The standard air cushion utilizes a floating cushion seal to eliminate piston rod bouncing. The cushion volume has been elevated permitting about 30% more allowable kinetic energy absorption. The port and captive cushion adjustment valve are located on the same side of cap for heightened access.

The standard air cushion utilizes a floating cushion seal to eliminate piston rod bouncing. The cushion volume has been elevated permitting about 30% more allowable kinetic energy absorption. The port and captive cushion adjustment valve are located on the same side of cap for heightened access.

The standard air cushion utilizes a floating cushion seal to eliminate piston rod bouncing. The cushion volume has been elevated permitting about 30% more allowable kinetic energy absorption. The port and captive cushion adjustment valve are located on the same side of cap for heightened access.

The standard air cushion utilizes a floating cushion seal to eliminate piston rod bouncing. The cushion volume has been elevated permitting about 30% more allowable kinetic energy absorption. The port and captive cushion adjustment valve are located on the same side of cap for heightened access.

A variety of auto switches are available for mounting, including compact switches and magnetic field resistant switches. 

The standard air cushion utilizes a floating cushion seal to eliminate piston rod bouncing. The cushion volume has been elevated permitting about 30% more allowable kinetic energy absorption. The port and captive cushion adjustment valve are located on the same side of cap for heightened access.

The standard air cushion utilizes a floating cushion seal to eliminate piston rod bouncing. The cushion volume has been elevated permitting about 30% more allowable kinetic energy absorption. The port and captive cushion adjustment valve are located on the same side of cap for heightened access.

The standard air cushion utilizes a floating cushion seal to eliminate piston rod bouncing. The cushion volume has been elevated permitting about 30% more allowable kinetic energy absorption. The port and captive cushion adjustment valve are located on the same side of cap for heightened access.

The new style MGP has a shorter guide rod and thinner plate resulting in a weight reduction of up to 17% over the original MGP.??The series is designed for high side load applications found in material handling, lifting and stopping. The?cylinder utilizes an ultra-compact design by incorporating the cylinder body as part of the guide body.

The new style MGP has a shorter guide rod and thinner plate resulting in a weight reduction of up to 17% over the original MGP.??The series is designed for high side load applications found in material handling, lifting and stopping. The?cylinder utilizes an ultra-compact design by incorporating the cylinder body as part of the guide body.

The new style MGP has a shorter guide rod and thinner plate resulting in a weight reduction of up to 17% over the original MGP.??The series is designed for high side load applications found in material handling, lifting and stopping. The?cylinder utilizes an ultra-compact design by incorporating the cylinder body as part of the guide body.

A variety of auto switches are available for mounting, including compact switches and magnetic field resistant switches. 

The standard air cushion utilizes a floating cushion seal to eliminate piston rod bouncing. The cushion volume has been elevated permitting about 30% more allowable kinetic energy absorption. The port and captive cushion adjustment valve are located on the same side of cap for heightened access.

The standard air cushion utilizes a floating cushion seal to eliminate piston rod bouncing. The cushion volume has been elevated permitting about 30% more allowable kinetic energy absorption. The port and captive cushion adjustment valve are located on the same side of cap for heightened access.

The standard air cushion utilizes a floating cushion seal to eliminate piston rod bouncing. The cushion volume has been elevated permitting about 30% more allowable kinetic energy absorption. The port and captive cushion adjustment valve are located on the same side of cap for heightened access.

The standard air cushion utilizes a floating cushion seal to eliminate piston rod bouncing. The cushion volume has been elevated permitting about 30% more allowable kinetic energy absorption. The port and captive cushion adjustment valve are located on the same side of cap for heightened access.

The standard air cushion utilizes a floating cushion seal to eliminate piston rod bouncing. The cushion volume has been elevated permitting about 30% more allowable kinetic energy absorption. The port and captive cushion adjustment valve are located on the same side of cap for heightened access.

The standard air cushion utilizes a floating cushion seal to eliminate piston rod bouncing. The cushion volume has been elevated permitting about 30% more allowable kinetic energy absorption. The port and captive cushion adjustment valve are located on the same side of cap for heightened access.

The standard air cushion utilizes a floating cushion seal to eliminate piston rod bouncing. The cushion volume has been elevated permitting about 30% more allowable kinetic energy absorption. The port and captive cushion adjustment valve are located on the same side of cap for heightened access.

A variety of auto switches are available for mounting, including compact switches and magnetic field resistant switches.  The CA2-Z is available in 40, 50, 63, 80 and 100 bores sizes, and is RoHS compliant.Double acting single rod , Bore sizes: 40, 50, 63, 80, 100mm, Options include pivot bracket and/or knuckle joints, Auto switch capable TIE ROD CYLINDER.