CN221037076U - Capturing net gun device based on unmanned aerial vehicle - Google Patents

Abstract

The application discloses a capturing net gun device based on an unmanned aerial vehicle, which comprises a capturing net gun and the unmanned aerial vehicle; the capturing net gun is fixed at the top end of the unmanned aerial vehicle; the capturing net gun comprises a net gun main body, a capturing net component, a power component and a net gun rear cover; the net gun rear cover is connected with one end of the net gun main body far away from the capturing net assembly, and the net gun rear cover fixes the power assembly inside the net gun main body; wherein the power assembly is used for launching the capturing net in the capturing net assembly. The method has the advantages that the capturing net gun is combined with the unmanned aerial vehicle, so that the characteristic that the unmanned aerial vehicle can remotely control is utilized, and the use radius of the capturing net gun is increased.

Description

Capturing net gun device based on unmanned aerial vehicle

Technical Field

The application relates to the technical field of unmanned aerial vehicles, in particular to a capturing net gun device based on an unmanned aerial vehicle.

Background

The capturing net gun, also called as anti-riot net gun, is a new type of portable safety anti-riot net when the capturing of the doubtful crimes is performed. The capturing net gun has the characteristics of small volume, light weight, portability and easy operation, and the capturing net can be repeatedly used, so that the capturing net gun is widely applied to the field of safety protection; however, the existing capturing net gun is handheld, a user is required to hold the capturing net gun to operate, but the capturing net gun has a limited emission distance to the capturing net, so that the problem of short effective use radius of the capturing net gun is caused.

Disclosure of Invention

The embodiment of the application provides a capturing net gun device based on an unmanned aerial vehicle, which aims to solve the problem that the effective use radius of a capturing net gun is short in the prior art method.

In a first aspect, the application discloses a capturing net gun device based on an unmanned aerial vehicle, which comprises a capturing net gun and the unmanned aerial vehicle; the capturing net gun is fixed at the top end of the unmanned aerial vehicle; the capturing net gun comprises a net gun main body, a capturing net component, a power component and a net gun rear cover; the net gun rear cover is connected with one end of the net gun main body far away from the capturing net assembly, and fixes the power assembly inside the net gun main body; wherein the power component is used for transmitting the capturing net in the capturing net component.

The application discloses a capturing net gun device based on an unmanned aerial vehicle, which comprises a capturing net gun and the unmanned aerial vehicle; the capturing net gun is fixed at the top end of the unmanned aerial vehicle; the capturing net gun comprises a net gun main body, a capturing net component, a power component and a net gun rear cover; the net gun rear cover is connected with one end of the net gun main body far away from the capturing net assembly, and fixes the power assembly inside the net gun main body; wherein the power component is used for transmitting the capturing net in the capturing net component. The method has the advantages that the capturing net gun is combined with the unmanned aerial vehicle, so that the characteristic that the unmanned aerial vehicle can remotely control is utilized, and the use radius of the capturing net gun is increased.

Drawings

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

FIG. 1 is an exploded view of an unmanned aerial vehicle-based capturing net gun device according to an embodiment of the present application;

FIG. 2 is a partial exploded view of an unmanned aerial vehicle-based capture net gun device according to an embodiment of the present application;

FIG. 3 is an exploded view of another portion of an unmanned aerial vehicle-based capture net gun device according to an embodiment of the present application;

FIG. 4 is a schematic view of a portion of an unmanned aerial vehicle-based capturing net gun device according to an embodiment of the present application;

FIG. 5 is another schematic view of a portion of an unmanned aerial vehicle-based capturing net gun device according to an embodiment of the present application;

Fig. 6 is another schematic diagram of a portion of an unmanned aerial vehicle-based capturing net gun device according to an embodiment of the present application.

Wherein, each reference sign is as follows in the figure:

10. Capturing a net gun; 110. a net gun body; 120. a capture net assembly; 1201. a front cover; 1202. a front baffle; 1203. a transmitting head; 12031. a central bore; 12032. a first round hole; 12033. a second round hole; 12034. a third round hole; 12035. a fourth round hole; 12036. a fifth round hole; 12037. a sixth round hole; 12038. a seventh round hole; 12039. an eighth round hole; 1204. a rear baffle; 1205. a rear cover; 1206. a transmitting head seat; 1207. capturing a net; 12071. capturing a net body; 12072. a first weight; 12073. a second weight; 12074. a third weight; 12075. a fourth weight; 12076. a fifth weight; 12077. a sixth weight; 12078. a seventh weight; 12079. eighth heavy hammer; 130. a power assembly; 140. a net gun rear cover; 20. unmanned plane; 210. an unmanned aerial vehicle main body; 220. a first propeller assembly; 230. a second propeller assembly; 240. a third propeller assembly; 250. and a fourth propeller assembly.

