WO2014058356A2 - Remote-acting electroshock weapon - Google Patents

Abstract

The utility model relates to remote-acting electroshock weapons. The technical result is an increase in electroshock weapon reliability. This technical result is achieved in that the electroshock weapon comprises: an electrical circuit which includes a power supply, a voltage converter and a high-voltage generator; at least one projectile element, connected to the aforesaid electrical circuit; and a target illuminating device, connected to the aforesaid electrical circuit, wherein the electrical circuit is capable of providing the aforesaid target illuminating device with an indication of the charge level of the power supply.

Description

 REMOTE ELECTRIC SHOCK WEAPONS

The technical field to which the utility model relates. The utility model relates to remote electric shock weapons (DESO).

State of the art

 The prior art many remote electric shock weapons (RU 99865, publ. 27.1 1.2010; RU 2305245, publ. 08.27.2007 and others) containing an electrical circuit including a power source, a voltage converter and a high voltage generator; at least one throwing element connected to said electrical circuit; and a target illumination device connected to said electrical circuit.

 The main disadvantage of such DESHO is that they either do not have the ability to control the charge level of the power source, or are inconvenient for use.

So, for example, in the Oberon-Alpha Phantom product, the discharge indicator is made in the form of a backlight (discharge) button illumination. Such an indication is not convenient, since for isolation from high voltage the key must be made of rubberized material and, therefore, the backlight will be poorly visible and it is necessary to focus attention. The indicator system in the Taser “HZ” company product is somewhat better. Battery discharge measurement is implemented on a microcontroller circuit and is displayed on the LCD display at the end of the device, with a preliminary conversion to the number of residual shots / discharges. The implementation is rather complicated and also has a low reliability of readings, since the conversion of the residual voltage depends on the correct operation of the battery pack. Thus, at the moment, the methods used to control the charge of the battery pack are very imperfect and inconvenient when using the product.

Utility Model Essence

 The purpose of the utility model is to create a remote electric shock weapon devoid of this drawback, which will increase the reliability of DESHO and the convenience of its use.

This goal is achieved in that the remote electric shock weapon is made in accordance with the present utility model. DESHO contains an electric circuit that includes a power source, a voltage converter, and a high-voltage generator; at least one throwing element connected to said electrical circuit; and a target illumination device connected to said electrical circuit, wherein said electrical circuit is configured to provide a pointer to said device j

target, which is also an indicator of the charge level of the mentioned power source.

Detailed Description of a Preferred Embodiment of a Utility Model

 Remote electric shock weapon (DESHO) has a non-conductive body made of plastic masses, through which a non-conductive trigger element, an electric power source, a voltage converter, a high-voltage generator, at least one throwing element, and electrodes for contact action can move.

 Usually, at least two throwing elements or a nozzle are installed on the DESA containing throwing elements, each of which can be a cartridge, including a weighting head with a device for fixing on the target, a compressed conductor, one end of which is designed to be fixed on the DESO, and the other on said weighting head, wherein said compressed current lead and weighting head are coated, for example, with a flexible deformable coating.

 DESHO can use not only two pairs of cartridges, but also any number of pairs of cartridges within the selected overall dimensions for ease of use.

In the DESO building there is also a target illumination device, which can be one or more la grain designators or lighting devices, or both.

 Indication of the charge of the power source can be carried out as follows. When voltage is supplied from the power source and after the initialization of the microcontroller located in the electric circuit and controlling the operating mode, the voltage at the power source is measured. If the power source is charged (for example, when the power supply voltage is more than 10 V), then the target illumination device produces constant light. If the power source has a voltage of less than 10 V, the target illumination device emits a flashing light. And if the power source is completely discharged (with a voltage of 9.5 V or less) or does not work, then the target illumination device does not give any light. This system can be implemented using any general purpose timer that is present in any stun device to set the inverter frequency (analogue method), or using a microcontroller (analog-digital or digital method).

When using a microcontroller circuit, there are also many options for implementing this indication method. For example, it is possible to use external resistor dividing chains to set the necessary operating levels, which are supplied to the contacts of the microcontroller, which monitors the change in the digital (logical) level and by its level it sends a signal to the target illumination device (hybrid circuit).

 If there are blocks of programmable comparators or analog-to-digital converters in the microcontroller, it is possible to measure the voltage and set the levels programmatically (reprogramming only the microcontroller) depending on the type of power supply, which further increases the convenience and flexibility of this display method .

 This solution allows not to introduce additional elements of the indication of the charge level onto the DESO housing or special circuits in the electric circuit, thereby increasing the reliability of the entire device as a whole.

Claims

Utility Model Formula

 Remote stun guns containing an electrical circuit that includes a power source, a voltage converter and a high voltage generator; at least one throwing element connected to said electrical circuit; and a target illumination device connected to said electric circuit, characterized in that the electric circuit is configured to provide said target illumination device with an indication of a charge level of said power source.