Line Tech linear units and systems

Linear units and systems main catalogue -15 V 11

SWISS MADE LINEAR TECHNOLOGY

LINE TECH In-house products, services and trade products

Linear movements are the backbone of modern, industrial production systems. LINE TECH has been involved in linear technology solutions for more than 20 years. A comprehensive range of components as well as linear and positioning systems, combined with the specialist expertise of our employees, is the stand-out benefit of LINE TECH. Matured services, from engineering to design, in conjunction with flexible production, complement the product offering, thereby offering customers a high level of benefit.

In-house products In-house products from LINE TECH are modular, ready-to-install linear axles: – Linear modules – Bridge modules – Compact units – Positioning units

Systems / Assemblies Our engineering team develops tailormade solutions in accordance with customer requirements.

Components Trade products complement the product offering with linear guides, drives and components: – Linear guides – Ball screw drives – Roller guides – Ball bushings and shafts – Ball casters – Extensive range of accessories – Megatorque motors – Linear motors www.linetech.ch

2

LINE TECH – Swiss made Linear Technology

Line Tech – Swiss Made Linear Technology Contents

5–61

LM

Whenever cost-efficiency and dynamics are paramount: – Travel/stroke: max. 7650 mm (longer on request) – Drive: ball screw or toothed belt – Load capacity to 73 kN, max. torque 5.8 kNm – Repeating accuracy: < 0.03 mm

LINE TECH Bridge modules BM

63–102

LINE TECH Compact units KE

BM

The ideal complement for system construction with increased inherent rigidity: – Travel/stroke: max. 6180 mm (longer on request) – Drive: ball screw or toothed belt – Load capacity to 67 kN, max. torque 2.5 kNm – Repeating accuracy: < 0.03 mm

105–142

LINE TECH Positioning units PE

KE

The perfect synthesis between cost-effectiveness and performance: – Actuation by ball screw drive – Repeating accuracy to 0.01 mm – Load capacity to 94 kN, max. torque 3.6 kNm – Synthetic strips made of special fabric protect against dirt

145–181

– – – – –

183–189

accesories

accessories / general information

PE

The leader amongst linear axes. Unbeatable as regards power and precision: – Actuation by ball screw drive – Load capacity to 366 kN, max. torque 300 kNm – Repeating accuracy to 0.005 mm – Covered by expansion bellow

Cables and mating plugs Cable assembly / plug code Clamps; overview Sliding blocks; overview Grease guns; overview

Design / application – Calculation guidelines – Formulae – Application examples

www.linetech.ch

191–195

( )

Cdyn L10 =  ––––   Fr

3

3 DESIGN

LINE TECH Linear modules LM

4

LINE TECH – Swiss made Linear Technology

Line Tech Linear modules LM Table of contents

LM

– Product overview______________________________________________________6–7 – Design fundamentals / Lubrication / Maintenance_____________________________8 – Profile cross-sections_________________________________________________ 9–11 – Linear module with ball screw drive; details for ball screw drive_________________12 – Linear module with toothed belt drive; details for toothed belt drive_____________13 – Linear module with ball screw drive; general technical details___________________14 – Linear module with toothed belt drive; general technical details_________________15 – Linear module with ball screw drive; load ratings and torques__________________16 – Linear module with toothed belt drive; load ratings and torques________________17 – Linear module with ball screw drive; permissible speeds_______________________18 – Linear module with toothed belt drive; permissible speeds_____________________19 – Linear module with ball screw drive; permissible deflection_____________________20 – Linear module with toothed belt drive; permissible deflection___________________21 – Linear modules with ball screw drive - Designation system________________________________________________ 22–23 - Information for selection » Motor mounting preparation______________________24 - Dimensions LM3…BR…N (with steel strip)_________________________________26 - Dimensions LM3…BR…L/R ____________________________________________27 (with lateral support rail left/right, with steel strip) - Dimensions LM4…BR…N (with steel strip)_________________________________28 - Dimensions LM4…BR…L/R ____________________________________________29 (with lateral support rail left/right, with steel strip) - Dimensions LM5…BR…N (with steel strip)_________________________________30 - Dimensions LM5…BR…L/R ____________________________________________31 (with lateral support rail left/right, with steel strip) – Linear modules with toothed belt drive - Designation system________________________________________________ 32–33 - Information for selection » Motor mounting preparation__________________ 34–36 - Dimensions LM3…NZ…N (without protective strip)__________________________38 - Dimensions LM3…BZ…N (with steel strip)_________________________________39 - Dimensions LM3…NZ…L/R ____________________________________________40 (with lateral support rail left/right, without protective strip) - Dimensions LM3…BZ…L/R ____________________________________________41 (with lateral support rail left/right, with steel strip) - Dimensions LM4…NZ…N (without protective strip)__________________________42 - Dimensions LM4…BZ…N (with steel strip)_________________________________43 - Dimensions LM4…NZ…L/R ____________________________________________44 (with lateral support rail left/right, without protective strip) - Dimensions LM4…BZ…L/R ____________________________________________45 (with lateral support rail left/right, with steel strip) - Dimensions LM5…NZ…N without protective strip)__________________________46 - Dimensions LM5…BZ…N (with steel strip)_________________________________47 - Dimensions LM5…NZ…L/R ____________________________________________48 (with lateral support rail left/right, without protective strip) - Dimensions LM5…BZ…L/R ____________________________________________49 (with lateral support rail left/right, with steel strip) – Limit switch; fitting / preparation / plug connector________________________ – Motor mounting straight/lateral with ball screw drive______________________ – Motor mounting straight/lateral with toothed belt drive____________________ – Attachment accessories; clamps / sliding blocks_________________________ – Grease points______________________________________________________

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50–51 52–53 54–56 58–59 60–61

5

linear modules Product overview

LM…Z…N Linear module with toothed belt drive

LM…R…L/R Linear module with ball screw drive and lateral support rail left/right

LM…Z…L/R Linear module with drive belts and lateral support rail left/right

LM

LM…R…N Linear module with ball screw drive

6

LINE TECH – Swiss made Linear Technology

linear modules Product overview

Advantages

Structure

– Compact dimensions – Optimum running performance together with high load ratings and high level of rigidity with either one or two integrated, no-play linear guides – Either ball screw or toothed belt drive – Simple motor mounting by centering and thread on driving head – Greasing by central grease points – Design aligned to application possible

– Compact aluminium base profile – Ready-to-install linear modules in any lengths – Carriage made of aluminium

LM

LINE TECH linear modules are precision, ready-to-install, modular linear systems with linear guide and two drive variants, ball screw or toothed belt drive. Linear systems with longer strokes and high movement speeds are typical application areas. Three sizes are currently available (LM3, LM4 und LM5).

Customised options

H

H

– Motor mounting – Limit switch – Multi-axis systems

B

B

Linear modul

Dimensions

Load ratings

Type

BxH [mm]

C0 [kN]

C [kN]

LM3…N

60 x 85

35.0

18.0

LM3…L/R

98 x 94

70.0

36.0

LM4…N

80 x 100

59.9

34.2

LM4...L/R

117 x 109

119.9

68.4

LM5...N

110 x 129

85.0

49.6

LM5...L/R

155 x 141

170.0

99.2

Please refer to pages 12 to 17 for load capacities.

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7

linear moduleS

LM

Design fundamentals / Lubrication / Maintenance

LINE TECH linear modules

Lubrication

Maintenance

LINE TECH linear modules with ball screw or toothed belt drive are modular, ready-to-install linear units with drive. Sealed rail guiding elements are employed in all sizes. Guides and drive are protected from external factors (such as dirt and chippings) by a steel strip / the toothed belt. The base profile is made of aluminium alloy and manufactured with the extrusion process. Additional limit switches fitted on the outside, in conjunction with motors and a controller, ensure correct positioning of the carriage and provide protection against overrun. The selected design provides for a high level of performance with the most compact dimensions.

LINE TECH linear modules are lubricated with Microlube GBU Y 131 at the factory. This quality grease offers outstanding properties for the guidance and screw drive elements as well. Greasing should be carried out at regular intervals, depending on the load and area of operation. On an average, re-greasing is required every 500 hours. All roller bearings are greased for life and thus do not require any maintenance. Correct and sufficient greasing can substantially prolong the life of linear modules.

LINE TECH linear modules are maintenance-free (apart from re-greasing required).

Service temperature The permissible operating temperature (between 5 and 80 °C) is determined by the synthetic materials used. The specifications of the relevant manufacturers apply for motors and control units.

Note: Also follow here the instructions on the lubrication points (pages 60/61).

LM…R… with ball screw drive

LM…Z… with toothed belt drive

2) 2) 3a) 3b)

4)

1) Base profile 2) Carriage

8

1)

3a) Ball screw drive 3b) Toothed belt drive

4)

1)

4) Linear guide

LINE TECH – Swiss made Linear Technology

linear moduleS Profile cross-sections LM3…R/Z…

LM3…R…N

LM3…R…L/R with lateral support rail left/right

98

LM

C

46

A

A

18

18

26

26

85

94

A

40 65

A

40

A

65

LM3…Z…N

LM3…Z…L/R with lateral support rail left/right 98

C

46

26

A

18

31

26 18

A

94

85

A

20

A

A

20

40

40

65

65

Grooves LM3…

5

7.05

11.7 2.5

11.7

C 5

A

1.8 6.35

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9

linear moduleS Profile cross-sections LM4…R/Z…

LM4…R…N

LM4…R…L/R with lateral support rail left/right

117

LM

60

C B

21

45.5

42

109 42

45.5

B

21

100

C

53

53

80

80

LM4…Z…N

LM4…Z…L/R with lateral support rail left/right 117

60

C 45.5

109 42

B

21

42

45.5

B

21

100

C

30

30

53

53

80

80

Grooves LM4…

5

7.05

16.4

11.7 2.5

C

6.2

B

3 9.75

10

LINE TECH – Swiss made Linear Technology

linear moduleS Profile cross-sections LM5…R/Z…

LM5…R…N

LM5…R…L/R with lateral support rail left/right

LM

155 85

F

20

60

141

20

25

45

D

E

45

60

D

25

129

E

F

85 110

85 110

LM5…Z…N

LM5…Z…L/R with lateral support rail left/right 155 85

20

60

20

141

D 60

129

E

F

20

22

45

25

E

45

25

D F

22

85 110

85 110

Grooves LM5…

E

7.05

F

12

www.linetech.ch

8 4.25

4.25

2.5

20

5

11

12

D

10

7 8

11

LINEAR MODULES with ball screw drive Details for ball screw drive

Details for ball screw drive (BSD)

BSD

Axial load rates

Positioning accuracy

Repeating accuracy

Size

dxp

C0

Cdyn

[mm]

[N]

[N]

[μm /mm]

[mm]

16 x 5

4 551

4 327

52 / 300

16 x 10

4 551

4 327

52 / 300

Acceleration

Axial play

amax

Type

Idle torque

LM

LM

LM3...R...

16 x 16

4 551

4 327

52 / 300

20 x 5

5 705

4 912

52 / 300

20 x 20

5 705

4 912

52 / 300

32 x 5

11 538 8 947

52 / 300

32 x 10

11 538 8 947

52 / 300

32 x 32

11 538 8 947

52 / 300

LM4...R...

LM5...R...

[m /s2]

< 0.03 1) < 0.01 1) < 0.03 1) < 0.01 1) < 0.03

< 0.03 1) < 0.01 1) < 0.03 1) < 0.01 1) < 0.03 1) 1)

< 0.03 1) < 0.01

10.0

1)

< 0.01 1)

< 0.01

10.0

1)

< 0.01 1) < 0.03

10.0

1)

10.0

10.0

10.0

10.0

10.0

Axial play [mm]

[Nm]

R

< 0.02

0.030

V

—

0.100

R

< 0.02

0.060

V

—

0.200

R

< 0.02

0.120

V

—

0.320

R

< 0.02

0.050

V

—

0.120

R

< 0.02

0.200

V

—

0.400

R

< 0.02

0.080

V

—

0.200

R

< 0.02

0.160

V

—

0.400

R

< 0.02

0.600

V

—

1.200

d x p = screw diameter x thread pitch backlash not factored in R = reduced axial play V = preloaded 1)

12

LINE TECH – Swiss made Linear Technology

LINEAR MODULES with toothed belt drive Details for toothed belt drive

Details for toothed belt drive

Toothed belt drive

Size

Type/division Pinion

Axial load

Positioning accuracy

Repeating accuracy

Acceleration

LM

LM

Stroke/rev Tension 3)

F

… /1000 mm

amax

d3 x lR [mm]

[mm]

[mm/m]

[N]

[μ /mm]

[mm]

[m/s2]

LM3…Z…

HTD 5 M

49.34 x 31

155

0.245

… 1)

200/1000 2)

< 0.20 2)

50.0 1)

LM4...Z...

HTD5M

65.25 x 45

205

0.105

… 1)

200/1000 2)

< 0.20 2)

50.0 1)

LM5...Z...

STD8M

94.22 x 60

296

0.059

… 1)

200/1000 2)

< 0.20 2)

50.0 1)

d3 x lR = pinion diameter x pinion width dependent on speed and load ➞ see diagram on page 19 2) backlash not factored in 3) belt tension/metre [mm/m] per 100 N tensile force 1)

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13

LINEAR MODULES with ball screw drive General technical details for linear modules

General technical details for linear modules with ball screw drive

Movement speed

Moments of inertia

LM

LM

Stroke max.

Steel strip

Z

Feed and friction force

Moved mass

FV

mb

[N]

[kg]

Y

Guide

Drive

vmax

vmax

IY

IZ

[m/s]

[m/s]

[cm4]

[cm4]

LM3…R…N

5.0

2)

LM3…R…L/R

5.0

2)

LM4…R…N

5.0

2)

LM4…R…L/R

5.0

2)

LM5…R…N

5.0

2)

LM5…R…L/R

5.0

2)

Type

2)

[mm]

64.5

81.7

2 000

64.8

81.9

2 000

106.5

152.7

3 000

107.6

153.4

3 000

432.7

594.0

3 000

434.6

595.3

3 000

without

20.00

with

30.00

without

40.00

with

50.00

without

25.00

with

35.00

without

50.00

with

60.00

without

30.00

with

40.00

without

60.00

with

70.00

1.410

2.515

2.500

4.225

5.330

8.820

for ball screw drive, dependent on rotational speed characteristics, spindle length and relevant critical rotational speed.

14

LINE TECH – Swiss made Linear Technology

LINEAR MODULES with toothed belt drive General technical details for linear modules

General technical details for linear modules with toothed belt drive

Movement speed

Moments of inertia

Stroke max.

Feed and friction force

Moved mass

FV

mb

[N]

[kg]

without

20.00

1.030

with

30.00

1.040

without

20.00

1.100

with

30.00

1.110

without

40.00

2.205

with

50.00

2.215

without

25.00

2.090

with

35.00

2.100

without

25.00

2.150

with

35.00

2.165

without

50.00

3.875

with

60.00

3.890

without

30.00

4.000

with

40.00

4.040

without

30.00

4.100

with

40.00

4.140

without

60.00

7.590

with

70.00

7.630

Steel strip

Z

LM

LM

Y

Guide

Drive

vmax

vmax

IY

IZ

[m/s]

[m/s]

[cm4]

[cm4]

LM3…N…N 5)

5.0

4)

LM3…Z…N

5.0

4)

LM3…Z…L/R

5.0

4)

LM4…N…N 5)

5.0

4)

LM4…Z…N

5.0

4)

LM4…Z…L/R

5.0

4)

LM5…N…N 5)

5.0

4)

LM5…Z…N

5.0

4)

LM5…Z…L/R

5.0

4)

Type

[mm]

66.9

82.4

7 650

66.9

82.4

7 650

67.2

82.6

7 650

131.2

197.8

7 580

131.2

197.8

7 580

132.3

198.5

7 580

451.9

623.9

7 530

451.9

623.9

7 530

453.8

625.2

7 530

4)

for toothed belt drive, dependent on load and speed and permissible movement speed of the linear guide ➞ see diagram on page 19 5) variant without drive

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15

linear modules with ball screw drive Torques and load ratings

LM…R…L/R with lateral support rail

LM

LM…R…N

MX

MX

Torques

MY

MY

MZ

MZ

Load ratings

Cz2

Cz1

Cy1

Cy2

Linear modul

Maximum permissible load [kN]

Maximum permissible torque [Nm]

Type

static

static

Cy0 1,2

dynamic Cz0 1,2

Cy1,2

Cz1,2

Mx0

dynamic My0

Mz0

Mx

My

Mz

LM3…R…N

35.0

35.0

18.0

18.0

286

1 353

1 353

160

1 030

880

LM3…R…L/R

70.0

70.0

36.0

36.0

1 456

2 778

2 778

808

2 016

2 016

LM4…R…N

59.9

59.9

34.2

34.2

646

1 573

1 573

400

1 446

1 446

119.9

119.9

68.4

68.4

3 030

3 860

3 860

1 868

3 432

3 432

85.0

85.0

49.6

49.6

1 080

2 316

2 316

684

2 290

2 290

170.0

170.0

99.2

99.2

5 588

8 715

8 715

3 552

7 659

7 659

LM4…R…L/R LM5…R…N LM5…R…L/R

Note on dynamic load ratings and torques The determination of dynamic load ratings and torques is based on a 50, 000 m stroke. If comparative values must be

16

Expedient load

calculated for a 100, 000 m stroke, the values for Mx, My, Mz and C must be divided by the factor 1.26.

With a view to service life, loads of less than 20% of the dynamic load ratings have generally proved to be expedient.

LINE TECH – Swiss made Linear Technology

linear modules with toothed belt drive Torques and load ratings

LM…Z…L/R with lateral support rail

LM

LM…Z…N

MX

Torques

MX MY

MY

MZ

MZ

Cz2

Load ratings

Cz1

Cy1

Cy2

Linear modul

Maximum permissible load [kN]

Maximum permissible torque [Nm]

Type

static

static

Cy0 1,2

dynamic Cz0 1,2

Cy1,2

Cz1,2

Mx0

dynamic My0

Mz0

Mx

My

Mz

LM3…Z…N

35.0

35.0

18.0

18.0

286

1 185

1 185

160

923

923

LM3…Z…L/R

70.0

70.0

36.0

36.0

1 457

2 610

2 610

808

1 998

1 998

LM4…Z…N

59.9

59.9

34.2

34.2

646

2 484

2 484

400

2 130

2 130

119.9

119.9

68.4

68.4

3 030

4 772

4 772

1 868

4 115

4 115

85.0

85.0

49.6

49.6

1 080

6 115

6 115

684

5 170

5 170

170.0

170.0

99.2

99.2

3 356

12 513

12 513

2 136

10 541

10 541

LM4…Z…L/R LM5…Z…N LM5…Z…L/R

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17

linear modules with ball screw drive Permissible speeds

Permissible speeds...

… for linear module LM3…R… with ball screw drive ø 16 x … 1)

LM

vmax [m/min]

Caution: For ball screw drive, note the rotational speed characteristics, spindle length and relevant critical rotational speed.

100 90 80 70 60 50 40 30 20 10

16x16

16x10 16x5

L [mm] 200

400

600

800 1000 1200 1400 1600 1800 2000 2200 2400 2600

… for linear module LM4…R… with ball screw drive ø 20 x … 1) vmax [m/min] 20x20

100 90 80 70 60 50 40 30 20 10

20x10 20x5

L [mm] 200

400

600

800 1000 1200 1400 1600 1800 2000 2200 2400 2600

… for linear module LM5…R… with ball screw drive ø 32 x … 1) vmax [m/min] 100 90 80 70 60 50 40 30 20 10

32x32 32x20 32x10 32x5

L [mm]

Please also pay attention to the motor speeds.

