Product Description

 

Types of gas springs

1. Support gas spring
Also called free-type gas spring. Support rod. It is the most widely used gas spring. It mainly plays a supporting role, with only the shortest and longest positions, and cannot stop by itself during the stroke. It is most widely used in mechanical equipment, furniture and other fields.

2. Lockable(Controllable) gas spring
The controllable gas spring can be locked at any position of the entire stroke, mainly through the controller (handle or cable) to achieve the effect, but also through the expansion and contraction of the piston rod. When the controller is adjusted to stop at the desired position, the valve will be closed and the live cooling rod will be locked in the required position. When locking occurs, locking can be achieved. However, if the locking force is exceeded, the locking function will no longer be effective.

3. Damper
Damper features reduce inertia and reduce speed by changing size. Its resistance changes with the speed of operation. The speed of the connected mechanism can be significantly damped.

4. Tensile gas spring
Also known as a traction gas spring, it uses an internal piston rod to achieve basic positioning. It is a special gas spring. The supporting gas spring is in the longest position when it is in a free state. After receiving external force, it moves from the longest position to the shortest position, while the free state of the traction gas spring is at The shortest position, running from the shortest to the longest when being pulled. Traction gas springs also have corresponding free type, self-locking type and so on.
 

 

YQ series air bombs are widely used in automobile, household, computer, fitness equipment, textile, printing, food, tobacco, woodworking and other machinery, and can play the role of lifting, suspending, closing and so on.

The product structure is reasonable, and the installation and maintenance are convenient. No external power is needed when working, saving energy. The lifting force is basically constant throughout the working stroke, and the end of the stroke has a buffer mechanism to avoid damage to components. The lifting member can be stopped in any position.
 

MODEL d(mm) D(mm) L(mm) S(mm) Force(kgf)
YQ13 Φ6 Φ15 100-550 50-200 5-35
YQ16 Φ8 Φ18 210-580 50-220 15-50
YQ20A Φ10 Φ22 300-700 100-300 30-80
YQ20B Φ12 Φ22 400-700 100-300 40-100
YQ25A Φ12 Φ27 600-800 220-350 60-130
YQ25B Φ14 Φ28 600-900 220-350 100-300
YQ25C Φ16 Φ28 600-1200 220-900 100-300

sample.the length, stroke,pressure can be customized
Gas spring installation location selection

There are 2 optional installation styles:
1. AO is less than the length of OB
2. OB is less than the length of AO

• Calculate the approximate stroke of the gas spring used when setting points A and B first:
The AB length after opening the lid minus the AB length after closing is equal to the required air bomb stroke;

Re-calculate whether the selected gas bomb praise is reasonable:
Gas spring stroke x2+80mm=AB length after opening.
 

Note: If the result obtained is greater than the length of AB, then it is necessary to move point A to point 0 or point B to move to point O to increase the length of point AB, that is, increase the length of the gas spring.

YK series gas springs are suitable for various occasions where the angle and height need t be adjusted. The piston rod can be stopped at any position under human manipulation. YK series gas springs operate flexibly, work stably and reliably. Can be designed and manufactured according to user requirements. For matters needing attention, please refer to the YQ series gas spring.
 

MODEL D(mm) d1(mm) L(mm) S(mm) Thread diameter Force(kgf)
Lockable YK Φ22 Φ10 225 60 M10*1 300-700
210 50
200 40
130 30
Φ28 760 280 300-900
175 50
170 42
155 40
128 28

 

This product is divided into pure oil, pure gas, oil and gas mixing, oil and gas separation and other construction machinery shock absorbers. This product is widely used in the shock absorption of engineering vehicle seats, which can effectively eliminate the vibration caused by the mechanical spring under the action of gravity. The aftershocks make the driver and passengers feel smooth and comfortable.

The oil-gas hybrid shock absorber has a good gas buffering effect and is the first choice shock absorber for modern engineering vehicle seats.
 

