SMC s VQ7-6/7-8 series valve conforms to ISO standard 5591/I. A choice of metal or rubber seal increases compatibility with various operating and environmental conditions. Manifolds are available with a wide range of interface options to meet a variety of application requirements. The VQ7-6/7-8 has a smaller, space-saving profile and is lighter in weight than the VS7/VP7 series.
SMC s VQ7-6/7-8 series valve conforms to ISO standard 5591/I. A choice of metal or rubber seal increases compatibility with various operating and environmental conditions. Manifolds are available with a wide range of interface options to meet a variety of application requirements. The VQ7-6/7-8 has a smaller, space-saving profile and is lighter in weight than the VS7/VP7 series.
SMC s VQ7-6/7-8 series valve conforms to ISO standard 5591/I. A choice of metal or rubber seal increases compatibility with various operating and environmental conditions. Manifolds are available with a wide range of interface options to meet a variety of application requirements. The VQ7-6/7-8 has a smaller, space-saving profile and is lighter in weight than the VS7/VP7 series.
SMC s VQ7-6/7-8 series valve conforms to ISO standard 5591/I. A choice of metal or rubber seal increases compatibility with various operating and environmental conditions. Manifolds are available with a wide range of interface options to meet a variety of application requirements. The VQ7-6/7-8 has a smaller, space-saving profile and is lighter in weight than the VS7/VP7 series.
SMC s VQ7-6/7-8 series valve conforms to ISO standard 5591/I. A choice of metal or rubber seal increases compatibility with various operating and environmental conditions. Manifolds are available with a wide range of interface options to meet a variety of application requirements. The VQ7-6/7-8 has a smaller, space-saving profile and is lighter in weight than the VS7/VP7 series.
CATALOG 1.5 67.3 12 92.8 13.5 19 21.9 6 RB2015 RBC2015 6 18.2 18 4 18 18 62.2 88.2 M20 x 1.5 73.2 18 105.2 17 27 31.2 6 RB2725 RBC2725 8 25.2 25 5 25 25 86 124 M27 x 1.5 99 25 147 23 36 41.6 6 D I M E N S I O N S C A P D I M E N S I O N S S T O P P E R N U T Dimensions Dimensions Parts No.
LEFS LEFB LEY LEYG LESYH LES LESH LEHF LER JXC51/61 JXC 1 LES25mEm Vertical Horizontal 6 6 Lead 8: LES25 EK 5 5 Lead 8: LES25 EK Work load [kg] Work load [kg] 4 4 3 Lead 16: LES25 EJ 3 Lead 16: LES25 EJ 2 2 1 1 0 0 0 100 200 300 400 500 Speed [mm/s] 0 100 200 300 400 500 Speed [mm/s] Cycle Time Graph (Guide) 1.80 100 mm/s 1.60 1.40 1.20 200 mm/s Time [s] 1.00 300 mm/s 0.80 0.60 0.40 400 mm
O.D size d D1 D2 D3 L1 L2 L3 M1 Weight AQ240F-04-00 4 9.5 8.9 10 39.3 5 14.1 13 4.2 B O D Y S I Z E AQ240F-06-00 6 11.5 11 10 43.9 6 15.2 14 5.2 AQ340F-06-00 6 11.5 11 11.8 45.2 6.3 20 14 10.4 2 M5 3 18 T U B E C O N N E C T I O N F Built-in One Touch Tube Connection OD S I Z E D I M E N S I O N S S E R I E S AQ240F/340F W I T H E X H A U S T TA K E O F F Metric 04 4mm 06 6mm Imperial 07
series For 6, 10, 15 4 x SS thread depth S (Helical insert thread) 4 x Counterbore dia.
L S S S S L L L L 6 9 6 9 6 9 6 9 6 9 IN IN IN 0.3 0.2 0.1 0.3 0.2 0.1 0.3 0.2 0.1 0.3 0.2 0.1 0.3 0.2 0.1 0 MPa 0.4 0 MPa 0.4 0 MPa 0.4 0 MPa 0.4 0 MPa 0.4 Right Right Left Bracket DIN rail mounting bracket DIN rail mounting bracket Stations 1 Stations 1 Stations 1 2 3 IISA2NSR-1B1 set (1 station manifold part number) ISA2-GE41P1 set (Air catch sensor part number) IISA2NPL-1D1 set (1 station
STO 13.1.6 (8) 13.2 STO (CN8) 13.2.1 STO CN8 2 1 4 3 STO1 S T OCOM 6 5 STO2 TOFB1 8 7 TOFB2 T OFCOM 13.
