CN107356157B

CN107356157B - Capturing glove and capturing method using same

Info

Publication number: CN107356157B
Application number: CN201710641658.4A
Authority: CN
Inventors: 蒋智勇; 徐现刚; 敬渭清; 刘亮; 郑书平; 刘凯
Original assignee: Shenzhen Senxunda Electronic Technology Co ltd
Current assignee: Shenzhen Senxunda Electronic Technology Co ltd
Priority date: 2017-07-31
Filing date: 2017-07-31
Publication date: 2023-07-28
Anticipated expiration: 2037-07-31
Also published as: CN107356157A

Abstract

The utility model discloses a capturing glove and a capturing method by using the capturing glove, wherein the capturing glove comprises a glove body and a pulse output electrode, a power supply, a microprocessor and a pulse output circuit are arranged in the glove body, the microprocessor comprises a pulse oscillation circuit and a voltage boosting circuit, the pulse output circuit comprises a first output end and a second output end, the pulse output electrode is connected with the first output end and the second output end, the voltage boosting circuit comprises a first voltage boosting circuit, a second voltage boosting circuit and a switch, the switch comprises a movable end, a first fixed end, a second fixed end and a third fixed end, one end of the first voltage boosting circuit is connected with the pulse oscillation circuit, the other end of the first voltage boosting circuit is connected with the movable end, the first fixed end is grounded, the second fixed end is connected with the first output end and the second output end, the third fixed end is connected with one end of the second voltage boosting circuit, and the other end of the second voltage boosting circuit is connected with the first output end and the second output end. The utility model can effectively control criminal suspects.

Description

Capturing glove and capturing method using same

Technical Field

The utility model relates to the field of security protection, in particular to a capturing glove and a capturing method using the capturing glove.

Background

Currently, the criminal suspects are mainly finished by people and police with two hands, and the criminal suspects are naturally provided with a shooting effect by holding a knife and a gun stick, but weapons in the hands are more obvious, are inconvenient to conceal the enemy and even are robbed by the enemy, and are harmful to the enemy. And is inconvenient to store and carry at ordinary times. The utility model patent document with the publication number of CN2358706Y provides a police anti-riot electric shock glove, which mainly adopts a high-voltage electric shock mode on the glove to meet the requirement of police on official business, but has the defects that high-voltage discharge has a burn effect on human skin, the output voltage is tens of thousands of volts, the high voltage can cause certain damage to heart and central nerves of a human body, ventricular fibrillation can be caused when the high-voltage electric shock glove is used for a person with heart disease, and heart stop beating can occur for a serious person.

The chinese patent of utility model publication No. CN 102778173a discloses a capturing glove for police, comprising an insulated outer sleeve, a first contact electrode, a second contact electrode and a human body induction low voltage pulse generator, wherein the outer sleeve comprises a palm surface, the first contact electrode and the second contact electrode are mutually arranged on the palm surface in an insulating manner, the human body induction low voltage pulse generator comprises a first output electrode and a second output electrode, the first output electrode is electrically connected with the first contact electrode, the second output electrode is electrically connected with the second contact electrode, and when the first contact electrode is conducted with the second contact electrode, the human body induction low voltage pulse generator outputs current through the first output electrode and the second output electrode.

