CN108700397B - Arresting glove management system and supervision method - Google Patents

Abstract

A management system and a supervision method for catching gloves are disclosed, the system comprises a control end (1), a mobile terminal (2) and catching gloves (3), wherein a supervision APP capable of calling a map is installed on the mobile terminal (2), and the control end is embedded with the map; the catching glove comprises a glove body (31) and a pulse output electrode (32), a power supply (33) is arranged in the glove body (31), a microprocessor (34), a pulse output circuit (35), a satellite positioning module (36) and a wireless transmission module (37), the microprocessor (34) comprises a pulse oscillation circuit (341) and a booster circuit (342), the pulse output circuit (35) comprises a first output end (352) and a second output end (352), current output by the power supply (33) is converted into pulse current with set size through the pulse oscillation circuit (341) and the booster circuit (342) in sequence, the pulse output electrode (32) is connected with the booster circuit (342) through the pulse output circuit (35), and when the catching glove is outside a preset use area range, the power supply is controlled to be turned off. The device can supervise the using process of the catching gloves, prevent the abuse of police strength and effectively control criminal suspects.

Description

Arresting glove management system and supervision method

Technical Field

The invention relates to the field of capture glove management, in particular to a capture glove management system and a supervision method.

Background

At present, the criminal suspects of capture and defense are mainly completed by two hands of people police, the people hold the knife, gun and stick, the criminal suspects are really wondered, but weapons in the hands are more obvious, the criminal suspects are inconvenient to conceal the enemies, even the criminals are under the predation, and the criminal suspects are harmed by the enemies. And is inconvenient to store and carry in normal times. The utility model discloses a grant utility model patent document that bulletin number is CN2358706Y provides a police with anti-riot electric shock gloves, its main technical scheme adopts the high-voltage electric shock mode to satisfy the police's needs of carrying out the official business on the gloves, but the shortcoming is that high-voltage discharge has the burn effect to human skin, its output voltage is tens of thousands volts, and certain injury can be caused to human heart and central nerve to such high pressure, use high-voltage electric shock gloves to cause ventricular fibrillation to the people who has heart disease, the cardiac arrest beating can appear to the serious person.

Chinese patent publication No. CN 102778173a discloses an police grabbing arresting glove, which includes an insulating outer cover, a first contact electrode, a second contact electrode, and a human body induction low-voltage pulse generator, wherein the outer cover includes a palm surface, the first contact electrode and the second contact electrode are insulated from each other and disposed on the palm surface, the human body induction low-voltage pulse generator includes a first output electrode and a second output electrode, the first output electrode is electrically connected to the first contact electrode, the second output electrode is electrically connected to the second contact electrode, and when the first contact electrode is conducted to 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 invention discloses an intelligent capture glove with a publication number of CN 105146813A, 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 hand 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); one side of the bottom end of the glove body (1) is connected with a connecting buckle (5); the other side of the bottom end of the glove body (1) is connected with an adhesive tape (6); the module is connected with the palm electric shock pulse conductor and the finger electric shock pulse conductor through a circuit; a palm electric shock pulse conductor (2) is fixed at the palm 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 a leather pad, and a thumb striking sheet (11) is fixed at the back of the thumb of the glove; a hand back striking shell (9) is fixed in the middle of the back of the glove body (1), the hand 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-shaped bulge shape; a switch (7) is fixed on one side of the lower side of a back hand striking shell (9) of the glove body (1), and a battery (8) is fixed on the lower side of the back hand striking shell (9) of the glove body (1); the switch (7) is connected with the battery (8) through an electric wire, the electric 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 above-mentioned catching gloves solve the problem of injury to people caused by the electric shock gloves in the prior art to a certain extent, but the following problems still exist in the manner: catching gloves, as a law enforcement device for police, are unsupervised during use, clearly present a gap in supervision that can lead to misuse by police forces and, in addition, do not allow effective control over non-bare skin portions.

Disclosure of Invention

The technical problem to be solved by the present invention is to provide a glove arresting management system and a monitoring method, which can monitor the usage process of gloves arresting, prevent the misuse of police force, and effectively control criminal suspects, aiming at the above defects of the prior art.

