CN112857145A - Road instrument firearms control system and stage property firearms - Google Patents

Abstract

A control system of a road instrument gun relates to the field of prop guns and comprises a plurality of gun body groups and a remote operation end, wherein each gun body group comprises a plurality of gun bodies; the gun body comprises a gun body and a gun barrel, an electronic control panel, an exhaust solenoid valve and an electric arc ignition head are fixed in the gun body, a gas release switch joint and an electric arc ignition switch joint are arranged at the bottom of the gun body, and one end of each of the gas release switch joint and the electric arc ignition switch joint is connected with a power supply and the other end of the gas release switch joint and the other end of the electric arc ignition switch joint are connected with the electronic control; the remote operation end comprises a multi-component control end and a main control end, the sub-control end comprises an auxiliary mounting plate, an auxiliary air release switch and an auxiliary arc ignition switch, and the auxiliary air release switch and the auxiliary arc ignition switch are fixed on the auxiliary mounting plate; the main control end comprises a main mounting plate, a main air release switch and a main arc ignition switch, and the main air release switch and the main arc ignition switch are fixed on the main mounting plate. The application provides a railway apparatus firearms control system, it can produce light and explosion audio by remote operation, and can realize control in batches.

Description

Road instrument firearms control system and stage property firearms

Technical Field

The invention relates to the field of property firearms, in particular to a property firearm control system and a property firearm.

Background

In order to achieve the effect of real gun battle, a real gun for launching an empty-packet bullet is used in shooting, the empty-packet bullet cannot shoot a human body theoretically within 10 meters, but is affected by the shooting environment and the nonstandard operation of actors in the actual shooting process, so that the situation that the human body is injured is often caused.

To address the above, an authorization post number CN210374776U, named: the invention provides a stage property firearm flare synergistic module and Chinese invention patent of stage property firearm, and provides a stage property firearm, wherein the stage property firearm flare synergistic module is used in the firearm, and flare and explosion sound effects similar to real gun effects can be generated. However, the air release switch and the arc ignition switch are both arranged on the gun body, so that the prop gun needs to generate a light and an explosion sound effect similar to a real gun effect, and the prop gun needs to be operated by one hand-held prop gun in a manual scene, and in some special scenes of war movies, such as wild combat and hidden combat, the purpose of seeing the light and hearing the explosion sound effect is usually achieved, while the prop gun in the prior art needs to be operated in the manual scene, so that a large number of actors or group players need to be equipped, thereby undoubtedly increasing the cost and improving the scheduling difficulty of a shooting scene.

Disclosure of Invention

In order to solve the defect that exists among the above-mentioned prior art, this application provides a railway property firearms and stage property firearms control system, and wherein stage property firearms control system can remote operation produce light and explosion audio, and can realize batch control.

In order to achieve the technical effects, the specific technical scheme of the invention is as follows:

a road instrument firearm control system is characterized by comprising a plurality of groups of gun body groups and a remote operation end, wherein each group of gun body groups comprises a plurality of gun bodies;

the rifle body includes body, barrel, the body internal fixation has gas pitcher, gas mixing chamber, electronic control board, exhaust solenoid valve, electric arc ignition head, and electronic control board, it is current product, promptly for authorizing bulletin number CN210374776U, the name is: the invention relates to a fire light synergy module of a prop firearm and an electronic control board in Chinese invention patent of the prop firearm. The gun body is characterized in that the gas mixing cavity is arranged at the front part of the gun body, which is close to the gun barrel, the gas outlet of the gas mixing cavity is communicated with the gun barrel, the gas tank is connected with the gas mixing cavity through a gas transmission pipeline, the exhaust electromagnetic valve is arranged on the gas transmission pipeline, the arc ignition head is arranged at the gas outlet of the gas mixing cavity, the electronic control board is connected with the exhaust electromagnetic valve and the arc ignition head, a power supply is used for supplying power to the electronic control board, the exhaust electromagnetic valve and the arc ignition head, the bottom of the gun body is provided with a deflation switch joint and an arc ignition switch joint, one end of the deflation switch joint is connected with the power supply, the other end of the deflation switch joint is connected with the electronic control board, one end of the arc ignition switch joint;

the remote operation end comprises branch control ends and a total control end, the number of the branch control ends corresponds to the number of the gun body groups, the branch control ends comprise an auxiliary mounting plate, an auxiliary air release switch and an auxiliary arc ignition switch, and the auxiliary air release switch and the auxiliary arc ignition switch are fixed on the auxiliary mounting plate; the main control end comprises a main mounting plate, a main air release switch and a main arc ignition switch, and the main air release switch and the main arc ignition switch are fixed on the main mounting plate;

