Product Description
Aerial Work Platform Telescopic Excavator Boom Pump Crawler Truck Crane Vehicle Forklift Hydraulic Cylinder for Steering Lifting Tilt Luffing Upper Leveling
Product Description
1. Forklift Hydraulic Cylinder
| Forklift lifting cylinder | Forklift tilt cylinder | Forklift steering cylinder |
2. Hydraulic Cylinder for Aerial Work Vehicles
• Lifting cylinder for Aerial Work Vehicles
• Steering cylinder for Aerial Work Vehicles
• Main boom angle cylinder
• Upper level cylinder
• Main boom extension cylinder
• Main boom angle cylinder
• Folding boom angle cylinder
3. Environmental production hydrualic cylinder
• Locking cylinder
• Swing arm cylinder
• Telescopic cylinder
4. Hydraulic Cylinder for Agricultural Machinery
• Grain tank lifting cylinder
• Towing and lifting cylinder
4. Hydraulic Cylinder for Crawler crane
• Lifting cylinder for crawler crane
• hydraulic cylinder for preventing rear tilt of boom
• cylinder for frame support
Applications of hydraulic cylinder
Here are some key points about forklift side shift cylinders:
1.Function: The side shift cylinder is responsible for controlling the movement of the forklift carriage and forks horizontally along the forklift's frame. It typically consists of a hydraulic cylinder, piston, seals, and a control valve. When hydraulic pressure is applied, the cylinder extends or retracts, pushing or pulling the carriage and forks laterally.
2.Benefits: Forklifts equipped with side shift cylinders offer several advantages. They allow operators to adjust the fork position to align with pallets or loads accurately, even in confined spaces. This feature reduces the need for constant repositioning of the forklift, saving time, and increasing productivity. Side shifting also improves safety by minimizing the risk of accidental collisions with racks, walls, or other obstacles.
3.Control: The side shift cylinder is typically controlled by hydraulic controls within the operator's reach. The operator can activate the controls to move the forks left or right, adjusting the position to align with the load or desired placement location.
4.Capacity and Compatibility: When selecting a side shift cylinder, consider its load capacity to ensure it can handle the maximum weight you typically handle with your forklift. Additionally, ensure compatibility with your forklift model. Different forklift manufacturers may have specific side shift cylinder designs or mounting requirements.
5.Maintenance: Regular maintenance is crucial to ensure optimal performance and longevity of the side shift cylinder. Inspect the cylinder for any signs of leaks, damage, or wear. Check the seals, hydraulic connections, and control valves for proper functioning. Follow the manufacturer's recommendations for lubrication and servicing intervals.
6.Safety Considerations: Operators should be trained on safely and correctly using the side shift feature. They should understand the limitations of the side shift cylinder and follow recommended load capacities and operating procedures. It is essential to prioritize safety and avoid exceeding the side shift cylinder's capabilities.
7.Manufacturer Support: Consider choosing a side shift cylinder from a reputable manufacturer that offers technical support, spare parts availability, and servicing options. This ensures you have access to assistance and resources if any issues arise.
How does the Forklift Side shift cylinder work?
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Hydraulic System: The forklift's hydraulic system powers the side shift cylinder. It consists of a hydraulic pump, control valves, hydraulic lines, and a hydraulic fluid reservoir. The hydraulic pump pressurizes the fluid, which is then directed to the side shift cylinder when the operator activates the controls.
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Control Valve: The control valve is the component that regulates the flow of hydraulic fluid to the side shift cylinder. It is typically operated by levers or buttons within the operator's reach. When the operator activates the control, the valve opens, allowing hydraulic fluid to flow into or out of the side shift cylinder.
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Side Shift Cylinder: The side shift cylinder is a hydraulic cylinder with a piston, piston rod, seals, and cylinder housing. It is attached to the forklift carriage and positioned parallel to the forks. The cylinder is designed to extend or retract, moving the carriage and forks laterally.
