Product Description
Parker Type telescopic cylinder for dump truck and trailer body
1. Company Information
Found 1995,w are 1 of the biggest hydraulic cylinder manufacturer in China, specialized in design, R & D and manufacturing of hydraulic machinery products etc, with its annual production capaciy of 2 square meters.There are 700 sets of mnufacturing equipment .
Product Description
2. hydraulic telescopic cylinder for dump truck drawing and parameter
Parker and Custom hoists kind
| ITEM | MODEL NO. | Largest Moving Stage Diameter | # of Stages | STROKE | CLOSED LENGTH | OPEN LENGTH |
| 1 | WTPK 3TG F5*72 | 5″ | 3 | 72″(1829mm) | 37.19″ (945mm) | 109.19″ (2773mm) |
| 2 | WTPK 3TG F5*84 | 5” | 3 | 84″ (2134mm) | 41.19″ (1046mm) | 125.19″ (3180mm) |
| 3 | WTPK 3TG F5*107 | 5″ | 3 | 107.56″ (2732mm) | 48.38″ (1229mm) | 155.94″ (3961mm) |
| 4 | WTPK 3TG F5*126 | 5″ | 3 | 126.63″ (3216mm) | 54.56″ (1386mm) | 181.19″ (4602mm) |
| 5 | WTPK 3TG F6*86 | 6″ | 3 | 86.75″ (2203mm) | 40.88″ (1038mm) | 127.63″ (3241mm) |
| 6 | WTPK 3TG F6*104 | 6″ | 3 | 103.94″ (2640mm) | 47″ (1194mm) | 150.94″ (3834mm) |
| 7 | WTPK 3TG F6*107 | 6″ | 3 | 107.56″ (2732mm) | 48.38″ (1289mm) | 155.94″ (3961mm) |
| 8 | WTPK 3TG F6*111 | 6” | 3 | 111″ (2819mm) | 49.94″ (1268mm) | 160.94″ (4087mm) |
| 9 | WTPK 3TG F6*120 | 6” | 3 | 120” (3048mm) | 53.5″ (1359mm) | 173.5″ (4407mm) |
| 10 | WTPK 3TG F6*123 | 6” | 3 | 123″ (3124mm) | 54.94″ (1395mm) | 177.94″ (4519mm) |
| 11 | WTPK 3TG F6*126 | 6” | 3 | 126.31″(3208mm) | 54.56″ (1386mm) | 180.87″ (4594mm) |
| 12 | WTPK 3TG F6*140 | 6” | 3 | 140.25″ (3562mm) | 59.81″ (1519mm) | 200.06″ (5081mm) |
| 13 | WTPK 4TG F6*135 | 6” | 4 | 135″ (3429mm) | 47.19″ (1199mm) | 182.19″ (4628mm) |
| 14 | WTPK 4TG F6*156 | 6” | 4 | 156″ (3962mm) | 53.62″ (1362mm) | 209.62″ (5324mm) |
| 15 | WTPK 3TG F7*110 | 7″ | 3 | 110.63″ (2810mm) | 50.06″ (1271mm) | 160.69″ (4081mm) |
| 16 | WTPK 3TG F7*120 | 7″ | 3 | 120″ (3048mm) | 53.12″ (1349mm) | 173.12″ (4397mm) |
| 17 | WTPK 3TG F7*124 | 7″ | 3 | 124.88″ (3172mm) | 54.81″ (1392mm) | 179.69″ (4564mm) |
| 18 | WTPK 3TG F7*129 | 7″ | 3 | 129″ (3277mm) | 56.5″ (1435mm) | 185.5″ (4712mm) |
| 19 | WTPK 3TG F7*140 | 7″ | 3 | 140.44″ (3567mm) | 60″ (1524mm) | 200.44″ (5091mm) |
| 20 | WTPK 3TG F7*150 | 7″ | 3 | 150″ (3810mm) | 63.50″ (1613mm) | 213.50″ (5423mm) |
| 21 | WTPK 4TG F7*120 | 7″ | 4 | 120″ (3048mm) | 44.12″ (1120mm) | 164.12″ (4168mm) |
| 22 | WTPK 4TG F7*135 | 7″ | 4 | 135″ (3429mm) | 48.43″ (1230mm) | 183.44″ (4659mm) |