Detailed Description

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

It should be understood that the terms "comprises" and "comprising," when used in this specification and the appended claims, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof.

It is also to be understood that the terminology used in the description of the application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. As used in this specification and the appended claims, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise.

It should be further understood that the term "and/or" as used in the present specification and the appended claims refers to any and all possible combinations of one or more of the associated listed items, and includes such combinations.

Referring to fig. 1 to 6, fig. 1 is an exploded view of an unmanned aerial vehicle-based capturing net gun device according to an embodiment of the present application; FIG. 2 is a partial exploded view of an unmanned aerial vehicle-based capture net gun device according to an embodiment of the present application; FIG. 3 is an exploded view of another portion of an unmanned aerial vehicle-based capture net gun device according to an embodiment of the present application;

FIG. 4 is a schematic view of a portion of an unmanned aerial vehicle-based capturing net gun device according to an embodiment of the present application; FIG. 5 is another schematic view of a portion of an unmanned aerial vehicle-based capturing net gun device according to an embodiment of the present application; fig. 6 is another schematic diagram of a portion of an unmanned aerial vehicle-based capturing net gun device according to an embodiment of the present application. As shown in fig. 1 to 6, an embodiment of the present application provides a capturing net gun device based on an unmanned aerial vehicle, which includes a capturing net gun 10 and an unmanned aerial vehicle 20; the capturing net gun 10 is fixed at the top end of the unmanned aerial vehicle 20; the capturing net gun 10 includes a net gun body 110, a capturing net assembly 120, a power assembly 130, and a net gun rear cover 140; the capturing net assembly 120 is connected with one end of the net gun main body 110, the net gun rear cover 140 is connected with one end of the net gun main body 110 far away from the capturing net assembly 120, and the net gun rear cover 140 fixes the power assembly 130 inside the net gun main body 110; wherein the power assembly 130 is configured to transmit the capture net 1207 of the capture net assembly 120.

In this embodiment, the capturing net gun device based on the unmanned aerial vehicle is composed of the capturing net gun 10 and the unmanned aerial vehicle 20, wherein the capturing net gun 10 is fixed at the top end of the unmanned aerial vehicle 20; the capturing net gun 10 is composed of the net gun main body 110, the capturing net assembly 120, the power assembly 130 and the net gun rear cover 140; one end of the net gun body 110 is connected with the capturing net assembly 120, and the other end of the net gun body 110 is connected with the net gun rear cover 140; the inside of the net gun main body 110 is provided with a power assembly 130 fixing groove, the power assembly 130 fixing groove is matched with the power assembly 130, and the net gun rear cover 140 fixes the power assembly 130 in the power assembly 130 fixing groove; the net gun main body 110 is provided with a triggering structure, and the triggering structure is used for triggering the power assembly 130, so that gas stored in the power assembly 130 can be released, and power is provided; the capture net assembly 120 includes the capture net 1207, and the power assembly 130 may power the capture net 1207; so that the capturing net 1207 can be separated from the capturing net gun 10 to be emitted.

Wherein the triggering structure may be triggered by at least two means:

First, the triggering structure includes an entity key, the entity key may trigger the power component 130, the entity key is connected with a lifting rod of the unmanned aerial vehicle 20, and a user may control the lifting rod of the unmanned aerial vehicle 20, so that the lifting rod acts on the entity key, thereby enabling the entity key to trigger the power component 130.

Second, the triggering structure includes a communication module and a starting module, where the starting module can trigger the power assembly 130, the communication module is used to control the starting module, and the communication module can receive a wireless control signal transmitted by a remote controller by a user, so as to control the starting module to trigger the power assembly 130.

By combining the capturing net gun 10 with the unmanned aerial vehicle 20, the unmanned aerial vehicle 20 can fly remotely, so that the capturing net gun 10 is driven to move remotely, the use radius of the capturing net gun 10 becomes the flying distance of the unmanned aerial vehicle 20 plus the effective launching distance of the capturing net gun 10, and the use radius of the capturing net gun 10 is increased.

