Product Description
Factory Supply Hydraulic telescopic cylinder for mobile crane price
Telescopic Cylinder for Mobile Cranes
A luffing cylinder is a hydraulic component commonly used in mobile cranes to control the boom's luffing or raising/lowering movement. It is responsible for adjusting the angle of the boom, allowing the crane to reach different heights and positions.
Here's an overview of how a telescopic cylinder works:
-
Cylinder Design: A telescopic cylinder typically consists of a series of cylindrical tubes of varying diameters called stages or sleeves. The smaller stages are nested inside the larger ones, forming a compact unit when retracted.
-
Piston and Rod: Each stage of the telescopic cylinder has its piston and piston rod assembly. The piston is fitted with seals to create separate pressure chambers within each stage. The piston rods are connected between the stages, allowing for synchronized movement.
-
Hydraulic System: The telescopic cylinder is connected to a hydraulic system, which includes a hydraulic pump, reservoir, control valves, and hydraulic lines. The pump pressurizes hydraulic fluid and delivers it to the telescopic cylinder for extension and retraction.
-
Extension: When hydraulic pressure is applied to the telescopic cylinder, the fluid enters the first stage, exerting force on the piston and causing the stage to extend. As the first stage extends, it pulls the piston rod of the next stage, initiating its extension. This process continues for each subsequent stage, resulting in an overall telescopic extension of the cylinder.
-
Retraction: The hydraulic fluid is directed to the opposite side of each stage's piston to retract the telescopic cylinder. This creates a pressure imbalance, causing the stages to retract synchronized. The smaller stages retract first, followed by the larger stages, until the cylinder is fully retracted.
-
Stroke Length and Compactness: The telescopic cylinder allows for a longer stroke length than traditional single-stage cylinders, as the multiple stages can extend and retract consecutively. When fully retracted, the nested stages create a compact unit, reducing the overall length of the cylinder.
-
Load Capacity: The load capacity of a telescopic cylinder depends on factors such as the diameter and wall thickness of the stages, the number of stages, and the hydraulic pressure applied. It is important to ensure that the cylinder is designed and used within its specified load capacity to ensure safe and reliable operation.
-
Applications: Telescopic cylinders find applications in various industries, including construction equipment, material handling machinery, dump trucks, aerial platforms, cranes, and hydraulic presses. They are particularly useful when a long stroke length is required in confined spaces or when a compact retracted length is necessary.
What is the difference between a telescopic cylinder and a normal cylinder?
The main difference between a telescopic cylinder and a normal cylinder, also known as a single-stage or conventional cylinder, lies in their design and functionality. Here are the key distinctions:
1. Stroke Length: The primary advantage of a telescopic cylinder is its ability to provide a longer stroke length compared to a normal cylinder. Telescopic cylinders achieve this by incorporating multiple stages that extend and retract, enabling a telescoping motion. In contrast, a normal cylinder has a fixed stroke length determined by the length of the piston rod.
2. Compactness: Telescopic cylinders are designed to be compact when retracted. This is achieved through the nested arrangement of the stages, with each stage fitting inside the larger one. As a result, telescopic cylinders are well-suited for applications where space is limited. In contrast, a normal cylinder has a fixed length, typically equal to the fully extended length, and does not offer the same level of compactness.
3. Extended Length: Telescopic cylinders can achieve a significantly longer fully extended length than a normal cylinder with the same retracted length. This makes them suitable for applications requiring a long reach or extension, such as boom extensions in cranes or aerial platforms. Normal cylinders, on the other hand, have a fixed extended length equal to the stroke length.
4. Complexity: Telescopic cylinders are more complex in design compared to normal cylinders. They consist of multiple stages, each with its own piston and piston rod assembly, which requires precise synchronization of movement. This complexity increases the manufacturing and maintenance requirements compared to a standard cylinder.
5. Load Capacity: Telescopic cylinders typically have a lower load capacity compared to normal cylinders of the same diameter. This is due to the increased number of seals, moving parts, and the potential for misalignment or deflection. Normal cylinders, with their simpler design, can often handle higher load capacities.
