CN107687793A - High-voltage electric shock protective garment - Google Patents

Abstract

The invention discloses a kind of high-voltage electric shock protective garment, including：Garment body；At least one pair of output electrode being arranged in garment body；The first power module being arranged in garment body；The triggering sensing module being arranged in garment body, triggering sensing module are used to sense the pressure acted on thereon, output control signal；The high-tension electricity generation module being arranged in garment body, to export according to the control signal generation high-tension electricity received and through at least one pair of output electrode.The high-voltage electric shock protective garment can send high-tension electricity and knock down abuser when causing danger, simple easily to realize so as to provide reliable security protection for police.

Description

High-voltage electric shock protective garment

Technical field

The present invention relates to technical field of safety protection, more particularly to a kind of high-voltage electric shock protective garment.

Background technology

In the prior art, high-voltage electric shock gun can make abuser as the weapon for preventing violent crime, high-voltage electric shock gun Short time loses capacity, folds one's hands for capture.However, high-voltage electric shock gun is inconvenient for use and target is obvious.Therefore, it is necessary to a kind of energy Enough effective reliably protecting is provided for police and can knock down the individual protective equipment of abuser.

The content of the invention

It is contemplated that at least solves one of technical problem in correlation technique to a certain extent.

Therefore, it is an object of the invention to propose a kind of high-voltage electric shock protective garment, the high-voltage electric shock protective garment can be police Examine and reliable security protection is provided, it is simple easily to realize.

To reach above-mentioned purpose, the embodiment of the present invention proposes a kind of high-voltage electric shock protective garment, including：

Garment body；

At least one pair of output electrode being arranged in the garment body；

The first power module being arranged in the garment body；

The triggering sensing module being arranged in the garment body, the triggering sensing module act on thereon for sensing Pressure, output control signal；And

The high-tension electricity generation module being arranged in the garment body is high to be generated according to the control signal received Piezoelectricity simultaneously passes through at least one pair of output electrode output.

Further, first power module includes：

First energy-storage travelling wave tube, for storing electric energy；

First switch, for controlling first energy-storage travelling wave tube to be powered for the high-tension electricity generation module.

Further, the triggering sensing module includes：

First sensing element, for sensing the pressure acted on thereon, export first pressure signal；

First control submodule, for the control signal according to the first pressure signal generation.

Further, the triggering sensing module includes：

Second sensing element, for sensing the pressure acted on thereon, export second pressure signal；

Second control submodule, for the control signal according to the second pressure signal generation；

Second source submodule；And

Submodule is transmitted wirelessly, for sending the control signal to the high-tension electricity generation module, wherein, the high pressure Being electrically generated module has the wireless receiving submodule to match with the wireless transmission submodule, to receive the control signal.

Further, the second source submodule includes：

Second energy-storage travelling wave tube, second energy-storage travelling wave tube are used to store electric energy；

Second switch, for controlling second energy-storage travelling wave tube to be powered for second control submodule.

Alternatively, the first sensing element and/or the second sensing element include at least one friction generator and/or at least one Individual piezoelectric generator；

Wherein, friction generator includes two surfaces for forming frictional interface, two surfaces for forming frictional interface In at least one surface on be provided with salient point array.

Further, the salient point array is made up of M rows salient point and N row salient points；

Wherein, positioned at the i-th row jth row the first salient point, positioned at the i-th -1 row jth+1 row the second salient point, positioned at the i-th row The 3rd salient point and four summits of the 4th salient point formation rhombus arranged positioned at i+1 row jth+1 that jth+2 arranges；2≤i≤M- 1,1≤j≤N-2；Effective support radius of the spacing formed between the salient point on four summits of the rhombus according to single salient point And set.

Further, the spacing formed between the adjacent salient point on four summits of the rhombus is effective branch of single salient point Support radius 1-5 times.

