Product Description

 

Name Hydraulic drawbench cylinder
Bore diameter 800mm
Rod diameter 400mm
Stroke 10800mm
Working pressure 27MPa
Piston rod material CK45
Bore material CK45
Numbers(MOQ) 1 pcs
Package Packing strap
Application Hydraulic drawbench

Lian Hydraulic was formed in HangZhou of China with the mission of  supplying the world class hydraulic cylinders and hydraulic systems to the various industrial sectors .
 
Since that date our company has successfully completed numerous installations throughout the Chinese mainland and abroad.
 
Our factory floor space exceeds 38,000 Sqr. CHINAMFG and our 20 cranes provide us with the capability to handle and machine cylinders and components weighing up to 150,000kgs.
 
From conception to installation our engineers, factory staff and salesmen strive to ensure that our customers receive the very best in quality products and service.
 
Our manufacturing facility is capable of producing hydraulic cylinders up to the following dimensions:
  Bore Diameter – 2,500 mm
  Rod Diameter – 1,500 mm
  Stroke          – 20,000 mm
 
The Typical Applications:
  Machine Manufacturing
  Casting Cylinders
  Mobile Hydraulics
  Press Manufacturing
  Hydroelectric Industry
  Offshore Industry
  Mining Industry
  Hydraulic Systems
 
Lian Hydraulic source raw materials exclusively from the most reputable and quality approved suppliers in China such as ( HangZhou Pangang, ZheJiang Valin Steel, ZheJiang Baosteel etc.)
We at Lian Hydraulic invite all customers to consider our facility for your next hydraulic project.
 
 

Certification: ISO9001
Pressure: Medium Pressure
Work Temperature: Normal Temperature
Acting Way: Single Acting
Working Method: Straight Trip
Adjusted Form: Regulated Type
Customization:
Available

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boom cylinder

How does a boom cylinder contribute to energy-efficient equipment operation?

A boom cylinder plays a significant role in achieving energy-efficient equipment operation. Here’s a detailed explanation:

Energy efficiency is a crucial consideration in modern equipment design, as it helps reduce operating costs, minimize environmental impact, and optimize performance. Boom cylinders contribute to energy-efficient equipment operation in several ways:

  • Optimized Hydraulic System: Boom cylinders are part of a hydraulic system that operates the equipment. By designing the hydraulic system to match the load requirements and minimize pressure losses, boom cylinders can contribute to energy efficiency. Proper sizing of hydraulic components, including the cylinder, pump, and valves, ensures that the system operates at optimal efficiency, reducing energy waste.
  • Variable Force Control: Boom cylinders offer variable force control, allowing operators to match the force exerted during lifting and lowering operations to the specific load requirements. By adjusting the force to the minimum necessary level, energy consumption is reduced, resulting in more efficient equipment operation.
  • Reduced Friction and Leakage: Boom cylinders are designed to minimize friction and prevent leakage. Friction can cause energy loss within the system, while leakage leads to a loss of hydraulic fluid and subsequent energy waste. By incorporating high-quality seals, precision manufacturing, and effective lubrication, boom cylinders help reduce friction and prevent leakage, maximizing the overall energy efficiency of the equipment.
  • Controlled Movement: Boom cylinders enable precise and controlled movement during lifting and lowering operations. This controlled movement minimizes unnecessary acceleration, deceleration, and jerky motions that can lead to energy waste. Smooth and controlled movement provided by the boom cylinder ensures that energy is efficiently utilized to perform the required tasks.
  • Integration with Energy Recovery Systems: In some equipment designs, boom cylinders can be integrated with energy recovery systems. These systems capture and store energy that would otherwise be dissipated as heat or wasted during deceleration or load lowering. By recovering and reusing this energy, equipment operation becomes more energy-efficient and sustainable.

By optimizing the hydraulic system, providing variable force control, minimizing friction and leakage, enabling controlled movement, and integrating with energy recovery systems, boom cylinders significantly contribute to energy-efficient equipment operation. These features help reduce energy consumption, improve overall efficiency, and promote sustainable practices in various industries.

It’s important to note that the energy efficiency of equipment operation is influenced by various factors beyond the boom cylinder alone. Proper equipment maintenance, operator training, and system design considerations also play crucial roles in achieving optimal energy efficiency.

boom cylinder

How does a boom cylinder handle variations in hydraulic seal technology?

