CN105157477A - High-voltage shock circuit and electric shock glove - Google Patents

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

High-voltage electric shock circuit and electric shock gloves

Technical field

The present invention relates to electroporation field, particularly relate to a kind of high-voltage electric shock circuit and electric shock gloves.

Background technology

At present, although social security is more stable, attack occurs again and again, how effectively to take precautions against the event of this type of infringement personal safety, maintains public order and become the problem of society need concern.In addition, the electric shock apparatus mainly electric billy that Security Personnel uses when nearly body is attacked and defend, but when electric billy uses, easily damage; Telescopic baton when pulling out and reclaim underaction freely, and length and weight are comparatively large, have swung when using and have easily made to be produced mechanical damage by the person of hitting, intensified the contradictions, and electric billy portably uses inconvenience, disguise is poor.When Security Personnel takes out police electric prod, after ruffian sees, can corresponding measure be taked, ruffian can not be given in time and hit, good attack effect can not be played.

Summary of the invention

High-voltage electric shock circuit provided by the invention and electric shock gloves, can convert DC low-voltage to high voltage.

According to an aspect of the present invention, a kind of high-voltage electric shock circuit is provided, comprise: battery, inverter circuit, step-up transformer, rectification, filtering, voltage-multiplying circuit, on-off circuit, pulse transformer, described battery, its output is connected with the input of described inverter circuit, for exporting DC low-voltage; Described inverter circuit, its output is connected with described step-up transformer, for described DC low-voltage being converted to the high frequency square wave voltage of frequency conversion; Described step-up transformer, its output is connected with described rectification, filtering, voltage-multiplying circuit, for the high frequency square wave voltage of described frequency conversion is converted to ac high voltage;

Described rectification, filtering, voltage-multiplying circuit, its output is connected with described on-off circuit, and for described ac high voltage is converted to DC high voltage, described DC high voltage carries out charge or discharge by described on-off circuit to described pulse transformer; Described on-off circuit, its output is connected with described pulse transformer, for controlling the charge or discharge of described rectification, filtering, voltage-multiplying circuit; Described pulse transformer, is connected with described on-off circuit, for exporting ac high voltage or the pulse high-voltage of frequency conversion.

Further, described rectification, filtering, voltage-multiplying circuit comprise capacitor, when described on-off circuit conducting, described capacitor carries out discharging to the step-down side of described pulse transformer and regulates the loop parameter of the hot side of the loop parameter of the step-down side of described pulse transformer and described pulse transformer;

When the loop parameter of the loop parameter of the step-down side of described pulse transformer and the hot side of described pulse transformer meets double resonance condition, the hot side of described pulse transformer exports ac high voltage or the pulse high-voltage of frequency conversion.

Further, described DC voltage is 3-6V.

Further, the ac high voltage of described DC high voltage, described frequency conversion and described pulse high-voltage are 20kV-30kV.

According to a further aspect in the invention, a kind of electric shock gloves is provided, comprises: the high-voltage electric shock circuit as described in any one of claim 1-4 and gloves,

Described gloves are arranged on the bottom of described high-voltage electric shock circuit, for producing electro photoluminescence according to the described DC high voltage of high-voltage electric shock circuit output, the ac high voltage of frequency conversion or pulse high-voltage.

The high-voltage electric shock circuit that the embodiment of the present invention provides and electric shock gloves, comprising: battery, inverter circuit, step-up transformer, rectification, filtering, voltage-multiplying circuit, on-off circuit, pulse transformer, the output of battery is connected with the input of inverter circuit, and for exporting DC low-voltage, the output of inverter circuit is connected with step-up transformer, for DC low-voltage being converted to the high frequency square wave voltage of frequency conversion, the output of step-up transformer and rectification, filtering, voltage-multiplying circuit is connected, for the high frequency square wave voltage of frequency conversion being converted to ac high voltage, rectification, filtering, the output of voltage-multiplying circuit is connected with on-off circuit, for ac high voltage is converted to DC high voltage, DC high voltage carries out charge or discharge by on-off circuit to pulse transformer, and the output of on-off circuit is connected with pulse transformer, for controlling rectification, filtering, the charge or discharge of voltage-multiplying circuit, pulse transformer is connected with on-off circuit, for exporting ac high voltage or the pulse high-voltage of frequency conversion.

Accompanying drawing explanation

The high-voltage electric shock circuit diagram that Fig. 1 provides for the embodiment of the present invention;

The electric shock gloves schematic diagram that Fig. 2 provides for the embodiment of the present invention.

Detailed description of the invention

The high-voltage electric shock circuit provided the embodiment of the present invention below in conjunction with accompanying drawing and electric shock gloves are described in detail.

The high-voltage electric shock circuit diagram that Fig. 1 provides for the embodiment of the present invention.

