Rotation range for block = 135 (195) Single flat Point zero Rotation range for block Max. 115 (Size: 10, 40) Max. 120 (Size: 15, 20, 30) Set range of Block Max. 115 (Size: 10, 40) Max. 120 (Size: 15, 20, 30) End r End w CRB2 End e Rotation range for block = 90 CRBU2 End q End w Single flat CRB1 End q (45) B port A port B port A port
across flat 14 (Hexagon) E 11 E 11 D E 11 3 3 3 3 3 3 M10 x 1 M10 x 1 M10 x 1 Q Q Q D D (F) (F) (F) P P P Width across flat 10 (Hexagon) Width across flat 10 (Hexagon) Width across flat 10 (Hexagon) S S S 31 8 31 8 31 14.9 14.9 14.9 R R R 6 6 6 M5 x 0.8 M5 x 0.8 M5 x 0.8 8 Y Y Y A A A C a a a C C b B 20 30 21 31 Dimensions Model Dimensions Model Dimensions a 3.5 4 5 6 A 4.5 5 6 7 b 7 B 8
VFS 1 4 S mount VV5F3-70 Individual Side Side plate Bottom Valve Top Valve 1 8 1 4 1 4 VF370 VS4 1 4 VV5F3-71 Individual Side Side plate Side Valve Side Valve 1 8 VF3170 (Single solenoid only) 1 4 1 4 1 4 VQ7 Note 1) Supply (P port) is common.
Porting Configuration V3 1 2 10 40 -0.1 to 0.2 MPa -0.1 to 0.7 MPa 0 to 1.5 MPa 0 to 7 MPa 0 to 28 MPa t w w q q 1) Other range available.
size (mm) W V U T O P S Z X Bore size (mm) Bore size (mm) Y R HR HN Q Y R Q 20 25 32 40 50 40 48 82 12 M6 x 1 depth 9 Rc 1/8 26 157 30 20 25 32 40 50 20 25 32 40 50 11 25.3 12 (14) 21 37 47.5 107 (115) 104 46 57 100 13 Rc 1/8 M6 x 1 depth 13 31 175 37 11 28.3 12 (14) 21 40 104 48 107 (115) 52 65 114 16 Rc 1/8 M6 x 1 depth 13 38 201 37 11 31.3 12 (14) 21 43 106 49 110 (118) 62 84 138 Rc 1
(mm) 02_o2 0 4 _ o 4 0 6 0 6 0 8 _ 0 8 10 _ o.10 1 3 @ 1 3 1 6 @ 1 6 20 @2O 25 _ a25 32 _ a32 40 s4O 50 o50 Pad dia. (mm) 02_o2 0 4 o 4 0 6 a 6 0 8 0 8 1 0 _ o 1 0 1 3 _ o 1 3 1 6 _ s 1 6 20 szo 25 o25 32 s32 40 s4O 50 650 Thread Dia. s2-sB o4(}o50 B4 M4 x 0.7 o B5 M5 x 0.8 o a Thread B6 M G x l a o B8 M8 x 1.25 o a 8 1 0M 1 0 x 1 . 2 5 o o .
27 27 32 41 1/4 1/4 1/4 1/4 1/4 1/4 1/4 1/4 1/4 1/4 8 11 11 13 16 96 108 115 129 140 27 32 32 37 37 44 52 64 78 92 15 17 17 21 21 60 70 86 102 116 16 20 20 25 30 26 27 26 30 31 32 40 40 52 52 54 59 67 72 76 10 10 10 14 14 10 13 18 23 25 85 95 102 113 124 10 12 15 17 19 25 to 500 25 to 600 32 to 600 41 to 750 45 to 750 25 to 500 25 to 600 32 to 600 41 to 750 45 to 750 M8 X 1.25 M8 X 1.25
(mm) 02_o2 0 4 _ o 4 0 6 0 6 0 8 _ 0 8 10 _ o.10 1 3 @ 1 3 1 6 @ 1 6 20 @2O 25 _ a25 32 _ a32 40 s4O 50 o50 Pad dia. (mm) 02_o2 0 4 o 4 0 6 a 6 0 8 0 8 1 0 _ o 1 0 1 3 _ o 1 3 1 6 _ s 1 6 20 szo 25 o25 32 s32 40 s4O 50 650 Thread Dia. s2-sB o4(}o50 B4 M4 x 0.7 o B5 M5 x 0.8 o a Thread B6 M G x l a o B8 M8 x 1.25 o a 8 1 0M 1 0 x 1 . 2 5 o o .
50 152 M8 x 1.25 depth 16 14 depth 10 M12 x 1.75 depth 21 50 45 150 22 21 25 11 90 170 56 120 152 37 115 194 103 50 55 182 M10 x 1.5 depth 20 M14 x 2 depth 25 17 depth 12 Long Stroke Bracket Mounting Stroke Bore size (mm) Stroke range (mm) Bore size (mm) Bore size (mm) Bracket mounting stroke Z Y X W V P U Y T R S O R Q 20 20 20 250 to 400 157 80 30 40 48 Rc 1/8 Rc 1/8 Rc 1/8 Rc 1/8 Rc 1/
Bolt 14.50.1 14.50.1 Manually unlocking Lock ring 1) Remove the dustproof cover. 2) Screw the commercially available bolt (M3 x 25 L or more) into the lock ring shown on the left and raise the lock ring toward the head side. 3) The lock ring and piston rod form a right angle, and the lock is released. (29) LOCK 27 Head side 70 D d 0 0.05 Q Q K SR C 120 45 15.5 14.5 26 (4) MK 8 to 10 14 14
9 #0 w #1 #0 t q e @9 #1 @1 !9 t @5 @6 @1 #0 q !1 w#1 #0 @2 @9 #1 @1 CX CY 40 to 63 MQQ M @0 @4 @8 i u o @3 !1 #1 #2 @8@4 !2 @7 !3 #3 r !4 e !6 @6 RHC MK(2) #7 #6 !5 RS Q G RS H A !9 @5 t @6 y #0 w @1 #0 #5 !7 #4 q @9@2 !8 #1 #2 !7 #5 #4 @1 RZQ MI W S CEP1 Component Parts CE1 No. No.
