Product Description
Product Description
| Capacity | Stroke | Model | Min Height | Outside Diameter | Effective Area | Oil Capacity | Saddle Diameter | Weight |
| (Ton) | (mm) | (mm) | (mm) | (cm²) | (cm³) | (mm) | (Kg) | |
| 50 | 50 | CLL502 | 164 | 125 | 70.9 | 355 | 71 | 15 |
| 50 | 100 | CLL5O4 | 214 | 125 | 70.9 | 709 | 71 | 20 |
| 50 | 150 | CLL506 | 264 | 125 | 70.9 | 1064 | 71 | 25 |
| 50 | 200 | CLL508 | 314 | 125 | 70.9 | 1418 | 71 | 30 |
| 50 | 250 | CLL5571 | 364 | 125 | 70.9 | 1773 | 71 | 35 |
| 50 | 300 | CLL5012 | 414 | 125 | 70.9 | 2127 | 71 | 40 |
| 100 | 50 | CLL1002 | 187 | 165 | 132.7 | 664 | 71 | 30 |
| 100 | 100 | CLL1004 | 237 | 165 | 132.7 | 1327 | 71 | 39 |
| 100 | 150 | CLL1006 | 287 | 165 | 132.7 | 1991 | 71 | 48 |
| 100 | 200 | CLL1008 | 337 | 165 | 132.7 | 2654 | 71 | 56 |
| 100 | 250 | CLL1571 | 387 | 165 | 132.7 | 3318 | 71 | 64 |
| 100 | 300 | CLL10012 | 437 | 165 | 132.7 | 3981 | 71 | 73 |
| 150 | 50 | CLL1502 | 209 | 205 | 201 | 1005 | 130 | 53 |
| 150 | 100 | CLL1504 | 259 | 205 | 201 | 2571 | 130 | 66 |
| 150 | 150 | CLL1506 | 309 | 205 | 201 | 3015 | 130 | 78 |
| 150 | 200 | CLL1508 | 359 | 205 | 201 | 4571 | 130 | 92 |
| 150 | 250 | CLL15571 | 409 | 205 | 201 | 5571 | 130 | 104 |
| 150 | 300 | CLL15012 | 459 | 205 | 201 | 6030 | 130 | 117 |
| 200 | 50 | CLL2002 | 243 | 235 | 265. 6 | 1330 | 130 | 83 |
| 200 | 150 | CLL2006 | 343 | 235 | 265.6 | 3989 | 130 | 117 |
| 200 | 250 | CLL2571 | 443 | 235 | 265.6 | 6648 | 130 | 152 |
| 250 | 50 | CLL2502 | 249 | 275 | 366.4 | 1832 | 150 | 116 |
| 250 | 150 | CLL2506 | 349 | 275 | 366.4 | 5496 | 150 | 162 |
| 250 | 250 | CLL25571 | 449 | 275 | 366.4 | 9160 | 150 | 210 |
| 300 | 50 | CLL3002 | 295 | 310 | 456.2 | 2281 | 139 | 173 |
| 300 | 150 | CLL3006 | 395 | 310 | 456.2 | 6843 | 139 | 233 |
| 300 | 250 | CLL3571 | 495 | 310 | 456.2 | 11405 | 139 | 293 |
| 400 | 50 | CLL4002 | 335 | 350 | 559. 9 | 2800 | 159 | 250 |
| 400 | 150 | CLL4006 | 435 | 350 | 559. 9 | 8399 | 159 | 327 |
| 400 | 250 | CLL4571 | 535 | 350 | 559.9 | 13998 | 159 | 402 |
| 500 | 50 | CLL5002 | 375 | 400 | 730. 6 | 3656 | 228 | 367 |
| 500 | 150 | CLL5006 | 475 | 400 | 730.6 | 10967 | 228 | 466 |
| 500 | 250 | CLL5571 | 575 | 400 | 730.6 | 18278 | 228 | 567 |
| 600 | 50 | CLL6002 | 395 | 430 | 855.3 | 4277 | 194 | 446 |
| 600 | 150 | CLL6006 | 495 | 430 | 855.3 | 12830 | 194 | 562 |
| 600 | 250 | CLL6571 | 595 | 430 | 855.3 | 21383 | 194 | 679 |
| 800 | 50 | CLL8002 | 455 | 505 | 1176.9 | 5882 | 224 | 709 |
| 800 | 150 | CLL8006 | 555 | 505 | 1176.9 | 17645 | 224 | 870 |
| 800 | 250 | CLL8571 | 655 | 505 | 1176.9 | 29408 | 224 | 1571 |
| 1000 | 50 | CLL10002 | 495 | 560 | 1466.4 | 7329 | 360 | 949 |
| 1000 | 150 | CLL10006 | 595 | 560 | 1466. 4 | 21986 | 360 | 1141 |
| 1000 | 250 | CLL10571 | 695 | 560 | 1466.4 | 36643 | 360 | 1333 |
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FAQ
Q: How to order?