the auxiliary air release switch comprises a shell a, an auxiliary air release knife switch is arranged on the shell a, a plurality of rows of auxiliary air release switch joints are horizontally distributed on the side wall of the shell a from top to bottom, plugs of one row of the auxiliary air release switch joints on the left side are connected with static contacts of the auxiliary air release knife switch through common-pole metal sheets, and plugs of one row of the auxiliary air release switch joints on the right side are also connected with a moving contact of the auxiliary air release knife switch through the common-pole metal sheets; the auxiliary arc ignition switch comprises a shell b, an auxiliary arc ignition knife switch is arranged on the shell b, a plurality of rows of auxiliary arc ignition switch joints are horizontally distributed on the side wall of the shell b from top to bottom, plugs of one row of the auxiliary arc ignition switch joints on the left side are connected with static contacts of the auxiliary arc ignition knife switch through common-pole metal sheets, and plugs of one row of the auxiliary air release switch joints on the right side are also connected with moving contacts of the auxiliary arc ignition knife switch through common-pole metal sheets;

the main air release switch comprises a shell c, a main air release knife switch is arranged on the shell c, a plurality of rows of main air release switch joints are horizontally distributed on the side wall of the shell c from top to bottom, plugs of one row of the main air release switch joints on the left side are connected with the fixed contact of the main air release knife switch through common-pole metal sheets, and plugs of one row of the main air release switch joints on the right side are also connected with the movable contact of the main air release knife switch through common-pole metal sheets; the main arc ignition switch comprises a shell d, a main arc ignition knife switch is arranged on the shell d, a plurality of rows of main arc ignition switch joints are horizontally distributed on the side wall of the shell d from top to bottom, plugs of a row of the main arc ignition switch joints on the left side are connected with static contacts of the main arc ignition knife switch through common-pole metal sheets, and plugs of a row of the main air release switch joints on the right side are also connected with a moving contact of the main arc ignition knife switch through the common-pole metal sheets; the main air bleeding switch and the auxiliary air bleeding switch can be designed into the same structure, the main arc ignition switch and the auxiliary arc ignition switch can also be designed into the same structure, the basic functions of the main air bleeding switch, the auxiliary air bleeding switch, the main arc ignition switch and the auxiliary arc ignition switch are all used for closing and electrifying, and the main air bleeding switch, the auxiliary air bleeding switch, the main arc ignition switch and the auxiliary arc ignition switch can also be designed into the same structure;

the air release switch joint and the arc ignition switch joint on each gun body are respectively connected with a row of auxiliary air release switch joints on the auxiliary air release switches corresponding to one group of sub-control ends and a row of auxiliary arc ignition switch joints on the auxiliary arc ignition switches through double-plug quick connector power lines, wherein the double-plug quick connector power line is a power line which is common in power electronics; a row of auxiliary air release switch joints on the auxiliary air release switch of each group of sub-control ends and a row of auxiliary arc ignition switch joints on the auxiliary arc ignition switch are also respectively connected with a row of main air release switch joints on the main air release switch of the main control end and a row of main arc ignition switch joints on the main arc ignition switch through a double-plug quick connector power line;

the electronic control board is used for controlling whether the exhaust electromagnetic valve is opened or closed according to the triggering conditions of the auxiliary air release switch and the main air release switch;

the electronic control board is also used for controlling whether the electric arc ignition head is ignited or not according to the triggering conditions of the auxiliary electric arc ignition switch and the main electric arc ignition switch.

Further, the gas tank is an inflatable gas tank, and an inflation port of the gas tank is positioned outside the gun body.

Further, the power supply is a rechargeable battery.

Furthermore, a groove for installing the air release switch joint and the arc ignition switch joint is formed in the gun body.

Furthermore, a GPS positioning chip is fixed in the gun body and connected with a power supply. Through GPS positioning chip, the position of every rifle body can be known to the cooperation positioning terminal who accepts geographical position information again, conveniently manages, the collection all rifle bodies, avoids losing.

Further, the gas in the gas tank is butane.