 

 

1. Samples can be offered to test before placing orders.
2. Low MOQ. Small orders are accepted.
3. OEM & ODM. Customization service is offered, including logo, laser marking.
4. Outstanding R&D ability,including product development and mould development.
5. Great pre-sales and after sales service.
HangZhou Manjia Youchuang Household Products Co., Ltd. is a professional dampers and gas springs manufacturer which collects research, design, production and sale.

Our technical backbone has been engaged in the R&D and production of dampers for more than 22 years experience. The professional and well trained production department and QC staff could assure the perfect performance of our Dampers products. For the quality assurance rate of over 99.98%, and the stability of delivery time rate more than 99.96%.

Q1. Can I have a sample for testing?

A: Yes, samples are in stock, we will return sample fee back to you once you make a bulk order from us.

 

Q2. What about the lead time?

A: Sample needs 1-3 days, mass production time needs around 15 days for order quantity more than 10,000 pieces.

 

Q3. What is your MOQ?

A: Under normal circumstances, the order quantity is 1000 pieces. If you need less than 1,000 pieces, please contact customer service.

 

Q4. How do you ship the goods and how long does it take to arrive?
A: We usually ship by DHL, UPS, FedEx or TNT. It usually takes 3-5 days to arrive. Shipping time depend on the shipping way you choose.

 

Q5. Can I print my logo on the product?

A: Yes. Please inform us formally before our production and confirm the design firstly based on our sample. Customized design is available. OEM and ODM are offered.

 

Q6. Do you offer guarantee for the products?
A: Yes, we offer 1 year warranty to our products.

 

Q7: How to deal with the faulty?

A: Our products are produced in strict quality control system and the defective rate will be less than 0.2%.During the guarantee period, we will send new dampers with new order for small quantity. For defective batch products, we will repair them and resend them to you or we can discuss the solution.

 

Function: Pressed, Phonation, Buffer, Drive, Restoration, Measurement
Material: Alloy
Load Type: Compression
Samples:
US$ 15/Piece
1 Piece(Min.Order)

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Order Sample

Customization:
Available

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

lift cylinder

How does a lift cylinder handle variations in fluid pressure and flow rate?

A lift cylinder is designed to handle variations in fluid pressure and flow rate in order to ensure smooth and controlled operation. Here's an explanation of how lift cylinders handle these variations:

1. Fluid Pressure:

Lift cylinders are typically part of a hydraulic system that utilizes pressurized fluid to generate the necessary force for lifting. The lift cylinder is designed to withstand varying fluid pressure levels. When the fluid pressure is increased, the lift cylinder can handle the additional force exerted on its piston. Conversely, when the fluid pressure decreases, the lift cylinder adjusts accordingly and maintains its functionality.

2. Flow Rate:

The flow rate of hydraulic fluid determines the speed at which the lift cylinder extends or retracts. Lift cylinders are designed to accommodate variations in flow rate. By controlling the flow rate of the hydraulic fluid through the use of control valves or flow control devices, operators can adjust the speed of the lift cylinder's movement. This allows for precise and controlled lifting operations.

3. Control Valves:

Control valves are an integral part of the hydraulic system that regulates the fluid pressure and flow rate. Lift cylinders are often equipped with control valves that enable operators to control the movement of the cylinder by adjusting the pressure and flow of the hydraulic fluid. These valves can be manually operated or automated, providing flexibility in handling variations in fluid pressure and flow rate.

4. Cylinder Design:

Lift cylinders are designed to be robust and durable, capable of withstanding variations in fluid pressure and flow rate. The cylinder's construction and materials are selected to ensure optimal performance under different operating conditions. Seals and other components within the lift cylinder are designed to maintain their functionality and prevent leakage, even when subjected to changes in fluid pressure and flow rate.