The technical scheme adopted by the invention for solving the technical problems is as follows: the method comprises the steps that a capture glove management system is constructed and comprises a control end, a mobile terminal and capture gloves, a supervision APP capable of calling a map is installed on the mobile terminal, the map is embedded in the control end, a preset use area and use time of the capture gloves are set through the control end, the mobile terminal sends an application for starting a capture function to the control end through the supervision APP, and the capture function of the capture gloves is started after a response of the control end is received;

the catching gloves comprise glove bodies and pulse output electrodes covering the palm surfaces of the glove bodies, wherein power supplies, microprocessors, pulse output circuits, satellite positioning modules and wireless transmission modules are arranged in the glove bodies, the microprocessors comprise pulse oscillation circuits and booster circuits, currents output by the power supplies are sequentially converted into pulse currents with set sizes through the pulse oscillation circuits and the booster circuits, and the pulse output electrodes are connected with the booster circuits through the pulse output circuits;

the satellite positioning module acquires geographical position data of the capture gloves in real time and sends the geographical position data to the microprocessor, the microprocessor receives preset using area information sent by the wireless transmission module and decodes the preset using area information to obtain preset supervision area data, the microprocessor compares the geographical position data of the capture gloves with the preset supervision area data, when the capture gloves are in the range of the preset using area, no action is performed, when the capture gloves are out of the range of the preset using area, the microprocessor transmits an alarm signal and the geographical position data of the capture gloves to the supervision APP through the wireless transmission module and controls the power supply to close the capture function of the capture gloves, and the mobile terminal records the geographical position information of the capture gloves during each communication through the supervision APP, and the historical track of the catching gloves is shown on a map through a point-to-point line.

In the catching glove management system, a first timer for recording the starting time or the closing time of the catching function is further arranged in the microprocessor.

In the glove catching management system, the pulse output circuit comprises a first output end and a second output end, a second timer is further arranged in the glove body, and the second timer is arranged between the first output end and the second output end and used for recording the communication time of the glove catching sleeve during catching.

In the capture glove management system, a sampling circuit is further arranged in the glove body, a sampling end point is arranged on the palm surface of the glove body, and the sampling circuit is respectively connected with the microprocessor and the sampling end point and is used for measuring the resistance value of a matter grasped by the palm surface of the glove body.

In the catching glove management system, the pulse current 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 booster circuit comprises a first booster circuit, a second booster circuit and a change-over switch, the change-over switch comprises a movable end, a first fixed end, a second fixed end and a third fixed end, one end of the first booster circuit is connected with the pulse oscillation circuit, the other end of the first booster circuit is connected with the movable end, the first immovable end is grounded, the second immovable end is respectively connected with the first output end and the second output end, the third fixed end is connected with one end of the second booster circuit, and the other end of the second booster circuit is respectively connected with the first output end and the second output end; when the change-over switch is switched to the first immovable end, the catching glove is in a closed state, when the change-over switch is switched to the second immovable end, the pulse output electrode outputs low-voltage pulse currents with pulse parameter ranges of 320-.

In the catching glove management system, the back of the glove body is provided with a bulge for preventing knife cutting and strengthening attack force, and the bulge is made of glass fiber, ABS, PC or carbon fiber.

In the capture glove management system, the pulse output electrode is attached to the palm surface of the glove body by adopting conductive cloth, or the elastic electrode needle is hidden in the palm surface of the glove body, and when the palm surface of the glove body is pressed, the electrode needle is ejected.

In the capture glove management system, the cut surface of the glove body comprises an inner layer, a shielding layer and a cutting-proof 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, the cutting-proof layer is used for seizing a knife in actual combat, the cutting-proof layer is made of Kevlar materials or made of high-strength high-modulus polyethylene fibers coated with glass fibers, spandex or steel wires, the cut surface of the glove body further comprises an outer layer arranged outside the cutting-proof layer, and gaps used for arranging the conductive cloth are arranged on the cutting-proof layer or on the outer layer.

