High-voltage shock circuit and electric shock glove

Abstract

The invention provides a high-voltage shock circuit and an electric shock glove. The high-voltage shock circuit comprises a battery, an inverter circuit, a boosting transformer, a rectifying, filtering and voltage doubling circuit, a switching circuit and a pulse transformer. The output end of the battery is connected with the input end of the inverter circuit, and the battery is used for outputting the direct current low voltage. The output end of the inverter circuit is connected with the boosting transformer, and the inverter circuit is used for converting the direct current low voltage into frequency conversion high-frequency square-wave voltage. The output end of the boosting transformer is connected with the rectifying, filtering and voltage doubling circuit, and the boosting transformer is used for converting the frequency conversion high-frequency square-wave voltage into alternating current high voltage. The output end of the rectifying, filtering and voltage doubling circuit is connected with the switching circuit, the rectifying, filtering and voltage doubling circuit is used for converting the alternating current high voltage into direct current high voltage, and the pulse transformer is charged or discharged through the switching circuit via the direct current high voltage. The output end of the switching circuit is connected with the pulse transformer, and the switching circuit is used for controlling charge or discharge of the rectifying, filtering and voltage doubling circuit. The pulse transformer is connected with the switching circuit, and the pulse transformer is used for outputting the frequency conversion alternating current high voltage or pulse high voltage. The high-voltage shock circuit can convert the direct current low voltage into high voltage.

Description

technical field [0001] The invention relates to the field of electrical technology, in particular to a high-voltage electric shock circuit and electric shock gloves. Background technique [0002] At present, although social security is relatively stable, attacks occur frequently. How to effectively prevent such incidents that violate personal safety and maintain social security has become a problem that needs to be paid attention to by the society. In addition, the electric shock equipment used by security personnel in close attack and defense is mainly electric baton, but when using electric baton, it is easy to cause injury; retractable baton is not flexible enough when pulling out and recovering, and its length and weight are relatively large. It is easy to cause mechanical damage to the hit person when it is used, which intensifies contradictions, and the electric baton is inconvenient to carry and use, and has poor concealment. When the security personnel took out the ...

AI Technical Summary

Problems solved by technology

[0002] At present, although social security is relatively stable, attacks occur frequently. How to effectively prevent such incidents that infringe on personal safety and maintain social security has become a problem that the society needs to pay attention to.

In addition, the electric shock equipment used by security personnel in close attack and defense is mainly electric baton, but when using electric baton, it is easy to cause injury; retractable baton is not flexible enough when pulling out and recovering, and its length and weight are relatively large. When swung up, it is easy to cause mechanical damage to the hit person, intensifying conflicts, and the electric baton is inconvenient to carry and use, and has poor concealment

When the security personnel take out the police electric baton, the gangster will take corresponding measures after seeing it, and cannot strike the gangster in time, and cannot achieve a good attack effect

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