In one embodiment, as shown in fig. 1, 2, 3, 4 and 5, the capture net assembly 120 includes a front cover 1201, a front baffle 1202, a launcher 1203, a rear baffle 1204, a rear cover 1205, a launcher base 1206 and the capture net 1207; the front cover 1201 secures the front guard 1202 at one end of the emitter head 1203, and the rear cover 1205 secures the rear guard 1204 at an end of the emitter head 1203 remote from the front guard 1202; the capturing net 1207 is disposed inside the emitter 1203 and between the front baffle 1202 and the rear baffle 1204; one end of the emitter seat 1206 is sleeved at one end of the emitter head 1203 away from the front baffle 1202, and the other end of the emitter seat 1206 is connected with the net gun main body 110.

In the present embodiment, the capturing net assembly 120 is composed of the front cover 1201, the front baffle 1202, the emission head 1203, the rear baffle 1204, the rear cover 1205, the emission head stand 1206, and the capturing net 1207; the front cover 1201 secures the front guard 1202 at one end of the emitter head 1203, and the rear cover 1205 secures the rear guard 1204 at an end of the emitter head 1203 remote from the front guard 1202; the capturing mesh 1207 is disposed inside the emitter head 1203 and between the front baffle 1202 and the rear baffle 1204, and the front baffle 1202 and the rear baffle 1204 can fix the capturing mesh 1207 inside the emitter head 1203, so that the capturing mesh 1207 is not scattered, thereby affecting the emission of the capturing mesh 1207; one end of the emission head base 1206 is sleeved at one end of the emission head 1203 away from the front baffle 1202, and the other end of the emission head base 1206 is connected with the net gun main body 110, so that the emission head base 1206 connects the emission head 1203 with the net gun main body 110.

In one embodiment, as shown in fig. 1, 2, 3 and 4, the emitting head 1203 is provided with a circular hole structure, a guide groove structure and a central hole 12031; the central hole 12031 penetrates through the emission head 1203, and the central axis of the central hole 12031 and the central axis of the emission head 1203 are on the same straight line; the circular hole structure is disposed at one end of the emitter head 1203 connected to the front baffle 1202, and the guide slot structure is disposed between the circular hole structure and the central hole 12031.

In this embodiment, the emission head 1203 is provided with a circular hole structure, a guide groove structure, and a central hole 12031; the central hole 12031 penetrates through the emitting head 1203, the inside of the emitting head 1203 is a hollow structure, that is, a central hole 12031, the central axis of the central hole 12031 and the central axis of the emitting head 1203 are on the same straight line, and the central hole 12031 is used for accommodating the capturing mesh 1207; the circular hole structure is arranged at one end of the emitter head 1203, which is connected with the front baffle 1202, and is arranged around the central hole 12031, the central hole 12031 is surrounded by the circular hole structure, and the guide slot structure is arranged between the circular hole structure and the central hole 12031, so that the guide slot structure can communicate the central hole 12031 with the circular hole structure.

In one embodiment, as shown in fig. 1, 2, 3 and 4, the circular hole structure includes a first circular hole 12032, a second circular hole 12033, a third circular hole 12034, a fourth circular hole 12035, a fifth circular hole 12036, a sixth circular hole 12037, a seventh circular hole 12038 and an eighth circular hole 12039; the guide groove structure comprises a first guide groove, a second guide groove, a third guide groove, a fourth guide groove, a fifth guide groove, a sixth guide groove, a seventh guide groove and an eighth guide groove; the distance between the first circular hole 12032 and the second circular hole 12033, the distance between the second circular hole 12033 and the third circular hole 12034, the distance between the third circular hole 12034 and the fourth circular hole 12035, the distance between the fourth circular hole 12035 and the fifth circular hole 12036, the distance between the fifth circular hole 12036 and the sixth circular hole 12037, the distance between the sixth circular hole 12037 and the seventh circular hole 12038, the distance between the seventh circular hole 12038 and the eighth circular hole 12039, and the distance between the eighth circular hole 12039 and the first circular hole 12032 are all equal;

The first guide groove is disposed between the first round hole 12032 and the center hole 12031, the second guide groove is disposed between the second round hole 12033 and the center hole 12031, the third guide groove is disposed between the third round hole 12034 and the center hole 12031, the fourth guide groove is disposed between the fourth round hole 12035 and the center hole 12031, the fifth guide groove is disposed between the fifth round hole 12036 and the center hole 12031, the sixth guide groove is disposed between the sixth round hole 12037 and the center hole 12031, the seventh guide groove is disposed between the seventh round hole 12038 and the center hole 12031, and the eighth guide groove is disposed between the eighth round hole 12039 and the center hole 12031.