| 23 | WTPK 4TG F7*140 | 7″ | 4 | 140″ (3556mm) | 49.75″ (1263mm) | 189.75″ (4819mm) |
| 24 | WTPK 4TG F7*156 | 7″ | 4 | 156″ (3962mm) | 53.75″ (1365mm) | 209.75″ (5327mm) |
| 25 | WTPK 4TG F7*161 | 7″ | 4 | 161.75″ (4108mm) | 55.31″ (1405) | 217.06″ (5513mm) |
| 26 | WTPK 4TG F7*167 | 7″ | 4 | 167″ (4242mm) | 56.38″ (1432mm) | 223.38″ (5674mm) |
| 27 | WTPK 4TG F7*180 | 7″ | 4 | 180″ (4572mm) | 61.12″ (1552mm) | 241.12″ (6124mm) |
| 28 | WTPK 4TG F8*148 | 8″ | 4 | 147.75″ (3753mm) | 51.50″ (1308mm) | 199.25″ (5061mm) |
| 29 | WTPK 4TG F8*156 | 8″ | 4 | 156″ (3962mm) | 53.75″ (1365mm) | 209.75″ (5327mm) |
| 30 | WTPK 4TG F8*161 | 8″ | 4 | 160″ (4064mm) | 55.75″ (1416mm) | 215.75″ (5480mm) |
| 31 | WTPK 4TG F8*170 | 8″ | 4 | 170″ (4318mm) | 57.25″ (1454mm) | 227.25″ (5481mm) |
| 32 | WTPK 4TG F8*180 | 8″ | 4 | 180″ (4572mm) | 59.75″ (1518mm) | 239.75″ (6090mm) |
| 33 | WTPK 5TG F8*170 | 8″ | 5 | 170″ (4318mm) | 49.88″ (1267mm) | 219.88″ (5585mm) |
| 34 | WTPK 5TG F8*190 | 8″ | 5 | 189″ (4800mm) | 54.62″ (1387mm) | 243.62″ (6188mm) |
| 35 | WTPK 5TG F8*220 | 8″ | 5 | 220″ (5588mm) | 60″ (1524mm) | 280″ (7112mm) |
| 36 | WTPK 5TG F8*235 | 8″ | 5 | 234″ (5944mm) | 64.62″ (1641mm) | 298.62″ (7585mm) |
| 37 | WTPK 5TG F8*250 | 8″ | 5 | 249″ (6325mm) | 68.62″ (1743mm) | 317.62″ (8068mm) |
| 38 | WTPK 5TG F8*265 | 8″ | 5 | 265″ (6731mm) | 71″ (1803mm) | 336″ (8534mm) |
| 39 | WTPK 5TG F8*285 | 8″ | 5 | 285″ (7239mm) | 78.5″ (1994mm) | 363.5″ (9233mm) |
| 40 | WTPK 5TG F9*220 | 9″ | 5 | 218″ (5537mm) | 62.44″ (1586mm) | 280.44″ (7123mm) |
| 41 | WTPK 5TG F9*235 | 9″ | 5 | 233″ (5918mm) | 65.44″ (1662mm) | 298.44″ (7580mm) |
| 42 | WTPK 5TG F9*250 | 9″ | 5 | 248″ (6299mm) | 68.44″ (1738mm) | 316.44″ (8037mm) |
| 43 | WTPK 5TG F9*265 | 9″ | 5 | 265″ (6731mm) | 72.62″ (1844mm) | 337.62″ (8575mm) |
| 44 | WTPK 5TG F9*280 | 9″ | 5 | 280″ (7112mm) | 72.62″ (1997mm) | 358.62″ (9109mm) |
| 45 | WTPK 5TG F9*300 | 9″ | 5 | 300″ (7620mm) | 79″ (2007mm) | 379″ (9627mm) |
| 46 | WTPK 5TG F9*320 | 9″ | 5 | 320″ (8128mm) | 83″ (2108mm) | 403″ (9628mm) |
| 47 | WTPK 5TG F9*340 | 9″ | 5 | 340″ (8636mm) | 87″ (2210mm) | 427″ (10846mm) |
3. hydraulic telescopic cylinder for dump truck produce line
700 sets manufacturing equipment,such as cold drawing production line ,heat treatment production line ,surface treatment production line,testing equipment,various digital-control machining equipment,gantry style linear electroplating production line.
