Pad Shape: [Other Shape] Flat, With Groove, Pad Type: Standard / Holder Set, Mounting Method: Recessed, Material: Rubber Group, Rubber Group Material: [Nitrile Rubber] NBR, Environment: Standard / Oil Resistant, Vacuum Outlet Port: Female Thread, Pad diameter(ø): 16, Vacuum entry port thread diameter: M5, Buffer specifications: -, Buffer stroke(mm): -, Mounting connection screw: Male thread
Adapter Material: Brass, Standard, Pad Diameter: ø13, Pad Type: Bellows, Pad Material: Silicone Rubber, Mounting Thread Size: M12 x 1, Male Thread, Vacuum Inlet: M5 x 0.8, Female Thread
Adapter Material: Brass, Standard, Pad Diameter: ø13, Pad Type: Flat w/Groove, Pad Material: NBR, Mounting Thread Size: M12 x 1, Male Thread, Vacuum Inlet: M5 x 0.8, Female Thread
Adapter Material: Brass, Standard, Pad Diameter: ø10, Pad Type: Bellows, Pad Material: Silicone Rubber, Mounting Thread Size: M12 x 1, Male Thread, Vacuum Inlet: M5 x 0.8, Female Thread
Adapter Material: Brass, Standard, Pad Diameter: ø16, Pad Type: UM (Flat w/Groove), Pad Material: S (Silicone Rubber), Mounting Thread Size: A5 (M5 x 0.8, Male Thread)
Pad Shape: [Other Shape] Flat, With Groove, Pad Type: Standard / Holder Set, Mounting Method: Recessed, Material: Rubber Group, Rubber Group Material: [Silicone Rubber] Silicone Rubber, Environment: Standard / Low Temp. Resistant / Heat Resistant, Vacuum Outlet Port: Threads, Pad diameter(ø): 16, Vacuum entry port thread diameter: M5, Buffer specifications: -, Buffer stroke(mm): -, Mounting
Vacuum Pad: Ball Joint Type Vertical Vacuum Entry Without Buffer/Male Thread ZPT Series Vacuum Pad: Ball Joint Type Vertical Vacuum Entry Without Buffer/Male Thread ZPT Series How to Order ZPT 25 F GN B5 A8 Mounting Pad diameter Mounting Pad dia.
The ZP3 line of vacuum cups has a compact pad and the buffer body has been shortened by as much as 2.2" when compared to the ZP series. The optional buffer can be ordered with up to 20mm stroke.
ZP3 ZP3E 1. In cases where workpieces are heavy or dangerous, etc., take measures to address a possible loss of adsorption force (installation of drop prevention guides, etc.). In the case of transportation by vacuum adsorption using vacuum pads, adsor ption force is lost when there is a drop in vacuum pressure.
VS3135 A01-01 A01-02 A07-52 q Description Electrical entry VS3145 Solenoid cover Body 100 VAC 200 VAC Grommet A12-01 A12-02 A08-52 w e Spool/Sleeve 24 VDC A01-01-63 A01-02-63 A07-52-63 100 VAC 200 VAC Conduit terminal 24 VDC A12-01-63 A12-02-63 A08-52-63 Replacement Parts Material Part no. VS3135 XT019-6 XT013-13-2 XT010-15 Description VS3145 No.
VS3135 A01-01 A01-02 A07-52 q Description Electrical entry VS3145 Solenoid cover Body 100 VAC 200 VAC Grommet A12-01 A12-02 A08-52 w e Spool/Sleeve 24 VDC A01-01-63 A01-02-63 A07-52-63 100 VAC 200 VAC Conduit terminal 24 VDC A12-01-63 A12-02-63 A08-52-63 Replacement Parts Material Part no. VS3135 XT019-6 XT013-13-2 XT010-15 Description VS3145 No.
VS3135 A01-01 A01-02 A07-52 q Description Electrical entry VS3145 Solenoid cover Body 100 VAC 200 VAC Grommet A12-01 A12-02 A08-52 w e Spool/Sleeve 24 VDC 100 VAC 200 VAC Conduit terminal 24 VDC A01-01-63 A01-02-63 A07-52-63 A12-01-63 A12-02-63 A08-52-63 Replacement Parts Material Part no. VS3135 XT019-6 XT013-13-2 XT010-15 Description VS3145 No.
The ZP3 line of vacuum cups has a compact pad and the buffer body has been shortened by as much as 2.2" when compared to the ZP series. The optional buffer can be ordered with up to 20mm stroke.
Load at the end of lever arm = m a2 = m1 + m2a22 + k a12 12 3 Dk = m2 2r2 5 -X 387 MK Series Design/Selection Caution 1.
axis: Vertical to the bar and through the center of gravity tThin rectangular plate Position of rotary axis: Through the center of gravity and vertical to the plate (Same as also thick rectangular plate) I = m a2+b2 12 I = m a2 12 eThin rectangular plate Position of rotary axis: Parallel to side b and through the center of gravity yLoad at the end of lever arm I = m1 + m2 a22 + K a12
Thin rectangular plate (Rectangular parallelopiped) Position of rotational axis: Vertical to the plate and through the end = m1 + m2 a12 3 a22 = m1 + m2 4a12 + b2 4a22 + b2 3 12 12 2. Thin shaft Position of rotational axis: Perpendicular to the shaft through the center of gravity 5.
0Gear transmission oLoad at lever end Number of teeth = a = m1 a12 1. Find the inertial moment B for the rotation of shaft (B). 3 + m2 a22 + K (Example) When shape of m2 is a sphere, refer to 7, and K = m2 2r2 2.
Symbol: A12 The short shaft can be further shortened by machining a double-sided chamfer onto it. CRJ (If altering the standard chamfer and shortening the shaft are not required, indicate for both the L1 and X dimensions.) Since L1 is a standard chamfer, dimension E1 is 0.5 mm or more.
Symbol: A12 The short shaft can be further shortened by machining a double-sided chamfer onto it. CRJ (If altering the standard chamfer and shortening the shaft are not required, indicate for both the L1 and X dimensions.) Since L1 is a standard chamfer, dimension E1 is 0.5 mm or more.
Applicable shaft type: W (mm) L2 Y Size (mm) 10 X L1 3 to 8 5(8Y) to (Y1) Size 10 15 3 to 14 9(14X) to (X1) 3 to 9 6(9Y) to (Y1.5) Y = L1= 15 20 5.5 to 18 10(18X) to (X1.5) 3 to 10 7(10Y) to (Y1.5) L2 = 20 30 10(20X) to (X1.5) 7 to 20 5 to 13 8( 13Y) to (Y2) X= 30 40 7 to 22 10(22X) to (X1.5) 7 to 15 9( 15Y) to (Y4.5) Free-Mounting Type CRBU2 CRB2 Symbol: A11 Symbol: A12 The long shaft can