A boom cylinder is designed to handle variations in hydraulic seal technology. Here’s a detailed explanation:

Hydraulic seals are critical components in boom cylinders, as they prevent fluid leakage and ensure the efficient operation of the hydraulic system. Over time, advancements in seal technology have led to the development of various types of hydraulic seals with different characteristics and capabilities. A boom cylinder is engineered to accommodate these variations in hydraulic seal technology. Here’s how it handles them:

  • Compatibility: Boom cylinders are designed to be compatible with different types of hydraulic seals. They are constructed with seal grooves and dimensions that allow for the installation of various seal profiles, such as O-rings, lip seals, or piston seals. The cylinder is engineered to work effectively with the specific seal type or design chosen for a particular application.
  • Seal Selection: The selection of hydraulic seals for a boom cylinder depends on factors such as operating conditions, fluid compatibility, pressure requirements, and temperature ranges. The cylinder design takes into account the seal selection process, ensuring that the cylinder’s materials, surface finishes, and tolerances are suitable for the chosen seal technology. This ensures optimal sealing performance and longevity.
  • Seal Retention: Boom cylinders incorporate features to securely retain hydraulic seals in their proper positions. These features may include seal backup rings, snap rings, or integrated seal retention systems. The cylinder’s design ensures that the selected seal technology is effectively retained, preventing seal displacement or failure during operation.
  • Seal Maintenance and Replacement: Boom cylinders are designed to facilitate seal maintenance and replacement. They may include access points or disassembly features that allow for convenient seal inspection, lubrication, or replacement. The cylinder design takes into consideration the specific requirements of the chosen seal technology, making it easier for technicians to service or replace seals as necessary.
  • Seal Performance Optimization: Boom cylinders undergo rigorous testing and validation processes to optimize seal performance. The cylinder’s design and manufacturing processes aim to minimize seal friction, reduce wear, and enhance sealing efficiency. This ensures that the cylinder can effectively handle the specific characteristics and variations of the chosen hydraulic seal technology.

Overall, a boom cylinder is engineered to handle variations in hydraulic seal technology. It is designed to be compatible with different seal types, facilitate seal selection, retain seals securely, allow for seal maintenance and replacement, and optimize seal performance. These features ensure that the boom cylinder can effectively accommodate the advancements and variations in hydraulic seal technology, providing reliable and efficient sealing in hydraulic systems.

It’s important to follow the manufacturer’s recommendations and specifications regarding the selection, installation, and maintenance of hydraulic seals in boom cylinders to ensure optimal performance and longevity.

boom cylinder

What is a boom cylinder and how does it function in heavy machinery?

A boom cylinder is a hydraulic component used in heavy machinery, such as excavators, cranes, and loaders. It plays a crucial role in extending, retracting, and controlling the movement of the boom, which is the large arm-like structure on the machinery. Here’s a detailed explanation of its function:

  • Boom Extension and Retraction: The boom cylinder enables the extension and retraction of the boom. By extending the cylinder, hydraulic pressure is applied, causing the boom to extend outward. Conversely, retracting the cylinder allows the boom to retract back to its original position. This controlled movement of the boom provides reach and versatility to heavy machinery, allowing them to access different areas or work at varying distances.
  • Boom Lifting and Lowering: In addition to extension and retraction, the boom cylinder also facilitates the lifting and lowering of the boom. By adjusting the hydraulic pressure within the cylinder, operators can control the vertical movement of the boom. This functionality is essential for tasks that require raising or lowering heavy loads, such as lifting materials, excavating, or placing objects at different heights.
  • Load Control: The boom cylinder contributes to load control during heavy machinery operations. By adjusting the extension, retraction, lifting, or lowering of the boom, operators can precisely position the load or equipment. This control over the boom movement ensures safe and accurate load handling, preventing sudden shifts or imbalances that could lead to accidents or damage.
  • Hydraulic Power Transmission: The boom cylinder utilizes hydraulic power to generate the required force for boom movement. Hydraulic fluid under pressure is supplied to the cylinder, exerting force on the piston inside. This force is then transferred to the boom, enabling its extension, retraction, lifting, or lowering. The hydraulic system’s ability to transmit power efficiently allows for smooth and controlled boom operation.
  • Integration with Control Systems: Boom cylinders can be integrated into control systems or hydraulic circuits of heavy machinery. This integration enables automated and synchronized boom movements, enhancing operational efficiency and precision. Operators can control the boom cylinder using control panels, joysticks, or other control mechanisms, allowing for seamless coordination with other machine functions.
  • Strength and Durability: Boom cylinders are designed to withstand heavy loads, harsh operating conditions, and repetitive movements. They are constructed with robust materials, such as high-strength steel, and undergo rigorous testing to ensure durability and reliability. The strength and durability of boom cylinders enable them to handle demanding tasks in heavy machinery applications.

In summary, a boom cylinder is a hydraulic component that extends, retracts, and controls the movement of the boom in heavy machinery. Its functions include boom extension and retraction, boom lifting and lowering, load control, hydraulic power transmission, integration with control systems, and providing strength and durability. The boom cylinder’s role is critical in enabling the efficient and precise operation of heavy machinery, enhancing productivity and safety in various industries.

China high quality Hydraulic Oil Boom Cylinder for Ship Cranes   supplier China high quality Hydraulic Oil Boom Cylinder for Ship Cranes   supplier
editor by CX 2023-11-06