 03-537 33 25
[email protected] · www.englander.co.il
1 IN
Nitoo Sales · Antaral Plot No 464/B/2
Dhotre Marg. Ghaneshkhind Road · Pune - 411016
Tel. 020-565 62 39 · Fax 020-565 64 87
[email protected] · www.nitoo.com
NN Combined Engineering Agencies Private Ltd.
Dr. Ranji Block, First Floor
125. M. G. Road · Secunderabad 500003 A.P.
Tel. 040-27 84 42 79 · Fax 040-27 84 16 52
[email protected] · www.nncea.com
1 1 IR
0 · 17783 · 07/2003 · 13 123
1 Eximrad Co.
268 Dr. Mofatah Ave. · Tehran 15848
Tel. 021-882 12 03 · Fax 021-830 97 78
[email protected]
IT
Millutensil S.R.L.
Corso Buenos Aires, 92 · 20124 Milano
Tel. 02-29 40 43 90 · Fax 02-204 66 77
[email protected] · www.millutensil.com
IT
NC Componenti S.R.L.
Via F. Raimondo, 11/B · 10090 Cascine Vica-Rivoli (TO)
Tel. 011-957 52 22 · Fax 011-957 51 13
[email protected] · www.nccomponenti.it
JP
Tomita Co. Ltd.
No. 1-18-16 · 1-Chome Ohmorinaka Ohta-Ku · Tokio
Tel. 03-37 65 49 11 · Fax 03-37 67 83 77
[email protected]
KR
Dooki Korea Ltd.
313-4 Dangsan 6GA · Youngdungpo-Ku · Seoul 150-046
Tel. 02-26 79 52 64 · Fax 02-26 79 60 11
[email protected]
Jinsung Trading Corp.
Dong Woo Bld. 303
#520-2, 2AV Choryang Dong Gu, Pusan
Tel. 8251-466-5462/3 · Fax 8251-466-5464
[email protected]
Intech Automation Inc.
13 FL. Jeil Bd., 94-46, Youngdeungpo7-Ga,
Youngdeungpo-ku · Seoul 150-037
Tel. 02-26 32 67 70 · Fax 02-26 32 68 80
[email protected]
1 1 23
1 2
FIBRO Asia Pte. Ltd.
121, Genting Lane, 2nd Floor · Singapore 349572
Tel. 065 68 46 33 03 · Fax 065 68 46 33 02
Oro-Tech trgovina d.o.o.
Tel. 062-426 08 43 · Fax 062-426 08 44
[email protected]
SI
Jeveka B.V.
Postbus 22966 · Keienbergweg 8
1100 DL-Amsterdam · 1101 GB Amsterdam
Tel. 020-342 03 42 · Fax 020-342 03 02
[email protected] · www.jeveka.com
2
1 23
NZ
Gatmans Ltd.
Precision Engineering Supplies
P.O.B. 101-822 · North Shore Mail Centre · Auckland
Tel. 09-444 10 29 · Fax 09-444 11 37
1 PE
Ing. E. Brammertz S.c.r.l.
Av. José Pardo 182 · OF. 905
Apartado 0173 · Miraflores, Lima 18
Tel. 014-45 81 78 · Fax 014-45 19 31
[email protected]
1 PT
Ferrometal Lda.
Estrada Manuel Correia Lopes
Rua da Rosita, Lote 12 · Conceição da Abóboda
2725-543 S. Domingos de Rana-Cascais
Tel. 21-444 71 60 · Fax 21-444 71 69
[email protected]
PT
Seri Lda.
Zona Industrial da Varziela
Av. José Ramos Maia – Lote no 3, Apartado 197
4481-911 Vila do Conde
Tel. 0252 24 85 40 · Fax 0252 24 85 41
[email protected]
SK
Gore s.r.o.
Prístavní 6 · 63500 Brno-Bystrc
Tel. 05-41 59 25 18 · Fax 05-41 59 25 19
[email protected] · www.gore.cz
SK Technik, spol. s.r.o.
Merhautova 20 · 61300 Brno
Tel. 05-45 21 16 66 · Fax 05-45 21 12 75
[email protected] · www.sktechnik.cz
TR
Ender Kesici Ve Teknik · Takimlar Ltd. Sti.
Tersane Caddesi No. 16 · 80000 Karaköy/Istanbul
Tel. 0212-253 26 00 · Fax 0212-254 57 91
[email protected] · www.enderltd.com
Fikret Erdogan ve Ort. Koll. Sti.
Otakçilar Cad. No. 56 · 34050 Eyüp-Istanbul
Tel. 0212-544 87 53 · Fax 0212-567 99 66
[email protected]
TV
SunNan Enterprises Co. Ltd.
2F, No. 7, Alley 6, Lane 235 · Pao-Chiao Road
Hsin-Tien City · Taipei
Tel. 02-29 17 6454 · Fax 02-29 11 03 98