4. hydraulic telescopic cylinder for dump truck quality guarantee system
Program before Delivery
1). Trial Operation Test
2). Start-up Pressure Test
3). Pressure-Tight Test
4). Leak Test
5). Full Stroke Test
6). Buffer Test
7). Testing the Effect of Limit
8). Load Efficiency Test
9). Reliability Test
Every piece of hydraulic cylinder are tested and will send out only after they are pasted the each test.
Our company has abundant technical force and perfect testing means. By making wide technical and business cooperation with many related enterprises, universities, colleges and institutes both at home and abroad, and employing senior engineers and software engineers, we have greatly strengthened and improved our designing, processing, and testing abilities.
5. After-service
1).Pre-sale service: Keep communicating with the truck manufacturers , including selection of product model , design of hydraulic system, test of performance and analysis of the accident. Once the problems occur, we will solve them immediately together with truck manufacturers .
2).The sale service: Provide training and technical support for users.
3).After-sale service: Solve the problem firstly, then analyse responsibility ; Replace the system components immediately if any need.
4). 24 hours telephone service hotline.
6.Exhibition and partner
7. FAQ
Q1. What are the same aspects of your cylinder with CHINAMFG cylinder?
A: Same inside structure.
Same outside dimension and same mounting sizes. It can be interchangeable with Hyva’s
Q2. Compared with CHINAMFG cylinder, what are your cylinder advantages?
A: 1. Rod are chrome plated.
2. Tubes are quenched and tempered.
3. Tube inner hole goes through deephole boring machine processing. Surface roughness is 0.4Ra
and circular degree is 0.571.
4. Good quality yet lower price.
Q3: Are you a manufacture or a trade company?
A: Manufacture, we are the leader manufacturer of hydraulic industry in China with over 20 years’ experience and technology accumulation. With strong technical team we could solve any annoyance of you.
Q4: Do you have quality control system?
A: Yes, The quality management system introduced is: ISO/TS 16949:2009-certified by NQA and IATF cert.
Q5: How can i get a booklet and buy a cylinder from you?
A: Very easy! Just leave me a message or email or call me directly, let me know you are interesting in our products. I will talk with you for the details soon!
Q6: Can you tell me the price for the cylinder?
A: 1. Please advice the drawing with technical requirement.
2. Please advice the model No. after you check our booklet.
3. Please advice the tipping capacity, number of stages, closed length, mounting type and size.
4. Please also help advice the quantities, this is very important.
Q7: Do your products come with a warranty?
A: Yes, we have 14month from production time. In this time, if the quality problem we will free repair for you.
Q8: Hydraulic cylinder internal leakage?
A: 3 main reasons causing internal leakage: Overload, polishing bad controlled, cheap seal kits. As is known to all, vehicles in China are often overloaded, our products all designed to bear the overload power. Advanced equipment could assure the polish processing. And we use the imported/TOP brand seals to meet customers’ requirement.
Q9: What about the quality feedback of your products?
A: WE HAVE NEVER RECEIVED EVEN ONCE QUALITY COMPLAINT FOR MANY YEARS OF INTERNATIONAL BUSINESS.
Q10: Can you help me to install or recommend what kind of hydraulic cylinder or power pack should I use for specific machine?
