Product Description
Specifications:
| Product Name | SGS Series Hydraulic Cylinder |
| Work Press | 7/14/16/21/31.5MPa |
| Material | Aluminum, Cast Iron,45mnb Steel, Stainless Steel |
| Stage | Up to 5 Stage |
| Bore Size | 40mm–320mm, Customizable |
| Shaft Diameter | 20mm–220mm, Customizable |
| Stroke Length | 30mm–14100mm, Customizable |
| Rod Surface Hardness | HRC48-54 |
| Operating Temperature | -40°C to +120 °C |
| Paint Color | Black, Yellow, Blue, Brown, Customizable |
| Service | OEM&ODM |
| Warranty | 1 Year |
| MOQ | 1 Piece |
| Delivery Time | 7-15 Days, Also depending on specific demands |
| Certification | ISO9001,CE |
| Capacity | 50,000Pcs per year |
Product Display:
Mounting:
Working Flow: About Us
Tongte designs and manufactures durable, heavy-duty hydraulic products and accessories and offers lifecycle services to them. We constantly develop our machine base and operations to meet customer-specific needs and remain leaders in the industry. Beyond all else, we want to be the trusted, groundbreaking partner our customers truly need.
In addition to the customized cylinders, CHINAMFG offers hydraulic power units, Electric-Hydraulic linear actuators, piston accumulators, system configurations, and versatile services such as repair and manufacturing services. The modern production facilities are located in HangZhou, ZheJiang (China) where production started in 2001. The core values of Tongke guiding its business strongly are commitment, sustainability, interaction, and customer-first.
We possess over 20 years of experience in the industry and extensive global market experience, our customers are located all over the world, and we truly commit to the customers’ needs – these are the success factors of our family-owned company. Our vision is to grow and expand the business further into global markets.
FAQ:
Q1: What does your company do?
A: we are a supplier of high-quality hydraulic products including Hydraulic Cylinders, Hydraulic Power packs, Hydraulic Linear, and other Hydraulic components.
Q2:Are you a manufacturer or trading company?
A: We are a manufacturer.
Q3:Are you able to make Non-standard or customized products?
A: Yes, we can.
Q3: How long is your delivery time?
A: Normally, the delivery time is 7 days if we have stock, and 15-30 working days if we don’t. but it
also depends on the product
requirements and quantity.
Q4: Do you provide samples? are the samples free or not?
A: Yes, we can provide samples, but they are not free of charge.
Q5: What are your payment terms?
A: 30% deposit T/T or Irrevocable L/C at sight, If you have any questions, please feel free to
contact us.
Q6: What is your warranty policy?
A: All our products are warranted for 1 full year from the date of delivery against defects in materials and workmanship. Each individual product will be strictly inspected on our factory QC Process
System before shipment. We also have a Customer Service team to respond to customers’ questions within 12 hours. /* 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(/(.*?):(.*)$/))&&1
| Certification: | ISO9001 |
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| Pressure: | Medium Pressure |
| Work Temperature: | Normal Temperature |
| Customization: |
Available
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Shipping Cost:
Estimated freight per unit. |
about shipping cost and estimated delivery time. |
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| Payment Method: |
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Initial Payment Full Payment |
| Currency: | US$ |
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| Return&refunds: | You can apply for a refund up to 30 days after receipt of the products. |
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How does a lift cylinder contribute to energy-efficient lifting?
A lift cylinder plays a significant role in promoting energy-efficient lifting operations. Here’s an explanation of how lift cylinders contribute to energy efficiency:
1. Hydraulic System Efficiency:
Lift cylinders are commonly used in hydraulic systems, which are known for their high efficiency. Hydraulic systems utilize pressurized fluid to transmit power, allowing for smooth and controlled lifting operations. The hydraulic fluid is circulated within the system, and the lift cylinder converts the pressure of the fluid into mechanical force to lift the load. Compared to other mechanical lifting mechanisms, hydraulic systems, including lift cylinders, experience minimal energy loss due to their efficient power transmission.
2. Power-to-Weight Ratio:
Lift cylinders are designed to have a high power-to-weight ratio. This means that they can generate a substantial lifting force relative to their weight. By utilizing lightweight yet durable materials and optimizing the design, lift cylinders can effectively lift heavy loads while minimizing the amount of energy required. The efficient power-to-weight ratio contributes to energy efficiency by reducing the overall power consumption during lifting operations.
3. Load-Specific Design:
Lift cylinders are often engineered to match the specific load requirements of lifting applications. By customizing the design parameters, such as bore size, stroke length, and operating pressure, lift cylinders can be optimized for the intended load capacities and lifting tasks. This load-specific design ensures that the lift cylinder operates at its optimal efficiency, minimizing energy waste and maximizing the lifting performance.
4. Regenerative Systems:
In certain lifting applications, lift cylinders can be integrated into regenerative systems. Regenerative systems capture and store energy that would otherwise be dissipated as heat during the lowering phase of the lifting operation. This stored energy can then be reused to assist in the subsequent lifting process, reducing the overall energy consumption. Regenerative systems enhance energy efficiency by utilizing the otherwise wasted energy to partially power the lifting operation.
5. Control Systems:
Advanced control systems can be implemented in conjunction with lift cylinders to optimize energy efficiency. These control systems, such as proportional valves or variable-speed drives, allow for precise control of the lifting process. By adjusting the flow rate or speed of the hydraulic fluid, operators can match the power output of the lift cylinder to the specific load requirements, minimizing energy waste and improving overall efficiency.
6. Maintenance and Optimization:
Regular maintenance and optimization of lift cylinders are essential for maintaining energy efficiency. Proper lubrication, seal replacements, and overall system inspections help ensure that the lift cylinder operates at its peak performance. By identifying and addressing any issues or inefficiencies, maintenance practices contribute to energy-efficient lifting operations.
In summary, lift cylinders contribute to energy-efficient lifting through hydraulic system efficiency, a high power-to-weight ratio, load-specific design, regenerative systems, control systems, and proper maintenance. By utilizing these features and practices, lift cylinders help minimize energy consumption and enhance overall lifting efficiency.