The invention also relates to a monitoring method using the capture glove management system, which comprises the following steps:

A) opening a supervision APP installed on a mobile terminal, and calling a map through the supervision APP;

B) the user sets a preset using area and using time of the catching gloves on the control end;

C) the supervision APP sends an application for starting a capture function to the control end, and the capture function of the capture glove is started after the control end responds;

D) the satellite positioning module acquires the geographic position data of the capture gloves in real time and sends the geographic position data to the microprocessor, and the microprocessor judges whether the capture gloves are in the preset use area or not, if so, the step F is executed; otherwise, executing step E);

E) the microprocessor transmits an alarm signal and the geographic position data of the catching gloves to a supervision APP of the mobile terminal through a wireless transmission module to give an alarm, controls a power supply to close the catching function of the catching gloves, records the geographic position information of the catching gloves during each communication through the supervision APP by the mobile terminal, and shows the historical tracks of the catching gloves through point-to-point connection in a line on a map;

F) the capture state is kept and no alarm is generated.

In the monitoring method of the catching glove management system, after the step F), the method further includes:

G) a sampling circuit collects the resistance value of the object grabbed by the palm surface of the grabbing glove and sends the collected resistance value to the microprocessor, and step H) is executed;

H) the microprocessor judges whether the acquired resistance value is larger than a set value, if so, the step H) is executed; otherwise, executing step J);

I) after passing through the first booster circuit, the second booster circuit and the pulse output circuit in sequence, the current outputs high-voltage pulse currents of 2000-20000V, 0.25-3mA and 25-50Hz from the pulse output electrode;

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

The implementation of the catching glove management system and the monitoring method has the following beneficial effects: owing to be equipped with control end, mobile terminal and arrest gloves, arrest gloves and include gloves body and pulse output electrode, this internal power, microprocessor, pulse output circuit, satellite positioning module and the wireless transmission module of being equipped with of gloves, microprocessor includes pulse oscillation circuit and boost circuit, and when arresting gloves is outside the scope in predetermined use area, microprocessor conveys alarm signal and the geographical position data who arrest gloves supervision APP through wireless transmission module to the control power closes the function of arresting gloves, has just so realized the supervision to arresting gloves, consequently can supervise the use of arresting gloves, prevent the abuse of police strength, can carry out effective control to the criminal suspect.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic structural diagram of a system in an embodiment of a glove capture management system and a monitoring method according to the present invention;

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

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

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

fig. 5 is a flow chart of the supervision method in the embodiment.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the embodiment of the catching glove management system and the supervision method, the structural schematic diagram of the catching glove management system is shown in fig. 1. In fig. 1, the capture glove management system comprises a control end 1, a mobile terminal 2 and a capture glove 3, wherein a supervision APP is installed on the mobile terminal 2, a map can be called through the supervision APP, the control end 1 is also internally embedded with the map, a preset use area and use time of the capture glove are set through the control end 1, the mobile terminal 2 sends or submits an application for starting a capture function to the control end 1 through the supervision APP, and the capture function of the capture glove 3 can be started after a response of the control end 1 is received. It is worth mentioning that the mobile terminal 2 may be a smart phone, a tablet computer or a PDA, etc.

In this embodiment, the capture glove 3 includes a glove body 31 and a pulse output electrode 32, the pulse output electrode 32 covers the palm surface of the glove body 31, fig. 2 is a schematic diagram of the palm surface of the capture glove in this embodiment, and it can be seen from fig. 2 that the pulse output electrode 32 covers the palm surface of the glove body 31. The pulse output electrodes 32 may be distributed in an upper-lower manner, or may be distributed in left and right sides, and the like, and are arranged in parallel to cover the palm surface of the glove body 31.

Wherein, be equipped with power 33, microprocessor 34, pulse output circuit 35, satellite positioning module 36 and wireless transmission module 37 in the gloves body 31, microprocessor 34 includes pulse oscillator circuit 341 and boost circuit 342, and the electric current of power 33 output passes through pulse oscillator circuit 341 and boost circuit 342 in proper order and converts the pulse current of setting for size into, and pulse output electrode 32 passes through pulse output circuit 35 and is connected with boost circuit 342. It is worth mentioning that the pulse current with the set magnitude is 300-400V, 10-35mA, 25-35 Hz.