In this embodiment, the circular hole structure includes eight circular holes, which are the first circular hole 12032, the second circular hole 12033, the third circular hole 12034, the fourth circular hole 12035, the fifth circular hole 12036, the sixth circular hole 12037, the seventh circular hole 12038, and the eighth circular hole 12039, respectively; the guide groove structure comprises eight guide grooves, which are the first guide groove, the second guide groove, the third guide groove, the fourth guide groove, the fifth guide groove, the sixth guide groove, the seventh guide groove and the eighth guide groove, the round hole structures are uniformly arranged around the center hole 12031, the distance between the first round hole 12032 and the second round hole 12033, the distance between the second round hole 12033 and the third round hole 12034, the distance between the third round hole 12034 and the fourth round hole 12035, the distance between the fourth round hole 12035 and the fifth round hole 12036, the distance between the fifth round hole 12036 and the sixth round hole 12037, the distance between the sixth round hole 12037 and the seventh round hole 12038, the distance between the seventh round hole 12038 and the eighth round hole 12039, the distance between the eighth round hole 12039 and the first round hole 12032 are all equal, the distance between the seventh round hole 12032, the seventh round hole 12036 and the fourth round hole 12036 are formed around the center hole 12031, the seventh round hole 12032, the seventh round hole 12037 and the eighth round hole 12036; the first guide groove is disposed between the first round hole 12032 and the center hole 12031, the second guide groove is disposed between the second round hole 12033 and the center hole 12031, the third guide groove is disposed between the third round hole 12034 and the center hole 12031, the fourth guide groove is disposed between the fourth round hole 12035 and the center hole 12031, the fifth guide groove is disposed between the fifth round hole 12036 and the center hole 12031, the sixth guide groove is disposed between the sixth round hole 12037 and the center hole 12031, the seventh guide groove is disposed between the seventh round hole 12038 and the center hole 12031, the eighth guide groove is disposed between the eighth round hole 12039 and the center hole 12031, and each round hole and the center hole 12031 have a guide groove such that each round hole is communicated with the center hole 12031 through the guide groove.

In one embodiment, as shown in fig. 1,2,3 and 5, the capturing net 1207 includes a capturing net body 12071, a first weight 12072, a second weight 12073, a third weight 12074, a fourth weight 12075, a fifth weight 12076, a sixth weight 12077, a seventh weight 12078 and an eighth weight 12079; the first weight 12072, the second weight 12073, the third weight 12074, the fourth weight 12075, the fifth weight 12076, the sixth weight 12077, the seventh weight 12078, and the eighth weight 12079 are all connected to the capturing net body 12071.

In this embodiment, the capturing net 1207 includes the capturing net body 12071, the first weight 12072, the second weight 12073, the third weight 12074, the fourth weight 12075, the fifth weight 12076, the sixth weight 12077, the seventh weight 12078, and the eighth weight 12079, and the first weight 12072, the second weight 12073, the third weight 12074, the fourth weight 12075, the fifth weight 12076, the sixth weight 12077, the seventh weight 12078, and the eighth weight 12079 are all connected to the capturing net body 12071; the capturing net body 12071 is a square capturing net 1207, and the center point of each side and each vertex angle of the capturing net body 12071 are provided with an extension line, that is, eight extension lines are provided for the capturing net body 12071, and each extension line is respectively connected with a heavy hammer; so that the first weight 12072, the second weight 12073, the third weight 12074, the fourth weight 12075, the fifth weight 12076, the sixth weight 12077, the seventh weight 12078, and the eighth weight 12079 can add weight to the capturing net body 12071 all around, so that the capturing net body 12071 can be spread more easily when being launched.

In an embodiment, as shown in fig. 1, 2, 3, 4 and 5, the capturing net 1207 is disposed in the central hole 12031, the first weight 12072 is matched with the first round hole 12032, the second weight 12073 is matched with the second round hole 12033, the third weight 12074 is matched with the third round hole 12034, the fourth weight 12075 is matched with the fourth round hole 12035, the fifth weight 12076 is matched with the fifth round hole 12036, the sixth weight 12077 is matched with the sixth round hole 12037, the seventh weight 12078 is matched with the seventh round hole 12038, and the eighth weight 12079 is matched with the eighth round hole 12039.