Further, the spacing between first salient point and the 3rd salient point is more than or equal to the effective of single salient point 2 times of radius are supported, the spacing between second salient point and the 4th salient point is more than or equal to effective branch of single salient point Support radius 2 times.

Further, in addition to：

Display module, discharge information during battery information and electric discharge for showing first power module；

Logging modle is positioned, for obtaining positional information residing for police, and records the positional information and putting when discharging Power information, while generate alarm signal；

Wireless communication module, for sending the alarm signal to client；

Shooting and recording module, for electric discharge when to being imaged and being recorded around police.

The high-voltage electric shock protective garment proposed according to embodiments of the present invention, when causing danger, triggering sensing module senses Pressure thereon is acted on, and is converted into control signal output, the control signal can be received by high-tension electricity generation module, entered And high-tension electricity generation module is generated according to control signal and high-tension electricity and exported through output electrode, knocked down by sending high-tension electricity and exerted violence Person, so as to provide reliable security protection for police, not only high sensitivity, and simple easily realization.

The additional aspect of the present invention and advantage will be set forth in part in the description, and will partly become from the following description Obtain substantially, or recognized by the practice of the present invention.

Brief description of the drawings

Of the invention above-mentioned and/or additional aspect and advantage will become from the following description of the accompanying drawings of embodiments Substantially and it is readily appreciated that, wherein：

Fig. 1 is the structural representation according to a high-voltage electric shock protective garment of the embodiment of the present invention one；

Fig. 2 is the structural representation according to another high-voltage electric shock protective garment of the embodiment of the present invention one；

Fig. 3 is the structural representation according to the triggering sensing module of the embodiment of the present invention one；

Fig. 4 is the arrangement schematic diagram of array of being assumed diamond in shape according to the salient point array of the embodiment of the present invention one；

Fig. 5 is the arrangement schematic diagram of array of being assumed diamond in shape according to another salient point array of the embodiment of the present invention one；

Fig. 6 is the arrangement schematic diagram of array of being square according to the salient point array of the embodiment of the present invention one；

Fig. 7 is the structural representation according to the high-voltage electric shock protective garment of the embodiment of the present invention two.

Embodiment

Embodiments of the invention are described below in detail, the example of the embodiment is shown in the drawings, wherein from beginning to end Same or similar label represents same or similar element or the element with same or like function.Below with reference to attached The embodiment of figure description is exemplary, it is intended to for explaining the present invention, and is not considered as limiting the invention.

The high-voltage electric shock protective garment proposed according to embodiments of the present invention is described with reference to the accompanying drawings.

Fig. 1 is the structural representation according to the high-voltage electric shock protective garment of the embodiment of the present invention one.As shown in figure 1, the high pressure Electric shock protective garment 10 includes：Garment body 100, at least one pair of output electrode 200, the first power module 300, triggering sensing module 400 and high-tension electricity generation module 500.

Wherein, at least one pair of output electrode 200 is arranged in garment body 100.First power module 300 is arranged at clothes On body 100.Triggering sensing module 400 is arranged in garment body 100, and triggering sensing module 400 acts on it for sensing On pressure, output control signal.High-tension electricity generation module 500 is arranged in garment body 100, high-tension electricity generation module 500 It is connected respectively with least one pair of output electrode 200, the first power module 300 and triggering sensing module 400, is received with basis Control signal generates high-tension electricity and exported through at least one pair of output electrode 200.The high-voltage electric shock protective garment 10 of the embodiment of the present invention When causing danger, high-tension electricity can be sent and knock down abuser, it is simple easily real so as to provide reliable security protection for police It is existing.

Specifically, with reference to shown in Fig. 1 and Fig. 2, the first power module 300 and high-tension electricity generation module 500 are arranged on clothes On body 100.At least one pair of output electrode 200 is arranged in garment body 100, such as shoulder, arm, chest, back, cuff Required position, is not construed as limiting herein, and triggers sensing module 400 and be arranged in garment body 100, and such as cuff is easily touched The position arrived, once causing danger, control signal can be sent immediately, is not construed as limiting herein.

