China wholesaler Spring Lift Gas Shocks, Hydraulic Desk Computer Table Gas Lift Cylinder Adjustable Desk vacuum pump connector

Product Description

Product Description

Gas Lift up hydraulic soft close spring gas struts gas piston lift 100N /120N /160N


Load Capacity 22LB 20N-150N

Wire gauge 6 inch 8 inch 10 inch 12 inch


Gas Lift up hydraulic soft close spring gas struts




Kitchen cabinet, wardrobe, toy box, tool box, upturn window


Silver, Gold, Black, White


1pc/polybag, 25pcs/inner box, 100pcs/carton


20# finish steel for the rod
45# finish steel for the cylinder
Plastic for the clamp head
Iron + nickel plated for metal parts


Rubber or Copper

Force Pressure:

Normal: 20N/30N/40N/50N/60N/80N/100N/120N/150N
Special: 200N/250N/300N


Net weight: 11kg Gross weight: 12kg


A gas spring is a type of spring that operates using compressed gas contained within an enclosed cylinder. Unlike traditional mechanical springs that rely on elastic deformation, gas springs utilize pneumatic energy. They are widely used in various fields because of their unique characteristics.

In a gas spring, compressed gas is used to produce a force. One significant advantage of a gas spring over a typical mechanical spring is that it can absorb shock and dampen motion, reducing vibrations and noise. Moreover, gas springs can be designed to exert a constant force over their entire stroke length, something traditional springs cannot do unless they are specially designed.

Common applications of gas springs include their use in vehicle suspensions, office chairs, hospital beds, cabinetry, machinery, and various types of industrial equipment.

Gas springs are also especially popular in the automotive industry, where they are used in the hatchbacks of cars or the bonnets of trucks - basically anywhere where controlled motion is needed. They are valued for their reliability, ease of use and versatility.

Product Parameters



Gas springs are used in a wide variety of applications due to their versatile functionality. They are known for their ability to provide controlled motion and maintain the position of objects, making them ideal for use as lifting, counterbalancing, and lowering devices. Here are some key applications of gas springs:

  1. Automotive Industry: They are commonly used to support, lift, and lower hoods, trunk lids, and tailgates in vehicles. They provide smooth and safe movement and ensure the components stay in place when required.

  2. Furniture Industry: Gas springs are used in various furniture items, such as office chairs (to adjust height), cabinet doors, beds, and tables, providing controlled motion and enhanced user comfort.

  3. Medical Equipment: Adjustable beds, dental chairs, and patient lifters often incorporate gas springs to provide smooth adjustability and operation.

  4. Industrial Machinery: They are used in a wide range of machinery for lifting, supporting, or counterbalancing heavy or frequently moved parts.

  5. Aerospace and Aviation Industry: Gas springs are used for opening and closing doors, adjusting seats, and stabilizing components in various aerospace applications.

  6. Fitness Equipment: Gym machines and other fitness equipment use gas springs as resistance elements and to ensure smooth and controlled motion.

  7. Marine Industry: They offer support in applications like hatch lids, doors, and access panels on marine vessels.

  8. Agriculture and Construction equipment: They are used in the tractor's cabin doors, window panels, seats, and other equipment.

These are just a few examples. The versatile and robust nature of gas springs makes them suitable for many additional applications across different industries. They offer an excellent solution for controlling the motion of components and objects in many types of machinery and equipment.




Material: Stainless Steel
Finish: Silver, Gold, Black, White Painting Coat
Color: Silver
US$ 1/Piece
1 Piece(Min.Order)


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Return&refunds: You can apply for a refund up to 30 days after receipt of the products.

lift cylinder

What are the advantages of using lift cylinders in material handling?

Using lift cylinders in material handling offers several advantages that enhance efficiency, productivity, and safety. Here are some key advantages of using lift cylinders:

1. Lifting Capacity:

Lift cylinders are designed to provide substantial lifting capacity. They can handle heavy loads and are available in various sizes and configurations to accommodate different weight requirements. This allows for efficient lifting and moving of materials, reducing the need for manual labor or multiple lifting mechanisms.

2. Precise Control:

Lift cylinders offer precise control over the lifting and lowering operations. By regulating the flow and pressure of hydraulic fluid, operators can achieve accurate positioning and controlled movements. This level of control ensures safe and precise material handling, preventing damage to the load and the surrounding environment.

3. Smooth and Stable Operation:

Lift cylinders provide smooth and stable operation during lifting and lowering processes. The hydraulic system minimizes jerking or sudden movements, ensuring a controlled and stable lifting experience. This stability is crucial when handling fragile or delicate materials that require careful maneuvering.

4. Flexibility:

Lift cylinders offer flexibility in terms of their application and adaptability to different material handling scenarios. They can be integrated into various types of equipment, such as forklifts, cranes, or material handling platforms. This versatility allows for efficient material handling across different industries and environments.

5. Space Efficiency:

Compared to other lifting mechanisms, lift cylinders are relatively compact, which makes them suitable for applications where space is limited. The vertical movement of the cylinder allows for efficient use of vertical space, optimizing storage capacity and workspace utilization.

6. Durability and Longevity:

Lift cylinders are built to withstand rigorous and demanding material handling operations. They are constructed with sturdy materials and designed to withstand heavy loads, repetitive motions, and harsh working conditions. Proper maintenance and care can ensure their longevity, providing reliable performance over an extended period.

7. Safety:

Lift cylinders prioritize safety during material handling operations. They incorporate safety features such as pressure relief valves, load holding devices, and fail-safe mechanisms to prevent accidents or uncontrolled movements. These safety features help protect operators, bystanders, and the materials being lifted.

