Built-in Magnet: D (Magnet), Mounting: B (Basic Type), Bore Size: 10 (10mm, 3/8"), Stroke: 125 (1 1/4"), Auto Switch: B (Band Mounting)
Magnet: None, Mounting: F (Front Flange), Bore Size: 10 (3/8 Inch), Stroke: 125 (1 1/4 Inch), Rod End Thread: B (w/o Thread)
Magnet: None, Mounting: B (Basic Style), Bore Size: 10 (3/8 Inch), Stroke: 125 (1 1/4 Inch), Rod End Thread: B (w/o Thread)
Magnet: None, Mounting: L (Axial Foot), Bore Size: 10 (3/8 Inch), Stroke: 125 (1 1/4 Inch), Rod End Thread: B (w/o Thread)
Magnet: D (Built-in), Mounting: C (Rear Pivot), Bore Size: 125 (1 1/4"), Stroke: 1000 (10"), Cushion: C (Rubber Bumper), Rod Boot: K (Neoprene)
Magnet: D (Built-in), Mounting: L (Axial Foot), Bore Size: 10 (3/8 Inch), Stroke: 125 (1 1/4 Inch), Rod End Thread: B (w/o Thread)
Magnet: D (Built-in), Mounting: B (Basic Style), Bore Size: 10 (3/8 Inch), Stroke: 125 (1 1/4 Inch), Rod End Thread: B (w/o Thread)
Magnet: D (Built-in), Mounting: F (Front Flange), Bore Size: 10 (3/8 Inch), Stroke: 125 (1 1/4 Inch), Rod End Thread: B (w/o Thread)
Floating Joint Light Weight Type for Light Load JC Series nominal size (Standard) Applicable cylinder bore size Applicable cylinder bore size (mm) Symbol Model Applicable cylinder nominal thread size Thread nominal size 20 25/32 40 50/63 M8 x 1.25 M10 x 1.25 M14 x 1.5 M18 x 1.5 20 30 40 63 8-125 10-125 14-150 18-150 Standard type Specifications Operating pressure Mounting Operating temperature Pneumatic cylinder: 1 MPa or less Basic type 10 to
Magnet: D (Built-in), Mounting: B (Basic), Bore Size: 125 (1 1/4"), Stroke: 1000 (10"), Cushion: No Cushion, Rod Boot: Without Boot, Auto Switch: A96--Reed, DC Volt, LED, Horizontal
Magnet: D (Built-in), Mounting: B (Basic), Bore Size: 125 (1 1/4"), Stroke: 1000 (10"), Cushion: No Cushion, Rod Boot: Without Boot, Auto Switch: A96V--Reed, DC Volt, LED, Vertical
3 position cylinder series RZQ provides intermediate stop mechanism. 2 intermediate strokes are possible with only a small extension in total length. First stage stroke can be specified without changing the overall length. High accuracy is achieved by an intermediate stop method of pressing metallic components against each other. A tube rod with a large bore which is 70% the piston diameter
3 position cylinder series RZQ provides intermediate stop mechanism. 2 intermediate strokes are possible with only a small extension in total length. First stage stroke can be specified without changing the overall length. High accuracy is achieved by an intermediate stop method of pressing metallic components against each other. A tube rod with a large bore which is 70% the piston diameter
3 position cylinder series RZQ provides intermediate stop mechanism. 2 intermediate strokes are possible with only a small extension in total length. First stage stroke can be specified without changing the overall length. High accuracy is achieved by an intermediate stop method of pressing metallic components against each other. A tube rod with a large bore which is 70% the piston diameter
3 position cylinder series RZQ provides intermediate stop mechanism. 2 intermediate strokes are possible with only a small extension in total length. First stage stroke can be specified without changing the overall length. High accuracy is achieved by an intermediate stop method of pressing metallic components against each other. A tube rod with a large bore which is 70% the piston diameter
3 position cylinder series RZQ provides intermediate stop mechanism. 2 intermediate strokes are possible with only a small extension in total length. First stage stroke can be specified without changing the overall length. High accuracy is achieved by an intermediate stop method of pressing metallic components against each other. A tube rod with a large bore which is 70% the piston diameter
3 position cylinder series RZQ provides intermediate stop mechanism. 2 intermediate strokes are possible with only a small extension in total length. First stage stroke can be specified without changing the overall length. High accuracy is achieved by an intermediate stop method of pressing metallic components against each other. A tube rod with a large bore which is 70% the piston diameter
3 position cylinder series RZQ provides intermediate stop mechanism. 2 intermediate strokes are possible with only a small extension in total length. First stage stroke can be specified without changing the overall length. High accuracy is achieved by an intermediate stop method of pressing metallic components against each other. A tube rod with a large bore which is 70% the piston diameter
3 position cylinder series RZQ provides intermediate stop mechanism. 2 intermediate strokes are possible with only a small extension in total length. First stage stroke can be specified without changing the overall length. High accuracy is achieved by an intermediate stop method of pressing metallic components against each other. A tube rod with a large bore which is 70% the piston diameter
3 position cylinder series RZQ provides intermediate stop mechanism. 2 intermediate strokes are possible with only a small extension in total length. First stage stroke can be specified without changing the overall length. High accuracy is achieved by an intermediate stop method of pressing metallic components against each other. A tube rod with a large bore which is 70% the piston diameter