200

400

600

800 1000 1200 1400 1600 1800 2000 2200 2400 2600

1)

greater accuracy on request L = overall length of the linear module

18

LINE TECH – Swiss made Linear Technology

linear modules with toothed belt drive Permissible speeds

Permissible speeds...

… for linear module LM…Z… with toothed belt drive vmax [m/min]

LM LM5

LM4

3600

3400

3200

3000

2800

2600

2400

2200

2000

1800

1600

1400

1200

1000

F [N] 800

Please also pay attention to the motor speeds.

LM3

600

Caution: For toothed belt drive, the permitted movement speed of the linear guide, and load, are authoritative.

vmax

300 280 260 240 220 200 180 160 140 120 100 80 60 40 20

F = axial load

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19

linear modules with ball screw drive Permissible deflection

Permissible deflection with ball screw drive

LM3…R...N resp. LM3...R…L/R

00 20 N 00 N

1.0 0.8 0.6

15

f max

0.4

0N

0.2

LM [mm] 250

500

750

1000 1250 1500 1750 2000 2250 2500 2750 3000 3250 3500

LM4…R...N resp. LM4...R…L/R fmax [mm] 1.2 1.0

The following diagrams apply for: - firm clamping (40–50 mm per side) - 3–4 screws per side - solid base

100

N 00

N

If increased demands are made on system accuracy we recommend supporting the linear modules along its entire length.

N

0N

1.2

00 20 N 00

The maximum permissible deflection is limited by the maximum deflection angle of 5’. Exceeding this value without support will have a negative effect on the unit’s service life.

250

00

15

N

0N

100

500

N

250

25

If the maximum permissible deflection is exceeded, the linear modules must be additionally supported.

N

25

Linear modules may be assembled self-supporting. However, the deflection (which limits the possible load) must be taken into consideration.

500

0.8

N

f max

0.6

0N

0.4 0.2

LM [mm] 250

500

750

1000 1250 1500 1750 2000 2250 2500 2750 3000 3250 3500

f max

1.0

Mounting position: horizontal

N

0N

N 500 N 250

0.4

0N

0.2

LM / 2

00

15

100

0.8 0.6

LM

00

25

1.2

20

fmax [mm]

N

00

N

LM5…R...N resp. LM5...R…L/R

250

500

750

LM [mm]

1000 1250 1500 1750 2000 2250 2500 2750 3000 3250 3500

F fmax

LM

fmax [mm]

20

LINE TECH – Swiss made Linear Technology

linear modules with toothed belt drive Permissible deflection

LM3…Z...N resp. LM3…Z...L/R N

Permissible deflection with toothed belt drive

LM

f max

25 00 20 N 00 15 N 00 N 10 0

0N

2.5

50 0N

3

25

0N

0

fmax [mm]

2 1.5 1 0.5

LM [mm] 500

1000 1500 2000 2500 3000 3500 4000 4500 5000 5500 6000 6500 7000 7500 8000

LM4…Z...N resp. LM4…Z...L/R

2.5

25

25

2

f max

50

00 20 N 00 15 N 00 N 10 00

N

3

0N

0N

0

N

fmax [mm]

1.5 1 0.5

LM [mm] 500

1000 1500 2000 2500 3000 3500 4000 4500 5000 5500 6000 6500 7000 7500 8000

25 0 20 0 N 00 N 15 0

3 2.5

N 0

25 0N

0N 10 00 N

fmax [mm]

50

0N

LM5…Z...N resp. LM5…Z...L/R

f max

2

Mounting position: horizontal

1.5 1 0.5

LM

LM [mm] 500

1000 1500 2000 2500 3000 3500 4000 4500 5000 5500 6000 6500 7000 7500 8000

LM / 2 fmax

F

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21

LINEAR MODULES with ball screw drive Designation system

LM 4 . 2 . 0500 B R 005 . 1

Linear module (designation example) Design

3 4 5

= size 65 mm = size 80 mm = size 110 mm

H

Size H

LM

LM = linear module with linear guide

B

B

LM...N B x H [mm]

LM...L/R B x H [mm]

3

65 x 85

98 x 94

4

80 x 100

117 x 109

5

110 x 129

155 x 141

Size

Configuration 2 = 2 runner blocks (1 carriage) *** ‌ = special execution 1) Stroke absolut [mm] Protective covering B = with steel strip *** N = without protective strip 1) Drive R = rolled ball screw *** N = without drive Stroke per revolution [mm] 005 / 010 / 016 005 / 020 005 / 010 / 032 ...

= = = =

size 3; ball screw with a pitch of 5, 10 or 16 mm size 4; ball screw with a pitch of 5 or 20 mm size 5; ball screw with a pitch of 5, 10 or 32 mm other pitch 1)

Limit switches 0 1 2 3 4

= = = = =

without limit switch 2 limit switches, reference point at front (drive side) 2 limit switches, reference point at rear (opposite drive side) 2 limit switches + additional reference switch at front (drive side) 2 limit switches + additional reference switch at rear (opposite drive side)

* seen from motor opposite side towards motor ** available for lateral motor mounting only *** standard version 1) on request 2) new designation system from 01.01.2015

22

LINE TECH – Swiss made Linear Technology

. 01 . 0 N - S 7 R L N N 5 8 3 _ _ _

583...

= drawing type

Lateral support rail

LM

N = without lateral support rail *** L = lateral support rail left R = lateral support rail right Connector box N = without connector box (loose cable L = 2.0 m) *** S = with connector box Mounting position of limit switches / connector box N = without limit switches / connector box *** L = limit switches / connector box mounting left * R = limit switches / connector box mounting right * Preload ball screw drive (BSD) R = BSD with reduced play *** V = BSD preloaded N = without drive Tolerance class ball screw drive (BSD) 7 = Tolerance class BSD: T7 (52 µm / 300 mm) *** N = without drive Material protective strip S = steel strip *** R = stainless steel strip N = without protective strip Motor mounting N = without motor mounting *** F = mounting plate for standard motor S = mounting plate for special motor Reduction 2) 0 1 2 (3

= = = =

without reduction (1:1) *** reduction 1:1.5 ** reduction 1:2 ** reduction 1:2.5) **

Assembly stage 00 = without drive 01 = free spindle end *** 02 = with coupling and intermediate plate 03 = with crank and clamp 04 = set up for lateral motor mounting right * 05 = set up for lateral motor mounting left * 06 = set up for lateral motor mounting top 07 = set up for lateral motor mounting bottom 08 = with crank, clamp and lateral millimetre scale

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00 01 02

03

04

05

06 07 08

23

LINEAR MODULES with ball screw drive Information for selection » Motor mounting preparation

Motor fitting preparation – assembly stages with ball screw drive

LM

LINE TECH linear modules with ball screw drive can be supplied with different motor mount preparations. Refer to pages 52 and 53 for dimensions.

Assembly stage 01 Free spindle end

Assembly stage 02 With coupling and intermediate plate

Assembly stage 04 Belt drive housing for lateral motor mounting right

Assembly stage 05 Belt drive housing for lateral motor mounting left

Assembly stage 06 Belt drive housing for lateral motor mounting top

Assembly stage 07 Belt drive housing for lateral motor mounting bottom

24

LINE TECH – Swiss made Linear Technology

LM

noteS

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25

LINEAR MODULE LM3…BR…N

LM

with ball screw drive, with steel strip

85

4x M6x12

65

43

ø10 h6

84

4x M4x8

70

52,5

ø38 h6

28

53

85

Stroke

246

11

61

6 LM

33

30

25

L

32

190

Nominal size

Dimensions

Designation

L [mm]

LM [mm]

Length ball screw [mm]

Length steel strip [mm]

Weight [kg]

LM3...BR…N

Stroke + 360

L – 58

L + 22

L – 22

4.60 kg + 0.65 kg/100 mm stroke

CAD data is available from www.linetech.ch

26

LINE TECH – Swiss made Linear Technology

LINEAR MODULE LM3…BR…L/R

LM

with ball screw drive and lateral support rail left/right, with steel strip

LM3…BR…L LM3…BR…R

43

70

50

98 30

6 LM L

33 32

5

190 50 50

40

46

46

14x M5x9

65

25

30.5

15

50

50 180

50

42,5

ø10 h6

4x M6x12

94

8x M5x9

84

20 50

Stroke 53

32,5

246 50

46

ø38 h6

61 28

Nominal size

Dimensions

Designation

L [mm]

LM [mm]

Length ball screw [mm]

Length steel strip [mm]

Weight [kg]

LM3...BR…L/R

Stroke + 360

L – 58

L + 22

L – 22

6.11 kg + 0.78 kg/100 mm stroke

CAD data is available from www.linetech.ch

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27

LINEAR MODUE LM4…BR…N

LM

with ball screw drive, with steel strip

Stroke 4x M4x8

ø12 h6

4x M6x12

5 LM

40

20

100

85

54

87.5

97.5

42

48

7

ø46 h6

344

70

68

30 80

L

36

260 65

65

65

8x M6x11

60

32.5

Nominal size

Dimensions

Designation

L [mm]

LM [mm]

Length ball screw [mm]

Length steel strip [mm]

Weight [kg]

LM4...BR…N

Stroke + 460

L – 60

L + 30

L – 22

7.8 kg + 0.95 kg/100 mm stroke

CAD data is available from www.linetech.ch

28

LINE TECH – Swiss made Linear Technology

LINEARMODUL LM4…BR…L/R

LM

with ball screw drive and lateral support rail left/right, with steel strip

LM4…BR…L LM4…BR…R

ø46 h6

68 32.5

Stroke

65

8x M6x9

65

48

LM

40 36

117

65

14x M6x9

65

32.5

65

65

65

260

35.5

47

60

60

65

30 80

20

L 42

109

70

97.5

4x M6x12

220

5

54

ø12 h6

60

39

65

344

Nominal size

Dimensions

Designation

L [mm]

LM [mm]

Length ball screw [mm]

Length steel strip [mm]

Weight [kg]

LM4...BR…L/R

Stroke + 460

L – 60

L + 30

L – 22

10.46 kg + 1.18 kg/100 mm stroke

CAD data is available from www.linetech.ch

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29

LINEAR MODULE LM5…BR…N

LM

with ball screw drive, with steel strip

394 4x M4x8

4x M10x20

129

128

86

85

53

73

112.5

ø85 f8

42

Stroke

9

ø22 h6

78

13 LM

50

25

86

L

55

110

310 75

75

75

8x M8x18

85

42.5

Nominal size

Dimensions

Designation

L [mm]

LM [mm]

Length ball screw [mm]

Length steel strip [mm]

Weight [kg]

LM5...BR…N

Stroke + 525

L – 75

L + 50

L – 44

16.8 kg + 1.9 kg/100 mm stroke

CAD data is available from www.linetech.ch

30

LINE TECH – Swiss made Linear Technology

LINEAR MODULE LM5…BR…L/R

75

8x M8x12

85

305

13

LM

50 55

25

L 80

75

110

4x M10x20

155

75

39

57.5

85

85

14x M8x12

86

141

75

53

86

ø22 h6

75

ø85 f8

42.5

Stroke

73

394

78 42

LM5…BR…R

128

LM5…BR…L

43.5

LM

with ball screw drive and lateral support rail left/right, with steel strip

42.5

75

75

75

310

Nominal size

Dimensions

Designation

L [mm]

LM [mm]

Length ball screw [mm]

Length steel strip [mm]

Weight [kg]

LM5...BR…L/R

Stroke + 525

L – 75

L + 50

L – 44

21.75 kg + 2.21 kg/100 mm stroke

CAD data is available from www.linetech.ch

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31

LINEARMODULE with toothed belt drive Designation system

LM 4 . 2 . 0500 N Z 205 . 1

Linear module (designation example) Design

3 4 5

= size 65 mm = size 80 mm = size 110 mm

H

Size H

LM

LM = linear module with linear guide

B

B

LM...N B x H [mm]

LM...L/R B x H [mm]

3

65 x 85

98 x 94

4

80 x 100

117 x 109

5

110 x 129

155 x 141

Size

Configuration 2 = 2 runner blocks (1 carriage) *** ‌ = special execution 1) Stroke absolut [mm Protective covering B = with steel strip N = without protective strip *** Drive Z N

= toothed belt drive *** = without drive

Stroke per revolution [mm] 155 = 205 = 296 = ‌ =

size 3; toothed belt drive with 155 mm stroke per revolution size 4; toothed belt drive with 205 mm stroke per revolution size 5; toothed belt drive with 296 mm stroke per revolution other stroke per revolution 1)

Limit switches 0 1 2 3 4

= = = = =

without limit switch 2 limit switches, reference point at front (drive side) 2 limit switches, reference point at rear (opposite drive side) 2 limit switches + additional reference switch at front (drive side) 2 limit switches + additional reference switch at rear (opposite drive side)

* seen from motor opposite side towards motor ** available for lateral motor mounting only *** standard version 1) on request 2) details see gear mounting, pages 55/56

32

LINE TECH – Swiss made Linear Technology

. 12 . 0 N - N N N L N N 5 8 3 _ _ _

583...

= drawing type

Lateral support rail

LM

N = without lateral support rail L = lateral support rail left R = lateral support rail right Connector box N = without connector box (loose cable L = 2.0 m) *** S = with connector box Mounting position of limit switches / connector box N = without limit switches / connector box *** L = limit switches / connector box mounting left * R = limit switches / connector box mounting right * Gear box mounting N = without gear *** D = top / rear E = top / front

F = back / bottom G = rear / top H = front / top

K = front / bottom L = bottom / front M = bottom / back

Drive shaft N S H O

= = = =

standard shaft *** shaft for standard worm gear FH 2) shaft for high-performance servo worm gear AE 2) without drive shaft

Material protective strip N = without protective strip *** S = steel strip R = stainless steel strip Motor mounting N = without motor mounting *** F = mounting plate for standard motor S = mounting plate for special motor Reduction 0 = without reduction *** X = i = __________ (in conjunction with gear type FH or AE) 2) Assembly stage

00

11

12

00 = without drive 11 12 13 14 17 18 19 25 26 27 28

= = = = = = = = = = =

free shaft end right * free shaft end left * 13 shaft end right with coupling and intermediate plate * shaft end left with coupling and intermediate plate * free shaft ends on both sides (passing shaft) shaft end on both sides, with coupling and intermediate flange right * 18 shaft end on both sides, with coupling and intermediate flange left * shaft end right with gear mounting * shaft end left with gear mounting * shaft end on both sides, right with gear mounting * shaft end on both sides, left with gear mounting *

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26

27

14

17

19

25

28

33

LINEAR MODULEs with toothed belt drive Information for selection » Motor mounting preparation (1/3)

Motor mounting preparation – assembly stages with toothed belt drive

LM

LINE TECH linear modules with toothed belt drive can be supplied in different assembly stages as preparation for motor mounting. Refer to pages 54 to 56 for dimensions.

Assembly stage 11 Free shaft end right*

Assembly stage 12 Free shaft end left*

Assembly stage 13 Shaft end right* with coupling and intermediate flange

Assembly stage 14 Shaft end left* with coupling and intermediate flange

Assembly stage 00 Without drive

Assembly stage 17 Free shaft ends on both sides

* seen from motor opposite side towards motor

34

LINE TECH – Swiss made Linear Technology

LINEAR MODULES with toothed belt drive

Assembly stage 18 Shaft ends on both sides, right* with coupling and intermediate flange

Assembly stage 19 Shaft ends on both sides, left* with coupling and intermediate flange

Assembly stage 25 Shaft end right* with gear mounting plate

Assembly stage 26 Shaft end left* with gear mounting plate

Assembly stage 27 Shaft ends on both sides, right* with gear mounting plate

Assembly stage 28 Shaft ends on both sides, left* with gear mounting plate

* seen from motor opposite side towards motor

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35

LM

Information for selection Âť Motor mounting preparation (2/3)

LINEAR MODULES with toothed belt drive Information for selection » Motor mounting preparation (3/3)

Motor mounting preparation – mounting options (alignment) of worm drives

LM

For assembly stages 25 to 28 (see page 35), the gear mounting plate can be pre-mounted differently depending on gear mounting and motor alignment required:

Gear box mounting D Gear towards back* and top

Gear box mounting E Gear towards front* and top

Gear box mounting F Gear towards back* and bottom

Gear box mounting G Gear towards back* and top

Gear box mounting H Gear towards front* and top

Gear box mounting K Gear towards front* and bottom

Gear box mounting L Gear towards front* and bottom

Gear box mounting M Gear towards back* and bottom

* seen from motor opposite side towards motor

36

LINE TECH – Swiss made Linear Technology

LM

noteS

www.linetech.ch

37

LINEAR MODULES LM3…NZ…N

4x M4x8

65

8

114.5

ø15 h7

85

43

33

4x M5x8

85

40

Stroke

206 52.5

11

114.5

26

ø38 H7 x 1.5

LM

with toothed belt drive, without protective strip

LM

95

95

65

33

L 50

50

50

46

20

8x M5

190

Nominal size

Dimensions

Designation

L [mm]

LM [mm]

Belt length [mm]

Weight [kg]

LM3...NZ…N

Stroke + 435

L – 190

2 x Stroke + 730

4.50 kg + 0.60 kg/100 mm Stroke

CAD data is available from www.linetech.ch

38

LINE TECH – Swiss made Linear Technology

LINEAR MODULES LM3…BZ…N

Stroke

52.5

85

4x M4x8

65

28

ø15 h7

40

114.5

43

33

4x M5x8

85

246

11

114.5

26

ø38 H7 x 1.5

LM

with toothed belt drive, with steel strip

LM

95

95

65

33

L 50

50

50

46

20

190

8x M5

Nominal size

Dimensions

Designation

L [mm]

LM [mm]

Belt length [mm]

Length steel strip [mm]

Weight [kg]

LM3...BZ…N

Stroke + 475

L – 190

2 x Stroke + 810

L – 10

4.80 kg + 0.61 kg/100 mm Stroke

CAD data is available from www.linetech.ch

www.linetech.ch

39

LINEAR MODULES LM3…NZ…L/R

LM3…NZ…L

8

Stroke

206 20 50

50

50

26

46

40

114.5

8x M5x9

33

180

43

4x M5x8

94

114.5

LM3…NZ…R

32.5

ø38 H7 x 1.5

65

LM

95

65

95

L A

20

50

50

98

50

A

45

50

50

30.5

33

46

42.5 46

LM

with toothed belt drive and lateral support rail left/right, without protective strip

14x M5x9

ø15 h7

190

Nominal size

Dimensions

Designation

L [mm]

LM [mm]

Belt length [mm]

Weight [kg]

LM3...NZ…L/R

Stroke + 435

L – 190

2 x Stroke + 730

5.94 kg + 0.73 kg/100 mm Stroke

CAD data is available from www.linetech.ch

40

LINE TECH – Swiss made Linear Technology

LINEAR MODULES LM3…BZ…N

-Stroke

28

20 50

50

50

46

40

114.5

8x M5x9

32.5

246

26

180

43

4x M5x8

33

65

114.5

LM3…BZ…R

94

LM3…BZ…L

ø38 H7 x 1.5

LM

with toothed belt drive and lateral support rail left/right, with steel strip

LM

95

65

95

L 20

50

50

50

A

33

46

42.5 46

A

98

45

50

50

14x M5x9

30.5

ø15 h7

190

Nominal size

Dimensions

Designation

L [mm]

LM [mm]

Belt length [mm]

Length steel strip [mm]

Weight [kg]

LM3...BZ…L/R

Stroke + 475

L – 190

2 x Stroke + 810

L – 10

6.30 kg + 0.74 kg/100 mm Stroke

CAD data is available from www.linetech.ch

www.linetech.ch

41

LINEAR MODULE LM4…NZ…N

87.5

85

52

4x M4x8

7

8

132 ø19 h7

Stroke

276

80

100

132

50

ø64 H7 x 1.5

LM

with toothed belt drive, without protective strip

41

4x M6x12

88 LM

113

80

113

35

L 65

65

65

8x M6x11

60

32.5

260

Nominal size

Dimensions

Designation

L [mm]

