Product Description

                                                                HYDRAULIC CYLINDER

  Widely used in equipment for Construction, Coal&mine, Agriculture , Aerial work table and Environmental sanitation etc.
     

 

 

Features    customized hydraulic cylinder  
Bore Diameter   2′-50’/50-1500mm
Rod Diameter   1′ – 60’/25 -1000 mm
Wall Thickness    0.1′-4’/3-100 mm
Max Stroke   366’/9280 mm
Max Pressure   9600 psi/600 bar
Test Pressure   14500 psi/1000 bar
Material      20#,40#,45#,16Mn,27SiMn,etc
Seal Kits   Hallite, Parker, NOK, SKF, DICHTOMATIK, Trelleborg, Merkel
Dimensional Accuracy  H7-H11
Bore Roughness   Ra 0.4-1.6mm
Coating   hard chrome 
Purpose  engineering, Coal &mining, agricultural machinery, environmental sanitation
OEM/ODM  Yes 
MOQ   1 Piece
Certificates  ISO9001,CE, CCS

   

Q1. Are you a manufacturer?

Yes, we have manufactured hydraulic cylinders for over 30 years. They are widely used in Engineers, Coal&mine, Agriculture and Environmental Sanitation etc.

Q2. Do your products come with a warranty?

Yes, we have 1 year warranty.

Q3. Can we customize our products from you?

Yes, actually 70% of our products are customized for our clients. You just need to let us know your demand (specifications &drawing is better), and we shall realize them for you.

Q4. How do you deliver the products?

By sea, by plane, or by couriers.

Q5. How many days the samples can be finished, And how about the mass production?

Generally 5-7days for samples making. The lead time of mass production will depend on quality, production art and so on. Generally 35days.

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Certification: CE, ISO9001
Pressure: High Pressure
Work Temperature: -40~120
Acting Way: Double Acting
Working Method: Straight Trip
Structure: Piston Type
Customization:
Available

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boom cylinder

How does a boom cylinder contribute to efficient and controlled lifting and lowering?

A boom cylinder plays a crucial role in enabling efficient and controlled lifting and lowering in heavy equipment. Here’s a detailed explanation:

When it comes to lifting and lowering operations, a boom cylinder provides several key contributions:

  • Powerful Hydraulic Force: A boom cylinder generates the necessary hydraulic force to lift and lower heavy loads. The cylinder is connected to the boom or lifting arm of the equipment and uses hydraulic pressure to extend or retract, thus moving the attached load. The hydraulic force generated by the cylinder is capable of exerting significant lifting capacity, allowing for efficient handling of heavy objects.
  • Variable Force Control: Boom cylinders have the ability to adjust the force exerted during lifting and lowering operations. Hydraulic systems can regulate the pressure and flow rate of the hydraulic fluid, which directly affects the force generated by the cylinder. This variable force control allows operators to match the lifting capacity to the specific load requirements, ensuring efficient and controlled lifting and lowering.
  • Smooth and Precise Movement: Boom cylinders provide smooth and precise movement during lifting and lowering operations. The hydraulic system allows for gradual acceleration and deceleration, minimizing jerky movements that could potentially damage the load or compromise operator safety. The controlled movement facilitated by the boom cylinder enables operators to position the load accurately and make fine adjustments as needed.
  • Stroke Length Adjustment: Boom cylinders often have adjustable stroke lengths, which determine the maximum extension and retraction of the cylinder. This feature allows operators to optimize the lifting and lowering process by adjusting the stroke length according to the height or depth requirements of the task. It provides flexibility and control over the range of motion, making the operation more efficient and adaptable to varying work conditions.
  • Integration with Hydraulic Control Systems: Boom cylinders are typically integrated into hydraulic control systems, which enable centralized control and coordination of multiple hydraulic functions. These systems can be equipped with joysticks, control valves, and electronic sensors that provide precise command inputs and feedback. The integration of boom cylinders with hydraulic control systems enhances the overall efficiency and control of lifting and lowering operations.

By combining powerful hydraulic force, variable force control, smooth movement, stroke length adjustment, and integration with hydraulic control systems, boom cylinders contribute to efficient and controlled lifting and lowering in heavy equipment. These features enable operators to handle heavy loads with precision, optimize productivity, and ensure safe and reliable operations in various industries.

boom cylinder

Can boom cylinders be used in manufacturing machinery for material processing?

