WO2019023826A1 - Catching glove management system and supervision method - Google Patents

Abstract

Provided are a catching glove management system and a supervision method. The system comprises a control end (1), a mobile terminal (2) and a catching glove (3). The mobile terminal (2) is installed with a supervision APP that can retrieve a map, and the map is embedded in the control end. The catching glove comprises a glove body (31) and a pulse output electrode (32). The glove body (31) is provided with a power source (33), 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 oscillating circuit (341) and a boosting circuit (342), and the pulse output circuit (35) comprises a first output (351) and a second output (352). The current output by the power source (33) is converted into a pulse current of a set amount by the pulse oscillating circuit (341) and the boosting circuit (342) sequentially. The pulse output electrode (32) is connected to the boosting circuit (342) through the pulse output circuit (35). When the catching glove is outside an intended using area, the control power supply closes the catching function of the catching glove. The device can supervise the use of the glove, prevent the abuse of the police force, and effectively control the suspect.

Description

抓捕手套管理***及监管方法  Catching glove management system and supervision method 抓捕手套管理***及监管方法  Catching glove management system and supervision method

技术领 域 Technical field

本发明涉及抓捕手套管理领域，特别涉及一种抓捕手套管理***及监管方法。 The invention relates to the field of catching gloves management, in particular to a catching glove management system and a supervision method.

背景技术 Background technique

目前，擒拿和防卫犯罪嫌疑人主要靠人民警察用双手完成，手持刀枪棍棒，固然对犯罪嫌疑人有威摄作用，但手中的武器比较显眼，不便隐蔽接敌，甚至被敌夺下，为敌所用加害于己。且平时保管麻烦，携带不便。授权公告号为 CN 2358706 Y 的实用新型专利文件中提出了一种警用防暴电击手套，其主要技术方案是在手套上采用高压电击方式来满足警察执行公务的需要，但是缺点是高压放电对人体皮肤具有烧伤作用，其输出电压为几万伏，而如此的高压对人体的心脏和中枢神经会造成一定伤害，对有心脏病的人使用高压电击手套会造成心室颤动，严重者会出现心脏停止跳动。 At present, the suspects of arresting and defending crimes are mainly completed by the people's police with both hands, holding swords and sticks, although they have a deterrent effect on the criminal suspects, but the weapons in their hands are more conspicuous, and it is inconvenient to conceal the enemy and even be captured by the enemy. It is used to harm others. And usually keep troubles and carry them inconveniently. The authorization notice number is CN 2358706 Y The utility model patent file proposes a police riot-proof electric shock glove. The main technical solution is to use high-voltage electric shock on the glove to meet the needs of the police to perform official duties, but the disadvantage is that the high-pressure discharge has a burn effect on human skin, and its output is The voltage is tens of thousands of volts, and such high pressure can cause certain damage to the heart and central nervous system of the human body. The use of high-voltage electric shock gloves for people with heart disease can cause ventricular fibrillation, and in severe cases, the heart will stop beating.

公开号为 CN 102778173A 的中国发明专利公开了一种警用擒拿抓捕手套，包括绝缘的外套、第一接触电极、第二接触电极及人体感应低压脉冲发生器，该外套包括手掌面，该第一接触电极及该第二接触电极相互绝缘地设置于该手掌面，该人体感应低压脉冲发生器包括第一输出电极及第二输出电极，该第一输出电极与该第一接触电极电连接，该第二输出电极与该第二接触电极电连接，当该第一接触电极与该第二接触电极导通时，该人体感应低压脉冲发生器通过该第一输出电极与该第二输出电极输出电流。 The publication number is CN 102778173A The Chinese invention patent discloses a police grab glove, comprising an insulated jacket, a first contact electrode, a second contact electrode and a human body induction low voltage pulse generator, the jacket comprising a palm surface, the first contact electrode and the The second contact electrodes are disposed in the palm surface of the palm. 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, and the second output electrode is electrically connected. The second contact electrode is electrically connected to the second contact electrode, and when the first contact electrode is electrically connected to the second contact electrode, the human body induction low voltage pulse generator outputs a current through the first output electrode and the second output electrode.

公开号为 CN 105146813A 的发明专利申请中公开了一种智能抓捕手套，它是由手套本体（ 1 ）、掌心电击脉冲导电体（ 2 ）、手指电击脉冲导电体（ 3 ）、挂圈（ 4 ）、连接扣（ 5 ）、粘带（ 6 ）、开关（ 7 ）、电池（ 8 ）、手背打击壳（ 9 ）、手指打击壳（ 10 ）、拇指击片（ 11 ）连接而成，其特征是：在手指套的顶端连接着两个挂圈（ 4 ）；在手套本体（ 1 ）的底端一侧连接着连接扣（ 5 ）；手套本体（ 1 ）的底端另一侧连接着粘带（ 6 ）；在电线上连接着模块，模块由线路与掌心电击脉冲导电体、手指电击脉冲导电体连接；在手套本体（ 1 ）的掌心处由皮垫固定着掌心电击脉冲导电体（ 2 ），在四个手指的根处由皮垫固定着手指电击脉冲导电体（ 3 ），在手套拇指的背面固定着拇指击片（ 11 ）；在手套本体（ 1 ）的背面中间固定着手背打击壳（ 9 ），手背打击壳（ 9 ）为四指关节***状，手套本体（ 1 ）的背面上端固定着手指打击壳（ 10 ），手指打击壳（ 10 ）为桃形***状；在手套本体（ 1 ）的背面手背打击壳（ 9 ）的下边一侧固定着开关（ 7 ），在手套本体（ 1 ）背面的手背打击壳（ 9 ）下边固定着电池（ 8 ）；开关（ 7 ）与电池（ 8 ）由电线连接，在电线上连接着模块，模块由线路与掌心电击脉冲导电体（ 2 ）、手指电击脉冲导电体（ 3 ）连接。 An intelligent capture glove is disclosed in the invention patent application with the publication number of CN 105146813A, which is composed of a glove body (1 ), palm electric shock pulse conductor (2), finger electric shock pulse conductor (3), hanging ring (4), connecting buckle (5), adhesive tape (6), switch (7), battery (8), back of the hand shell( 9), the finger striking shell (10) and the thumb striking piece (11) are connected, and are characterized in that: two hanging loops (4) are connected at the top end of the finger sleeve; on the bottom side of the glove body (1) Connected to the connection buckle ( 5); the other end of the glove body (1) is connected with a tape (6) on the other side; a module is connected to the wire, and the module is connected by a line with a palm electric shock pulse conductor and a finger electric shock pulse conductor; 1 The palm of the palm is fixed with the palm electric shock pulse conductor (2), and the finger electric shock pulse conductor (3) is fixed by the leather pad at the root of the four fingers, and the thumb piece is fixed on the back of the glove thumb ( 11 a hand-back shell (9) is fixed in the middle of the back of the glove body (1), and the back-back shell (9) is a four-finger joint bulging shape, and the upper end of the glove body (1) is fixed with a finger-impact shell (10) ), the finger striking shell (10) is a peach-shaped bulge; a switch (7) is fixed on the lower side of the back of the glove body (1) on the back side of the shell (9), and the back of the glove body (1) is struck against the shell. ( 9) The battery (8) is fixed underneath; the switch (7) and the battery (8) are connected by wires, and the module is connected to the wire, and the module is electrically connected to the pulse electric conductor (2) and the finger electric shock pulse conductor (2) 3) Connect.

上述各种抓捕手套，都在一定程度上解决了现有技术中电击手套伤人的问题，但是这种方式依旧具有下列问题：抓捕手套作为一种警用执法装备，在使用过程中没有受到监管，明显在监管方面存在空白，这可能导致警力的滥用，另外，对于非裸露皮肤的部分无法进行有效控制。 All of the above-mentioned arresting gloves have solved the problem of electric shock gloves in the prior art to some extent, but this method still has the following problems: the catching gloves are used as a police law enforcement equipment, and there is no use during use. Being regulated, there is a clear gap in regulation, which may lead to the abuse of police force. In addition, the part of non-naked skin cannot be effectively controlled.