LM [mm]

Belt length [mm]

Weight [kg]

LM4...NZ…N

Stroke + 540

L – 226

2 x Stroke + 900

8.40 kg + 0.93 kg/100 mm Stroke

CAD data is available from www.linetech.ch

42

LINE TECH – Swiss made Linear Technology

LINEAR MODULE LM4…BZ…N

42

87.5

4x M4x8

85

50

80

52

132

ø19 h7

Stroke

344

100

132

7

ø64 H7 x 1.5

LM

with toothed belt drive, with steel strip

41

4x M6x12

88 LM

113

80

113

35

L 65

65

65

8x M6x11

60

32.5

260

Nominal size

Dimensions

Designation

L [mm]

LM [mm]

Belt length [mm]

Length steel strip [mm]

Weight [kg]

LM4...BZ…N

Stroke + 608

L – 226

2 x Stroke + 1040

L – 12

9.10 kg + 0.95 kg/100 mm Stroke

CAD data is available from www.linetech.ch

www.linetech.ch

43

LINEAR MODULE LM4…NZ…L/R

8x M6x9

117

60 220

4x M6x12

88

LM

113

80

113

41

65

109

65

32.5 65

132

50

8 52

Stroke

276

39

132

LM4…NZ…R

80

LM4…NZ…L

ø64 H7 x 1.5

L 32.5

65

65

65

14x M6x9

A

65

65

35

47

60

60

A

35.5

LM

with toothed belt drive and lateral support rail left/right, without protective strip

65

ø19 h7

260

Nominal size

Dimensions

Designation

L [mm]

LM [mm]

Belt length [mm]

Weight [kg]

LM4...NZ…L/R

Stroke + 540

L – 226

2 x Stroke + 900

10.86 kg + 1.16 kg/100 mm Stroke

CAD data is available from www.linetech.ch

44

LINE TECH – Swiss made Linear Technology

LINEAR MODULE LM4…BZ…L/R

65

65

8x M6x9

117

60 220

88

LM

4x M6x12

113

80

113

41

32.5 65

50

42 52

132

109

Stroke

344

39

132

LM4…BZ…R

80

LM4…BZ…L

ø64 H7 x 1.5

LM

with toothed belt drive and lateral support rail left/right, with steel strip

L 32.5

65

65

14x M6x9

A

47 35.5

65

65

35

60

65

60

A

65 ø19 h7

260

Nominal size

Dimensions

Designation

L [mm]

LM [mm]

Belt length [mm]

Length steel strip [mm]

Weight [kg]

LM4...BZ…L/R

Stroke + 608

L – 226

2 x Stroke + 1040

L – 12

11.72 kg + 1.18 kg/100 mm Stroke

CAD data is available from www.linetech.ch

www.linetech.ch

45

LINEAR MODULE LM5…NZ…N

4x M4x8

174.5 ø19 h7

85

4x M6x12

55

110

110

8

9

69.5

Stroke

321

129

174.5

50

ø64 H7 x 2.5

LM

with toothed belt drive, without protective strip

88 LM

150

150

110

44

L 75

75

75

8x M8x18

85

40

305

Nominal size

Dimensions

Designation

L [mm]

LM [mm]

Belt length [mm]

Weight [kg]

LM5...NZ…N

Stroke + 670

L – 300

2 x Stroke + 1144

18.60 kg + 1.48 kg/100 mm Stroke

CAD data is available from www.linetech.ch

46

LINE TECH – Swiss made Linear Technology

LINEAR MODULE LM5…BZ…N

Stroke

389

4x M6x12

ø19 h7 55

85

110

110

168.5

9

42

69.5

4x M4x8

129

168.5

50

ø64 H7 x 2.5

LM

with toothed belt drive, with steel strip

88 LM

150

150

110

44

L 75

75

75

8x M8x18

85

40

305

Nominal size

Dimensions

Designation

L [mm]

LM [mm]

Belt length [mm]

Length steel strip [mm]

Weight [kg]

LM5...BZ…N

Stroke + 726

L – 300

2 x Stroke + 1256

L – 14

19.50 kg + 1.50 kg/100 mm Stroke

CAD data is available from www.linetech.ch

www.linetech.ch

47

LINEAR MODULE LM5…Nz…l/r

75

75

155

85

50

69.5

174.5

305

88

4x M6x12

55

40 75

Stroke 8x M8x12

141

8

321

110

174.5

LM5…NZ…R

43.5

LM5…NZ…L

ø64 H7 x 2.5

LM

150

110

150

L

40 75

75

75

A

39

44

85

85

A

57.5

LM

with toothed belt drive and lateral support rail left/right, without protective strip

77.5

75

75

14x M8x12

ø19 h7

305

Nominal size

Dimensions

Designation

L [mm]

LM [mm]

Belt length [mm]

Weight [kg]

LM5...NZ…L/R

Stroke + 670

L – 300

2 x Stroke + 1144

23.31 kg + 1.79 kg/100 mm Stroke

CAD data is available from www.linetech.ch

48

LINE TECH – Swiss made Linear Technology

LINEAR MODULE LM5…BZ…L/R

75

42 40 75

75

85

50

69.5

168.5

305

88

4x M6x12

155

55

Stroke 8x M8x12

141

389

110

168.5

LM5…BZ…R

43.5

LM5…BZ…L

ø64 H7 x 2.5

LM

with toothed belt drive and lateral support rail left/right, with steel strip

LM

150

110

150

L 40 75

75

75

A

77.5

75

75

44

39

57.5

85

85

A

14x M8x12

ø19 h7

305

Nominal size

Dimensions

Designation

L [mm]

LM [mm]

Belt length [mm]

Length steel strip [mm]

Weight [kg]

LM5...BZ…L/R

Stroke + 726

L – 300

2 x Stroke + 1256

L – 14

24.38 kg + 1.81 kg/100 mm Stroke

CAD data is available from www.linetech.ch

www.linetech.ch

49

LINEAR MODULES Limit switch mounting

Fitting position of limit switches On request the following non standard limit switches are available:

The limit switches are used in conjunction with a control unit to limit the stroke (prevent overrunning of the carriage) and to define the reference position.

– PNP make type (PNP-NO) – NPN break type (NPN-NC) – NPN make type (NPN-NO) – Reed switches – mechanical switches

LINE TECH employs the following standard inductive limit switches: – PNP openers (PNP-NC) Supply: 10...30 V DC Current consumption off-load: < 10 mA Load: max. 200 mA

Note: At the factory the plus and minus limit switches are preset to a nominal stroke of 0 to +5 mm.

Special applications often require a separate reference point switch to be mounted between the positive and negative limit switches. The limit switch closest to the motor mounting (limit switch controller interface) is known as the forward limit switch. Note: If a lateral support rail is selected (type LM…L/R), the limit switches can only be fitted on the opposite side.

Limit switches / reference switch mounting overview

The following diagrams show the mounting position of the limit switches. The reference position can be allocated either to the plus (+) or to the minus (-) limit switch.

Limit switch resolution

Connector box Limit switch mounting Mounting left

Plus limit switch (+)

Reference switch

Minus limit switch (–)

Mounting right

Position of reference switch (LR) Front reference switch (motor side) Dimensions / switch gap:

LR

15

38

0.5...0.8 mm

x

LM

Limit switches

LR

LR = 20 mm

50

Rear reference switch (opposite motor side)

Size

x [mm]

LM3

55

30

LM4

51

41.5

LM5

59

16

LINE TECH – Swiss made Linear Technology

linear modules Limit switch with/without connector box

Limit switch preparation Standard: without connector box (N), with loose connector cables (L = 2 m)

LM

Limit switches are supplied as standard without connector box with 2 metre long cables (order code N); a connector box with completed cabling is available as an option (order code S). Limit switch mating connectors and cables are not included in the delivery but can be ordered ready-made from LINE TECH.

+ Direction

Reference point bridge Reference point in minus (–) direction Font (drive side) Bridge pin 1–5

Load

Reference point in plus (+) direction Rear (opposite drive side) Bridge pin 3–5

+ V DC

PNP Opener

0 V (GND)

Minus (–) direction (load) 0 V (GND) Plus (–) direction (load) +10...30 V (DC) Reference (load)

PNP Opener

0 V (GND)

Pin 1 Pin 2 Pin 3 Pin 4 Pin 5

– Direction

+ V DC

The connector pin assignment when using a connector box is shown in the diagram on the right. The individual pins are assigned as follows:

Plug connector with reference point bridge

Load

Plug connector

Optional: with connector box (S)

2 5

4

3

1

Colour code key for the diagrams:

Plug SFV50 acc. to IEC 60130-9

Load = black +V DC = brown 0 V (GND) = blue

0 V (GND)

+ V DC

PNP Opener Load

PNP Opener

+ V DC

+ Direction

0 V (GND)

+ V DC

Load

PNP Opener

Reference

0 V (GND)

– Direction

Load

Plug connector with additional reference switch

2 4 1

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5 3

Plug SFV50 acc. to IEC 60130-9

51

LINEAR MODULES with ball screw drive Dimensions for motor mounting; straight fit

Straight motor mounting Intermediate flange

LM

Motor plate

Motor

Coupling

Length of straight motor mounting

L

øD

K

LS

E

øD

ød

LW

Coupling

LF

Nominal size

Dimensions LF ±2 [mm]

LM3… LM3... LM4...

f1

LS + E + LW

LM5...

Coupling

E

f1

Dimensions [mm]

Drive torque [Nm]

LS [mm]

Weight * [kg]

if LW > f1

Size

L

32

0.500

Size 14

14

35 30

32

0.580

Size 19

19

36

0.640

Size 19

24

55

1.800

Size 24

ø D ø d

f1

E

ø DK

TN

≤ 16

11

13 32.2

66 40

≤ 20

25

16 43

17

34

78 55

≤ 28

30

18 57

40

120

6.3

Tmax 25

* Flange including coupling Motor dimensions ** ** The following dimensions

LW

øZ

øDM

F

ødW

LK

B

LZ

ø DM ______________ [mm]

LW ______________ [mm]

B

ø dW ______________ [mm]

______________ [mm]

F ______________ [mm] LK ______________ [mm]

LZ ______________ [mm] ø Z ______________ [mm]

are required to determine the motor mounting.

52

LINE TECH – Swiss made Linear Technology

LINEAR MODULES with ball screw drive Dimensions for motor mounting; lateral fit

Lateral motor mounting Motor

LM

Belt drive housing

Motor pinion No. of teeth = zM Toothed belt LM pinion No. of teeth = zLM

i = zM : zLM

E

F

Carriage

K

LG

Dimensions for lateral motor mounting G

H

Nominal size

LM3…

LM4...

LM5...

Dimensions [mm]

i

E

1:1

130…135 (132.5)

1:1.5

131…139 (135)

1:2

No. of teeth

[mm]

[kg]

32

32

ø19

425

1.600

32

48

ø19

475

1.800

131.5…135.5 (133.5)

24

48

ø12

450

1.700

1:1

130...135 (132.5)

32

32

ø19

425

1.600

1:1.5

131...139 (135)

32

48

ø19

475

1.800

1:2

131.5...135.5 (133.5)

24

48

ø12

450

1.700

1:1

163.5...171.5 (167.5)

48

48

ø25

575

2.910

1:1.5

170.5...178.5 (174.5)

32

48

ø19

550

2.800

1:2

168.5...176.5 (172.5)

27

54

ø14

550

2.900

100

120

43

60

43

54

73

K

46

46

65

LG

Weight

ø dW

43

H

Belt length

zLM

100

G*

Max.

zM

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F

F/2

247

247

300

53

LINEAR MODULES with toothed belt drive Dimensions for motor mounting; straight fit

Straight motor mounting

LM

Intermediate flange

Coupling Motor plate

Motor

Length of motor mounting

Coupling

øD

ød

øD

K

LW E LS

LF

L

f1

Nom. size

Dimensions LF ±2 LS [mm] [mm]

E

Coupling if LW > f1

Dimensions [mm]

Weight * [kg]

Size

L

ø D ø d

f1

f1

E

ø DK

Drive torque [Nm] TN Tmax

LM3…

33

0.780

Size 19

19

66 40

≤ 20

25

16 43

17

34

LM4...

35

1.150

Size 19

24

78 55

≤ 28

30

18 57

40

120

35

1.250

Size 24

LM5...

44

1.100

Size 19

LM5...

44

1.400

Size 24

LM4...

LS + E + LW

Motor dimensions **

** The following dimensions LW

øZ

øDM

F

54

ødW

LK

B

* Flange including coupling

LZ

ø DM ______________ [mm]

LW ______________ [mm]

B

ø dW ______________ [mm]

______________ [mm]

F ______________ [mm] LK ______________ [mm]

LZ ______________ [mm] ø Z ______________ [mm]

are required to determine the motor mounting.

LINE TECH – Swiss made Linear Technology

linear modules with toothed belt drive Dimensions for motor fitting; gear mounting (1/2)

Standard worm drive HPG…-A7… (FH) 1)

High-performance servo worm drive HPG…-A1… / HPG…-A2… (AE) 1)

Coupling

Coupling Motor plate

LM

Motor plate

Gear

Gear

Feather key Gear mounting plate

1)

Outside tensioning set Gear mounting plate

Possible gear reductions: 1: 2 / 3 / 4 / 5 / 6 / 8 / 10 / 13.33 / 16 / 24 / 30 / 47 / 60

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55

LINEAR MODULES with toothed belt drive Dimensions for motor fitting; gear mounting (2/2)

Dimensions for gear mounting Assembly direction: E + L D

Assembly direction: F + K

B

x

A

C

D

=

A A

C

A

A

High-performance servo worm drive HPG…-A1… / HPG…-A2… (AE) 1)

E/2

E G

E/2

E

E+F+G

F

F

Standard worm drive HPG…-A7… (FH) 1)

E+F

D

x

C A

= D

C

=

=

B A

=

B

=

A

LM

=

B =

x

Assembly direction: G + H

x

Assembly direction: D + M

Nominal size

LM3...

Gear box type

Casing dimensions [mm] D

E

F

G*

[kg]

85

90

100

40

65

12

–

0.500

1.900

20...33

85

90

100

40

65

12

18.5 0.500

2.020

45

20...33

98

45

33...43

108

120

135

50

85

20

–

45

20...33

98

45

33...43

108

120

135

50

85

20

23.5 1.200

60

25...40

120

60

40...50

130

60

50...65

145

8.700

60

25...40

120

8.800

HPG…-A1 / 2… (AE) 1) 60

40...50

130

60

50...65

145

90

40...62

172

90

62...82

192

90

40...62

172

90

62...82

192

HPG…-A7… (FH) 1) HPG…-A1 / 2…

(AE) 1)

HPG…-A1 / 2… (AE) 1)

HPG…-A7… (FH) 1)

HPG…-A7… (FH) 1) LM5... HPG…-A1 / 2… (AE) 1)

1)

[kg]

C

HPG…-A7… (FH) 1)

LM4...

Gear

B

x

LW

30

20...33

30

A

Weight

1.200

3.900 4.000 4.100 4.200 8.500

150

150

180

180

65

65

110

110

25

25

–

2.200

25.0 2.200

8.650

8.850 8.900

200

250

100

150

25

–

3.800

200

250

100

150

25

30.0 3.800

22.800 22.900 23.700 23.800

Possible gear reductions: 1: 2 / 3 / 4 / 5 / 6 / 8 / 10 / 13.33 / 16 / 24 / 30 / 47 / 60

56

LINE TECH – Swiss made Linear Technology

LM

noteS

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57

LINEAR MODULES Attachment accessories; clamps

Mounting options

LM3.../LM5...

LM4...

Caution: Only attach and support the linear modules on the base profile, not on the end plates. Nominal size

12

M6

Dimensions [mm] A

B

C C1)

C

LM3…

76.8

88.8

40

A±0.1

A±0.1

LM4...

94.0

108.0

531)

B

B

LM5...

132.0

150.0

85 possible for size LM4 with planning by LINE TECH during production

Clamps

C

B

Type I

F

D

A B

C

C

C

H

Recommended number of clamps: 4 per metre and side

G

K

E

H

1)

J

LM

The linear modules are secured with clamps or sliding blocks.

Type II A

Nominal Dimensions [mm] size Type A B I LM3…

10

II

10

II

F

G*

H

J

K

19.0

12.0

16

11.9

6

ø11

ø 6.5

22.0

15.0

20

14.0

7

ø11

70 108

19

25.7 ...

16.7

28

20.0

9

ø 15

Art. No.

[kg] ……

…………

0.118

P-54376/1

0.195

M-40023/1

……

…………

0.412

M-50158/1

……

…………

ø 6.5

...

I

58

E

60 80

II

D

20

I

LM5...

C …

80

LM4...

Weight

ø 9.0

LINE TECH – Swiss made Linear Technology

LINEAR MODULES Attachment accessories; sliding blocks

Sliding blocks

LM

Sliding blocks having the relevant groove width can be used to mount add-on parts to the base profile.

Sliding block types NS5, NS6 and NS8 can be used in line with the groove width (see profile cross-sections, pages 9 to 11). Sliding blocks are available from LINE TECH. Size, material and connection thread as per the following order system (e.g. NS6 St M5) must be defined as the order number. The available types are listed opposite.

a

Material

Dimensions [mm] Groove width

a (thread)

5

M3 / M4 / M5

steel / stainless steel

6

M4 / M5 / M6

steel / stainless steel

8

M4 / M5 / M6 / M8

steel / stainless steel

Order designation for sliding blocks Examples: NS6 St M5 Sliding block NS Groove width

NS 6 St M5 Thread size (dim. “a�) M3 / M4 / M5 / M6 / M8 Material

5 6 8

St = steel Inox = stainless steel

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59

LINEAR MODULES Grease points (1/2)

LM3..R..N

LM3..Z..N Runner blocks 1) 3)

LM

Ball screw

1) 3)

Runner blocks 1) 3)

LM3..R..L/R

LM3..Z..L/R Ball screw 1) Runner blocks 1)

Runner blocks 1)

Runner blocks 2)

LM4..R..N

Runner blocks 2)

LM4..Z..N

Ball screw 1) 3)

Runner blocks 1) 3)

Runner blocks 1) 3)

LM4..R..L/R

LM4..Z..L/R Runner blocks 1)

Ball screw

1)

Runner blocks 1)

Runner blocks 2)

60

Runner blocks 2)

LINE TECH – Swiss made Linear Technology

LINEAR MODULES Grease points (2/2)

LM5..R..N

LM5..Z..N Runner blocks 1) 3)

LM

Ball screw 1) 3)

Runner blocks 1) 3)

LM5..R..L/R

LM5..Z..L/R Runner blocks 1) Runner blocks 1)

Ball screw

1)

Runner blocks 2)

Grease points Different lubricating nipples are on the linear module carriages: 1) Lubricating nipple to DIN 3405 2) Lubricating nipple to DIN 71412 3) Lubrication either on left or right side Greasing positions are not dependent on stroke.