It should be noted that garment body 100 can include fabric and insulating barrier, fabric is the garment surface of prior art Material, is not construed as limiting herein；Insulating barrier uses the material of prior art, and for protecting police itself to exempt from electric shock, its thickness can be with Determined according to the size of two electrode output voltages, the insulating barrier is located at the inner surface of garment material or the interlayer of garment material It is interior, and insulating barrier at least covers the position of output electrode.

Further, in one embodiment of the invention, the first power module 300 includes：First energy-storage travelling wave tube is (in figure Non- symbol) and first switch (not being specifically identified in figure).Wherein, the first energy-storage travelling wave tube is used to store electric energy.First switch It is connected respectively with the first energy-storage travelling wave tube and high-tension electricity generation module 500, to control the first energy-storage travelling wave tube as high-tension electricity generation module 500 power supplies.

It is understood that the first power module 300 is used to provide electric energy for high-tension electricity generation module 500, it includes the One energy-storage travelling wave tube and first switch.Wherein, the first energy-storage travelling wave tube can be that alkaline battery, lithium battery, super capacitor etc. are chargeable Or non-rechargeabel dismountable electrical energy storage means, and first switch is used to control the first energy-storage travelling wave tube to be electrically generated mould for high pressure Block 500 is powered.

Further, in one embodiment of the invention, as shown in figure 3, triggering sensing module 400 includes：First passes The control submodule 402 of sensing unit 401 and first.Wherein, the first sensing element 401, to sense the pressure acted on thereon, output First pressure signal.First control submodule 402 is connected with the first sensing element 401 and high-tension electricity generation module 500 respectively, with According to first pressure signal generation control signal.

It is understood that triggering sensing module 400 is connected with high-tension electricity generation module 500, triggering sensing module 400 is used High-tension electricity generation module 500 is generated high voltage electricity in generation control signal and export.Specifically, the first control submodule Voltage threshold can be stored with 402, when the voltage of the first sensing element 401 output is more than or equal to voltage threshold, first Control submodule 402 sends control signal, high-tension electricity generation module 500 is discharged by output electrode.

Further, the electric energy that high-tension electricity generation module 500 is used to export the first power module 300 is carried out at pressure regulation Reason, and the control signal according to caused by triggering sensing module 400, the high voltage generated after pressure regulation is output in the form of a pulse Output electrode 200 is discharged, and pulse frequency can be adjustable in the range of 15-25Hz, and the duration can in the range of 3-5s during electric discharge Adjust, output voltage is adjustable in the range of 10-80kV, and output current is adjustable in the range of 5-160mA.

Further, output electrode 200 is used for voltage output.Output electrode 200 can be flat, using conductive material Make.Output electrode 200 can be connected by wire with the output end of high-tension electricity generation module 500.

Alternatively, in one embodiment of the invention, the first sensing element and/or the second sensing element (below will It is described in detail) at least one friction generator and/or at least one piezoelectric generator can be included.

In addition, in an embodiment of the present invention, piezoelectric generator can be the pressure that the material such as zinc oxide, PZT, PVDF makes Electric generator.Friction generator can be three layers, four layers or five-layer structure, and in two surfaces for forming frictional interface It is provided with salient point array at least one surface, the salient point in salient point array can be cylinder, four prism type etc., not make herein Limit.When using friction generator as sensing element, friction generator deforms upon under external force, so that two Friction surface is in contact separation and produces charge inducing, electrical potential difference is produced between two electrodes of friction generator, to exchange arteries and veins The form output of punching electricity.

Alternatively, in order to improve the sensitivity of high-voltage electric shock protective garment triggering and avoid the situation of false triggering from occurring, at this In one embodiment of invention, friction generator includes forming two surfaces of frictional interface, and the friction generator is extremely Lacking has two electrodes for forming signal output part, is set at least one surface in two surfaces for forming frictional interface It is equipped with salient point array.