发明内容 Summary of the invention

本发明要解决的技术问题在于，针对现有技术的上述缺陷，提供一种能对抓捕手套的使用过程进行监管、防止警力的滥用、能对犯罪嫌疑人进行有效控制的抓捕手套管理***及监管方法。 The technical problem to be solved by the present invention is to provide a catching glove management system capable of supervising the use process of the glove, preventing the abuse of the police force, and effectively controlling the suspect for the above-mentioned defects of the prior art. And regulatory methods.

本发明解决其技术问题所采用的技术方案是：构造一种抓捕手套管理***，包括控制端、移动终端和抓捕手套，所述移动终端上安装有能调取地图的监管 APP ，所述控制端内嵌设有地图，通过所述控制端设定所述抓捕手套的预定使用区域和使用时间，所述移动终端通过所述监管 APP 向所述控制端发送开启抓捕功能的申请，并在收到所述控制端的应答后开启所述抓捕手套的抓捕功能； The technical solution adopted by the present invention to solve the technical problem is: constructing a catching glove management system, comprising a control end, a mobile terminal and a catching glove, wherein the mobile terminal is equipped with a supervision APP capable of acquiring a map a map is embedded in the control end, and a predetermined use area and a use time of the capture glove are set by the control end, and the mobile terminal passes the supervision APP Sending an application for opening the capture function to the control terminal, and after receiving the response from the control terminal, opening the capture function of the capture glove;

所述抓捕手套包括手套本体以及覆盖在所述手套本体的手掌面上的脉冲输出电极，所述手套本体内设有电源、微处理器、脉冲输出电路、卫星定位模块和无线传输模块，所述微处理器包括脉冲震荡电路和升压电路，所述电源输出的电流依次经所述脉冲震荡电路和升压电路转换为设定大小的脉冲电流，所述脉冲输出电极通过所述脉冲输出电路与所述升压电路连接； The catching glove comprises a glove body and a pulse output electrode covering the palm surface of the glove body, wherein the glove body is provided with a power source, a microprocessor, a pulse output circuit, a satellite positioning module and a wireless transmission module. The microprocessor includes a pulse oscillating circuit and a boosting circuit, and the current outputted by the power source is sequentially converted into a pulse current of a set size by the pulse oscillating circuit and the boosting circuit, and the pulse output electrode passes through the pulse output circuit Connected to the booster circuit;

所述卫星定位模块实时获取所述抓捕手套的地理位置数据并将其发送到所述微处理器，所述微处理器收到所述无线传输模块发送的预定使用区域信息并对其解码后得到预定监管区域数据，所述微处理器将所述抓捕手套的地理位置数据与所述预定监管区域数据进行比较，当所述抓捕手套处于所述预定使用区域的范围内时，则无动作，当所述抓捕手套处于所述预定使用区域的范围外时，所述微处理器将报警信号和所述抓捕手套的地理位置数据通过所述无线传输模块传送到所述监管 APP ，并控制所述电源关闭所述抓捕手套的抓捕功能，所述移动终端通过所述监管 APP 记录每一次通信时的所述抓捕手套的地理位置信息，并在地图上通过点连呈线表示所述抓捕手套的历史轨迹。 The satellite positioning module acquires the geographical location data of the capture glove and sends it to the microprocessor in real time, and the microprocessor receives the predetermined usage area information sent by the wireless transmission module and decodes the information. Obtaining predetermined regulatory area data, the microprocessor comparing the geographic location data of the capture glove with the predetermined regulatory area data, and when the capture glove is within the range of the predetermined use area, Acting, when the catching glove is outside the range of the predetermined use area, the microprocessor transmits an alarm signal and geographic location data of the capture glove to the supervision through the wireless transmission module APP, and controlling the power to turn off the capture function of the capture glove, the mobile terminal passing the supervision APP The geographical location information of the capture glove at each communication is recorded, and the historical trajectory of the capture glove is indicated by a dotted line on the map.

在本发明所述的抓捕手套管理***中，所述微处理器还内置有用于记录抓捕功能开启时间或关闭时间的第一计时器。 In the grasping glove management system of the present invention, the microprocessor further has a first timer for recording the capture function on time or the off time.

在本发明所述的抓捕手套管理***中，所述脉冲输出电路包括第一输出端和第二输出端，所述手套本体内还设有第二计时器，所述第二计时器设置在所述第一输出端和第二输出端之间、用于记录所述抓捕手套在抓捕时连通的时长。 In the grasping glove management system of the present invention, the pulse output circuit includes a first output end and a second output end, and the glove body is further provided with a second timer, and the second timer is disposed at Between the first output end and the second output end, for recording the length of time that the catching glove communicates during catching.

在本发明所述的抓捕手套管理***中，所述手套本体内还设有采样电路，所述手套本体的手掌面上设有采样端点，所述采样电路分别与所述微处理器和采样端点连接、用于测量所述手套本体的手掌面所抓取物的电阻值。 In the grasping glove management system of the present invention, the glove body is further provided with a sampling circuit, 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 The end point is connected to measure the resistance value of the grip of the palm surface of the glove body.

在本发明所述的抓捕手套管理***中，所述脉冲电流通过所述第一输出端和第二输出端输出，所述脉冲输出电极分别与所述第一输出端和第二输出端连接，所述升压电路包括第一升压电路、第二升压电路和切换开关，所述切换开关包括动端、第一不动端、第二不动端和第三不动端，所述第一升压电路的一端与所述脉冲震荡电路连接，所述第一升压电路的另一端与所述动端连接，所述第一不动端接地，所述第二不动端分别与所述第一输出端和第二输出端连接，所述第三不动端与所述第二升压电路的一端连接，所述第二升压电路的另一端分别与所述第一输出端和第二输出端连接；当所述切换开关切换到所述第一不动端时，所述抓捕手套处于关闭状态，当所述切换开关切换到所述第二不动端时，所述脉冲输出电极输出脉冲参数范围为 320-380V 、 15-30mA 、 25-30Hz 的低压脉冲电流，当所述切换开关切换到所述第三不动端时，所述脉冲输出电极输出脉冲参数范围为 2000-20000V 、 0.25-3mA 、 25-50Hz 的高压脉冲电流。 In the grasping glove management system of the present invention, the pulse current is output through the first output end and the second output end, and the pulse output electrodes are respectively connected to the first output end and the second output end The boosting circuit includes a first boosting circuit, a second boosting circuit, and a changeover switch, and the switch includes a movable end, a first fixed end, a second fixed end, and a third fixed end, One end of the first boosting circuit is connected to the pulse oscillating circuit, the other end of the first boosting circuit is connected to the moving end, the first fixed end is grounded, and the second fixed end is respectively The first output end is connected to the second output end, the third fixed end is connected to one end of the second boosting circuit, and the other end of the second boosting circuit is respectively connected to the first output end Connected to the second output end; when the switch is switched to the first fixed end, the catching glove is in a closed state, when the switch is switched to the second fixed end, the Pulse output electrode output pulse parameter range is 320-380V, 15-30mA, 25-30Hz low-voltage pulse current, when the switch is switched to the third fixed end, the pulse output electrode output pulse parameter range is High-voltage pulse current of 2000-20000V, 0.25-3mA, 25-50Hz.

在本发明所述的抓捕手套管理***中，所述手套本体的背面设置有用于防刀砍并加强攻击力的凸起，所述凸起采用的材质为玻纤、 ABS 、 PC 或碳纤维。 In the grasping glove management system of the present invention, the back surface of the glove body is provided with a protrusion for preventing knife cutting and strengthening the attacking force, and the protrusion is made of glass fiber, ABS, PC or carbon fiber.

