HRX-OM-O021 How to see the manufacturing code P O 001 January 2011 O O 001 Year Symbol Remarks Month Symbol Remarks Serial no. 2011 P Repeated from A to Z in alphabetical order 1 O Repeated from O to Z in alphabetical order, with O for January and Z for December 2012 Q 2 P 2013 R 3 Q Fig. 1-3 Position of product label 1.4.2 Earth Label Fig. 1-4 Earth label HRS Series 1.4 Other Labels 1-5 HRX-OM-O021
-D EMC (2004/108/EC) 6-1 18 40 VFS240R VFS210 AR425 8/6 AN200-02 AS4000-02 50 VFS240R VFS210 AR425 10/7.5 AN200-02 AS4000-02 63 VFS340R VFS210 AR425 12/9 AN300-03 AS4000-03 80 VFS440R VFS310 AR425 12/9 AN300-03 AS420-03 100 VFS440R VFS310 AR425 12/9 AN400-04 AS420-04 1m 6-2 6-3 (1)( ) (2) No.2()(CEU2 ) (3) (4) CEU2 19 7-1 () () ( 8 ) CE2 14.5mT CE2 15000 18cm 7-2 ()() A /B
5-02 individual sup spacer, vqz3000, VQZ3000 VALVE, SOL 4/5-PORT*** $13.22 Add to Quote Add To Cart Add to Cart, 0.62744 lb
5-02 individual sup spacer, vqz3000, VQZ3000 VALVE, SOL 4/5-PORT*** $13.22 Add to Quote Add To Cart Add to Cart, 1.54323 lb
5-02 individual sup spacer, vqz3000, VQZ3000 VALVE, SOL 4/5-PORT*** $13.22 Add to Quote Add To Cart Add to Cart, 2.04714 lb
5-02 individual sup spacer, vqz3000, VQZ3000 VALVE, SOL 4/5-PORT*** $13.22 Add to Quote Add To Cart Add to Cart, 1.3376 lb
Power consumption P: 20 [kW] Q = P = 20 [kW] Cooling capacity = Considering a safety factor of 20%, 20 [kW] x 1.2 = V: Power supply voltage P 24 [kW] Power consumption e Derive the heat generation amount from the output. Output (shaft power, etc.) W: 13 [kW] w Derive the heat generation amount from the power supply output.
Parenlneses CPA1 BN do Boot with Boot' BORE D E G'GB J K M MM N P H z.
Calculation example Message for BCC [STX] 01RPV1 [ETX] Calculation ASCII HEX [STX] 02 0 30 1 31 R 52 P 50 V 56 1 31 [ETX] 03 e 65 Code for EXOR from STX to ETX is BCC. Sending message [STX] 01RPV1 [ETX] e 5.7 Command Table 5.7-1 shows the commands which are supported by the product. No response is returned for a request message of a command which is not in Table 5.7-1.
Calculation example Message for BCC [STX] 01RPV1 [ETX] Calculation ASCII HEX [STX] 02 0 30 1 31 R 52 P 50 V 56 1 31 [ETX] 03 e 65 Code for EXOR from STX to ETX is BCC. Sending message [STX] 01RPV1 [ETX] e 5.7 Command Table 5.7-1 shows the commands which are supported by the product. No response is returned for a request message of a command which is not in Table 5.7-1.
Round Square embedded type Round Square embedded type G46-10-02 G36-10-01 1.0MPa Note 3) GC3-10AS Note 2) GC3-10AS GC3-10AS 1 4 1 8 1 4 Note 1) Pressure gauge G46-2-02 G36-2-01 G46-2-02 Set pressure + 0.05MPa (at relief flow rate of 0.1l/min(ANR)) 5 to 60C (With no condensation) 5m 0.2MPa Note 3) GC3-2AS GC3-2AS GC3-2AS Note 4) AD48 N.O.
220-02-F 320-03 (02) 320-03-F (02) 420-04 420-04-F 121F-M3 131F-M3 121F-M5 (U10, 32) 131F-M5 (U10, 32) 221F-01 231F-01 2211F-01-06 221F-02 231F-02 321F-03 (02) 331F-03 (02) 421F-04 431F-04 1000F 2000F 2050F 3000F 4000F 1001F 2001F 2051F 3001F 4001F 230F 330F 430F 530F 630F 330F 430F 530F 630F Manifold regulator 4-, 5-port solenoid valve VQ Directional control valves 0 1000 2000 4000 5000
Description Material AS800 AS900 y u i JIS B 2401 P-7 JIS B 2401 P-7 AQ NBR O-ring u O-ring O-ring Spring NBR NBR Stainless steel JIS B 2401 P-12 JIS B 2401 G-50 14115 JIS B 2401 P-16 JIS B 2401 G-65 14124 JIS B 2401 P-48 JIS B 2401 P-38 NBR O-ring ASV i AK ASS Dimensions: AS420/500/600 Dimensions: AS800/900 ASR ASF 2-Port size 2-Port size Dimensions Dimensions L1 L2 L4 Min.
Precautions FH150-02 to 04 q Mounting Confirm IN and OUT before mounting.
m P 0.1 x m + m P D 1.6 x D 5.0 x D 5.0 x m m mv P Pv m > mv P > Pv Determination of allowable load mass & pressure Inclined operation (Refer to page 8-16-8
NARM 2500 05 A 02 G1 Optimal for central pressure control. Accessory Regulator for manifold Pressure easily set using the new handle. One-touch lock system.
Note 2) Refer to p.5.3-5 for lead wire length.
The series and their stopping accuracy are as follows: CLJ series (p.3.1-10), CLM2 series (p.3.1-18), CLG1 (p.3.127), CLA series (p.3.1-35), and CL1 series (p.3.1-50). wWhen kinetic energy acts upon the cylinder, such as when effecting an intermediate stop: There are constraints in terms of the allowable kinetic energy that can be applied to the cylinder in a locked state.