Issues that may arise from damaged copper tubing:
1. Bent copper tubing can cause refrigerant to become trapped in the circulation system, leading to changes in current and potential damage to the compressor.
2. Damaged copper tubing can directly result in poor cooling or heating performance, or even complete failure.
3. Damaged copper tubing may produce noticeable leakage noises, affecting neighbors above and below.
4. Damage, twisting, or bending of copper tubing can cause microscopic cracks. Copper tubing cannot withstand prolonged high-pressure impacts from the system, inevitably leading to refrigerant leaks.
5. Damage to copper tubing can cause an imbalance in the compression and exhaust ratios of the compressor, potentially leading to short circuits or cylinder jams over time.




As seen above, damage to refrigerator copper tubing not only affects food freshness but also shortens the refrigerator's lifespan. Therefore, if you notice poor cooling performance or noticeable noise from your refrigerator, it is advisable to have a professional inspect the copper tubing components. If issues are identified, prompt replacement or repair should be conducted to avoid resource wastage.
Of course, copper tubing is generally not prone to damage unless the refrigerator uses low-quality tubing, or if it has been damaged during installation or transportation due to compression or freezing. Therefore, when purchasing products, it is recommended to choose reputable retailers to ensure product quality and reliable after-sales service.
The company has a cluster of leading copper processing production lines in China, including:
German imported precision copper tube production line (annual output of 30,000 tons)
Japanese technology copper foil rolling line (thinnest up to 6μm)
Fully automatic copper bar continuous extrusion line
Intelligent copper sheet and strip finishing mill unit
Digitalized control and management of the whole production process is realized through MES system, and the dimensional accuracy of the products can reach ±0.01mm.