A road instrument gun comprises a gun body and a gun barrel, wherein a gas tank, a gas mixing cavity, an electronic control panel, an exhaust electromagnetic valve and an electric arc ignition head are fixed in the gun body, the front part of the gun body is close to the gun barrel, the gas mixing cavity is arranged in the gas mixing cavity, a gas outlet of the gas mixing cavity is communicated with the gun barrel, the gas tank is connected with the gas mixing cavity through a gas transmission pipeline, the exhaust electromagnetic valve is arranged on the gas transmission pipeline, the electric arc ignition head is arranged at a gas outlet of the gas mixing cavity, the electronic control panel is connected with the exhaust electromagnetic valve and the electric arc ignition head, a power supply is used for supplying power to the electronic control panel, the exhaust electromagnetic valve and the electric arc ignition head, a gas release switch connector and an electric arc ignition switch connector are arranged at the bottom of the gun body, one end of the gas release switch connector, one end of the arc ignition switch connector is connected with the power supply, and the other end of the arc ignition switch connector is connected with the electronic control board.

Further, the gas tank is an inflatable gas tank, and an inflation port of the gas tank is positioned outside the gun body.

Furthermore, a groove for installing the air release switch joint and the arc ignition switch joint is formed in the gun body.

Furthermore, a GPS positioning chip is fixed in the gun body and connected with a power supply.

According to the technical scheme, compared with the prior art, the invention has the advantages that the auxiliary air release switch and the auxiliary electric arc ignition switch of each sub-control end of the remote operation end respectively send air tank air release information and electric arc ignition head ignition information when respectively acting through the electronic control board and send the air tank air release information and the electric arc ignition head ignition information to the exhaust electromagnetic valve and the electric arc ignition head of each gun body of the corresponding gun body group, the exhaust electromagnetic valve and the electric arc ignition head receive the respective information and respectively act, so that the air in the air tank is filled into the air mixing cavity and the electric arc of the electric arc ignition head, the air is ignited in the air mixing cavity with smaller space, the light and the explosion sound effect similar to the real gun effect are generated to a batch of gun bodies according to the required batch and time, the light and the explosion sound effect are more accurate compared with the wireless, the realization cost is lower; when the main air release switch and the main arc ignition switch of the master control end of the remote operation end act respectively, all gun bodies can generate flare and explosion sound effects similar to real gun effects simultaneously.

Drawings

The present application will be described in further detail below with reference to the accompanying drawings by way of specific embodiments.

FIG. 1 is an overall schematic view of the present invention;

FIG. 2 is a schematic view of a group of gun bodies and corresponding sub-control terminals according to the present invention;

FIG. 3 is a schematic view of the secondary bleed switch of the present invention;

FIG. 4 is a schematic illustration of the interconnect shown in FIG. 3;

FIG. 5 is a schematic diagram of a dual plug quick connector power cord of the present invention;

FIG. 6 is a schematic view of a gun body according to the present invention;

FIG. 7 is an enlarged view of portion A of FIG. 6;

wherein, 1, the gun body; 2. a gun body; 3. a barrel; 4. a gas tank; 41. an inflation inlet; 5. a gas mixing chamber; 6. an electronic control board; 7. an exhaust solenoid valve; 8. an arc ignition head; 9. a power source; 10. a deflation switch joint; 11. an arc ignition switch connection; 12. a remote operation terminal; 13. a control end is divided; 14. a master control end; 15. an auxiliary mounting plate; 16. an auxiliary air release switch; 161. a shell a; 162. an auxiliary air bleeding knife switch; 163. an auxiliary air release switch joint; 164. a common-pole metal sheet; 17. a secondary arc ignition switch; 18. a main mounting plate; 19. a total deflation switch; 20. a main arc ignition switch; 21. a double plug quick connector power cord; 22. and a GPS positioning chip.

Detailed Description

In order to make the objects, technical solutions and advantages of the present embodiments more clear, the technical solutions in the present embodiments will be described clearly and completely below with reference to the accompanying drawings in the present embodiments, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present application.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integral; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

Example one

As shown in fig. 1, a control system for a road instrument firearm is characterized by comprising a plurality of gun body groups and a remote operation end 12, wherein each gun body group comprises a plurality of gun bodies 1.

