LEC-OM07605CN (f)Ready-off (1)(f) 3.11 (PE)( ) (PE) (di/dtdv/dt) CN2 MC MCCB L1 () () L2 L3 L11 L21 U U M V V W W CN1A PE PE PE (PE) (PE) .
Auto Switch Standard D w/Auto Switch (Magnetic Piston) Style Standard Cylinder K Non-Rotating Cylinder W Double Rod M Male Rod Stud Mounting No. of Switches 2 Pieces S 1 Piece n n Pieces B MX0 Basic L MS1 Foot Bore Size 150 1.5 200 2 250 2.5 325 3.25 400 4 For larger bore sizes up to 32 bore.Please consult CAT: N304-EX F MF1 Front Flange G MF2 Rear Flange R MS4 Side-Tapped See Auto
Table displacement due to pitch moment load (marked with the arrow) Table displacement due to yaw moment load (marked with the arrow) Table displacement due to roll moment load (marked with A) F A F F LEPS6 LEPS6 LEPS6 0.30 0.30 0.10 0.25 0.25 Displacement [mm] Displacement [mm] Displacement [mm] 0.08 0.20 0.20 0.06 LEPS6m-50 LEPS6m-50 0.15 0.15 0.04 0.10 0.10 LEPS6m-25 0.02 LEPS6m-25 0.05
Confirm that the pushing force F [N] does not exceed the allowable pushing force. F Fmax 0 1 2 3 4 5 6 LAT3m-10 Allowable thrust setting value Time while pushing force is applied 4.2 Position 0 20 40 60 80 100 Duty ratio [%] Time From Fig. 5: LAT3m-10, pushing direction away from the connector at pushing position 4 mm, find Fmax = 4.5 As F = 4 Fmax = 4.5, the selected model can be used.
L1 L2+A5 L3 Kinetic Energy 2 Find the kinetic energy E (J) of the load. Find the allowable kinetic energy Ea (J).
Rubber back of the belt is softened and sticky. f . Crack on the back of the belt 13.
F When mounting the work to the rod end, clamp the end across flat for tightening so that not Model no. A [Tightening torque] L[]ZB[]3 8 14 Across f l at 13 21 L[]ZB[]5 10 22 Across f l at 21 33 Model no. B C D E L[]ZB[]5 M 10 x 1. 25 x 12 deep [24.5Nm ] L[]ZB[]3 M 6 x 1. 0 x 8 deep [5.2Nm ] Model no. [Tightening torque] apply rotating force to the rod.
LECP6Pll-l (PNP) Wiring diagram LECP6Nll-l (NPN) Power supply 24 VDC for I/O signal CN5 Power supply 24 VDC for I/O signal CN5 A1 COM+ COM+ A1 COM COM A2 A2 A3 A3 IN0 IN0 A4 A4 IN1 IN1 A5 A5 IN2 IN2 A6 A6 IN3 IN3 A7 A7 IN4 IN4 A8 A8 IN5 IN5 A9 A9 SETUP SETUP A10 A10 HOLD HOLD A11 A11 DRIVE DRIVE A12 A12 RESET RESET A13 A13 SVON SVON Load Load B1 B1 OUT0 OUT0 B2 B2 OUT1 OUT1 B3 B3 OUT2 OUT2
Decimal display Hexadecimal display 10 A 11 b 12 c 13 d 14 E 15 F Note 4) Applicable to non-magnetizing lock. 576 Programless Controller LECP1 Series Controller Details e r No.
L L F L mg mg Ta = 2 /360 (Ta = 0.0175) Gravity is applied to rotating direction. Tf = mgL Friction force is applied to rotating direction.