Yes, boom cylinders can be used in manufacturing machinery for material processing. Here’s a detailed explanation:

In manufacturing processes, material processing machinery is utilized to transform raw materials into finished products. Boom cylinders play a significant role in these machines by providing controlled movement and force to carry out various material processing tasks. Here’s how boom cylinders are used in manufacturing machinery:

  • Press Machines: Press machines are commonly used in manufacturing for tasks such as stamping, bending, and forming metal or other materials. Boom cylinders in press machines enable the controlled movement of the press ram, exerting force on the material to achieve the desired shape or configuration. The cylinders ensure precise and repeatable processing, contributing to the quality and consistency of the manufactured products.
  • Injection Molding Machines: Injection molding is a widely used manufacturing process for producing plastic parts. Boom cylinders are employed in injection molding machines to control the movement of the injection unit and the mold closing unit. The cylinders provide the required force to inject molten plastic into the mold cavity and secure the mold during the molding process. They enable precise positioning and pressure control, ensuring accurate and reliable production of molded parts.
  • Cutting and Shearing Machines: Cutting and shearing machines are used to separate materials into desired shapes or sizes. Boom cylinders are utilized in these machines to control the movement of cutting blades or shearing mechanisms. The cylinders provide the necessary force to cut or shear the material effectively and accurately. They enable smooth and controlled cutting operations, reducing material waste and ensuring high precision.
  • Material Handling Equipment: Material processing often involves the movement and manipulation of materials within the manufacturing facility. Boom cylinders are utilized in various material handling equipment such as conveyors, lifts, and robotic arms. The cylinders enable controlled lifting, lowering, and positioning of materials, facilitating efficient material flow and processing.

The use of boom cylinders in manufacturing machinery for material processing offers several benefits:

  • Precision and Control: Boom cylinders provide precise and controlled movement, ensuring accurate processing and consistent product quality.
  • Efficiency: The controlled movement and force exerted by boom cylinders result in efficient material processing, reducing production time and improving overall productivity.
  • Flexibility: Boom cylinders can be customized to accommodate different material processing requirements. They can be adjusted for various stroke lengths, force capacities, and operating speeds, allowing flexibility in manufacturing processes.
  • Reliability: Boom cylinders are designed to withstand heavy loads and harsh operating conditions. They are built with durable materials and sealing systems, ensuring long-term reliability and minimizing downtime due to cylinder failure.

Overall, boom cylinders are valuable components in manufacturing machinery for material processing. They contribute to precise processing, efficiency, flexibility, and reliability, enabling manufacturers to achieve optimal results in their production processes.

It’s important to consult the equipment manufacturer’s guidelines and recommendations to ensure the proper selection, installation, and maintenance of boom cylinders in manufacturing machinery.

boom cylinder

How does a boom cylinder handle variations in boom extension and retraction?

A boom cylinder is designed to handle variations in boom extension and retraction through its inherent construction and hydraulic control system. Here’s a detailed explanation:

  • Hydraulic Control: The boom cylinder is connected to a hydraulic control system that regulates the flow and pressure of hydraulic fluid entering and exiting the cylinder. By adjusting the flow rate and pressure, operators can control the speed and force of the boom’s extension and retraction. This hydraulic control allows for precise and controlled movement, accommodating variations in the desired extension or retraction of the boom.
  • Piston and Cylinder Design: The design of the piston and cylinder accounts for variations in boom extension and retraction. The piston is typically equipped with seals that create a tight seal between the piston and cylinder barrel, preventing hydraulic fluid leakage and maintaining pressure. The cylinder barrel is designed to withstand high-pressure forces and provide structural integrity, ensuring smooth and controlled movement of the piston during variations in boom extension and retraction.
  • Internal Cushions: Some boom cylinders feature internal cushions or shock absorbers. These cushions help handle variations in boom extension and retraction by dampening the impact and reducing vibrations. When the boom extends or retracts rapidly or encounters sudden changes in load, the internal cushions absorb the energy and provide a smoother transition, minimizing the stress on the cylinder and other components.
  • Pressure Relief Valve: Boom cylinders may incorporate a pressure relief valve as a safety measure. The pressure relief valve protects the cylinder and other components from excessive pressure by diverting excess fluid flow back to the hydraulic reservoir. In case of variations in boom extension or retraction that lead to an increase in pressure beyond the cylinder’s capacity, the pressure relief valve ensures the system remains within safe operating limits.
  • Load Sensing: In some advanced hydraulic systems, load-sensing mechanisms are employed to adapt the boom cylinder’s performance to variations in load and operating conditions. Load sensors monitor the force exerted on the boom, and the hydraulic control system adjusts the pressure and flow of hydraulic fluid accordingly. This load-sensing capability allows for optimized performance, improved energy efficiency, and enhanced control over variations in boom extension and retraction.

Collectively, through hydraulic control, piston and cylinder design, internal cushions, pressure relief valves, and load-sensing mechanisms, boom cylinders can effectively handle variations in boom extension and retraction. These features ensure smooth, controlled, and safe operation, regardless of the specific requirements or changes in load and operating conditions.

China Custom Double Acting Boom Hydraulic Cylinder for Construction   with Best Sales China Custom Double Acting Boom Hydraulic Cylinder for Construction   with Best Sales
editor by CX 2024-01-23