可拆卸压接式电缆组件锁紧结构设计及仿真

Design and Simulation of Locking Structure of Removable Crimping Cable Assembly

可拆卸压接式电缆组件因其适用性强,可靠性高,使用方便等优点在武器装备中得到广泛应用。锁紧结构是保证电缆组件有效连接及可靠接触的关键因素。电缆组件锁紧结构设计包括解锁行程和材料在锁紧和解锁状态的弹性性能两个关键因素。设计3种电缆组件锁紧结构,利用数学模型计算解锁行程,采用仿真软件对锁紧状态及解锁过程进行仿真,验证各结构优缺点,为电缆组件锁紧结构的设计提供依据。

Removable crimped cable assembly has been widely used in weapons and equipment due to its advantages of strong applicability,high reliability and convenient use.Its locking structure is the key factor to ensure effective connection and reliable contact of cable assembly.The locking structure design of the cable assembly includes two key factors:the unlocking stroke and the elastic properties of the materials in locking state and unlocking process.Three kinds of cable assembly locking structures were designed,the mathematical model was used to calculate the unlocking stroke,the simulation software were used to simulate the locking state and unlocking process,verify the advantages and disadvantages of each structure,provide a basis for the design of cable assembly locking structure.