The utility model patent application with the publication number of CN 105146813A discloses an intelligent capturing glove, which is formed by connecting a glove body (1), a palm electric shock pulse conductor (2), a finger electric shock pulse conductor (3), a hanging ring (4), a connecting buckle (5), an adhesive tape (6), a switch (7), a battery (8), a back striking shell (9), a finger striking shell (10) and a thumb striking piece (11), and is characterized in that: the top end of the finger stall is connected with two hanging rings (4); a connecting buckle (5) is connected to one side of the bottom end of the glove body (1); the other side of the bottom end of the glove body (1) is connected with an adhesive tape (6); the electric wire is connected with a module, and the module is connected with the palm electric shock pulse conductor and the finger electric shock pulse conductor through a circuit; a palm center electric shock pulse conductor (2) is fixed at the palm center of the glove body (1) through a leather pad, a finger electric shock pulse conductor (3) is fixed at the root of four fingers through the leather pad, and a thumb striking plate (11) is fixed at the back of the thumb of the glove; a back striking shell (9) is fixed in the middle of the back of the glove body (1), the back striking shell (9) is in a four-finger joint bulge shape, a finger striking shell (10) is fixed at the upper end of the back of the glove body (1), and the finger striking shell (10) is in a peach shape bulge shape; a switch (7) is fixed on one side of the lower edge of a back hand striking shell (9) of the glove body (1), and a battery (8) is fixed on the lower edge of the back hand striking shell (9) of the back of the glove body (1); the switch (7) is connected with the battery (8) through a wire, the wire is connected with the module, and the module is connected with the palm electric shock pulse conductor (2) and the finger electric shock pulse conductor (3) through a circuit.

The utility model discloses a pulse electronic control capturing glove in the patent application with the publication number of CN 105865258A, which comprises the following components: the glove comprises a glove body, a power supply module, a first switch module, a pulse generation module, a second switch module, a plurality of pulse output points and a pulse control module; the glove comprises a glove body, a first switch module, a pulse generation module, a second switch module and a plurality of pulse output points, wherein the glove body is respectively connected with the power module, the first switch module, the pulse generation module, the second switch module and the plurality of pulse output points; the power supply module is connected with the first switch module; the first switch module is connected with the pulse generation module; the pulse generation module is connected with the second switch module; the second switch module is respectively connected with each pulse output point; the pulse control module is connected with the pulse generation module. With this setting through two switches, improved security and the practicality of using for pulse electronic control catches gloves can be according to various different actual combat scenes and use needs and carry out nimble adjustment, satisfies the needs of various different actual combat environments, has strengthened practicality and security through pulse control module's setting.

In addition, a method and system for braking is disclosed in the inventive patent application publication No. CN 101124856a, and a system and method for braking is disclosed in the inventive patent application publication No. CN 102155872 a. The various catching gloves solve the problem that the electric shock glove hurts people in the prior art to a certain extent, but the mode still has the following problems: effective control is not available for the non-bare skin portions.

Disclosure of Invention

The utility model aims to overcome the defects in the prior art and provides the capturing glove capable of effectively controlling criminal suspects and the capturing method by using the capturing glove.

The technical scheme adopted for solving the technical problems is as follows: the utility model provides a construction is arrested gloves, is including the gloves body and cover pulse output electrode on the palm face of gloves body, be equipped with power, microprocessor and pulse output circuit in the gloves body, microprocessor includes pulse oscillation circuit and boost circuit, pulse output circuit includes first output and second output, the electric current of power output is in proper order through pulse oscillation circuit and boost circuit conversion to the pulse current of settlement size to through first output and second output, pulse output electrode respectively with first output and second output are connected, boost circuit includes first boost circuit, second boost circuit and change over switch, change over switch includes movable end, first fixed end, second fixed end and third fixed end, first boost circuit's one end with pulse oscillation circuit is connected, first boost circuit's the other end with the movable end is connected, first fixed end ground connection, second fixed end respectively with first output and second output, second fixed end is connected with second boost circuit's the other end, second fixed end is connected with the second boost circuit.

In the capturing glove, a sampling circuit is further arranged in the glove body, a sampling endpoint is arranged on the palm surface of the glove body, and the sampling circuit is respectively connected with the microprocessor and the sampling endpoint and is used for measuring the resistance value of a captured object on the palm surface of the glove body.

In the capturing glove, when the change-over switch is switched to the first fixed end, the capturing glove is in a closed state, when the change-over switch is switched to the second fixed end, the pulse output electrode outputs low-voltage pulse current with pulse parameters ranging from 320V to 380V, 15 mA to 30mA and 25 Hz to 50Hz, and when the change-over switch is switched to the third fixed end, the pulse output electrode outputs high-voltage pulse current with pulse parameters ranging from 2000V to 50000V, 0.25 mA to 10mA and 25 Hz to 50Hz.

