ZP Calculation D n W P t : Pad diameter (mm) : Number of pads used : Lifting force (N) : Stable vacuum pressure (kPa) : Safety factor: Horizontal pad contact: 4 (dynamic) Vertical pad contact: 8 (dynamic) Pad W D = 3.14 x P x n x t x 1000 4 1 W W Horizontal lifting Vertical lifting Basically avoid this use. ( ) Selection Graph The pad diameter required for horizontal (selection graphs (1) and
Pad Calculation W = P x S x 0.1 x 1 t W P S t : Lifting force [N] : Vacuum pressure [kPa] : Pad area [cm2] : Safety factor Horizontal lifting: 4 or more Vertical lifting: 8 or more ZP3 Horizontal lifting Vertical lifting ZP3E ZP3E This type of application should basically be avoided.
Single vane type Double vane type 90 180 270 90 r a n n o n a g r e g ti n 2 e a o n r a o n 7 ti t g ti 1 a o 0 e a t 8 o r 9 t +4 0 r 0 o 0 y y r e +4 0 +4 0 e Key y K K e K Key Key +4 0 (45) 0 Standard Optional Key 9 e g n ra n o ti a t o r (90) y e K (45) (45) A port A port A port A port B port B port B port B port 100 190 280 100 a r n n g a r n n o g e io e ti at r n a 1 o a n 1
CBG1A Air cushion type Locking at both ends 20 25 32 40 CBG1N20-PS-W CBG1N25-PS-W CBG1N32-PS-W CBG1N40-PS-W Above no. @5, @6, @7, @8. And a grease pack. CBG1N Rubber bumper type Locking at both ends 20 25 32 40 CBG1A20-PS-W CBG1A25-PS-W CBG1A32-PS-W CBG1A40-PS-W Above no. @5, @6, @7, @8, $0, $1. And a grease pack.
Calculation D n W P t : Pad diameter (mm) : Number of pads used : Lifting force (N) : Stable vacuum pressure (kPa) : Safety factor: Horizontal pad contact: 4 (dynamic) Vertical pad contact: 8 (dynamic) Pad W D = 3.14 x P x n x t x 1000 4 1 W 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-
R R ot ot at at R io io ot n n at ra ra A io n gl e n n n a g dj g ra us e e ti A ng A n of n g ng of gl e di e le k re of k a e ad dj ct e y ke us io ju y n st gr ti y gr n in g o gr g o o di oo di o v re re v e ve ct e ct io 9 io 9 18 n 0 n 0 0 Angle adjusting screw The rotation range under the adjustment of an angle at 120 is indicated below.
0, Terminal i, Metal joint q, w, Gasket r, Receptacle assembly Manifold block !0, Metal joint q, w, Gasket r End plate (U) !1, Metal joint q, w End plate (U) !1, Metal joint q, w End plate (D) !2, Metal joint q, w, Gasket e, t, O-ring y, u End plate (D) !2, Metal joint q, w, Gasket e, t, O-ring t, y 03 04 VVF4000-1A-1Plug-in type Manifold block assembly !
T O USE S E E N E X T P A G E T E C H N I C A L SPECIFICATIONS D I M E N S I O N S KDM10 Fluid Air Max. operating pressure 10 Bar (1.0 mPa) Operating vacuum pressure 10torr~ Proof pressure 15 Bar (1.5 MPa) Ambient and fluid temperature 0 ~ 60C Applicable tube Nylon, Soft Nylon, Polyurethane H O W T O C R E A T E M I X E D T U B E S I Z E U N I T S W I T H KDM P A R T S D I M E N S I O N
S 1 pc. n n pcs. CG3 Mounting Rod end bracket N Rubber bumper JMB Nil None V Single knuckle joint W Double knuckle joint Note) Air cushion type CG1KRA is a Made-to-Order product.
Nil B K Note 1) High-speed response type (0.95 W) High-pressure type (1.0 MPa) [0.95 W] N Note 2) Negative common R Note 2) External pilot Note 1) Metal seal only Note 2) For external pilot and negative common specifications, refer to Semi-standard on pages 562 to 563.
Nil B K Note 1) High-speed response type (0.95 W) High-pressure type (1.0 MPa) [0.95 W] N Note 2) Negative common R Note 2) External pilot Note 1) Metal seal only Note 2) For external pilot and negative common specifications, refer to Semi-standard on pages 562 to 563.
Calculation D n W P t : Pad diameter (mm) : Number of pads used : Lifting force (N) : Stable vacuum pressure (kPa) : Safety factor: Horizontal pad contact: 4 (dynamic) Vertical pad contact: 8 (dynamic) Pad W D = 3.14 x P x n x t x 1000 4 1 W W Horizontal lifting Vertical lifting Basically avoid this use. ( ) Selection Graph The pad diameter required for horizontal (selection graphs (1) and
N AWM30 to 40 Accessory/Optional specifications B C D E G H -1 -2 -6 -8 -C -J -N -R -W -Z With bracket (With set nut) Float type auto-drain (N.C.)
Note 2) Without valve mechanism Option Combinations Combinable Impossible Depends on the model Applicable Filter Regulator Option Auto drain Symbol AW4000 Description AW1000 D D C 1 2 6 8 C J N R W AW2000 AW3000 D D C 1 2 6 8 C J N R W Auto drain pressure differential style Auto drain float style (N.O.)
R R ot ot at at R io io ot n n at ra ra A io n gl e n n n a g dj g ra us e e ti A ng A n of n g ng of gl e di e le k re of k a e ad dj ct e y ke us io ju y n st gr ti y gr n in g o gr g o o di oo di o v re re v e ve ct e ct io 9 io 9 18 n 0 n 0 0 Angle adjusting screw The rotation range under the adjustment of an angle at 120 is indicated below.
V V 48 Series CY1H Model Selection Method 3 Selection calculation The selection calculation finds the load factors (n) of the items below, where the total (n) does not exceed 1. n=1+2+31 Load factor n Note Item Investigate W Wmax is the max. load weight for Va 1 = W/Wmax 1. Max. load weight Investigate M1, M2, M3 Mmax is the allowable moment for Va 2 = M/Mmax 2.
r w AR30(K)-B/AR40(K)-B q t AR50(K)-B/AR60(K)-B e IN OUT q t r w e IN OUT r w Component Parts No.
2 1 n Style Without auto switch (Built-in magnet) Double rod W Refer to table below for selection of auto switch model no.
(g) n: Stations W = 30n + 50 W = 37n + 63 W = 61n + 101 W = 79n + 127 W = 100n + 151 Note 1) For more than 10 stations (more than 5 stations in case of 10-SS5Y7), supply pressure to P port on both sides and exhaust from EA/EB port on both sides.