With reference to Fig. 1, high-voltage electric shock circuit comprises battery 1, inverter circuit 2, step-up transformer 3, rectification, filtering, voltage-multiplying circuit 4, on-off circuit 5, pulse transformer 6,

Described battery 1, its output is connected with the input of described inverter circuit 2, for exporting DC low-voltage;

Described inverter circuit 2, its output is connected with described step-up transformer 3, for described DC low-voltage being converted to the high frequency square wave voltage of frequency conversion;

Described step-up transformer 3, its output is connected with described rectification, filtering, voltage-multiplying circuit 4, for the high frequency square wave voltage of described frequency conversion is converted to ac high voltage;

Described rectification, filtering, voltage-multiplying circuit 4, its output is connected with described on-off circuit 5, and for described ac high voltage is converted to DC high voltage, described DC high voltage carries out charge or discharge by described on-off circuit 5 to described pulse transformer 6;

Described on-off circuit 5, its output is connected with described pulse transformer 6, for controlling the charge or discharge of described rectification, filtering, voltage-multiplying circuit 4;

Described pulse transformer 6, is connected with described on-off circuit 5, for exporting ac high voltage or the pulse high-voltage of frequency conversion.

Further, described rectification, filtering, voltage-multiplying circuit 4 comprise capacitor, when described on-off circuit 5 conducting, described capacitor carries out discharging to the step-down side of described pulse transformer 6 and regulates the loop parameter of the loop parameter of the step-down side of described pulse transformer 6 and the hot side of described pulse transformer 6;

When the loop parameter of the loop parameter of the step-down side of described pulse transformer 6 and the hot side of described pulse transformer 6 meets double resonance condition, the hot side of described pulse transformer 6 exports ac high voltage or the pulse high-voltage of frequency conversion.

Further, described DC low-voltage is 3-6V.

Here, the DC low-voltage of battery is 3-6V.

Further, the ac high voltage of described DC high voltage, described frequency conversion and described pulse high-voltage are 20kV-30kV.

The electric shock gloves schematic diagram that Fig. 2 provides for the embodiment of the present invention.

With reference to Fig. 2, electric shock gloves comprises high-voltage electric shock circuit 7 and gloves 8, and gloves 8 are arranged on the bottom of high-voltage electric shock circuit 7, for exports according to high-voltage electric shock circuit 7 DC high voltage, the ac high voltage of frequency conversion or pulse high-voltage generation electro photoluminescence.

The profile of gloves 8 is the same with ordinary glove, just has a high-voltage electric shock circuit 7 overleaf.High-voltage electric shock circuit 7 utilizes inverter, the DC low-voltage of several volts in battery is transformed into the DC high voltage of 20kV-30kV, the ac high voltage of frequency conversion or pulse high-voltage, through particular polyesters film and high-quality adhesive tape mix insulation, the ac high voltage of DC high voltage, frequency conversion or pulse high-voltage are connected on two pieces of conductive fabrics of the palm of the hand.

When police catches other position of criminal's arm, thigh or health, the ac high voltage of DC high voltage, frequency conversion or pulse high-voltage can puncture the clothes of 5 millimeters thick, intense stimulus criminal nerve center, make its jerk, tremble all over, lose resistivity instantaneously, fold one's hands for capture.After uniform, do not leave injury.

The above; be only the specific embodiment of the present invention, but protection scope of the present invention is not limited thereto, is anyly familiar with those skilled in the art in the technical scope that the present invention discloses; change can be expected easily or replace, all should be encompassed within protection scope of the present invention.Therefore, protection scope of the present invention should be as the criterion with the protection domain of described claim.

Claims (5)

1. a high-voltage electric shock circuit, is characterized in that, comprising: battery, inverter circuit, step-up transformer, rectification, filtering, voltage-multiplying circuit, on-off circuit, pulse transformer,

Described battery, its output is connected with the input of described inverter circuit, for exporting DC low-voltage;

Described inverter circuit, its output is connected with described step-up transformer, for described DC low-voltage being converted to the high frequency square wave voltage of frequency conversion;

Described step-up transformer, its output is connected with described rectification, filtering, voltage-multiplying circuit, for the high frequency square wave voltage of described frequency conversion is converted to ac high voltage;

Described rectification, filtering, voltage-multiplying circuit, its output is connected with described on-off circuit, and for described ac high voltage is converted to DC high voltage, described DC high voltage carries out charge or discharge by described on-off circuit to described pulse transformer;

Described on-off circuit, its output is connected with described pulse transformer, for controlling the charge or discharge of described rectification, filtering, voltage-multiplying circuit;

Described pulse transformer, is connected with described on-off circuit, for exporting ac high voltage or the pulse high-voltage of frequency conversion.

2. high-voltage electric shock circuit according to claim 1, it is characterized in that, described rectification, filtering, voltage-multiplying circuit comprise capacitor, when described on-off circuit conducting, described capacitor carries out discharging to the step-down side of described pulse transformer and regulates the loop parameter of the hot side of the loop parameter of the step-down side of described pulse transformer and described pulse transformer;

When the loop parameter of the loop parameter of the step-down side of described pulse transformer and the hot side of described pulse transformer meets double resonance condition, the hot side of described pulse transformer exports ac high voltage or the pulse high-voltage of frequency conversion.

3. high-voltage electric shock circuit according to claim 1, is characterized in that, described DC low-voltage is 3-6V.

4. high-voltage electric shock circuit according to claim 1, is characterized in that, the ac high voltage of described DC high voltage, described frequency conversion and described pulse high-voltage are 20kV-30kV.

5. an electric shock gloves, is characterized in that, comprising: the high-voltage electric shock circuit as described in any one of claim 1-4 and gloves,

Described gloves are arranged on the bottom of described high-voltage electric shock circuit, for producing electro photoluminescence according to the described DC high voltage of high-voltage electric shock circuit output, the ac high voltage of frequency conversion or pulse high-voltage.