Specifically, salient point array is made up of M rows salient point and N row salient points.Wherein, positioned at the i-th row jth row the first salient point, Positioned at the i-th -1 row jth+1 row the second salient point, positioned at the i-th row jth+2 row the 3rd salient point and positioned at i+1 row jth+1 arrange The 4th salient point formed rhombus four summits；2≤i≤M-1,1≤j≤N-2；Formed between the salient point on four summits of rhombus Spacing set according to effective support radius of single salient point.Specifically, formed four summits of rhombus adjacent salient point it Between spacing and can be set with respect to the spacing between salient point according to effective support radius of single salient point.

Further, the spacing formed between the adjacent salient point on four summits of rhombus is effective support half of single salient point 1-5 times of footpath.Specifically, in the rhombus formed, the first salient point and the second salient point are adjacent salient point, the second salient point and Three salient points are adjacent salient point, and the 3rd salient point and the 4th salient point are adjacent salient point, and the 4th salient point and the first salient point are adjacent Salient point.

Further, the spacing between the first salient point and the 3rd salient point is more than or equal to effective support radius of single salient point 2 times, spacing between the second salient point and the 4th salient point is more than or equal to 2 times of effective support radius of single salient point.Wherein, First salient point and the 3rd salient point are a pair of relative salient points, and the second salient point and the 4th salient point are the relative salient point of another pair.Enter one Step ground, the preferred height of salient point is 0.25-2.5mm, preferred a diameter of 0.5-2.5mm of salient point.

For example, arrangement schematic diagrams of the Fig. 4 for the array that assumed diamond in shape according to the salient point array of the embodiment of the present invention one, friction surface Multiple salient points in possessed salient point array assume diamond in shape array arrangement, and salient point is as shown in the solid line circle in Fig. 4, the diameter of salient point For 1.5mm, the height of salient point is 1.25mm, is calculated, and effective Area of bearing of single salient point is with the central point of salient point The area for the circle for being 5mm for the center of circle, radius, as shown in the broken circle in Fig. 4, i.e., effective support radius of single salient point is 5mm.

Wherein, the first salient point A1 positioned at the i-th row jth row, the second salient point A2 positioned at the i-th -1 row jth+1 row, positioned at the The 3rd salient point A3 and four summits of the 4th salient point A4 formation rhombuses arranged positioned at i+1 row jth+1 that i rows jth+2 arranges, 2 ≤ i≤M-1,1≤j≤N-2.Spacing between first salient point A1 and the second salient point A2 is 10mm, and the first salient point A1 and Spacing between three salient point A3 is equal to 17.2mm, and the spacing between the second salient point A2 and the 4th salient point A4 is equal to 10mm, that is, Say, the spacing between the adjacent salient point on four summits for forming rhombus is 2 times of effective support radius of single salient point, and first is convex Spacing between point A1 and the 3rd salient point A3 is equal to 3.44 times of effective support radius of single salient point, the second salient point A2 and the 4th Spacing between salient point A4 is equal to 2 times of effective support radius of single salient point, now the first salient point A1, the second salient point A2, the Three salient point A3 and the 4th salient point A4 form four summits of rhombus, calculate, are arranged on the salient point of polymeric film surface The ratio of the surface area of the effective Area of bearing and thin polymer film of array is about 91.698%.

Another salient point array that Fig. 5 show according to embodiments of the present invention one assumes diamond in shape the arrangement schematic diagram of array, friction Multiple salient points in salient point array possessed by surface assume diamond in shape array arrangement, salient point as shown in the solid line circle in Fig. 5, salient point A diameter of 1.5mm, the height of salient point is 1.25mm, is calculated, and effective Area of bearing of single salient point is with salient point Heart point is the center of circle, the area for the circle that radius is 5mm, and as shown in the broken circle in Fig. 5, i.e., effective support radius of single salient point is 5mm。