在本发明所述的抓捕手套管理***中，所述脉冲输出电极采用导电布贴合于所述手套本体的手掌面上，或者采用带弹性的电极针暗藏于所述手套本体的手掌面内，当所述手套本体的手掌面受到压力时，所述电极针弹出。 In the grasping glove management system of the present invention, 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. When the palm surface of the glove body is under pressure, the electrode needle is ejected.

在本发明所述的抓捕手套管理***中，所述手套本体的切面包括从内至外依次排布的用于贴合佩戴者手部的内层、用于防止电流误伤佩戴者的屏蔽层以及用于实战夺刀的防割层，所述防割层采用的材质为凯夫拉材质或采用高强高模聚乙烯纤维包覆玻纤、 氨纶 或 钢丝 ，所述手套本体的切面还包括设置在所述防割层外的外层，在所述防割层上或在所述外层上设有用于设置所述导电布的缺口。 In the grasping glove management system of the present invention, the cutting surface of the glove body includes an inner layer arranged in order from the inside to the outside for fitting the wearer's hand, and a shield for preventing current from accidentally injuring the wearer. And a cut-proof layer for actual combating the knife, the cut-proof layer is made of Kevlar material or coated with high-strength high-modulus polyethylene fiber, The spandex or the steel wire, the cut surface of the glove body further includes an outer layer disposed outside the cut resistant layer, and a notch for providing the conductive cloth is disposed on the cut resistant layer or on the outer layer.

本发明还涉及一种利用上述抓捕手套管理***的监管方法，包括如下步骤： The invention also relates to a method for supervising the use of the above-mentioned grasping glove management system, comprising the following steps:

A ）打开移动终端上安装的监管 APP ，通过所述监管 APP 调用地图； A) opening a supervising APP installed on the mobile terminal, and calling the map through the supervising APP;

B ）用户在所述控制端上设定抓捕手套的预定使用区域和使用时间； B) the user sets a predetermined use area and a use time of the catching glove on the control end;

C ）所述监管 APP 向所述控制端发送开启抓捕功能的申请，并在收到所述控制端的应答后开启所述抓捕手套的抓捕功能； C) the regulatory APP Sending an application for opening the capture function to the control terminal, and after receiving the response from the control terminal, opening the capture function of the capture glove;

D ）卫星定位模块实时获取所述抓捕手套的地理位置数据并将其发送到所述微处理器，所述微处理器判断所述抓捕手套是否处于所述预定使用区域内，如是，执行步骤 F) ；否则，执行步骤 E ）； D The satellite positioning module acquires the geographic location data of the capture glove in real time and sends it to the microprocessor, and the microprocessor determines whether the capture glove is in the predetermined use area, and if so, performs steps F) Otherwise, perform step E);

E ）所述微处理器通过无线传输模块将报警信号和所述抓捕手套的地理位置数据传送到所述移动终端的监管 APP 给予警报，并控制电源关闭所述抓捕手套的抓捕功能，移动终端通过所述监管 APP 记录每一次通信时的所述抓捕手套的地理位置信息，并在地图上通过点连呈线表示所述抓捕手套的历史轨迹； E) the microprocessor transmits the alarm signal and the geographical location data of the capture glove to the regulatory APP of the mobile terminal through the wireless transmission module Giving an alarm and controlling the power to turn off the capture function of the capture glove, the mobile terminal passes the supervision APP Recording the geographical location information of the grasping glove at each communication, and indicating the historical trajectory of the grasping glove on the map by a dotted line;

F ）保持抓捕状态，不发生报警。 F) Keep the arrest state and no alarm will occur.

在本发明所述的抓捕手套管理***的监管方法中，在所述步骤 F ）之后还包括： In the method for supervising the glove management system of the present invention, after the step F), the method further includes:

G ）采样电路采集所述抓捕手套的手掌面所抓取物的电阻并将采集的电阻值发送到所述微处理器，执行步骤 H ）； G) sampling circuit collects the resistance of the grasped object of the palm of the grasping glove and sends the collected resistance value to the microprocessor, and performs step H );

H ）所述微处理器判断采集的电阻值是否大于设定值，如是，执行步骤 H ）；否则，执行步骤 J ）； H) the microprocessor determines whether the collected resistance value is greater than a set value, and if so, performs step H); otherwise, performs step J);

I ）电流依次经过第一升压电路、第二升压电路和脉冲输出电路后从脉冲输出电极输出 2000-20000V 、 0.25-3mA 、 25-50Hz 的高压脉冲电流； I) the current sequentially passes through the first boosting circuit, the second boosting circuit, and the pulse output circuit, and then outputs 2000-20000V from the pulse output electrode, 0.25-3mA, 25-50Hz high voltage pulse current;

J ）所述电流依次经过第一升压电路和脉冲输出电路后从所述脉冲输出电极输出 320-380V 、 15-30mA 、 25-30Hz 的低压脉冲电流。 J) the current is sequentially passed through the first boosting circuit and the pulse output circuit, and then outputted from the pulse output electrode by 320-380V, Low-voltage pulse current of 15-30mA and 25-30Hz.

实施本发明的抓捕手套管理***及监管方法，具有以下有益效果：由于设有控制端、移动终端和抓捕手套，抓捕手套包括手套本体以及脉冲输出电极，手套本体内设有电源、微处理器、脉冲输出电路、卫星定位模块和无线传输模块，所述微处理器包括脉冲震荡电路和升压电路，当抓捕手套处于预定使用区域的范围外时，微处理器将报警信号和抓捕手套的地理位置数据通过无线传输模块传送到监管 APP ，并控制电源关闭抓捕手套的抓捕功能，这样就实现了对抓捕手套的监管，因此能对抓捕手套的使用过程进行监管、防止警力的滥用、能对犯罪嫌疑人进行有效控制。 The implementation of the capture glove management system and the supervision method of the invention has the following beneficial effects: since the control end, the mobile terminal and the catching glove are provided, the catching glove comprises a glove body and a pulse output electrode, and the glove body is provided with a power source and a micro a processor, a pulse output circuit, a satellite positioning module and a wireless transmission module, the microprocessor comprising a pulse oscillating circuit and a boosting circuit, the microprocessor will alarm signal and grasp when the catching glove is outside the range of the predetermined use area Geographical data of the glove is transmitted to the supervisor through the wireless transmission module APP And control the power supply to close the catching function of the catching gloves, thus realizing the supervision of the catching gloves, so it can supervise the use of the catching gloves, prevent the abuse of the police force, and effectively control the criminal suspects.

附图说明 DRAWINGS

为了更清楚地说明本发明实施例或现有技术中的技术方案，下面将对实施例或现有技术描述中所需要使用的附图作简单地介绍，显而易见地，下面描述中的附图仅仅是本发明的一些实施例，对于本领域普通技术人员来讲，在不付出创造性劳动的前提下，还可以根据这些附图获得其他的附图。 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 embodiments or the description of the prior art will be briefly described below. Obviously, the drawings in the following description are only It is a certain embodiment of the present invention, and other drawings can be obtained from those skilled in the art without any creative work.

图 1 为本发明抓捕手套管理***及监管方法一个实施例中***的结构示意图； 1 is a schematic structural view of a system in an embodiment of a capture glove management system and a supervision method according to the present invention;

图 2 为所述实施例中抓捕手套的手掌面的一个示意图； Figure 2 is a schematic view of the palm surface of the glove in the embodiment;

图 3 为所述实施例中抓捕手套的手掌面的另一个示意图； Figure 3 is another schematic view of the palm surface of the glove in the embodiment;

图 4 为所述实施例中抓捕手套的背面的示意图； Figure 4 is a schematic view of the back side of the capture glove in the embodiment;

图 5 为所述实施例中监管方法的流程图。 Figure 5 is a flow chart of the supervision method in the embodiment.

