RU2179294C1 - Electroshock device for protection against attack - Google Patents

Abstract

FIELD: weapon. SUBSTANCE: the device has the main and at least three auxiliary mounting frameworks positioned in a body. The head of the body working part accommodates the working electrodes. The main protective electrode and the auxiliary protective electrodes are positioned on the body near the end of its working part. The main and auxiliary mounting frameworks are positioned in succession and mechanically coupled to one another. The pulse voltage source, control unit electric elements and the power supply are positioned in the first, second and third auxiliary mounting frameworks respectively. The protective electrodes are made in the form of at least two-layer strips, whose upper layer is made of dielectric material, and the underlying one is made of conducting material, the upper layer has through holes. The adjacent protective electrodes are connected to the opposite leads of the high-voltage transformer. The minimum distance between the nearest protective electrodes and between any protective and any working electrode exceeds the distance between two working electrodes nearest to each other. EFFECT: enhanced operate reliability of the electroshock device. 11 cl, 2 dwg, 1 ex

Description

 The invention relates to the field of weapons, and more specifically to weapons based on electric means of destruction, and can be used in devices to protect against attack by offenders or animals by exposing them to a series of high-voltage discharges.

 A shock device is known that contains a body of dielectric material, in one of the ends of which there is a control unit with an indicator, on the other a telescopic element, and inside the body there is a high-voltage power source, sources of damaging energy, as well as a logical and control unit (US 4,884,809 A, F 41 B 15/04, 1989). The action of this device is based on various methods of neutralizing the attacker, including the electric one. The necessary tool is selected by the logical unit. The indicator allows you to identify the operating status of the device.

 Such a device allows you to vary various means of shock exposure and allows you to quickly monitor the status of the device. However, it is complex in design and handling.

 An electroshock device is also known, comprising a housing made in the form of a hollow cylinder made of dielectric material, two working electrodes placed on its working end, and a two-part protective electrode located on the side surface of the housing in its working part, connected to a high pulse source voltage placed inside the housing, on the side surface of which between its working part and the handle there is a start button, as well as a power source located in the housing (PCT WO 8 6/05868, F 41 B 15/04, 1986).

 This device is simple in design, but it is not effective enough in self-defense against attack. The shape and location of the working and protective electrodes lead to the possibility of high-voltage discharges on the surface of the housing, which reduce the mechanical strength of the device. In addition, there is a danger of electric shocks for the user himself in case of accidental contact with the working part of the housing, made in the form of a single unit with the handle.

 Of the known devices, the closest to the claimed one is an electric shock device for attack protection, comprising a housing made in the form of a hollow cylinder made of dielectric material and having a working part and a handle, between which there is a separation ring, a removable cover mounted on the end of the handle, a control unit, mechanical elements of which are located on the outside of the housing, and its electrical elements are inside it, a dielectric head placed on the end of the working part of the housing ala, electrical components located inside the housing, including a power supply, a pulse voltage source and a high voltage transformer installed in a main mounting frame made in the form of a hollow cylinder of dielectric material inserted into the housing, placed on the head are working electrodes connected to the corresponding terminals of the high voltage transformer, and the main protective electrode placed on the housing at the end of its working part (RU 2070310 C1, F 41 B 15/04, 1996).

 This device is convenient to use and quite effective. However, it has insufficiently high operational reliability. This is due to the fact that the design of the fastening of the elements inside the housing does not allow them to be rigidly fixed, which is necessary to protect against tangential impacts and axial tensile stresses. The effectiveness of the protective electrode is insufficient, because when an attacker touches it, the latter is affected only by half the output voltage of the device. This together leads to the fact that during operation of the device the reliability of its functions is insufficient.

 The objective of the invention is to provide an electroshock device for protection against attack, free from the disadvantages of the prototype.

 The technical result provided by the invention is to increase the operational reliability of the stun device.

