Product Description

Part number Tube dia  mm Rod dia  mm Stroke  mm
205-63-57100 120 85 1285
206-63-57100 120 85 1285
205-63-57160 120 85 1285
205-63-57120   135 95 1490
203-63-57130 125 85 1120
203-63-57131 125 85 1120
205-63-57130 125 85 1120

1.Supply to USA,Europe,and Australia, Russia.
2.Material:Stainless Steel
3.Professional performance excavator parts supplier
4. High quality and low price


Q1: Are you Manufacture or Trade Company?
A1: We are manufacture,we have 20 years experience for supply Metal material and products in domestic.

Q2: How can we guarantee quality?
A2: Always a pre-production sample before mass production;Always final Inspection before shipment;

Q3: What is your terms of payment ?
A3: 1.T/T: 30% deposit in advance, the balance 70% paid before shipment
2.30% down payment, the balance 70% paid against L/C at sight
3.CHINAMFG negotiation

Q4: Can you provide Certificates for aluminum materials ?
A4:Yes,we can supply MTC-Material Test Certificate.

Q5: Can you provide sample?
A5: Yes, we can provide you sample, but you need to pay for the sample and freight firstly. We will return the sample fee after
you make an order.


Certification: GS, RoHS, CE, ISO9001
Pressure: Medium Pressure
Work Temperature: Normal Temperature
Acting Way: Double Acting
Working Method: Piston Cylinder
Adjusted Form: Switching Type


forklift hydraulic cylinder

How Does a Forklift Hydraulic Cylinder Handle Variations in Temperature?

A forklift hydraulic cylinder is designed to handle variations in temperature effectively to ensure reliable and consistent performance. The hydraulic system, including the cylinder, is engineered to withstand both high and low temperatures commonly encountered in different operating environments. Here's a detailed explanation of how a forklift hydraulic cylinder handles variations in temperature:

  1. Temperature-Resistant Seals:
  2. Hydraulic cylinders in forklifts are equipped with seals that are specifically designed to withstand temperature fluctuations. These seals are made from high-quality materials such as synthetic rubber or thermoplastic elastomers that have excellent resistance to heat and cold. The temperature-resistant seals ensure proper sealing and prevent leakage of hydraulic fluid, even when exposed to extreme temperature conditions.

  3. Hydraulic Fluid Selection:
  4. The choice of hydraulic fluid plays a crucial role in temperature management within the hydraulic system, including the cylinder. Different types of hydraulic fluids are available, each with specific temperature ranges for optimal performance. Forklift manufacturers typically recommend hydraulic fluids that are suitable for the expected operating temperatures. These fluids have properties that enable them to maintain consistent viscosity and lubrication characteristics, ensuring smooth cylinder operation across a wide temperature range.

  5. Thermal Expansion Compensation:
  6. Variations in temperature cause materials to expand or contract. Hydraulic cylinders are designed to accommodate the thermal expansion of components effectively. The materials used in the cylinder construction, such as steel or aluminum alloys, have specific coefficients of thermal expansion. By considering these properties during the design and manufacturing process, forklift hydraulic cylinders are built to compensate for thermal expansion, minimizing the risk of structural damage or performance issues due to temperature changes.

  7. Heat Dissipation and Cooling:
  8. In high-temperature environments, forklift hydraulic cylinders may be exposed to heat generated by the hydraulic system or external sources. To prevent overheating, cylinders are often equipped with cooling mechanisms. These mechanisms can include cooling fins or external cooling systems that help dissipate heat and maintain the cylinder within the desired temperature range. Effective heat dissipation ensures that the hydraulic fluid retains its optimal properties and that the cylinder operates efficiently and reliably.

  9. Cold Start Considerations:
  10. In low-temperature conditions, such as during cold starts, hydraulic cylinders may experience increased viscosity of the hydraulic fluid, which can affect their performance. To mitigate this issue, forklift hydraulic systems are designed with features such as preheating systems or low-temperature hydraulic fluids. These measures help to warm up the hydraulic fluid and ensure its proper flow and lubrication, allowing the hydraulic cylinder to operate smoothly even in cold environments.

  11. Insulation and Protective Measures:
  12. In extreme temperature conditions, additional insulation or protective measures may be applied to the hydraulic cylinder and its components. Insulation materials can help maintain stable operating temperatures within the cylinder, preventing heat loss in cold environments or minimizing heat absorption in hot environments. Protective coatings or covers may also be used to shield the cylinder from external temperature fluctuations or exposure to harsh elements, ensuring its longevity and performance.

By incorporating temperature-resistant seals, selecting suitable hydraulic fluids, compensating for thermal expansion, implementing heat dissipation mechanisms, considering cold start conditions, and applying insulation or protective measures, forklift hydraulic cylinders are designed to handle variations in temperature effectively. These design considerations ensure the reliable and consistent operation of the hydraulic system, enabling forklifts to perform optimally in diverse temperature environments.

forklift hydraulic cylinder

How does a forklift hydraulic cylinder handle variations in cylinder mounting?