In the capturing glove, the back of the glove body is provided with the protrusions for preventing the knife from cutting and enhancing the attack force.

In the capturing glove, the pulse output electrodes are vertically arranged or are arranged on the left side and the right side to cover the palm surface of the glove body.

In the capturing glove, the pulse output electrode is attached to the palm surface of the glove body by adopting conductive cloth, or an electrode needle with elasticity is hidden in the palm surface of the glove body, and when the palm surface of the glove body is pressed, the electrode needle pops out.

In the capturing glove, the section of the glove body comprises an inner layer, a shielding layer and a cutting-preventing layer, wherein the inner layer is used for being attached to the hand of a wearer, the shielding layer is used for preventing current from accidentally injuring the wearer, and the cutting-preventing layer is used for actual combat knife-capturing, and the cutting-preventing layer is sequentially arranged from inside to outside.

In the capturing glove, the anti-cutting layer is provided with the notch for arranging the conductive cloth.

In the capturing glove, the section of the glove body further comprises an outer layer arranged outside the anti-cutting layer, a notch for arranging the conductive cloth is arranged on the outer layer, the anti-cutting layer is made of Kevlar material or is made of high-strength high-modulus polyethylene fiber (DOYENTRONTEX Fiber) to cover glass fiber, spandex or steel wire, and the bulge is made of glass fiber, ABS, PC or carbon fiber.

The utility model also relates to a method for capturing by using the capturing glove, which comprises the following steps:

a) The sampling circuit collects the resistance of the object grabbed by the palm surface of the grabbing glove and sends the collected resistance value to the microprocessor;

b) The microprocessor judges whether the acquired resistance value is larger than a set value, if so, the step C) is executed; otherwise, executing the step D);

c) The current sequentially passes through the first booster circuit, the second booster circuit and the pulse output circuit and then outputs 2000-50000V, 0.25-10mA and 25-50Hz high-voltage pulse current from the pulse output electrode;

d) The current sequentially passes through the first voltage boosting circuit and the pulse output circuit and then outputs low-voltage pulse current of 320-380V, 15-30mA and 25-50Hz from the pulse output electrode.

The capturing glove and the capturing method by using the capturing glove have the following beneficial effects: because be equipped with gloves body and pulse output electrode, this internal power that is equipped with of gloves, microprocessor and pulse output circuit, microprocessor includes pulse oscillation circuit and boost circuit, pulse output circuit includes first output and second output, boost circuit includes first boost circuit, second boost circuit and change over switch, the change over switch includes movable end, first stationary end, second stationary end and third stationary end, when the change over switch switches to the second stationary end, be low-voltage scheme, when the change over switch switches to the third stationary end, be high-voltage scheme, through collecting high-voltage scheme and low-voltage scheme in same gloves, when the skin exposes more in the weather is hot or criminal suspect, catch with low-voltage scheme, safety and high efficiency, when criminal suspect dresses more, with high-voltage scheme, the clothes can be broken down to the electric current, consequently, can effectively control criminal suspect.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of a capturing glove according to the present utility model and a method of capturing using the capturing glove according to an embodiment of the present utility model;

FIG. 2 is a schematic illustration of the palm side of the capture glove of the illustrated embodiment;

FIG. 3 is another schematic illustration of the palm side of the capture glove of the embodiment;

FIG. 4 is a schematic view of the back side of the capture glove in the illustrated embodiment;

fig. 5 is a flowchart of a capturing method using the capturing glove in the embodiment.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In an embodiment of the capturing glove of the present utility model, a schematic structural diagram of the capturing glove is shown in fig. 1. In fig. 1, the capturing glove includes a glove body 1 and a pulse output electrode 2, the pulse output electrode 2 is covered on the palm surface of the glove body 1, fig. 2 is a schematic diagram of the palm surface of the capturing glove in this embodiment, and it can be seen from fig. 2 that the pulse output electrode 2 is covered on the palm surface of the glove body 1. The pulse output electrodes 2 can be arranged up and down, or can be arranged at the left side and the right side in parallel, and the like, and are covered on the palm surface of the glove body 1.