具体实施方式 Detailed ways

下面将结合本发明实施例中的附图，对本发明实施例中的技术方案进行清楚、完整地描述，显然，所描述的实施例仅仅是本发明一部分实施例，而不是全部的实施例。基于本发明中的实施例，本领域普通技术人员在没有做出创造性劳动前提下所获得的所有其他实施例，都属于本发明保护的范围。 The technical solutions in the embodiments of the present invention are clearly and completely described in the following with reference to the accompanying drawings in the embodiments of the present invention. It is obvious that the described embodiments are only a part of the embodiments of the present invention, but not all embodiments. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments of the present invention without creative efforts are within the scope of the present invention.

在本发明抓捕手套管理***及监管方法实施例中，其抓捕手套管理***的结构示意图如图 1 所示。图 1 中，该抓捕手套管理***包括控制端 1 、移动终端 2 和抓捕手套 3 ，其中，移动终端 2 上安装有监管 APP ，通过监管 APP 可以调取地图，控制端 1 内同样也嵌设有地图，通过控制端 1 设定抓捕手套的预定使用区域和使用时间，移动终端 2 通过监管 APP 向控制端 1 发送或提交开启抓捕功能的申请，并在收到控制端 1 的应答后方能开启抓捕手套 3 的抓捕功能。值得一提的是，移动终端 2 可以是智能手机、平板电脑或 PDA 等。 In the embodiment of the grasping glove management system and the supervision method of the present invention, a schematic structural diagram of the grasping glove management system is shown in FIG. figure 1 The catching glove management system includes a control end 1 , a mobile terminal 2 and a catching glove 3 , wherein the mobile terminal 2 is provided with a supervising APP, and the map can be retrieved by supervising the APP, and the control end 1 A map is also embedded in the inside, and the predetermined use area and usage time of the grab glove are set by the control end 1 , and the mobile terminal 2 passes the supervision APP to the control end 1 Send or submit an application for the capture function, and after receiving the response from the console 1, the capture function of the capture glove 3 can be turned on. It is worth mentioning that the mobile terminal 2 can be a smartphone, a tablet or a PDA. Wait.

本实施例中，抓捕手套 3 包括手套本体 31 以及脉冲输出电极 32 ，脉冲输出电极 32 覆盖在手套本体 31 的手掌面上，图 2 为本实施例中抓捕手套的手掌面的一个示意图，从图 2 中可以看出脉冲输出电极 32 覆盖在手套本体 31 的手掌面上。脉冲输出电极 32 可以采用上下排布式，或者采用左右两侧排布式等平行排布方式覆盖在手套本体 31 的手掌面上。 In this embodiment, the catching glove 3 includes a glove body 31 and a pulse output electrode 32, and the pulse output electrode 32 covers the glove body. On the palm side of 31, Fig. 2 is a schematic view of the palm surface of the glove in the present embodiment. It can be seen from Fig. 2 that the pulse output electrode 32 covers the palm surface of the glove body 31. Pulse output electrode 32 It can be placed on the palm surface of the glove body 31 by using the upper and lower arrangement or the parallel arrangement of the left and right sides.

其中，手套本体 31 内设有电源 33 、微处理器 34 、脉冲输出电路 35 、卫星定位模块 36 和无线传输模块 37 ，微处理器 34 包括脉冲震荡电路 341 和升压电路 342 ，电源 33 输出的电流依次经脉冲震荡电路 341 和升压电路 342 转换为设定大小的脉冲电流，脉冲输出电极 32 通过脉冲输出电路 35 与升压电路 342 连接。值得一提的是，设定大小的脉冲电流为 300-400V 、 10-35mA 、 25-35Hz 的脉冲电流。 The glove body 31 is provided with a power source 33, a microprocessor 34, a pulse output circuit 35, and a satellite positioning module. And the wireless transmission module 37, the microprocessor 34 includes a pulse oscillating circuit 341 and a boosting circuit 342, and the current output from the power source 33 is sequentially passed through the pulse oscillating circuit 341 and the boosting circuit 342. The pulse output current is converted to a set pulse current, and the pulse output electrode 32 is connected to the booster circuit 342 via the pulse output circuit 35. It is worth mentioning that the set pulse current is 300-400V, 10-35mA, 25-35Hz pulse current.

本实施例中，卫星定位模块 36 实时获取抓捕手套 3 的地理位置数据并将其发送到微处理器 34 ，微处理器 34 收到无线传输模块 37 发送的预定使用区域信息，并对该预定使用区域信息解码后得到预定监管区域数据，微处理器 34 将抓捕手套 3 的地理位置数据与预定监管区域数据进行比较，当抓捕手套 3 处于预定使用区域的范围内时，则无动作，当抓捕手套 3 处于预定使用区域的范围外时，微处理器 34 将报警信号和抓捕手套 3 的地理位置数据通过无线传输模块 37 传送到移动终端 2 的监管 APP ，并控制电源 33 关闭，这样就关闭了抓捕手套 3 的抓捕功能，移动终端 2 通过监管 APP 记录每一次通信时的抓捕手套 3 的地理位置信息，并在地图上通过点连呈线表示抓捕手套 3 的历史轨迹。这样就实现了对抓捕手套 3 的监管功能，因此能对抓捕手套 3 的使用过程进行监管、防止警力的滥用、能对犯罪嫌疑人进行有效控制。 In this embodiment, the satellite positioning module 36 acquires the geographical location data of the capture glove 3 in real time and sends it to the microprocessor 34, the microprocessor. 34 receiving the predetermined use area information sent by the wireless transmission module 37, and decoding the predetermined use area information to obtain predetermined supervision area data, and the microprocessor 34 will capture the glove 3 The geographical location data is compared with the predetermined regulatory area data, and when the catching glove 3 is within the range of the predetermined use area, there is no action, and when the catching glove 3 is outside the range of the predetermined use area, the microprocessor 34 The alarm signal and the geographical position data of the capture glove 3 are transmitted to the supervision APP of the mobile terminal 2 through the wireless transmission module 37, and the control power supply 33 is turned off, thus closing the capture glove 3 The capture function, the mobile terminal 2 records the geographical location information of the capture glove 3 in each communication by supervising the APP, and indicates the capture glove by a point on the map. Historical trajectory. In this way, the supervision function of the glove 3 is achieved, so that the use of the glove 3 can be supervised, the abuse of the police force can be prevented, and the suspect can be effectively controlled.

值得一提的是，上述无线传输模块 37 可以为蓝牙模块、红外模块、 WIFI 模块、 GPRS 模块、 Zibgee 模块、 CDMA 模块、 WCDMA 模块或 LoRa 模块等。对于 GPRS 模块来说， GPRS 模块可以是 2G 模块、 3G 模块或 4G 模块等。通过设置多种无线通信方式，可以满足不同用户的需求，增加通信的灵活性。尤其是采用 LoRa 模块时，其传输的距离较远且通信较为稳定。 It is worth mentioning that the above wireless transmission module 37 can be a Bluetooth module, an infrared module, a WIFI module, a GPRS module, Zibgee module, CDMA module, WCDMA module or LoRa module. For the GPRS module, the GPRS module can be a 2G module, a 3G module or 4G modules, etc. By setting a variety of wireless communication methods, it can meet the needs of different users and increase the flexibility of communication. Especially when using the LoRa module, the transmission distance is long and the communication is stable.

本实施例中，微处理器 34 还内置有第一计时器（图中未示出），该第一计时器用于记录抓捕功能开启时间或关闭时间。 In this embodiment, the microprocessor 34 A first timer (not shown) is also built in, and the first timer is used to record the capture function on time or off time.

