Product Description

 

2500PSI Tie-Rod Cylinders

BORE:2.0", 2.5", 3.0", 3.5" 4.0"

ROD:1.125" ~ 2.0"

STROKE:4.0" ~ 48"

* Standard North American Design.

* Competitively Priced.

* 12 Month Limited Warranty.

* 2500PSI Working Pressure, 3800PSI Testing Pressure.
 

For custom-made cylinders, please feel free to send us drawings for enquiry!  

 
 

 

SPECIFICATION(mm)

MODEL Bore x Stroke (inch.) Shaft Dia. (inch.) Center to center of pin (inch.) Ports (NPTF) Ports thread (SAE) Weight (lbs)
retracted extended
CY2008TR-ASAE 2 x 8 1 1/8 20 1/4 28 1/4 3/8 9/16-18UNF(SAE 6#) 18.7
CY2508TR-ASAE 2 1/2x8 1 1/8 20 1/4 28 1/4 3/8 9/16-18UNF(SAE 6#) 22.0
CY2516TR-ASAE 2 1/2x16 1 1/8 31 1/2 47 1/2 3/8 9/16-18UNF(SAE 6#) 29.7
CY3008TR-ASAE 3 x 8 1 1/4 20 1/4 28 1/4 1/2 3/4-16UNF(SAE 8#) 28.6
CY3016TR-ASAE 3 x 16 1 1/4 31 1/2 47 1/2 1/2 3/4-16UNF(SAE 8#) 33.9
CY3508TR-ASAE 3 1/2x8 1 1/4 20 1/4 28 1/2 1/2 3/4-16UNF(SAE 8#) 31.2
CY3516TR-ASAE 3 1/2x16 1 1/2 31 1/4 47 1/2 1/2 3/4-16UNF(SAE 8#) 36.9
CY4008TR-ASAE 4 x 8 1 1/2 20 1/4 28 1/4 1/2 3/4-16UNF(SAE 8#) 38.5
CY4016TR-ASAE 4 x 16 2 31 1/2 47 1/2 1/2 3/4-16UNF(SAE 8#) 45.9
CY5016TR-ASAE 5 x 16 2 31 1/2 47 1/2 1/2 3/4-16UNF(SAE 8#) 97.8
Note: All 2" through 4" bore cylinders with 8" stroke are designed with the rod threaded to accommodate a stroke control collar per ASAE specifications.
MODEL Bore x Stroke (inch.) Shaft Dia. (inch.) Center to center of pin (inch.) Max.rated CHINAMFG & column load on full extension Weight (lbs)
retracted extended PSI lbs.
CY2004TR 2 X 4 1 1/8 14 1/4 18 1/4 Full PSI 7854 15.6
CY2006TR 2 X 6 1 1/8 16 1/4 22 1/4 Full PSI 7854 16.5
CY2008TR 2 X 8 1 1/8 18 1/4 26 1/4 Full PSI 7854 17.8
CY2571TR 2 X 10 1 1/8 20 1/4 30 1/4 Full PSI 7854 20.0
CY2012TR 2 X 12 1 1/8 22 1/4 34 1/4 Full PSI 7854 21.0
CY2014TR 2 X 14 1 1/8 24 1/4 38 1/4 Full PSI 7854 22.0
CY2016TR 2 X 16 1 1/8 26 1/4 42 1/4 Full PSI 7854 22.9
CY2018TR 2 X 18 1 1/8 28 1/4 46 1/4 Full PSI 7854 24.0
CY2571TR 2 X 20 1 1/8 30 1/4 50 1/4 Full PSI 7854 24.9
CY2571TR 2 X 24 1 1/8 34 1/4 58 1/4 *2180 6850 27.0
CY2030TR 2 X 30 1 1/8 40 1/4 70 1/4 *1500 4700 34.9
CY2036TR 2 X 36 1 1/8 46 1/4 82 1/4 *1090 3430 39.9
 
CY2504TR 2 1/2 X 4 1 1/8 14 1/4 18 1/4 Full PSI 12272 18.0
CY2506TR 2 1/2 X 6 1 1/8 16 1/4 22 1/4 Full PSI 12272 19.0
CY2508TR 2 1/2 X 8 1 1/8 18 1/4 26 1/4 Full PSI 12272 20.9
CY2510TR 2 1/2 X 10 1 1/8 20 1/4 30 1/4 Full PSI 12272 22.0
CY2512TR 2 1/2 X 12 1 1/8 22 1/4 34 1/4 Full PSI 12272 24.0
CY2514TR 2 1/2 X 14 1 1/8 24 1/4 38 1/4 Full PSI 12272 24.9
CY2516TR 2 1/2 X 16 1 1/8 26 1/4 42 1/4 Full PSI 12272 27.0
CY2518TR 2 1/2 X 18 1 1/8 28 1/4 46 1/4 Full PSI 12272 27.9
CY2520TR 2 1/2 X 20 1 1/8 30 1/4 50 1/4 Full PSI 12272 29.9
CY2524TR 2 1/2 X 24 1 1/8 34 1/4 58 1/4 *2125 1571 32.9
CY2530TR 2 1/2 X 30 1 1/4 40 1/4 70 1/4 *1460 7175 44.9
CY2536TR 2 1/2 X 36 1 1/4 46 1/4 82 1/4 *1065 5232 56.0
 