In this embodiment, the satellite positioning module 36 acquires the geographic position data of the capture glove 3 in real time and sends the geographic position data to the microprocessor 34, the microprocessor 34 receives the predetermined use area information sent by the wireless transmission module 37 and decodes the predetermined use area information to obtain the predetermined supervision area data, the microprocessor 34 compares the geographic position data of the capture glove 3 with the predetermined supervision area data, when the capture glove 3 is within the range of the predetermined use area, the microprocessor does not act, when the capture glove 3 is outside the range of the predetermined use area, the microprocessor 34 transmits the alarm signal and the geographic position data of the capture glove 3 to the supervision APP of the mobile terminal 2 through the wireless transmission module 37 and controls the power supply 33 to be turned off, so that the capture function of the capture glove 3 is turned off, the mobile terminal 2 records the geographic position data of the capture glove 3 during each communication through the supervision APP, and the historical track of the catching glove 3 is shown on the map by a dot-and-dash line. Therefore, the monitoring function of the catching gloves 3 is realized, so that the using process of the catching gloves 3 can be monitored, the misuse of police force is prevented, and criminal suspects can be effectively controlled.

It should be noted that the wireless transmission module 37 may be a bluetooth module, an infrared module, a WIFI module, a GPRS module, a zibge module, a CDMA module, a WCDMA module, or a LoRa module. For the GPRS module, the GPRS module may be a 2G module, a 3G module, or a 4G module, etc. Through setting up multiple wireless communication mode, can satisfy different users' demand, increase the flexibility of communication. Especially, when adopting LoRa module, its distance of transmission is far away and communication is comparatively stable.

In this embodiment, the microprocessor 34 further includes a first timer (not shown) for recording the on-time or off-time of the capture function.

In this embodiment, the pulse output circuit 35 includes a first output terminal 351 and a second output terminal 352, a second timer 38 is further disposed in the glove body 31, and the second timer 38 is disposed between the first output terminal 351 and the second output terminal 352 and is used for recording the communication duration of the catching glove 3 during catching. That is, the duration of the pulse released by the criminal suspect is grasped, and the amount of charge and the time received by the criminal suspect can be calculated through the output power. In addition, the communication time period at the time of capture is recorded by the second timer 38, and can also be compared with a predetermined use time.

In this embodiment, the pulse current is output through the first output terminal 351 and the second output terminal 352, the pulse output electrode 32 is connected to the first output terminal 351 and the second output terminal 352, the voltage boost circuit 342 includes a first voltage boost circuit 343, a second voltage boost circuit 344 and a change-over switch K, wherein the change-over switch K includes a movable terminal, a first immovable terminal, a second immovable terminal and a third immovable terminal, the change-over switch K is a single-pole multi-throw switch, and the change-over switch K may adopt a rotary switch mode or a toggle switch mode. One end of the first boost circuit 343 is connected to the pulse oscillator circuit 341, the other end of the first boost circuit 343 is connected to the active end, the first inactive end is grounded, the second inactive end is connected to the first output terminal 351 and the second output terminal 352, respectively, the third inactive end is connected to one end of the second boost circuit 344, and the other end of the second boost circuit 344 is connected to the first output terminal 351 and the second output terminal 352, respectively. When change over switch K switches the motionless end of second, for the low pressure scheme, when change over switch K switches the motionless end of third, for the high pressure scheme, through gathering high pressure scheme and low pressure scheme in same gloves, when the weather is hot or criminal suspect's health skin exposes more, arrest with the low pressure scheme, it is safe high-efficient, when criminal suspect dresses more, with the high pressure scheme, efficiency is higher, the clothes can be punctured to the electric current, consequently, can carry out effective control to criminal suspect.

Specifically, when the switch K is switched to the first stationary end, the capture glove 3 is in a closed state, and when the switch K is switched to the second stationary end, the pulse output electrode 32 outputs low-voltage pulse currents with pulse parameter ranges of 320-; when the switch K is switched to the third stationary terminal, the pulse output electrode 32 outputs a high-voltage pulse current with pulse parameters ranging from 2000-.

It should be noted that, in some cases of the present embodiment, the switch K may further include more fixed terminals, and at this time, the switch becomes a single-pole four-throw switch, a single-pole five-throw switch, a single-pole six-throw switch, and the like, and the corresponding voltage boost circuits 342 may also be provided in plurality, that is, the voltage boost circuits 342 may further include a third voltage boost circuit, a fourth voltage boost circuit, and the like, so as to be suitable for different clothes.