Runner blocks 2)

Grease gun

Standard grease LINE TECH recommends the following grease for lubrication: Microlube GBU Y 131 Art. no.: ZPE.FETTPRESSE-03

www.linetech.ch

61

62

LINE TECH – Swiss made Linear Technology

Line tech BM bridge modules Table of contents

– Product overview___________________________________________________ 64–65 – Design fundamentals / Lubrication / Maintenance____________________________66 – Profile cross-sections____________________________________________________67 – Bridge module with ball screw drive________________________________________68 - Details for ball screw drive / general technical details – Bridge module with belt drive_____________________________________________69 - Details for toothed belt drive / general technical details – Bridge module with ball screw drive; load rates and torques___________________70 – Bridge module with toothed belt drive; load rates and torques__________________71 – Permissible speeds______________________________________________________72 – Permissible deflection____________________________________________________73

BM

– Bridge modules with ball screw drive - Designation system________________________________________________ 74–75 - Information for selection » Motor mounting preparation______________________76 - Dimensions BM4…BR…N (with steel strip)________________________________78 - Dimensions BM4…BR…L/R ____________________________________________79 (with lateral support rail left/right, with steel strip) - Dimensions BM4…BR…V/W ___________________________________________80 (with lateral profile left/right, with steel strip) – Bridge modules with toothed belt drive - Designation system________________________________________________ 82–83 - Information for selection » Motor mounting preparation__________________ 84–86 - Dimensions BM4…NZ…N (without protective strip)_________________________88 - Dimensions BM4…BZ…N (with steel strip)_________________________________89 - Dimensions BM4…NZ…L/R ____________________________________________90 (with lateral support rail left/right, without protective strip) - Dimensions BM4…BZ…L/R ____________________________________________91 (with lateral support rail left/right, with steel strip) - Dimensions BM4…NZ…V/W ____________________________________________92 (with lateral profile left/right, without protective strip) - Dimensions BM4…BZ…V/W ____________________________________________93 (with lateral profile left/right, with steel strip) – Limit switch; fitting / preparation / plug connector________________________ 94–95 – Motor mounting straight/lateral with ball screw drive______________________ 96–97 – Motor mounting straight/lateral with toothed belt drive____________________ 98–99 – Attachment accessories; clamps / sliding blocks_______________________ 100–101 – Grease points________________________________________________________ 102

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63

Bridge modules Product overview

BM…Z…N Bridge module with toothed belt drive

BM…R…L/R Bridge module with ball screw drive and lateral support rail left/right

BM…Z…L/R Bridge module with toothed belt drive and lateral support rail left/right

BM…R…V/W Bridge module with ball screw drive and lateral profile left/right

BM…Z…V/W Bridge module with toothed belt drive and lateral profile left/right

BM

BM…R…N Bridge module with ball screw drive

64

LINE TECH – Swiss made Linear Technology

Bridge modules Product overview

LINE TECH bridge modules are precision, ready-to-install, modular linear systems with linear guide and two drive variants, ball screw and toothed belt drive. Cantilever axles and axles with higher intrinsic inertia are specific application areas. One size (BM4) is currently available. Advantages

Structure

– Compact dimensions – Optimum running performance together with high load ratings and high level of rigidity with either one or two integrated, no-play linear guides – Either ball screw or toothed belt drive – Simple motor mounting by centering and thread on driving head – Greasing by central grease points – Design aligned to application possible

– Compact aluminium base profile – Ready-to-install bridge modules in any lengths – Carriages made of aluminium

BM4…V/W

H

BM4…L/R

H

B

B

B

Bridge module

Dimensions

Load ratings

Type

BxH [mm]

C0 [kN]

BM4…N

BM

– Motor mounting – Limit switch – Multi-axis systems

H

BM4…N

Customised options

C [kN]

80 x 165

59.9

34.2

BM4…L/R

117 x 174

119.9

68.4

BM4…V/W

165 x 180

119.9

68.4

Please refer to pages 68 to 71 for load capacities.

www.linetech.ch

65

Bridge modules

BM

Design fundamentals / Lubrication / Maintenance

LINE TECH bridge modules

Lubrication

Maintenance

LINE TECH bridge modules with ball screw or toothed belt drive are modular, ready-to-install linear units with drive. Sealed rail guiding elements are employed. Guides and drive are protected from external factors (such as dirt and chippings) by a steel strip / the toothed belt. The base profile as well as the lateral profile are made of aluminium alloy and manufactured with the extrusion process. Additional limit switches fitted on the outside, in conjunction with motors and a controller, ensure correct positioning of the carriage and provide protection against overrun. The selected design provides for a high level of performance with the most compact dimensions.

LINE TECH bridge modules are lubricated with Microlube GBU Y 131 at the factory. This quality grease offers outstanding properties for the guidance and screw drive elements as well. Greasing should be carried out at regular intervals, depending on the load and area of operation. On an average, re-greasing is required every 500 hours. All roller bearings are greased for life and thus do not require any maintenance. Correct and adequate greasing can substantially prolong the life of bridge modules.

LINE TECH bridge modules are maintenance-free (apart from re-greasing required).

Service temperature The permissible operating temperature (between 5 and 80 °C) is determined by the synthetic materials used. The specifications of the relevant manufacturers apply for motors and control units.

Note: Also follow here the instructions on the grease points, page 102.

BM4…R… with ball screw drive

BM4…Z… with toothed belt drive

3)

3) 5)

6a)

7)

1)

1) Base profile 2) Lateral profile 3) Top carriage

66

5)

6b)

4)

2)

4) Lateral carriage 5) Angle

4)

7)

1)

2)

6a) Ball screw drive 6b) Toothed belt drive 7) Linear guides

LINE TECH – Swiss made Linear Technology

Bridge modules Profile cross-sections BM4…R/Z…

BM4…R/Z…N

BM4…R/Z…L/R with lateral support rail left/right

A

20

18

55

27

128

D

20

44

44

80

80

Grooves BM4…

4447 130

C

47 7.05 7.05

2.5

3

16.4

14.2

16.4

D

14.2 14.2 8.2

8.2

6

6

6.2

6.2

9.75

18 44

130

DC

5

D 20

5

20

11.5

18

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6.2 2.5

18

18

59

A

D

C

B

9.75 9.75

9.75 9.75

C

3

3

B

14.2

B

6

B

3

11.53

B

B

A

6

C

27

180 27 128 59

128

180

C

3

9.75

A

8.2 6.2

165 6.2

165

8.2

BM4…R/Z…V/W with lateral profile left/right

A

D

6.2

A

B

18

B

59

B

174

B 27

C

59

128

165

C

BM

117

60

67

Bridge modules with ball screw drive Details for ball screw drive / general technical details for bridge module

Details for ball screw drive (BSD)

BM

BSD

Axial load rates

Size

dxp

C0

[mm]

[N]

Positioning accuracy

Repeating accuracy

Acceleration

Axial play

Cdyn

amax

Type

[N]

[m /s2]

[μm /mm]

[mm] < 0.05 1)

BM

BM4…R…

20 x 20

5 705

4 912

< 0.03 1)

52 / 300

10.0

< 0.01 1)

Idle torque

Axial play [mm]

A

< 0.20

R

< 0.02

V

—

[Nm] 0.200 0.400

d x p = screw diameter x thread pitch 1) backlash not factored in A = axial play R = reduced play V = preloaded

General technical details for bridge module with ball screw drive

BM

Movement speed

Moments of inertia

Stroke max.

Steel strip

Z

Feed and friction force

Moved mass

FV

mb

[N]

[kg]

Y

Guide

Drive

vmax

vmax

IY

IZ

[m/s]

[m/s]

[cm4]

[cm4]

[mm]

BM4…R…N

5.0

2)

708

332

3 000

BM4…R…L/R

5.0

2)

721

401

3 000

BM4…R…V/W

5.0

2)

1 074

834

3 000

Type

2)

without

25.00

with

35.00

without

50.00

with

60.00

without

50.00

with

70.00

2.500

4.390

6.820

for ball screw drive, dependent on rotational speed characteristics, spindle length and relevant critical rotational speed.

68

LINE TECH – Swiss made Linear Technology

Bridge modules with toothed belt drive Details for toothed belt drive / general technical details for bridge module

Details for toothed belt drive

BM

Toothed belt drive

Size

Type/division Pinion

HTD 5 M

Positioning accuracy

Repeating accuracy

Acceleration

… /1000 mm

amax

Stroke/rev Tension 3)

F

d3 x lR [mm]

[mm]

[mm/m]

[N]

[μ /mm]

[mm]

[m/s2]

65.25 x 45

205

0.105

… 1)

200/1000 2)

< 0.20 2)

50.0 1)

BM

BM4…Z…

Axial load

d3 x lR = pinion diameter x pinion width 1) depending on speed and load ➞ see diagram on page 72 2) backlash not factored in 3) belt tension/metre [mm/m] per 100 N tensile force

General technical details for bridge module with toothed belt drive

BM

Movement speed

Moments of inertia

Stroke max.

Feed and friction force

Moved mass

FV

mb

[N]

[kg]

without

10.00

2.100

with

25.00

2.120

without

25.00

2.150

with

35.00

2.170

without

50.00

4.080

with

60.00

4.100

without

50.00

6.710

with

70.00

6.730

Steel strip

Z

Y

Guide

Drive

vmax

vmax

IY

IZ

[m/s]

[m/s]

[cm4]

[cm4]

[mm]

5.0

4)

708

332

6 180

BM4…Z…N

5.0

4)

708

332

6 180

BM4…Z…L/R

5.0

4)

721

401

6 180

BM4…Z…V/W

5.0

4)

1 074

834

6 180

Type

BM4…N…N

5)

4)

for toothed belt drive, dependent on load and speed and permissible movement speed of the linear guide ➞ see diagram on page 72 5) variant without drive

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69

Bridge modules with ball screw drive Load ratings and torques

BM4…R…L/R with lateral support rail

BM4…R…N

BM4…R…V/W with lateral profile

Mx

Torques

Mx

Mx My

My

BM

My

Mz

Mz

Load ratings

Cz2

Mz

Cz1 Cy2

Cy1

Bridge module

Maximum permissible load [kN]

Maximum permissible torque [Nm]

Type

static

static

Cy0 1,2 BM4…R…N

dynamic Cz0 1,2

Cy1,2

Cz1,2

Mx0

dynamic My0

Mz0

Mx

My

Mz

59.9

59.9

34.2

34.2

646

1 107

1 107

400

1 069

1 069

BM4…R…L/R

119.9

119.9

68.4

68.4

3 030

3 395

3 395

1 868

3 056

3 056

BM4…R…V/W

119.9

119.9

68.4

68.4

4 296

3 523

3 523

3 060

3 150

3 150

Expedient load

Note on dynamic load ratings and torques The determination of dynamic load ratings and torques is based on a 50, 000 m stroke. If comparative values must be

70

calculated for a 100, 000 m stroke, the values for Mx, My, Mz and C must be divided by the factor 1.26.

With a view to serviceable life, loads of less than 20% of the dynamic load ratings have generally proved to be expedient.

LINE TECH – Swiss made Linear Technology

Bridge modules with belt drive Load ratings and torques

BM4…Z…N

BM4…Z…L/R with lateral support rail

BM4…Z…V/W with lateral profile

Mx

Torques

Mx

Mx My

My

BM

My

Mz

Mz

Load ratings

Cz2

Mz

Cz1 Cy2

Cy1

Bridge module

Maximum permissible load [kN]

Maximum permissible torque [Nm]

Type

static

static

Cy0 1,2 BM4…Z…N

dynamic Cz0 1,2

Cy1,2

Cz1,2

Mx0

dynamic My0

Mz0

Mx

My

Mz

59.9

59.9

34.2

34.2

646

1 573

1 573

400

1 446

1 446

BM4…Z…L/R

119.9

119.9

68.4

68.4

3 030

3 860

3 860

1 868

2 432

2 432

BM4…Z…V/W

119.9

119.9

68.4

68.4

4 926

4 844

4 844

3 060

4 210

4 210

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71

Bridge modules Permissible speeds

Permissible speeds...

… for bridge module with ball screw drive (BM4…R…)

1)

vmax

[m/min] 80 70 60 50 40 30 20 10

BM

Caution: For ball screw drive, note the rotational speed characteristics, spindle length and relevant critical rotational speed.

KGT 20x20

L [mm] 200

400

600

800 1000 1200 1400 1600 1800 2000 2200 2400 2600

… for bridge module with toothed belt drive (BM4…Z…)

1)

vmax

[m/min] 300 280 260 240 220 200 180 160 140 120 100 80 60 40 20

Caution: For toothed belt drive, the permitted movement speed of the linear guide, and load, are authoritative.

BM4…Z…

F [N] 200

400

600

800

1000

1200

1400

1600

1800

Please also pay attention to the motor speeds.

1)

greater accuracy on request L = overall length of the bridge module F = axial load

72

LINE TECH – Swiss made Linear Technology

Bridge modules Permissible deflection

fmax [mm] 1.2 1.0

f max

0.8

N 00 15 0N 100

0.6 0.4

N 500 N 250 0 N LM [mm]

0.2

The following diagrams apply for: – firm clamping (40–50 mm per side) – 3–4 screws per side – solid base

750

1000 1250 1500 1750 2000 2250 2500 2750 3000 3250 3500

BM

500

3

50

fmax [mm]

N

2.5

0N

0N

…with toothed belt drive

0

If increased demands are made on system accuracy we recommend supporting the bridge module along its entire length.

250

25 0 20 0 N 00 N 15 00 N 10 00 N

The maximum permissible deflection is limited by the maximum deflection angle of 5’. Exceeding this value without support will have a negative effect on the unit’s service life.

25

If the maximum permissible deflection is exceeded, the bridge modules must be additionally supported.

2 00 500 N N

Bridge modules may be assembled self-supporting. However, the deflection (which limits the possible load) must be taken into consideration.

BM4…N resp. BM4…L/R …with ball screw drive

20

Permissible deflection

2

f max

1.5 1 0.5

LM [mm] 500

1000 1500 2000 2500 3000 3500 4000 4500 5000 5500 6000 6500 7000 7500 8000

BM4…V/W …with ball screw drive fmax [mm] 1.2

20 25 00 00 N N

1.0 0.8

f max

0.6

N 00 15 N 0 100 N 500 N 250 0 N LM [mm]

0.4 0.2

1000 1250 1500 1750 2000 2250 2500 2750 3000 3250 3500

25

00

fmax

fmax [mm] 3

LM / 2 F

N

2.5 2

0

LM

f max

1.5 1

fmax

0.5

LM [mm] 500

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0N

…with toothed belt drive

N

750

10 0

F

500

50 0

250

25 0N

LM LM / 2

N 20 00 N 15 00 N

Mounting positions: horizontal

1000 1500 2000 2500 3000 3500 4000 4500 5000 5500 6000 6500 7000 7500 8000

73

Bridge modules with ball screw drive Designation system

BM 4 . 2 . 0500 B R 020 . 1

Bridge module (designation example) Design BM = bridge module with linear guide Size H B

BM

H

= size 80 mm H

4

B

B

Type

BM4...N

BM4...L/R

BM4...V/W

B x H [mm]

80 x 165

117 x 174

165 x 180

Configuration 2 = 2 runner blocks (1 carriage) *** … = special execution 1) Stroke absolut [mm] Protective covering B = with steel strip *** N = without protective strip Drive R = rolled ball screw *** N = without drive Stroke per revolution [mm] 020 = size 4; ball screw with pitch 20 mm *** … = other pitch 1) Limit switches 0 1 2 3 4

= = = = =

without limit switch 2 limit switches, reference point at front (drive side) 2 limit switches, reference point at rear (opposite drive side) 2 limit switches + additional reference switch at front (drive side) 2 limit switches + additional reference switch at rear (opposite drive side)

* seen from motor opposite side towards motor ** available for lateral motor mounting only *** standard version 1) on request

74

LINE TECH – Swiss made Linear Technology

. 02 . 0 F - S 7 R L N N 5 8 3 _ _ _

583...

= drawing type

Lateral support rail / profile N L R V W

= = = = =

without lateral support rail / profile *** lateral support rail left lateral support rail right lateral profile left lateral profile right

Connector box N = without connector box (loose cable L = 2.0 m) *** S = with connector box

BM

Mounting position of limit switches / connector box N = without limit switches / connector box *** L = limit switches / connector box mounting left * R = limit switches / connector box mounting right * Preload ball screw drive (BSD) A R V N

= = = =

BSD with axial play BSD with reduced axial play *** BSD preloaded without drive

Tolerance class ball screw drive (BSD) 7 = Tolerance class BSD: T7 (52 µm / 300 mm) *** N = without drive Material protective strip S = steel strip *** R = stainless steel strip N = without protective strip Motor mounting N = without motor mounting *** F = mounting plate for standard motor S = mounting plate for special motor Reduction 0 = without reduction (1:1) *** 1 = reduction 1:1.5 ** 2 = reduction 1:2 ** Assembly stage 00 = without drive 01 02 04 05 06 07

= = = = = =

free spindle end *** with coupling and intermediate plate set up for lateral motor mounting right * set up for lateral motor mounting left * set up for lateral motor mounting top set up for lateral motor mounting bottom

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00

01

02

04

05

06

07

75

Bridge modules with ball screw drive Information for selection » Motor mounting preparation

Motor fitting preparation – assembly stages with ball screw drive LINE TECH bridge modules with ball screw drive can be supplied with different motor mount preparations. Refer to pages 96 and 97 for dimensions.

Assembly stage 02 With coupling and intermediate plate

Assembly stage 04 Belt drive housing for lateral motor mounting right

Assembly stage 05 Belt drive housing for lateral motor mounting left

Assembly stage 06 Belt drive housing for lateral motor mounting top

Assembly stage 07 Belt drive housing for lateral motor mounting bottom

BM

Assembly stage 01 Free spindle end

76

LINE TECH – Swiss made Linear Technology

BM

noteS

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77

Bridge module BM4…BR…N

78 ø12 h6

314 42

Stroke

48 4x M6x12

42

230 2

60

165

127

163

60

ø46 h6

BM

with ball screw drive, with steel strip

6

80 LM

50

20

L

36

60

8x M6x10

17.5

65

65

65

17.5

Nominal size

Dimensions

Designation

L [mm]

LM [mm]

Length ball screw [mm]

Length steel strip [mm]

Weight [kg]

BM4...BR…N

Stroke + 440

L – 70

L + 30

L – 36

11.24 kg + 1.55 kg/100 mm Stroke

CAD data is available from www.linetech.ch

78

LINE TECH – Swiss made Linear Technology

Bridge module BM4…BR…L/R with ball screw drive and lateral support rail left/right, with steel strip

LM

20

60

163

126

80

50 36

4x M6x12

60

220

6

BM

48

60

47 45 65 65

Stroke 6x M6x9

174

314

29

78 ø12 h6

ø46 h6

BM4…BR…L BM4…BR…R

117

L 17.5 65

65

14x M6x10

35.5

60

47 60

65

50 65 65 230

Nominal size

Dimensions

Designation

L [mm]

LM [mm]

Length ball screw [mm]

Length steel strip [mm]

Weight [kg]

BM4...BR…L/R

Stroke + 440

L – 70

L + 30

L – 36

14.00 kg + 1.80 kg/100 mm Stroke

CAD data is available from www.linetech.ch

www.linetech.ch

79

Bridge module BM4…BR…V/W with ball screw drive and lateral profile left/right, with steel strip

BM4…BR…V BM4…BR…W

Stroke

314

126

17.5

60

4x M6x12

60

17.5

6

180

105

24

37

23

60

60

ø12 h6

20x M6x15

48

127

163

ø46 h6

BM

78

130

216 LM

50

20

165

L

36 230

65 60

8x M6x15

17.5

65 65 65

Nominal size

Dimensions

Designation

L [mm]

LM [mm]

Length ball screw [mm]

Length steel strip [mm]

Weight [kg]

BM4...BR…V/W

Stroke + 440

L – 70

L + 30

L – 36

19.04 kg + 2.13 kg/100 mm Stroke

CAD data is available from www.linetech.ch

80

LINE TECH – Swiss made Linear Technology

BM

noteS

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81

Bridge modules with toothed belt drive Designation system

BM 4 . 2 . 0500 N Z 205 . 1

Bridge module (designation example) Design BM = bridge module with linear guide Size H

H

= size 80 mm H

4

BM

B

B

B

Type

BM4...N

BM4...L/R

BM4...V/W

B x H [mm]

80 x 165

117 x 174

165 x 180

Configuration 2 = 2 runner blocks (1 carriage) *** … = special execution 1) Stroke absolut [mm] Protective covering B N

= steel strip = without protective strip ***

Drive Z N

= toothed belt drive *** = without drive

Stroke per revolution [mm] 205 = toothed belt with 205 mm stroke per revolution *** … = other stroke per revolution 1) Limit switches 0 1 2 3 4

= = = = =

without limit switch 2 limit switches, reference point at front (drive side) 2 limit switches, reference point at rear (opposite drive side) 2 limit switches + additional reference switch at front (drive side) 2 limit switches + additional reference switch at rear (opposite drive side)

* seen from motor opposite side towards motor ** available for lateral motor mounting only *** standard version 1) on request 2) details see gear mounting, page 99

82

LINE TECH – Swiss made Linear Technology

. 12 . 0 N - S N N L N N 5 8 3 _ _ _

583...

