HRX-OM-X037 P.5-12 (16) CH2 Independent pump operation CH2 pump operates independently while the button is pressed. P.5-12 To select a operation mode from the touch panel ( mode), contact input ( mode) (17) Operation mode P.5-12 Common or serial communication ( mode). (18) Operating condition display It indicates the run and stop status of the product. P.5-12 (19) Run/Stop To run/stop the product.
Calculation D n W P t : Vacuum pressure (kPa) : Safety factor horizontal lifting: 4 or more vertical lifting: 8 or more : Pad diameter (mm) : Number of pads per workpiece : Lifting force (N) D = x x x t x 1000 1 P 4 3.14 W n Selection Graph After establishing the workpiece weight, number of pads to be used, and the vacuum pressure when adsorbing the workpiece, the pad diameters for horizontal
Parenlneses CPA1 BN do Boot with Boot' BORE D E G'GB J K M MM N P H z.
2 121 106 L L1 L2 S070 With mounting adaptor: VV317-02-1-02-A VQ 4-7 mounting hole P = 46 VKF VQZ VZ Manual override (Non-locking) VS DIN terminal facing upward 141.6 VFN Applicable cable O.D. 6 to 12 L Dimension n: Stations Stations Formula L1 = 46 x n + 89 L2 = 46 x n + 59 2 181 151 3 227 197 4 273 243 5 319 289 6 365 335 7 411 381 8 457 427 9 503 473 10 549 519 L L1 L2 4-7-15 16 Series
ZM V A C U U M E J E C T O R (N)ZM D I M E N S I O N S W I T H VA C U U M S W I T C H D I M E N S I O N S B A S I C T Y P E N O Z Z L E D I A M E T E R 05 0.5mm 07 0.7mm 10 1.0mm 13 1.3mm T Y P E 2 Body Ported 4 Manifold Type-Common SUP 6 Manifold Type-Individual SUP S U P P LY P R E S S U R E H 5 Bar M 3.5 Bar P O R T T H R E A D Nil PT* Remove (N) when ordering T NPTF S W I T C H E S Model
Water Air Oil Low vacuum (1 Torr) Coolant Steam Applicable fluid 1 8 1 4 3 8 1 2 3 4 Rc(PT) 1 Port size 1 4 1 1 2 1 2 32A 40A 50A Flange 65A 80A Page P.4.2-3 to P.4.2-10 P.4.2-11 to P.4.2-18 P.4.2-19 to P.4.2-27 P.4.2-28 to P.4.2-34 P.4.2-35 to P.4.2-42 4.2-2 2 Port Valve for Comressed Air and Air-hydro Circuit Control Process Valve SeriesVNA Universal 2 Port Valve Exclusively for air pressure
a ] [ M P a ] PF3W540 PF3W511() [ M P a ] [ M P a ] PF3W521() [ M P a ] -33No.PF-OMN0009CN-F PF3W511(PVC ) PF3W521(PVC ) [ M P a ] [ M P a ] -34No.PF-OMN0009CN-F PF3W504/520/540 PF3W504S/520S/540S [MPa] [MPa] [ M P a ] [ M P a ] a] [MP a] [MP PF3W511() PF3W521() PF3W511/521(PVC ) [MPa] [ M P a ] [ M P a ] a] [MP [MPa] a] [MP -35No.PF-OMN0009CN-F IN 3F.S.8 cm (100 L/min 11 cm
n Auto switch Bore size/Stroke (mm) Without auto switch (Built-in magnet) Refer to p.3.8-10 for common specification and wire specification.
These revolutionary products, whether simple or complex, provide P/A customers with superior performance and availability at a very affordable cost.
Note 13) When D is selected, select P for (8) Options for the single unit model. Cannot be selected when (4) Wiring is N.
