Magnet: Built-in Magnet, Mounting: Clevis, Type: Air Cushion, Bore: 32mm, Port Thread Type: Rc (or M5, Depending on Style, Bore Size, and Thread Combination), Stroke: 250mm, Thread: Male Rod End, Suffix for Cylinder: w/o Rod Boot, Pivot Bracket: Pivot Bracket not Assembled, Rod End Bracket: Double Knuckle Joint, Auto Switch: M9P--Solid State, Gen. Purpose, 3 Wire PNP, Horizontal, Lead Wire
Magnet: D (Built-in Magnet), Mounting: B (Basic), Type: A (Air Cushion), Bore: 40mm, Port Thread Type: Rc (or M5, Depending on Style, Bore Size, and Thread Combination), Stroke: 250mm, Thread: Male Rod End, Suffix for Cylinder: w/o Rod Boot, Pivot Bracket: None, Rod End Bracket: W (Double Knuckle Joint), Auto Switch: M9P--Solid State, Gen. Purpose, 3 Wire PNP, Horizontal, Lead Wire or Prewire
Magnet: D (Built-in Magnet), Mounting: B (Basic), Type: A (Air Cushion), Bore: 32mm, Port Thread Type: Rc (or M5, Depending on Style, Bore Size, and Thread Combination), Stroke: 250mm, Thread: Male Rod End, Suffix for Cylinder: w/o Rod Boot, Pivot Bracket: None, Rod End Bracket: W (Double Knuckle Joint), Auto Switch: M9P--Solid State, Gen. Purpose, 3 Wire PNP, Horizontal, Lead Wire or Prewire
Magnet: D (Built-in Magnet), Mounting: D (Clevis), Type: A (Air Cushion), Bore: 20mm, Port Thread Type: Rc (or M5, Depending on Style, Bore Size, and Thread Combination), Stroke: 250mm, Thread: Male Rod End, Suffix for Cylinder: w/o Rod Boot, Pivot Bracket: N (Pivot Bracket not Assembled), Rod End Bracket: W (Double Knuckle Joint), Auto Switch: M9P--Solid State, Gen. Purpose, 3 Wire PNP,
Magnet: D (Built-in Magnet), Mounting: B (Basic), Type: A (Air Cushion), Bore: 20mm, Port Thread Type: Rc (or M5, Depending on Style, Bore Size, and Thread Combination), Stroke: 250mm, Thread: Male Rod End, Suffix for Cylinder: w/o Rod Boot, Pivot Bracket: None, Rod End Bracket: W (Double Knuckle Joint), Auto Switch: M9P--Solid State, Gen. Purpose, 3 Wire PNP, Horizontal, Lead Wire or Prewire
Magnet: D (Built-in), Mounting: D (Double Clevis), Bore Size: Ø100, Port Thread: Rc, Stroke: 250mm, Option: w/o Rod Boot, Bracket: N (Pivot Bracket), Knuckle Joint: W (Double Knuckle Joint), Auto Switch: M9P--Solid State, Gen. Purpose, 3 Wire PNP, Horizontal, Lead Wire or Prewired Connector: SAPC (0.5m Cord Length, M8-3 Pin Connector)
Magnet: D (Built-in Magnet), Mounting: D (Clevis), Type: N (Rubber Bumper), Bore: 20mm, Port Thread Type: Rc (or M5, Depending on Style, Bore Size, and Thread Combination), Stroke: 250mm, Thread: Male Rod End, Suffix for Cylinder: w/o Rod Boot, Pivot Bracket: N (Pivot Bracket not Assembled), Rod End Bracket: V (Single Knuckle Joint), Auto Switch: M9P--Solid State, Gen. Purpose, 3 Wire PNP
Magnet: D (Built-in Magnet), Mounting: T (Head Trunnion), Type: N (Rubber Bumper), Bore: 40mm, Port Thread Type: Rc (or M5, Depending on Style, Bore Size, and Thread Combination), Stroke: 250mm, Thread: Male Rod End, Suffix for Cylinder: w/o Rod Boot, Pivot Bracket: N (Pivot Bracket not Assembled), Rod End Bracket: None, Auto Switch: M9P--Solid State, Gen. Purpose, 3 Wire PNP, Horizontal,
Magnet: D (Built-in Magnet), Mounting: U (Rod Trunnion), Type: A (Air Cushion), Bore: 63mm, Port Thread Type: TN [NPT ø20 to ø100 Rubber Bumper, ø32 to ø100 Air Cushion), Stroke: 250mm, Thread: Male Rod End, Suffix for Cylinder: w/o Rod Boot, Pivot Bracket: N (Pivot Bracket not Assembled), Rod End Bracket: W (Double Knuckle Joint), Auto Switch: M9P--Solid State, Gen. Purpose, 3 Wire PNP,
Magnet: D (Built-in Magnet), Mounting: U (Rod Trunnion), Type: N (Rubber Bumper), Bore: 63mm, Port Thread Type: Rc (or M5, Depending on Style, Bore Size, and Thread Combination), Stroke: 250mm, Thread: Male Rod End, Suffix for Cylinder: w/o Rod Boot, Pivot Bracket: N (Pivot Bracket not Assembled), Rod End Bracket: None, Auto Switch: M9P--Solid State, Gen. Purpose, 3 Wire PNP, Horizontal,
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. As the stroke length increases, so does the bearing
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. As the stroke length increases, so does the bearing
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. As the stroke length increases, so does the bearing
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. As the stroke length increases, so does the bearing
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. As the stroke length increases, so does the bearing
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. As the stroke length increases, so does the bearing
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. As the stroke length increases, so does the bearing
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. As the stroke length increases, so does the bearing
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. As the stroke length increases, so does the bearing
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. As the stroke length increases, so does the bearing