Mechanical overload switch for external ballistic trajectory data acquisition system

Abstract

A mechanical overload switch for an external ballistic trajectory data acquisition system comprises an excitation part, a switch shell, a shell sealing cover, a reset spring, a time delay circuit anda wire. The excitation part comprises a mass block, an excitation rod and a contact; the excitation rod is of a cylindrical structure, and a shaft shoulder is arranged in the middle of a cylinder andused for supporting one end of the reset spring. A boss circle is arranged in the switch shell; one end of the excitation rod is located inside the switch shell, and the other end is located outside the switch shell; the shell sealing cover is arranged on the switch shell, and the excitation rod penetrates through the shell sealing cover. The reset spring is sleeved on the excitation rod and is positioned in the switch shell; the contact is fixed at one end of the excitation rod and is located inside the switch shell; the mass block is fixed at the other end of the excitation rod and located outside the switch shell; the wire penetrates through the switch shell and is opposite to the contact; the wire is connected in parallel with the delay circuit; and a tensioning mechanism is arranged between the wire and the switch shell. According to the invention, the acceleration in the overload impact process can be utilized to enable the power supply circuit to power on a missile-borne sensorafter the overload impact disappears.

Description

technical field

[0001] The invention belongs to the field of external ballistic data collection and control, in particular to a mechanical overload switch used in the external ballistic data collection system. Background technique

[0002] Smart ammunition obtains its own angular velocity, acceleration and other sensor data, calculates its own attitude and position information, and sends it to the control system to realize functions such as extended range and precise strike. In the R&D and testing phase, it is necessary to collect the external ballistic sensor data and calculation data of the smart ammunition. Usually, the sensor in the power-on state is difficult to withstand the environment of high overload impact, and the internal structure of the sensor is easily damaged or cannot work normally. If the sensor is powered on before the overload test, the performance of the live sensor after experiencing a high overload impact will not be guaranteed. Powering on after an ...

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