= drawing type

Lateral support rail / profile N L R V W

= = = = =

without lateral support rail / profile *** lateral support rail left lateral support rail right lateral profile left lateral profile right

Connector box N = without connector box (loose cable L = 2.0 m) *** S = with connector box

BM

Mounting position of limit switches / connector box N = without limit switches / connctor box *** L = limit switches / connctor box mounting left * R = limit switches / connctor box mounting right * Gear box mounting N = without gear *** D = top / rear E = top / front

F = back / bottom G = rear / top H = front / top

K = front / bottom L = bottom / front M = bottom / back

Drive shaft N S H O

= = = =

standard drive shaft *** drive shaft for standard worm gear FH 2) drive shaft for high-performance servo worm gear AE 2) without drive shaft

Material protective strip N = without protective strip *** S = steel strip R = stainless steel strip Motor mounting N = without motor mounting *** F = mounting plate for LINE TECH motor S = mounting plate for special motor Reduction 0 = without reduction *** X = i = __________ (in conjunction with gear type FH or AE) 2) Assembly stage

00

11

12

00 = without drive 11 12 13 14 17 18 19 25 26 27 28

= = = = = = = = = = =

free shaft end right * free shaft end left * 13 shaft end right with coupling and intermediate plate * shaft end left with coupling and intermediate plate * free shaft ends on both sides (passing shaft) 18 shaft end on both sides, with coupling and intermediate flange right * shaft end on both sides, with coupling and intermediate flange left * shaft end right with gear mounting * shaft end left with gear mounting * shaft end on both sides, right with gear mounting * shaft end on both sides, left with gear mounting *

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26

27

14

17

19

25

28

83

Bridge modules with belt drive Information for selection » Motor mounting preparation (1/3)

Motor mounting preparation – assembly stages with toothed belt drive LINE TECH bridge modules with toothed belt drive can be supplied in different assembly stages as preparation for motor mounting. Refer to pages 98 and 99 for dimensions.

Assembly stage 12 Free shaft end left*

Assembly stage 13 Shaft end right* with coupling and intermediate flange

Assembly stage 14 Shaft end left* with coupling and intermediate flange

Assembly stage 00 Without drive

Assembly stage 17 Free shaft ends on both sides

BM

Assembly stage 11 Free shaft end right*

* seen from motor opposite side towards motor

84

LINE TECH – Swiss made Linear Technology

Bridge modules with belt drive Information for selection Âť Motor mounting preparation (2/3)

Assembly stage 19 Shaft ends on both sides, left* with coupling and intermediate flange

Assembly stage 25 Shaft end right* with gear mounting plate

Mounting condition 26 Shaft end left* with gear mounting plate

Assembly stage 27 Shaft ends on both sides, right* with gear mounting plate

Assembly stage 28 Shaft ends on both sides, left* with gear mounting plate

BM

Assembly stage 18 Shaft ends on both sides, right* with coupling and intermediate flange

* seen from motor opposite side towards motor

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85

Bridge modules with belt drive Information for selection » Motor mounting preparation (3/3)

Motor mounting preparation – mounting options (alignment) of worm drives For assembly stages 25 to 28 (see Page 85), the gear mounting plate can be pre-mounted differently depending on gear mounting and motor alignment required:

Gear box mounting E Gear towards front* and top

Gear box mounting F Gear towards back* and bottom

Gear box mounting G Gear towards back* and top

Gear box mounting H Gear towards front* and top

Gear box mounting K Gear towards front* and bottom

Gear box mounting L Gear towards front* and bottom

Gear box mounting M Gear towards back* and bottom

BM

Gear box mounting D Gear towards back* and top

* seen from motor opposite side towards motor

86

LINE TECH – Swiss made Linear Technology

BM

noteS

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87

Bridge module BM4…NZ…N

132

276

8

132

Stroke

260

8

106

145 ø64 H7 x 1.5 54

80

LM

115

ø19 h7

88

50

4x M6x12

165

BM

with toothed belt drive, without protective strip

35

115

L

60

8x M6x10

32.5

65

65

65

Nominal size

Dimensions

Designation

L [mm]

LM [mm]

Belt length [mm]

Weight [kg]

BM4...NZ…N

Stroke + 540

L – 230

2 x Stroke + 900

9.70 kg + 1.36 kg/100 mm Stroke

CAD data is available from www.linetech.ch

88

LINE TECH – Swiss made Linear Technology

Bridge module BM4…BZ…N with toothed belt drive, with steel strip

344 42

132

Stroke

260

BM

132

42

ø64 H7 x 1.5 54

80

LM

115

ø19 h7

106

145

165

88

50

4x M6x12

35

115

L

60

8x M6x10

32.5

65

65

65

Nominal size

Dimensions

Designation

L [mm]

LM [mm]

Belt length [mm]

Length steel strip [mm]

Weight [kg]

BM4...BZ…N

Stroke + 608

L – 230

2 x Stroke + 1040

L – 12

10.70 kg + 1.38 kg/100 mm Stroke

CAD data is available from www.linetech.ch

www.linetech.ch

89

Bridge module BM4…NZ…L/R with toothed belt drive and lateral support rail left/right, without protective strip

276

8

260

8

65 65 65

132

6x M6x9

174

145

50

60

88

Stroke

ø64 H7 x 1.5

54

106

132

29

BM

4x M6x12

BM4…NZ…L BM4…NZ…R

80

220 LM

115

115

117

L 32.5 65

14x M6x10

A

35

60

47 60

65

35.5

65

A

ø19 h7

65 65 65

Nominal size

Dimensions

Designation

L [mm]

LM [mm]

Belt length [mm]

Weight [kg]

BM4...NZ…L/R

Stroke + 540

L – 230

2 x Stroke + 900

12.39 kg + 1.59 kg/100 mm Stroke

CAD data is available from www.linetech.ch

90

LINE TECH – Swiss made Linear Technology

Bridge module BM4…BZ…L/R with toothed belt drive and lateral support rail left/right, with steel strip

BM4…BZ…L BM4…BZ…R

6x M6x9

ø64 H7 x 1.5

145

50

60

65 65 65

BM

42

132

54

106

260

42 88

Stroke

174

344

29

4x M6x12

132

80

220 LM

115

115

117

L 32.5 14x M6x10

A

35

60

47 60

65

35.5

65 65

A

65 65 65

ø19 h7

Nominal size

Dimensions

Designation

L [mm]

LM [mm]

Belt length [mm]

Length steel strip [mm]

Weight [kg]

BM4...BZ…L/R

Stroke + 608

L – 230

2 x Stroke + 1040

L – 12

13.54 kg + 1.61 kg/100 mm Stroke

CAD data is available from www.linetech.ch

www.linetech.ch

91

Bridge module BM4…NZ…V/W with toothed belt drive and lateral profile left/right, without protective strip

BM4…NZ…V BM4…NZ…W

Stroke 8 15

80 37 105

24

60

50

60

106

260 230

23

8 15

132

180

276

88

17.5

ø 64 H7 x 1.5

145

BM

4x M6x12

132

126

54

17.5

216 LM

115

20x M6x15

130 165 115

L A

35

65 60

A

8x M6x15 17.5

ø19 h7 65 65 65

Nominal size

Dimensions

Designation

L [mm]

LM [mm]

Belt length [mm]

Weight [kg]

BM4...NZ…V/W

Stroke + 540

L – 230

2 x Stroke + 900

16.05 kg + 1.92 kg/100 mm Stroke

CAD data is available from www.linetech.ch

92

LINE TECH – Swiss made Linear Technology

Bridge module BM4…BZ…V/W with toothed belt drive and lateral profile left/right, with steel strip

BM4…BZ…V BM4…BZ…W

260

80

106

180

60

105

60

50

37

23

15

88

ø64 H7 x 1.5

17.5

126

54

17.5

216

20x M6x15

LM

115

BM

42

230

15

132

24

4x M6x12

42

145

Stroke

344

132

130 165 115

L A

35

65 60

A

8x M6x15

17.5

ø19 h7

65 65 65

Nominal size

Dimensions

Designation

L [mm]

LM [mm]

Belt length [mm]

Length steel strip [mm]

Weight [kg]

BM4...BZ…V/W

Stroke + 608

L – 230

2 x Stroke + 1040

L – 12

17.36 kg + 1.94 kg/100 mm Stroke

CAD data is available from www.linetech.ch

www.linetech.ch

93

Bridge modules Limit switch mounting

Limit switches

On request the following non standard limit switches are available:

The limit switches are used in conjunction with a control unit to limit the stroke (prevent overrunning of the carriage) and to define the reference position.

Note: At the factory the plus and minus limit switches are preset to a nominal stroke of 0 to +5 mm.

– PNP openers (PNP-NC) Supply: 10...30 V DC Current consumption off-load: < 10 mA Load: max. 200 mA

Limit switches / reference switch mounting overview

Note: If a lateral support rail (type LM… L/R) or a lateral profile (type BM...V/W) is selected, the limit switches can only be fitted on the opposite side.

Limit switch actuator

Special applications often require a separate reference point switch to be mounted between the positive and negative limit switches. The limit switch closest to the motor mounting (limit switch controller interface) is known as the forward limit switch.

Connector box Limit switch mounting Mounting left

Plus limit switch (+)

Reference switch

Minus limit switch (–)

Mounting right

Position of reference switch (LR) Front reference switch (motor side) Dimensions / switch gap 0.5…0.8 mm

15

51

LR

38

BM

The following diagrams show the mounting position of the limit switches. The reference position can be allocated either to the plus (+) or to the minus (-) limit switch.

– PNP make type (PNP-NO) – NPN break type (NPN-NC) – NPN make type (NPN-NO) – Reed switches – Mechanical switches

LINE TECH employs the following standard inductive limit switches:

Fitting position of limit switches

16

LR

30

LR = 20 mm

94

Rear reference switch (opposite motor side)

41.5

LINE TECH – Swiss made Linear Technology

Bridge modules Limit switch with/without connector box

Limit switch preparation Limit switches are supplied as standard without connector box with 2 metre long cables (order code N); a connector box with completed cabling is available as an option (order code S).

Standard: without connector box (N), with loose connector cables (L = 2 m)

Limit switch mating connectors and cables are not included in the delivery but can be ordered ready-made from LINE TECH. Optional: with connector box (S)

BM

+ Direction

Reference point bridge Reference point in minus (–) direction Front (drive side) Bridge pin 1–5

Load

Reference point in plus (+) direction Rear (opposite drive side) Bridge pin 3–5

+ V DC

PNP Opener

0 V (GND)

Minus (–) direction (load) 0 V (GND) Plus (–) direction (load) +10...30 V (DC) Reference (load)

PNP Opener

0 V (GND)

Pin 1 Pin 2 Pin 3 Pin 4 Pin 5

– Direction

+ V DC

The connector pin assignment when using a connector box is shown in the diagram on the right. The individual pins are assigned as follows:

Plug connector with reference point bridge

Load

Plug connector

2 5

4

3

1

Colour code key for the diagrams:

Plug SFV50 acc. to IEC 60130-9

Load = black +V DC = brown 0 V (GND) = blue

0 V (GND)

+ V DC

PNP Opener Load

PNP Opener

+ V DC

+ Direction

0 V (GND)

+ V DC

Load

PNP Opener

Reference

0 V (GND)

– Direction

Load

Plug connector with additional reference switch

2 4 1

www.linetech.ch

5 3

Plug SFV50 acc. to IEC 60130-9

95

Bridge modules with ball screw drive Dimensions for motor mounting; straight fit

Straight motor mounting Intermediate flange Motor plate

BM

Motor Coupling

Length of motor mounting

Coupling

LW E LS

øD

ød

øD

K

L

f1

LF

Nominal size

BM4…

Dimensions

Coupling

E

f1

Dimensions [mm]

Drive torque [Nm]

LF ±2 [mm]

LS [mm]

Weight * [kg]

when LW > f1

Size

L

LS + E + LW

35

1.200

Size 19

19

66 40

ø D ø d

f1

≤ 20 25

E

ø DK

16 43

TN

Tmax

17

34

* flange including coupling Motor dimensions ** ** the following dimensions

LW

øZ

øDM

F

ødW

LK

B

LZ

ø DM ______________ [mm]

LW ______________ [mm]

B

ø dW ______________ [mm]

______________ [mm]

F ______________ [mm] LK ______________ [mm]

LZ ______________ [mm] ø Z ______________ [mm]

are required to determine the motor mounting.

96

LINE TECH – Swiss made Linear Technology

Bridge modules with ball screw drive Dimensions for motor mounting; lateral fit

Lateral motor mounting Motor Belt drive housing

Motor pinion No. of teeth = zM

BM

Toothed belt BM pinion No. of teeth = zBM

i = zM : zBM

Dimensions for lateral motor mounting F

G

F/2

K

E

LG

H

Carriage

Nominal size

BM4…

Dimensions [mm]

i

E

1:1

130…135 (132.5)

1:1.5

131…139 (135)

1:2

131.5…135.5 (133.5)

www.linetech.ch

No. of teeth F

100

G*

43

H

126

K

46

LG

247

Max.

Belt length

Weight

zM

zBM

ø dW

[mm]

[kg]

32

32

ø19

425

1.600

32

48

ø19

475

1.800

24

48

ø12

450

1.700

97

Bridge modules with belt drive Dimensions for motor mounting; straight fit

Straight motor mounting

Intermediate flange

BM

Coupling Motor Motor plate

Length of motor mounting

Coupling

øD

ød

LW E LS

LF

øD

K

L

f1

Nominal size

BM4…

Dimensions

Coupling

E

f1

Dimensions [mm]

Drive torque [Nm]

LF ±2 [mm]

LS [mm]

Weight * [kg]

when LW > f1

Size

L

LS + E + LW

35

1.200

Size 19

19

66 40

ø D ø d

f1

≤ 20 25

E

ø DK

16 43

TN

Tmax

17

34

* flange including coupling Motor dimensions ** ** the following dimensions

LW

øZ

øDM

F

ødW

LK

B

LZ

ø DM ______________ [mm]

LW ______________ [mm]

B

ø dW ______________ [mm]

______________ [mm]

F ______________ [mm] LK ______________ [mm]

LZ ______________ [mm] ø Z ______________ [mm]

are required to determine the motor mounting.

98

LINE TECH – Swiss made Linear Technology

Bridge modules with belt drive Dimensions for motor mounting; gear mounting

Standard worm drive HPG…-A7… (FH) 1) Coupling Motor plate

High-performance servo worm drive HPG…-A1… / HPG…-A2… (AE) 1) Coupling Motor plate

Gear Fitted key Gear mounting plate

BM

Gear Outside tensioning set Gear mounting plate

Dimensions for gear mounting Assembly direction: D + M

Assembly direction: E + L D

Assembly direction: F + K

B

x

=

=

D

C

D C A

x

B = A

x

A =

A = =

B

=

B =

D

A

C

A

A

A

High-performance servo worm drive HPG…-A1… / HPG…-A2… (AE) 1) E/2

Standard worm drive HPG…-A7… (FH) 1)

Nominal size

Gear box type

E

Casing dimensions [mm] x

HPG…-A7… (FH) 1)

G

E+F+G

E/2

E

E+F

F

F

x C

Assembly direction: G + H

LW

A

20…33

98

45 33…43

108

20…33

98

Weight

Gear [kg]

B

C

D

E

F

G*

[kg]

120

135

50

85

20

–

1.200

3.900 4.000

BM4… HPG…-A1 / 2… (AE) 1)

45 33…43

1)

4.100 120

135

108

50

85

20

23.5 1.300 4.200

Possible gear reductions: 1: 2 / 3 / 4 / 5 / 6 / 8 / 10 / 13.33 / 16 / 24 / 30 / 47 / 60

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99

Bridge modules Attachment accessories; clamps

Mounting options The bridge modules are secured with clamps or sliding blocks. Caution: Only attach and support bridge modules on the base profile, not on the end plates. C

BM4…

Dimensions [mm] A

B

C

94

108

44

A±0.1 B

Clamps

H

C

B

Type I

F

G

K

E

D

A B

C

C

C

H

Recommended number of clamps: 4 per metre and side. J

BM

Nominal size

Type II A

Nominal Dimensions [mm] size Type A B

Weight C

D

E

F

G*

H

J

K

[kg]

Art. No.

I

…

…

…

…

…

…

…

…

…

…

…

on request

II

80

10

20

17.8

10.8

20

14

7

ø11

ø 6.5

0.148

M-40357/1

BM4…

100

LINE TECH – Swiss made Linear Technology

Bridge modules Attachment accessories; sliding blocks

Sliding blocks

BM

Sliding blocks having the relevant groove width can be used to mount add-on parts to the base profile.

Sliding block types NS5 and NS6 can be used in line with the groove width (see profile cross-sections, page 67). Sliding blocks are available from LINE TECH. Size, material and connection thread as per the following order system (e.g. NS6 St M5) must be defined as the order number. The available types are listed opposite.

a

Material

Dimensions [mm] Groove width

a (thread)

5

M3 / M4 / M5

Steel / Inox

6

M4 / M5 / M6

Steel / Inox

Order designation for sliding blocks Examples: NS6 St M5 Sliding block NS Groove width

NS 6 St M5 Thread size (dim. “a�) M3 / M4 / M5 / M6 Material

5 6

St = steel Inox = stainless steel

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101

Bridge modules Grease points

BM..R..N

BM..Z..N Runner blocks 1) 3)

Ball screw

1) 3)

BM

Runner blocks 1) 3)

BM..R..L/R

BM..Z..L/R Ball screw 1) Runner blocks 1)

Runner blocks 1)

Runner blocks 2)

BM..R..V/W

Runner blocks 2)

BM..Z..V/W Ball screw 1) Runner blocks 1) Runner blocks

1)

Runner blocks 1)

Grease points Different lubricating nipples are on the bridge module carriages: 1) Lubricating nipple to DIN 3405 2) Lubricating nipple to DIN 71412 3) Lubrication either on left or right side Greasing positions are not dependent on stroke.