Symbol NPN output (+ COM) Nil EX510-S002B Stations N PNP output ( COM) EX510-S102B PWB U side D side COM 7 0 1 1 3 2 6 15 14 10-SS5Z3-60S6BD-05U (-Q)1 set (Type 60S6B 5-station manifold part no.) 10-SZ3160-5LOZ-C6 (-Q)2 sets (Single solenoid part no.) 10-SZ3260-5LOZ-C6 (-Q)3 sets (Double solenoid part no.) The asterisk denotes the symbol for assembly.
9 #0 w #1 #0 t q e @9 #1 @1 !9 t @5 @6 @1 #0 q !1 w#1 #0 @2 @9 #1 @1 CX CY 40 to 63 MQQ M 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 @0 @4 @8 i u o @3 !1 #1 #2 @8@4 !2 @7 !3 #3 r !4 e !6 @6 RHC MK(2) #7 #6 !5 RS Q G RS H A !9 @5 t @6 y #0 w @1 #0 #5 !
50 63 80 100 6 M8 X 1.25 14 30 27 60 22 96 1/8 1/8 44 10 29.5 16 32 10 85 15 52 16 12 12 10 8 15 to 500 7 M8 X 1.25 18 35 32 70 27 108 1/4 1/8 52 12 38 20 40 10 95 17 56.5 20 13 15 12 11 18 to 600 MXU 7 M10 X 1.25 18 35 32 86 27 115 1/4 1/4 64 16 49 20 40 10 102 17 67 20 18 12 15 11 25 to 600 11 M12 X 1.75 22 40 37 102 32 139 1/4 1/4 78 20 61 25 52 14 123 21 83 20 23 18 17 13 31.5 to 750
N.O. 24 VDC 12 VDC Type 42 7 Q Q Q Specifications Series SYJ300/500/700 Low Power Consumption 0.5 W Q Q Q Q Q SYJ300.pages 10-12 Q Q SYJ500.pages 13-15 Q SYJ700.pages 16-18 Q Q Q Specifications Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q 9 Series SYJ300 3 Port Solenoid Valve Valve Specifications Model Weight g Valve model Type of actuation Port
Monitor over range 0: disable, 1: enable 2 5 (Ch0&1 in) Monitor under range 0: disable, 1: enable 0: offset binary 1: signed magnitude 2: 2s complement 6..7 Data format Channel parameter Channel 0 to 1 0: -10..+10 V, 1: -5..+5 V, 2: -20..+20 mA, 3: 0..10 V, 4: 0..5 V, 5: 1..5 V, 6: 0..20 mA, 7: 4..20 mA 0..2 (Ch0 in) Analogue input range 3 Reserved 3 0: -10..+10 V, 1: -5..+5 V, 2: -20..+
6 7 7 11 11 M8 x 1.25 14 18 18 22 26 30 35 35 40 40 27 32 32 37 37 60 70 86 102 116 22 27 27 32 41 96 108 115 139 160 1/8 1/4 1/4 1/4 1/4 1/8 1/8 1/4 1/4 1/4 44 52 64 78 92 16 20 20 25 30 32 40 40 52 52 10 10 10 14 14 85 95 102 123 144 15 17 17 21 21 52 16 20 20 20 22 12 13 18 23 25 12 15 12 18 20 10 12 15 17 19 8 11 11 13 16 25 to 500 25 to 600 32 to 600 41 to 750 45 to 750 M18 x 1.5 M8
GB GC GD GL GL1 GR H1 P 1/4 3/8 3/8 1/2 1/2 M14 x 1.5 27 30 31 37 40 6 7 7 11 11 M8 x 1.25 14 18 18 22 26 30 35 35 40 40 27 32 32 37 37 60 70 86 102 116 22 27 27 32 41 96 108 115 139 160 1/8 1/4 1/4 1/4 1/4 1/8 1/8 1/4 1/4 1/4 44 52 64 78 92 16 20 20 25 30 32 40 40 52 52 10 10 10 14 14 85 95 102 123 144 15 17 17 21 21 52 16 20 20 20 22 12 13 18 23 25 12 15 12 18 20 10 12 15 17 19 8 11 11
Q = qm x C x (T2 T1) r x qv x C x iT 60 = 1 x 10 x 4.2 x 103 x 2.0 60 = Q = qm x C x (T2 T1) 860 = 1400 [J/s] 1400 [W] g x qv x 60 x C x iT 860 = Cooling capacity = Considering a safety factor of 20%, 1400 [W] x 1.2 = 1680 [W] 1 x 10 x 60 x 1.0 x 103 x 2.0 860 = qv: Circulating fluid flow rate Q: Heat generation amount Users equipment T2: Return temperature 120 [cal/h] 860 = Thermo-chiller