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 |
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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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How does a single-acting hydraulic cylinder handle variations in hydraulic hose technology?
A single-acting hydraulic cylinder is compatible with various hydraulic hose technologies. Here’s a detailed explanation:
Hydraulic hoses are essential components in hydraulic systems, responsible for transmitting hydraulic fluid between different hydraulic components, including the hydraulic cylinder. Single-acting hydraulic cylinders can handle variations in hydraulic hose technology due to their flexible design and standardized fittings.
Here are some key aspects of how single-acting hydraulic cylinders handle variations in hydraulic hose technology:
1. Compatibility: Single-acting hydraulic cylinders are designed to be compatible with a wide range of hydraulic hose types, including rubber hoses, thermoplastic hoses, and metal hoses. They can accommodate variations in hose materials, construction, and specifications.
2. Standardized Fittings: Single-acting hydraulic cylinders usually feature standardized fittings such as threaded connectors, flanges, or quick-release couplings. These standardized fittings ensure compatibility and facilitate the connection between the hydraulic cylinder and the hydraulic hose.
3. Pressure and Flow Requirements: Single-acting hydraulic cylinders have specific pressure and flow requirements to operate effectively. Hydraulic hoses must be selected based on their ability to handle the required pressure ratings and flow rates of the hydraulic system. Variations in hydraulic hose technology can be managed by choosing hoses that meet the specific pressure and flow requirements of the single-acting hydraulic cylinder.
4. Hose Sizing: The sizing of hydraulic hoses is critical to ensure optimal performance and efficiency of the hydraulic system. Single-acting hydraulic cylinders require hydraulic hoses with appropriate inside diameter (ID) and length to accommodate the hydraulic fluid flow and pressure. Variations in hydraulic hose technology can be addressed by selecting hoses with the correct sizing for the specific application.
5. Industry Standards: Hydraulic hose technology is regulated by industry standards and specifications to ensure safety and performance. Single-acting hydraulic cylinders are designed to adhere to these standards, allowing for seamless integration with different hydraulic hose technologies that comply with industry requirements.
It is important to consider the specific application, operating conditions, and requirements when selecting hydraulic hoses for use with single-acting hydraulic cylinders. Consulting hydraulic system experts or referring to hydraulic system documentation can provide further guidance on the appropriate hydraulic hose technology to use with single-acting hydraulic cylinders.
In summary, single-acting hydraulic cylinders can handle variations in hydraulic hose technology by offering compatibility with different hose types, standardized fittings, consideration of pressure and flow requirements, appropriate hose sizing, and adherence to industry standards. These features ensure the proper functioning and integration of hydraulic hoses with single-acting hydraulic cylinders in various hydraulic system applications.
Can single-acting hydraulic cylinders be used in hydraulic presses?
Yes, single-acting hydraulic cylinders can be used in hydraulic presses. Here’s a detailed explanation:
Hydraulic presses are widely used in various industries for applications such as stamping, forming, punching, and molding. They utilize hydraulic cylinders to generate and control the force required for these operations. Single-acting hydraulic cylinders are well-suited for integration into hydraulic presses due to their ability to provide force in one direction. Here are some key points on using single-acting hydraulic cylinders in hydraulic presses:
1. Force Generation: Single-acting hydraulic cylinders are capable of generating substantial force when hydraulic pressure is applied to the piston for extension. This force is utilized in hydraulic presses to exert pressure on the workpiece or tooling for tasks such as bending, shearing, or compressing. The hydraulic cylinder converts the hydraulic energy into linear force, allowing the press to perform a wide range of applications.
2. Press Cycle Control: Hydraulic presses require precise control over the force and stroke during operation. Single-acting hydraulic cylinders can be actuated through control valves to control the extension and retraction of the piston. The valves enable the operator to regulate the flow of hydraulic fluid, thus controlling the force applied by the cylinder. This control allows for accurate and repeatable press cycles, ensuring consistent results and efficient production.
3. Safety Features: Hydraulic presses often incorporate safety features to protect operators and prevent damage to the press or tooling. Single-acting hydraulic cylinders can be integrated into these safety systems. For example, pressure relief valves can be installed to limit the maximum force exerted by the hydraulic cylinder, preventing overload situations. Additionally, emergency stop buttons, safety interlocks, and guarding systems work in conjunction with the hydraulic cylinder to ensure safe operation of the hydraulic press.
4. Durability and Reliability: Single-acting hydraulic cylinders are designed to withstand high pressures and heavy loads, making them suitable for the demanding conditions of hydraulic presses. They are constructed using robust materials and undergo rigorous testing to ensure durability and reliability. The cylinders can endure frequent use and provide consistent force application throughout their operational lifespan, contributing to the overall performance and productivity of the hydraulic press.
5. Customization Options: Single-acting hydraulic cylinders offer customization options to suit specific requirements in hydraulic presses. Parameters such as bore size, stroke length, and mounting configurations can be tailored to match the press’s design and application. This flexibility allows for optimal integration and performance in hydraulic press systems.
It is important to consider the force capacity, stroke length, and other technical specifications of the single-acting hydraulic cylinder to ensure compatibility with the specific hydraulic press application.
In summary, single-acting hydraulic cylinders can be effectively used in hydraulic presses for force generation, press cycle control, safety, and durability. Their ability to provide controlled linear force makes them suitable for a wide range of pressing applications across various industries.
How does a single-acting hydraulic cylinder handle variations in hydraulic pressure?
A single-acting hydraulic cylinder is designed to handle variations in hydraulic pressure in a specific manner. Here’s a detailed explanation:
1. Extending Stroke: During the extending stroke of a single-acting hydraulic cylinder, hydraulic pressure is applied to the pressure chamber through the hydraulic port. The pressure acts on the piston, causing it to move in the outward direction, extending the piston rod. The force generated by the hydraulic pressure is directly proportional to the pressure and the effective area of the piston.
2. Return Stroke: Unlike double-acting hydraulic cylinders that can generate force in both directions, single-acting cylinders rely on external forces or mechanisms for the return stroke. Once the hydraulic pressure is released or redirected, external forces such as gravity, springs, or other mechanical means push the piston back to its original position.
3. Handling Pressure Variations: Single-acting hydraulic cylinders are designed to accommodate variations in hydraulic pressure in the following ways:
- Pressure Limitations: Single-acting cylinders have pressure limitations specified by their design and construction. These limitations ensure that the cylinder can safely handle the maximum hydraulic pressure it is rated for without experiencing structural failure or damage.
- Pressure Relief Valve: In some applications, a pressure relief valve may be installed in the hydraulic circuit to protect the hydraulic cylinder from excessive pressure. The relief valve opens when the pressure exceeds a predetermined limit, allowing the excess fluid to bypass the cylinder and maintain a safe operating pressure.
- Sealing System: Single-acting cylinders have sealing systems that help contain the hydraulic pressure within the pressure chamber and prevent leakage. The seals, such as O-rings, rod seals, and wiper seals, are designed to withstand the pressure and provide an effective barrier between the pressure chamber and the return chamber.
- Controlled Fluid Flow: The hydraulic system controlling the single-acting cylinder may incorporate flow control valves or regulators to regulate the rate of fluid flow. These components can help manage pressure variations by controlling the flow of hydraulic fluid into the pressure chamber during the extending stroke.
By considering pressure limitations, incorporating pressure relief valves, utilizing effective sealing systems, and implementing controlled fluid flow, single-acting hydraulic cylinders can handle variations in hydraulic pressure and maintain safe and reliable operation.
editor by CX 2024-02-19