Products
Hydraulic Damper/Hydraulic Buffer
A hydraulic damper/Hydraulic Buffer is a device that uses hydraulic oil to absorb energy and reduce impacts. It is widely used in various mechanical equipment and industrial systems. Its main function is to absorb kinetic energy through the flow of hydraulic oil within the cylinder, reducing vibrations and impacts during equipment operation and protecting both the equipment and its operators.
Main Components
Cylinder: Contains the hydraulic oil and provides a passage for the piston's movement.
Piston: Moves up and down within the cylinder, regulating the flow of hydraulic oil.
Hydraulic Oil: Acts as the energy-absorbing medium, absorbing impact energy through its flow and resistance.
Spring: Assists in absorbing vibrations, typically used in conjunction with the hydraulic damper.
Working Principle
The working principle of a hydraulic damper is that when an external impact force acts on the damper, the piston moves within the cylinder, causing the hydraulic oil to flow through holes in the piston, generating damping force. This damping force, through the viscosity and flow resistance of the hydraulic oil, converts kinetic energy into heat energy, which is then released into the environment, thereby reducing impacts and vibrations.
Advantages
High Energy Absorption: Capable of absorbing a large amount of energy in a short time, reducing impacts.
Compact Structure: Relatively simple structure with a small volume, easy to install and maintain.
Durability: Due to the lubricating and cooling effects of the hydraulic oil, hydraulic dampers have a long service life.
Wide Adaptability: Suitable for various environments and working conditions, capable of operating in extreme conditions such as high and low temperatures.
Application Fields
Mechanical Manufacturing: Used in various processing equipment and robotic arms, reducing impacts and vibrations during movement.
Transportation: Applied in the suspension systems of vehicles like cars and trains, enhancing ride comfort and safety.
Aerospace: Used in aircraft landing gear and other critical components to absorb landing impacts.
Industrial Automation: Applied in automated production lines and robotic technology, ensuring smooth operation of equipment.
Construction Engineering: Used in construction machinery and equipment, reducing vibrations and impacts during operation.
Hydraulic damper, with their excellent shock absorption performance and reliability, have become indispensable components in modern industry, ensuring the smooth operation of various mechanical equipment.
Our Hydraulic damper with its unique structural design, converts the kinetic energy of moving objects into heat energy, which is then dissipated into the atmosphere. It is the best product for absorbing impact energy and achieving smooth stops. By reducing wear and tear on equipment and devices, decreasing maintenance requirements, and extending lifespan, it plays a crucial role in improving production efficiency.
Features of our Hydraulic damper
It is of self-regulation function pressure and keep a soft shock absorbing effect with the variety of the impact velocity and weight of object
The spring can make the piston diaplasis fastly with the perfect movement of the clapped valve
Adapting horniness chromeplated piston rod and special sealing element it can have along and stable efficiency
It can be fixed adopting orientation stop screw cap, setting nut,retaining plate etc.
The unstandardized component can be also manufactured
Application
Here are the specific applications in the PET bottle blowing industry, robotics technology, woodworking machinery, circuit breakers, and packaging logistics systems:
1. PET Bottle Blowing Industry
In the PET bottle blowing process, preforms are heated at high temperatures and then blown into shape. The application of hydraulic dampers helps in:
Enhancing Equipment Longevity: Reducing vibrations during high-speed operations, thereby decreasing mechanical wear.
Improving Production Efficiency: Reducing downtime and malfunctions caused by vibrations during preform transfer and blowing processes, thus increasing production efficiency.
Ensuring Product Quality: By minimizing vibrations, the consistency of bottle formation is maintained, lowering the defect rate.
2. Robotics Technology
In robotics technology, hydraulic dampers play a significant role, especially in the following areas:
Motion Control: Absorbing impacts during the rapid movement and precise positioning of robotic arms, ensuring smooth operations.
Protecting Mechanical Structures: Reducing the impact on mechanical joints and drive systems during movements, thus extending the robot's lifespan.
Enhancing Safety: Absorbing energy during accidental collisions, reducing damage, and protecting the robot and its surroundings.
3. Woodworking Machinery
Woodworking machinery, such as cutting machines and drilling machines, generate considerable vibrations during high-speed operations. The application of hydraulic dampers includes:
Reducing Vibrations: Decreasing vibrations during wood processing, thus improving cutting and drilling precision.
Protecting Equipment: Absorbing shocks during mechanical movements, reducing equipment wear and malfunctions, and extending lifespan.
Increasing Work Efficiency: Reducing downtime and maintenance time caused by vibrations, thereby increasing work efficiency.
4. Circuit Breakers
Circuit breakers in power systems are responsible for switching currents
