Product Description
Product Description
Capacity | Stroke | Model | Min Height | Outside Diameter | Effective Area | Oil Capacity | Saddle Diameter | Thread Size | Thread Length | Weight |
(Ton) | (mm) | (mm) | (mm) | (cm²) | (cm³) | (mm) | (mm) | (Kg) | ||
5 | 16 | RC50 | 42 | 42×59 | 7 | 11 | 26 | 1.1/2″-16 | 28 | 1.1 |
5 | 25 | RC51 | 110 | 38 | 6.5 | 16 | 25.5 | 1.1/2″-16 | 28 | 1.1 |
5 | 76 | RC53 | 165 | 38 | 6.5 | 50 | 25.5 | 1.1/2″-16 | 28 | 1.5 |
5 | 127 | RC55 | 215 | 38 | 6.5 | 83 | 25.5 | 1.1/2″-16 | 28 | 1.9 |
5 | 177 | RC57 | 273 | 38 | 6.5 | 115 | 25.5 | 1.1/2″-16 | 28 | 2.4 |
5 | 232 | RC59 | 323 | 38 | 6.5 | 151 | 25.5 | 1.1/2″-16 | 28 | 2.8 |
10 | 26 | RC101 | 89 | 57 | 14.5 | 38 | 35 | 2.1/4″-14 | 27 | 1.8 |
10 | 54 | RC102 | 121 | 57 | 14.5 | 78 | 35 | 2.1/4″-14 | 27 | 2.3 |
10 | 105 | RC104 | 171 | 57 | 14.5 | 152 | 35 | 2.1/4″-14 | 27 | 3.3 |
10 | 156 | RC106 | 247 | 57 | 14.5 | 226 | 35 | 2.1/4″-14 | 27 | 4.4 |
10 | 203 | RC108 | 298 | 57 | 14.5 | 294 | 35 | 2.1/4″-14 | 27 | 5.4 |
10 | 257 | RC1571 | 349 | 57 | 14.5 | 373 | 35 | 2.1/4″-14 | 27 | 6.4 |
10 | 304 | RC1012 | 400 | 57 | 14.5 | 441 | 35 | 2.1/4″-14 | 27 | 6.8 |
10 | 356 | RC1014 | 450 | 57 | 14.5 | 516 | 35 | 2.1/4″-14 | 27 | 8.2 |
15 | 25 | RC151 | 124 | 70 | 19.6 | 49 | 38 | 2.1/4″-14 | 30 | 3.3 |
15 | 51 | RC152 | 149 | 70 | 19.6 | 100 | 38 | 2.3/4″-16 | 30 | 4.1 |
15 | 101 | RC154 | 200 | 70 | 19.6 | 198 | 38 | 2.3/4″-16 | 30 | 5 |
15 | 152 | RC156 | 271 | 70 | 19.6 | 298 | 38 | 2.3/4″-16 | 30 | 6.8 |
15 | 203 | RC158 | 322 | 70 | 19.6 | 398 | 38 | 2.3/4″-16 | 30 | 8.2 |
15 | 254 | RC1510A | 373 | 70 | 19.6 | 498 | 38 | 2.3/4″-16 | 30 | 9.5 |
15 | 305 | RC1512A | 423 | 70 | 19.6 | 598 | 38 | 2.3/4″-16 | 30 | 10.9 |
15 | 356 | RC1514A | 474 | 70 | 19.6 | 697 | 38 | 2.3/4″-16 | 30 | 11.8 |
25 | 26 | RC251 | 139 | 85 | 33.2 | 86 | 50 | 3.5/16″-12 | 49 | 5.9 |
25 | 50 | RC252 | 165 | 85 | 33.2 | 166 | 50 | 3.5/16″-12 | 49 | 6.4 |
25 | 102 | RC254 | 215 | 85 | 33.2 | 339 | 50 | 3.5/16″-12 | 49 | 8.2 |
25 | 158 | RC256 | 273 | 85 | 33.2 | 525 | 50 | 3.5/16″-12 | 49 | 10 |
25 | 210 | RC258 | 323 | 85 | 33.2 | 697 | 50 | 3.5/16″-12 | 49 | 12.2 |
25 | 261 | RC2510A | 374 | 85 | 33.2 | 867 | 50 | 3.5/16″-12 | 49 | 14.1 |
25 | 311 | RC2512A | 425 | 85 | 33.2 | 1033 | 50 | 3.5/16″-12 | 49 | 16.3 |
25 | 362 | RC2514 | 476 | 85 | 33.2 | 1202 | 50 | 3.5/16″-12 | 49 | 17.7 |
30 | 209 | RC308 | 387 | 102 | 44.2 | 923 | 50 | 4″-12 | 49 | 18.1 |
50 | 51 | RC502 | 176 | 127 | 70.8 | 361 | 71 | 5″-12 | 55 | 15 |
50 | 101 | RC504 | 227 | 127 | 70.8 | 715 | 71 | 5″-12 | 55 | 19.1 |
50 | 159 | RC506 | 282 | 127 | 70.8 | 1125 | 71 | 5″-12 | 55 | 23.1 |
50 | 337 | RC5013 | 460 | 127 | 70.8 | 2386 | 71 | 5″-12 | 55 | 37.6 |
75 | 156 | RC756 | 285 | 147 | 103.8 | 1619 | 71 | 5.3/4″-12 | 44 | 29.5 |
75 | 333 | RC7513A | 492 | 147 | 103.8 | 3456 | 71 | 5.3/4″-12 | 44 | 59 |
100 | 168 | RC1006 | 357 | 177 | 132.7 | 2229 | 71 | 6.7/8″-12 | 44 | 59 |
100 | 260 | RC1571 | 449 | 177 | 133.3 | 3450 | 71 | 6.7/8″-12 | 44 | 72.6 |
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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.