In this embodiment, the capturing net 1207 is received in the center hole 12031, the first weight 12072 is received in the first round hole 12032, the second weight 12073 is received in the second round hole 12033, the third weight 12074 is received in the third round hole 12034, the fourth weight 12075 is received in the fourth round hole 12035, the fifth weight 12076 is received in the fifth round hole 12036, the sixth weight 12077 is received in the sixth round hole 12037, the seventh weight 12078 is received in the seventh round hole 12038, and the eighth weight 12079 is received in the eighth round hole 12039; the eight extension lines of the capturing net 1207 connected with the eight weights are respectively placed in the first guide groove, the second guide groove, the third guide groove, the fourth guide groove, the fifth guide groove, the sixth guide groove, the seventh guide groove and the eighth guide groove, so that the eight extension lines of the capturing net 1207 do not protrude out of the surface of the emitter 1203 after the capturing net 1207 is accommodated, and the front baffle 1202 is connected with the emitter 1203 in a more fitting manner.

In one embodiment, as shown in fig. 1 and 2, the power assembly 130 includes a housing and a small gas cylinder; the small gas cylinder is arranged in the shell; the outer shell is provided with protruding points, one side of the net gun main body 110, which is close to the net gun rear cover 140, is provided with fool-proof grooves, and the protruding points are matched with the fool-proof grooves.

In this embodiment, the power assembly 130 includes the housing and the small gas cylinder, where the small gas cylinder is disposed inside the housing, and the housing can protect the small gas cylinder from being damaged and leaking in the storage process; the shell is provided with protruding points, one side of the net gun main body 110, which is close to the net gun rear cover 140, is provided with foolproof grooves, and the protruding points are matched with the foolproof grooves, so that the power assembly 130 is prevented from being installed in the net gun main body 110, and the installation efficiency of the power assembly 130 is improved.

In one embodiment, as shown in fig. 1 and 2, the small gas cylinder has a weight of 12g or 16g.

In this embodiment, the small gas cylinder has two specifications, which are respectively a small gas cylinder with a weight of 12g or a small gas cylinder with a weight of 16g, and because of cold-shrinking thermal expansion, the volume of the gas stored in the small gas cylinder is affected by temperature, that is, the power provided by the gas stored in the small gas cylinder is affected by temperature, so Xia Tianshi, the weight of the small gas cylinder used is 12g, and the power requirement can be met only when the weight of the small gas cylinder used in winter is 16 g.

In one embodiment, as shown in fig. 1 and 6, the unmanned aerial vehicle 20 includes an unmanned aerial vehicle body 210, a first propeller assembly 220, a second propeller assembly 230, a third propeller assembly 240, and a fourth propeller assembly 250; the first propeller assembly 220, the second propeller assembly 230, the third propeller assembly 240, and the fourth propeller assembly 250 are all connected to the unmanned aerial vehicle body 210; the capturing net gun 10 is fixed to the top end of the unmanned aerial vehicle body 210.

In this embodiment, the unmanned aerial vehicle 20 is mainly composed of five parts, namely the unmanned aerial vehicle main body 210, the first propeller assembly 220, the second propeller assembly 230, the third propeller assembly 240 and the fourth propeller assembly 250; the first propeller assembly 220, the second propeller assembly 230, the third propeller assembly 240, and the fourth propeller assembly 250 are all connected to the unmanned aerial vehicle body 210, and the first propeller assembly 220, the second propeller assembly 230, the third propeller assembly 240, and the fourth propeller assembly 250 may power the unmanned aerial vehicle body 210; the capturing net gun 10 is fixed to the top end of the unmanned aerial vehicle body 210, so that the capturing net gun 10 can utilize the characteristics of the unmanned aerial vehicle 20, so that the capturing net gun 10 can disregard the terrain limitation and realize the remote control.

