Product Description
China Manufacturer hydraulic Forklift Tilt Cylinder 18.1MPa 8.2kg
A forklift tilt cylinder, also known as a mast tilt cylinder, is a hydraulic component used in forklifts to control the tilting motion of the mast and forks. It is responsible for adjusting the angle of the divisions to accommodate different load-handling requirements. The forklift tilt cylinder is a critical component that enables efficient and precise load handling in forklift operations. It provides the necessary control and power to adjust the tilt angle of the mast and forks, allowing for safe and effective material handling in various industrial and warehouse settings.
| bore diameter (D) | rod diameter (d) | stroke (S) | Installation distance (L) | working pressure | Interface dimensions (M) | weight |
| Φ63 | Φ25 | 55 | 368 | 18.1MPa | 2-G1/4 | 8.2kg |
(1) Our company can customize non-standard oil cylinders within the range of cylinder diameter D360MM and stroke L6000MM according to customer requirements;
(2) The above product prices are nontax unit prices, excluding packaging and transportation costs required for export
Here are some key points about the forklift tilt cylinder:
Function: The primary function of the forklift tilt cylinder is to control the tilting movement of the mast and forks. It allows the operator to tilt the forks CHINAMFG or backward to lift, transport, and deposit loads. The forklift operator can ensure load stability, precise positioning, and safe material handling by adjusting the tilt angle.
Hydraulic Power: The forklift tilt cylinder is powered by the hydraulic system of the forklift. It is connected to hydraulic lines that supply hydraulic fluid under pressure. The hydraulic system consists of a hydraulic pump, control valves, hoses, and a reservoir. When the operator activates the tilt control lever, hydraulic fluid is directed to the tilt cylinder, causing it to extend or retract and initiate the tilting motion.
Construction: The forklift tilt cylinder is typically a double-acting hydraulic cylinder. It comprises a cylindrical barrel, a piston rod, and seals to prevent fluid leakage. The cylinder is mounted on the forklift's mast and connected to the carriage or tilting mechanism. The piston rod extends and retracts within the cylinder barrel, allowing the mast and forks to tilt.
Control: The operator controls the forklift tilt cylinder using a control lever or joystick located in the forklift's operator compartment. By manipulating the control lever, the operator can activate the hydraulic system to extend or retract the tilt cylinder, thereby adjusting the tilt angle of the forks. Many forklifts also feature additional controls for fine-tuning the tilt movement and achieving precise load positioning.
Safety Features: Forklifts are equipped with safety features related to the tilt cylinder operation. These may include tilt speed control, load backrests, and tilt lock mechanisms to prevent unintentional tilting or ensure the forks remain fixed during transport.
Maintenance: Regular maintenance and inspection of the forklift tilt cylinder are essential to ensure its proper functioning. This includes checking for leaks, verifying the condition of seals, and maintaining the hydraulic fluid at the recommended level and quality. Any signs of damage or malfunction should be addressed promptly to prevent equipment downtime and ensure safe operation.
How To Maintain Forklift Tilt cylinder
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Regular Inspection: Conduct routine inspections of the tilt cylinder to check for any signs of leaks, damage, or wear. Inspect the cylinder barrel, piston rod, seals, and hydraulic connections. Look for any fluid leaks around the cylinder and ensure all connections are secure.
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Lubrication: Follow the manufacturer's guidelines for lubricating the tilt cylinder. Apply the recommended lubricant to the cylinder's moving parts, such as the piston rod and seals, to reduce friction and ensure smooth operation. Avoid using excessive amounts of oil that could attract dirt or debris.
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Cleanliness: Keep the tilt cylinder and its surroundings clean. Remove any dirt, debris, or contaminants that may accumulate on the cylinder or the hydraulic system. Use a clean cloth or compressed air to remove dust and dirt from the cylinder components.
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Hydraulic Fluid: Maintain the proper level and quality of hydraulic fluid in the forklift's hydraulic system. Check the fluid level regularly and top it up as needed. Follow the manufacturer's recommendations for the type and viscosity of hydraulic fluid. If the fluid appears dirty or contaminated, consider draining and replacing it.
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Seals and Gaskets: Inspect the seals and gaskets of the tilt cylinder for any signs of wear or damage. Replace any worn or leaking seals promptly to prevent hydraulic fluid leakage and ensure proper cylinder operation.
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Tilt Cylinder Control: Check the operation of the tilt cylinder control lever or joystick. Ensure it moves smoothly and returns to its neutral position correctly. If there are any issues with the control mechanism, have it inspected and repaired by a qualified technician.
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Professional Maintenance: Schedule regular maintenance checks with a certified forklift technician or service provider. They can perform more in-depth inspections, test the tilt cylinder's performance, and address any maintenance or repair needs identified during the inspection.
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Operator Training: Properly train forklift operators on the correct operation of the tilt cylinder and the importance of its maintenance. Encourage operators to promptly report any unusual noises, leaks, or malfunctions related to the tilt cylinder.