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Extension and Retraction: When the control valve is activated to extend the side shift cylinder, hydraulic fluid is directed into the cylinder, applying pressure on the piston. The pressure causes the piston to move outward, expanding the piston rod and pushing the carriage and forks in 1 direction. Conversely, when the control valve is activated to retract the side shift cylinder, hydraulic fluid is directed out of the cylinder, allowing the piston to move inward, pulling the carriage and forks in the opposite direction.
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Alignment and Positioning: The operator can precisely control the lateral movement of the forks by operating the control valve. By adjusting the flow of hydraulic fluid into or out of the side shift cylinder, the operator can align the forks with the load, position them accurately within pallets or racks, or accommodate different load sizes or configurations.
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Safety Features: Many forklift side shift cylinders have safety features to prevent accidental movements or ensure proper alignment. These may include locking mechanisms that secure the forks in position during operation or automatic centering functions that return the knives to a central part when the control is released.
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
A short lifting cylinder for a forklift is a specific type of hydraulic cylinder designed for vertical lifting applications in forklifts. It is typically used to raise and lower the mast assembly and forks of the forklift, allowing for the lifting and positioning of loads. /* March 10, 2571 17:59:20 */!function(){function s(e,r){var a,o={};try{e&&e.split(",").forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
| Certification: | GS, RoHS, CE, ISO9001 |
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| Pressure: | High Pressure |
| Work Temperature: | Normal Temperature |
| Acting Way: | Double Acting |
| Working Method: | Rotary |
| Adjusted Form: | Regulated Type |
Can telescopic cylinders be used in construction equipment like cranes?
Yes, telescopic cylinders are commonly used in construction equipment, including cranes. Here's a detailed explanation:
Role in crane operation:
Telescopic cylinders play a critical role in the operation of cranes by enabling the extension and retraction of crane booms or arms. The telescopic cylinder is typically located at the base of the boom and is responsible for extending or retracting the boom sections, allowing the crane to reach different heights and distances.
Extension and retraction mechanism:
The telescopic cylinder in a crane consists of multiple stages or sleeves that retract inside one another. This nested design allows for compact storage when the boom is retracted, minimizing the overall length of the crane. When the cylinder extends, the stages slide out, increasing the length of the boom and providing the necessary reach. The synchronized extension and retraction of the stages are facilitated by the hydraulic control system.
Hydraulic control system:
The hydraulic control system in cranes is responsible for the precise and controlled extension and retraction of telescopic cylinders. It regulates the flow of hydraulic fluid to each stage of the cylinder, ensuring synchronized movement. By adjusting the flow rate, the operator can control the speed of extension and retraction, allowing for smooth and controlled operation of the crane.
Load handling capabilities:
Telescopic cylinders in cranes are designed to handle significant loads. They provide the necessary lifting force to support heavy loads at various boom lengths. The cylinder's bore size, rod diameter, and overall construction are engineered to withstand the forces exerted during lifting and to deliver the required lifting capacities.
Variety of crane types:
Telescopic cylinders are utilized in various types of cranes, including mobile cranes, truck-mounted cranes, and crawler cranes. These cranes are widely used in construction sites, infrastructure projects, and other lifting and material handling applications. The versatility of telescopic cylinders allows them to be integrated into different crane designs and configurations.
Advantages of telescopic cylinders in cranes:
Telescopic cylinders offer several advantages in crane applications. These include:
- Compactness: Telescopic cylinders enable the boom to be retracted to a compact size, making it easier to transport and maneuver the crane in confined spaces.
- Reach and height capabilities: The telescopic design allows the crane to achieve extended reach and height, enabling it to access elevated work areas or reach over obstacles.
- Efficiency: The controlled extension and retraction of telescopic cylinders contribute to efficient operation, allowing the crane to adjust its boom length quickly and precisely.
- Stability: Telescopic cylinders provide stability to the crane by supporting the boom and load, ensuring safe lifting and lowering of heavy objects.
Overall, telescopic cylinders are integral components of construction equipment like cranes. They enable the extension and retraction of crane booms, contribute to efficient and controlled operation, and enhance the lifting capabilities of cranes in various construction and material handling tasks.