Runner blocks 1)

Grease gun

Standard grease LINE TECH recommends the following grease for lubrication: Microlube GBU Y 131 Art. no.: ZPE.FETTPRESSE-03

102

LINE TECH – Swiss made Linear Technology

BM

noteS

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103

104

LINE TECH – Swiss made Linear Technology

Line Tech KE compact units Table of contents

– Product overview_________________________________________________ 106–107 – Design fundamentals / Lubrication / Maintenance__________________________ 108 – Profile cross-sections__________________________________________________ 109 – Compact unit with ball screw drive - Details for ball screw drive_____________________________________________ 110 - General technical details for compact units______________________________ 111 - Load ratings and torques_____________________________________________ 112 – Permissible speeds____________________________________________________ 113 – Permissible deflection______________________________________________ 114–115

KE

– Compact units with ball screw drive - Designation system______________________________________________ 116–117 - Information for selection » Motor mounting preparation____________________ 118 - Dimensions KE1.2…AR…N___________________________________________ 120 (with 1 carriage and protective ribbons, without buffer) - Dimensions KE1.2…AR…P___________________________________________ 121 (with 1 carriage and protective ribbons, with buffer) - Dimensions KE1.4…AR…N___________________________________________ 122 (with 2 carriages and protective ribbons, without buffer) - Dimensions KE1.4…AR…P___________________________________________ 123 (with 2 carriages and protective ribbons, with buffer) - Dimensions KE2.2…AR…N___________________________________________ 124 (with 1 carriage and protective ribbons, without buffer) - Dimensions KE2.2…AR…P___________________________________________ 125 (with 1 carriage and protective ribbons, with buffer) - Dimensions KE2.4…AR…N___________________________________________ 126 (with 2 carriages and protective ribbons, without buffer) - Dimensions KE2.4…AR…P___________________________________________ 127 (with 2 carriages and protective ribbons, with buffer) - Dimensions KE3.2…AR…N___________________________________________ 128 (with 1 carriage and protective ribbons, without buffer) - Dimensions KE3.2…AR…P___________________________________________ 129 (with 1 carriage and protective ribbons, with buffer) - Dimensions KE3.4…AR…N___________________________________________ 130 (with 2 carriages and protective ribbons, without buffer) - Dimensions KE3.4…AR…P___________________________________________ 131 (with 2 carriages and protective ribbons, with buffer) – Limit switch; fitting / preparation / plug connector______________________ 132–133 – Motor mounting straight/lateral with ball screw drive____________________ 134–135 – Connecting plates_________________________________________________ 136–137 – Attachment accessories; clamps / sliding blocks_______________________ 138–139 – Cross table mounting__________________________________________________ 140 – Grease points________________________________________________________ 141 – Lubrication points for customer add-on___________________________________ 142

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105

compact units Product overview

KE…2…R… Compact unit with one carriage and ball screw drive

KE

KE…4…R… Compact unit with two carriages and ball screw drive

106

LINE TECH – Swiss made Linear Technology

compact units Product overview

LINE TECH compact units are precision, ready-to-install, modular linear systems with linear guides and ball screw drive for high performance. Linear systems for medium loads and precision requirements are typical application areas. Three sizes (KE1, KE2 and KE3) are currently available. Advantages

Structure

– Compact dimensions – Optimum running performance together with high load ratings and greater rigidity with either two (KE…2…) or four (KE…4…) integrated runner blocks – Actuation by ball screw drive – Simple motor mounting by centering and thread on driving head – Greasing by central grease points – Design aligned to application possible

– Compact aluminium base profile – Ready-to-install compact modules in any desired length – Carriages made of aluminium Customised options – Connection plate (KE…V…) – Motor mounting – Limit switch – Cross table mounting – Multi-axis systems KE…V…

H

KE

H

KE…N…

B

B

Compact unit

Dimensions

Load ratings

Type

BxH [mm]

C0 [kN]

C [kN]

KE1.2…N…

90 x 40

11.2

6.5

KE1.2…V…

90 x 56

11.2

6.5

KE1.4…N…

90 x 40

22.5

13.0

KE1.4…V…

90 x 56

22.5

13.0

KE2.2…N…

110 x 50

35.0

18.0

KE2.2…V…

110 x 66

35.0

18.0

KE2.4…N…

110 x 50

70.0

36.0

KE2.4…V…

110 x 66

70.0

36.0

KE3.2…N…

145 x 65

59.9

34.2

KE3.2…V…

145 x 85

59.9

34.2

KE3.4…N…

145 x 65

119.9

68.4

KE3.4…V…

145 x 85

119.9

68.4

Please refer to pages 110 to 112 for load capacities.

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107

COMPACT UNITS Design fundamentals / Lubrication / Maintenance

LINE TECH Compact Modules

Lubrication

Maintenance

LINE TECH compact units with ball screw drive are modular, ready-to-install linear units with drive. Sealed guide elements are employed in all sizes. The guides and drive are protected from external factors (such as dirt and chippings) by synthetic ribbons. Base and cover profiles are made of aluminium alloy and manufactured by extrusion process. Additional limit switches fitted on the outside, in conjunction with motors and a controller, ensure correct positioning of the carriage and provide protection against overrun. The selected design provides for a high level of performance with the most compact dimensions.

LINE TECH compact modules are greased at the factory with Microlube GBU Y 131. This quality grease offers outstanding properties for the guidance and screw drive elements as well. Greasing should be carried out at regular intervals, depending on the load and area of operation. On an average, re-greasing is required every 500 hours. All roller bearings are greased for life and thus do not require any maintenance. Correct and sufficient greasing can substantially extend the life of the compact modules.

With the exception of re-greasing, LINE TECH compact modules are maintenance-free.

Service temperature The permissible operating temperature (between 5 and 80°C) is determined by the synthetic materials used. The specifications of the relevant manufacturers apply for motors and control units.

KE

Note: Also follow here the instructions on the grease points (pages 141 and 142).

KE…R… with ball screw drive 4)

3)

2)

5)

1) Base profil 2) Cover profile

108

1)

3) Carriage(s) (1 (KE…2…) or 2 (KE…4…))

4) Ball screw drive 5) Linear guide

LINE TECH – Swiss made Linear Technology

COMPACT UNITS Profile cross-sections KE…R…

12

12

4.8

12

B

4

6.2

22 42 90

7.6

B

6

C

1.3 28

39

40

56

A

3.2

3.5

A

8

7.7

20

3.4

20

4.2

20

C

1.8

KE1…R…N

2

KE2…R…N

3.2

4.8

3.2

1.3

B

5.2

6.7

26 50

4.8

B

9.5 11

KE

36.1

50.5

A 49

66

3.4

A

1.8

10

11 2.5

110

12

3.2

3.2

4.8

3.4

A

1.8

KE3…R…N

A 51.1

64

66

85

1.3

4.8

B

145

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9.5

46

5.2

8.2

B

2.5

109

COMPACT UNITS with ball screw drive Details for ball screw drive

Details for ball screw drive (BSD)

KE

BSD

Axial load rates

Size

dxp

C0

Cdyn

[mm]

[N]

[N]

Positioning accuracy

[μm /mm]

Repeating accuracy

Acceleration

Axial play

amax

Type

[m /s2]

3 333

3 099

52 / 300

KE1…R… 12 x 10

4 551

3 099

4 327

52 / 300

52 / 300

KE

16 x 5

3 333

KE2…R…

16 x 10

16 x 16

20 x 5

KE3…R…

20 x 10

20 x 20

4 551

4 551

5 705

5 705

5 705

4 327

4 327

4 912

4 912

4 912

52 / 300

52 / 300

52 / 300

52 / 300

52 / 300

Axial play [mm]

[Nm]

R

< 0.02

0.020

A

< 0.20

0.020

< 0.01 1)

V

—

0.090

< 0.03 1)

R

< 0.02

0.045

A

< 0.20

0.045

< 0.01 1)

V

—

0.180

< 0.03 1)

R

< 0.02

0.030

A

< 0.20

0.030

< 0.01 1)

V

—

0.100

< 0.03 1)

R

< 0.02

0.060

A

< 0.20

0.060

< 0.01 1)

V

—

0.200

< 0.03 1)

R

< 0.02

0.120

A

< 0.20

0.120

< 0.01 1)

V

—

0.320

< 0.03 1)

R

< 0.02

0.050

A

< 0.20

0.050

< 0.01 1)

V

—

0.120

< 0.03 1)

R

< 0.02

0.100

A

< 0.20

0.100

< 0.01 1)

V

—

0.250

< 0.03 1)

R

< 0.02

0.200

A

< 0.20

0.200

V

—

0.400

[mm] < 0.03 1)

12 x 5

Idle torque

< 0.05 1)

< 0.05 1)

< 0.05 1)

< 0.05 1)

< 0.05 1)

< 0.05 1)

< 0.05 1)

< 0.05 1) < 0.01 1)

10.0

10.0

10.0

10.0

10.0

10.0

10.0

10.0

d x p = screw diameter x thread pitch 1) backlash not factored in R = reduced play A = with axial play V = preloaded

110

LINE TECH – Swiss made Linear Technology

COMPACT UNITS with ball screw drive General technical details for compact units

General technical details for compact units

Movement speed

Moments of inertia

Stroke max.

Protective ribbons

Z

KE1.4…R…

Drive

vmax

vmax

IY

IZ

[m/s]

[m/s]

[cm4]

[cm4]

3.0

2)

KE2.2…R…

KE2.4…R…

KE3.2…R…

KE3.4…R…

2)

3.0

5.0

5.0

5.0

5.0

2)

2)

2)

2)

2)

FV

mb

[N]

[kg]

Z

Guide

[mm] without

KE1.2…R…

Moved mass

Y

Y

Type

Feed and friction force

11.5

11.5

29.4

29.4

93.3

93.3

95.5

95.5

242.5

242.5

746.0

746.0

8.00

1 315

0.370 with

12.00

without

12.00

with

16.00

without

10.00

with

15.00

without

15.00

with

20.00

without

15.00

with

20.00

without

20.00

with

25.00

1 250

0.680

1 375

KE

KE

0.790

1 290

1.370

1 850

1.460

1 750

2.470

for ball screw drive, dependent on rotational speed characteristics, spindle length and relevant critical rotational speed.

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111

COMPACT UNITS with ball screw drive Load ratings and torques

KE...2... with one carriage

KE...4... with two carriages

MX

MX MY

MY Torques

MZ

MZ Load ratings

KE

Cz2

Cz1

Cy1

Compact module Type

Cy2

Maximum permissible load [kN]

Maximum permissible torque [Nm]

static

static

Cy0 1,2

dynamic Cz0 1,2

Cy1,2

Cz1,2

Mx0

dynamic My0

Mz0

Mx

My

Mz

KE1.2…R…

11.2

11.2

6.5

6.5

275

60

60

158

35

35

KE1.4…R…

22.5

22.5

13.0

13.0

550

330

330

316

210

210

KE2.2…R…

35.0

35.0

18.0

18.0

1 064

204

204

590

226

226

KE2.4…R…

70.0

70.0

36.0

36.0

2 120

1 400

1 392

1 180

1 180

1 180

KE3.2…R…

59.9

59.9

34.2

34.2

2 427

266

266

1 507

202

202

KE3.4…R…

119.9

119.9

68.4

68.4

4 854

2 100

2 100

3 014

2 044

2 044

Note on dynamic load ratings and torques The determination of dynamic load ratings and torques is based on a 50, 000 m stroke. If comparative values must be

112

Expedient load

calculated for a 100, 000 m stroke, the values for Mx, My, Mz and C must be divided by the factor 1.26.

With a view to serviceable life, loads of less than 20% of the dynamic load ratings have generally proved to be expedient.

LINE TECH – Swiss made Linear Technology

COMPACT UNITS Permissible speeds

Permissible speeds...

… for KE1… with ball screw drive ø 12 x …

1)

vmax

[m/min] 70 60

12 x 10

50 40 30

12 x 5

20 10

L [mm] 200

400

600

800

1000

1200

1400

… for KE2… with ball screw drive ø 16 x …

1600

1800

2000

1600

1800

2000

1600

1800

2000

1)

vmax

[m/min] 16 x 16

80 70 60

KE

16 x 10

50 40 30

16 x 5

20 10

L [mm] 200

400

600

800

1000

1200

1400

… for KE3… with ball screw drive ø 20 x …

1)

vmax

[m/min]

100

20 x 20

90 80 70 60 50

20 x 10

40 30

Caution: For ball screw drive, note the rotational speed characteristics, spindle length and relevant critical rotational speed.

Please also pay attention to the motor speeds.

www.linetech.ch

20 x 5

20 10

L [mm] 200

400

600

800

1000

1200

1400

1)

greater accuracy on request L = overall length of compact unit

113

COMPACT UNITS Permissible deflection (1/2; for KE1… and KE2…))

If the maximum permissible deflection is exceeded, the compact units must be additionally supported. The maximum permissible deflection is limited by the maximum deflection angle of 5'. This value being exceeded will have an impact on the unit’s life-cycle.

The following diagrams apply for: - Firm clamping (40–50 mm per side) - 3–4 screws per side - Solid base

40

1.2 1.0

0.6

0.2

200

400

600

800

1000

1200

N

0N

N 200 150 N 100 N 50 N 0N

f max

0.4

0

30

N 0.8

1400

LM [mm]

1600

KE1… vertical fmax [mm] 0.25

N 0 50 N 0 40 N 300 2 0 0 NN 150 100 N 50 N 0N

0.2 0.15

x

f ma

0.1 0.05

200

400

600

800

1000

1200

1400

LM [mm]

1600

KE2… horizontal fmax [mm]

Mounting positions: – horizontal

2500

1.0

0N

250 N

1.5

500 N

N 2000

2.0

N 1750 N 1500 1250 N N 1000 N 750 N

2.5

f max

0.5

LM [mm] 500

LM

1000

1500

2000

2500

3000

3500

4000

LM / 2 F

LM / 2

1.5

N

N 1250

N 1750 N 1500 N

2000

2.0

750 N 500 N

f max

1.0

F

114

2500

LM

N

2.5

– vertical

1000

fmax

KE2… vertical fmax [mm]

fmax

KE

If increased demands are made on system accuracy we recommend supporting the linear modules along its entire length.

fmax [mm]

0

Compact modules may be assembled self-supporting. However, the deflection (which limits the possible load) must be taken into consideration.

KE1… horizontal

50

Permissible deflection

250 N

0.5

0N 500

1000

1500

2000

2500

3000

3500

LM [mm]

4000

LINE TECH – Swiss made Linear Technology

COMPACT UNITS Permissible deflection (2/2; for KE3…)

1.5

500 N

2500 N 2000 1750 N N 1500 N 1250 N 1000 N

2.0

750 N

fmax [mm] 2.5

250 N

KE3… horizontal

f max 0

N

1.0 0.5

LM [mm] 500

1000

1500

2000

2500

3000

3500

4000

KE3… vertical fmax [mm]

2.0

2500 N 2000 N 1750 N 1500 N 1250 N 1000 N 750 N 500 N 250 N 0N

f max

1.5 1.0 0.5

500

1000

1500

2000

2500

3000

3500

LM [mm]

4000

Mounting positions: – horizontal LM LM / 2 fmax

F

– vertical

LM LM / 2

fmax

F

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115

KE

2.5

COMPACT UNITS Designation system

KE 2 . 2 . 0200 A R 005 . 0

Compact unit (sample designation) Design KE = compact unit with linear guides Size H

= size 90 mm = size 110 mm = size 145 mm

H

1 2 3

B

B

KE...N... B x H [mm]

KE...V... B x H [mm]

1

90 x 40

90 x 56

2

110 x 50

110 x 66

3

145 x 65

145 x 85

Size

Configuration 2 4

= 2 runner blocks (1 carriage) = 4 runner blocks (2 carriages)

KE

Stroke absolut [mm] Protective covering A = synthetic ribbons *** N = without protective ribbons Drive R = rolled ball screw *** N = without drive Stroke per revolution [mm] 005 / 010 = 005 / 010 / 016 = 005 / 010 / 020 = ... =

size 1; ball screw with a pitch of 5 or 10 mm size 2; ball screw with a pitch of 5, 10 or 16 mm size 3; ball screw with a pitch of 5, 10 or 20 mm other pitch 1)

Limit switches 0 1 2 3 4

= = = = =

without limit switch 2 limit switches, reference point at front (drive side) 2 limit switches, reference point at rear (opposite drive side) 2 limit switches + additional reference switch at front (drive side) 2 limit switches + additional reference switch at rear (opposite drive side)

* seen from motor opposite side towards motor ** available for lateral motor mounting only *** standard version 1) on request

116

LINE TECH – Swiss made Linear Technology

. 01 . 0 N - N 7 R N N N 5 8 3 _ _ _

583...

= drawing type

Option (buffer) N = without buffer *** P = with internal stop buffer Connector box N = without connector box (loose cable L = 2.0 m) *** S = with connector box Mounting position of limit switches / connector box N = without limit switches / connector box *** L = limit switches / connector box mounting left * R = limit switches / connector box mounting right * Preload ball screw drive (BSD) A R V N

= = = =

BSD with axial play BSD with reduced play *** BSD preloaded without drive

Tolerance class ball screw (BSD)

KE

7 = Tolerance class BSD: T7 (52 µm / 300 mm) *** N = without drive Connecting plate N = without connecting plate ***  V = with connecting plate Motor mounting N = without motor mounting *** F = mounting plate for standard motor S = mounting plate for special motor Reduction 0 = without reduction (1:1) *** 1 = reduction 1:1.5 ** 2 = reduction 1:2 ** Assembly stage 00 = without drive

00 01 02

01 = 02 = 03 = 04 = 05 = 06 = 07 =

03

04

06

07

free spindle end *** with coupling and intermediate plate with crank and clamp set up for lateral motor mounting right * set up for lateral motor mounting left * set up for lateral motor mounting top set up for lateral motor mounting bottom

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05

117

COMPACT UNITS Information for selection » Motor mounting preparation

Motor fitting preparation – assembly stages with ball screw drive

KE

LINE TECH compact units with ball screw drive can be supplied with different motor mount preparations. Refer to pages 134 and 135 for dimensions.

