How do compression fittings use compression force to achieve a specific effect or control?

Compression fittings use compression to achieve various specific effects or controls. Compression refers to the force applied to an object that causes it to reduce in volume, change in shape, or react to its internal structure. Compression fittings can play a key role in a variety of application scenarios by precisely designing and adjusting the applied compression force.

A common application of compression fittings is in the scenario of sealing and preventing leakage. Many mechanical equipment, piping systems, and electrical equipment need to prevent the leakage of gas, liquid, or other substances. In order to ensure the sealing effect, compression fittings usually use compression force to tightly compress sealing materials (such as rubber gaskets, sealing rings, etc.) onto the contact surface to form an effective barrier. By reasonably controlling the applied compression force, the sealing fittings can maintain stable sealing during long-term use, prevent the leakage of liquid or gas, and effectively reduce the energy loss or environmental pollution caused by leakage.

Compression fittings also play a vital role in shock absorption and protection. Many mechanical equipment will generate vibrations during operation. If these vibrations are not effectively controlled, they will cause equipment damage, failure, or premature wear. Compression fittings, such as springs, shock-absorbing washers, or rubber pads, can absorb and dissipate vibration energy through the action of compression force. When the equipment is subjected to external impact or internal vibration, compression fittings reduce the transmission of impact force by changing their shape or absorbing compression energy, protecting the equipment and parts from excessive wear. By accurately calculating and designing the hardness, elasticity and shape of compression fittings, efficient shock absorption and protection can be achieved according to the needs of different equipment.

Compression fittings also play an important role in support and load-bearing. Many mechanical and building structures need to bear large weights and pressures, and the function of compression fittings is particularly prominent at this time. By properly selecting and applying compression fittings, pressure can be effectively dispersed to avoid damage or deformation caused by excessive local stress. 

Compression fittings share the load by compressing their own form and provide appropriate support in an elastic or plastic manner, thereby ensuring the stability and safety of the equipment or structure. For load-bearing systems, the design and selection of compression fittings are directly related to the safety and reliability of the structure.
Compression fittings In automated control systems, compression force can be used to adjust the movement or position of components. For example, in hydraulic and pneumatic systems, compression fittings can generate power by compressing air or liquid to drive components for precise displacement or control. By adjusting the size of the compression force, the speed, pressure or execution force of the equipment can be controlled, thereby achieving precise control of the equipment. Whether in industrial automation, robotics, automotive, aviation or other fields, the application of compression fittings can ensure the efficient operation and precise operation of the system.