CN106767174B - A kind of remote non-lethal electric shock device and multiple warhead pedestal - Google Patents

Abstract

The invention discloses a kind of remote non-lethal electric shock devices, including：Electric shock antiriot device main part (100) and multiple warhead pedestal（101）.Wherein, the multiple warhead pedestal has multiple bullet storehouses slot, and each bullet storehouse slot has independent control circuit, in addition, being also set up on multiple warhead pedestal, there are one pedestals to switch (102), and pedestal switch is connected separately with different control circuits, wherein, when pedestal switchs（102）When positioned at some position, corresponding detonation circuit is mutually closed.

Description

Long-distance non-lethal electric shock device and multi-warhead base

Technical Field

The invention belongs to a remote non-lethal electric shock device and a multi-warhead base.

Background

In order to combat crime and maintain social security, the police of various countries use fatal weapons such as firearms and the like, and non-fatal remote electric shock antiriot devices are widely applied to reduce unnecessary casualties. There are also many warheads long distance electric shock devices abroad, but its price is expensive, and the model of buying before can't upgrade, can't use many warheads, need purchase the machine again, cause unnecessary waste. There are also companies in China who have come out multi-repeating electric shock devices, and they have the same problem that the original machine type cannot be upgraded, and there are: voltage/current and frequency in the process of shooting and discharging can not be reduced, reduced and frequency-modulated in sections according to time, and unnecessary serious injury can be caused to the life safety of suspects due to long-time high-voltage high-current high-frequency electric shock failure.

Disclosure of Invention

The invention aims to solve the technical problem of providing a remote non-lethal electric shock device and a multi-warhead base thereof.

The technical scheme adopted by the invention for solving the technical problems is as follows:

the utility model provides a long-distance non-fatal nature electric shock device bullet base more, bullet base more has a plurality of warhead storehouse grooves, and each warhead storehouse groove all has independent control circuit, in addition, still is provided with a base switch (102) on the bullet base more, and this base switch is connected with different control circuit respectively, and wherein, when base switch (102) was located a certain position, it closed corresponding circuit that detonates mutually.

Preferably, the warhead slots are three, namely a first warhead slot (103), a second warhead slot (104) and a third warhead slot (105), the detonation circuits are a first detonation circuit, a second detonation circuit and a third detonation circuit, and the positions corresponding to the base switch (102) are a first control position (1021), a second control position (1022) and a third control position (1023).

Preferably, the base switch is a trigger, wherein when the trigger is pulled, the first warhead is detonated and shot out and programmed to discharge, and the linked switch is activated to prepare for closing the detonation circuit of the second warhead; when the trigger is pulled for the second time, the linked switch immediately closes the detonation circuit of the secondary warhead to detonate the ejection warhead and carry out programmed discharge; when the trigger is pulled for the third time, the linked switch immediately closes the detonation circuit at the third position to detonate and eject the bullet and carry out programmed discharge.

A remote non-lethal electric stun device, comprising: a shock riot preventer body part (100) and a multi-warhead base (101).

By adopting the scheme, the invention can realize the function of the multi-repeating warhead. Meanwhile, in the transmitting process, the current, the voltage and the frequency of the original control system function are still regulated according to time and sections, and deviation cannot occur.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

Drawings

The present invention will be described in detail below with reference to the accompanying drawings so that the above advantages of the present invention will be more apparent. Wherein,

FIG. 1 is a schematic diagram of the construction of a remote non-lethal electric stunner in accordance with the present invention;

fig. 2 is a schematic diagram of the trigger of another embodiment of the remote non-lethal electric stunner of the present invention;

Detailed Description

The following detailed description of the embodiments of the present invention will be provided with reference to the drawings and examples, so that how to apply the technical means to solve the technical problems and achieve the technical effects can be fully understood and implemented. It should be noted that, as long as there is no conflict, the embodiments and the features of the embodiments of the present invention may be combined with each other, and the technical solutions formed are within the scope of the present invention.

As shown in fig. 1, a multi-warhead base of a remote non-lethal electric shock device is provided with a plurality of warhead bin slots, each warhead bin slot is provided with an independent control circuit, in addition, a base switch (102) is further arranged on the multi-warhead base and is respectively connected with different control circuits, wherein when the base switch (102) is located at a certain position, the base switch closes the corresponding detonation circuit.

Preferably, the warhead slots are three, namely a first warhead slot (103), a second warhead slot (104) and a third warhead slot (105), the detonation circuits are a first detonation circuit, a second detonation circuit and a third detonation circuit, and the positions corresponding to the base switch (102) are a first control position (1021), a second control position (1022) and a third control position (1023).

In one embodiment, the base switch is a trigger, wherein when the trigger is pulled, the first bullet detonates and fires and is programmed to discharge, and the ganged switch is activated to prepare for closing the detonation circuit of the second bullet; when the trigger is pulled for the second time, the linked switch immediately closes the detonation circuit of the secondary warhead to detonate the ejection warhead and carry out programmed discharge; when the trigger is pulled for the third time, the linked switch immediately closes the detonation circuit at the third position to detonate and eject the bullet and carry out programmed discharge.

In addition, the invention also discloses a remote non-lethal electric shock device, which comprises: a shock riot preventer body part (100) and a multi-warhead base (101).