 This is achieved by the fact that the electric shock device for protection against attack, comprising a housing made in the form of a hollow cylinder of dielectric material and having a working part and a handle, between which there is a separation ring, a removable cover mounted on the end of the handle, a control unit, the mechanical elements of which located on the outside of the housing, and its electrical elements inside it, a dielectric head placed on the end of the working part of the housing, the elec units including a power supply, a pulse voltage source and a high-voltage transformer installed in the main mounting frame made as a hollow cylinder of dielectric material inserted into the body of the die, working electrodes placed on the head connected to the corresponding terminals of the high-voltage transformer, and the main protective electrode, placed on the housing at the end of its working part, equipped with at least one additional protective electrode placed on the housing near with at least three additional mounting frames made in the form of cylinders made of dielectric material with internal cavities, while the main and additional mounting frames are placed in series one after the other and mechanically connected to one another, and the pulse voltage source, electrical elements of the control unit and the power source is respectively located in the first, second and third additional mounting frames, the protective electrodes are made in the form of at least two flat strips, the upper layer of which is made of dielectric material, and the underlying layer of conductive material, while through holes are made in the upper layer, adjacent protective electrodes are connected to the opposite terminals of the high voltage transformer, the smallest distance between the nearest protective electrodes and between any protective and any working electrodes selected large distances between the two working electrodes closest to one another.

 Electrical components and electrical elements housed in mounting cases can be flooded with a compound. The mechanical connection of the mounting frames can be threaded. The electrical connection of the electrical nodes can be performed by means of electrical contacts located at the ends of the mounting frames. The control unit can be made in the form of a microswitch with a start button installed in the sleeve and equipped with a locking mechanism, the mechanical elements of which are placed on a dividing ring made of a dielectric. A check can be introduced into the device in the form of two electrical detachable contacts connected in series by a conductor included in the gap of the corresponding electrical elements of the control unit and placed in a second additional mounting frame, while the outer part of the connecting conductor, made removable, is placed on the dividing ring with the possibility extract from it. Two cylindrical bushings can be introduced into the device, the first of which is placed in the fourth additional mounting frame between the third mounting frame and the cover, and the second on the outer surface of the handle at its end and rigidly connected to it, while the cover is made of two mechanically connected in series with each other and with the fourth additional mounting frame of the parts by means of a screw. A charger placed in the fourth additional mounting frame can be inserted into the device. An indicator of the operating modes of the electroshock device included in the control unit can be introduced into the device, comprising an operation control unit located in the second additional mounting frame and at least one visualization element located on the dividing ring. A functional interrupter included in the control unit can be introduced into the device, located in the second additional mounting frame. Through holes in the upper layer of protective electrodes can be made in the form of letters.

 The above technical result is provided by the totality of the essential features.

 In FIG. 1 shows an embodiment of the claimed device in the context (at the level of its structural diagram).

 In FIG. 2 shows an example of a structural embodiment of the control unit.

 The stun device for protection against attack contains a housing 1 in the form of a hollow cylinder made of a dielectric material, mainly plastic or fiberglass. The housing 1 has a working part 2 and a handle 3. A removable cover 4 is installed at the end of the handle 3. The mechanical elements of the control unit include, for example, a microswitch 5 containing a start button 6 installed in the sleeve 7 and equipped with a locking mechanism in the form of a plate 8 and a key 9 The mechanical elements of the control unit are located on the dividing ring 10, made mainly of dielectric. At the end of the working part 2 of the housing 1 there is a head 11 made of dielectric material with working electrodes 12. Inside the housing 1 there are electrical components — a high-voltage transformer 13, a pulse voltage source 14, electrical elements of a control unit 15 and a power source 16. The high-voltage transformer 13 is located mainly mounting frame 17 made of dielectric material. The working electrodes 12 are connected to the corresponding terminals of the high-voltage transformer 13. On the housing 1 at the end of its working part 2 there is a main protective electrode 18 and additional protective electrodes 19 (Fig. 1 shows one additional protective electrode 19). The pulse voltage source 14, the electrical elements of the control unit 15 and the power supply 16, for example, in the form of a battery, are located in the first 20, second 21 and third 22 additional mounting frames, respectively. The device may include cylindrical bushings 23 and 24 and an additional mounting frame 25. The removable cover 4 can be, for example, made up of two parts 26 and 27. Parts 26, 27 of the removable cover 4 are interconnected and with an additional mounting frame 25, for example, by means of screw 28. The mounting frames 17, 20, 21, 22, 25 are arranged sequentially one relative to the other and mechanically connected to each other, for example, by means of a threaded connection. In this case, for example, at the front end of each mounting frame, the thread may be total external (or internal), and at the rear end - the internal (or external).