In an embodiment, as shown in fig. 1 and 6, the first propeller assembly 220 includes a first horn, a first upper propeller, and a first lower propeller, one end of the first horn is connected to the unmanned aerial vehicle body 210, and the top of the other end of the first horn is connected to the first upper propeller, and the bottom is connected to the first lower propeller; the second propeller assembly 230 includes a second horn, a second upper propeller, and a second lower propeller, two ends of the second horn are connected to the unmanned aerial vehicle main body 210, and a top of the other end of the second horn is connected to the second upper propeller, and a bottom is connected to the second lower propeller; the third propeller assembly 240 includes a third horn, a third upper propeller, and a third lower propeller, one end of the third horn is connected to the unmanned aerial vehicle body 210, and the top of the other end of the third horn is connected to the third upper propeller, and the bottom is connected to the third lower propeller; the fourth propeller assembly 250 includes a fourth horn, a fourth upper propeller and a fourth lower propeller, one end of the fourth horn is connected to the unmanned aerial vehicle body 210, and the top of the other end of the fourth horn is connected to the fourth upper propeller, and the bottom is connected to the fourth lower propeller.

In this embodiment, the first propeller assembly 220 includes a first horn, a first upper propeller, and a first lower propeller, one end of the first horn is connected to the unmanned aerial vehicle body 210, the top of the other end of the first horn is connected to the first upper propeller, and the bottom is connected to the first lower propeller; the second propeller assembly 230 includes a second horn, a second upper propeller, and a second lower propeller, two ends of the second horn are connected to the unmanned aerial vehicle main body 210, and a top of the other end of the second horn is connected to the second upper propeller, and a bottom is connected to the second lower propeller; the third propeller assembly 240 includes a third horn, a third upper propeller, and a third lower propeller, one end of the third horn is connected to the unmanned aerial vehicle body 210, and the top of the other end of the third horn is connected to the third upper propeller, and the bottom is connected to the third lower propeller; the fourth propeller assembly 250 includes a fourth horn, a fourth upper propeller, and a fourth lower propeller, wherein one end of the fourth horn is connected to the unmanned aerial vehicle body 210, and the top of the other end of the fourth horn is connected to the fourth upper propeller, and the bottom is connected to the fourth lower propeller; each propeller assembly has two propellers that can provide stronger lift for the unmanned aerial vehicle 20, so that the unmanned aerial vehicle 20 can lift off more quickly, and more emergency events can be handled more quickly.

The application discloses a capturing net gun device based on an unmanned aerial vehicle, which comprises a capturing net gun and the unmanned aerial vehicle; the capturing net gun is fixed at the top end of the unmanned aerial vehicle; the capturing net gun comprises a net gun main body, a capturing net component, a power component and a net gun rear cover; the net gun rear cover is connected with one end of the net gun main body far away from the capturing net assembly, and fixes the power assembly inside the net gun main body; wherein the power component is used for transmitting the capturing net in the capturing net component. The method has the advantages that the capturing net gun is combined with the unmanned aerial vehicle, so that the characteristic that the unmanned aerial vehicle can remotely control is utilized, and the use radius of the capturing net gun is increased.

While the application has been described with reference to certain preferred embodiments, it will be understood by those skilled in the art that various changes and substitutions of equivalents may be made and equivalents will be apparent to those skilled in the art without departing from the scope of the application. Therefore, the protection scope of the application is subject to the protection scope of the claims.

Claims (10)

1. The capturing net gun device based on the unmanned aerial vehicle is characterized by comprising a capturing net gun and the unmanned aerial vehicle; the capturing net gun is fixed at the top end of the unmanned aerial vehicle; the capturing net gun comprises a net gun main body, a capturing net component, a power component and a net gun rear cover; the net gun rear cover is connected with one end of the net gun main body far away from the capturing net assembly, and fixes the power assembly inside the net gun main body; wherein the power component is used for transmitting the capturing net in the capturing net component.

2. The unmanned aerial vehicle-based capture net gun device of claim 1, wherein the capture net assembly comprises a front cover, a front baffle, a firing head, a rear baffle, a rear cover, a firing head mount, and the capture net; the front cover fixes the front baffle plate at one end of the transmitting head, and the rear cover fixes the rear baffle plate at one end of the transmitting head far away from the front baffle plate; the capturing net is arranged in the transmitting head and is positioned between the front baffle plate and the rear baffle plate; one end of the transmitting head seat is sleeved at one end of the transmitting head far away from the front baffle plate, and the other end of the transmitting head seat is connected with the net gun main body.

3. The unmanned aerial vehicle-based capture net gun device of claim 2, wherein the emitter head is provided with a circular hole structure, a guide groove structure and a central hole; the central hole penetrates through the transmitting head, and the central axis of the central hole and the central axis of the transmitting head are on the same straight line; the round hole structure is arranged at one end of the transmitting head, which is connected with the front baffle, and the guide groove structure is arranged between the round hole structure and the center hole.