A: Yes, we have 25 experienced engineers who are always ready to help you. If you do not know what kind of hydraulic cylinders should be used in your machine, please just contact us, our engineers will design the exact products match your need.
Q11: What is the delivery time?
A: 20 days for bulk production, which is depend on quality, production process and so on.
Q12: What is your main payment term?
A: T/T, L/C, D/A, D/P either is available.
Q13: What is your contact information?
A: Mob: –
| Material: | Steel |
|---|---|
| Usage: | for Tipper,Dump Truck |
| Structure: | Telescopic Cylinder |
| Power: | Hydraulic |
| Standard: | Nonstandard |
| Pressure Direction: | Single-acting Cylinder |
| Customization: |
Available
|
|
|---|
How do manufacturers ensure the durability and reliability of hydraulic cylinders?
Manufacturers employ various strategies and techniques to ensure the durability and reliability of hydraulic cylinders. These measures are crucial as hydraulic cylinders are often subjected to demanding operating conditions and heavy loads. To ensure their longevity and dependable performance, manufacturers focus on the following aspects:
1. High-Quality Materials:
– Manufacturers use high-quality materials in the construction of hydraulic cylinders. Components such as cylinder barrels, piston rods, seals, and bearings are made from materials that possess excellent strength, corrosion resistance, and wear resistance properties. Common materials used include high-grade steel alloys, chrome-plated rods, and specialized coatings. The selection of appropriate materials ensures that hydraulic cylinders can withstand the stresses, pressures, and environmental conditions they encounter during operation.
2. Robust Design:
– Hydraulic cylinders are designed to withstand high loads and harsh operating conditions. Manufacturers use computer-aided design (CAD) software and finite element analysis (FEA) techniques to optimize the cylinder’s structural integrity and performance. The design includes factors such as proper wall thickness, reinforcement in critical areas, and appropriate sizing of components. Robust design practices ensure that hydraulic cylinders can withstand the forces and stresses they encounter, preventing premature failure and ensuring durability.
3. Quality Manufacturing Processes:
– Manufacturers follow stringent quality control measures during the manufacturing processes of hydraulic cylinders. These processes include precision machining, welding, heat treatment, and surface finishing. Skilled technicians and advanced machinery are employed to ensure dimensional accuracy, proper fitment of components, and overall quality. By adhering to strict manufacturing processes and quality standards, manufacturers can produce hydraulic cylinders with consistent performance and reliability.
4. Sealing Technology:
– The sealing system of hydraulic cylinders is critical for their durability and reliability. Manufacturers utilize advanced sealing technologies such as lip seals, O-rings, and composite seals to prevent fluid leakage and ingress of contaminants. Properly designed and high-quality seals ensure that hydraulic cylinders can maintain their performance over extended periods. Seals are tested for their compatibility with the hydraulic fluid, pressure resistance, and resilience to environmental factors such as temperature and humidity.
5. Performance Testing:
– Manufacturers subject hydraulic cylinders to rigorous performance testing to validate their durability and reliability. These tests simulate real-world operating conditions and evaluate factors such as load capacity, pressure resistance, fatigue life, and leakage. Performance testing helps identify any design flaws or weaknesses in the hydraulic cylinder and allows manufacturers to make necessary improvements. By conducting thorough performance testing, manufacturers can ensure that hydraulic cylinders meet or exceed the required performance standards.
6. Compliance with Industry Standards:
– Manufacturers adhere to industry standards and regulations to ensure the durability and reliability of hydraulic cylinders. These standards, such as ISO 6020/6022 and NFPA T3.6.7, provide guidelines for design, manufacturing, and performance requirements. By following these standards, manufacturers ensure that hydraulic cylinders are designed and built to meet specific quality and safety criteria. Compliance with industry standards helps establish a baseline for durability and reliability and instills confidence in the performance of hydraulic cylinders.
7. Regular Maintenance and Service:
– Manufacturers provide recommendations for regular maintenance and service of hydraulic cylinders. This includes guidelines for lubrication, inspection of components, and replacement of wear parts such as seals and bearings. Following the manufacturer’s maintenance guidelines helps ensure the long-term durability and reliability of hydraulic cylinders. Regular maintenance also allows for the early detection of potential issues, preventing major failures and extending the service life of the hydraulic cylinders.
