Product Description

Specifications

These gas springs are used for the office chairs and various other systems where step less height adjustment is required. These gas springs bring comfort to the occupant who is carring out various activities while sitting for long periods.

Advantages:

1) ease of height adjustment with touch of a knob, to suit the mood of the occupant and to achieve the operational height conformity for comfort better productivity.

2) slight cushioning effect in the block condition, resist or reduces the pressure on the back while sitting or occupying the chair for a long period.

3) easy installation.

4)this gas springs facilitates ergonomic characteristic in seating system.

Areas of application

1) swivel chairs for smooth height adjustment.

2) industrial chairs and stools for ergonomic sitting in the industry.

3) dental stools and ophthalmic chairs.

4) work tables.

5) beauty parlor chairs

Product Description

Model C S L V X Y F1±1KG
MX-40mm 40D 210 250 135 60 10 500
MX-65mm 65D 215 280 160 60 10 480/550
MX-85mm 85D 235 320 175 60 10 400
MX-100mm 100D 250 360 185 60 10 400
MX-120mm 120D 270 390 195 60 10 400
MX-140mm 140D 290 430 225 60 10 380
MX-160mm 160D 330 510 285 60 10 380
MX-200mm 200D 360 560 295 60 10 380
MX-260mm 260D 440 700 365 60 10 380

Company Profile

 

 

Production Workshop

Packaging & Shipping

 

Certifications

 

 

FAQ

1.Q: What is our factory product range?
A:1)Office chair parts.Such as office chair castor wheel,shaft collar,gas spring for cabinet,office chair gas spring.
2.Q: How to order?

 A:Please send us your purchase order by Email or Fax.

 1) Product information:Quantitiy,Specification(size , color, logo and packing requirement),

 2) Delivery time required.

 3) Shipping information:Company name,Address,Phone number,Destination seaport/airport.

 4) Forwarder's contact details if there is any in China.

 3.Q: How long and how to get sample from us ?

 A:1) If you need some sample to text,we can make as per your request,please provide us PDF or AI for  Making.

   2) Lead time for making sample:about 7 days

   3) The transportation freight of samples: the freight depends on the weight and packing size and your area.

 4.Q: What is the payment terms for sample cost and order amount?
 A:For sample, we accept the payment sent by West Union,Paypal, for orders, we can accept T/T or L/C at sight.

 5.Q: What is the whole process for doing business with us ?

 A:1) First,please provide details of the products you need we quote for you.

   2) If price is acceptable and client need sample,we provide samples for your reference.

   3) If client approve sample and require for bulk production for order,we will provide Proforma Invoice      for client,and we will arrange to produce at once when we get 30% deposit.

  4) We will send photos of all goods,packing,details,and B/L copy for client after goods are finished.We    will arrange shipment and provide original B/L when the client pay the balance.

 6.Q: Can the logo or company name to be printed on the products or package?

 A:Sure.Your logo or company name can be printed on your products by stamping, printing,embossing,die cast, coating or sticker.

 7.Q: What advantages we have?

 A:Rich experience: We have more than 10 years experience in this industry.

 That means,we can preview the problems for the orders and products.

 Therefore,it will make sure to reduce the risk of bad situation to happen.

 Point to point service: There is 1 sale who will serve you from inquiry to products shipped out.During  the process,you just need to discuss with her for all problems and the way saves much time.

 Free design: If you are not ready for the designs,the professional designers will be able to help you with it freely.

 Strict QC: For each order,strict inspection will be carried out by the QC department before shipping.The bad quality will be avoid within door.

Function: Pressed
Material: Stainless Steel
Usage: Industrial, Furniture
Load Type: Compression
Production Process: Hot Roll
Shape: Cylinder
Samples:
US$ 30/Piece
1 Piece(Min.Order)

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Customization:
Available

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lift cylinder

How does a lift cylinder contribute to energy-efficient lifting?

A lift cylinder plays a significant role in promoting energy-efficient lifting operations. Here's an explanation of how lift cylinders contribute to energy efficiency:

1. Hydraulic System Efficiency:

Lift cylinders are commonly used in hydraulic systems, which are known for their high efficiency. Hydraulic systems utilize pressurized fluid to transmit power, allowing for smooth and controlled lifting operations. The hydraulic fluid is circulated within the system, and the lift cylinder converts the pressure of the fluid into mechanical force to lift the load. Compared to other mechanical lifting mechanisms, hydraulic systems, including lift cylinders, experience minimal energy loss due to their efficient power transmission.