Always follow the manufacturer's guidelines and consult the forklift's maintenance manual for specific instructions and intervals. Adhering to a regular maintenance schedule and promptly addressing any issues will help ensure the forklift tilt cylinder operates smoothly, enhancing safety and efficiency in material handling operations.
Our Company
We have a first-class independent R&D platform for assembly. The forklift cylinder production workshop has 4 semi-automatic lifting cylinder assembly lines and 1 fully automatic tilting cylinder assembly line, with a designed annual production capacity of 1 million pieces; the special cylinder workshop is equipped with semi-automatic cleaning and assembly systems of various specifications, with a designed annual production capacity of 200,000 essays. It has famous CNC machining equipment, machining centers, special equipment for high-precision cylinder processing, robot welding machines, automatic cleaning machines, automatic cylinder assembly machines, and automatic paint production lines. We have more than 300 sets of critical equipment running. The optimized allocation and efficient utilization of equipment resources ensure the precision requirements of the products and meet the high standard quality requirements of the products.
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Forklift cylinder assembly shop |
Other types of cylinder assembly shop |
Welding
Painting & coating
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Painting & coating line |
Fully automatic water-based |
Testing
To further improve product performance, and establish the leadership position of our hydraulic cylinder in the industry, our company and zjimee jointly established a Comprehensive performance laboratory of hydraulic cylinders, hydraulic valves, and hydraulic pumps; the lab is computer-assisted testing, using electro-hydraulic control technology, the test conditions preset by computer, which improves the test accuracy and system versatility, and the experimental data.
The automatic collection is realized through the application of sensors, and the output data, such as the internal leakage and load efficiency of the cylinder or the valve, are directly processed by the
computer and converted to standard units (ml/min; %). At the same time, to ensure the working safety of the hydraulic system, the state monitoring function is carried out for key performance parameters, such as "oil temperature monitoring, liquid level monitoring, filter device monitoring," etc. Among them, the hydraulic cylinder test stand can test the performance of "load efficiency" and "internal leakage" by readings. At the same time, it is equipped with a grating ruler measuring instrument, which meets the requirements of all test items of hydraulic cylinder products in the national standard
Our Factory
Packaging & Shipping
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| Certification: | GS, RoHS, CE, ISO9001 |
|---|---|
| Pressure: | Medium Pressure |
| Work Temperature: | Normal Temperature |
| Acting Way: | Double Acting |
| Working Method: | Rotary |
| Adjusted Form: | Regulated Type |
Can hydraulic cylinders be used in rough terrain forklifts?
Yes, hydraulic cylinders can be used in rough terrain forklifts. Hydraulic systems, including hydraulic cylinders, are an essential component of rough terrain forklifts and play a crucial role in their operation. Here's an explanation of their use:
Rough terrain forklifts are specifically designed to operate in challenging outdoor environments, such as construction sites, lumber yards, and agricultural settings. These forklifts are equipped with features that allow them to navigate uneven terrain, slopes, and other rough surfaces. Hydraulic cylinders are integral to their performance in the following ways:
1. Lifting Functionality:
The hydraulic cylinder in a rough terrain forklift is responsible for lifting and lowering the load-carrying forks. It provides the necessary force to elevate heavy loads to the desired height. The hydraulic system allows precise control over the lifting speed and positioning, enabling efficient material handling even on rough and uneven surfaces.
2. Suspension System:
Rough terrain forklifts are equipped with a suspension system that helps absorb shocks and vibrations during operation. Hydraulic cylinders are often used as part of the suspension system to provide damping and improve ride comfort. These cylinders help cushion the impact of uneven terrain, reducing the transfer of vibrations to the forklift and the load being carried.
3. Stability and Balance:
Hydraulic cylinders contribute to the stability and balance of rough terrain forklifts. They are used to control the extension and retraction of the mast assembly, which supports the forks and the load. By adjusting the mast height and angle, the cylinders help maintain stability and balance, especially when operating on slopes or uneven ground.
4. Steering and Maneuverability:
Some rough terrain forklifts utilize hydraulic cylinders in their steering mechanisms. These cylinders assist in turning and maneuvering the forklift, allowing it to navigate through tight spaces and negotiate obstacles on rough terrain. The hydraulic system provides the necessary power and control for smooth and precise steering operations.
Overall, hydraulic cylinders are essential components of rough terrain forklifts. They enable the lifting functionality, contribute to the suspension system for improved ride comfort, help maintain stability and balance, and assist in steering and maneuverability. By utilizing hydraulic power, these forklifts can effectively handle the challenges of rough outdoor environments and ensure efficient material handling operations.
In summary, hydraulic cylinders are indeed used in rough terrain forklifts. Their presence in these forklifts enables reliable lifting, enhances stability and balance, improves ride comfort through suspension systems, and assists in steering and maneuverability on uneven surfaces. The use of hydraulic technology is instrumental in achieving optimal performance and productivity in rough terrain applications.
How does a forklift hydraulic cylinder handle variations in seal technology?
