특징
Many different terminal devices or “hooks” are used to ensure the source of tension for tension springs. The working principle of a tension spring is opposite to that of a compression spring. Compression springs act in the opposite direction when compressed, while tension springs act in the opposite direction when extended or pulled apart. When the two ends of the stretching spring are pulled apart, the spring will attempt to pull them back together. Like compression springs, tension springs also absorb and store energy. But unlike compression springs, most tension springs operate under tension, even when there is no load. This initial tension determines the tightness of the tension spring coil when there is no load.
사양
크기: 고객 도면에 따라
재료 : 스테인리스강, 황동, 구리, 알루미늄, 탄소강, 합금강 등
마무리: 전기영동, 아연도금, 니켈도금, 크롬도금, 주석도금, 구리도금, 화환산소수지분사, 열처리, 열간도금, 검은산화피막, 도장, 분체도금, 컬러아연도금, 청흑아연도금, 방청유, 티타늄합금아연도금, 은도금, 플라스틱, 전기도금, 양극산화처리 등.
최소주문수량: 1000개
포장 : 고객 요구 사항에 따라 PE 백, 판지 상자
서비스: OEM, ODM
리드타임: 샘플 5-7일, 벌크 상품 10-20일
애플리케이션
Stretch springs, also known as spiral stretch springs, are generally of equal pitch and have a circular cross-section. They can be used in many situations, such as production assembly, experimentation, research and development, maintenance, etc. Tension springs occupy an important position in the market and are widely used in fields such as national defense, ocean, computer, electronics, automotive, mold, medicine, biochemistry, aerospace, railway, nuclear power, wind power, thermal power, engineering machinery, mining machinery, construction machinery, elevators, etc.
