Series CJ2 is auto switch capable Standard double acting single rod, Bore sizes: 6, 10, 16 *, Strokes from 15mm through 200mm depending upon bore size, Mounts: basic, foot, front flange, double clevis, Variety of switches and a variety of lead wire lengths, Cylinder, Air, ROUND BODY CYLINDER, 359, 0.07630 lb

Series CJ2 is auto switch capable Standard double acting single rod, Bore sizes: 6, 10, 16 *, Strokes from 15mm through 200mm depending upon bore size, Mounts: basic, foot, front flange, double clevis, Variety of switches and a variety of lead wire lengths, Cylinder, Air, ROUND BODY CYLINDER, 359, 0.09230 lb

Magnet: Built-in Magnet, Mounting: Through-hole, Standard, Type: Pneumatic, Bore Size: 32mm, Port Thread: Rc: 32-100 Bore; M Thread 12 to 25 Bore, Stroke 1: 20mm, +: +, Stroke 2: 15mm, Body Option: with Rubber Bumper, Auto Switch Groove: ø12 to ø25, 2 Surfaces; ø32 to ø100, 4 Surfaces, Auto Switch: M9BV--Solid State, Gen. Purpose, 2 Wire, Vertical, Lead Wire or Prewired Connector: 0.5m Cord

Series CJ2 is auto switch capable Standard double acting single rod, Bore sizes: 6, 10, 16 *, Strokes from 15mm through 200mm depending upon bore size, Mounts: basic, foot, front flange, double clevis, Variety of switches and a variety of lead wire lengths CJ2 ROUND BODY CYLINDER. CYL, RND BODY, DBL ACT, A-SW. ACTUATOR. 16MM CJ2 DBL-ACT AUTO-SW. 0.43633 lb. GE.

Magnet: None, Mounting: D (Double Clevis), Bore: 125mm, Thread: Rc, Stroke: 200mm, Rod Boot: None, Cushion: Air Cushion

Magnet: None, Mounting: B (Basic), Bore: 125mm, Thread: Rc, Stroke: 200mm, Rod Boot: None, Cushion: Air Cushion

Magnet: D (Built-in Magnet), Mounting: Z (Basic, w/o Trunnion Mounting, Female Thread), Bore Size: 50mm, Stroke: 200mm

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.

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.