A: Inquire with us→ sample customization→ use scenario inform→ receive our product design recommendation→ negotiate details→ confirm the sample→ CHINAMFG the contract/deposit→mass production→ the goods are ready→ balance/delivery→ further cooperation.
Q: How about the sample order?
A: We can provide the sample price, please contact us for details.
Q: Which shipping method is available?
A: By sea, by air, or by express (DHL, UPS, FedEx). Other shipping methods are also available, please contact us for details.
Q: How long is the delivery [production] and shipment?
A: The delivery time depends on the quantity you ordered. Shipped from the factory, within 3 days for standard parts and within 10 days for non-standard parts.
Q: My package is missing some products, what can I do?
A: Please contact our support team, we will confirm the contents of your order with the packaging, and compensate for the shipment. We apologize for the inconvenience.
Q: How to confirm the payment?
A: We accept T/T payment method. The first type is 30% deposit order confirmed, and the remaining 70% is paid before shipment, and the second type is 100% paid before shipment. Other payment methods are also acceptable, please contact us before you pay by other payment methods.
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| Certification: | CE, ISO9001 |
|---|---|
| Pressure: | High Pressure |
| Work Temperature: | Normal Temperature |
| Acting Way: | Single Acting |
| Working Method: | Straight Trip |
| Adjusted Form: | Switching Type |
| Customization: |
Available
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Can single-acting hydraulic cylinders be used in agricultural machinery for specific tasks?
Yes, single-acting hydraulic cylinders can be used in agricultural machinery for specific tasks. Here’s a detailed explanation:
Agricultural machinery plays a crucial role in modern farming operations, increasing productivity and efficiency. Single-acting hydraulic cylinders are commonly employed in various agricultural equipment to perform specific tasks and functions.
Here are some examples of how single-acting hydraulic cylinders are used in agricultural machinery:
1. Lift Systems: Agricultural machinery often requires lifting capabilities to handle heavy loads such as bales, equipment attachments, or implements. Single-acting hydraulic cylinders are utilized in lifting systems to provide the necessary force for raising and lowering components. This enables efficient loading and unloading of materials and facilitates equipment adjustments.
2. Tilting and Pivoting Actions: Some agricultural tasks require tilting or pivoting actions to adjust the angle or position of equipment. Single-acting hydraulic cylinders can be integrated into the machinery to enable controlled tilting or pivoting movements. For example, in a tillage implement, a hydraulic cylinder can be used to adjust the angle of the implement to optimize soil cultivation.
3. Hydraulic Brakes and Clutches: Agricultural machinery often utilizes hydraulic systems for braking and clutching actions. Single-acting hydraulic cylinders play a role in these systems by actuating hydraulic brakes or clutches, providing reliable and precise control over the machinery’s movement and operation.
4. Seed and Fertilizer Distribution: Hydraulic cylinders are employed in seed and fertilizer distribution systems to regulate the flow of materials. For example, in a seed drill, a single-acting hydraulic cylinder can control the opening and closing of seed tubes to ensure accurate seed placement at the desired depth.
5. Harvesting Equipment: Harvesting machinery, such as combine harvesters, often utilizes hydraulic systems for various functions. Single-acting hydraulic cylinders can be found in these machines to control the movement of components like cutter bars, augers, and chutes, facilitating efficient harvesting operations.
6. Implement Adjustments: Agricultural implements, such as plows, harrows, and planters, often require adjustments to adapt to different soil conditions and crop types. Single-acting hydraulic cylinders can be employed to adjust the height, depth, or angle of these implements, allowing farmers to optimize their performance and achieve desirable results.
It is important to note that while single-acting hydraulic cylinders are suitable for specific tasks in agricultural machinery, the selection of the appropriate cylinder type and configuration depends on factors such as the required force, stroke length, and operating conditions.
In summary, single-acting hydraulic cylinders are commonly used in agricultural machinery for specific tasks such as lifting, tilting, braking, clutching, material distribution, harvesting, and implement adjustments. Their ability to provide controlled force and movement makes them valuable components in enhancing the functionality and efficiency of agricultural equipment.

How does a single-acting hydraulic cylinder contribute to load distribution and control?
A single-acting hydraulic cylinder plays a crucial role in load distribution and control. Here’s a detailed explanation:
Load distribution refers to the equitable distribution of force across multiple points or components in a system. Load control involves regulating and managing the force applied to the load. Single-acting hydraulic cylinders contribute to both load distribution and control in hydraulic systems. Here are some key points on how they achieve this:
1. Force Transmission: Single-acting hydraulic cylinders act as force-transmitting devices in hydraulic systems. They convert hydraulic energy into linear force, which is then applied to the load. By transmitting force to the load, the cylinders distribute the applied force across the load-bearing components. This ensures even distribution of force, preventing localized stress concentrations and promoting balanced load handling.
