Base Mounted Type, VQ5000 Series, 5 Port Metal Seal/Rubber Seal Solenoid Valve (mm) 1in 25.4mm Bottom port diagram 2-G3/4 Conduit port 2n-1/2 (ports A, B) 144.5 143 112.5 83.5 55.5 M5 ground screw 106 59.2 46.8 9 9 34.5 34 n U side 12 X B 2 A 4 6 B A B 2 A 4 5 B A B 2 A 4 SMC SMC SMC SMC 4 B A L2 L1 58.5 P=41 B 2 A 4 3 B A B 2 A 4 2 B A 34.5 48 68.5 P=41 B A 4 1 B A 2 X 12 Stations D side 42 16 107.8 179 15.5 22 51 69 117 2-1/8 (external pilot port) L n Dimensions
F Nil Rc G N T NPT NPTF Brackets are not installed.
Material N N B R S Silicone rubber u urethane rubber F Fluorine rubber GN Conductive NBR (s2-o 16) GS Conductive silicone (s2-o16) Material N N B R s silicone rubber u _ urethane rubber F Ftuorine rubber GN Conductive NBR (o2-o16\ GS Conductive silicone (@2-@'16) Pad type (application: Refer to list O) U Flat type c Ftat with rib D Deep type B Bellows type Pad type U Flat type c _ Flat vYith
Note 1) The positions of piston rod width across flats (right side) are not constant. 588 Compact Cylinder: Anti-lateral Load Type Series CQSS 12, 16, 20, 25 How to Order B S 30 20 C D CQS M9BW B D 20 30 C S CDQS With auto switch Made to Order Refer to page 590 for details. With auto switch (Built-in magnet) Number of auto switches Nil S n Mounting style B L F G D 2 pcs. 1 pc. n pcs.
C9 Adjustable Stroke Return Piston Rod * C10 Dual Operation/Double Piston Rod * C11 Dual Operation/Single Piston Rod * C12 Tandem Cylinder* * (Contact SMC Customer Service) M O U N T I N G / S I N G L E R O D O N LY EA EB F G M N X D E C L S O R P U J T B BA BB BC ME3 Head Square Mount (8 to 14) ME4 Cap Square Mount (8 to 14) MF1 Front Flange (1.5 to 6) MF2 Rear Flange
n: Station Formula L1 = 87 x n + 83 L2 307 394 481 568 655 742 829 916 1003 L2 = 87 x n + 133 Model 2 257 3 344 4 431 5 518 6 605 7 692 8 779 9 866 10 953 L L1 VVPA450 L3 L4 356 464 572 680 788 896 1004 L4 = 108 x n + 140 L3 = 108 x n + 90 306 414 522 630 738 846 954 VVPA460 ( ) for VVPA460 5-3-30 1 4/5 Port Air Operated Valve Series VSA420 Model Flow characteristics P A/B A/B EA/EB
>Aiv EJ E) =:-:H8 I 10 l 1 I : i/b.a $n a ltfllon!. @nl6l t dory. DITENSIONS A B c D E F o H J t( T N o P B s r u 3.43 (87) 2.
MHZ16-PS MHZ-A1602(N) MHZ20-PS MHZ-A2002(N) MHZ25-PS MHZ-A2502(N) MHZ32-PS MHZ-A3202 MHZ-A3202-1 MHZ-A3202-2 MHZ-A3202-3 -X MHZ2-(N) MHZ2-(N)1 MHZ2-(N)2 MHZ2-3 MHZ-A1002(N)-1 MHZ-A1602(N)-1 MHZ-A2002(N)-1 MHZ-A2502(N)-1 Finger assembly Mounting screw MHZ-A1002(N)-2 MHZ-A1002-3 MHZ-A1602(N)-2 MHZ-A1602-3 MHZ-A2002(N)-2 MHZ-A2002-3 MHZ-A2502(N)-2 MHZ-A2502-3 MRHQ MHZ2-D MHZ2-S MHZ2-C MHZ2-
C9 Adjustable Stroke Return Piston Rod * C10 Dual Operation/Double Piston Rod * C11 Dual Operation/Single Piston Rod * C12 Tandem Cylinder* * (Contact P/A Customer Service) M O U N T I N G / S I N G L E R O D O N LY EA EB F G M N X D E C L S O R P U J T B BA BB BC ME3 Head Square Mount (8 to 14) ME4 Cap Square Mount (8 to 14) MF1 Front Flange (1.5 to 6) MF2 Rear Flange
Flow Characteristics SJ2000 Flow characteristics Port size 4/23/5 (A/BE) 12/4 (PA/B) 1(P) 3/5(E) 4, 2 (A, B) C [dm3/(sbar)] C [dm3/(sbar)] Cv b b Cv 0.04 0.55 0.13 0.13 0.50 0.04 C2 C8 0.08 0.16 0.33 0.36 0.13 0.08 C4 0.52 0.06 0.18 0.20 0.29 M3 0.06 SJ3000 Flow characteristics Port size 4/23/5 (A/BE) 12/4 (PA/B) 1(P) 3/5(E) 4, 2 (A, B) C [dm3/(sbar)] C [dm3/(sbar)] Cv b Cv b 0.04 0.56 C2
Width across flats KA ~\, -t n I E ~ I='" "r\ f'iiI .J ... " UJ o o ) ~ L::: ~ ::;: "" ~E ~ ~ c Cl DC N f I-A _ K F _ L{ ~M [T D B " m :Jl Cl (mm) c.