Wherein, the first salient point A1 positioned at the i-th row jth row, the second salient point A2 positioned at the i-th -1 row jth+1 row, positioned at the The 3rd salient point A3 and four summits of the 4th salient point A4 formation rhombuses arranged positioned at i+1 row jth+1 that i rows jth+2 arranges, 2 ≤ i≤M-1,1≤j≤N-2.Spacing between first salient point A1 and the second salient point A2 is 8.77mm, and the first salient point A1 and Spacing between 3rd salient point A3 is equal to 14.4mm, and the spacing between the second salient point A2 and the 4th salient point A4 is equal to 10mm, also It is to say, the spacing between the adjacent salient point on four summits for forming rhombus is 1.754 times of effective support radius of single salient point, Spacing between first salient point A1 and the 3rd salient point A3 is equal to 2.88 times of effective support radius of single salient point, the second salient point A2 And the 4th spacing between salient point A4 is equal to 2 times of effective support radius of single salient point, now the first salient point A1, the second salient point A2, the 3rd salient point A3 and the 4th salient point A4 form four summits of rhombus, calculate, are arranged on polymeric film surface The ratio of the surface area of the effective Area of bearing and thin polymer film of salient point array is about 97.915%.

In the prior art, the multiple salient points for being arranged on the salient point array of friction surface are arranged according to square array mostly Row.Fig. 6 is that multiple salient points of friction surface salient point array in the prior art are square the arrangement schematic diagram of array, wherein, salient point As shown in the solid line circle in Fig. 6, a diameter of 1.5mm of salient point, the height of salient point is 1.25mm, is calculated, single salient point Effective Area of bearing be using area of the central point of salient point as the center of circle, radius for 5mm circle, as shown in the broken circle in Fig. 6. When the horizontal spacing and longitudinal pitch of salient point are respectively 10mm, calculate, be arranged on the salient point array of friction surface The ratio of the area of effective Area of bearing and friction surface is 78.5%.

Can be obtained by Fig. 4-6 contrasts, unit area salient point quantity is close or identical in the case of, with rhombus array arrangement Salient point has larger effective Area of bearing, and effectively Area of bearing increases with the reduction of salient point spacing.Larger has Effect Area of bearing can be such that two friction surfaces more fully separate, and improve the triggering output voltage of sensing module and sensitive Degree, the situation for reducing high-voltage electric shock protective garment false triggering occur.

Further, in another embodiment of the present invention, regular tap (such as reed-type) can be used as sensing Element 401, control signal is produced by the first control submodule 402 when regular tap closes, make high-tension electricity generation module 500 will High voltage exports.

Further, in one embodiment of the invention, the high-voltage electric shock protective garment 10 of the embodiment of the present invention also includes： Display module (is not specifically identified) in figure.Wherein, display module respectively with the first power module 300 and high-tension electricity generation module 500 are connected, to show the discharge information when battery information of the first power module 300 and electric discharge.For example, display module can show Show the real time electrical quantity of battery, battery temperature, discharge period and show voltage and current size etc. in electric discharge, do not make herein Limit.

Further, in one embodiment of the invention, the high-voltage electric shock protective garment 10 of the embodiment of the present invention also includes： Position logging modle (not being specifically identified in figure) and wireless communication module (not being specifically identified in figure).Wherein, logging modle is positioned It is connected with high-tension electricity generation module 500, to obtain positional information residing for police, and electric discharge letter when record position information and electric discharge Breath, while generate alarm signal.Wireless communication module is connected with positioning logging modle, to send alarm signal to client.

For example, logging modle and wireless communication module are positioned, for being positioned to police and in each electric discharge The positional information of electric discharge date, discharge period, voltage and current size and police are recorded, while warning message is sent The client held to alarm platform or kith and kin, in order to timely processing dangerous situation, better ensure that police's safety.