 The protective electrodes 18, 19 in the device are multilayer, for example, two-layer. Their upper layer is made of dielectric material and is provided with through holes, for example, in the form of letters. The underlying layer is made of electrically conductive material. In the case of a three-layer embodiment, the lower layer may be an adhesive dielectric composition. The adjacent protective electrodes 18, 19 are connected to the opposite terminals of the high-voltage transformer 13. The smallest distance between the protective electrodes 18, 19 nearest to one another and between any protective 18, 19 and any working electrode 12 is selected to be large between the two nearest one with respect to another working electrodes 12. The electrical connection of the electrical nodes in the device is made, for example, in the form of electrical contacts located on the ends of the mounting frames 17, 20, 21, 22, 25. In this case, the electrical the contacts connected to the "positive" terminals of the electrical nodes can be made in the form of disks or springs of conductive material, and the electrical contacts connected to the "negative" terminals of the electrical nodes are made in the form of rings of conductive material. A charger 29 can be inserted into the device, located in the fourth additional mounting frame 25. Electrical components and electrical elements 13, 14, 15, 16, located in the mounting frames 17, 20, 21, 22, 25, can be filled with a compound. The device may include a check 30. Check 30 is made, for example, in the form of two electrical detachable contacts connected in series by a connecting conductor included in the gap of the corresponding electrical elements of the control unit 15 (not shown in the drawings). The connecting conductor can be made, for example, in the form of a flexible loop coated with a dielectric material. It can be equipped with an additional flexible loop of dielectric material. The outer part of the removable connecting conductor is placed on the dividing ring 10 with the possibility of extraction from it. The device may include an operating mode indicator included in the control unit 15, comprising an operation control unit located in the second additional mounting frame 21, and visualization elements 31, for example, in the form of LEDs equipped with, for example, a transparent plate 32. The device can also be inserted functional breaker 33 (on / off switch of the device for a given mode of operation), included in the control unit 15 and placed in the second additional mounting frame 21. second breaker 33 comprises, for example, a sensor, a microprocessor and the actuating element (chopper).

 The device operates as follows. When the unlocked start button 6 is pressed, the microswitch 5 of the control unit is turned on and the power supply 16 is connected to the pulse voltage source 14. The pulse signal generated by this electrical unit is fed to a high-voltage transformer 13, from the terminals of which a high-voltage pulse signal is supplied to the working electrodes 12 and protective electrodes 18, 19. In this case, high voltage electric discharges occur between the working electrodes 12. When approaching the object of influence at a distance of less than half the minimum distance between any two working electrodes 12, the latter experiences the effect of electric shock. A similar effect occurs when approaching the same distance to the protective electrodes 18, 19. The above design features of the protective electrodes 18, 19 provide this effect for any spatial orientation of the stun device. The constructive implementation of the elements inside the housing 1 ensures the operability of the device with significant axial and mechanical end impacts (for example, impacts) on it.

 If the device has an indicator of the operating modes, the visualization element 31 indicates the readiness of the device for operation. If the device has checks 30 in the case of transportation of the device, the connecting conductor checks 30 are removed in advance. This leads to an open circuit between the power supply 16 and the source of the pulse voltage 14. In the working position, in case of an attempt to snatch the device by the attacker, the connecting conductor of the check 30, worn on the owner’s finger, will be automatically removed, which also leads to the aforementioned open circuit and the inability turning on the device to the attacker. If the device has a functional chopper 33, the circuit connecting the power source 16 and the pulse voltage source 14 is interrupted if the time of continuous operation of the device exceeds the maximum allowable value or if any electrical parameters exceed the established norm.