1 1 4 / 1 1 0 0 9 F L A N 4 9 . 3 ) 0 0 1 ( 6 5 . 3 1 ) 5 . 4 4 3 ( 8 4 . 2 ) 3 6 ( 2 r o t u b i r t s i D 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
) the conditions under which the workpiece will not drop are n x F > mg and therefore, F F mg F > n x m x g With a as the safety margin, F is determined as follows: a x mg F = n x MHZ MHF Multiples of Gripping Force by Workpiece Mass MHL Number of fingers: When n = 2 SMC performs calculations allowing for impacts which occur during normal transfer, etc., using a safety margin of a = 4.
>Aiv EJ E) =:-:H8 I 10 l 1 I : i/b.a $n a ltfllon!. @nl6l t dory. DITENSIONS A B c D E F o H J t( T N o P B s r u 3.43 (87) 2.
Model Opening/ Closing stroke (Both sides) (mm) Gripping force (1) Bore size (mm) Gripping force per finger Effective value (N) Weight (2) (g) Action Model External Internal MHZ2-6D MHZ2-10D (N) MHZ2-16D (N) MHZ2-20D (N) MHZ2-25D (N) MHZ2-32D MHZ2-40D MHZ2-6S MHZ2-10S (N) MHZ2-16S (N) MHZ2-20S (N) MHZ2-25S (N) MHZ2-32S MHZ2-40S MHZ2-6C MHZ2-10C (N) MHZ2-16C (N) MHZ2-20C (N) MHZ2-25C (N) MHZ2
9@0@1 Seal kit MHZ2-(N) MHZ2-(N)1 MHZ2-(N)2 MHZ2-3 MHZ2-D MHZ2-S MHZ2-C MHZ2-DW MHZ2-K MHZ2-M MHZ2-E rty!1!3 Mounting screw MHZ-A1002(N)-1 MHZ-A1602(N)-1 MHZ-A2002(N)-1 MHZ-A2502(N)-1 Finger assembly MHZ-A1002(N)-2 MHZ-A1002-3 MHZ-A1602(N)-2 MHZ-A1602-3 MHZ-A2002(N)-2 MHZ-A2002-3 MHZ-A2502(N)-2 MHZ-A2502-3 MHZ-A4003 MHZ-A3203 MHZ-A1003 MHZ-A1603 MHZ-A2003 MHZ-A2503 Piston assembly wo!0!
Same side Same side 110C K Heat resistant tarpaulin D-C7 D-C8 D-H7 D-H7W D-H7BAL D-H7NF D-C73C D-C80C D-H7C 15 50+45(n2) 50 10 Max. ambient temperature for rod boot n2 2 15+45( ) (n=2, 4, 6) 15 60+45(n2) 60 10 n2 2 15+50( ) (n=2, 4, 6) 15 65 10 65+50(n2) n2 2 20+50( ) (n=2, 4, 6) D-H7LF 20 65 10 n2 2 D-B5 D-B6 15+50( ) (n=2, 4, 6) 15 75 10 75+55(n2) n2 2 20+50( ) (n=2, 4, 6) D-B59W 20 75
M6 x 1 depth 11 M5 x 0.8 depth 9 26-0.033 0 1/4 1/8 1/8 26-0.033 0 27 22 11 8 21.5 15 9 7 M8 x 1.25 depth 14 M6 x 1 depth 11 8 22 27 Series CBM2 10-/1121-/22Cylinder with end lock/ 20, 25, 32, 40 (Head side lock) How to Order Clean series 10 11 Relief type Vacuum suction type 10 C D B M 2 B 20 100 H N H7B 21 C D B M 2 B 20 100 H N H7B Nil Built-in magnet No Number of auto switches D With
D-C7 D-C8 D-C73C D-C80C D-H7 D-H7C D-H7W D-H7BAL D-H7F D-A7/A8 D-A79W Bore B A B A B A B A B A 2 (8.5) B 2 (0.5) A 1 (7.5) B 1 (0) A 6 0 0.5 0 0.5 3 3.5 3 3.5 3.5 4 3.5 4 7.5 8 7.5 8 0.5 1 0.5 1 10 16 2.5 3 2.5 3 1.5 2 1.5 2 ( ) in the table: In case of double rod style, series CJ2W.
Load rate Ea= K E max Ea=1 0.11=0.11 Work mounting coeficient K: Fig.3 Max. allowable kinetic energy Emax: Table 1 Kinetic energy (E)Allowable kinetic energy (Ea) Possible to use by E=0.0 3 3-1 Load rate of work Calculate static work Wa (N) Wa=1 X 1 X 4=4 K=1 b=1 Wmax=4 a1=1/4=0.25 Wa=K b Wmax Work mounting coeficient K: Fig.3 Allowable load coeficient b: Graph 1 Max.