S O P Q R With arm: MK -N 12 16 11 MKB12-N MKB16-N N 8 8 29 20 4 M3 x 0.5 18.5 11 36 25 5 M4 x 0.7 21.5 O P Q R thread 8 to 18 S 20, 25 F E Oh9 0.1 100.2 25 L 2 x M5 x 0.8 (Piping port) M8 x 1.25 Effective thread depth 11 12 U K 2 x 5.5 through 2 x 2 x 9 counterbore depth 7 S 3 5.5 L K C 2 x 3.3 depth 3 +0.15 +0.05 R + Clamp stroke 3 4 B Q + 2 x Clamp stroke A Both ends tapped: MKA M6 x 1.0
mode] In the 3 step setting mode, the set value (P or n) and hysteresis (H) can be changed.
62 5.5 48 30 31 1 90 74 44 22 135.9 144.5 151 40 36 72 6.5 60 35 39.5 External pilot solenoid type (Conduit terminal) P Pilot port 2 x 1/8" (Back side PE: Filter standard installation) J N I Manual override 2.3 12 Bracket G O L M F E 4 x K 2 1 D C H (2 locations) Main port A B A B C D E F G H I J K L M N O P Main port Model SGC2lll-ll10 SGC2lll-ll15 SGC3lll-ll20 SGC4lll-ll25 3/8 63 49.6 29
ID L P IDG K 4 x 13 IDK Dimensions AMG (mm) A B C D E F G K L M N P Q Port size Model AFF IDFA22E IDFA37E R 1 775 600 290 623 134 405 698 93 13 25 85 340 R 11/2 855 680 AM AMD IDFA55E, IDFA75E AMH A R B AME AMF Q E ZFC D SF G SFD F LLB C AD GD M N L P K 4 x 13 Dimensions (mm) A B C D E F G K L M N P Q R Model Port size IDFA55E IDFA75E 800 (868) R 2 470 855 (128) (273) (110) 13 500 75 700
low particulate generating vacuum grease. p r Non-contact construction a w t i o o n L There is no particulate generation due to friction, since the construction does not allow contact between the cylinder tube's exterior surface and the slide table's internal surface. a t e l u g c Reduced initial particulate generation 3 e i t n r a e p r a w t i o o n L No contact Cleaned, assembled,
Vacuum pressure Theoretical lifting force Horizontal lifting force [N]Safety factor 1/4 [kPa] [N] 1 cup gripping -50 40.2 10.0 2 cups gripping -67 53.8 13.4 3 cups gripping -73 58.7 14.6 (Calculated by W = P X S, S = r2, r = 32 / 2. Refer to 3.3 How to calculate theoretical lifting force for the detail.)
Floating Joint Center of sphere M M U U D H G B F P C E R A (mm) Max. operating tension and compression N Center of sphere R Model Max. screw-in depth P Allowable eccentricity U M A Applicable bore size Weight (kg) B C D E F G H Nominal size Pitch Compression Tension JB40-8-125 JB63-10-150 JB80-16-200 JB100-20-250 JB140-22-250 20, 25 32 40 50, 63 80 8 10 16 20 22 29 35.5 47.5 59 71.5 1.25
N Kit type (Refer to page 9 for details of the kit.)
(Page 74) 8010 0x1F4A 0 R PD conversion equation : b F32 N 8020 0x1F54 0 R Instantaneous flow peak value S16 N -200 to 4000 The conversion method from the communication value to the actual measurement value is the same as the method for process data. 8030 0x1F5E 0 R Instantaneous flow bottom value S16 N -200 to 4000 Accumulated flow value measured value (temporary value) S16 N 0 to 9 1 R
VN LVC LVA LVH Variations LVD LVQ Valve Material Base, Body Seal Aluminum NBR, FKM, EPDM LQ Common SUP Individual SUP Common SUP Individual SUP Port A Port A Normally closed (N. C.) LVN Port P TI/ TIL Port P Port P PA Port A PAX Port A Port A PB Normally open (N. O.)