Fixed Force Gas Spring: 0.24" Rod Dia, 0.59" Tube Dia, 20 lb Capacity MPN:GGN40-020-X
Fixed Force Gas Spring with a 0.24inch rod diameter and a 0.59inch tube diameter features consistent closing force of approximately 20lb, ensuring reliable performance in door closers and damping mechanisms without the need for external adjustments. It is perfect for use in various residential or commercial buildings like hospitals, schools, office complexes where consistent and smooth closing action is essential. Made from high-quality steel with a chrome-plated finish, this gas spring provides durability and corrosion resistance making it suitable even for harsh environments. Its compact design simplifies integration into existing systems while delivering noise reduction to wear out door components effectively. It offers ideal solutions for Door, Lid & Drawer Hardware as well as Door Closers & Damping Mechanisms, where consistent closing action is crucial.
This item is hazardous. Hazardous items are NOT returnable.
Fixed Force Gas Spring: 0.24" Rod Dia, 0.59" Tube Dia, 20 lb Capacity 6.08" Extended Length, 2" Stroke Length, Threaded End, Black Nitride PistonProduct Information
- : GGN40-020-X
- Capacity (Lb.): 20.00
- Capacity (N): 20
- Compressed Length (Decimal Inch): 5.5000
- End Fitting Connection: Threaded End
- Extended Length (Decimal Inch): 6.0800
- Finish Coating: Epoxy-Coated
- Fitting Type: C
- Force Mechanism: Nitrogen Gas
- Material: Steel
- Piston Coating: Black Nitride
- Product Service Code: 5340
- Rod Diameter (Decimal Inch): 0.2400
- Stroke Length (Decimal Inch): 2.0000
- Thread Size (mm): M6 x 1.00
- Tube Diameter (Decimal Inch): 0.5900
- Type: Fixed Force Gas Spring
Additional Information
- Hazardous Materials: Yes, No Air Freight
- Material Safety Data Sheet (MSDS) Required: Yes
- Country of Origin: TR, Turkey
- TAA Compliant: No
- UNSPSC: 31162800
- CA Restricted (Prop 65): Unknown
- Package Weight: 0.20
- Prohibited States: AK,HI,PR
Product info last updated on July 1, 2024 12:01am UTC Category: Door Closers and Damping Mechanisms