CY3004TR 3 X 4 1 1/4 14 1/4 18 1/4 Full PSI 17672 22.9
CY3006TR 3 X 6 1 1/4 16 1/4 22 1/4 Full PSI 17672 24.0
CY3008TR 3 X 8 1 1/4 18 1/4 26 1/4 Full PSI 17672 26.0
CY3571TR 3 X 10 1 1/4 20 1/4 30 1/4 Full PSI 17672 28.0
CY3012TR-125 3 X 12 1 1/4 22 1/4 34 1/4 Full PSI 17672 29.0
CY3012TR-150 3 X 12 1 1/2 22 1/4 34 1/4 Full PSI 17672 31.7
CY3014TR-125 3 X 14 1 1/4 24 1/4 38 1/4 Full PSI 17672 31.0
CY3014TR-150 3 X 14 1 1/2 24 1/4 38 1/4 Full PSI 17672 34.1
CY3016TR-125 3 X 16 1 1/4 26 1/4 42 1/4 Full PSI 17672 34.0
CY3016TR-150 3 X 16 1 1/2 26 1/4 42 1/4 Full PSI 17672 37.3
CY3018TR 3 X 18 1 1/4 28 1/4 46 1/4 *2340 16560 34.9
CY3571TR 3 X 20 1 1/4 30 1/4 50 1/4 *1985 14571 36.9
CY3571TR-125 3 X 24 1 1/4 34 1/4 58 1/4 Full PSI 17672 40.9
CY3571TR-150 3 X 24 1 1/2 34 1/4 58 1/4 Full PSI 17672 46.2
CY3030TR 3 X 30 1 1/2 40 1/4 70 1/4 *2105 14880 58.9
CY3036TR 3 X 36 1 1/2 46 1/4 82 1/4 *1535 1571 67.8
 
CY3504TR 3 1/2 X 4 1 1/4 14 1/4 18 1/4 Full PSI 24053 24.0
CY3506TR 3 1/2 X 6 1 1/4 16 1/4 22 1/4 Full PSI 24053 25.9
CY3508TR 3 1/2 X 8 1 1/4 18 1/4 26 1/4 Full PSI 24053 27.8
CY3510TR 3 1/2 X 10 1 1/4 20 1/4 30 1/4 Full PSI 24053 30.0
CY3512TR 3 1/2 X 12 1 1/4 22 1/4 34 1/4 Full PSI 24053 33.0
CY3514TR 3 1/2 X 14 1 1/4 24 1/4 38 1/4 Full PSI 24053 34.9
CY3516TR 3 1/2 X 16 1 1/4 26 1/4 42 1/4 *2060 19840 35.9
CY3518TR 3 1/2 X 18 1 1/4 26 1/4 46 1/4 *1719 16539 39.9
CY3520TR 3 1/2 X 20 1 1/4 30 1/4 50 1/4 *1458 14571 41.9
CY3524TR 3 1/2 X 24 1 1/2 34 1/4 58 1/4 *2250 21645 50.9
CY3530TR 3 1/2 X 30 1 1/2 40 1/4 70 1/4 *1545 14880 60.9
CY3536TR 3 1/2 X 36 1 1/2 46 1/4 82 1/4 *1125 10850 68.9
 
CY4004TR 4 X 4 1 1/4 14 1/4 18 1/4 Full PSI 31416 30.0
CY4006TR 4 X 6 1 1/4 16 1/4 22 1/4 Full PSI 31416 32.0
CY4008TR 4 X 8 1 1/4 18 1/4 26 1/4 Full PSI 31416 35.0
CY4571TR 4 X 10 1 1/4 20 1/4 30 1/4 Full PSI 31416 37.9
CY4012TR 4 X 12 1 1/4 22 1/4 34 1/4 *2400 30195 40.9
CY4014TR 4 X 14 1 1/4 24 1/4 38 1/4 *1925 24210 42.9
CY4016TR 4 X 16 1 1/4 26 1/4 42 1/4 *1580 19840 44.9
CY4018TR 4 X 18 1 1/2 28 1/4 46 1/4 Full PSI 31416 48.9
CY4571TR 4 X 20 1 1/2 30 1/4 50 1/4 *2315 29085 52.9
CY4571TR-150 4 X 24 1 1/2 34 1/4 58 1/4 *1720 21645 60.9
CY4571TR-175 4 X 24 1 3/4 34 1/4 58 1/4 Full PSI 31416 62.9
CY4571TR-200 4 X 24 2 34 1/4 58 1/4 Full PSI 31416 65.0
CY4030TR 4 X 30 2 40 1/4 70 1/4 Full PSI 31416 86.8
CY4036TR 4 X 36 2 46 1/4 82 1/4 Full PSI 31416 108.0
CY4048TR 4 X 48 2 58 1/4 106 1/4 *1635 20560 150.0
 