6. Application Specificity: Telescopic cylinders are commonly used in applications where a long stroke length is required while maintaining a compact retracted length. They are particularly suitable for equipment with height or space restrictions, such as dump trucks, material-handling machinery, and hydraulic platforms. Normal cylinders, on the other hand, are used in a wide range of applications where a simple linear motion is needed, such as in hydraulic presses, machine tools, and industrial equipment.
It's important to note that both telescopic cylinders and normal cylinders have their respective strengths and limitations. The choice between them depends on the specific requirements of the application, including the desired stroke length, available space, load capacity, and other factors.
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.
|
Forklift cylinder assembly shop |
Other types of cylinder assembly shop |
Welding
Painting & coating
|
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
/* 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 |
|---|---|
| Pressure: | High Pressure |
| Work Temperature: | Normal Temperature |
| Acting Way: | Double Acting |
| Working Method: | Rotary |
| Adjusted Form: | Regulated Type |
Can tilt cylinders be used in manufacturing machinery for material processing?
Yes, tilt cylinders can be used in manufacturing machinery for material processing. These cylinders offer several advantages that enhance the efficiency, versatility, and precision of material processing operations. Here's a detailed explanation:
- Tilt Angle Adjustment: Tilt cylinders allow for precise tilt angle adjustment of equipment attachments, such as cutting tools, milling heads, or processing platforms. This adjustability enables operators to achieve the desired tilt angle for material processing tasks. By controlling the tilt angle, operators can optimize the cutting or processing angle, resulting in improved accuracy, quality, and efficiency.
- Material Positioning: Tilt cylinders assist in proper material positioning during processing. By adjusting the tilt angle of the equipment, operators can align the material in the ideal position for cutting, shaping, or other processing operations. This ensures consistent material engagement with the cutting tools or processing surfaces, minimizing errors and improving overall precision.
- Enhanced Accessibility: Tilt cylinders provide enhanced accessibility to the material being processed. By tilting the equipment, operators can gain better access to different areas of the material, even hard-to-reach or complex surfaces. This accessibility facilitates efficient processing and allows for the execution of intricate operations with greater ease.
- Process Optimization: Tilt cylinders contribute to process optimization by enabling operators to adjust the tilt angle based on specific material characteristics or processing requirements. For instance, certain materials may require a specific tilt angle to achieve optimal chip removal during cutting or to enhance the efficiency of material shaping. The ability to optimize the tilt angle enhances process control and ensures the desired output quality.
- Flexibility in Material Handling: Tilt cylinders provide flexibility in material handling during processing operations. They allow for the tilting of workpieces or platforms, enabling operators to orient the material in the most suitable position for processing. This flexibility accommodates various material shapes, sizes, and orientations, expanding the range of materials that can be effectively processed using the machinery.
- Integration with Automation: Tilt cylinders can be integrated with automation systems in manufacturing machinery. This integration enables automated tilt angle adjustments based on predefined parameters or sensor feedback. By incorporating tilt cylinders into automated material processing systems, manufacturers can achieve consistent and repeatable processing results, reduce manual intervention, and improve overall productivity.
Therefore, tilt cylinders can be effectively utilized in manufacturing machinery for material processing. Whether it involves tilt angle adjustment, material positioning, enhanced accessibility, process optimization, flexibility in material handling, or integration with automation, tilt cylinders contribute to improving the efficiency, precision, and versatility of material processing operations in the manufacturing industry.
Can tilt cylinders be repaired or replaced when damaged?
Yes, tilt cylinders can be repaired or replaced when damaged. Repairing or replacing damaged tilt cylinders is a common practice to restore functionality and ensure safe operation of machinery and equipment. Here's a detailed explanation:
- Repair: In many cases, tilt cylinders can be repaired when they sustain damage. The extent of the damage and the availability of replacement parts are factors that determine the feasibility of repair. Skilled technicians or hydraulic specialists can assess the damage and perform repairs, which may involve replacing seals, rods, or other damaged components. Repairing a tilt cylinder can be a cost-effective solution compared to replacing the entire cylinder.