Can lift cylinders be used in hydraulic presses for material forming?
Yes, lift cylinders can be used in hydraulic presses for material forming. Hydraulic presses are widely employed in manufacturing processes that involve shaping, bending, or compressing materials such as metal, plastic, or rubber.
Lift cylinders, also known as hydraulic cylinders, play a crucial role in hydraulic presses by providing the force required for material forming. Here’s how lift cylinders are utilized in this context:
- Force Generation: Lift cylinders are responsible for generating the force necessary to exert pressure on the material being formed. They convert hydraulic energy into mechanical force, enabling the press to shape or mold the material according to the desired specifications.
- Stroke Length: Lift cylinders have an adjustable stroke length, allowing them to accommodate different material forming requirements. By modifying the stroke length, the press can apply varying degrees of force and control to achieve the desired shape and dimensions of the formed material.
- Control and Precision: Lift cylinders offer precise control over the force and movement in hydraulic presses. The hydraulic system controlling the cylinders allows for accurate adjustment and regulation of the pressure, speed, and timing of the forming process. This control ensures consistent and precise material forming results.
- Die Mounting: Lift cylinders are employed in the mounting of dies or tooling within the hydraulic press. The cylinders provide the necessary lifting and lowering action to secure the dies in place and facilitate their proper alignment with the material being formed. This ensures accurate and repeatable forming operations.
- Safety Features: Hydraulic presses incorporating lift cylinders often include safety features such as pressure relief valves, emergency stop controls, and overload protection. These features help safeguard operators and prevent damage to the press or the formed material.
The use of lift cylinders in hydraulic presses for material forming offers several advantages. They provide the high force capability required for effective shaping and forming of various materials. The adjustable stroke length and precise control allow for versatility and customization, accommodating different forming needs. The integration of safety features ensures safe operation and protects both the equipment and personnel.
In conclusion, lift cylinders are suitable for use in hydraulic presses for material forming. Their ability to generate force, adjust stroke length, and provide precise control makes them essential components in achieving accurate, efficient, and reliable material forming processes.

What are the safety considerations when using lift cylinders?
When using lift cylinders, it is crucial to prioritize safety to prevent accidents and ensure the well-being of operators and bystanders. Here are some important safety considerations when using lift cylinders:
1. Proper Training:
Operators should receive proper training on the safe operation of lift cylinders. They should be familiar with the equipment’s capabilities, limitations, and recommended operating procedures. Training should include understanding hydraulic systems, load capacities, stability factors, and proper positioning techniques.
2. Inspection and Maintenance:
Routine inspection and maintenance of lift cylinders are essential for identifying any potential safety hazards. Regularly check for leaks, damaged components, loose connections, or signs of hydraulic fluid contamination. Ensure that all safety features, such as pressure relief valves and load holding devices, are functioning correctly.
3. Load Capacity and Stability:
It is crucial to know and adhere to the lift cylinder’s load capacity limits specified by the manufacturer. Overloading the cylinder can lead to equipment failure, instability, or uncontrolled movements. Properly distribute the load to maintain stability and prevent tipping or imbalance.
4. Secure Mounting:
Ensure that the lift cylinder is securely mounted to the equipment or structure. Follow the manufacturer’s guidelines for proper attachment methods and torque specifications. Loose or improper mounting can compromise the stability and safety of the lifting operation.
5. Control of Movement:
Exercise caution and maintain control over the movement of the lift cylinder. Avoid sudden or jerky motions that can destabilize the load or cause the equipment to tip. Use smooth and controlled movements, and be aware of any potential obstacles or hazards in the surrounding area.
6. Personal Protective Equipment (PPE):
Operators and personnel involved in the lifting operation should wear appropriate personal protective equipment, such as safety glasses, gloves, and steel-toed shoes. PPE helps protect against potential hazards, including hydraulic fluid leaks, falling objects, or accidental contact with moving parts.
7. Emergency Procedures:
Establish clear emergency procedures in case of equipment malfunction, hydraulic system failure, or any other unforeseen circumstances. Operators should be trained on how to respond to emergencies, including proper shutdown procedures, communication protocols, and evacuation plans.
8. Environmental Factors:
Consider the environmental conditions in which the lift cylinders are being used. Factors such as extreme temperatures, high humidity, or corrosive atmospheres can affect the cylinder’s performance and safety. Take appropriate measures, such as using protective covers or selecting cylinders with suitable material coatings, to mitigate these risks.
In summary, ensuring safety when using lift cylinders involves proper training, regular inspection and maintenance, adhering to load capacity limits, secure mounting, controlled movement, using personal protective equipment, establishing emergency procedures, and considering environmental factors. By following these safety considerations, the risk of accidents or injuries associated with lift cylinder operations can be minimized.


editor by Dream 2024-05-07