Body Size: 30, Thread: F (G), Port Size: 03 (3/8), Handle/Bonnet Material: B (Aluminum), Options: BS (w/Bracket + Built-in Silencer, EXH Port), Semi-Standard: R (Flow Direction: Right to Left), Made to Order: X1 (Body: Red)
Body Size: 30, Thread: G, Port Size: 3/8, Handle/Bonnet Material: Aluminum, Options: None, Semi-Standard: Handle Color, Black, Made to Order: Body: Red
Body Size: 30, Thread: F (G), Port Size: 03 (3/8), Handle/Bonnet Material: B (Aluminum), Options: None, Semi-Standard: K (Handle Color, Black), Made to Order: X1 (Body: Red)
Conforming to OSHA Standard Pressure Relief 3 Port Valve With Locking Holes Series VHS20/30/40/50 Pressure relief 3 port valve VHS20 VHS30 VHS40 VHS40-06 VHS50 IN OUT Spacer part no.
SA VA SA Model VHS20 VHS30 Effective sectional area (mm2) (Cv) 5 (0.27) 5 (0.27) Caution VA 3. Do not apply negative pressure. It may result in malfunction. 1. Install an air filter of 5 mm filtration on the inlet side. 2. Install a mist separator on the inlet side to remove carbon powder from the compressor or other equipment.
VH*-OMX0068-A PRODUCT NAME Pressure Relief 3 Port Valve with Locking Holes MODEL / Series / Product Number VHS20-(F,N)01~(F,N)02(-R,Z)-D VHS30-(F,N)02~(F,N)03(-R,Z)-D VHS40-(F,N)02~(F,N)04(-R,Z)-D Contents Page 1. Safety Instructions 1~5 2. Application 6 3. Specifications 6 4. How to Order 7~8 5. Construction / Parts List 9 6.
H 28 30 36 44 54 G 33 42 44 50 61 F 45 55 58 65 76 E 22 21 26 D 34 46 63 67 78 C 40 53 70 75 90 B 20 29 39 42 53 A 59 78 107 110 134 I 45 55 63 69 81 Model Piping port VHS20 VHS30 VHS40 VHS40-06 VHS50 1/8, 1/4 1/4, 3/8 1/4, 3/8, 1/2 3/4 3/4, 1 3
Ea = K E max Ea = 1x 0.11 = 0.11 Workpiece mounting coefficient K: Fig. (3) Can be used based on E = 0.088 Ea = 0.11 Max. allowable kinetic energy Emax: Table (1) Kinetic energy (E) Allowable kinetic energy (Ea) Load Factor 3 3-1 Load Factor of Load Weight Wa = K Wmax Workpiece mounting coefficient K: Fig. (3) Allowable load weight coefficient : Graph (1) Max. allowable load weight Wmax
CK1 C(L)K Transparent switch bracket improves visibility of indicator LED.
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 < = Possible to use by E=0.09 Ea=0.11 Kinetic energy (E) Allowable kinetic energy (Ea) < = 3 3-1 Load rate of moment Wa=K Wmax Work mounting coeficient K: Fig.3 Allowable load coeficient : Graph 1 Max.
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.
AC50 AC40 AC25 AC30 AC20 SMC Corporation of America 10100 SMC Blvd., Noblesville, IN 46060 www.smcusa.com VHS20 VHS30 VHS40 VHS50 SMC Pneumatics (Canada) Ltd. www.smcpneumatics.ca (800) SMC.SMC1 (762-7621) e-mail: sales@smcusa.com An interface part is required if a spacer or spacer with bracket shown in the table below is attached to a modular FRL.
N.C. 1 5 3 (K) (Y) 5 6 5 6 5 6 4 For single VQ110SLJ12-1 Negative COM: VQ110SNJ12-1 5 For double (latching) For double (double solenoid) on A side (K) (Y) 5 6 6 VQ110S (N)J13(B)-1 For 3P, dual 3 port on A side For double (double solenoid) on B side (K) (Y) 5 6 7 VQ111S (N)J14-1 For 3P, dual 3 port on B side Note) Nil: Standard B: Locking type manual override N: Negative COM specification
800) 258-9200-www.stevenengineering.com 105.4 K 3.55 cos + 2 (3.1 + Lo) sin 25 CX F: Drive (from slide block to position Lo) resistance force (kg) Lo: Distance from mounting surface to load center of gravity (cm) 178 K 4 cos + 2 (3.95 + Lo) sin up to 45 1 up to 60 0.9 up to 75 0.8 up to 90 0.7 Angle k 32 D361.9 K 5.7 cos + 2 (4.75 + Lo) sin Angle coefficient (k): k = [to 45 (= )] = 1,
9200-www.stevenengineering.com 120 K 6cos + 2 (3.4 + Lo) sin 25 CX F: Drive (from slide block to position Lo) resistance force (kg) Lo: Distance from mounting surface to load center of gravity (cm) 210 K 7cos + 2 (4.2 + Lo) sin Angle k to 45 1 to 60 0.9 to 75 0.8 to 90 0.7 32 D400 K 8cos + 2 (5.1 + Lo) sin Angle coefficient (k): k = [to 45 (= )] = 1, [to 60] = 0.9, [to 75] = 0.8, [to
I E = 48'Solsnoid Leads (24'STD) I e = Mounting Bs (AXT 33&11) II I F..tur"" D = Recessed non-locking manual operator F = Becessed non-locking manual operator and etectricat indicator light.' K = Recessed locking manual operator J = Recessed locking manual operator and electrical indicator light.'
+ BS 24V 0V BDH BDL BS+ BS 24V 0V BDH BDL CANH V+ 24V 0V V CANL CANH FG V+ Slave unit 75 Slave unit 03 Slave unit 01 Master unit With terminal resistor connector S2 S1 S2 S1 S2 S1 S2 S1 Master unit V BDH SD FG SD FG SD FG SD FG CANL Twisted pair wire with shield FG BDL Class 3 ground Class 3 ground Class 3 ground Class 3 ground CANH V+ Connect the shielding wire to the SD terminal.
24 66 to 400 110 104 LJ1H102NH-K 28 70 to 400 LJ1H202PA-K 34 76 to 500 112 106 LJ1H202NA-K 38 80 to 500 LJ1H102PB-K 26 68 to 600 145 110 104 LJ1H102NB-K 30 72 to 600 LJ1H202PF-K 32 74 to 250 112 106 LJ1H202NF-K 36 78 to 250 LJ1H303PA-K 40 82 to 500 114 108 LJ1H303NA-K 42 84 to 500 Page Standard stroke (mm) and Speed (mm/s) Nonstandard motor Model Standard motor Deflection 100 200 300
ends) Note: Minimum impact velocity tor PM nlodels it 4 itr/*c. 9k**k &"bs*rbers Non-Adjustable Hydraulic Series 49rc.