Assembly stage 01 Free spindle end

Assembly stage 02 With coupling and intermediate plate

Assembly stage 04 Belt drive housing for side motor mounting right*

Assembly stage 05 Belt drive housing for side motor mounting left*

Assembly stage 06 Belt drive housing for lateral motor mounting top

Assembly stage 07 Belt drive housing for lateral motor mounting bottom

* seen from motor opposite side towards motor

118

LINE TECH – Swiss made Linear Technology

KE

noteS

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119

COMPACT UNIT KE1.2…AR…N

21

5

4x M4x10

LM / 2 + 19 LM

32

50 90

22

L

20

KE

28

39

32.5

40

Stroke

60

56

42.5

ø8 h6

ø32 h6

with 1 carriage and ball screw drive, with protective ribbons, without buffer

27 =

=

2x ø4 H7x6

54

4x M4x8

Stroke

72.5

62.5

Nominal size

Dimensions

Designation

L (without buffer) [mm]

LM [mm]

Length ball screw Length protective ribbon Weight [mm] [mm] [kg]

KE1.2...AR...N

Stroke + 135

L – 54

L + 12

2 x Stroke + 220

1.77 kg + 0.410 kg/100 mm Stroke

CAD data is available from www.linetech.ch

120

LINE TECH – Swiss made Linear Technology

COMPACT UNIT KE1.2…AR…P

21

5

28

39

38.5

40

Stroke

60

56

48.5

ø8 h6

ø32 h6

with 1 carriage and ball screw drive, with protective ribbons, with buffer

4x M4x10

LM / 2 + 19 LM

32

50 90

22

L 27 =

=

2x ø4 H7x6

54

4x M4x8

KE

20

Stroke

78.5

68.5

Nominal size

Dimensions

Designation

L (with buffer) [mm]

LM [mm]

Length ball screw Length protective ribbon Weight [mm] [mm] [kg]

KE1.2...AR...P

Stroke + 147

L – 54

L + 12

2 x Stroke + 244

1.85 kg + 0.410 kg/100 mm Stroke

CAD data is available from www.linetech.ch

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121

COMPACT UNIT KE1.4…AR…N

21

5 LM/2 -14.5

29 22

LM

32

28

39

32.5

40

Stroke

125

56

42.5

ø8 h6

ø32 h6

with 2 carriages and ball screw drive, with protective ribbons, without buffer

4x M4x10

50 90

L

KE

20 27

27

=

= =

72.5

65

=

4x ø4 H7x6

54

8x M4x8

Stroke

62.5

Nominal size

Dimensions

Designation

L (without buffer) [mm]

LM [mm]

Length ball screw Length protective ribbon Weight [mm] [mm] [kg]

KE1.4...AR…N

Stroke + 200

L – 54

L + 12

2 x Stroke + 285

2.35 kg + 0.410 kg/100 mm Stroke

CAD data is available from www.linetech.ch

122

LINE TECH – Swiss made Linear Technology

COMPACT UNIT KE1.4…AR…P

LM/2 -14.5

29 LM

32

22

4x M4x10

50 90

L

20 27

27

=

= =

78.5

65

=

4x ø4 H7x6

54

8x M4x8

KE

21

5

28

38.5

39

Stroke

40

125

56

48.5

ø8 h6

ø32 h6

with 2 carriages and ball screw drive, with protective ribbons, with buffer

Stroke

68.5

Nominal size

Dimensions

Designation

L (with buffer) [mm]

LM [mm]

Length ball screw Length protective ribbon Weight [mm] [mm] [kg]

KE1.4...AR…P

Stroke + 212

L – 54

L + 12

2 x Stroke + 309

2.43 kg + 0.410 kg/100 mm Stroke

CAD data is available from www.linetech.ch

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123

COMPACT UNIT KE2.2…AR…N with 1 carriage and ball screw drive, with protective ribbons, without buffer

52

4x M6x7 2

25.5

30

2

6 LM /2 + 31 31

31

110

L 30 =

=

2x ø5 F7x8

66

4x M5x8

70 LM

32

KE

50

49

2

66

2

ø10 h6

ø38 h6

Stroke

60

52

Stroke

82

82

Nominal size

Dimensions

Designation

L (without buffer) [mm]

LM [mm]

Length ball screw Length protective ribbon Weight [mm] [mm] [kg]

KE2.2...AR...N

Stroke + 164

L – 62

L + 12

2 x Stroke + 294

1.90 kg + 0.852 kg/100 mm Stroke

CAD data is available from www.linetech.ch

124

LINE TECH – Swiss made Linear Technology

COMPACT UNIT KE2.2…AR…P with 1 carriage and ball screw drive, with protective ribbons, with buffer

61

4x M6x7 2

66

50

49

2

2

30

Stroke

60

2

ø10 h6

ø38 h6

61

25.5

6 LM /2 + 31 31 32

31

110

30 =

=

KE

L 2x ø5 F7x8

66

4x M5x8

70 LM

Stroke

91

91

Nominal size

Dimensions

Designation

L (with buffer) [mm]

LM [mm]

Length ball screw Length protective ribbon Weight [mm] [mm] [kg]

KE2.2...AR...P

Stroke + 182

L – 62

L + 12

2 x Stroke + 330

2.13 kg + 0.852 kg/100 mm Stroke

CAD data is available from www.linetech.ch

www.linetech.ch

125

COMPACT UNIT KE2.4…AR…N with 2 carriages and ball screw drive, with protective ribbons, without buffer

47

4x M6x7 2

30

2

25.5

6 LM /2 –11.5 31

70 31

110

L 30

30

=

= =

82

85

=

4x ø5 F7x8

66

8x M5x8

23 LM

32

KE

50

49

2

66

2

ø10 h6

ø38 h6

Stroke

155

47

Stroke

82

Nominal size

Dimensions

Designation

L (without buffer) [mm]

LM [mm]

Length ball screw Length protective ribbon Weight [mm] [mm] [kg]

KE2.4...AR…N

Stroke + 249

L – 62

L + 12

2 x Stroke + 379

3.25 kg + 0.852 kg/100 mm Stroke

CAD data is available from www.linetech.ch

126

LINE TECH – Swiss made Linear Technology

COMPACT UNIT KE2.4…AR…P with 2 carriages and ball screw drive, with protective ribbons, with buffer

56

4x M6 x7 2 66

49

2

50

2

ø10 h6

ø38 h6

Stroke

2

30

155

56

LM / 2 –11.5 31 32

70 31

110

L 30

30

=

= =

91

85

=

4x ø5 F7x8

66

8x M5 x8

23 LM

KE

25.5

6

Stroke

91

Nominal size

Dimensions

Designation

L (with buffer) [mm]

LM [mm]

Length ball screw Length protective ribbon Weight [mm] [mm] [kg]

KE2.4...AR…P

Stroke + 267

L – 62

L + 12

2 x Stroke + 415

3.48 kg + 0.852 kg/100 mm Stroke

CAD data is available from www.linetech.ch

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127

COMPACT UNIT KE3.2…AR…N

Stroke

125

2

4x M6 x7

LM /2 + 45 LM

44

KE

70

35

145

L

36 36 =

=

2x ø6 F7x10

88

4x M6x12

2

30

34

4.5

65

2 64

2

32

85

41 ø12 h6

ø38 h6

with 1 carriage and ball screw drive, with protective ribbons, without buffer

103.5

Stroke

94.5

Nominal size

Dimensions

Designation

L (without buffer) [mm]

LM [mm]

Length ball screw Length protective ribbon Weight [mm] [mm] [kg]

KE3.2...AR…N

Stroke + 198

L – 79

L + 17

2 x Stroke + 354

5.40 kg + 1.232 kg/100 mm Stroke

CAD data is available from www.linetech.ch

128

LINE TECH – Swiss made Linear Technology

COMPACT UNIT KE3.2…AR…P

125

Stroke

2

4x M6x7

LM /2 + 45 LM

44

70

35

145

36 =

2x ø6 F7x10

88

=

KE

L

36 4x M6x12

2

30

34

4.5

65

2 64

2

35.5

85

44.5 ø12 h6

ø38 h6

with 1 carriage and ball screw drive, with protective ribbons, with buffer

107

Stroke

98

Nominal size

Dimensions

Designation

L (with buffer) [mm]

LM [mm]

Length ball screw Length protective ribbon Weight [mm] [mm] [kg]

KE3.2...AR…P

Stroke + 205

L – 79

L + 17

2 x Stroke + 415

5.49 kg + 1.232 kg/100 mm Stroke

CAD data is available from www.linetech.ch

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129

COMPACT UNIT KE3.4…AR…N

190

Stroke

2

2

30

34

65

2 64

2

49.5

85

58.5 ø12 h6

ø38 h6

with 2 carriages and ball screw drive, with protective ribbons, without buffer

4.5 4x M6x7

LM /2 – 5 LM

44

KE

36

70

35

145

L

8x M6x12

36

36 ==

103.5

100

=

88

=

4x ø6 F7x10

Stroke

94.5

Nominal size

Dimensions

Designation

L (without buffer) [mm]

LM [mm]

Length ball screw Length protective ribbon Weight [mm] [mm] [kg]

KE3.4...AR…N

Stroke + 298

L – 79

L + 17

2 x Stroke + 454

7.62 kg + 1.232 kg/100 mm Stroke

CAD data is available from www.linetech.ch

130

LINE TECH – Swiss made Linear Technology

COMPACT UNIT KE3.4…AR…P

190

2

2

30

34

65

2 64

2

53

Stroke

85

62 ø12 h6

ø38 h6

with 2 carriages and ball screw drive, with protective ribbons, with buffer

4.5 4x M6x7

LM /2 – 5 LM

44

145

L 36

36

=

==

107

100

=

4x ø6 F7x10

88

8x M6x12

35

KE

36

70

Stroke

98

Nominal size

Dimensions

Designation

L (with buffer) [mm]

LM [mm]

Length ball screw Length protective ribbon Weight [mm] [mm] [kg]

KE3.4...AR…P

Stroke + 305

L – 79

L + 17

2 x Stroke + 468

7.71 kg + 1.232 kg/100 mm Stroke

CAD data is available from www.linetech.ch

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131

COMPACT UNITS Limit switch mounting

Fitting position of limit switches

Limit switches The limit switches are used in conjunction with a control unit to limit the stroke (prevent overrunning of the carriage) and to define the reference position. LINE TECH employs the following standard inductive limit switches: – PNP openers (PNP-NC) Supply: 10...30 V DC Current consumption off-load: < 10 mA Load: max. 200 mA

On request the following non standard limit switches are available: – PNP make type (PNP-NO) – NPN break type (NPN-NC) – NPN make type (NPN-NO) – Reed switches – Mechanical switches Note: At the factory the plus and minus limit switches are preset to a nominal stroke of 0 to +5 mm.

Limit switches / reference switch mounting overview

The following diagrams show the mounting position of the limit switches. The reference position can be allocated either to the plus (+) or to the minus (-) limit switch. Special applications often require a separate reference point switch to be mounted between the positive and negative limit switches. The limit switch closest to the motor mounting (limit switch controller interface) is known as the forward limit switch.

Limit switch mounting

Limit switch actuation

Mounting left

KE

Connecting plate or customer assembly

Mounting right

Plus limit switch (+) Reference switch Connector box

Minus limit switch (-)

Dimensions / switch gap

12

30 x

0.5...0.8 mm

H

a

Position of reference switch (LR)

21 30.5 42

LR

LR

Front reference switch (motor side LR = 20 mm

132

Rear reference switch (opposite drive side)

Size

Dimensions [mm] x

a

H

KE1

3

17.5

56

KE2

13

17

66

KE3

32.5

17

85

LINE TECH – Swiss made Linear Technology

COMPACT UNITS Limit switch with/without connector box

Limit switch preparation Limit switches are supplied as standard without connector box with 2 metre long cables (order code N); a connector box with completed cabling is available as an option (order code S).

Standard: without connector box (N), with loose connector cables (L = 2 m)

Limit switch mating connectors and cables are not included in the delivery but can be ordered ready-made from LINE TECH.

+ Direction

Reference point bridge Reference point in minus (–) direction Front (drive side) Bridge pin 1–5

KE Load

Reference point in plus (+) direction Rear (opposite drive side) Bridge pin 3–5

+ V DC

PNP Opener

0 V (GND)

Minus (–) direction (load) 0 V (GND) Plus (–) direction (load) +10...30 V (DC) Reference (load)

PNP Opener

0 V (GND)

Pin 1 Pin 2 Pin 3 Pin 4 Pin 5

– Direction

+ V DC

The connector pin assignment when using a connector box is shown in the diagram on the right. The individual pins are assigned as follows:

Plug connector with reference point bridge

Load

Plug connector

Optional: with connector box (S)

2 5

4

3

1

Colour code key for the diagrams:

Plug SFV50 acc. to IEC 60130-9

Load = black +V DC = brown 0 V (GND) = blue

0 V (GND)

+ V DC

PNP Opener Load

PNP Opener

+ V DC

+ Direction

0 V (GND)

+ V DC

Load

PNP Opener

Reference

0 V (GND)

– Direction

Load

Plug connector with additional reference switch

2 4 1

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5 3

Plug SFV50 acc. to IEC 60130-9

133

COMPACT UNITS with ball screw drive Dimensions for motor mounting; straight fit

Straight motor mounting

Motor plate Motor

Intermediate flange Coupling

Length of motor mounting E

LS

L

øD

KE

ød

øD

K

LW

Coupling

f1

LF

Nominal size

Dimensions LF ±2 [mm]

KE1… KE2… KE2...

LS + E + LW

KE3...

Coupling if LW > f1

Size

L

20

0.350

Size 12

12

34 25

32

0.500

Size 14

14

32

0.580

Size 19

19

36

0.640

Size 19

ø D ø d

f1

E

ø DK

TN

≤ 12

11

12 27.5

5.0

18

35 30

≤ 16

11

13 32.2

6.3

25

66 40

≤ 20

25

16 43

17

Tmax

34

* flange including coupling

** the following dimensions LW

øZ

134

Drive torque [Nm]

Weight * [kg]

øDM

ødW

LK

F

f1

Dimensions [mm]

LS [mm]

Motor dimensions **

B

E

LZ

ø DM ______________ [mm]

LW ______________ [mm]

B

ø dW ______________ [mm]

______________ [mm]

F ______________ [mm] LK ______________ [mm]

LZ ______________ [mm] ø Z ______________ [mm]

are required to determine the motor mounting.

LINE TECH – Swiss made Linear Technology

COMPACT UNITS with ball screw drive Dimensions for motor mounting; lateral fit

Lateral motor mounting Belt drive housing

KE pinion No. of teeth = zKE

Toothed belt Motor

Motor pinion No. of teeth = zM

i = zM : zKE

K

Dimensions for lateral motor mounting

H

E

F/2

LG

KE

Carriage

F

Nominal size

KE1…

KE2…

KE3...

G

Dimensions [mm]

No. of teeth

Max.

Belt length

Weight

zM

zKE

ø dW

[mm]

[kg]

28

28

ø16

325

0.860

28

42

ø16

375

0.990

90.5…104 (94.8)

21

42

ø10

350

0.980

1:1

130…135 (132.5)

32

32

ø19

425

1.600

1:1.5

131…139 (135)

32

48

ø19

475

1.800

1:2

131.5…135.5 (133.5)

24

48

ø12

450

1.700

1:1

130...135 (132.5)

32

32

ø19

425

1.600

1:1.5

131...139 (135)

32

48

ø19

475

1.800

1:2

131.5...135.5 (133.5)

24

48

ø12

450

1.700

i

E

1:1

90.5…104 (92.5)

1:1.5

90.5…104 (99.4)

1:2

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F

G*

80

100

100

41

43

43

H

21

43

54

K

39

46

46

LG 180

247

247

135

COMPACT UNITS Connecting plates for KE with 1 carriage

Connecting plates for compact units position-independent greasing, as sufficient grease points are available on the connecting plates.

Aluminium connecting plates for LINETECH compact modules broaden the mounting options. They also permit

Dimensions E H4 F

Detail A

KE1: M3 x 6 (both sides) KE2 / KE3: M4 x 8 (both sides) 2

H1

H2

H3

B

2

PV

C

A

D1

D2

KE

2

a)

a) D2

a)

A 2

a)

S a) funnel-type grease nipple D1a to DIN 3405

Nominal Dimensions [mm] size A B C D1

D2

E

F

H1

H2

H3

H4

PV

S

[kg]

KE1.2...

90

60

16

20

20

30

8.5

6

12.0

3.5

7.7

16.5

37.0

0.183

KE1.2 plate

KE2.2...

110

60

16

20

20

40

7

6

12.0

3.5

7.7

15

37.5

0.213

KE2.2 plate

KE3.2...

145

125

20

27

40

40

7

8

16.5

3.5

9.8

44.5

53.0

0.727

KE3.2 plate

136

Weight

Art. No.

LINE TECH – Swiss made Linear Technology

COMPACT UNITS Connecting plates for KE with 2 carriages

Dimensions E H4 H3

F

Detail A

H1

2

2

B PV

C

a)

A

D1

D2

KE

a)

2

H2

KE1: M3 x 6 (both sides) KE2 / KE3: M4 x 8 (both sides)

D2

a)

a)

A a)

S

a) funnel-type grease nipple D1a to DIN 3405

2

a)

S

Nominal Dimensions [mm] size A B C D1

D2

E

F

H1

H2

H3

H4

PV

S

[kg]

KE1.4...

90

125

16

20

20

30

8.5

6

12.0

3.5

7.7

16.5

25.7

0.385

KE1.4 plate

KE2.4...

110

155

16

20

20

40

7

6

12.0

3.5

7.7

20

35.0

0.565

KE2.4.plate

KE3.4...

145

190

20

27

40

40

7

8

16.5

3.5

9.8

27

59.5

1.100

KE3.4.plate

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Weight

Art. No.

137

COMPACT UNITS Attachment accessories; clamps

0.1/1000 mm

Mounting options The compact modules are secured with clamps. Caution: Mounting and supporting the compact units only at the base body, not at the endplates. Nominal size

Dimensions [mm] A B

KE1…

102

112

KE2…

126

140

KE3...

161

175

A ±0.1 B

C

F

Type I

D

A B

C

C

C

H

G

K

B

H

E

Recommended number of clamps: 4 per metre and side. J

KE

Clamps

Type II A

Nominal Dimensions [mm] size Type A B I

35

7.5

Weight C

80

I

60

KE2/3… 80

F

G*

H

J

K

7.6

2.6

14.5

11

5

ø8

ø 4.5

20 40

10 II

138

10

E

20

KE1… II

D

10.5 20

4.5

19.5

15

7

ø11

Art. No.

[kg] 0.021

P-54434/1

0.048

P-54435/1

0.072

P-54179/1

0.118

P-54181/1

ø 6.5

LINE TECH – Swiss made Linear Technology

COMPACT UNITS Attachment accessories; sliding blocks for connector plates

Sliding blocks Sliding blocks with the corresponding groove width can be used to mount add-on parts on the connector plates (KE...V...).

a

KE

Sliding block types NS6 and NS8 can be used in line with the groove width (see connector plates, pages 136 and 137). Sliding blocks are available from LINE TECH. Size, material and connection thread as per the following order system (e.g. NS6 St M5-KE) must be defined as the order number. The available types are listed opposite.

Material

Dimensions [mm] Groove width

a (thread)

6 (KE1 / KE2)

M4 / M5 / M6

Steel / Inox

8 (KE3)

M4 / M5 / M6 / M8

Steel / Inox

Order designation for sliding blocks Examples: NS6 St M5-KE

NS 6 St M5 -KE

Sliding block NS

for compact units KE

Groove width

Thread size (dim. “a�)

6 8

M4 / M5 M6 / M8 Material St = steel Inox = inox

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139

COMPACT UNITS Cross table mountings

Cross tables

KM . KE3 / KE2 . AC

Designation system

Abbreviation for lower axis KE1 / KE2 / KE3 (Caution: version KE…4…V… is required) Abbreviation for upper axis KE1 / KE2 / KE3 Mounting type AC / AD / BC / BD

Dimension A [mm]

upper unit

Mounting type

A..

B..

KE1.4...V...

96

112

KE2.4...V...

106

122

116

132

on request

135

151

150

A

Mounting layout AC and AD cross tables are fitted using clamps. The lower unit must always be a version with two carriages and connector plate (KE…4…V…). For mounting layouts BC and BD, a special intermediate plate is fitted to the top units in addition. The individual compact units must be ordered separately.

Cross table mounting

lower unit (KE…4…V…)

A

LINE TECH compact modules are also available as double-axis units (cross tables). A total of four mounting types are possible. The designation system opposite applies.

lower unit (KE…4…V…)

KE1...

Standard accuracy for cross table mountings is 0.1 mm/300 mm stroke. Greater accuracy on request.

lower unit

KE3.4...V...

Mounting layout AC

KE3... B..

A..

B..

not possible not possible 169

Mounting layout BC upper unit (KE…2… or KE…4…)

A

A

upper unit (KE…2… or KE…4…)

lower unit (KE…4…V…)

Mounting layout AD

Mounting layout BD upper unit (KE…2… or KE…4…)

upper unit (KE…2… or KE…4…)

A

KE

Accuracy

KE2... A..

140

lower unit (KE…4…V…)

LINE TECH – Swiss made Linear Technology

COMPACT UNITS Grease points

KE…2…N…

KE…2…V…

Runner blocks and BSD 1)

Runner blocks and BSD 3)

Runner blocks and BSD 2)

Runner blocks and BSD 3)

KE…4…N…

KE…4…V… Runner blocks and BSD 2)

Runner blocks and BSD 1)

Runner blocks and BSD 3)

Grease points Different lubricating nipples are on the compact units: 1) Lubrication nipples to DIN 3405; the cover caps must be removed for lubrication. The lubrication positions are as in the table below. 2) The connection is as per the interface for customer add-on, page 142; the lubrication positions are not dependent on stroke. 3) Lubrication nipples to DIN 3405; the lubrication positions are not dependent on stroke.

