Soft Start-up Valve Spacer with bracket (YT-D) Spacer (Y-D) Connecting Spacer for Modular Type F.R.L. Unit Series AV2000-A AV3000-A AV4000-A AV5000-A Spacer Y200-D Y300-D Y400-D Y600-D Spacer with bracket Y200T-D Y300T-D Y400T-D Y600T-D Applicable model AC20-D AC30-D AC40-D * AC50-D AC60-D * Except port size 06. Note) AV-A series can be connected to AC-A, B series.
MH*-OMM0056 MHS2-D MHS3-D MHS4-D MHSJ3-D MHSH(J)3-D 1. 23 2. 2-1. 45 3. 3-1. 6 3-2. 67 3-3. 713 3-4. 13 3-5. 14 3-6. 14 3-7. 14 4. 4-1. 14 4-2. 1518 4-3. 1922 4-4. 2326 1 [ ][][] ISO4414*1)JISB8370*2) 1) ISO4414Pneumatic fluid power-Recommendations for the application of equipment to transmission and control systems. 2) JIS B8370 2 1. 2. 3. 4. 3 2 2-1 MHS2 MHS2 -16D MHS2 -20D MHS2 -25D
140.5 LVR50-V19 22 80 120 169 C F E Breathing port M5 x 0.8 J Tube extensions 4 x 7 Mounting hole 1/8 (Rc, NPT) Pilot port A H D B G Breathing port M5 x 0.8 Model A B C D E LVR20-T07(06) 40 40 49.3 68 20.1 LVR40-T11(10) 82.5 82.5 89 115 33 IN C F Model F G H J K LVR20-T07(06) 8 27 56 33.5 126.2 LVR40-T11(10) 14 64.5 100 40 183.3 E K J J Breathing port M5 x 0.8 5 Applicable Fluids Regulator
2 Compact Cylinder: Standard Type Double Acting, Single Rod Series CQ2 12, 16, 20, 25, 32, 40, 50, 63, 80, 100 How to Order Without auto switch B 20 30 D CQ2 B 20 30 D J79W S CDQ2 With auto switch Built-in magnet Number of auto switches Mounting style 2 pcs. 1 pc. n pcs.
145 23 400mm or more 350 to 1300 410 131 66 128 143 262 40 110 19 40 145 23 500mm or more 20
] 1000 32 32 25 25 1000 5 5 500 500 0 0 0 10 20 30 40 0 10 20 30 40 Circullating fluid temperature [] Circulating fluid temperature [] 50Hz 60Hz Fig 9-11 Heating capacity (HRR050-A/W-20-) 9.5.2 HRR050-A/W-402000 2000 Ambient temp Ambient temp 1500 1500 Heating capacity[W] Heating capacity[W] 40 40 32 32 25 25 1000 1000 5 5 500 500 0 0 0 10 20 30 40 0 10 20 30 40 Circulating fluid temperature
l i O l e d o M s t e l t u o l i o f o r e b m u N k r a m e R 4 A V 4 s d n e h t o B 6 A V 6 s d n e h t o B Dimensions/Auto feed tank 0 1 A V 0 1 s d n e h t o B 6 1 A V 6 1 s d n e h t o B 4 B V 4 e d i s e n O 6 B V 6 e d i s e n O 8 B V 8 e d i s e n O s n o i t a c i f i c e p S h c t i w S t a o l F n o i t p i r c s e D 2 ~ 1 0 1 4 S I y t i c a p a C W 5 1 : C D , A V 5 1 : C A
l i O l e d o M s t e l t u o l i o f o r e b m u N k r a m e R 4 A V 4 s d n e h t o B 6 A V 6 s d n e h t o B Dimensions/Auto feed tank 0 1 A V 0 1 s d n e h t o B 6 1 A V 6 1 s d n e h t o B 4 B V 4 e d i s e n O 6 B V 6 e d i s e n O 8 B V 8 e d i s e n O s n o i t a c i f i c e p S h c t i w S t a o l F n o i t p i r c s e D 2 ~ 1 0 1 4 S I y t i c a p a C W 5 1 : C D , A V 5 1 : C A
Nil C 0.4 to 4 l/min 1.8 to 20 l/min 4 to 40 l/min 04 20 40 The cable and connector are shipped unassembled.