 Implementation example. The stun device is made in case 1 with a diameter of 52 mm and a length of 300 mm. The electrical voltage of the appearance of visible discharges between the working electrodes 12 is 65 kV, the discharge repetition rate is 50 Hz with a discharge duration of 1 ms. The supply voltage is 9.6 V, the charge time of the power supply 16 is not more than 10 hours. A stable electroshock effect is achieved with an exposure time of about 0.3 sec. The device remains operational after bumps and falls on a hard base.

 The stun device made in accordance with the invention has high operational reliability, is simple and convenient to use.

Claims (11)

 1. Electroshock device for protection against attack, comprising a housing made in the form of a hollow cylinder made of dielectric material and having a working part and a handle, between which there is a separation ring, a removable cover mounted on the end face of the handle, a control unit, the mechanical elements of which are located on the outside sides of the housing, and its electrical elements inside it, a dielectric head located at the end of the working part of the housing, electrical units located inside the housing, including e power supply, a pulse voltage source and a high-voltage transformer installed in the main mounting frame made in the form of a main mounting frame inserted into a hollow cylinder of dielectric material, working electrodes placed on the head connected to the corresponding terminals of the high-voltage transformer, and the main protective electrode placed on the housing the end of its working part, characterized in that it is equipped with at least one additional protective electrode placed on the housing row ohm with at least three additional mounting frames made in the form of cylinders made of dielectric material with internal cavities, while the main and additional mounting frames are placed in series one after the other and mechanically connected to one another, and the pulse voltage source, electrical components the controls and the power supply are respectively located in the first, second and third additional mounting frames, the protective electrodes are made in the form of at least two layered strips, the upper layer of which is made of dielectric material, and the underlying layer of conductive material, while through holes are made in the upper layer, adjacent protective electrodes are connected to the opposite terminals of the high-voltage transformer, the smallest distance between the nearest protective electrodes and between any protective and any working electrodes selected large distances between the two working electrodes closest to one another.  2. The stun device according to claim 1, characterized in that the electrical components and electrical elements located in the mounting frames are filled with a compound.  3. The stun device according to claim 1, characterized in that the mechanical connection of the mounting frames is threaded.  4. The stun device according to claim 1, characterized in that the electrical connection of the electrical nodes is made by means of electrical contacts located at the ends of the mounting frames.  5. The stun device according to claim 1, characterized in that the control unit is made in the form of a microswitch with a start button installed in the sleeve and equipped with a locking mechanism, the mechanical elements of which are placed on a dividing ring made of a dielectric.  6. The stun device according to claim 1, characterized in that a check is inserted into it, made in the form of two electrical detachable contacts connected in series by a connecting conductor, connected to the gap of the corresponding electrical elements of the control unit and placed in a second additional mounting frame, with the outer part the connecting conductor, made removable, is placed on the dividing ring with the possibility of extraction from it.  7. The stun device according to claim 1, characterized in that two cylindrical bushings are inserted into it, the first of which is placed in the fourth additional mounting frame between the third mounting frame and the cover, and the second on the outer surface of the handle at its end and rigidly connected to her, while the cover is made of composite of two mechanically connected in series with each other and with the fourth additional mounting frame parts by means of a screw.  8. The stun device according to claim 1, characterized in that a charger is inserted in it, which is located in the fourth additional mounting frame.  9. The stun device according to claim 1, characterized in that an indicator of the operating modes of the stun device is included in the control unit, comprising a function control unit located in the second additional mounting frame and at least one visualization element located on the dividing ring .  10. The stun device according to claim 1, characterized in that a functional breaker is included in the control unit, which is located in the second additional mounting frame.  11. The stun device according to claim 1, characterized in that the through holes in the upper layer of the protective electrodes are made in the form of letters.

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