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EPCO-...-KF

Festo – EPCO-...-KF – 1704a English

11

EPCO-16-3P-KF

Horizontal installation

Positioning time t as a function of the travel distance l and effective load m

t = 0,30 s

t = 0,60 s

t = 0,90 s

t = 1,20 s

t = 1,55 s

t = 1,85 s

Acceleration a and speed v as a function of the effective load m and travel distance l

l = 0 mm

l = 200 mm

m = 0 kg

m = 24 kg

Fig. 9

Summary of Contents for EPCO-16-3P-KF

Page 1: ...en Appendix to the operating instructions 8071278 1704a 8071280 Electric cylinder with guide unit EPCO KF ...

Page 2: ...juries Caution Hazards that can cause minor injuries Other symbols Note Material damage or loss of function Recommendations tips references to other documentation Essential or useful accessories Information on environmentally sound usage Text designations Activities that may be carried out in any order 1 Activities that should be carried out in the order stated General lists è Result of an action ...

Page 3: ...ith guide unit EPCO KF Table of contents 1 Control sections and connections 4 2 Function and application 4 3 Transport and storage 5 4 Installation 5 4 1 Mechanical installation 5 5 Fault clearance 6 6 Technical data 7 6 1 Mechanical data 7 7 Characteristic curves 8 ...

Page 4: ...r For all available product documentation è www festo com pk 1 Control sections and connections 6 7 5 4 3 2 1 8 9 1 Yoke plate 2 Guide rod 3 Guide housing 4 Hole for mounting 5 Electric cylinder 6 Slots for slot nuts 7 Thread for mounting 8 Centring holes 9 Thread for fastening the payload Fig 1 2 Function and application The electric cylinder with guide unit EPCO KF is intended for positioning pa...

Page 5: ...that the device is installed free of mechanical stress and deflection evenness of the bearing surface 0 2 mm Position the EPCO KF so that all of the operating elements are accessible Mount the EPCO using the mounting accessories Tighten the mounting screws evenly Interfaces for mounting components on the profile With screws With slot nuts NST1 1 è www festo com catalogue Fig 2 Size 16 25 40 Direct...

Page 6: ... as close as pos sible to the centre of the yoke plate Attach the payload to the yoke plate in the retracted end position The piston guide rods bend depending on the payload è Appendix Characteristic curves Fig 3 Size 16 25 40 Thread M4 M6 M5 M6 Max tightening torque Nm 2 5 6 4 6 Centring holes mm 5H7 7H8 9H8 7H8 8H7 9H8 Tab 2 5 Fault clearance Malfunction Possible cause Remedy Runningnoises or vi...

Page 7: ...Mx Nm 13 19 27 My Mz Nm 9 12 20 Maximum permissible dynamic force related to the guide centre for 5000 km running performance Fydyn Fzdyn N 160 320 380 Maximum permissible dynamic torques related to the guide centre for 5000 km running performance Mxdyn Nm 6 15 20 Mydyn Mzdyn Nm 4 10 15 Condition for combined loads Fx v Fxmax ŤFy dyn Ť Fydyn max ŤFz dyn Ť Fzdyn max ŤMx dyn Ť Mxdyn max ŤMy dyn Ť My...

Page 8: ...rves Max lateral force Fy and Fz as a function of the cantilever load A for 5000 km operation EPCO 16 KF EPCO 25 KF EPCO 40 KF A Fy A Fz Fig 4 Deflection f of the piston rod as a function of the cantilever load A EPCO 16 KF EPCO 25 KF EPCO 40 KF f A f A Fig 5 ...

Page 9: ... piston rod as a function of the cantilever load A and lateral force F EPCO 16 KF F 10 N EPCO 25 KF F 10 N EPCO 40 KF F 10 N f A f A F F Fig 6 Slope á due to torque as a function of cantilever load A EPCO 16 KF M 2 Nm EPCO 25 KF M 2 Nm EPCO 40 KF M 2 Nm Fig 7 ...