本实施例中，脉冲输出电路 35 包括第一输出端 351 和第二输出端 352 ，该手套本体 31 内还设有第二计时器 38 ，第二计时器 38 设置在第一输出端 351 和第二输出端 352 之间、用于记录抓捕手套 3 在抓捕时的连通时长。即等于抓住犯罪嫌疑人所释放脉冲的时长，并通过输出功率可以计算得出犯罪嫌疑人所收到的电荷量、时间。另外，通过第二计时器 38 记录抓捕时的连通时长，还可以将该连通时长与预定的使用时间进行对比。 In this embodiment, the pulse output circuit 35 includes a first output end 351 and a second output end 352. The glove body 31 There is also a second timer 38 disposed between the first output end 351 and the second output end 352 for recording the capture glove 3 The length of communication during the arrest. That is, it is equal to grasping the duration of the pulse released by the criminal suspect, and through the output power, the amount and time of the charge received by the criminal suspect can be calculated. In addition, through the second timer 38 The length of communication during the capture is recorded, and the length of the connection can be compared with the predetermined usage time.

本实施例中，上述脉冲电流通过第一输出端 351 和第二输出端 352 输出，脉冲输出电极 32 分别与第一输出端 351 和第二输出端 352 连接，升压电路 342 包括第一升压电路 343 、第二升压电路 344 和切换开关 K ，其中，切换开关 K 包括动端、第一不动端、第二不动端和第三不动端，切换开关 K 为单刀多掷开关，切换开关 K 可以采用旋钮开关的方式，也可以采用拨动开关的方式。第一升压电路 343 的一端与脉冲震荡电路 341 连接，第一升压电路 343 的另一端与动端连接，第一不动端接地，第二不动端分别与第一输出端 351 和第二输出端 352 连接，第三不动端与第二升压电路 344 的一端连接，第二升压电路 344 的另一端分别与第一输出端 351 和第二输出端 352 连接。当切换开关 K 切换到第二不动端时，为低压方案，当切换开关 K 切换到第三不动端时，为高压方案，通过将高压方案和低压方案集合于同一手套内，当天气炎热或者犯罪嫌疑人身体皮肤裸露较多时，用低压方案进行抓捕，安全高效，当犯罪嫌疑人穿戴较多时，用高压方案，效率较高，电流可以击穿衣服，因此能对犯罪嫌疑人进行有效控制。 In this embodiment, the pulse current is output through the first output terminal 351 and the second output terminal 352, and the pulse output electrode 32 Connected to the first output terminal 351 and the second output terminal 352, respectively, the boosting circuit 342 includes a first boosting circuit 343, a second boosting circuit 344, and a switch K, wherein the switch K The utility model comprises a movable end, a first fixed end, a second fixed end and a third fixed end. The switch K is a single-pole multi-throw switch, and the switch K can be a rotary switch or a toggle switch. First booster circuit One end of the 343 is connected to the pulse oscillating circuit 341, and the other end of the first boosting circuit 343 is connected to the moving end, the first fixed end is grounded, and the second fixed end is respectively connected to the first output end 351 and the second output end 352. Connected, the third fixed end is connected to one end of the second boosting circuit 344, and the other end of the second boosting circuit 344 is connected to the first output end 351 and the second output end 352, respectively. When the switch K When switching to the second fixed end, it is a low voltage solution when the switch K When switching to the third fixed end, for the high pressure scheme, by combining the high pressure scheme and the low pressure scheme in the same glove, when the weather is hot or the suspect's body skin is exposed more, the low pressure scheme is used for arrest, safe and efficient, when When the criminal suspect wears more, the high-pressure scheme is used, the efficiency is high, and the current can penetrate the clothes, so that the criminal suspect can be effectively controlled.

具体的，当切换开关 K 切换到第一不动端时，抓捕手套 3 处于关闭状态，当切换开关 K 切换到第二不动端时，脉冲输出电极 32 输出脉冲参数范围为 320-380V 、 15-30mA 、 25-30Hz 的低压脉冲电流，此为低压方案；当切换开关 K 切换到第三不动端时，脉冲输出电极 32 输出脉冲参数范围为 2000-20000V 、 0.25-3mA 、 25-50Hz 的高压脉冲电流，此为高压方案。 Specifically, when the switch K is switched to the first fixed end, the catching glove 3 is in the closed state when the switch K is switched. When switching to the second fixed end, the pulse output electrode 32 outputs a low-voltage pulse current with a pulse parameter range of 320-380V, 15-30mA, 25-30Hz, which is a low voltage scheme; when the switch is switched When K switches to the third fixed end, the pulse output electrode 32 outputs pulse parameters ranging from 2000-20000V, 0.25-3mA, 25-50Hz. High voltage pulse current, this is a high voltage solution.

值得一提的是，在本实施例的一些情况下，切换开关 K 还可以包括更多的不动端，这时，切换开关就变成了单刀四掷开关、单刀五掷开关、单刀六掷开关等，对应的升压电路 342 还可以设置成多个，也就是说升压电路 342 还可以再包括第三升压电路、第四升压电路等，以适用于不同的衣物。 It is worth mentioning that in some cases of this embodiment, the switch K It can also include more fixed ends. At this time, 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 boosting circuit 342 can also be set to multiple, that is, Said boost circuit 342 It is also possible to further include a third boosting circuit, a fourth boosting circuit, and the like to be applied to different clothes.

图 3 为本实施例中抓捕手套的手掌面的另一个示意图，本实施例中，该手套本体 31 内还设有采样电路 39 ，手套本体 31 的手掌面上设有采样端点 40 ，采样电路 40 分别与微处理器 34 和采样端点 40 连接、用于测量手套本体 31 的手掌面所抓取物的电阻值，当测量的电阻值大于 2000 欧姆时，脉冲输出电路 35 通过第一升压电路 343 和第二升压电路 344 输出 2000-20000V 、 0.25-3mA 、 25-50Hz 的电流。当测量的电阻值小于或等于 2000 欧姆时，脉冲输出电路 35 通过第一升压电路 343 、第一输出端 351 、第二输出端 352 、脉冲输出电极 32 输出 320-380V 、 15-30mA 、 25-30Hz 的电流。 FIG. 3 is another schematic view of the palm surface of the glove in the embodiment. In the embodiment, the glove body 31 is further provided with a sampling circuit 39. A sampling end point 40 is provided on the palm surface of the glove body 31, and the sampling circuit 40 is respectively connected to the microprocessor 34 and the sampling end point 40 for measuring the glove body 31. The resistance value of the grasped object on the palm surface, when the measured resistance value is greater than 2000 ohms, the pulse output circuit 35 is output through the first boosting circuit 343 and the second boosting circuit 344 2000-20000V, 0.25-3mA, 25-50Hz current. When the measured resistance value is less than or equal to 2000 ohms, the pulse output circuit 35 passes through the first boosting circuit 343. The first output terminal 351, the second output terminal 352, and the pulse output electrode 32 output currents of 320-380V, 15-30mA, and 25-30Hz.

图 4 为本实施例中抓捕手套的背面的示意图，本实施例中，手套本体 31 的背面设置有用于凸起 5 ，凸起 5 用于防刀砍并加强攻击力。凸起 5 具体是设置在手套本体 31 的背面的每个手指的位置。凸起 5 采用的材质可以是玻纤、 ABS 、 PC 或碳纤维等。 4 is a schematic view of the back of the glove in the embodiment. In this embodiment, the back of the glove body 31 is provided with a protrusion 5 and a protrusion. 5 Used to prevent knife cuts and enhance attack power. The projection 5 is specifically the position of each finger provided on the back of the glove body 31. The material used for the bump 5 can be glass fiber, ABS, PC Or carbon fiber, etc.

优选的，脉冲输出电极 32 采用导电布贴合于手套本体 31 的手掌面上，也可以采用带弹性的电极针暗藏于手套本体 31 的手掌面内，当手掌面受到压力时，电极针弹出。 Preferably, the pulse output electrode 32 is attached to the glove body by a conductive cloth. On the palm surface, an elastic electrode needle can also be hidden in the palm surface of the glove body 31, and when the palm surface is under pressure, the electrode needle is ejected.