CY5008TR 5 X 8 1 1/2 18 1/4 26 1/4 Full PSI 49088 73.3
CY5571TR-150 5 X 10 1 1/2 20 1/4 30 1/4 Full PSI 49088 77.0
CY5571TR-200 5 X 10 2 20 1/4 30 1/4 Full PSI 49088 78.5
CY5012TR 5 X 12 2 22 1/4 34 1/4 Full PSI 49088 82.5
CY5014TR 5 X 14 2 24 1/4 38 1/4 Full PSI 49088 89.1
CY5016TR 5 X 16 2 26 1/4 42 1/4 Full PSI 49088 95.7
CY5018TR 5 X 18 2 28 1/4 46 1/4 Full PSI 49088 102.3
CY5571TR 5 X 20 2 30 1/4 50 1/4 Full PSI 49088 107.8
CY5571TR 5 X 24 2 34 1/4 58 1/4 Full PSI 49088 117.7
CY5030TR 5 X 30 2 40 1/4 70 1/4 *2265 44470 136.4
CY5036TR 5 X 36 2 46 1/4 82 1/4 *1665 32700 155.1
 

 

Material: Steel
Usage: Farming Machinery
Structure: Piston Cylinder
Power: Hydraulic
Standard: Standard, Nonstandard
Pressure Direction: Double-acting Cylinder
Samples:
US$ 50/Piece
1 Piece(Min.Order)

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hydraulic cylinder

Can hydraulic cylinders be used for precise operations like CNC machining or molding?

Yes, hydraulic cylinders can be used for precise operations like CNC machining or molding. While hydraulic systems are commonly associated with heavy-duty applications, they can also provide the necessary precision and control required for precise operations in CNC machining and molding processes. Here's a detailed explanation of how hydraulic cylinders can be utilized for such precise operations:

1. Force and Control:

- Hydraulic cylinders are capable of generating substantial force, which is essential for precise operations in CNC machining and molding. By using hydraulic pressure, the cylinders can deliver the required force to cut or shape materials accurately or exert pressure for molding operations. The hydraulic system allows precise control over the force applied, ensuring consistent and reliable performance.

2. Adjustable Speed and Positioning:

- Hydraulic cylinders offer adjustable speed and precise positioning capabilities, making them suitable for precise operations. By controlling the flow of hydraulic fluid, the speed of the cylinder's movement can be adjusted according to specific requirements. This adaptability allows for fine-tuning the machining or molding process, achieving the desired precision in material removal or shaping. Hydraulic systems also enable accurate positioning of tools or molds, ensuring precise operations.

3. Integrated Feedback Systems:

- Advanced hydraulic systems can incorporate feedback sensors and control mechanisms to enhance precision in CNC machining and molding. These sensors provide real-time information about the position, speed, and force exerted by the hydraulic cylinders. The control system processes this data and adjusts the flow of hydraulic fluid accordingly, allowing for precise and accurate control over the operations. The feedback systems help maintain consistent performance and compensate for any deviations, ensuring high precision.

4. Damping and Vibration Control:

- Hydraulic cylinders can be equipped with damping mechanisms to minimize vibrations and ensure stability during CNC machining or molding operations. Vibrations can negatively impact precision by causing tool chatter or material deformation. By incorporating cushioning or damping features, hydraulic cylinders help absorb shocks and suppress vibrations, resulting in smoother and more accurate operations.

5. Customization and Adaptability:

- Hydraulic cylinders can be customized and adapted to meet the specific requirements of CNC machining or molding processes. Engineers can design cylinders with unique dimensions, stroke lengths, mounting options, and sealing arrangements to fit into equipment or systems with precise specifications. Customized hydraulic cylinders ensure optimal performance and compatibility for precise operations, enabling seamless integration into CNC machines or molding equipment.

6. Energy Efficiency:

- Hydraulic systems can be designed to be energy-efficient, contributing to cost savings in CNC machining or molding operations. By utilizing variable speed pumps, efficient control valves, and well-designed hydraulic circuits, energy consumption can be optimized. This efficiency reduces heat generation, leading to improved stability and precision in operations while minimizing energy costs.