8. Reduced Manual Labor:

Using lift cylinders in material handling reduces the reliance on manual labor for lifting heavy loads. This improves productivity, reduces the risk of injuries associated with manual lifting, and allows operators to focus on other essential tasks, enhancing overall operational efficiency.

In summary, the advantages of using lift cylinders in material handling include high lifting capacity, precise control, smooth and stable operation, flexibility in application, space efficiency, durability, safety features, and reduced reliance on manual labor. These advantages contribute to improved efficiency, productivity, and safety in material handling operations.

lift cylinder

How does a lift cylinder handle variations in hydraulic seal technology?

A lift cylinder is designed to accommodate variations in hydraulic seal technology. Here's an explanation of how lift cylinders handle these variations:

1. Seal Types:

Hydraulic seal technology offers various types of seals, including O-rings, lip seals, V-rings, and wipers. Lift cylinders are designed to incorporate different seal types based on the specific requirements of the application. The selection of seal types depends on factors such as pressure, temperature, fluid compatibility, and environmental conditions. Lift cylinders are manufactured with the necessary seal grooves and configurations to accommodate these variations in seal types.

2. Seal Materials:

Hydraulic seals are manufactured using different materials, such as rubber, polyurethane, PTFE (polytetrafluoroethylene), and various composite materials. Each material offers specific properties, including resistance to wear, temperature, chemicals, and extrusion. Lift cylinders are engineered to work with different seal materials, ensuring compatibility and optimal performance. The cylinder design takes into account the specific characteristics and requirements of the seal materials used.

3. Seal Profiles and Dimensions:

Hydraulic seals come in various profiles and dimensions to suit different applications and equipment. Lift cylinders are designed with corresponding seal grooves and dimensions to accommodate the specific seal profiles. The seal profiles may include standard shapes such as U-cups, piston seals, rod seals, and specialized profiles for specific sealing requirements. Lift cylinders are manufactured with precise tolerances to ensure proper installation and sealing effectiveness.

4. Sealing Performance and Efficiency:

Lift cylinders are engineered to provide optimal sealing performance and efficiency. They are designed to minimize leakage and maintain the required hydraulic pressure during operation. The cylinder components, including the piston, rod, and cylinder housing, are precisely machined to ensure a tight fit and prevent bypass of hydraulic fluid. Lift cylinders undergo rigorous testing and quality control measures to verify their sealing performance and efficiency under various operating conditions.

5. Seal Maintenance and Replacement:

Lift cylinders are designed to facilitate seal maintenance and replacement. Over time, hydraulic seals may wear out or degrade due to factors such as usage, environmental conditions, or fluid contamination. Lift cylinders are constructed to allow for easy access to the seals, making maintenance and replacement procedures efficient. This design consideration reduces downtime and ensures the longevity of the lift cylinder's sealing system.

In summary, lift cylinders are engineered to handle variations in hydraulic seal technology by accommodating different seal types, materials, profiles, and dimensions. Their design ensures optimal sealing performance, efficiency, and ease of maintenance. By incorporating the appropriate seal technology, lift cylinders maintain the integrity of the hydraulic system, prevent leaks, and ensure reliable and efficient operation.

lift cylinder

How does a lift cylinder contribute to precise load positioning?

A lift cylinder plays a crucial role in achieving precise load positioning in various applications. Here's an explanation of how a lift cylinder contributes to precise load positioning:

1. Controlled Vertical Motion:

A lift cylinder provides controlled vertical motion, allowing for accurate and precise movement of the load. By adjusting the hydraulic fluid flow and pressure, the cylinder extends or retracts with the desired speed and smoothness. This controlled motion enables precise positioning of the load at the desired height or location.

2. Adjustable Stroke Length:

Lift cylinders often have an adjustable stroke length, which refers to the distance the piston can travel within the cylinder barrel. By customizing the stroke length according to the specific load positioning requirements, the cylinder can achieve the desired precision. This adjustability allows for fine-tuning the cylinder's movement to accurately position the load with precision.

3. Load Holding Capability:

Lift cylinders are designed to have load holding capability, meaning they can maintain the position of the load without drifting or unwanted movement. This is achieved through the use of seals, locking mechanisms, or pressure control valves that prevent the cylinder from extending or retracting unintentionally. The load holding capability ensures that once the load is positioned precisely, it remains stable and secure.

4. Sensing and Feedback Systems:

Advanced lift cylinder systems may incorporate sensing and feedback mechanisms to enhance load positioning precision. These systems use sensors to measure the position, force, or pressure within the cylinder and provide feedback to the control system. This real-time feedback allows for continuous adjustments and fine-tuning of the cylinder's movements, ensuring precise load positioning.

5. Integration with Control Systems:

Lift cylinders can be integrated with control systems that enable precise load positioning. Through electronic controls or programmable logic controllers (PLCs), the cylinder's movement can be precisely controlled and coordinated with other equipment or processes. This integration allows for synchronized movements and accurate load positioning in complex automation systems.

In summary, a lift cylinder contributes to precise load positioning through controlled vertical motion, adjustable stroke length, load holding capability, sensing and feedback systems, and integration with control systems. These features and capabilities enable lift cylinders to achieve the precise positioning required in various applications, ranging from material handling to industrial automation.

China wholesaler Spring Lift Gas Shocks, Hydraulic Desk Computer Table Gas Lift Cylinder Adjustable Desk   vacuum pump connector	China wholesaler Spring Lift Gas Shocks, Hydraulic Desk Computer Table Gas Lift Cylinder Adjustable Desk   vacuum pump connector
editor by CX 2023-12-02