本实施例中，手套本体 31 的切面包括从内至外依次排布的内层、屏蔽层和防割层（图中未示出），其中，内层用于贴合佩戴者手部，屏蔽层用于防止电流误伤佩戴者，防割层用于实战夺刀。防割层采用的材质为凯夫拉材质或者采用高强高模聚乙烯纤维包覆玻纤、 氨纶 或 钢丝 ，防割层上设有用于设置导电布的缺口。当然，也可以在防割层外再设置一层外层，即手套本体 31 的切面还包括设置在防割层外的外层，在外层上设有缺口，该缺口用于设置导电布。 In this embodiment, the glove body 31 The cut surface includes an inner layer, a shielding layer and a cut prevention layer (not shown) arranged in order from the inside to the outside, wherein the inner layer is used to fit the wearer's hand, and the shield layer is used to prevent current from accidentally injuring the wearer. The anti-cut layer is used to combat the knife. The cut-proof layer is made of Kevlar or coated with high-strength and high-modulus polyethylene fiber. Spandex or steel wire, the cut-proof layer is provided with a notch for setting the conductive cloth. Of course, it is also possible to provide an outer layer outside the cut prevention layer, that is, the glove body 31 The cut surface further includes an outer layer disposed outside the cut prevention layer, and the outer layer is provided with a notch for providing a conductive cloth.

本实施例还涉及一种利用上述抓捕手套管理***的监管方法，其流程图如图 5 所示。图 5 中，该利用上述抓捕手套管理***的监管方法包括如下步骤： The embodiment further relates to a supervision method using the above-mentioned catching glove management system, and the flowchart thereof is as shown in FIG. 5. Figure 5 The method of supervising the use of the above-mentioned grasping glove management system includes the following steps:

步骤 S01 打开移动终端上安装的监管 APP ，通过监管 APP 调用地图：本步骤中，打开移动终端上安装的监管 APP ，通过该监管 APP 调用地图。 Step S01 Open the supervision APP installed on the mobile terminal, and supervise the APP. Call map: In this step, open the supervision APP installed on the mobile terminal, and call the map through the supervision APP.

步骤 S02 用户在控制端上设定抓捕手套的预定使用区域和使用时间：本步骤中，用户在控制端上设定抓博手套的预定使用区域和使用时间。 Step S02 The user sets the predetermined use area and the use time of the grab glove on the control end: in this step, the user sets the predetermined use area and the use time of the grab glove on the control end.

步骤 S03 监管 APP 向控制端发送开启抓捕功能的申请，并在收到控制端的应答后开启抓捕手套的抓捕功能：本步骤中，监管 APP 通过无线方式向控制端发送开启抓捕功能的申请，控制端收到开启抓捕功能的申请后，会给出应答，当监管 APP 收到控制端的应答后，开启抓捕手套的抓捕功能。 Step S03 Supervision APP Send the application for the capture function to the control terminal, and after receiving the response from the control terminal, start the capture function of the capture glove: in this step, the APP is supervised. The application for the on-catch function is sent to the control terminal through the wireless mode. After receiving the application for the capture function, the control terminal will give a response. When the supervisory APP receives the response from the control terminal, the capture function of the capture glove is started.

步骤 S04 卫星定位模块实时获取抓捕手套的地理位置数据并将其发送到微处理器，微处理器判断抓捕手套是否处于预定使用区域内：本步骤中，卫星定位模块实时获取抓捕手套的地理位置数据，并将其发送到微处理器，微处理器判断抓捕手套的位置是否处于预定使用区域内，如果判断的结果为是，则执行步骤 S06 ；否则，执行步骤 S05 。 Step S04 The satellite positioning module obtains the geographical location data of the captured glove in real time and sends it to the microprocessor, and the microprocessor determines whether the grasping glove is in the predetermined use area: in this step, the satellite positioning module obtains the geographical position of the captured glove in real time. The data is sent to the microprocessor, and the microprocessor determines whether the position of the catching glove is within the predetermined use area. If the result of the determination is yes, the step is performed. S06; otherwise, go to step S05.

步骤 S05 微处理器通过无线传输模块将报警信号和抓捕手套的地理位置数据传送到移动终端的监管 APP 给予警报，并控制电源关闭抓捕手套的抓捕功能，移动终端通过监管 APP 记录每一次通信时的抓捕手套的地理位置信息，并在地图上通过点连呈线表示抓捕手套的历史轨迹：本步骤中，微处理器通过无线传输模块将报警信号和抓捕手套的地理位置数据传送到移动终端的监管 APP 给予警报，以提醒用户，然后控制电源关闭，这样就能关闭抓捕手套的抓捕功能。 Step S05: The microprocessor transmits the alarm signal and the geographical location data of the captured glove to the supervision of the mobile terminal through the wireless transmission module. Give an alarm and control the power to turn off the capture function of the catching gloves, and the mobile terminal passes the supervision APP Record the geographical location information of the capture gloves in each communication, and indicate the historical track of the glove by pointing the line on the map: In this step, the microprocessor sends the alarm signal and the glove by the wireless transmission module. Geographical data transfer to mobile terminal supervision The APP gives an alert to alert the user and then controls the power to turn off, which can turn off the capture function of the grab glove.

步骤 S06 保持抓捕状态，不发生报警：如果上述步骤 S04 的判断结果为是，则执行本步骤。本步骤中，保持抓捕状态，不发生报警。这样就实现了对抓捕手套的监管，因此能对抓捕手套的使用过程进行监管，防止警力的滥用、能对犯罪嫌疑人进行有效控制。 Step S06 Keep the capture state, no alarm occurs: If the above step S04 If the result of the determination is yes, then this step is performed. In this step, the capture state is maintained and no alarm occurs. In this way, the supervision of the catching gloves is realized, so that the use process of the catching gloves can be supervised, the abuse of the police force can be prevented, and the criminal suspect can be effectively controlled.

本实施例中，在上述步骤 S06 执行完毕后，还可以进一步执行如下步骤： In this embodiment, after the foregoing step S06 is performed, the following steps may be further performed:

步骤 S07 采样电路采集抓捕手套的手掌面所抓取物的电阻并将采集的电阻值发送到微处理器：本步骤中，采样电路采集抓捕手套的手掌面所抓取物的电阻，并将采集的电阻值发送到微处理器。执行完本步骤，执行步骤 S08 。 Step S07 The sampling circuit collects the resistance of the grasped object on the palm of the glove and sends the collected resistance value to the microprocessor: in this step, the sampling circuit collects the resistance of the grasped object on the palm of the glove, and collects the The resistance value is sent to the microprocessor. After performing this step, perform the steps. S08.

步骤 S08 微处理器判断采集的电阻值是否大于设定值：本步骤中，微处理器判断采集的电阻值是否大于设定值，如果判断的结果为是，则执行步骤 S10 ；否则，执行步骤 S09 。 Step S08 The microprocessor determines whether the collected resistance value is greater than the set value: in this step, the microprocessor determines whether the collected resistance value is greater than the set value. If the result of the determination is yes, step S10 is performed; otherwise, step S09 is performed. .

步骤 S09 电流依次经过第一升压电路和脉冲输出电路后从脉冲输出电极输出 320-380V 、 15-30mA 、 25-30Hz 的低压脉冲电流：如果上述步骤 S08 的判断结果为否，则执行本步骤。本步骤中，电流依次经过第一升压电路和脉冲输出电路后，从脉冲输出电极输出 320-380V 、 15-30mA 、 25-30Hz 的低压脉冲电流。 Step S09, the current sequentially passes through the first boosting circuit and the pulse output circuit, and then outputs 320-380V from the pulse output electrode. Low-voltage pulse current of 15-30mA, 25-30Hz: If the above steps S08 If the result of the determination is no, perform this step. In this step, the current passes through the first boosting circuit and the pulse output circuit in sequence, and outputs 320-380V, 15-30mA, 25-30Hz from the pulse output electrode. Low voltage pulse current.