. 9-2 9.1.3 HRS090-A-46. 9-3 9.1.4 HRS090-W-20. 9-4 9.1.5 HRS090-W-40. 9-5 9.1.6 HRS090-W-46. 9-6 9.1.7 Refrigerant with GWP reference . 9-7 9.1.8 Communication specification . 9-7 9.2 Outline dimensions . 9-8 9.2.1 HRS090-A-20/40/46-. 9-8 9.2.2 HRS090-W-20/40/46-. 9-9 9.3 Flow diagram . 9-10 9.3.1 HRS090-A-20/40/46-. 9-10 9.3.2 HRS090-W-20/40/46 . 9-10 9.4 Cooling capacity . 9-11 9.4.1 HRS090
Configuration One thermo-chiller for one controller. 2 2 R D R D 3 3 S D S D 5 5 S G S G Controller Master This product Do not connect any wire to other PIN numbers. Fig. 3-13 Connection of RS-232C 3.3.10 Ethernet Modbus/TCP Communication wiring This product can operate the following by Ethernet Modbus/TCP communication.
Min. 60 5 (1) 40 5 40 40 5 5 (2) Note 1) Dew point: 5C or less Note 2) 500cSt or less Note 3) "V" in the parenthesis is option symbol. Options Material Tightness of Valve(Leakage) No. Description Standard Brass (Base is aluminum.)
20 10 0 100 Suction flow [L/min(ANR)] Air consumption [L/min(ANR)] Vacuum pressure Vacuum pressure [kPa] Vacuum pressure [kPa] 80 60 Suction flow 40 20 Air consumption 0 0 10 20 30 40 Supply pressure [MPa] Suction flow [L/min(ANR)] ZHP-10 ZHP-10 (Supply pressure: 0.35 MPa) 100 90 80 70 60 50 40 30 20 10 0 0 0.1 0.2 0.3 0.4 0.5 0.6 100 90 80 70 60 50 40 30 20 10 0 100 Suction flow [L/min(
RESET SVON <> <>(M24V) (01-145) RESET SVON D <> <> <> RESET SVON (01-146) D <> -65- <> <>(C24V) RESET SVON (01-147) D <> <> <> (01-148) RESET SVON D <> <> (01-149) D RESET SVON <> () Communicati on error. (01-150) D RESET SVON <> (01-192) E <> <> <> ON(SVONON) (01-193) E <>ON(SVON ON) <> Output current limit is exceeded set value (01-194) Over current
) (1-145) RESET SVON D (1-146) RESET SVON D (C24V) (1-147) RESET SVON D 63 - (1-148) RESET SVON D (1-149) RESET SVON D () (1-150) RESET SVON D (1-192) E ON(SVON ON) (1-193) E ON(SVON ON) (1-194) E (1-195) E E EEPROM (1-197) E (EEPROM 10 ) CPU (CPU ) CPU (1-198) CPU E 64 - Revision history No.JXC-OMT0028CN 2018 3 4-14-1, Sotokanda, Chiyoda-ku, Tokyo 101-0021 JAPAN
ISO Interface Solenoid Valve/SIZEq Metal Seal SeriesVS7-6 Single solenoid (FG-S) Double solenoid (FG-D) Reverse pressure (YZ-S) Reverse pressure (YZ-D) 2 position 3 position SV SY VS7-6-FPG-D Closed centre (FHG-D) Exhaust centre (FJG-D) Double pilot check (FPG-D) Pressure centre (FLG-D) SYJ SX VS7-6-FHG-D Option VK Standard Specifications 5 to 60 oC 0.1 to 1.0MPa Air/lnert gas Fluid Operating
Pump Capacity HRS100/150-Am-20/40-m HRS100/150-Wm-20/40-m 0.5 50 Circulating fluid pressure [MPa] HRS Circulating fluid outlet (60 Hz) Usable range (50 Hz) 0.4 40 HRS 090 Pump head [m] 0.3 30 Usable range (60 Hz) HRS 100/150 HRS 100/150 Circulating fluid outlet (50 Hz) 0.2 20 HRSH 090 Circulating fluid return port 0.1 10 HRSH 0 0 0 10 20 30 40 50 60 70 HRSE Circulating fluid flow rate [L
: G1/2 Pilot port Manual override (Non-locking) Courtesy of Steven Engineering, Inc.-230 Ryan Way, South San Francisco, CA 94080-6370-Main Office: (650) 588-9200-Outside Local Area: (800) 258-9200-www.stevenengineering.com 4 x 2-18 mouting hole Applicable flange Pilot port Rc A Model L K J H F E D C B VNC5-32F VNC6-40F VNC7-50F 1 8 1 4 1 4 32 40 50 278 293.5 317.5 310.5 326 350 12 12 14 36
To find the stroke time (t), follow arrow from your stroke length ("L") to the solid line representing the load ratio (d%) for the application then up to the stroke time (t). To find the ending cylinder speed (u), follow arrow from your stroke length ("L") to the dotted line representing the load ratio (d%) then down to the ending cylinder speed (u).