NPN type PNP type Parallel input/output Parallel input/output Signal power supply Signal power supply Parallel IO connector Parallel IO connector 24VDC 24VDC A1 COM A1 COM A2 COM A2 COM A3 IN0 A3 IN0 A4 IN1 A4 IN1 A5 IN2 A5 IN2 A6 IN3 A6 IN3 A7 IN4 A7 IN4 A8 IN5 A8 IN5 A9 SETUP A9 SETUP A10 HOLD A10 HOLD A11 DRIVE A11 DRIVE A12 RESET A12 RESET A13 SVON A13 SVON Load B1 OUT0 Load B1 OUT0 Load
NPN type PNP type Parallel input/output Parallel input/output Signal power supply Signal power supply Parallel IO connector Parallel IO connector 24VDC 24VDC A1 COM A1 COM A2 COM A2 COM A3 IN0 A3 IN0 A4 IN1 A4 IN1 A5 IN2 A5 IN2 A6 IN3 A6 IN3 A7 IN4 A7 IN4 A8 IN5 A8 IN5 A9 SETUP A9 SETUP A10 HOLD A10 HOLD A11 DRIVE A11 DRIVE A12 RESET A12 RESET A13 SVON A13 SVON Load B1 OUT0 Load B1 OUT0
M3E 1 3 1 3 M3E = x FE x Y = x 34.42 x 42.5 x 103 = 0.49 (NNm) FE Y Load factor a5 = M3E / M3E max = 0.49 / 19.5 = 0.03 M3 6 Sum and Examination of Guide Load Factors < = a = a1 + a2 + a3 + a4 + a5 = 0.98 1 The above calculation is within the allowable value and therefore the selected model can be used.
Example) Step data of the controller setting kit [Normal mode] Speed Position Accel Decel PushingF T riggerL V PushingSp Moving F Area1 Area2 In posn No.
A5 IN3 A5 IN3 A6 DRIVE A6 DRIVE A7 SVON A7 SVON Internal resistance 10 [k] Internal resistance 10[k] A8 NC A8 NC A9 NC A9 NC Main circuit Main circuit Output signal power Output signal power supply supply A10 NC A10 NC 24 VDC 24 VDC DC2(+) B1 DC2(+) B1 DC2(-) B2 DC2(-) B2 BUSY B3 BUSY B3 B4 ALARM B4 ALARM B5 OUT0 B5 OUT0 B6 OUT1 B6 OUT1 Maximum Output current Maximum Output current B7 NC
(Example) Step data on the PC (controller setting software) screen [Normal mode] Speed Position Accel Decel PushingF T riggerL V PushingSp Moving F Area1 Area2 In pos No.
CS1 Applicable Auto Switches Style Auto switch model Electrical entry (function) Grommet D-A5/A6 Reed switch Grommet (2 colour indication) D-A59W Grommet D-F5/J5 Grommet (2 colour indication) D-F5W/J59W Solid state switch Grommet (2 colour, Water resistant) D-F5BA Grommet (2 colour, diagnosis output) D-F5F Grommet (Timer) D-F5NT Accessories Basic Foot Front flange Rear flange Single rear
N] F=-q x PA+w x PC F=q x PA+(e-q) x PC F=-q x PA+r x PB+(w-e) x PC F=q x PA q, w and e are piston areas.
position double: VFR420 -F 3 position closed center: VFR430 -F 3 position exhaust center: VFR440 -F 3 position pressure center: VFR450 -F (Mounting hole) (Electrical entry) Manual override (Non-locking) (PE port) 1278 Series VFR4000 5 Port Pilot Operated Solenoid Valve Rubber Seal, Plug-in/Non Plug-in Non Plug-in: 2 Position Single/Double, 3 Position Closed Center/Exhaust Center/Pressure
30.5 15 46 12 10 D I M E N S I O N S PA D D I A M E T E R S 10, 13, 16 D I M E N S I O N S PA D D I A M E T E R S 40, 50 F L AT T Y P E F L AT W I T H R I B G:M5x0.8 G:M6x1 Y Model A B C D F L AT T Y P E F L AT W I T H R I B E F E F Flat Flat with rib H:M6x1 H:M8x1 Y ZPT10 U C 10 12 12 17 20 38 25 43 3 1.7 Model A B D E C F G C F G Flat Flat with rib ZPT13 U C 13 15 12 17 20 38 25 43 3 1.8