5. Fluid Control Systems:

In more advanced lift cylinder systems, fluid control systems may be employed to handle variations in fluid pressure and flow rate. These systems can include pressure relief valves, flow control valves, or proportional valves. Pressure relief valves protect the lift cylinder and the hydraulic system from excessive pressure, while flow control valves regulate the flow rate of the hydraulic fluid. Proportional valves provide precise control over both pressure and flow, allowing for fine-tuning of the lift cylinder's movement.

In summary, lift cylinders are designed to handle variations in fluid pressure and flow rate to ensure smooth and controlled lifting operations. With the use of control valves, robust cylinder design, and fluid control systems, lift cylinders can adapt to changes in fluid pressure and flow rate, providing reliable and efficient performance.

lift cylinder

How Does a Lift Cylinder Contribute to Load Leveling and Distribution?

A lift cylinder plays a significant role in load leveling and distribution, ensuring stability and balanced weight distribution in various applications. Here's a detailed explanation of how a lift cylinder contributes to load leveling and distribution:

  1. Vertical Force Generation:
  2. When a lift cylinder is activated, it generates a vertical force that lifts or supports a load. The force exerted by the cylinder is directly proportional to its hydraulic or pneumatic pressure and the effective area of the piston. By adjusting the pressure or controlling the flow of fluid or gas into the cylinder, the force can be precisely regulated to achieve load leveling and distribution.

  3. Multi-Cylinder Systems:
  4. In applications where load leveling and distribution are critical, multiple lift cylinders may be used in a system. These cylinders work in synchronization to evenly distribute the load and maintain balance. By connecting the cylinders in parallel or series, the hydraulic or pneumatic pressure can be distributed across all cylinders, ensuring that each cylinder contributes proportionately to the load leveling and distribution process.

  5. Self-Leveling Mechanisms:
  6. Some lift cylinder systems incorporate self-leveling mechanisms to automatically adjust the position and angle of the load. These mechanisms utilize sensors or feedback systems that monitor the load distribution and make real-time adjustments to the lift cylinders. If an imbalance or uneven weight distribution is detected, the self-leveling mechanisms activate the appropriate lift cylinders to counteract the imbalance and restore equilibrium. This contributes to load leveling and distribution, preventing excessive stress on specific areas or components.

  7. Force Sensing and Control:
  8. Advanced lift cylinder systems may employ force sensing and control technologies to achieve precise load leveling and distribution. Force sensors are integrated into the lifting mechanism, allowing real-time monitoring of the forces exerted by the cylinders. This information is then used to adjust the hydraulic or pneumatic pressure, ensuring that each cylinder contributes optimally to the load distribution. By continuously monitoring and controlling the forces, the lift cylinder system can adapt to changing load conditions and maintain stable load leveling and distribution.

  9. Structural Support and Stability:
  10. Lift cylinders provide structural support and stability to the load-bearing components in various applications. By evenly distributing the load, the cylinders help prevent excessive stress or strain on specific components. They ensure that the weight is evenly spread across the supporting structure, reducing the risk of structural damage or failure. Lift cylinders also contribute to the overall stability of the system, minimizing unwanted movements or vibrations caused by imbalanced loads.

  11. Customization for Specific Applications:
  12. Lift cylinders can be customized and tailored to specific applications to optimize load leveling and distribution. Factors such as cylinder size, stroke length, bore diameter, and material strength can be selected based on the load characteristics and weight distribution requirements of the particular application. By considering the specific needs of the application, lift cylinders can be designed and implemented to achieve the desired load leveling and distribution performance.

Overall, a lift cylinder is a crucial component in achieving load leveling and distribution in various applications. Whether through vertical force generation, multi-cylinder systems, self-leveling mechanisms, force sensing and control, structural support, or customization, lift cylinders contribute to maintaining stability, balance, and even weight distribution, ensuring optimal performance and safety in diverse industrial and mechanical systems.

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 Good quality Heavy Duty Gas Strut Gas Lift Cylinder   vacuum pump oil	China Good quality Heavy Duty Gas Strut Gas Lift Cylinder   vacuum pump oil
editor by CX 2023-10-17