As shown in fig. 6 and 7, the gun body 1 includes a gun body 2 and a gun barrel 3, a gas tank 4, a gas mixing chamber 5, an electronic control board 6, an exhaust solenoid valve 7 and an electric arc ignition head 8 are fixed in the gun body 2, the front portion of the gun body 2 is close to the gun barrel 3, the gas mixing chamber 5 is installed, a gas outlet of the gas mixing chamber 5 is communicated with the gun barrel 3, the gas tank 4 is connected with the gas mixing chamber 5 through a gas transmission pipeline, the exhaust solenoid valve 7 is installed on the gas transmission pipeline, the electric arc ignition head 8 is installed at a gas outlet of the gas mixing chamber 5, the electronic control board 6 is connected with the exhaust solenoid valve 7 and the electric arc ignition head 8, a power supply 9 is used for supplying power to the electronic control board 6, the exhaust solenoid valve 7 and the electric arc ignition head 8, and a gas discharge switch joint 10, a gas discharge switch joint, The arc ignition switch connects 11, gassing switch connects 10 one end with the power 9 is connected, the other end with electronic control board 6 is connected, arc ignition switch connects 11 one end with the power 9 is connected, the other end with electronic control board 6 is connected.

As shown in fig. 1 and 2, the remote operation end 12 includes a number of sub control ends 13 corresponding to the number of gun body groups and a total control end 14, the sub control ends 13 include an auxiliary mounting plate 15, an auxiliary air release switch 16 and an auxiliary arc ignition switch 17, and the auxiliary air release switch 16 and the auxiliary arc ignition switch 17 are fixed on the auxiliary mounting plate 15; the main control end 14 comprises a main mounting plate 18, a main deflation switch 19 and a main arc ignition switch 20, wherein the main deflation switch 19 and the main arc ignition switch 20 are fixed on the main mounting plate 18.

As shown in fig. 3 and 4, the auxiliary air bleeding switch 16 includes a casing a161, an auxiliary air bleeding blade switch 162 is disposed on the casing a161, a plurality of rows of auxiliary air bleeding switch joints 163 are horizontally distributed on a sidewall of the casing a161 from top to bottom, plugs of the rows of auxiliary air bleeding switch joints 163 located in a left column are connected to the fixed contacts of the auxiliary air bleeding blade switch 162 through common-pole metal sheets 164, and plugs of the rows of auxiliary air bleeding switch joints 163 located in a right column are also connected to the movable contacts of the auxiliary air bleeding blade switch through common-pole metal sheets; the auxiliary arc ignition switch comprises a shell b, an auxiliary arc ignition knife switch is arranged on the shell b, a plurality of rows of auxiliary arc ignition switch joints are horizontally distributed on the side wall of the shell b from top to bottom, the plugs of one row of the auxiliary arc ignition switch joints on the left side are connected with the static contacts of the auxiliary arc ignition knife switch through common-pole metal sheets, and the plugs of one row of the auxiliary air release switch joints on the right side are also connected with the moving contacts of the auxiliary arc ignition knife switch through the common-pole metal sheets.

The main air release switch comprises a shell c, a main air release knife switch is arranged on the shell c, a plurality of rows of main air release switch joints are horizontally distributed on the side wall of the shell c from top to bottom, plugs of one row of the main air release switch joints on the left side are connected with the fixed contact of the main air release knife switch through common-pole metal sheets, and plugs of one row of the main air release switch joints on the right side are also connected with the movable contact of the main air release knife switch through common-pole metal sheets; the main arc ignition switch comprises a shell d, a main arc ignition knife switch is arranged on the shell d, a plurality of rows of main arc ignition switch joints are horizontally distributed on the side wall of the shell d from top to bottom, the main arc ignition switch joints are arranged on the left side of the shell d and are connected with static contacts of the main arc ignition knife switch through common-pole metal sheets, and the main air release switch joints are arranged on the right side of the shell d and are also connected with moving contacts of the main arc ignition knife switch through common-pole metal sheets.

It should be noted that, because the basic functions of the main bleed switch, the auxiliary bleed switch, the main arc ignition switch and the auxiliary arc ignition switch are all used for closing and powering up, for simplicity of description and practical design simplicity, the four switches are designed to have the same structure, the structure of the auxiliary bleed switch is described in detail in this embodiment, and the structure of the main bleed switch, the structure of the main arc ignition switch and the structure of the auxiliary arc ignition switch are the same, which is not further described herein.