Further, in one embodiment of the invention, the high-voltage electric shock protective garment 10 of the embodiment of the present invention also includes： Shooting and recording module (not being specifically identified in figure).Wherein, shooting and recording module are electrically generated 500 modules with high pressure and are connected, with In electric discharge to being imaged and being recorded around police.

That is, while each electric discharge, automatic start shooting and sound-recording function, the evidence that police is encroached on is collected And prevent police from abusing discharging function and being damaged to other people.

The operation principle of the high-voltage electric shock protective garment 10 of embodiment one is described in detail below.

When police wears high-voltage electric shock protective garment 10, the first energy-storage travelling wave tube is installed, closes first switch, makes high-voltage electric shock Function is in running order.When police is by closely personal attack, such as by seizing on both sides by the arms when, police or abuser's pressing or squeeze The first sensing element 401 is pressed, when output voltage is more than or equal to voltage threshold caused by the first sensing element 401, the first control System module 402, which sends control signal, makes high-tension electricity generation module 500 to be applied by the electric discharge of the certain time of output electrode 200 Sudden and violent person knocks down.The output voltage of high-tension electricity generation module 500 is high, and output current is low, therefore penetration power is strong, and infringement is small, will not be to applying Sudden and violent person causes long-term expendable harm.When personal defender need not be used, first switch is disconnected.Set voltage threshold Value can prevent accidental discharge caused by external interference or maloperation.Further, it is also possible to press the first sensing element 401 by setting Precalculated position reaches pre-determined number and realizes control.

Fig. 7 is the structural representation according to the high-voltage electric shock protective garment of the embodiment of the present invention two.It is as shown in fig. 7, of the invention The difference of the high-voltage electric shock protective garment of embodiment two is that triggering sensing module 400 includes：Second sensing element 403, second Control submodule 404, second source submodule 405 and wireless transmission submodule 406.

Wherein, the second sensing element 403, to sense the pressure acted on thereon, second pressure signal is exported.Second control Submodule 404 is connected with the second sensing element 403, with according to second pressure signal generation control signal.Transmit wirelessly submodule 406 are connected with the control submodule 404 of second source submodule 405 and second respectively, are electrically generated with sending a control signal to high pressure Module 500, wherein, high-tension electricity generation module 500 has the wireless receiving submodule to match with wireless transmission submodule 406 (not being specifically identified in figure), to receive control signal.

It is understood that on the basis of the high-voltage electric shock protective garment of embodiment one, triggering sensing module 400 further wraps Included second source submodule 405 and wireless transmission submodule 406, while high-tension electricity generation module 500 further comprise with The wireless receiving module or circuit that wireless transmission submodule 406 matches.

Further, in one embodiment of the invention, second source submodule 405 includes：Second energy-storage travelling wave tube (figure In be not specifically identified) and second switch (not being specifically identified in figure).Specifically, the second energy-storage travelling wave tube storage electric energy.Second switch It is connected respectively with the second energy-storage travelling wave tube and the second control submodule 404, to control the second energy-storage travelling wave tube as the second control submodule 404 power supplies.

Wherein, the second energy-storage travelling wave tube can be that alkaline battery, lithium battery, super capacitor etc. rechargeable or otherwise can The electrical energy storage means of dismounting, the second energy-storage travelling wave tube are used to power for the second control submodule 404.Second switch is used to control the Two energy-storage travelling wave tubes are that the second control submodule 404 is powered.

It is understood that wireless transmission submodule 406 can be produced the second control submodule 404 using wireless form Raw control signal is sent to high-tension electricity generation module 500, high-tension electricity generation module 500 is discharged by output electrode.Using When transmitting wirelessly submodule 406, due to wire circuit need not be used to transmit signal, eliminate and respective wire is set in clothes The step of, therefore, triggering sensing module 400 can flexibly be arranged on police desired position, to ensure assaults thing is occurring Electric discharge is triggered during part in time.

The operation principle of the high-voltage electric shock protective garment 10 of embodiment two is described in detail below.