A forklift hydraulic cylinder is designed to handle variations in cylinder mounting to accommodate different forklift configurations and applications. Here's an explanation of how it can handle such variations:

The forklift hydraulic cylinder handles variations in cylinder mounting in the following ways:

1. Adjustable Mounting Brackets:

Many forklift hydraulic cylinders feature adjustable mounting brackets. These brackets allow for flexibility in positioning and aligning the cylinder to fit the specific requirements of the forklift. By adjusting the mounting brackets, the cylinder can be securely attached to the forklift frame, accommodating variations in mounting points, angles, and distances.

2. Threaded Rod Ends:

Threaded rod ends are commonly used in forklift hydraulic cylinders. These rod ends provide a threaded connection that allows for fine adjustments in cylinder mounting. By rotating the rod ends, the cylinder's position can be modified, compensating for variations in mounting locations or angles.

3. Clevis Mounts:

Clevis mounts are another type of mounting mechanism used in forklift hydraulic cylinders. These mounts consist of a clevis bracket that attaches to the cylinder and a clevis pin that connects to the forklift. Clevis mounts offer a range of mounting positions to accommodate different forklift configurations. They provide flexibility in cylinder attachment, allowing for adjustments to compensate for variations in mounting points and angles.

4. Customizable Mounting Options:

In some cases, forklift hydraulic cylinders can be customized to meet specific mounting requirements. Manufacturers may offer options for custom brackets, rod ends, or mounting configurations based on the forklift's unique specifications. This customization ensures proper alignment and secure attachment of the cylinder, even in situations with significant variations in mounting.

5. Alignment and Adjustment Mechanisms:

Forklift hydraulic cylinders may incorporate alignment and adjustment mechanisms to facilitate proper cylinder mounting. These mechanisms, such as swivel joints or adjustable linkage systems, allow for fine-tuning and alignment of the cylinder during installation. They enable the operator or technician to compensate for any variations in mounting, ensuring optimal performance and functionality.

In summary, a forklift hydraulic cylinder can handle variations in cylinder mounting through adjustable mounting brackets, threaded rod ends, clevis mounts, customizable mounting options, and alignment and adjustment mechanisms. These features provide flexibility and adaptability, allowing the cylinder to be securely mounted and properly aligned to ensure efficient and reliable operation in different forklift configurations and applications.

forklift hydraulic cylinder

How Does a Forklift Hydraulic Cylinder Handle Variations in Lift Height?

A forklift hydraulic cylinder is responsible for raising and lowering the forks or lifting platform, allowing the forklift to handle loads at different heights. It handles variations in lift height through a combination of design features and hydraulic principles. Here's a detailed explanation of how a forklift hydraulic cylinder handles variations in lift height:

1. Piston and Cylinder Design:

The hydraulic cylinder consists of a piston and a cylinder, which are sealed together to form a closed hydraulic system. The piston is connected to the forks or lifting platform, while the cylinder is fixed to the forklift frame. The design of the piston and cylinder allows for smooth movement and effective transfer of hydraulic pressure to generate lifting force.

2. Hydraulic Fluid and Pressure:

The hydraulic cylinder operates on the principle of Pascal's Law, which states that when pressure is applied to a fluid in a closed system, it is transmitted equally in all directions. In the case of a forklift hydraulic cylinder, hydraulic fluid is used as the medium to transmit pressure. When hydraulic fluid is pumped into the cylinder, it creates pressure on the piston, causing it to move upward and lift the forks or lifting platform.

3. Cross-Sectional Area and Force:

The cross-sectional area of the piston within the hydraulic cylinder determines the force that can be exerted. A larger piston area can generate a greater lifting force. By varying the diameter of the piston, forklift manufacturers can adjust the lifting capacity and handle variations in lift height. Forklifts designed for heavier loads typically have larger piston areas to generate the necessary lifting force.

4. Valves and Controls:

The hydraulic system of a forklift includes valves and controls that regulate the flow of hydraulic fluid to the cylinder. These valves, such as control valves and relief valves, allow for precise control of the lifting operation. By adjusting the valves, operators can control the speed of ascent and descent, enabling smooth and controlled variations in lift height.

5. Telescopic Cylinders:

In some forklift designs, especially those used for high-reach applications, telescopic cylinders are employed. Telescopic cylinders consist of several nested stages that extend and retract, providing increased lift height. These cylinders allow for a compact design when retracted while offering extended reach when fully extended. Telescopic cylinders enable forklifts to handle variations in lift height without compromising stability or requiring excessively long cylinder strokes.

6. Stability and Counterbalancing:

Handling variations in lift height requires maintaining forklift stability. Forklifts are designed with counterweight systems to balance the load and prevent tipping. The hydraulic cylinder's operation is coordinated with the counterweight system, ensuring that the center of gravity remains within safe limits during lifting and lowering operations. This counterbalancing helps maintain stability even when handling loads at different heights.

Through careful design, hydraulic principles, and the integration of valves and controls, a forklift hydraulic cylinder effectively handles variations in lift height. The combination of hydraulic pressure, piston and cylinder design, control mechanisms, and counterbalancing ensures precise and controlled lifting operations, allowing forklifts to safely handle loads at different heights as required in various material handling applications.

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editor by CX 2023-10-20