8. Customer Support and Warranty:
– Manufacturers provide customer support and warranty services to address any issues that arise with hydraulic cylinders. They offer technical assistance, troubleshooting guidance, and replacement of defective components. The warranty ensures that customers receive reliable and durable hydraulic cylinders and provides recourse in case of any manufacturing defects or premature failures. Strong customer support and warranty policies reflect the manufacturer’s commitment to the durability and reliability of their products.
In summary, manufacturers ensure the durability and reliability of hydraulic cylinders through the use of high-quality materials, robust design practices, stringent manufacturing processes, advanced sealing technology, thorough performance testing, compliance with industry standards, regular maintenance guidelines, and customer support with warranty services. By focusing on these aspects, manufacturers can produce hydraulic cylinders that can withstand demanding conditions, provide long service life, and deliver reliable performance in various applications.
Integration of Hydraulic Cylinders with Equipment Requiring Rapid and Dynamic Movements
Hydraulic cylinders can indeed be integrated with equipment that requires rapid and dynamic movements. While hydraulic systems are generally known for their ability to provide high force and precise control, they can also be designed and optimized for applications that demand fast and dynamic motion. Let’s explore how hydraulic cylinders can be integrated with such equipment:
- High-Speed Hydraulic Systems: Hydraulic cylinders can be part of high-speed hydraulic systems designed specifically for rapid and dynamic movements. These systems incorporate features such as high-flow valves, optimized hydraulic circuitry, and responsive control systems. By carefully engineering the system components and hydraulic parameters, it is possible to achieve the desired speed and responsiveness, enabling the equipment to perform rapid movements.
- Valve Control: The control of hydraulic cylinders plays a crucial role in achieving rapid and dynamic movements. Proportional or servo valves can be used to precisely control the flow of hydraulic fluid into and out of the cylinder. These valves offer fast response times and precise flow control, allowing for rapid acceleration and deceleration of the cylinder’s piston. By adjusting the valve settings and optimizing the control algorithms, equipment can be designed to execute dynamic movements with high speed and accuracy.
- Optimized Cylinder Design: The design of hydraulic cylinders can be optimized to facilitate rapid and dynamic movements. Lightweight materials, such as aluminum alloys or composite materials, can be used to reduce the moving mass of the cylinder, enabling faster acceleration and deceleration. Additionally, the cylinder’s internal components, such as the piston and seals, can be designed for low friction to minimize energy losses and enhance responsiveness. These design optimizations contribute to the overall speed and dynamic performance of the equipment.
- Accumulator Integration: Hydraulic accumulators can be integrated into the system to enhance the dynamic capabilities of hydraulic cylinders. Accumulators store pressurized hydraulic fluid, which can be rapidly released to supplement the flow from the pump during high-demand situations. This stored energy can provide an extra boost of power, allowing for faster and more dynamic movements. By strategically sizing and configuring the accumulator, the system can be optimized for the specific rapid and dynamic requirements of the equipment.
- System Feedback and Control: To achieve precise and dynamic movements, hydraulic systems can incorporate feedback sensors and advanced control algorithms. Position sensors, such as linear potentiometers or magnetostrictive sensors, provide real-time position feedback of the hydraulic cylinder. This information can be used in closed-loop control systems to maintain precise positioning and execute rapid movements. Advanced control algorithms can optimize the control signals sent to the valves, ensuring smooth and dynamic motion while minimizing overshooting or oscillations.
In summary, hydraulic cylinders can be integrated with equipment that requires rapid and dynamic movements by utilizing high-speed hydraulic systems, employing responsive valve control, optimizing cylinder design, integrating accumulators, and incorporating feedback sensors and advanced control algorithms. These measures enable hydraulic systems to deliver the speed, responsiveness, and precision necessary for equipment operating in dynamic environments. By leveraging the capabilities of hydraulic cylinders, manufacturers can design and integrate systems that meet the requirements of applications demanding rapid and dynamic movements.