When police wears high-voltage electric shock protective garment 10, the first energy-storage travelling wave tube and the second energy-storage travelling wave tube, closure first are installed Switch and second switch, make high-voltage electric shock function in running order.When police is by closely personal attack, such as seized on both sides by the arms When, the second sensing element 403 of police or abuser's pressing or extruding, when output voltage caused by the second sensing element 403 is more than Or during equal to voltage threshold, the second control submodule 404, which sends control signal, makes high-tension electricity generation module 500 pass through output electrode Abuser is knocked down in the electric discharge of 200 certain times.When personal defender need not be used, first switch and second switch are disconnected .Pre-determined number realization control can also be reached by setting pressing triggering sensing element 400 precalculated position.

In addition to above-mentioned difference, the high-voltage electric shock protective garment of embodiment two and the high-voltage electric shock protective garment of embodiment one are homogeneous Together, here is omitted.

High-voltage electric shock protective garment provided by the invention, when causing danger, triggering sensing module senses police or applied Sudden and violent person acts on pressure thereon, and is converted into control signal output, and the control signal can be connect by high-tension electricity generation module Receive, and then high-tension electricity generation module generates high-tension electricity according to control signal and exported through output electrode, by sending high-voltage electric shock Abuser, so as to provide reliable security protection for police, not only high sensitivity, and simple easily realization.

In the description of the invention, it is to be understood that term " " center ", " longitudinal direction ", " transverse direction ", " length ", " width ", " thickness ", " on ", " under ", "front", "rear", "left", "right", " vertical ", " level ", " top ", " bottom " " interior ", " outer ", " up time The orientation or position relationship of the instruction such as pin ", " counterclockwise ", " axial direction ", " radial direction ", " circumference " be based on orientation shown in the drawings or Position relationship, it is for only for ease of and describes the present invention and simplify description, rather than indicates or imply that signified device or element must There must be specific orientation, with specific azimuth configuration and operation, therefore be not considered as limiting the invention.

In addition, term " first ", " second " are only used for describing purpose, and it is not intended that instruction or hint relative importance Or the implicit quantity for indicating indicated technical characteristic.Thus, define " first ", the feature of " second " can be expressed or Implicitly include at least one this feature.In the description of the invention, " multiple " are meant that at least two, such as two, three It is individual etc., unless otherwise specifically defined.

In the present invention, unless otherwise clearly defined and limited, term " installation ", " connected ", " connection ", " fixation " etc. Term should be interpreted broadly, for example, it may be fixedly connected or be detachably connected, or integrally；Can be that machinery connects Connect or electrically connect；Can be joined directly together, can also be indirectly connected by intermediary, can be in two elements The connection in portion or the interaction relationship of two elements, limited unless otherwise clear and definite.For one of ordinary skill in the art For, the concrete meaning of above-mentioned term in the present invention can be understood as the case may be.

In the present invention, unless otherwise clearly defined and limited, fisrt feature can be with "above" or "below" second feature It is that the first and second features directly contact, or the first and second features pass through intermediary mediate contact.Moreover, fisrt feature exists Second feature " on ", " top " and " above " but fisrt feature are directly over second feature or oblique upper, or be merely representative of Fisrt feature level height is higher than second feature.Fisrt feature second feature " under ", " lower section " and " below " can be One feature is immediately below second feature or obliquely downward, or is merely representative of fisrt feature level height and is less than second feature.

In the description of this specification, reference term " one embodiment ", " some embodiments ", " example ", " specifically show The description of example " or " some examples " etc. means specific features, structure, material or the spy for combining the embodiment or example description Point is contained at least one embodiment or example of the present invention.In this manual, to the schematic representation of above-mentioned term not Identical embodiment or example must be directed to.Moreover, specific features, structure, material or the feature of description can be with office Combined in an appropriate manner in one or more embodiments or example.In addition, in the case of not conflicting, the skill of this area Art personnel can be tied the different embodiments or example and the feature of different embodiments or example described in this specification Close and combine.