步骤 S10 电流依次经过第一升压电路、第二升压电路和脉冲输出电路后从脉冲输出电极输出 2000-20000V 、 0.25-3mA 、 25-50Hz 的高压脉冲电流：如果上述步骤 S08 的判断结果为是，则执行本步骤。本步骤中，电流依次经过第一升压电路、第二升压电路和脉冲输出电路后从脉冲输出电极输出 2000-20000V 、 0.25-3mA 、 25-50Hz 的高压脉冲电流。将高压方案与低压方案集合于同一手套内，防止警力的滥用、能对犯罪嫌疑人进行有效控制。 Step S10 The current is sequentially output from the pulse output electrode after passing through the first boosting circuit, the second boosting circuit, and the pulse output circuit. High-voltage pulse current of 2000-20000V, 0.25-3mA, 25-50Hz: If the above steps S08 If the result of the determination is yes, then this step is performed. In this step, the current sequentially passes through the first boosting circuit, the second boosting circuit, and the pulse output circuit, and then outputs 2000-20000V, 0.25-3mA from the pulse output electrode. , 25-50Hz high voltage pulse current. The high-pressure scheme and the low-pressure scheme are combined in the same glove to prevent the abuse of police force and effectively control the suspect.

总之，本发明通过切换开关 K 的切换，可以在低压方案与高压方案之间进行切换，通过将高压方案和低压方案集合于同一手套内，当天气炎热或者犯罪嫌疑人身体皮肤裸露较多时，用低压方案进行抓捕，安全高效，当犯罪嫌疑人穿戴较多时，用高压方案，效率较高，电流可以击穿衣服，因此能对犯罪嫌疑人进行有效控制，当抓捕手套 3 处于预定使用区域的范围外时，微处理器 34 将报警信号和抓捕手套 3 的地理位置数据通过无线传输模块 37 传送到监管 APP ，并控制电源 33 关闭抓捕手套 3 的抓捕功能，这样就实现了对抓捕手套 3 的监管，因此能对抓捕手套 3 的使用过程进行监管、防止警力的滥用、能对犯罪嫌疑人进行有效控制。 In summary, the invention passes the switch K The switching can be carried out between the low-pressure scheme and the high-pressure scheme. By combining the high-pressure scheme and the low-pressure scheme in the same glove, when the weather is hot or the suspect's body skin is exposed, the low-pressure scheme is used for arrest, safe and efficient. When the criminal suspect wears more, the high-pressure scheme is used, the efficiency is high, and the current can penetrate the clothes, so the criminal suspect can be effectively controlled when the glove is captured. 3 When outside the range of the intended use area, the microprocessor 34 transmits the alarm signal and the geographical position data of the capture glove 3 to the supervising APP via the wireless transmission module 37, and controls the power supply 33 Closing the gripping function of the catching gloves 3, thus realizing the supervision of the catching gloves 3, so that the glove can be caught 3 The use of the process of supervision, prevention of police abuse, can effectively control the suspects.

以上所述仅为本发明的较佳实施例而已，并不用以限制本发明，凡在本发明的精神和原则之内，所作的任何修改、等同替换、改进等，均应包含在本发明的保护范围之内。 The above is only the preferred embodiment of the present invention, and is not intended to limit the present invention. Any modifications, equivalent substitutions, improvements, etc., which are included in the spirit and scope of the present invention, should be included in the present invention. Within the scope of protection.

Claims (10)

1. 一种抓捕手套管理***，其特征在于，包括控制端、移动终端和抓捕手套，所述移动终端上安装有能调取地图的监管APP，所述控制端内嵌设有地图，通过所述控制端设定所述抓捕手套的预定使用区域和使用时间，所述移动终端通过所述监管APP向所述控制端发送开启抓捕功能的申请，并在收到所述控制端的应答后开启所述抓捕手套的抓捕功能； A catching glove management system is characterized in that it comprises a control end, a mobile terminal and a catching glove, wherein the mobile terminal is provided with a supervision APP capable of acquiring a map, and the control end is embedded with a map. The control terminal sets a predetermined use area and a usage time of the capture glove, and the mobile terminal sends an application for opening the capture function to the control terminal through the supervision APP, and after receiving the response from the control terminal, Opening the catching function of the catching glove;

   所述抓捕手套包括手套本体以及覆盖在所述手套本体的手掌面上的脉冲输出电极，所述手套本体内设有电源、微处理器、脉冲输出电路、卫星定位模块和无线传输模块，所述微处理器包括脉冲震荡电路和升压电路，所述电源输出的电流依次经所述脉冲震荡电路和升压电路转换为设定大小的脉冲电流，所述脉冲输出电极通过所述脉冲输出电路与所述升压电路连接；The catching glove comprises a glove body and a pulse output electrode covering the palm surface of the glove body, wherein the glove body is provided with a power source, a microprocessor, a pulse output circuit, a satellite positioning module and a wireless transmission module. The microprocessor includes a pulse oscillating circuit and a boosting circuit, and the current outputted by the power source is sequentially converted into a pulse current of a set size by the pulse oscillating circuit and the boosting circuit, and the pulse output electrode passes through the pulse output circuit Connected to the booster circuit;

