CXT Operating pressure P (MPa) P 0.7 MPa MTS 4.
-X 20Front mounting flange Data 2-P R Y + Stroke Y R P Bore size (mm) 20 88 14 Rc 1/8 25 88 14 Rc 1/8 32 90 14 Rc 1/8 40 101 15 Rc 1/8 50 116 16 Rc 1/4 Dimensions other than the above are the same as those on pages 8-22-14 to 8-22-25. 8-22-7 8 Series MGC Slide Bearing Allowable End Load and Deflection MGCM20Stroke -R MGCM25Stroke -R MGCM32Stroke -R (Slide bearing type) (Slide bearing type
6 M1L032-17A82077C C-7 P-6 M1L040-17A82078C C-9 P-8 Anodized Nickel plated Hard anodized Chromated Chromated (25 only) 9-14-10 11 Series ML1C Mechanically Jointed Rodless Cylinder with Brake Hy-rodless Cylinder Proper Auto Switch Mounting Position (Detection at stroke end) D-E7A, D-E80A D-M5 D-M5W D-M5TL Lead wire clamp Auto switch Lead wire cap Lead wire clamp Auto switch Lead wire cap CL
mm Displayable/Settable range (Distance reference) *1 0 to 60 *4 10 to 300 *4 30 to 500 *4 Minimum display unit (Distance reference) *1 1 Rated pressure range 100 to 200 kPa Displayable range (Pressure value) *2 20 to 220 kPa Withstand pressure 600 kPa Detection nozzle 1.5 *3 Consumption flow rate 5 L/min or less 12 L/min or less 22 L/min or less Power supply voltage 24 VDC 10%, Ripple (p-p
Plug: Without check valve Socket: Without check valve KKA4S-02M-1 KKA4P-02M-1 40.2 KKA KKA KKA6S-04M-1 KKA6P-04M-1 76.0 KP How to Order LQ KKA 4 P M 02 MQR Built-in check valve Body size With check valve Nil -1 Socket/Plug designation 1/8 1/4 1/2 3/4 1 1 1/4 3 4 6 7 8 9 T Without check valve P S Plug Socket Note) KKA7/8/9 is not available without a check valve.
V: Power supply voltage Power consumption P: 7 [kW] Q = P = 7 [kW] P Cooling capacity = Considering a safety factor of 20%, 7 [kW] x 1.2 = 8.4 [kW] Power consumption w Derive the heat generation amount from the power e Derive the heat generation amount from the output. supply output. Output (shaft power etc.)
V: Power supply voltage Power consumption P: 7 [kW] Q = P = 7 [kW] P Cooling capacity = Considering a safety factor of 20%, 7 [kW] x 1.2 = 8.4 [kW] Power consumption w Derive the heat generation amount from the power e Derive the heat generation amount from the output. supply output. Output (shaft power etc.)
V: Power supply voltage Power consumption P: 20 [kW] Q = P = 20 [kW] P Cooling capacity = Considering a safety factor of 20%, 20 [kW] x 1.2 = 24 [kW] Power consumption w Derive the heat generation amount from the power e Derive the heat generation amount from the output. supply output. Output (shaft power etc.)
V: Power supply voltage HRSH 090 HRSH 090 Power consumption P: 7 [kW] Q = P = 7 [kW] P HRSH Cooling capacity = Considering a safety factor of 20%, 7 [kW] x 1.2 = 8.4 [kW] Power consumption HRSE w Derive the heat generation amount from the power e Derive the heat generation amount from the output. HRZ supply output. Output (shaft power etc.)
D-SMC, P-63 (M) 2nd printing September 1996. D-SMC, P-59(YG) March 1997. 29(YG) Printed in Japan.
P tight screw (4 x 14), 2 pcs. EX600-ZMA3 (Specified for SY series) Enclosed parts: Round head screw (M4x20) with washer, 1 pc. P tight screw (4 x 14), 2 pcs. (3)Intermediate support bracket EX600-ZMB1: For direct mounting Enclosed parts: Round head screw (M4 x 5), 2 pcs.
P Registration of the PID (Product ID) of the Wireless Remote unit to be connected to the Wireless Base unit. Registration occurs at the initial setting, then wireless system will activate. Paring PID Abbreviation of Product ID. A 32 bit digit sequence which is assigned to identify the wireless unit (Base/Remote unit). PLC Abbreviation of Programmable Logic Controller.
P Registration of the PID (Product ID) of the wireless slave unit to be connected to the wireless master unit. Registration occurs at the initial setting, then wireless system will activate. Paring PID Abbreviation of Product ID. A 32 bit digit sequence which is assigned to identify the wireless unit (master/slave unit). PLC Abbreviation of Programmable Logic Controller.
P Registration of the PID (Product ID) of the wireless slave unit to be connected to the wireless master unit. Registration occurs at the initial setting, then wireless system will activate. Paring PID Abbreviation of Product ID. A 32 bit digit sequence which is assigned to identify the wireless unit (master/slave unit). PLC Abbreviation of Programmable Logic Controller.
P Registration of the PID (Product ID) of the wireless slave unit to be connected to the wireless master unit. Registration occurs at the initial setting, then wireless system will activate. Paring PID Abbreviation of Product ID. A 32 bit digit sequence which is assigned to identify the wireless unit (master/slave unit). PLC Abbreviation of Programmable Logic Controller.
Please refer P 8-4 for how to mount. 9. Refer to Fig. 8-6 to mount the plug to the piping of the product.
No. )0 ,+O H C 29 - # 0 0 P R [CR] No.
Connect head cover tubing wisely with consideration of surrounding conditions. 15
Driving Direction Left Right
JMHZ2-16D-X7400B-ASSISTA(-P) mm 16 MPa 0.1~0.7 (oC) -10~50 (mm) 0.01 (c.p.m.) 120 32.7 (N) 43.5 (mm) 10 (g) 680 D-M9(N/P)-5 ISO9409-1-31.5-4-M5 (www.smcworld.com)JMHZ2 Series P .15 M12 8 6 - 3-2. 2 1 F 7 - 3-3. H 8 - 3-4. () P11P12P13 8 8 4 27 17 9 - 3-5. M12 8 () PIN 1 GND DC0V 2 +24V DC24V 3 ON/OFF 4 ON/OFF 5 6 7 8 3-6.
M6x23 D-M9(N/P)-5 M3X7 JMHZ2-16D M-5ALHU-2 2 KQ2S04-M5N ASN2-M5-X937 :3x6 3 V114-5LU M4x25 ISO9409-1 6x10 M8-Molex M6x10 M6x10 6x10 5 - 3 3-1. JMHZ2-16D-X7400B-HC10 MOTOMAN-HC10 JMHZ2-16D-X7400B-HC10DT MOTOMAN-HC10DT 6 - 3-2.