In this embodiment, a power supply 11, a microprocessor 12 and a pulse output circuit 13 are disposed in the glove body 1, the microprocessor 12 includes a pulse oscillating circuit 121 and a boost circuit 122, the pulse output circuit 13 includes a first output end 131 and a second output end 132, wherein, a current output by the power supply 11 is converted into a pulse current with a set size through the pulse oscillating circuit 121 and the boost circuit 122 in sequence, and is output through the first output end 131 and the second output end 132, the pulse output electrode 2 is connected with the first output end 131 and the second output end 132 respectively, the boost circuit 122 includes a first boost circuit 123, a second boost circuit 123 and a switch K, and the switch K is a single-pole multi-throw switch, and may be a knob switch or a toggle switch.

In this embodiment, the change-over switch K includes a movable end, a first fixed end, a second fixed end and a third fixed end, where one end of the first boost circuit 123 is connected with the pulse oscillation circuit 121, the other end of the first boost circuit 123 is connected with the movable end, the first fixed end is grounded, the second fixed end is connected with the first output end 131 and the second output end 132 respectively, the third fixed end is connected with one end of the second boost circuit 124, and the other end of the second boost circuit 124 is connected with the first output end 131 and the second output end 132 respectively. When change over switch K switches to the second and does not move the end, be low-voltage scheme, when change over switch K switches to the third and does not move the end, be high-voltage scheme, through collecting high-voltage scheme and low-voltage scheme in same gloves, when weather is hot or criminal suspects' body skin exposes more, with low-voltage scheme to arrest, safe high-efficient, when criminal suspects dresses more, with high-voltage scheme, efficiency is higher, and the clothes can be broken through to the electric current, consequently can carry out effective control to criminal suspects.

It should be noted that in the present embodiment, the boost circuit 122 includes a transformer (not shown in the figure), and the transformer includes one input terminal and two output terminals, and the first boost circuit 123 and the second boost circuit 124 correspond to the two output terminals of the transformer. When the change-over switch K is at the second stationary end, the current is boosted to 320-380V, 15-30mA and 25-50Hz by the first boost circuit 123. When the change-over switch K is at the third stationary end, the current is boosted to 2000-20000V, 0.25-3mA and 25-30Hz by the second boost circuit 124.

Specifically, when the change-over switch K is switched to the first stationary end, the catching glove is in a closed state, when the change-over switch K is switched to the second stationary end, the pulse output electrode 2 outputs low-voltage pulse current with the pulse parameter range of 320-380V, 15-30mA and 25-50Hz, and when the change-over switch K is switched to the third stationary end, the pulse output electrode 2 outputs high-voltage pulse current with the pulse parameter range of 2000-50000V, 0.25-10mA and 25-50Hz.

It should be noted that, in some cases of the present embodiment, the switch K may further include more stationary ends, and in this case, the switch becomes a single pole four throw switch, a single pole five throw switch, a single pole six throw switch, etc., and the corresponding booster circuit 122 may be further provided in plural numbers, that is, the booster circuit 122 may further include a third booster circuit, a fourth booster circuit, etc., so as to be suitable for different clothes.

Preferably, the pulse output electrode 2 is attached to the palm surface of the glove body 1 by adopting conductive cloth, or an electrode needle with elasticity can be hidden in the palm surface of the glove body 1, and the electrode needle pops out when the palm surface is pressed.

Fig. 3 is another schematic diagram of the palm surface of the capturing glove in this embodiment, the glove body 1 is further provided with a sampling circuit 14, the palm surface of the glove body 1 is provided with a sampling endpoint 3, the sampling circuit 14 is respectively connected with the microprocessor 12 and the sampling endpoint 3, and is used for measuring the resistance value of the object captured by the palm surface of the glove body 1, when the measured resistance value is greater than 2000 ohms, the pulse output circuit 13 outputs 2000-50000V, 0.25-10mA, and 25-50Hz currents through the first boost circuit 123 and the second boost circuit 124. When the measured resistance value is less than or equal to 2000 ohms, the pulse output circuit 13 outputs 320-380V, 15-30mA, and 25-50Hz currents through the first boost circuit 123, the first output terminal 131, the second output terminal 132, and the pulse output electrode 2.