Although embodiments of the invention have been shown and described above, it is to be understood that above-described embodiment is example Property, it is impossible to limitation of the present invention is interpreted as, one of ordinary skill in the art within the scope of the invention can be to above-mentioned Embodiment is changed, changed, replacing and modification.

Claims (10)

1. A kind of 1. high-voltage electric shock protective garment, it is characterised in that including：

   Garment body；

   At least one pair of output electrode being arranged in the garment body；

   The first power module being arranged in the garment body；

   The triggering sensing module being arranged in the garment body, the triggering sensing module are used to sense the pressure acted on thereon Power, output control signal；And

   The high-tension electricity generation module being arranged in the garment body, to generate high-tension electricity according to the control signal received And pass through at least one pair of output electrode output.
2. 2. high-voltage electric shock protective garment according to claim 1, it is characterised in that first power module includes：

   First energy-storage travelling wave tube, for storing electric energy；

   First switch, for controlling first energy-storage travelling wave tube to be powered for the high-tension electricity generation module.
3. 3. high-voltage electric shock protective garment according to claim 1, it is characterised in that the triggering sensing module includes：

   First sensing element, for sensing the pressure acted on thereon, export first pressure signal；

   First control submodule, for the control signal according to the first pressure signal generation.
4. 4. high-voltage electric shock protective garment according to claim 1, it is characterised in that the triggering sensing module includes：

   Second sensing element, for sensing the pressure acted on thereon, export second pressure signal；

   Second control submodule, for the control signal according to the second pressure signal generation；

   Second source submodule；And

   Submodule is transmitted wirelessly, for sending the control signal to the high-tension electricity generation module, wherein, the high-tension electricity life There is the wireless receiving submodule to match with the wireless transmission submodule into module, to receive the control signal.
5. 5. high-voltage electric shock protective garment according to claim 4, it is characterised in that the second source submodule includes：

   Second energy-storage travelling wave tube, second energy-storage travelling wave tube are used to store electric energy；

   Second switch, for controlling second energy-storage travelling wave tube to be powered for second control submodule.
6. 6. the high-voltage electric shock protective garment according to claim 3 or 4, it is characterised in that the first sensing element and/or the second biography Sensing unit includes at least one friction generator and/or at least one piezoelectric generator；

   Wherein, friction generator include form frictional interface two surfaces, it is described form frictional interface two surfaces in Salient point array is provided with least one surface.
7. 7. high-voltage electric shock protective garment according to claim 6, it is characterised in that the salient point array is arranged by M rows salient point and N Salient point forms；

   Wherein, positioned at the i-th row jth row the first salient point, positioned at the i-th -1 row jth+1 row the second salient point, positioned at the i-th row jth+2 3rd salient point of row and the 4th salient point arranged positioned at i+1 row jth+1 form four summits of rhombus；2≤i≤M-1,1≤j ≤N-2；The spacing formed between the salient point on four summits of the rhombus is set according to effective support radius of single salient point.
8. 8. high-voltage electric shock protective garment according to claim 7, it is characterised in that form the phase on four summits of the rhombus Spacing between adjacent salient point is 1-5 times of effective support radius of single salient point.
9. 9. high-voltage electric shock protective garment according to claim 8, it is characterised in that first salient point and the 3rd salient point Between spacing be more than or equal to 2 times of effective support radius of single salient point, second salient point and the 4th salient point it Between spacing be more than or equal to 2 times of effective support radius of single salient point.
10. 10. high-voltage electric shock protective garment according to claim 1, it is characterised in that also include：

    Display module, discharge information during battery information and electric discharge for showing first power module；

    Logging modle is positioned, for obtaining positional information residing for police, and records the positional information and electric discharge letter when discharging Breath, while generate alarm signal；

    Wireless communication module, for sending the alarm signal to client；

    Shooting and recording module, for electric discharge when to being imaged and being recorded around police.