2. Load Sharing: In systems where multiple hydraulic cylinders are used, load sharing is essential to maintain uniform force distribution. Single-acting hydraulic cylinders can be connected in parallel or series configurations to share the load. Parallel connection allows multiple cylinders to work together, dividing the load proportionally among them. Series connection enables sequential force application, with each cylinder taking a portion of the load. This load sharing capability ensures equal force distribution, enhancing system efficiency and stability.
3. Pressure Regulation: Single-acting hydraulic cylinders contribute to load control through pressure regulation. The hydraulic fluid pressure determines the force exerted by the cylinder. By controlling the pressure through valves or regulators, the force applied to the load can be precisely adjusted. This control allows for accurate load handling and enables fine-tuning of the force applied to different components or stages within a system.
4. Speed Control: Load control also involves regulating the speed at which the load is moved or operated. Single-acting hydraulic cylinders offer speed control capabilities through flow control valves. By adjusting the flow rate of hydraulic fluid entering or exiting the cylinder, the extension and retraction speeds of the piston can be controlled. This feature allows for smooth and controlled movement of the load, preventing sudden or excessive accelerations that may lead to instability or damage.
5. Safety Measures: Single-acting hydraulic cylinders contribute to load control by incorporating safety measures. Pressure relief valves can be integrated into the hydraulic system to protect against overloading. These valves release excess pressure to prevent damage to the cylinder or other system components. By ensuring that the load remains within safe operating limits, the cylinders contribute to load control and help maintain system integrity.
It is important to properly size and select single-acting hydraulic cylinders based on the load requirements and system design. Considerations such as load capacity, pressure ratings, and flow rates should be taken into account.
In summary, single-acting hydraulic cylinders contribute to load distribution and control by transmitting force, sharing loads, regulating pressure, controlling speed, and incorporating safety measures. Their functionality and versatility make them valuable components in hydraulic systems, ensuring efficient and controlled load handling.

How does a single-acting hydraulic cylinder contribute to controlled and precise movement?
A single-acting hydraulic cylinder plays a significant role in providing controlled and precise movement in hydraulic systems. Here’s a detailed explanation:
1. Hydraulic Pressure Control: The movement of a single-acting hydraulic cylinder is controlled by regulating the hydraulic pressure supplied to the cylinder’s pressure chamber. By adjusting the pressure, the speed and force of the cylinder’s movement can be controlled. This enables precise control over the extension or retraction of the piston, allowing for controlled and precise movement of the load.
2. Flow Control Valve: Single-acting hydraulic cylinders are often equipped with flow control valves, which further enhance control over the cylinder’s movement. The flow control valve regulates the rate of fluid flow into and out of the cylinder, thereby controlling the speed of the piston’s movement. By adjusting the flow control valve, the movement can be fine-tuned to achieve the desired speed and ensure precise positioning of the load.
3. Cylinder Bore Size and Piston Area: The size of the cylinder bore and the piston area also contribute to controlled and precise movement. A larger cylinder bore and piston area provide a higher force output for a given hydraulic pressure. This allows for finer control over the movement, as smaller changes in pressure result in smaller changes in force. The larger piston area also reduces the effects of internal friction, enabling smoother and more precise movement.
4. Control Systems: Single-acting hydraulic cylinders can be integrated into control systems that provide advanced control and automation capabilities. These control systems can utilize sensors, feedback mechanisms, and programmable logic controllers (PLCs) to precisely control the movement of the cylinder. By incorporating closed-loop control and feedback, the system can continuously monitor and adjust the cylinder’s position, speed, and force, ensuring highly controlled and precise movement.
5. Position Feedback: To achieve precise movement, single-acting hydraulic cylinders can be equipped with position feedback mechanisms, such as linear position sensors or encoders. These sensors provide real-time feedback on the position of the piston, allowing for accurate control and positioning of the load. The position feedback information can be used to adjust the hydraulic pressure or flow rate, ensuring the desired position is achieved with high accuracy.
6. Damping and Cushioning: Single-acting hydraulic cylinders can incorporate damping and cushioning mechanisms to control the deceleration and impact forces at the end of the cylinder stroke. These mechanisms help prevent sudden stops or jerky movements, contributing to smoother and more controlled motion. Damping and cushioning improve the precision of the cylinder’s movement, particularly in applications that require delicate handling or where abrupt stops can cause damage.
7. System Calibration and Tuning: Achieving controlled and precise movement with a single-acting hydraulic cylinder often involves system calibration and tuning. This process involves adjusting the hydraulic parameters, such as pressure, flow rate, or valve settings, to optimize the system’s performance and achieve the desired movement characteristics. Calibration ensures that the hydraulic system operates within the desired range and delivers accurate and repeatable movement.
In summary, a single-acting hydraulic cylinder contributes to controlled and precise movement through hydraulic pressure control, flow control valves, cylinder bore size and piston area, control systems, position feedback, damping and cushioning mechanisms, and system calibration and tuning. These factors work together to provide accurate, smooth, and controlled motion in hydraulic systems, allowing for precise positioning and handling of loads.


editor by CX 2024-04-09