Fig. 3 is another schematic diagram of the palm surface of the capture glove in this embodiment, a sampling circuit 39 is further disposed in the glove body 31, a sampling terminal 40 is disposed on the palm surface of the glove body 31, the sampling circuit 40 is respectively connected to the microprocessor 34 and the sampling terminal 40 and is used for measuring the resistance value of the object grasped by the palm surface of the glove body 31, and when the measured resistance value is greater than 2000 ohms, the pulse output circuit 35 outputs 2000 + 20000V, 0.25-3mA and 25-50Hz currents through the first voltage boost circuit 343 and the second voltage boost circuit 344. When the measured resistance value is less than or equal to 2000 ohms, the pulse output circuit 35 outputs currents of 320-380V, 15-30mA and 25-30Hz through the first voltage boosting circuit 343, the first output terminal 351, the second output terminal 352 and the pulse output electrode 32.

Fig. 4 is a schematic view of the back of the catching glove in this embodiment, the back of the glove body 31 is provided with a protrusion 5, and the protrusion 5 is used for preventing cutting and strengthening attack force. The projection 5 is specifically provided at the position of each finger on the back surface of the glove body 31. The material of the protrusion 5 can be glass fiber, ABS, PC or carbon fiber.

Preferably, the pulse output electrode 32 is attached to the palm surface of the glove body 31 by using a conductive cloth, or an elastic electrode needle may be hidden in the palm surface of the glove body 31, and the electrode needle is ejected when the palm surface is pressed.

In this embodiment, the tangent plane of gloves body 31 includes inlayer, shielding layer and the anti-cutting layer (not shown in the figure) of arranging from interior to exterior in proper order, and wherein, the inlayer is used for laminating the person of wearing the hand, and the shielding layer is used for preventing that the electric current from accidentally injuring the person of wearing, and the anti-cutting layer is used for the actual combat and takes the sword. The anti-cutting layer is made of Kevlar materials or made of high-strength high-modulus polyethylene fibers coated with glass fibers, spandex or steel wires, and is provided with a notch for arranging conductive cloth. Of course, an outer layer may be further disposed outside the cut-preventing layer, that is, the cut surface of the glove body 31 further includes an outer layer disposed outside the cut-preventing layer, and a notch is disposed on the outer layer and used for disposing the conductive cloth.

The embodiment also relates to a supervision method using the catching glove management system, and a flow chart of the supervision method is shown in fig. 5. In fig. 5, the supervision method using the catching glove management system includes the following steps:

step S01, opening a supervision APP installed on the mobile terminal, calling a map through the supervision APP: in the step, a supervision APP installed on the mobile terminal is opened, and the map is called through the supervision APP.

Step S02 the user sets the predetermined usage area and usage time of the catching glove on the control end: in this step, the user sets a predetermined use area and use time of the mitten on the control terminal.

Step S03, the supervision APP sends an application for starting the capture function to the control end, and the capture function of the capture glove is started after the response of the control end is received: in this step, supervision APP sends the application of opening the capture function to the control end in a wireless mode, the control end can give a response after receiving the application of opening the capture function, and when the supervision APP receives the response of the control end, the capture function of the capture glove is opened.

Step S04, the satellite positioning module acquires the geographic position data of the capture gloves in real time and sends the geographic position data to the microprocessor, and the microprocessor judges whether the capture gloves are in a preset use area: in the step, the satellite positioning module acquires the geographic position data of the capture gloves in real time and sends the geographic position data to the microprocessor, the microprocessor judges whether the positions of the capture gloves are in a preset use area, and if the judgment result is yes, the step S06 is executed; otherwise, step S05 is executed.

Step S05 microprocessor transmits alarm signal and arresting glove geographical position data to mobile terminal supervision APP through wireless transmission module to give alarm, and controls power to close arresting glove arresting function, mobile terminal records arresting glove geographical position information during each communication through supervision APP, and represents arresting glove history track through point-to-point line on map: in the step, the microprocessor transmits the alarm signal and the geographic position data of the capture gloves to the supervision APP of the mobile terminal through the wireless transmission module to give an alarm so as to remind a user, and then controls the power supply to be turned off, so that the capture function of the capture gloves can be turned off.

Step S06 remains in the capture state, no alarm occurs: if the judgment result of the above step S04 is yes, the present step is executed. In this step, the capture state is maintained, and no alarm is generated. Therefore, the monitoring of the arresting gloves is realized, the using process of the arresting gloves can be monitored, the abuse of police force is prevented, and criminal suspects can be effectively controlled.