/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
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 contribute to energy-efficient force generation?
A single-acting hydraulic cylinder contributes to energy-efficient force generation through its design and operating principles. Here’s a detailed explanation:
1. Unidirectional Force: Single-acting hydraulic cylinders generate force in one direction, typically in the extension stroke. This unidirectional force generation eliminates the need for hydraulic fluid to exert force in the opposite direction, resulting in energy savings. The hydraulic system only needs to supply fluid to extend the cylinder, while the retraction of the piston is achieved through the force of gravity or other external means, reducing the overall energy consumption.
2. Reduced Fluid Volume: Single-acting hydraulic cylinders require a smaller volume of hydraulic fluid compared to double-acting cylinders. Since these cylinders operate primarily in one direction, the fluid volume needed for extension strokes is lower. This reduction in fluid volume leads to energy savings in terms of pumping and circulating the hydraulic fluid.
3. Lower Pumping Requirements: The unidirectional force generation of single-acting hydraulic cylinders reduces the workload on the hydraulic pump. As the pump only needs to supply fluid for extension strokes, the pump size and power requirements can be optimized, leading to energy efficiency. This is particularly beneficial in applications where the hydraulic system is powered by electric motors or other energy sources.
4. Gravity-Assisted Retraction: Single-acting hydraulic cylinders often utilize the force of gravity or external forces to retract the piston during the return stroke. By leveraging these external forces, the hydraulic system can minimize the energy required for retraction. This is particularly advantageous in applications where the weight of the load or other external factors can assist in the retraction process.
5. System Optimization: Single-acting hydraulic cylinders allow for system optimization to maximize energy efficiency. By carefully selecting cylinder sizes, operating pressures, and flow rates, the hydraulic system can be designed to match the specific force requirements of the application. This optimization ensures that the system operates at its most energy-efficient operating point, minimizing energy waste and maximizing overall system performance.
6. Regenerative Systems: In certain applications, single-acting hydraulic cylinders can be integrated into regenerative hydraulic systems. These systems capture and reuse the energy generated during the retraction stroke, effectively recycling the energy that would otherwise be dissipated. By harnessing this regenerative energy, the overall energy efficiency of the system is significantly improved.
By employing these energy-efficient design and operating principles, single-acting hydraulic cylinders contribute to reduced energy consumption and improved overall system efficiency.
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.
What are the advantages of using single-acting hydraulic cylinders in hydraulic systems?
Using single-acting hydraulic cylinders in hydraulic systems offers several advantages. Here’s a detailed explanation:
1. Simplicity and Cost-Effectiveness: Single-acting hydraulic cylinders have a simple design, consisting of a piston, cylinder, and hydraulic fluid. This simplicity makes them cost-effective to manufacture, purchase, and maintain compared to more complex hydraulic cylinders. Their straightforward construction also facilitates easier installation and troubleshooting.
2. Unidirectional Force: Single-acting hydraulic cylinders generate force in one direction, typically extending the piston. This unidirectional force output is advantageous in applications where force is required in one direction only, such as lifting, pushing, or pressing tasks. The absence of a return stroke simplifies the hydraulic circuit and reduces complexity.
3. Efficient Power Transfer: Single-acting hydraulic cylinders offer efficient power transfer from the hydraulic fluid to the load. When hydraulic pressure is applied to the cylinder’s pressure chamber, it generates a linear force that moves the piston. This force is transmitted directly to the load, resulting in efficient power transmission without energy loss.
4. Compact and Lightweight: Single-acting hydraulic cylinders are generally compact and lightweight, making them suitable for applications with space or weight restrictions. Their compact size allows for easier integration into hydraulic systems, while the reduced weight minimizes the overall system weight. This can be advantageous in mobile or portable hydraulic equipment.
5. Reduced Complexity: Compared to double-acting hydraulic cylinders that require hydraulic fluid flow in both directions, single-acting cylinders have simpler hydraulic circuitry. This reduced complexity can lead to easier system design, installation, and maintenance. Additionally, the absence of a return stroke simplifies the control and valve requirements in the hydraulic system.
6. Lower Initial Cost: Single-acting hydraulic cylinders typically have a lower initial cost compared to double-acting cylinders. This cost advantage makes them an attractive choice for applications with budget constraints. However, it’s important to consider the specific requirements of the application and evaluate the overall cost-effectiveness, including factors such as performance, maintenance, and lifecycle costs.
7. Reliable and Durable: Single-acting hydraulic cylinders are known for their reliability and durability. With fewer moving parts and simpler construction, they are less prone to mechanical failures. This reliability ensures consistent performance and reduces downtime, resulting in increased productivity and operational efficiency.
8. Wide Range of Sizes and Capacities: Single-acting hydraulic cylinders are available in a wide range of sizes and capacities to suit various application requirements. Whether it’s a small-scale application or a heavy-duty industrial task, there are single-acting cylinders available to meet the specific force and stroke requirements.
In summary, the advantages of using single-acting hydraulic cylinders in hydraulic systems include simplicity and cost-effectiveness, unidirectional force output, efficient power transfer, compactness and lightweight design, reduced complexity, lower initial cost, reliability and durability, and a wide range of sizes and capacities. These advantages make single-acting hydraulic cylinders suitable for a variety of applications, offering effective and economical force generation in hydraulic systems.
editor by Dream 2024-05-15