Mechanically Jointed Rodless Cylinders A2 Applicable cylinder Model Mounting direction w B2 A2 C2 D2 F2 K2 Q2 MY340 MY350 MY363 MY316 MY320 MY325 MY332 MYAJ16 MYAJ20 MYAJ25 MYAJ32 MYAJ40 MYAJ50 MYAJ63 68 81 100 36 41 46 54 114 136 166 57 68 83 58 70 80 96 55 70 80 29 35 40 48 130 152 185 19 20 23 30 35 40 46 8 8 9.5 68 80 92 108 10 10 14 14 5 5 6 6 Note) Floating brackets are shipped as a set of left and right brackets.
A5 A5 A6 A6 A7 A7 Internal Internal A8 A8 resistance resistance 10[k ] 10[k ] 24 VDC 24 VDC A9 A9 Main circuit Main circuit power supply power supply for the input for the input A10 A10 signals signals B1 B1 B2 B2 B3 B3 B4 B4 B5 B5 Maximum output Maximum output B6 B6 current: 10 mA current: 10 mA B7 B7 Pulse input internal circuit Note2) B8 Pulse input internal circuit Note2) B8 Pulse input
SUS630()SUS304() () / -7No.PS-OMU0008CN-D * 1015 10 1 2466 LCD * -8No.PS-OMU0008CN-D ISE20C X M 2 3 ISE20C -0.100~1.000 MPa Y ZSE20C 0.0~-101.0 kPa K ZSE20CF -100.0~100.0 kPa T ISE20CH -0.100~2.000 MPa 24 X NPN2 A1 A Y PNP2 A3 C R NPN2+1 B T PNP2+1 E S NPN2+1 D + V PNP2+1 1: F + 4 2 M SI3 1 P psi2 2 3 kPaMpa (2m ) W 2 R1/4 C01 Rc1/8 N02 NPT1/4 A2 URJ1/4 L F02 G1/4 B2
TSJSwagelok(Swagelok URJ Swagelok(VCR)/GroundGround Swagelok,VCRSwagelok Company -6No.PS-OMM0002CN-F * 6 33 () () 10m DC(-)() * ( ) () CE -7No.PS-OMM0002CN-F 0~50(5) SUS630() SUS304() ( ) * 10~15 15 /1% 1941 LCD * -8No.PS-OMM0002CN-F ISE80 02 N 3 ISE80 -0.11MPa ZSE80 0-101KPa ZSE80F -100100KPa ISE80H -0.12MPa Y K + T + 2 02 R1/4 N02 NPT1/4 F02* G1/4 G01 Rc1/8 A2 URJ1/4 B2
Parallel I/O Connector: CN5 Wiring diagram LEC6N(NPN) LEC6P(PNP) Power supply 24 VDC for I/O signal CN5 Power supply 24 VDC for I/O signal CN5 A1 A1 COM+ COM+ 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 Load Load B2 B2
1 I/O cable length [m]*3 Compatible driver Power supply voltage [V] Size 25 32 40 Nil Without driver A1 LECSA1-S100 to 120 A2 LECSA2-S200 to 230 B1 LECSB1-S100 to 120 B2 LECSB2-S200 to 230 C1 LECSC1-S100 to 120 C2 LECSC2-S200 to 230 S1 LECSS1-S100 to 120 S2 LECSS2-S200 to 230 *3 When Without driver is selected for driver type, only Nil: Without cable can be selected.
I = m x (a2 + b2) / 12 + m x H2 I = 0.15 x (0.062 + 0.042) / 12 + 0.15 x 0.032 = 0.0002 kgm2 Moment of inertia Kinetic energy 6 Confirm that the loads kinetic energy is within the allowable value. 1/2 x I x 2 = < Allowable energy 1 / 2 x (0.0002) x (2 x ( / 2) / 0.3)2 = = 2 / t (: Terminal angular velocity) 0.01096 J < Allowable energy OK : Rotation angle (rad) t: Rotation time (s) Allowable
A1 (mm) Note 2) Operating range Bore size Mounting patternq A1 Mounting patternw A2 Mounting patterne A3 B1 B2 B3 (mm) 10 15 25 5.5 34 64 22 76 34 76 5 35 70 23 82 35 82 Mounting pattern w B2 A2 5 40.5 99.5 28.5 111.5 40.5 111.5 Note 1) Adjust the auto switch after confirming the operating conditions in the actual setting.