Fig. 4 is a schematic view of the back of the capturing glove in this embodiment, in fig. 4, the back of the glove body 1 is provided with protrusions 4, and the protrusions 4 are used for preventing knife from cutting and enhancing the attack force. The protrusions 4 are specifically the positions of each finger provided on the back surface of the glove body 1. The bump 4 may be made of glass fiber, ABS, PC, carbon fiber, etc.

In this embodiment, the tangent plane of glove body 1 includes inlayer, shielding layer and the anti-cutting layer of arranging in proper order from interior to exterior, and wherein, the inlayer is used for laminating person of wearing hand, and the shielding layer is used for preventing electric current accidental injury person of wearing, and the anti-cutting layer is used for the sword of taking in actual combat. The cutting-resistant layer is made of Kevlar material or is made of high-strength high-modulus polyethylene fiber coated glass fiber, spandex or steel wire, and is provided with a notch for setting conductive cloth. Of course, a layer of outer layer can be arranged outside the anti-cutting layer, namely, the section of the glove body 1 further comprises the outer layer arranged outside the anti-cutting layer, and a notch is arranged on the outer layer and is used for arranging conductive cloth.

Fig. 5 is a flowchart of a capturing method using the capturing glove according to the present embodiment, and in fig. 5, the capturing method using the capturing glove includes the following steps:

step S01, the sampling circuit collects the resistance of the object grabbed by the palm surface of the grabbing glove and sends the collected resistance value to the microprocessor: in the step, a sampling circuit collects the resistance of the object grabbed by the palm surface of the grabbing glove and sends the collected resistance value to a microprocessor.

Step S02, the microprocessor judges whether the acquired resistance value is larger than a set value or not: in the step, the microprocessor judges whether the acquired resistance value is larger than a set value, if yes, the step S04 is executed; otherwise, step S03 is performed. It should be noted that, in the present embodiment, the set value is 2000 ohms, that is, in this step, the microprocessor actually determines whether the acquired resistance value is greater than 2000 ohms, and if yes, step S04 is executed; otherwise, step S03 is performed. Of course, in some cases of the embodiment, the set value may be adjusted to other values according to circumstances.

Step S03 current sequentially passes through the first booster circuit, the second booster circuit and the pulse output circuit and then outputs 2000-50000V, 0.25-10mA and 25-50Hz high-voltage pulse current from the pulse output electrode: if the judgment result of the above step S02 is yes, the present step is executed. In the step, after the current sequentially passes through the first booster circuit, the second booster circuit and the pulse output circuit, high-voltage pulse current of 2000-50000V, 0.25-10mA and 25-50Hz is output from the pulse output electrode.

Step S04 current sequentially passes through a first voltage boosting circuit and a pulse output circuit and then outputs low-voltage pulse currents of 320-380V, 15-30mA and 25-50Hz from a pulse output electrode: if the result of the above step S02 is negative, the present step is executed. In the step, after the current sequentially passes through the first voltage boosting circuit and the pulse output circuit, low-voltage pulse current of 320-380V, 15-30mA and 25-50Hz is output from the pulse output electrode. According to the method, the high-voltage scheme and the low-voltage scheme are integrated in the same glove, when the weather is hot or the skin of the criminal suspect is exposed more, the low-voltage scheme is used for capturing, the method is safe and efficient, when the criminal suspect wears more, the high-voltage scheme is used, the efficiency is high, and the clothes can be broken through by current.

In a word, the high-voltage scheme and the low-voltage scheme are integrated in the same glove, so that the capturing glove is safe and efficient when the weather is hot or the skin of the criminal suspects is exposed more, and the high-voltage scheme is high in efficiency and can break down clothes when the criminal suspects wear more, and therefore the criminal suspects can be effectively controlled.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the utility model.