Page 10: ...l installation Positioning time t as a function of the travel distance l and effective load m t 0 60 s t 1 25 s t 1 85 s t 2 50 s t 3 10 s Acceleration a and speed v as a function of the effective load m and travel distance l l 0 mm l 200 mm m 0 kg m 12 kg Fig 8 ...

Page 11: ...stallation Positioning time t as a function of the travel distance l and effective load m t 0 30 s t 0 60 s t 0 90 s t 1 20 s t 1 55 s t 1 85 s Acceleration a and speed v as a function of the effective load m and travel distance l l 0 mm l 200 mm m 0 kg m 24 kg Fig 9 ...

Page 12: ...l installation Positioning time t as a function of the travel distance l and effective load m t 0 35 s t 0 65 s t 1 00 s t 1 30 s t 1 65 s Acceleration a and speed v as a function of the effective load m and travel distance l l 0 mm l 200 mm m 0 kg m 4 kg Fig 10 ...

Page 13: ...stallation Positioning time t as a function of the travel distance l and effective load m t 0 15 s t 0 30 s t 0 45 s t 0 65 s t 0 80 s t 0 95 s Acceleration a and speed v as a function of the effective load m and travel distance l l 0 mm l 200 mm m 0 kg m 8 kg Fig 11 ...

Page 14: ...tion Positioning time t as a function of the travel distance l and effective load m t 0 60 s t 1 20 s t 1 85 s t 2 45 s t 3 05 s t 3 70 s t 4 30 s Acceleration a and speed v as a function of the effective load m and travel distance l l 0 mm l 300 mm m 0 kg m 30 kg Fig 12 ...

Page 15: ...n Positioning time t as a function of the travel distance l and effective load m t 0 30 s t 0 60 s t 0 90 s t 1 20 s t 1 50 s t 1 80 s t 2 10 s t 2 40 s Acceleration a and speed v as a function of the effective load m and travel distance l l 0 mm l 300 mm m 0 kg m 60 kg Fig 13 ...

Page 16: ...l installation Positioning time t as a function of the travel distance l and effective load m t 0 30 s t 0 65 s t 0 95 s t 1 25 s t 1 60 s Acceleration a and speed v as a function of the effective load m and travel distance l l 0 mm l 300 mm m 0 kg m 10 kg Fig 14 ...

Page 17: ...lation Positioning time t as a function of the travel distance l and effective load m t 0 15 s t 0 30 s t 0 45 s t 0 60 s t 0 80 s t 0 95 s t 1 10 s Acceleration a and speed v as a function of the effective load m and travel distance l l 0 mm l 300 mm m 0 kg m 20 kg Fig 15 ...

Page 18: ...tion Positioning time t as a function of the travel distance l and effective load m t 1 05 s t 2 05 s t 3 10 s t 4 10 s t 5 15 s t 6 20 s t 7 20 s Acceleration a and speed v as a function of the effective load m and travel distance l l 0 mm l 400 mm m 0 kg m 60 kg Fig 16 ...

Page 19: ...l installation Positioning time t as a function of the travel distance l and effective load m t 0 50 s t 1 00 s t 1 55 s t 2 05 s t 2 55 s Acceleration a and speed v as a function of the effective load m and travel distance l l 0 mm l 400 mm m 0 kg m 120 kg Fig 17 ...

Page 20: ...al installation Positioning time t as a function of the travel distance l and effective load m t 0 55 s t 1 10 s t 1 60 s t 2 15 s t 2 70 s Acceleration a and speed v as a function of the effective load m and travel distance l l 0 mm l 400 mm m 0 kg m 20 kg Fig 18 ...

Page 21: ...tal installation Positioning time t as a function of the travel distance l and effective load m t 0 25 s t 0 50 s t 0 80 s t 1 05 s t 1 30 s Acceleration a and speed v as a function of the effective load m and travel distance l l 0 mm l 400 mm m 0 kg m 40 kg Fig 19 ...

Page 22: ...ization is prohibited Offenders will be liable for damages All rights re served in the event that a patent utility model or design patent is registered Copyright Festo SE Co KG Ruiter Straße 82 73734 Esslingen Germany Phone 49 711 347 0 Fax 49 711 347 2144 E mail service_international festo com Internet www festo com ...

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