SMC's E-MY2 series e-rodless actuators require no programming, and have both the operational ability of an air cylinder, and the speed controllability of an electric actuator. The series consists of the E-MY2B (basic), E-MY2C (cam follower guide), E-MY2H (linear guide, single axis), and the E-MY2HT (linear guide, double axis) styles.
SMC's E-MY2 series e-rodless actuators require no programming, and have both the operational ability of an air cylinder, and the speed controllability of an electric actuator. The series consists of the E-MY2B (basic), E-MY2C (cam follower guide), E-MY2H (linear guide, single axis), and the E-MY2HT (linear guide, double axis) styles.
SMC's E-MY2 series e-rodless actuators require no programming, and have both the operational ability of an air cylinder, and the speed controllability of an electric actuator. The series consists of the E-MY2B (basic), E-MY2C (cam follower guide), E-MY2H (linear guide, single axis), and the E-MY2HT (linear guide, double axis) styles.
SMC's E-MY2 series e-rodless actuators require no programming, and have both the operational ability of an air cylinder, and the speed controllability of an electric actuator. The series consists of the E-MY2B (basic), E-MY2C (cam follower guide), E-MY2H (linear guide, single axis), and the E-MY2HT (linear guide, double axis) styles.
SMC's E-MY2 series e-rodless actuators require no programming, and have both the operational ability of an air cylinder, and the speed controllability of an electric actuator. The series consists of the E-MY2B (basic), E-MY2C (cam follower guide), E-MY2H (linear guide, single axis), and the E-MY2HT (linear guide, double axis) styles.
SMC's E-MY2 series e-rodless actuators require no programming, and have both the operational ability of an air cylinder, and the speed controllability of an electric actuator. The series consists of the E-MY2B (basic), E-MY2C (cam follower guide), E-MY2H (linear guide, single axis), and the E-MY2HT (linear guide, double axis) styles.
SMC's E-MY2 series e-rodless actuators require no programming, and have both the operational ability of an air cylinder, and the speed controllability of an electric actuator. The series consists of the E-MY2B (basic), E-MY2C (cam follower guide), E-MY2H (linear guide, single axis), and the E-MY2HT (linear guide, double axis) styles.
VQZ100/200/300 Note 3) Weight without sub-plate 2.10-6 VQZ100/200/300 Body Ported Construction VQZ100 Poppet e w q Component Parts SY Material No. q Description Notes N.C. Resin Body SYJ (A) 2 Aluminum/NBR Spool valve w Pilot valve VK e 1 (P) 3 (R) VQZ100-12A Resin/Aluminum P, R plate r r VZ VT VQZ200/300 VT Metal seal Rubber seal VP r e w q r e w q VG VP VQ VQZ N.C. N.C.
0.5 0.6 0.7 F Black 0 V G Shield Connector pin arrangement A phase output pulse G A DB phase output pulse F B H E D C -X Counter value 0 1 2 3 4 3 2 1 699
74 637 A VND Series Port size: 32A, 40A, 50A H (Valve open) Indicator (Option) Pilot port 12(P1), 10(P2) Port size: refer to table below P1 P2 F G E A 32 B D J Main port 1(A) (Back side 2(B)) C A B Port size: refer to table below Main port 1(A), 2(B) Pilot port 12(P1), 10(P2) A B C D E F G H J Model VND50D-32A VND60D-40A VND70D-50A 1 8 1 4 1 4 1 4 1 2 1 1 2 105 120 140 77 96 113 53 60 74
C [dm3/(sbar)] b Cv C [dm3/(sbar)] b Cv VP517Y G3/8 8.8 0.14 2 8.2 0.15 1.8 VP717Y G1/2 13.8 0.11 2.9 12.9 0.18 2.9 2 VP500/700 Series Spacer Center of F.R.L. body D C B Model A B C D Y300-A 4.2 43.4 21.7 57.9 Y400-A 5.2 53 26.5 68.5 A (Spacer width) Seal Y400-A Spacer with Bracket D K Center of F.R.L. body J H F G E E C B Seal A (Spacer width) Y400T-A Model A B C D E F G H J K Y300T-A 4.2
0.5 0.6 0.7 F 200 V Black COM (0 V) G Shield Data A phase output pulse Connector pin arrangement B phase output pulse G A F B H E D C 0 1 2 3 4 3 2 1 Counter value 10-12-55
Decimal display Hexadecimal display 10 A 11 b 12 c 13 d 14 E 15 F Note 4) Applicable to non-magnetizing lock 47 Programless Controller (With Stroke Study) Series LECP2 LEMB LECP2 LECP1 LECP6 LEC-G LEMC LEMH/HT Model Selection Specific Product Precautions Controller Details e r No. Display Details Description t Power supply ON/Servo ON : Green turns on.
Lube Unit/ALDU600-06 to 10, ALDU900-12 to 20 Float switch mounting position Mounting thread M12 R 3.2 S 40 Q IN P M N M L A B C E E F G K J (Bracket mounting dimensions) H D S Bracket (Option) Panel (Option) 6 x 17 A B C D E F G H J K L M N P Q R S Model Port size ALDU600-06 ALDU600-10 ALDU900-12 ALDU900-14 ALDU900-20 289 291.2 453 453 476 24.5 13.6 51 45.5 14.5 69.5 78.2 89 94.5 102.5 4
This lowers the pressure in the diaphragm chamber q and the force generated by the pressure regulator spring e pushes down the diaphragm.
This lowers the pressure in the diaphragm chamber q and the force generated by the pressure regulator spring e pushes down the diaphragm.
Plug (Prepared by customer) L N E [Accessory] Power supply connector N E Earth leakage breaker (Secondary side) L N Cable Crimped terminal (Prepared by customer) E (Earth) L Cable size : 14AWG Wire tightening torque : 0.5Nm Fig. 3-5 Power supply cable 3.3 Installation HRS Series 3-10 HRX-OM-M090 Chapter 3 Transport and Setting Up Wiring 1.
signal power supply 24V 13 CAL 14 E-STOP *1 *1 When the air servo cylinder is operated, turn ON the E-STOP signal.
The end angular speed is obtained by: t Table 9 Allowable kinetic energy (J) Size Allowable kinetic energy : Rotation angle [ rad ] : Rotation time [ s ] 1 0.001 Kinetic energy E is obtained by: 2 0.0015 3 0.002 7 0.006 E Therefore, the rotary table rotation time is: E: Allowable kinetic energy [ J ] : Rotation range [ rad ] I: Moment of inertia [ kgm2 ] During uniform acceleration, the
e. f. -37- 6.5 (LEFBLEFS -(A) (-(B)) A B LEF16 M2.5x5 LEF16 M2.5x16 LEF25 M3x6 LEF25 M3x20 LEF32 M3x6 LEF32 M4x30 LEFS40 M3x6 LEFS40 M4x35 -38- 7. No. 1) 1 / /P30 4.