The implementation method comprises the following steps:

the multi-warhead base is an intermediary controller which is connected with the electric shock device main body and each warhead, the circuit connection between the multi-warhead base and the host is closed and normally open, and the warheads are installed in the multi-warhead base to form an integral accessory.

After the multi-warhead base is arranged in the electric shock device main body, a base switch (102) is arranged at a position (1021), when the electric shock device pulls a trigger, the warheads corresponding to the serial numbers (103) close a current loop, open the corresponding devices in the detonating device and emit charged flying pins; when the switch (102) is at the position (1022), the warhead in the second third warhead bin slot corresponding to the serial number (104) closes the current loop; when the switch (102) is in the (1023) position, the warhead in the third warhead slot corresponding to serial number (105) closes the current loop.

The benefits of this design are: when a dead fire bullet is not detonated and cannot be shot, the bullet in the subsequent sequence is still normally shot by pulling the switch (102), so that criminal suspicion can be normally handled without falling into passivity.

In another embodiment, the multiple warhead base is an intermediary controller connecting the main body of the electric stunner and the warhead, and the electric circuit connection between the multiple warhead base and the main body is closed and normal.

After the bullets are loaded, the bullets are sequenced according to a base program, when the trigger is pulled by the electric shock device, the linear control system linked by the trigger triggers a linked switch of the multi-bullet base, the bullets which are arranged in the position in sequence are selected, the insulating shielding parts in the corresponding detonation circuits are opened, and the current loop is closed to detonate the launching bullets immediately.

The detonation circuit of the first warhead is closed and normally open, and the trigger is pulled at any time to start from the first position and then move downwards gradually. The first position of the multi-warhead base is provided with a trigger, when a trigger is pulled, the warhead is detonated and ejected for the first time and is discharged in a program mode, and meanwhile, the linked switch is activated to prepare for closing a detonation circuit of the second-position warhead; when the trigger is pulled for the second time, the linked switch immediately closes the detonation circuit of the secondary warhead to detonate the ejection warhead and carry out programmed discharge; when the trigger is pulled for the third time, the linked switch immediately closes the detonation circuit at the third position to detonate and eject the bullet and carry out programmed discharge. . . . . . When the bullet is arranged to the last bullet, the linkage switch is switched to the first position to be ready for restarting the same process.

The benefits of this design are: in case there is a dummy bullet that can not be shot out because of not being detonated, the subsequent bullet still can be shot normally, and criminal suspicion can be dealt with normally without being trapped passively.

As shown in fig. 2, 205 is a trigger, and 201 is an action control contact; 202 and 203 are linkage control shafts for realizing the up-down and left-right movement of the connecting rod, thereby pushing or pulling the control button 204, wherein the control button acts on the warhead base to realize the function switching of the control part of the base.

Design methodology and details:

1, a set of linear linkage or a plurality of sections of connecting rods are additionally arranged from a trigger to a bullet head groove in the electric shock device, and a mechanical force supply part is additionally arranged at the trigger part.

And 2, the bottom layer of the multi-warhead base is hollow, an interlocking type linkage switch is arranged, the linkage switch opens the corresponding insulating shielding parts according to the pulling trigger and the warhead sequencing, and the corresponding current circuit is closed.

In addition, the invention can solve the following problems by the technology:

the main body part (100) of the electric shock antiriot device for single bullet shooting does not need to be opened again, an old product is produced by matching with an original mold, and a multi-bullet base (101) of a new switch switching device is designed to realize the function of multi-continuous bullet shooting. Meanwhile, in the transmitting process, the current, the voltage and the frequency of the original control system function are still regulated according to time and sections, and deviation cannot occur.

In one embodiment, the multi-bullet base is inserted into the original bullet chamber of the electric shocking device, after the trigger is pulled, the base switch (102) correspondingly launches according to the positions (1021), (1022) and (1023), and the set program discharge is carried out on each launching program.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (2)

1. A long-distance non-lethal electric shock device multi-warhead base is characterized in that the multi-warhead base is provided with a plurality of warhead bin slots, each warhead bin slot is provided with an independent control circuit, the multi-warhead base is also provided with a base switch (102), the base switches are respectively connected with different control circuits, the multi-warhead base is an intermediary controller which is connected with an electric shock device main body and a warhead, and the circuit connection between the multi-warhead base and a host is closed and normally open; when the base switch (102) is located at a certain position, the corresponding detonation circuit is closed; the number of the warhead bin grooves is three, the warhead bin grooves are respectively a first warhead bin groove (103), a second warhead bin groove (104) and a third warhead bin groove (105), the detonation circuits are respectively a first detonation circuit, a second detonation circuit and a third detonation circuit, and the positions corresponding to the base switch (102) are respectively a first control position (1021), a second control position (1022) and a third control position (1023); the base switch is a trigger, wherein when the trigger is pulled, the warhead is detonated and ejected for the first time and discharges in a program mode, and meanwhile, the linkage switch is activated to prepare for closing a detonation circuit of the second warhead; when the trigger is pulled for the second time, the linked switch immediately closes the detonation circuit of the secondary warhead to detonate the ejection warhead and carry out programmed discharge; when the trigger is pulled for the third time, the linked switch immediately closes the detonation circuit at the third position to detonate and eject the bullet and carry out programmed discharge.

2. A remote non-lethal electric stun device, comprising: a shock riot monitor body part (100) and a multi-warhead chassis (101) according to claim 1.