In this embodiment, after the step S06 is completed, the following steps may be further performed:

step S07 the sampling circuit collects the resistance value of the object grasped by the palm surface of the grasping glove and sends the collected resistance value to the microprocessor: in this step, the sampling circuit collects the resistance value of the object grasped by the palm surface of the grasping glove, and sends the collected resistance value to the microprocessor. After the present step is executed, step S08 is executed.

Step S08 the microprocessor judges whether the acquired resistance value is greater than a set value: in this step, the microprocessor judges whether the acquired resistance value is greater than a set value, and if the judgment result is yes, step S10 is executed; otherwise, step S09 is executed.

Step S09 the current passes through the first voltage boost circuit and the pulse output circuit in sequence and then outputs 320-380V, 15-30mA, 25-30Hz low voltage pulse current from the pulse output electrode: if the judgment result of the above step S08 is no, the present step is executed. In this step, after the current passes through the first voltage boost circuit and the pulse output circuit in sequence, the low-voltage pulse current of 320-380V, 15-30mA and 25-30Hz is output from the pulse output electrode.

The current in step S10 sequentially passes through the first voltage boosting circuit, the second voltage boosting circuit and the pulse output circuit, and then the high-voltage pulse currents of 2000-: if the judgment result of the above step S08 is yes, the present step is executed. In this step, the current sequentially passes through the first voltage boost circuit, the second voltage boost circuit and the pulse output circuit, and then the high-voltage pulse current of 2000-. The high-voltage scheme and the low-voltage scheme are integrated in the same glove, so that the misuse of police force is prevented, and the criminal suspect can be effectively controlled.

In a word, the invention can switch between the low-voltage scheme and the high-voltage scheme by switching the switch K, the high-voltage scheme and the low-voltage scheme are integrated in the same glove, when the weather is hot or the body skin of the criminal suspect is exposed to a large extent, the low-voltage scheme is used for catching, the safety and the high efficiency are realized, when the criminal suspect wears more, the high-voltage scheme is used, the efficiency is higher, the current can puncture clothes, so that the criminal suspect can be effectively controlled, when the catching glove 3 is out of the range of the preset use area, the microprocessor 34 transmits the alarm signal and the geographic position data of the catching glove 3 to the monitoring APP through the wireless transmission module 37, and controls the power supply 33 to close the catching function of the catching glove 3, so that the monitoring of the catching glove 3 is realized, the use process of the catching glove 3 can be monitored, and the abuse of police force can be prevented, Can effectively control the criminal suspect.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (10)

1. A capture glove management system is characterized by comprising a control end, a mobile terminal and capture gloves, wherein a supervision APP capable of calling a map is installed on the mobile terminal, the control end is embedded with the map, a preset use area and use time of the capture gloves are set through the control end, the mobile terminal sends an application for starting a capture function to the control end through the supervision APP, and the capture function of the capture gloves is started after a response of the control end is received;

the catching gloves comprise glove bodies and pulse output electrodes covering the palm surfaces of the glove bodies, wherein power supplies, microprocessors, pulse output circuits, satellite positioning modules and wireless transmission modules are arranged in the glove bodies, the microprocessors comprise pulse oscillation circuits and booster circuits, currents output by the power supplies are sequentially converted into pulse currents with set sizes through the pulse oscillation circuits and the booster circuits, and the pulse output electrodes are connected with the booster circuits through the pulse output circuits;

the satellite positioning module acquires geographical position data of the capture gloves in real time and sends the geographical position data to the microprocessor, the microprocessor receives preset using area information sent by the wireless transmission module and decodes the preset using area information to obtain preset supervision area data, the microprocessor compares the geographical position data of the capture gloves with the preset supervision area data, when the capture gloves are in the range of the preset using area, no action is performed, when the capture gloves are out of the range of the preset using area, the microprocessor transmits an alarm signal and the geographical position data of the capture gloves to the supervision APP through the wireless transmission module and controls the power supply to close the capture function of the capture gloves, and the mobile terminal records the geographical position information of the capture gloves during each communication through the supervision APP, and the historical track of the catching gloves is shown on a map through a point-to-point line.