How do hydraulic cylinders ensure precise and controlled movement in equipment?
Hydraulic cylinders are widely used in various equipment and machinery to provide precise and controlled movement. They utilize hydraulic fluid and mechanical components to achieve accurate positioning, smooth operation, and reliable control. Here’s a detailed explanation of how hydraulic cylinders ensure precise and controlled movement in equipment:
1. Hydraulic Principle:
– Hydraulic cylinders operate based on Pascal’s law, which states that pressure exerted on a fluid is transmitted equally in all directions. The hydraulic fluid is contained within the cylinder, and when pressure is applied, it acts on the piston, generating force. By controlling the pressure and flow of hydraulic fluid, the movement of the cylinder can be precisely regulated, allowing for accurate and controlled motion.
2. Force and Load Management:
– Hydraulic cylinders are designed to handle specific loads and forces. The force generated by the hydraulic cylinder depends on the hydraulic pressure and the surface area of the piston. By adjusting the pressure, the force output can be controlled. This allows for precise management of the load and ensures that the cylinder can handle the required force without exerting excessive or insufficient force. Proper load management contributes to the precise and controlled movement of the equipment.
3. Control Valves:
– Control valves play a crucial role in regulating the flow and direction of hydraulic fluid within the cylinder. These valves allow operators to control the extension and retraction of the cylinder, adjust the speed of movement, and stop or hold the cylinder at any desired position. By manipulating the control valves, precise and controlled movement can be achieved, enabling operators to position equipment accurately and perform specific tasks with precision.
4. Flow Control:
– Hydraulic cylinders incorporate flow control valves to manage the rate of hydraulic fluid flow. These valves control the speed of the cylinder’s extension and retraction, allowing for smooth and controlled movement. By adjusting the flow rate, operators can precisely control the speed of the cylinder, ensuring that it moves at the desired rate without sudden or erratic movements. Flow control contributes to the overall precision and control of the equipment’s movement.
5. Position Sensing:
– To ensure precise movement, hydraulic cylinders can be equipped with position sensing devices such as linear transducers or proximity sensors. These sensors provide feedback on the position of the cylinder, allowing for accurate position control and closed-loop control systems. By continuously monitoring the position, the equipment’s movement can be controlled with high accuracy, enabling precise positioning and operation.
6. Proportional Control:
– Advanced hydraulic systems utilize proportional control technology, which allows for precise and fine-tuned control of the hydraulic cylinder’s movement. Proportional valves, often operated by electronic control systems, provide variable flow rates and pressure adjustments. This technology enables precise control of speed, force, and position, resulting in highly accurate and controlled movement of the equipment.
7. Cushioning and Damping:
– Hydraulic cylinders can incorporate cushioning and damping mechanisms to ensure smooth and controlled movement at the end of the stroke. Cushioning features, such as adjustable cushions or shock absorbers, reduce the impact and decelerate the cylinder before reaching the end of the stroke. This prevents abrupt stops and minimizes vibrations, contributing to precise and controlled movement.
8. Load Compensation:
– Some hydraulic systems utilize load compensation mechanisms to maintain precise movement even when the load varies. Load-sensing systems monitor the load demand and adjust the hydraulic pressure and flow accordingly to meet that demand. This compensation ensures that the equipment’s movement remains accurate and controlled, regardless of changes in the applied load.
In summary, hydraulic cylinders ensure precise and controlled movement in equipment through the application of hydraulic principles, force and load management, control valves, flow control, position sensing, proportional control, cushioning and damping mechanisms, and load compensation. These features and technologies allow operators to achieve accurate positioning, smooth operation, and reliable control, enabling equipment to perform tasks with precision and efficiency. The combination of hydraulic power and careful design considerations ensures that hydraulic cylinders deliver precise and controlled movement in a wide range of industrial applications.
editor by CX 2023-09-21