Claims

1. A capturing glove, comprising: the glove comprises a glove body and a pulse output electrode covered on the palm surface of the glove body, wherein a power supply, a microprocessor and a pulse output circuit are arranged in the glove body, the microprocessor comprises a pulse oscillating circuit and a voltage boosting circuit, the pulse output circuit comprises a first output end and a second output end, current output by the power supply is converted into pulse current with a set size through the pulse oscillating circuit and the voltage boosting circuit in sequence and is output through the first output end and the second output end, the pulse output electrode is respectively connected with the first output end and the second output end, the voltage boosting circuit comprises a first voltage boosting circuit, a second voltage boosting circuit and a switch, the switch comprises a movable end, a first fixed end, a second fixed end and a third fixed end, one end of the first voltage boosting circuit is connected with the pulse oscillating circuit, the other end of the first voltage boosting circuit is connected with the movable end, the first fixed end is grounded, the second fixed end is respectively connected with the first output end and the second output end, the switch comprises a first voltage boosting circuit, and the other end of the first voltage boosting circuit is respectively connected with the second voltage boosting circuit;

the glove is characterized in that a sampling circuit is further arranged in the glove body, a sampling endpoint is arranged on the palm surface of the glove body, and the sampling circuit is respectively connected with the microprocessor and the sampling endpoint and is used for measuring the resistance value of a grabbed object on the palm surface of the glove body.

2. The capturing glove according to claim 1, wherein when the change-over switch is switched to the first stationary end, the capturing glove is in an off state, when the change-over switch is switched to the second stationary end, the pulse output electrode outputs a low-voltage pulse current with a pulse parameter range of 320-380V, 15-30mA, 25-50Hz, and when the change-over switch is switched to the third stationary end, the pulse output electrode outputs a high-voltage pulse current with a pulse parameter range of 2000-50000V, 0.25-10mA, 25-50Hz.

3. The capturing glove according to claim 2, wherein the back surface of the glove body is provided with protrusions for preventing knife cutting and reinforcing an attack force.

4. A capturing glove according to claim 3, wherein the pulse output electrodes are arranged up and down or left and right on the palm surface of the glove body.

5. The capturing glove according to claim 4, wherein the pulse output electrode is attached to the palm surface of the glove body by using conductive cloth, or is hidden in the palm surface of the glove body by using an electrode needle with elasticity, and the electrode needle pops out when the palm surface of the glove body is pressed.

6. The capturing glove according to claim 5, wherein the cut surface of the glove body comprises an inner layer for attaching to the hand of the wearer, a shielding layer for preventing the wearer from being accidentally injured by electric current, and a cutting prevention layer for a real combat knife, which are sequentially arranged from inside to outside.

7. The capturing glove according to claim 6, wherein the cut-preventing layer is provided with a notch for arranging the conductive cloth.

8. The capturing glove according to claim 7, wherein the cut surface of the glove body further comprises an outer layer arranged outside the anti-cutting layer, a notch for arranging the conductive cloth is arranged on the outer layer, the anti-cutting layer is made of kevlar material or high-strength high-modulus polyethylene fiber coated glass fiber, spandex or steel wire, and the protrusions are made of glass fiber, ABS, PC or carbon fiber.

9. A method of capturing using the capturing glove according to claim 1, comprising the steps of: a) The sampling circuit collects the resistance of the object grabbed by the palm surface of the grabbing glove and sends the collected resistance value to the microprocessor; b) The microprocessor judges whether the acquired resistance value is larger than a set value, if so, the step C) is executed; otherwise, executing the step D); c) The current sequentially passes through the first booster circuit, the second booster circuit and the pulse output circuit and then outputs 2000-50000V, 0.25-10mA and 25-50Hz high-voltage pulse current from the pulse output electrode; d) The current sequentially passes through the first voltage boosting circuit and the pulse output circuit and then outputs low-voltage pulse current of 320-380V, 15-30mA and 25-50Hz from the pulse output electrode.