Grease gun

Standard grease LINE TECH recommends the following grease for lubrication: Microlube GBU Y 131

Art. no.: ZPE.FETTPRESSE-04

Carriage position for lubrication by the base profile A

B

Stroke position

KE type

[mm]

KE1.2…

A: first carriage

Stroke / 2 Stroke / 2 Stroke / 2 Stroke / 2 Stroke / 2 Stroke / 2

B: second carriage —

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KE1.4…

KE2.2…

Stroke / 2 —

KE2.4…

KE3.2…

Stroke / 2 —

KE3.4…

Stroke / 2 – 10

141

KE

Runner blocks and BSD

Runner blocks and BSD 3)

1)

COMPACT UNITS Lubrication points for customer add-on

Interfaces for lubrication connectors for customer add-on The lubrication connectors in the carriages are sealed as standard by a grub screw. To use these lubrication points,

the grub screws at the relevant positions must be removed.

E

P 1)

S

A

F

3)

KE

4)

M

1) Mounting by customer 2) Carriage 3) O-Ring 4) Base profile

142

2)

+B

–B

+C

–C +D

–D

Dimensions [mm] Size

A

B

C

KE1

54

-6.8

-6.8

6.8

KE2

66

-7.5

-7.5

7.5

KE3

88

11.5

11.5

D

E

F

M

P

S

O-ring

65

0.8

M3

ø 6.5 ø 3

ø 4x1

85

0.8

M4

ø 6.5 ø 3

ø 4x1

-11.5 100

0.8

M5

ø 6.5 ø 3

ø 4x1

LINE TECH – Swiss made Linear Technology

KE

NOTES

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143

144

LINE TECH – Swiss made Linear Technology

Line Tech Positioning units PE Table of contents

– Product overview_________________________________________________ 146–147 – Design fundamentals / Lubrication / Maintenance__________________________ 148 – Profile cross-sections______________________________________________ 149-150 – Positioning unit with ball screw drive - Details for ball screw drive_____________________________________________ 152 - General technical details for positioning units_____________________________ 153 - Load ratings and torques_____________________________________________ 154 – Rigidity and accuracy__________________________________________________ 155 – Permissible speeds____________________________________________________ 156 – Permissible deflection______________________________________________ 157–158 – Positioning units with ball screw drive - Designation system______________________________________________ 160–161 - Information for selection » Motor mounting preparation____________________ 162 - Dimensions PE1.4…NR… (without protective covering)____________________ 164 - Dimensions PE1.4…FR… (with expansion bellows)_______________________ 165 - Dimensions PE2.4…NR… (without protective covering)____________________ 166 - Dimensions PE2.4…FR… (with expansion bellows)_______________________ 167 - Dimensions PE3.4…NR… (without protective covering)____________________ 168 - Dimensions PE3.4…FR… (with expansion bellows)_______________________ 169 - Dimensions PE4.4…NR… (without protective covering)____________________ 170 - Dimensions PE4.4…FR… (with expansion bellows)_______________________ 171

PE

– Limit switch; fitting / plug connector__________________________________ 172–173 – Motor mounting straight with ball screw drive__________________________ 174–175 – Motor mounting side with ball screw drive_____________________________ 176–177 – Attachment of positioning units__________________________________________ 178 – Attachment accessories; sliding blocks___________________________________ 179 – Cross table mounting__________________________________________________ 180 – Grease points________________________________________________________ 181

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145

positioning units Product overview

PE

PE…R… Positioning units with ball screw drive

146

LINE TECH – Swiss made Linear Technology

positioning units Product overview

LINE TECH positioning units are precision, ready-to-install, modular linear systems with linear guides and ball screw drive for the highest levels of performance and precision. They are intended for applications having the strictest requirements of precision and loadability. Four sizes (PE1, PE2, PE3 and PE4) are currently available. Advantages

Structure

– Compact dimensions – High-precision running characteristics together with highest load ratings and extreme rigidity – Actuation by ball screw drive – Simple motor mounting by centering and thread on driving head – Design aligned to application possible

– Compact aluminium base profile – Carriages made of aluminium – Ready-to-install positioning units in any lengths

Customised options

H

– Motor mounting – Limit switch – Cross table mounting – Multi-axis systems

Positioning unit

Dimensions

Load ratings

Type

BxH [mm]

C0 [kN]

PE1.4…

110 x 50

13.8

9.2

PE2.4…

155 x 60

42.5

29.3

PE3.4…

225 x 90

59.2

41.4

PE4.4…

310 x 105

230.5

161.9

PE

B

C [kN]

Please refer to pages 148 to 150 for load capacities.

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147

POSITIONING UNITS Design fundamentals / Lubrication / Maintenance

LINE TECH Positioning Units

Lubrication

Maintenance

LINE TECH positioning units with ball screw drive are of modular conception, ready to built-in linear slide units with drive. Sealed guide elements in all sizes are employed. The guides and drive are protected from external factors (such as dirt and chippings) by expansion bellows. The base plates and carriages are made of an aluminium alloy and the extrusion process is used for manufacturing. Limit switches integrated in the base plate, in conjunction with motors and a controller, ensure correct positioning of the carriage and provide protection against overrun. The selected design provides for a high level of performance with the most compact dimensions.

LINE TECH positioning units are pre-lubricated with „Microlube GBU Y 131“. This quality grease offers outstanding properties for the guidance and screw drive elements as well. Greasing should be carried out at regular intervals, depending on the load and area of operation. Lubrication is required every 500 operating hours on average. All roller bearings are greased for life and thus do not require any maintenance. Correct and adequate lubrication can substantially prolong the life of positioning units.

LINE TECH positioning units are maintenance-free (apart from the lubrication required).

Service temperature The permissible operating temperature (between 5 and 80 °C) is determined by the synthetic materials used. The specifications of the relevant manufacturers apply for motors and control units.

Note: Also follow here the instructions on the grease points (page 181).

PE…R… with ball screw drive

3)

PE

2)

4)

1) Base plate 2) Carriage

148

1)

3) Ball screw drive 4) Linear guide

5)

5) Limit switch

LINE TECH – Swiss made Linear Technology

POSITIONING UNITS Profile cross-sections PE…R…

PE1…R…

28

35

50

110

32 110

PE2…R…

8

A

4.3

71

PE

155

16.4

A 13

A

12

39.6

60

B

B

8

17

35

1.8

B

5

15 39 155

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6.35

149

POSITIONING UNITS Profile cross-sections PE…R…

PE3…R…

224 8

A

4.3

114

A

12

A

10

27

32.5

C

2.5

C

52

15

5

52

68

90

C

154 200

7

225

PE4…R…

310

PE

120

30

55

105

70

16 119 193 310

150

LINE TECH – Swiss made Linear Technology

PE

NOTES

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151

POSITIONING UNITS with with ball screw drive Details for ball screw drive

Details for ball screw drive (BSD)

PE

BSD

Axial load rates

Size

dxp

C0

Positioning accuracy

Repeating accuracy

Acceleration

Axial play

Cdyn

amax

Type

[N]

[m /s2]

[Nm]

V

—

0.100

V

—

0.200

V

—

0.320

V

—

0.120

20 x 20

V

—

0.400

25 x 5

V

—

0.150

V

—

0.300

25 x 25

V

—

0.500

32 x 5

V

—

0.200

V

—

0.400

V

—

1.200

[N]

[μm /mm]

[mm]

16 x 5 16 x 10

4 551 4 327

52 / 300 2)

< 0.01 1)

10.0

16 x 16 20 x 5 PE2...R...

PE3...R...

PE4...R...

Axial play [mm]

[mm]

PE1...R...

Idle torque

5 705 4 912

25 x 10

32 x 10

7 308 6 140

11 538 8 947

52 / 300 2)

52 / 300 2)

< 0.01 1)

< 0.01 1)

< 0.01 1)

10.0

10.0

10.0

PE

32 x 32

52 / 300 2)

d x p = screw diameter x thread pitch 1) backlash not factored in 2) also available with 23 μm  / 300 mm V = preloaded

152

LINE TECH – Swiss made Linear Technology

POSITIONING UNITS with with ball screw drive General technical details for positioning units

General technical details for positioning units with ball screw drive

PE

Movement speed

Moments of inertia

Stroke max.

Expansion bellow

Feed and friction force

Moved mass

FV

mb

[N]

[kg]

Z Y

Y Z

Type

PE1.4…R…

PE2.4…R…

PE3.4…R…

Drive

vmax

vmax

IY

IZ

[m/s]

[m/s]

[cm4]

[cm4]

1.6

2)

1.6

1.6

1.6

2)

2)

2)

8.9

9.7

202.8

125.1

[mm] 2 160

without

10.00

1 500

with

10.00

2 570

without

12.00

2 000

with

12.00

4 055

without

15.00

3 000

with

15.00

3 785

without

25.00

3 000

with

25.00

178.2

1.100

513.7

2.700

3 940.0

5.470

8 560.0

16.600

PE

PE4.4…R…

Guide

2)

for ball screw drive, dependent on rotational speed characteristics, spindle length and relevant critical rotational speed.

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153

POSITIONING UNITS with with ball screw drive Load ratings and torques

PE…R…

MX MY Torques

MZ

Load ratings

Cz2

Cz1

PE

Cy1

Cy2

Positioning unit

Maximum permissible force [kN]

Maximum permissible torque [Nm]

Type

static

static

Cy0 1,2

dynamic Cz0 1

Cz0 2

Cy1,2

Cz1,2

dynamic

Mx0

My0

Mz0

Mx

My

Mz

PE1.4…R…

13.8

13.8

13.8

9.2

9.2

422

380

380

281

253

253

PE2.4…R…

42.5

50.7

67.8

29.3

33.4

2 457

2 230

1 872

1 618

1 469

1 290

PE3.4…R…

59.2

70.5

94.0

41.4

46.8

4 757

4 617

3 877

3 157

3 065

2 691

PE4.4…R…

230.5

274.5

366.0

161.9

184.0

30 195

26 625

22 365

20 240

17 547

15 708

Expedient load

Note on dynamic load ratings and torques The determination of dynamic load ratings and torques is based on a 50, 000 m stroke. If comparative values must be

154

calculated for a 100, 000 m stroke, the values for Mx, My, Mz and C must be divided by the factor 1.26.

With a view to serviceable life, loads of less than 20% of the dynamic load ratings have generally proved to be expedient.

LINE TECH – Swiss made Linear Technology

POSITIONING UNITS Rigidity and accuracy

Rigidity

Fr

[kN]

Rigidity values pertain to the linear guide – without factoring in the surrounding environment. The values given are based on standard linear guides with preload Z1 for the runner blocks. At elevated rigidity requirements, we recommend linear guides with preload Z3.

5

PE4

PE3 PE2

4 3 2

PE1

1

Δ Z [μm] 2

4

6

8

10

12

14

16

18

20

Accuracy The precision of any linear system not only depends on the positioning and repeating accuracy but also on the track accuracy of the carriage. This accuracy can be seen in the following diagrams.

Also the mounting surface of the positioning unit has a great influence on the track accuracy since any inaccuracy of the mounting surface can hardly be compensated by the positioning unit itself.

PE

Accuracy in Y-direction (ΔY)

Δ [μm] 50 ΔY

0.02

40

Mounting surface

Accuracy in Z-direction (Δ Z)

ΔZ

30 20 10

Hub [μm] 200

400

600

800

1000

1200

0.02

Mounting surface

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155

POSITIONING UNITS Permissible speeds

Permissible speeds...

… for PE1… with ball screw drive ø 16 x … 1) vmax [m/min] 100 90 80 70 60 50 40 30 20 10

16x16

16x10 16x5 200

400

600

L [mm]

800 1000 1200 1400 1600 1800 2000 2200 2400 2600 2800

… for PE2… with ball screw drive ø 20 x … 1) vmax [m/min] 100 90 80 70 60 50 40 30 20 10

20x20

20x5

L [mm] 200

400

600

800 1000 1200 1400 1600 1800 2000 2200 2400 2600 2800

… for PE3… with ball screw drive ø 25 x … 1) vmax [m/min] 25x25

PE

100 90 80 70 60 50 40 30 20 10

25x10 25x5 200

Caution: For ball screw drive, note the rotational speed characteristics, spindle length and relevant critical rotational speed.

Please also pay attention to the motor speeds.

1)

greater accuracy on request L = overall length of the positioning unit

156

600

1000

L [mm] 1400

1800

2200

2600

3000

3400

3800

4200

… for PE4… with ball screw drive ø 32 x … 1) vmax [m/min] 100 90 80 70 60 50 40 30 20 10

32x32

32x10 32x5

L [mm] 200

600

1000

1400

1800

2200

2600

3000

3400

3800

4200

LINE TECH – Swiss made Linear Technology

POSITIONING UNITS Permitted deflection (1/2; for PE1… and PE2…)

2.0

0N

1.2 0.8

N

1.6

50 N

2

f max

0.4

LM [mm] 250

500

750 1000 1250 1500 1750 2000 2250 2500 2750 3000 3250

PE1… vertical 00

N

fmax [mm]

25

The maximum permissible deflection is limited by the maximum deflection angle of 5'. Exceeding this value without support will have a negative effect on the unit’s service life.

2.2

0

If the maximum permissible deflection is exceeded, the positioning units must have additional support.

fmax [mm]

50

Positioning units can be installed so as to be self-supporting. However, the deflection (which limits the possible load) must be taken into consideration.

PE1… horizontal

2500 20 N 15 00 N 0 10 0 N 00

Permissible deflection

If increased demands are placed on system accuracy, we recommend supporting the positioning units along their entire length.

00

20

N 1500 N

0N

100

1.2 1.0

f max

0.8 0.6

500

N

250

N

0.4

The diagrams on the right apply for: – Firm clamping (40–50 mm per side) – 3–4 screws per side – Solid substructure

0N

0.2

LM [mm] 250

500

750 1000 1250 1500 1750 2000 2250 2500 2750 3000 3250

PE2… horizontal fmax [mm] 2.2

0N

1.6

250 20 0 N 15 00 N 00 N

1.2

Mounting positions: – horizontal

50 N

N 0N 2 00 50

0.4

fmax

F

LM [mm] 250

LM / 2

f max

10

0.8

LM

PE

2.0

500

750 1000 1250 1500 1750 2000 2250 2500 2750 3000 3250

PE2… vertical

– vertical LM LM / 2

fmax

F

20

00

1.2 1.0

f max

0.8

00

15

N

0N

0.6

100

0.4

N 500 N 250 0 N LM [mm]

0.2 250

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N

25

00

N

fmax [mm]

500 750 1000 1250 1500 1750 2000 2250 2500 2750 3000 3250

157

POSITIONING UNITS Permitted deflection (2/2; for PE3… and PE4…)

PE3… horizontal fmax [mm] 2.2

00 20 N 00 N

2.0

0 100

500

N

N 250

N

25

1.6

0

0 15

N

1.2

0N

f max

0.8 0.4

LM [mm] 500

1000

1500

2000

2500

3000

3500

4000

4500

PE3… vertical fmax [mm]

fm

ax

0.5

20 25 00 00 N N

0.6

0.4

N 00 15 N 0 100 N 0 50 N 250 0N

0.3 0.2 0.1

LM [mm]

500

1000

1500

2000

2500

3000

3500

4000

4500

PE4… horizontal fmax [mm] 2.2

N 25 0 20 0 N 00 15 N 00 10 N 00 N 50 0

1.6 1.2

Mounting positions: – horizontal

N 0 0 N f max

25

0.8

LM

0.4

LM / 2

LM [mm] 500

1000

1500

2000

2500

3000

3500

4000

4500

fmax

F

PE4… vertical fmax [mm]

– vertical

0.6

LM / 2

fm

ax

0.5

LM

0.4

N N 00 00 25 20 N N 00 00 15 10 N N 250 500 0N LM [mm]

0.3 0.2

fmax

PE

2.0

F

0.1

500

158

1000

1500

2000

2500

3000

3500

4000

4500

LINE TECH – Swiss made Linear Technology

PE

NOTES

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159

POSITIONING UNITS Designation system

PE 2 . 4 . 0500 F R 005 . 1

Positioning unit (designation example) Design PE = positioning unit with linear guides Size = = = =

110 mm carriage width 155 mm carriage width 225 mm carriage width 310 mm carriage width

H

1 2 3 4

B

Size

PE... B x H [mm]

1

110 x 50

2

155 x 60

3

225 x 90

4

310 x 105

Configuration 4 = 4 runner blocks (1 carriage) ‌ = special execution 1) Stroke in [mm] Protective covering F = expansion bellows *** N = without protective covering

PE

Drive R = rolled ball screw *** N = without drive Stroke per revolution [mm] 005 / 010 / 016 005 / 020 005 / 010 / 025 005 / 010 / 032 ...

= = = = =

size 1; ball screw with a pitch of 5, 10 or 16 mm size 2; ball screw with a pitch of 5 or 20 mm size 3; ball screw with a pitch of 5, 10 or 25 mm size 4; ball screw with a pitch of 5, 10 or 32 mm other pitch 1)

Limit switches 0 1 2 3 4

= = = = =

without limit switch 2 limit switches, reference point at front (drive side) 2 limit switches, reference point at rear (opposite drive side) 2 limit switches + additional reference switch at front (drive side) 2 limit switches + additional reference switch at rear (opposite drive side)

* seen from motor opposite side towards motor ** available for lateral motor mounting only *** standard version 1) on request

160

LINE TECH – Swiss made Linear Technology

. 02 . 0 F - 1 7 V L S N 5 8 3 _ _ _

583...

= drawing type

Options N = without options *** Plug type S = with limit switch plug *** N = without plug Mounting position limit switch plug 2) L = limit switch plug mounting left *** R = limit switch plug mounting right * N = without plug Preload ball screw drive (BSD) V = BSD preloaded *** N = without drive Tolerance class ball screw drive (BSD) 7 = Tolerance class BSD: T7 (52 µm / 300 mm) *** 5 = Tolerance class BSD: T5 (23 µm / 300 mm) N = without drive Preload runner blocks 1 = Preload runner blocks: Z1 *** 3 = Preload runner blocks: Z3 Motor mounting

PE

N = without motor mounting *** F = mounting plate for standard motor S = mounting plate for special motor Reduction 3) 0 1 2 (3

= = = =

without reduction (1:1) *** reduction 1:1.5 ** reduction 1:2 ** reduction 1:2.5) **

Assembly stage 00 = without drive

00

01

02

01 = free spindle end *** 02 = with coupling and intermediate plate 03 = with crank and clamp 03 04 05 04 = set up for lateral motor mounting right * 2) 05 = set up for lateral motor mounting left * 2) 06 = set up for lateral motor mounting top 07 = set up for lateral motor mounting bottom 06 07

2) 3)

for motor mounting on the left or right side, the limit switch connector must be on the opposite side new designation system from 01.01.2015

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161

POSITIONING UNITS with ball screw drive Information for selection » Motor mounting preparation

Motor fitting preparation – assembly stages with ball screw drive LINE TECH positioning units with ball screw drive can be supplied with different motor mount preparations. Refer to pages 174 to 177 for dimensions.

Assembly stage 02 With coupling and intermediate plate

Assembly stage 04 Belt drive housing for lateral motor mounting right*

Assembly stage 05 Belt drive housing for lateral motor mounting left*

Assembly stage 06 Belt drive housing for lateral motor mounting top

Assembly stage 07 Belt drive housing for lateral motor mounting bottom

PE

Assembly stage 01 Free spindle end

* seen from motor opposite side towards motor

162

LINE TECH – Swiss made Linear Technology

PE

noteS

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163

POSITIONING UNIT PE1.4…NR…

L3

4x M5x10

L4

Stroke

M6 / ø4.8 6

A1

A2

n x  86

58

6.5

28

50

110

26

ø10 h6

ø38 h6

with ball screw drive, without protective covering

L

23

110 4x M5x10

20

58

20

 86

6 / depth 3 55

Nominal size Designation

PE

PE1.4…NR…

Dimensions Stroke

L

L3

[mm]

[mm]

50

255

L4

n

A1

A2

Ball screw length

Weight [kg]

47.5

47.5

2

41.5

41.5

225

3.0

125

330

47.5

47.5

2

79

79

275

3.5

195

400

47.5

47.5

3

71

71