   所述卫星定位模块实时获取所述抓捕手套的地理位置数据并将其发送到所述微处理器，所述微处理器收到所述无线传输模块发送的预定使用区域信息并对其解码后得到预定监管区域数据，所述微处理器将所述抓捕手套的地理位置数据与所述预定监管区域数据进行比较，当所述抓捕手套处于所述预定使用区域的范围内时，则无动作，当所述抓捕手套处于所述预定使用区域的范围外时，所述微处理器将报警信号和所述抓捕手套的地理位置数据通过所述无线传输模块传送到所述监管APP，并控制所述电源关闭所述抓捕手套的抓捕功能，所述移动终端通过所述监管APP记录每一次通信时的所述抓捕手套的地理位置信息，并在地图上通过点连呈线表示所述抓捕手套的历史轨迹。 The satellite positioning module acquires the geographical location data of the capture glove and sends it to the microprocessor in real time, and the microprocessor receives the predetermined usage area information sent by the wireless transmission module and decodes the information. Obtaining predetermined regulatory area data, the microprocessor comparing the geographic location data of the capture glove with the predetermined regulatory area data, and when the capture glove is within the range of the predetermined use area, Acting, when the catching glove is outside the range of the predetermined use area, the microprocessor transmits an alarm signal and geographic location data of the capture glove to the supervision APP through the wireless transmission module, And controlling the power supply to close the catching function of the catching glove, wherein the mobile terminal records the geographical location information of the grabbing glove during each communication through the supervision APP, and connects the line through the point on the map. Represents the historical trajectory of the capture glove.
2. 根据权利要求1所述的抓捕手套管理***，其特征在于，所述微处理器还内置有用于记录抓捕功能开启时间或关闭时间的第一计时器。The catching glove management system of claim 1 wherein said microprocessor further has a first timer for recording the capture function on time or off time.
3. 根据权利要求2所述的抓捕手套管理***，其特征在于，所述脉冲输出电路包括第一输出端和第二输出端，所述手套本体内还设有第二计时器，所述第二计时器设置在所述第一输出端和第二输出端之间、用于记录所述抓捕手套在抓捕时连通的时长。The grasping glove management system according to claim 2, wherein the pulse output circuit comprises a first output end and a second output end, and the glove body further comprises a second timer, the second A timer is disposed between the first output end and the second output end for recording a length of time during which the catching glove communicates during catching.
4. 根据权利要求1至3任意一项所述的抓捕手套管理***，其特征在于，所述手套本体内还设有采样电路，所述手套本体的手掌面上设有采样端点，所述采样电路分别与所述微处理器和采样端点连接、用于测量所述手套本体的手掌面所抓取物的电阻值。The grasping glove management system according to any one of claims 1 to 3, wherein a sampling circuit is further disposed in the glove body, and a sampling end point is provided on a palm surface of the glove body, and the sampling circuit Connected to the microprocessor and the sampling end respectively, for measuring the resistance value of the grip of the palm surface of the glove body.
5. 根据权利要求3所述的抓捕手套管理***，其特征在于，所述脉冲电流通过所述第一输出端和第二输出端输出，所述脉冲输出电极分别与所述第一输出端和第二输出端连接，所述升压电路包括第一升压电路、第二升压电路和切换开关，所述切换开关包括动端、第一不动端、第二不动端和第三不动端，所述第一升压电路的一端与所述脉冲震荡电路连接，所述第一升压电路的另一端与所述动端连接，所述第一不动端接地，所述第二不动端分别与所述第一输出端和第二输出端连接，所述第三不动端与所述第二升压电路的一端连接，所述第二升压电路的另一端分别与所述第一输出端和第二输出端连接；当所述切换开关切换到所述第一不动端时，所述抓捕手套处于关闭状态，当所述切换开关切换到所述第二不动端时，所述脉冲输出电极输出脉冲参数范围为320-380V、15-30mA、25-30Hz的低压脉冲电流，当所述切换开关切换到所述第三不动端时，所述脉冲输出电极输出脉冲参数范围为2000-20000V、0.25-3mA、25-50Hz的高压脉冲电流。The grasping glove management system according to claim 3, wherein said pulse current is output through said first output end and said second output end, said pulse output electrodes being respectively associated with said first output end and said The two output terminals are connected, the boosting circuit includes a first boosting circuit, a second boosting circuit, and a switching switch, and the switching switch includes a moving end, a first fixed end, a second fixed end, and a third fixed position. An end of the first boosting circuit is connected to the pulse oscillating circuit, and the other end of the first boosting circuit is connected to the dynamic end, the first fixed end is grounded, and the second is not The movable end is respectively connected to the first output end and the second output end, the third fixed end is connected to one end of the second boosting circuit, and the other end of the second boosting circuit is respectively associated with the The first output end is connected to the second output end; when the switch is switched to the first fixed end, the catching glove is in a closed state, when the switch is switched to the second fixed end The pulse output electrode output pulse parameter ranges from 320 to 38 0V, 15-30mA, 25-30Hz low-voltage pulse current, when the switch is switched to the third fixed end, the pulse output electrode output pulse parameter range is 2000-20000V, 0.25-3mA, 25- 50Hz high voltage pulse current.
6. 根据权利要求1至3任意一项所述的抓捕手套管理***，其特征在于，所述手套本体的背面设置有用于防刀砍并加强攻击力的凸起，所述凸起采用的材质为玻纤、ABS、PC或碳纤维。The grasping 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 strengthening an attacking force, and the material of the protrusion is Glass fiber, ABS, PC or carbon fiber.
7. 根据权利要求1至3任意一项所述的抓捕手套管理***，其特征在于，所述脉冲输出电极采用导电布贴合于所述手套本体的手掌面上，或者采用带弹性的电极针暗藏于所述手套本体的手掌面内，当所述手套本体的手掌面受到压力时，所述电极针弹出。The grasping glove management system according to 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 by a flexible electrode needle. The electrode needle is ejected when the palm surface of the glove body is under pressure in the palm surface of the glove body.
8. 根据权利要求7所述的抓捕手套管理***，其特征在于，所述手套本体的切面包括从内至外依次排布的用于贴合佩戴者手部的内层、用于防止电流误伤佩戴者的屏蔽层以及用于实战夺刀的防割层，所述防割层采用的材质为凯夫拉材质或采用高强高模聚乙烯纤维包覆玻纤、氨纶或钢丝，所述手套本体的切面还包括设置在所述防割层外的外层，在所述防割层上或在所述外层上设有用于设置所述导电布的缺口。The grasping glove management system according to claim 7, wherein the cutting surface of the glove body comprises an inner layer arranged in order from the inside to the outside for fitting the wearer's hand, for preventing current from being accidentally wounded. The shielding layer and the anti-cut layer for actual combating the knife, the anti-cutting layer is made of Kevlar material or coated with high-strength high-modulus polyethylene fiber, spandex or steel wire, and the cut surface of the glove body is also An outer layer disposed outside the cut-proof layer is included, and a notch for providing the conductive cloth is disposed on the cut-proof layer or on the outer layer.
9. 一种利用如权利要求1所述的抓捕手套管理***的监管方法，其特征在于，包括如下步骤：A method for monitoring a catching glove management system according to claim 1, comprising the steps of:

   A）打开移动终端上安装的监管APP，通过所述监管APP调用地图；A) opening a supervision APP installed on the mobile terminal, and calling the map through the supervision APP;

   B）用户在所述控制端上设定抓捕手套的预定使用区域和使用时间； B) the user sets a predetermined use area and a use time of the grab glove on the control end;

   C）所述监管APP向所述控制端发送开启抓捕功能的申请，并在收到所述控制端的应答后开启所述抓捕手套的抓捕功能；C) the supervision APP sends an application for opening the capture function to the control terminal, and after receiving the response from the control terminal, the capture function of the capture glove is turned on;

   D）卫星定位模块实时获取所述抓捕手套的地理位置数据并将其发送到所述微处理器，所述微处理器判断所述抓捕手套是否处于所述预定使用区域内，如是，执行步骤F)；否则，执行步骤E）；D) the satellite positioning module acquires the geographical location data of the capture glove in real time and sends it to the microprocessor, and the microprocessor determines whether the capture glove is in the predetermined use area, and if so, executes Step F); otherwise, perform step E);

   E）所述微处理器通过无线传输模块将报警信号和所述抓捕手套的地理位置数据传送到所述移动终端的监管APP给予警报，并控制电源关闭所述抓捕手套的抓捕功能，移动终端通过所述监管APP记录每一次通信时的所述抓捕手套的地理位置信息，并在地图上通过点连呈线表示所述抓捕手套的历史轨迹；E) the microprocessor transmits an alarm signal and a geolocation data of the capture glove to the supervision app of the mobile terminal to give an alarm through a wireless transmission module, and controls the power to turn off the capture function of the capture glove, The mobile terminal records, by using the supervisory APP, geographic location information of the capture glove during each communication, and indicates a historical trajectory of the capture glove on a map by a dotted line;

   F）保持抓捕状态，不发生报警。F) Keep the arrest state and no alarm will occur.
10. 根据权利要求9所述的抓捕手套管理***的监管方法，其特征在于，在所述步骤F）之后还包括：The method for monitoring a catching glove management system according to claim 9, wherein after the step F), the method further comprises:

    G）采样电路采集所述抓捕手套的手掌面所抓取物的电阻并将采集的电阻值发送到所述微处理器，执行步骤H）；G) sampling circuit collects the resistance of the grasped object of the grasping glove palm surface and sends the collected resistance value to the microprocessor, performing step H);

    H）所述微处理器判断采集的电阻值是否大于设定值，如是，执行步骤H）；否则，执行步骤J）；H) the microprocessor determines whether the collected resistance value is greater than the set value, if yes, perform step H); otherwise, perform step J);

    I）电流依次经过第一升压电路、第二升压电路和脉冲输出电路后从脉冲输出电极输出2000-20000V、0.25-3mA、25-50Hz的高压脉冲电流；I) the current sequentially passes through the first boosting circuit, the second boosting circuit and the pulse output circuit, and then outputs a high-voltage pulse current of 2000-20000V, 0.25-3mA, 25-50Hz from the pulse output electrode;

    J）所述电流依次经过第一升压电路和脉冲输出电路后从所述脉冲输出电极输出320-380V、15-30mA、25-30Hz的低压脉冲电流。 J) The current sequentially passes through the first boosting circuit and the pulse output circuit, and then outputs a low-voltage pulse current of 320-380V, 15-30mA, and 25-30Hz from the pulse output electrode.