2. The catching glove management system as claimed in claim 1 wherein the microprocessor further incorporates a first timer for recording the catching function on time or off time.

3. The catching glove management system as claimed in claim 2 wherein the pulse output circuit comprises a first output and a second output, and a second timer is further provided within the glove body, the second timer being provided between the first output and the second output for recording the length of time the catching glove is engaged during catching.

4. The capture glove management system according to any one of claims 1 to 3, wherein a sampling circuit is further arranged in the glove body, a sampling end point is arranged on the palm surface of the glove body, and the sampling circuit is respectively connected with the microprocessor and the sampling end point and is used for measuring the resistance value of the object captured by the palm surface of the glove body.

5. The catching glove management system of claim 3 wherein the pulsed electrical current is output through the first and second outputs, the pulse output electrode is respectively connected with the first output end and the second output end, the booster circuit comprises a first booster circuit, a second booster circuit and a change-over switch, the change-over switch comprises a movable end, a first fixed end, a second fixed end and a third fixed end, one end of the first booster circuit is connected with the pulse oscillation circuit, the other end of the first booster circuit is connected with the movable end, the first immovable end is grounded, the second immovable end is respectively connected with the first output end and the second output end, the third fixed end is connected with one end of the second booster circuit, and the other end of the second booster circuit is respectively connected with the first output end and the second output end; when the change-over switch is switched to the first immovable end, the catching glove is in a closed state, when the change-over switch is switched to the second immovable end, the pulse output electrode outputs low-voltage pulse currents with pulse parameter ranges of 320-.

6. The catching glove management system according to any one of claims 1 to 3, wherein the back of the glove body is provided with a protrusion for preventing knife cutting and reinforcing attack force, and the protrusion is made of glass fiber, ABS, PC or carbon fiber.

7. The catching glove management system as claimed in any one of claims 1 to 3, wherein the pulse output electrode is attached to the palm surface of the glove body by using a conductive cloth, or is hidden in the palm surface of the glove body by using an elastic electrode needle, and when the palm surface of the glove body is pressed, the electrode needle is ejected.

8. The capture glove management system of claim 7, wherein the cut surface of the glove body comprises an inner layer for fitting the hand of the wearer, a shielding layer for preventing current from accidentally injuring the wearer and a cut-preventing layer for actually grabbing a knife, which are sequentially arranged from inside to outside, the cut-preventing layer is made of Kevlar material or made of high-strength high-modulus polyethylene fiber coated glass fiber, spandex or steel wire, the cut surface of the glove body further comprises an outer layer arranged outside the cut-preventing layer, and a notch for arranging the conductive cloth is arranged on the cut-preventing layer or on the outer layer.

9. A method of supervision using the catching glove management system of claim 1, comprising the steps of:

A) opening a supervision APP installed on a mobile terminal, and calling a map through the supervision APP;

B) the user sets a preset using area and using time of the catching gloves on the control end;

C) the supervision APP sends an application for starting a capture function to the control end, and the capture function of the capture glove is started after the control end responds;

D) the satellite positioning module acquires the geographic position data of the capture gloves in real time and sends the geographic position data to the microprocessor, and the microprocessor judges whether the capture gloves are in the preset use area or not, if so, the step F is executed; otherwise, executing step E);

E) the microprocessor transmits an alarm signal and the geographic position data of the catching gloves to a supervision APP of the mobile terminal through a wireless transmission module to give an alarm, controls a power supply to close the catching function of the catching gloves, records the geographic position information of the catching gloves during each communication through the supervision APP by the mobile terminal, and shows the historical tracks of the catching gloves through point-to-point connection in a line on a map;

F) the capture state is kept and no alarm is generated.

10. The method of supervising a catching glove management system according to claim 9, further comprising after said step F):

G) a sampling circuit collects the resistance value of the object grabbed by the palm surface of the grabbing glove and sends the collected resistance value to the microprocessor, and step H) is executed;

H) the microprocessor judges whether the acquired resistance value is larger than a set value, if so, the step I) is executed; otherwise, executing step J);

I) after passing through the first booster circuit, the second booster circuit and the pulse output circuit in sequence, the current outputs high-voltage pulse currents of 2000-20000V, 0.25-3mA and 25-50Hz from the pulse output electrode;

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

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