Page 78 - Parker - Rodless Air Cylinders
P. 78
Catalog #AU03-0928/NA Rodless Magnetic Cylinders
Basic Version Technical Data P1Z Series
Pressure in the Cylinder / Pneumatic Holding Force
Pressure (PSI)
29 44 58 73 87 102
500 112 Example:
450
400 Ø 32 90 Pressure: 5 bar
350
F max = 322 N for Ø 32 mm cylinder
300 67
(N) 250 (Lbs.)
200 Ø 20 44 Calculate the kinetic energy due to the load moved
150
100 Ø 16 22 Acceleration or deceleration should not exceed the
50
magnetic coupling force of cylinder
0 0
2 3 4 5 6 7
Pressure (bar)
Load Diagrams
Permissible radial loads, horizontal mounting
“L” Ø 32 Ø L
Max. (lbs.)
Load “L” (kg) Ø 16 16 3 11.0
(kg)
6.6
Ø 20
20
5
32 10 22.0
“L”
The load must be guided by a device from outside the cylinder Stroke (mm)
Permissible axial loads, horizontal mounting
M = Fx Zf Ø 32 Ø Max. Max.
*
Moment M Fx*
“Fx” (Nm) (in-lbs.) (N) (lbs.)
Force “Fx” (N) 16 1.2 11 112 25
Zf Ø 20 20 2.5 22 175 39
Ø 16
8.5
32
* at 7 bar 75 450 101
The load must be guided by a device from outside the cylinder Zf (mm)
Permissible axial loads, vertical mounting
“L”
Ø 32 Ø Max. load Max.
(kg) T (lbs.) (mm) XA (in.)
Load Load “LT” (kg) 16 5 11 122 4.8
“La” Ø 20
*If force due 20 10 22 142 5.6
friction is Ø 16 32 24 53 174 6.8
unknown, use
0.1 (L + La). * at 6.5 bar
*
XA
Pressure (bar)
L = Load guided by external device
La = Direct mounting onto the cylinder LT = Load weight + guiding device weight + force due to friction
Ff = Force due to friction*
Parker Hannifin Corporation
70 Actuator Division
Wadsworth, OH 44281