- Replacement: If the tilt cylinder is severely damaged, worn beyond repair, or if the necessary replacement parts are unavailable, replacement may be necessary. Tilt cylinders are typically designed for easy removal and replacement. The damaged cylinder can be disconnected from the equipment and replaced with a new or refurbished one. Replacement cylinders should be compatible with the equipment's specifications and operating requirements.
- Professional Assistance: Repairing or replacing tilt cylinders often requires specialized knowledge and skills. It is recommended to seek professional assistance from hydraulic technicians or authorized service providers who possess expertise in hydraulic system repairs. They can accurately diagnose the issue, recommend the appropriate course of action, and ensure that the repaired or replaced tilt cylinder meets the necessary specifications and safety standards.
- Maintenance Practices: Regular maintenance practices, such as routine inspections, cleaning, and lubrication, can help prevent extensive damage to tilt cylinders. Timely identification and resolution of minor issues can prolong the life of the cylinder and reduce the likelihood of major damage. Following manufacturer guidelines for maintenance and usage can contribute to the longevity and reliability of tilt cylinders.
- Quality Replacement Parts: When replacing damaged tilt cylinders, it is important to use high-quality replacement parts. Genuine parts or components recommended by the original equipment manufacturer (OEM) ensure compatibility and optimal performance. Using substandard or incompatible parts may compromise the functionality and safety of the equipment.
Whether through repair or replacement, addressing damaged tilt cylinders is crucial for maintaining the efficiency, safety, and longevity of machinery and equipment. Regular maintenance and prompt action in addressing any damage or wear can help extend the lifespan of tilt cylinders and ensure the smooth operation of hydraulic systems.
What is the importance of regular maintenance for tilt cylinders?
Regular maintenance is crucial for tilt cylinders to ensure their optimal performance and longevity. Proper maintenance helps prevent potential issues, extends the lifespan of the cylinders, and enhances overall equipment reliability. Here are the key reasons highlighting the importance of regular maintenance for tilt cylinders:
- Preventive Maintenance: Regular maintenance allows for the early detection and prevention of potential problems. By inspecting tilt cylinders at regular intervals, any signs of wear, damage, leaks, or misalignment can be identified early on. Timely maintenance interventions, such as lubrication, seal replacements, or component adjustments, can be performed to prevent further damage and costly repairs.
- Optimal Performance: Tilt cylinders that receive regular maintenance are more likely to maintain their optimal performance. Proper lubrication of moving parts, such as pins and bushings, ensures smooth operation and minimizes friction, reducing wear and tear. Regular cleaning and inspection of hydraulic lines and valves help maintain proper fluid flow, ensuring efficient operation of the cylinder. By keeping the tilt cylinder in good condition, equipment operators can rely on consistent and reliable tilting performance.
- Equipment Safety: Well-maintained tilt cylinders contribute to equipment safety. A malfunctioning or poorly maintained tilt cylinder can lead to unexpected failures or accidents, posing risks to operators, bystanders, and the surrounding environment. Regular maintenance helps identify and rectify potential safety issues, ensuring that the tilt cylinder operates safely and reliably during equipment operation.
- Longevity and Cost Savings: Regular maintenance significantly extends the lifespan of tilt cylinders. By addressing minor issues promptly and performing preventive maintenance tasks, the overall wear and tear on the cylinder can be minimized. This prolongs the cylinder's lifespan, reducing the frequency of replacements and associated costs. Additionally, regular maintenance helps avoid costly downtime caused by unexpected cylinder failures, leading to increased productivity and cost savings in the long run.
- Manufacturer Recommendations: Following the manufacturer's recommended maintenance schedule is essential for tilt cylinders. Manufacturers provide specific guidelines on maintenance tasks, intervals, and recommended spare parts. Adhering to these recommendations ensures that the cylinder is properly maintained according to the manufacturer's specifications, preserving warranty coverage and maintaining compliance with industry standards.
In conclusion, regular maintenance for tilt cylinders is vital for their reliable performance, equipment safety, and longevity. By conducting preventive maintenance, ensuring optimal performance, and adhering to manufacturer recommendations, operators can maximize the lifespan of the tilt cylinders, minimize downtime, and enhance the overall efficiency and safety of the equipment.
editor by CX 2023-12-24