LEHZ 3 5mm/s LEHZ10 LEHZ16 LEHZ2025 LEHZ LEHZ 32 40 6 2(3) 6 3(4) 16 11 52 84 10 4 10 5.5 28 19.5 91 147 [N] 14 6 14 8 40 28 130 210 *LEHZ1016 30%F.S.LEHZ2025 25%F.S.LEHZ32 40 20%F.S. * (LEHZJ ) 53 No.JXC-OMU0004-A LEHF LEHF10 LEHF20 LEHF32 LEHF40 2] 2] 2] 2] [mm/s] [mm/s [mm/s] [mm/s [mm/s] [mm/s [mm/s] [mm/s 0 5 100 5 100 5 100 5 100 1 10 150 10 150 10 150 10 150 2 15 200 15 200 15
per square mtr Newton Earth acceleration m I m2 mt m s'' s ' m s-2 m2 kg N a,F,1-6,e.p A,S v v a) J F G = kg ' rn's'2 9.80665 m's-2 N Impulse Ns Newton Second w E , W E , W M P Work Potential energy Kinetic energy Torque Power Joule = Newton meter Joule Joule Joule Watt J J t ' J w = kg . m2's-2 0.5-m-i = J's-l 3.
per square mtr Newton Earth acceleration m I m2 mt m s'' s ' m s-2 m2 kg N a,F,1-6,e.p A,S v v a) J F G = kg ' rn's'2 9.80665 m's-2 N Impulse Ns Newton Second w E , W E , W M P Work Potential energy Kinetic energy Torque Power Joule = Newton meter Joule Joule Joule Watt J J t ' J w = kg . m2's-2 0.5-m-i = J's-l 3.
(Example) When Step Data No. 1 is used for a positioning operation: Recommended set value Set value for pushing speed = 6 (Thus, positioning speed of Return to Origin: 6 mm/s, Pushing speed for Step Data No. 1 positioning operation: 0 mm/s) 45 - (Example) When Step Data No. 1 (Step Data No. 0) is used for a pushing operation and the speed is set to 6 mm/s: Recommended set value Set value
6 6 6 zhi chi ON OFF ON OFF OU2 -30No.PF-OMS0001CN-A <>OUT1 [F 1] [oUt1][()] [oU1] [] [1ot] [] 32 33 34 36 -31No.PF-OMS0001CN-A a.
Manual override Nil: Nonockins push type 'oltage suppressor wrh ---'l ,hl wth sfige voftageJUepresd B: Lock ng iype (s oned) lD tr]]i\ -r1.LrF-r }pos lDn qhausl cn1er . t_tr-r fll, r-itr'Lt lir. ,L]! gpos ton pressure center ]]-trr\i rt it, rN !fT.",d""d_l I nuonerseat IIE t i r ; \ 1 . 1 r q t l 6. r': 6) G) ( : . : 6 ?
@S&S$S4i&eS'i8 32,a4 o r o o q q e .(Ni-n. A 6J 6 80' 100 , , 1 a ! Douoe b, : u rod -4t&S4+-&*--s-32,ao il])l]QA{ 50 63 80, i00 \ vunipte ,,,---] auto switch mounting options i Spr s _ E _ rlu'r, _s,S$$__-g'4-4_g-4i___ o.r' g " e n d ' ' " a ' . a o ; iN)co2 Non.rclating rod Sngle f0ll lN)crl2K 1 2 . 1 6 --*r-*-++---e-*-e-e+--?! i!
Without brake 5.8 t-_1 r l o l : r = tl-Model D F J K L N L X S H _ B _ 5 0 4 6 270 1 7 7 177 6 52 55 L X S H _ B _ . 7 5 4 6 295 202 202 6 47 65 LXSH B -1OO 8 320 227 227 6 47 75 LXSH B -125 4 8 70 345 252 252 6 4 7 85 T-slot A dimensions T-slot B dimensions LXSH _ B .150 6 I 370 277 277 8 47 65 $efie$ [)( tleclnh Arlualors 0inol|$im$ Slido $ffi||l Iy0[ LxsHnsE E;IEI9' With brake Brake electrical
-5-3 FIG. 5-4 DISPLAY -5-4 FIG. 5-5 RESERVOIR CAP -5-4 FIG. 6-1 COOLING CAPACITY OF HEC006 -6-3 FIG. 6-2 HEATING CAPACITY OF HEC006 -6-3 FIG. 6-3 PUMP CAPACITY OF HEC006 -6-4 FIG. 6-4 PRESSURE LOSS OF HEC006 -6-4 FIG. 6-5 COOLING CAPACITY OF HEC012 -6-5 FIG. 6-6 HEATING CAPACITY OF HEC012 -6-5 FIG. 6-7 PUMP CAPACITY OF HEC012 -6-6 FIG. 6-8 PRESSURE LOSS OF HEC012 -6-6 FIG. 9-1 ALARM INDICATION