I = m x (a2 + b2) / 12 + m x H2 I = 0.15 x (0.062 + 0.042) / 12 + 0.15 x 0.032 = 0.0002 kgm2 Moment of inertia Kinetic energy 6 Confirm that the loads kinetic energy is within the allowable value. 1/2 x I x 2 = < Allowable energy 1 / 2 x (0.0002) x (2 x ( / 2) / 0.3)2 = = 2 / t (: Terminal angular velocity) 0.01096 J < Allowable energy OK : Rotation angle (rad) t: Rotation time (s) Allowable
I = m x (a2 + b2) / 12 + m x H2 I = 0.15 x (0.062 + 0.042) / 12 + 0.15 x 0.032 = 0.0002 kgm2 Moment of inertia Kinetic energy 6 Confirm that the loads kinetic energy is within the allowable value. 1/2 x I x 2 = < Allowable energy 1 / 2 x (0.0002) x (2 x ( / 2) / 0.3)2 = = 2 / t (: Terminal angular velocity) 0.01096 J < Allowable energy OK : Rotation angle (rad) t: Rotation time (s) Allowable
L /IZN10-B1 P /IZN10-B2 DIN /IZN10-B3 P PNP -6- 4 4 4 4 4 4 4 4-1 1 1 1 !
Table 9 Port size Size Port size Size Port size A1, B1 A2, B2 10 M5x0.8 10 20 20 A1 30 Rc1/8 30 50 50 M5x0.8 B2 B1 G1/8 70 70 NPT1/8 100 100 Fig. 8 NPTF1/8 200 200 Rotary table ports and plate have a fixed orifice. Do not make the diameter of this hole larger by additional processing.
Force OUT 1 ON Pin No. 0 [ ] Pin No. 1 OFF Pin No. 2 [ ] b2 Force Output(pin) Output pin No.0 keykey Output pin No.1 Last Output pin No. 78 - (6) TB Ver2.1*LECPA (6-1) SET AX IS.
(The lock cable is included when the motor with lock B2 option is selected.) *Standard cable entry direction is "(B) opposite axis side".
9 @0 @1 @2 @3 @4 @5 Description Material Note PBT Body A U seal HNBR Electroless nickel plated Brass Body B Body C Brass Electroless nickel plated Electroless nickel plated Brass Seat ring Adjustment plug Brass Electroless nickel plated Electroless nickel plated Brass Body B1 Needle Brass Electroless nickel plated Electroless nickel plated Brass Body B2 Knob PBT Lock nut Note 1) Electroless
9 @0 @1 @2 @3 @4 @5 Description Material Note PBT Body A U seal HNBR Electroless nickel plated Brass Body B Body C Brass Electroless nickel plated Electroless nickel plated Brass Seat ring Adjustment plug Brass Electroless nickel plated Electroless nickel plated Brass Body B1 Needle Brass Electroless nickel plated Electroless nickel plated Brass Body B2 Knob PBT Lock nut Note 1) Electroless
Graph (3) 20 x 9.8 x (0.07 + 0.05) x 10/1000 = 0.24 20 x 9.8 x (m1 + m2) x H/1000 0.24 Nm < Effective torque OK < Effective torque (Nm) Find the moment of inertia, "IR" for the load + attachments (2 pcs.) 7 IR = K x (a2 + b2 + 12h2) x (m1 + m2)/(12 x 106) IR = 2 x (202 + 302 + 12 x 102) x (0.07 + 0.05)/(12 x 106) = 0.05 kgm2 (K = 2: Safety factor) Kinetic energy 8 Confirm that the kinetic
When a regulator is not mounted on the manifold, use the following blank plate ass'y (with mounting screws and O ring) For ARM1000: Part no. 136214A For ARM2000: Part no. 136214A Individual 10 10 stations In case of A1 and B1, a pressure gauge or a plug is mounted on the body side, while in case of A2 and B2, on the manifold side.