7. Maintenance and Calibration:

- Regular maintenance and calibration of hydraulic systems are essential to maintain their precision in CNC machining or molding applications. Proper lubrication, inspection of seals, and replacement of worn-out components help ensure optimal performance. Regular calibration of control systems and feedback sensors ensures accurate readings and reliable operation, contributing to precision in machining or molding processes.

In summary, hydraulic cylinders can be effectively used for precise operations like CNC machining or molding. Their ability to generate substantial force, adjustable speed and positioning, integration with feedback systems, damping and vibration control, customization and adaptability, energy efficiency, and proper maintenance contribute to achieving the required precision in these operations. By leveraging the strengths of hydraulic systems, manufacturers can enhance the accuracy and reliability of CNC machining or molding processes, resulting in high-quality products and improved productivity.

hydraulic cylinder

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:

  1. 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.
  2. 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.
  3. 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.
  4. 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.
  5. 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.

hydraulic cylinder

What are the common signs of wear or leakage that indicate hydraulic cylinder issues?

Hydraulic cylinders are critical components in hydraulic systems, and wear or leakage can lead to performance issues and potential system failures. It is important to be aware of the common signs that indicate hydraulic cylinder problems. Here's a detailed explanation of the common signs of wear or leakage that indicate hydraulic cylinder issues:

1. Fluid Leakage:

- Fluid leakage is one of the most obvious signs of hydraulic cylinder problems. If you notice hydraulic fluid leaking from the cylinder, it indicates a seal failure or damage to the cylinder. Leaking fluid may be visible around the rod, piston, or cylinder body. It is important to address fluid leakage promptly as it can lead to a loss of system efficiency, contamination of the surrounding environment, and potential damage to other system components.

2. Reduced Performance:

- Wear or internal damage to the hydraulic cylinder can result in reduced performance. You may notice a decrease in the cylinder's force output, slower operation, or difficulty in extending or retracting the cylinder. Reduced performance can be indicative of worn seals, damaged piston or rod, internal leakage, or contamination within the cylinder. Any noticeable decrease in the cylinder's performance should be inspected and addressed to prevent further damage or system inefficiencies.

3. Abnormal Noise or Vibrations:

- Unusual noise or vibrations during the operation of a hydraulic cylinder can indicate internal wear or damage. Excessive noise, knocking sounds, or vibrations that are not typical for the system may suggest problems such as worn bearings, misalignment, or loose internal components. These signs should be investigated to identify the source of the issue and take appropriate corrective measures.

4. Excessive Heat:

- Overheating of the hydraulic cylinder is another sign of potential issues. If the cylinder feels excessively hot to the touch during normal operation, it may indicate problems such as internal leakage, fluid contamination, or inadequate lubrication. Excessive heat can lead to accelerated wear, reduced efficiency, and overall system malfunctions. Monitoring the temperature of the hydraulic cylinder is important to detect and address potential problems.

5. External Damage:

- Physical damage to the hydraulic cylinder, such as dents, scratches, or bent rods, can contribute to wear and leakage issues. External damage can compromise the integrity of the cylinder, leading to fluid leakage, misalignment, or inefficient operation. Regular inspection of the cylinder's external condition is essential to identify any visible signs of damage and take appropriate actions.

6. Seal Failure:

- Hydraulic cylinder seals are critical components that prevent fluid leakage and maintain system integrity. Signs of seal failure include fluid leakage, reduced performance, and increased friction during cylinder operation. Damaged or worn seals should be replaced promptly to prevent further deterioration of the cylinder's performance and potential damage to other system components.

7. Contamination:

- Contamination within the hydraulic cylinder can cause wear, damage to seals, and overall system inefficiencies. Signs of contamination include the presence of foreign particles, debris, or sludge in the hydraulic fluid or visible damage to seals and other internal components. Regular fluid analysis and maintenance practices should be implemented to prevent contamination and address any signs of contamination promptly.

8. Irregular Seal Wear:

- Hydraulic cylinder seals can wear over time due to friction, pressure, and operating conditions. Irregular seal wear patterns, such as uneven wear or excessive wear in specific areas, may indicate misalignment or improper installation. Monitoring the condition of the seals during regular maintenance can help identify potential issues and prevent premature seal failure.

It is important to address these common signs of wear or leakage promptly to prevent further damage, ensure the optimal performance of hydraulic cylinders, and maintain the overall efficiency and reliability of the hydraulic system. Regular inspection, maintenance, and timely repairs or replacements of damaged components are key to mitigating hydraulic cylinder issues and maximizing system longevity.
China factory 2500psi Tie-Rod Hydraulic Cylinder for USA Market   with Good quality China factory 2500psi Tie-Rod Hydraulic Cylinder for USA Market   with Good quality
editor by CX 2023-11-08