4. The unmanned aerial vehicle-based capture net gun device of claim 3, wherein the circular hole structure comprises a first circular hole, a second circular hole, a third circular hole, a fourth circular hole, a fifth circular hole, a sixth circular hole, a seventh circular hole, and an eighth circular hole; the guide groove structure comprises a first guide groove, a second guide groove, a third guide groove, a fourth guide groove, a fifth guide groove, a sixth guide groove, a seventh guide groove and an eighth guide groove; the distance between the first round hole and the second round hole, the distance between the second round hole and the third round hole, the distance between the third round hole and the fourth round hole, the distance between the fourth round hole and the fifth round hole, the distance between the fifth round hole and the sixth round hole, the distance between the sixth round hole and the seventh round hole, the distance between the seventh round hole and the eighth round hole, and the distance between the eighth round hole and the first round hole are all equal;

the first guide groove is arranged between the first round hole and the center hole, the second guide groove is arranged between the second round hole and the center hole, the third guide groove is arranged between the third round hole and the center hole, the fourth guide groove is arranged between the fourth round hole and the center hole, the fifth guide groove is arranged between the fifth round hole and the center hole, the sixth guide groove is arranged between the sixth round hole and the center hole, the seventh guide groove is arranged between the seventh round hole and the center hole, and the eighth guide groove is arranged between the eighth round hole and the center hole.

5. The unmanned aerial vehicle-based capture net gun device of claim 4, wherein the capture net comprises a capture net body, a first weight, a second weight, a third weight, a fourth weight, a fifth weight, a sixth weight, a seventh weight, and an eighth weight; the first weight, the second weight, the third weight, the fourth weight, the fifth weight, the sixth weight, the seventh weight, and the eighth weight are all connected to the capturing net body.

6. The unmanned aerial vehicle-based capturing net gun device according to claim 5, wherein the capturing net is arranged in the central hole, the first weight is matched with the first round hole, the second weight is matched with the second round hole, the third weight is matched with the third round hole, the fourth weight is matched with the fourth round hole, the fifth weight is matched with the fifth round hole, the sixth weight is matched with the sixth round hole, the seventh weight is matched with the seventh round hole, and the eighth weight is matched with the eighth round hole.

7. The unmanned aerial vehicle-based capture net gun device of claim 6, wherein the power assembly comprises a housing and a small gas cylinder; the small gas cylinder is arranged in the shell; the shell is provided with protruding points, one side of the net gun main body, which is close to the net gun rear cover, is provided with fool-proof grooves, and the protruding points are matched with the fool-proof grooves.

8. The unmanned aerial vehicle-based capture net gun device of claim 7, wherein the small gas cylinder weighs 12g or 16g.

9. The unmanned aerial vehicle-based capture net gun device of claim 8, wherein the unmanned aerial vehicle comprises an unmanned aerial vehicle body, a first propeller assembly, a second propeller assembly, a third propeller assembly, and a fourth propeller assembly; the first propeller assembly, the second propeller assembly, the third propeller assembly and the fourth propeller assembly are all connected with the unmanned aerial vehicle main body; the capturing net gun is fixed at the top end of the unmanned aerial vehicle main body.

10. The unmanned aerial vehicle-based capture net gun device of claim 9, wherein the first propeller assembly comprises a first horn, a first upper propeller, and a first lower propeller, one end of the first horn being connected to the unmanned aerial vehicle body, the top of the other end of the first horn being connected to the first upper propeller, the bottom being connected to the first lower propeller; the second propeller assembly comprises a second horn, a second upper propeller and a second lower propeller, two ends of the second horn are connected with the unmanned aerial vehicle main body, the top of the other end of the second horn is connected with the second upper propeller, and the bottom of the other end of the second horn is connected with the second lower propeller; the third propeller assembly comprises a third horn, a third upper propeller and a third lower propeller, one end of the third horn is connected with the unmanned aerial vehicle main body, the top of the other end of the third horn is connected with the third upper propeller, and the bottom of the third horn is connected with the third lower propeller; the fourth propeller assembly comprises a fourth horn, a fourth upper propeller and a fourth lower propeller, one end of the fourth horn is connected with the unmanned aerial vehicle main body, and the top of the other end of the fourth horn is connected with the fourth upper propeller, and the bottom of the fourth horn is connected with the fourth lower propeller.