Introduction to damping hinges
Damping hinges are a type of hinge, also known as hydraulic hinges. They refer to a type of silencer and buffer hinge that uses the buffering properties of liquid and has an ideal buffering effect. It relies on a new technology to adapt to the closing speed of the door. The door starts to close slowly at 60°, reducing the impact force and creating a comfortable effect when closing. Even if you use force to close the door, it will close gently, ensuring perfect and soft movement. Models
T05 and
L71 damping hinges are the best-selling products in the
hinge damper series.
Damping hinges are suitable for cabinet door connections of wardrobes, bookcases, floor cabinets, TV cabinets, cabinets, wine cabinets, storage cabinets and other furniture. Hydraulic buffer hinges rely on a new technology to adapt to the closing speed of the door. Through hydraulic buffer technology, the product allows the door to start to close slowly when the opening is below 60°, reducing the impact force and creating a comfortable effect when closing. Even if you use force to close the door, it will close gently, and it can also ensure perfect and soft movement. Assembling buffer hinges makes furniture more upscale, reduces impact force and creates a comfortable effect when closing, and ensures that even after long-term use, no maintenance is required.
What is the principle of damping hinge?
In mechanical physics, the reduction of system energy - damped vibration is not always caused by "resistance". For mechanical vibration.
, one is that the friction resistance generates heat, which reduces the mechanical energy of the system and converts it into internal energy. This damping is called friction damping; the other is that the system causes vibration of surrounding particles, so that the energy of the system gradually radiates to the surroundings and becomes wave energy. This damping is called radiation damping.
The role of damping mainly has the following five aspects:
1. Damping helps to reduce the resonance amplitude of the mechanical structure, thereby avoiding the damage of the structure due to the limit of vibration stress.
2. Damping helps the mechanical system to quickly return to a stable state after being subjected to instantaneous impact.
3. Damping helps to reduce the sound radiation caused by mechanical vibration and reduce mechanical noise. Many mechanical components, such as the shell of transportation vehicles and the noise of saw blades, are mainly caused by vibration. The use of damping can effectively suppress resonance and thus reduce noise.
4. It can improve the processing accuracy, measurement accuracy and working accuracy of various machine tools and instruments. All kinds of machines, especially precision machine tools, need to have high seismic resistance and dynamic stability when working in a dynamic environment. Various damping treatments can greatly improve their dynamic performance.
5. Damping helps to reduce the ability of the structure to transmit vibration. In the vibration isolation structure design of the mechanical system, the reasonable use of damping technology can significantly improve the effect of vibration isolation and vibration reduction.