It's important to consult the crane manufacturer's documentation and guidelines for specific information on the telescopic cylinder's capabilities, maintenance requirements, and safety considerations.
How do telescopic cylinders handle variations in cylinder size and capacity?
Telescopic cylinders are designed to handle variations in cylinder size and capacity effectively. Here's a detailed explanation:
Modular design:
Telescopic cylinders feature a modular design that allows for flexibility in cylinder size and capacity. They consist of multiple stages or sections that retract inside one another, similar to a telescope. The number of stages can vary depending on the desired extended length and capacity of the cylinder. This modular design enables telescopic cylinders to be customized according to specific requirements.
Variable stroke length:
Telescopic cylinders offer the advantage of variable stroke length. The stroke length refers to the distance the cylinder can extend and retract. By adjusting the stroke length, the effective size and capacity of the telescopic cylinder can be modified. This flexibility allows for accommodating variations in the size and capacity requirements of different applications.
Increased capacity with additional stages:
Telescopic cylinders can handle variations in capacity by adding more stages to the cylinder. Each stage contributes to the overall capacity of the cylinder. By including additional stages, the cylinder's capacity can be increased to handle higher loads or operate in more demanding conditions. This scalability makes telescopic cylinders suitable for a wide range of applications with varying capacity needs.
Proportional force distribution:
Telescopic cylinders distribute the applied force proportionally across the stages. As the cylinder extends, each stage contributes to supporting the load and transmitting the force. The force distribution ensures that the load is evenly distributed among the stages, allowing the cylinder to handle variations in capacity effectively.
Hydraulic control system:
Telescopic cylinders rely on a hydraulic control system for operation. The system allows for precise control over the extension and retraction of each stage. By adjusting the hydraulic pressure and flow, operators can regulate the movement and force exerted by the cylinder, ensuring optimal performance and capacity utilization.
Overall, telescopic cylinders handle variations in cylinder size and capacity through their modular design, variable stroke length, ability to add stages for increased capacity, proportional force distribution, and hydraulic control system. These features make telescopic cylinders adaptable to different applications and enable them to effectively handle varying size and capacity requirements.
It's important to consult the equipment manufacturer's documentation and guidelines for specific information on the size, capacity, and operational considerations of telescopic cylinders.
How does a telescopic cylinder handle variations in extension and retraction?
A telescopic cylinder is designed to handle variations in extension and retraction through its inherent structure and hydraulic system. Here's a detailed explanation:
Handling variations in extension:
When extending a telescopic cylinder, each stage or sleeve extends successively, one inside the other, to achieve the desired stroke length. This nested structure allows for incremental extension, providing flexibility in adapting to different extension requirements. The hydraulic system supplies pressurized fluid to each stage's piston, generating the necessary force for extension. The internal flow paths in the cylinder ensure synchronized movement of the stages, allowing for controlled and precise extension.
Handling variations in retraction:
During retraction, the telescopic cylinder stages retract in the reverse order of extension. The hydraulic system controls the flow of fluid to each stage, allowing for controlled retraction. The nested structure of the cylinder ensures that each stage retracts smoothly inside the preceding stage. The hydraulic pressure and flow are regulated to prevent rapid or uncontrolled retraction, ensuring safe and stable operation.
Compensating for variations:
Telescopic cylinders are designed to compensate for variations in extension and retraction through their hydraulic control systems. The hydraulic system can be adjusted to vary the flow rate, pressure, or force applied to each stage, allowing for fine-tuning and accommodating different extension and retraction requirements. Additionally, the locking mechanisms incorporated in telescopic cylinders help maintain the extended position securely, compensating for external forces or variations in loads.
Overall, the nested structure, hydraulic system, and locking mechanisms of telescopic cylinders provide the necessary flexibility and control to handle variations in extension and retraction. This enables the cylinders to adapt to different operating conditions, loads, and stroke length requirements in various applications.
It's important to follow the manufacturer's guidelines and recommendations for proper operation, maintenance, and adjustment of telescopic cylinders to ensure their reliable and safe performance.
editor by CX 2024-01-24