2. Power-to-Weight Ratio:

Lift cylinders are designed to have a high power-to-weight ratio. This means that they can generate a substantial lifting force relative to their weight. By utilizing lightweight yet durable materials and optimizing the design, lift cylinders can effectively lift heavy loads while minimizing the amount of energy required. The efficient power-to-weight ratio contributes to energy efficiency by reducing the overall power consumption during lifting operations.

3. Load-Specific Design:

Lift cylinders are often engineered to match the specific load requirements of lifting applications. By customizing the design parameters, such as bore size, stroke length, and operating pressure, lift cylinders can be optimized for the intended load capacities and lifting tasks. This load-specific design ensures that the lift cylinder operates at its optimal efficiency, minimizing energy waste and maximizing the lifting performance.

4. Regenerative Systems:

In certain lifting applications, lift cylinders can be integrated into regenerative systems. Regenerative systems capture and store energy that would otherwise be dissipated as heat during the lowering phase of the lifting operation. This stored energy can then be reused to assist in the subsequent lifting process, reducing the overall energy consumption. Regenerative systems enhance energy efficiency by utilizing the otherwise wasted energy to partially power the lifting operation.

5. Control Systems:

Advanced control systems can be implemented in conjunction with lift cylinders to optimize energy efficiency. These control systems, such as proportional valves or variable-speed drives, allow for precise control of the lifting process. By adjusting the flow rate or speed of the hydraulic fluid, operators can match the power output of the lift cylinder to the specific load requirements, minimizing energy waste and improving overall efficiency.

6. Maintenance and Optimization:

Regular maintenance and optimization of lift cylinders are essential for maintaining energy efficiency. Proper lubrication, seal replacements, and overall system inspections help ensure that the lift cylinder operates at its peak performance. By identifying and addressing any issues or inefficiencies, maintenance practices contribute to energy-efficient lifting operations.

In summary, lift cylinders contribute to energy-efficient lifting through hydraulic system efficiency, a high power-to-weight ratio, load-specific design, regenerative systems, control systems, and proper maintenance. By utilizing these features and practices, lift cylinders help minimize energy consumption and enhance overall lifting efficiency.

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

What are the key components of a lift cylinder?

A lift cylinder, also known as a hydraulic lift cylinder or hydraulic lifting cylinder, consists of several key components that work together to enable its functionality. Here's an explanation of the key components of a lift cylinder:

1. Cylinder Barrel:

The cylinder barrel is a cylindrical hollow tube that forms the main body of the lift cylinder. It provides the housing for the other components and contains the hydraulic fluid, allowing it to flow in and out of the cylinder.

2. Piston:

The piston is a cylindrical component that separates the cylinder barrel into two chambers. It is typically made of metal and has a precise fit within the cylinder barrel. The piston's movement within the cylinder barrel is crucial for generating the lifting force.

3. Rod:

The rod, also known as the piston rod or plunger rod, is attached to the piston and extends from the cylinder barrel. It serves as a connection point for the load or the mechanism being lifted. The rod transfers the lifting force generated by the piston to the load.

4. Seals:

Seals are essential components that prevent hydraulic fluid leakage and maintain the integrity of the hydraulic system. They are located between the cylinder barrel and the piston, as well as around the rod. Seals ensure that the hydraulic fluid remains contained within the cylinder and prevent external contaminants from entering the system.

5. Hydraulic Fluid:

Hydraulic fluid, such as oil or synthetic fluid, is the medium used to transmit force within the lift cylinder. It is stored within the cylinder barrel and flows in and out of the cylinder to generate the necessary pressure for lifting and lowering operations.

6. Control Valve:

A control valve is a crucial component that regulates the flow of hydraulic fluid into and out of the lift cylinder. It determines the direction and amount of fluid entering the cylinder, allowing for precise control of the lifting and lowering operations. The control valve is typically operated by the operator or controlled automatically in hydraulic systems.

These key components work together to enable the operation of the lift cylinder. When hydraulic fluid is supplied to the appropriate chamber of the cylinder, it applies pressure on the piston, causing it to move and extend or retract the rod. This movement generates the lifting or lowering force required for a specific application.

China best Gas Spring Lift for Office Class 2 3 4 Gas 120mm Chair Parts Lift Swivel Chair Cylinders Chair Pump Aluminium Pipe   vacuum pump ac system	China best Gas Spring Lift for Office Class 2 3 4 Gas 120mm Chair Parts Lift Swivel Chair Cylinders Chair Pump Aluminium Pipe   vacuum pump ac system
editor by CX 2023-11-09