A forklift hydraulic cylinder is designed to handle variations in seal technology to ensure effective sealing and reliable performance. Here's an explanation of how it achieves this:
The hydraulic cylinder's ability to accommodate different seal technologies is essential for maintaining hydraulic fluid integrity and preventing leakage. The cylinder handles variations in seal technology through the following mechanisms:
1. Seal Compatibility:
Forklift hydraulic cylinders are designed to be compatible with various types of seal technologies. Different seal materials and designs are available, such as O-rings, lip seals, and composite seals. The cylinder is manufactured with precise dimensions and tolerances to accommodate the specific seal technology being used. This compatibility ensures a proper fit and seal, regardless of the seal technology employed.
2. Material Selection:
The choice of cylinder material is also crucial in handling variations in seal technology. Different seal materials have varying compatibility with specific cylinder materials. Forklift hydraulic cylinders are typically constructed using materials such as steel or aluminum alloys, which offer excellent compatibility with a wide range of seal technologies. The cylinder material is selected to work harmoniously with different seal materials, ensuring reliable sealing performance.
3. Seal Design and Construction:
The design and construction of seals in the hydraulic cylinder are optimized to accommodate variations in seal technology. Seal manufacturers develop seals with specific features and characteristics tailored to different applications. These features may include improved sealing lip geometry, advanced materials with enhanced wear resistance, and specialized sealing mechanisms. The cylinder is designed to accommodate these variations, providing the necessary space and support for the specific seal technology being utilized.
4. Testing and Quality Control:
Hydraulic cylinders undergo rigorous testing and quality control processes to ensure seal compatibility and performance. During manufacturing, seals are inspected for proper fit, dimensions, and sealing integrity. The hydraulic system is also subjected to pressure and leakage tests to verify the effectiveness of the seals and overall system performance. These testing and quality control measures help identify any issues related to seal technology and allow for necessary adjustments or improvements.
In summary, a forklift hydraulic cylinder handles variations in seal technology through seal compatibility, appropriate material selection, seal design and construction, and rigorous testing and quality control. These measures ensure that the cylinder can effectively accommodate different seal technologies, providing reliable sealing performance and preventing hydraulic fluid leakage.
How Does a Forklift Hydraulic Cylinder Contribute to Precise Load Positioning?
A forklift hydraulic cylinder plays a crucial role in achieving precise load positioning during material handling operations. The hydraulic cylinder, along with the hydraulic system of a forklift, enables operators to accurately lift, lower, and position loads with precision. Here's how a forklift hydraulic cylinder contributes to precise load positioning:
- Controlled Lifting and Lowering:
- Smooth and Gradual Movements:
- Load Sensing and Feedback:
- Fine Adjustment Controls:
- Stability and Balance:
The hydraulic cylinder allows for controlled lifting and lowering of the load. When the operator activates the controls to lift the load, the pressurized hydraulic fluid is directed to the hydraulic cylinder. The hydraulic pressure exerts force on the piston, causing it to extend and lift the load. By regulating the hydraulic pressure and flow, the operator can precisely control the height to which the load is raised. Similarly, during lowering, the hydraulic system enables a controlled descent, allowing for accurate placement of the load.
The hydraulic system, including the cylinder, facilitates smooth and gradual movements of the load. This is achieved through the use of control valves and hydraulic fluid flow regulation. By adjusting the valve settings, the operator can control the speed at which the hydraulic fluid enters or exits the cylinder, resulting in smooth and gradual movements. This level of control allows for precise positioning of the load, especially when working in tight spaces or when dealing with fragile or sensitive materials.
Modern forklifts often incorporate load sensing mechanisms in their hydraulic systems, which further enhance precise load positioning. Load sensing valves continuously monitor the force exerted on the hydraulic cylinder and provide feedback to the hydraulic system. This feedback enables the hydraulic system to adjust the hydraulic pressure and flow rate in real-time, ensuring that the load is positioned accurately and safely. Load sensing technology helps compensate for variations in load weight and provides the operator with greater control and precision.
Forklift hydraulic systems are typically equipped with fine adjustment controls that allow for precise load positioning. These controls, often in the form of joysticks or knobs, enable the operator to make small, incremental adjustments to the lift height or tilt angle of the forks. By manipulating these controls, the operator can fine-tune the position of the load to align it with racks, shelves, or other designated areas. These fine adjustment controls provide the operator with fine-grained control over load positioning, increasing accuracy and efficiency.
The hydraulic cylinder works in conjunction with the overall design and stability features of the forklift to contribute to precise load positioning. Forklifts are designed with a stable base, a low center of gravity, and features such as tilt cylinders and mast positioners. These elements ensure stability and balance during load handling operations, allowing for more accurate positioning of the load. The hydraulic cylinder's smooth and controlled movements, combined with the stability features of the forklift, enable precise load placement without compromising safety or stability.
In summary, a forklift hydraulic cylinder contributes to precise load positioning through controlled lifting and lowering, smooth and gradual movements, load sensing and feedback mechanisms, fine adjustment controls, and the overall stability and balance of the forklift. These features and capabilities empower operators to handle loads with precision, align them accurately in designated areas, and optimize material handling operations in various industrial settings.
editor by CX 2024-01-23