[email protected]
US
123
PL
Laska Technika Przemyslowa Sp.z.o.o.
ul. Budowlanych 43 · 43-100 Tychy
Tel. 032-326 24 50 · Fax 032-326 24 51
[email protected] · www.laska.com.pl
Lideco AB
Verkstadsvägen 4 · 51463 Dalstorp
Tel. 0321-53 03 50 · Fax 0321-603 77
[email protected] · www.lideco.se
123
13
Wolf Verktoy
Postboks 602, Busterud · 1754 Halden
Tel. 69 17 89 19 · Fax 69 17 89 45
SE
Dankab Verktygsmaskiner AB
Box 4002 · 18104 Lidingö
Larsbergsvägen 12b · 18139 Lidingö
Tel. 08-54 44 03 40 · Fax 08-54 44 03 45
[email protected] · www.dankab.se
SG
NL
NO
SA
Abdullah Yahya Munshi Est
P. O. Box 20123 · 21455 Jeddah
Tel. 2-643 62 42 · Fax 2-643 62 42
[email protected]
FIBRO Asia Pte. Ltd.
121, Genting Lane, 2nd Floor · Singapore 349572
Tel. 68 46 33 03 · Fax 68 46 33 02
Item Systems B.V.
Zwarte Zee 40-42 · 3144 DE Maassluis
Tel. 010-593 72 60 · Fax 010-592 85 38
[email protected] · www.item-international.com
Kaspo Maskin AS
Hoeggveien 66 · 7489 Trondheim
Tel. 73 96 96 00 · Fax 73 96 96 01
[email protected] · www.kaspo.no
RO
Proiect Alide Srl
Mitr. Endrej Saguna Nr. 24 · Sect. 1 Bucaresti
Tel. 21-222 21 18 · Fax 21-222 07 03
[email protected]
123
MY
HK
Forsteppe Enterprise Ltd.
Unit 207, 2/F · Shing Chuen Industrial Building
25-27 Shing Wan Road
Tai Wai Shatin N.T. (Hong Kong)
Tel. 0852-26 01 13 68 · Fax 0852-26 01 16 38
[email protected]
HR
123
23
FIBRO Inc.
139 Harrison Ave. · Rockford, IL 61104
P. O. B. 5924 · Rockford, IL 61125
Tel. 815-229 13 00 · Fax 815-229 13 03
YU
Andrija Tesic, Dipl. Ing.
Partisanska 12/a-II · Beograd
Tel. 011-533 83 62 · Fax 011-533 83 62
ZA
123
Herrmann & Herrmann Pty. Ltd.
24, Shaft Road · P. O. B. 13030 · Knights 1413
Tel. 011 828 01 00 · Fax 011 828 60 21
[email protected] · www.hermstools.com
15.07.2003
14:23 Uhr
Seite 4
FIBRO GmbH
CH
23
FIBRO GmbH Zweigniederlassung
Buechstrasse 10
5027 Herznach
Telefon 062-87818 80
Telefax 062-87818 82
e-mail: [email protected]
US
123
FIBRO Inc.
P. O. Box 5924
Rockford, IL 61125
139 Harrison Avenue
Rockford, IL 61104
Phone 815 - 22913 00
Fax
815 - 22913 03
2
Rundschalttische
Indexing Tables
Plateaux diviseurs
Postfach 1120
D-74183 Weinsberg
Weidachstrasse 41 – 43
D-74189 Weinsberg
Telefon 07134 - 73 - 0*
Telefax 07134 - 73 - 120
FR
1
FIBRO SARL
BP no 129
93172 Bagnolet Cedex
19/21, rue Jean Lolive
93170 Bagnolet
Téléphone 0143 6218 81
Télécopieur 0148 591747
http://www.fibro.fr
3
Automation + Robotik
Automation+ Robotics
Automatisme+ robotique
Postfach 1120
D-74851 Hassmersheim
August-Läpple-Weg
Telefon 0 62 66 - 73 - 0*
Telefax 0 62 66 - 73 - 213
FR
23
FIBRO SARL
BP no 129
93172 Bagnolet Cedex
19/21, rue Jean Lolive
93170 Bagnolet
Téléphone 0143 6218 89
Télécopieur 01481873 46
http://www.fibro.fr
SG
123
FIBRO ASIA Pte.Ltd.
121 Genting Lane
2nd floor
Singapore 349572
FIBROTOR®
Normalien
Standard Parts
Eléments normalisés
Postfach 1120
August-Läpple-Weg
Telefon 0 62 66 - 73 - 0*
Telefax 0 62 66 - 73 - 237
Phone + 65 - 68 46 33 03
Fax
+ 65 - 68 46 33 02
1
0 · 17927 · 06/2003 · 8
000_UMSCHLAG

FIBROTOR® Electro-mechanical Indexing Table

Transcription

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