The air release switch joint 10 and the arc ignition switch joint 11 on each gun body 1 are respectively connected with a row of auxiliary air release switch joints and a row of auxiliary arc ignition switch joints on auxiliary air release switches corresponding to a group of sub-control ends through a double-plug quick-connection power line 21, wherein the double-plug quick-connection power line is a power line common in power electronics, as shown in fig. 5, the double-plug quick-connection joints at the two ends of the double-plug quick-connection power line are matched with the air release switch joint 10, the arc ignition switch joint 11, the auxiliary air release switch joints, the auxiliary arc ignition switch joints, the total air release switch joint and the total arc ignition switch joint, and quick connection can be realized; and each group of the auxiliary deflation switch at the sub-control end is provided with one row of auxiliary deflation switch joints and one row of auxiliary arc ignition switch joints, and the auxiliary arc ignition switch joints are also respectively connected with one row of main deflation switch joints and one row of main arc ignition switch joints on the main deflation switch at the main control end through a double-plug quick connector power line. In order to ensure that the wiring is normally carried out, the number of gun bodies in one gun body group is assumed to be m, the number of rows of auxiliary air release switches on the corresponding sub-control ends, the number of rows of auxiliary air release switch joints on the auxiliary arc ignition switches and the number of rows of auxiliary arc ignition switch joints are at least m +1, at least one row of auxiliary air release switch joints and auxiliary arc ignition switch joints which are arranged are used for being connected with a main air release switch on the main control end, a main air release switch joint on the main arc ignition switch and a main arc ignition switch joint, and if the number of the sub-control ends is n, the number of rows of main air release switches on the main control end, the number of rows of main air release switch joints on the main arc ignition switch and the number of rows of main arc ignition switch joints.

The electronic control board 6 is used for controlling whether to open and close the exhaust electromagnetic valve 7 according to the triggering conditions of the auxiliary air bleeding switch 16 and the main air bleeding switch 19.

The electronic control board 6 is also used for controlling whether the arc ignition head 8 is ignited or not according to the triggering conditions of the auxiliary arc ignition switch 17 and the main arc ignition switch 20.

Wherein, the gas tank 4 is an inflatable gas tank, the gas in the gas tank 4 is butane, and an inflation inlet 41 thereof is positioned outside the gun body 2.

Wherein the power supply is a rechargeable battery.

Wherein, set up in the body of a gun 2 and be used for installing gassing switch connects 10, the recess (not shown in the figure) of arc ignition switch joint 11, still be equipped with the plastics cover plate that can overturn and open on the recess, the plastics cover plate is airtight to the recess at ordinary times, prevents into grey intake.

In addition, as shown in fig. 6, a GPS positioning chip 22 is further fixed in the gun body 2, and the GPS positioning chip 22 is connected with the power supply 9.

Example two

As shown in fig. 6 and 7, a road instrument gun comprises a gun body 2 and a gun barrel 3, wherein a gas tank 4, a gas mixing chamber 5, an electronic control board 6, an exhaust electromagnetic valve 7 and an electric arc ignition head 8 are fixed in the gun body 2, the front part of the gun body 2 close to the gun barrel 3 is provided with the gas mixing chamber 5, a gas outlet of the gas mixing chamber 5 is communicated with the gun barrel 3, the gas tank 4 is connected with the gas mixing chamber 5 through a gas transmission pipeline, the exhaust electromagnetic valve 7 is arranged on the gas transmission pipeline, the electric arc ignition head 8 is arranged at a gas outlet of the gas mixing chamber 5, the electronic control board 6 is connected with the exhaust electromagnetic valve 7 and the electric arc ignition head 8, a power supply 9 is used for supplying power to the electronic control board 6, the exhaust electromagnetic valve 7 and the electric arc ignition head 8, and a gas discharge switch joint 10 is arranged at the bottom of the gun, The arc ignition switch connects 11, gassing switch connects 10 one end with the power 9 is connected, the other end with electronic control board 6 is connected, arc ignition switch connects 11 one end with the power 9 is connected, the other end with electronic control board 6 is connected.

Wherein, the gas tank 4 is an inflatable gas tank, and an inflation inlet 41 thereof is positioned outside the gun body 2.

Wherein, set up in the body of a gun 2 and be used for installing gassing switch connects, the recess of arc ignition switch joint.

In addition, still be fixed with GPS positioning chip 22 in the body of a gun 2, GPS positioning chip is connected with the power.

The present invention has been described in terms of specific examples, which are provided to aid understanding of the invention and are not intended to be limiting. For a person skilled in the art to which the invention pertains, several simple deductions, modifications or substitutions may be made according to the idea of the invention.

Claims (10)

1. The road instrument gun control system is characterized by comprising a plurality of gun body groups and a remote operation end (12), wherein each gun body group comprises a plurality of gun bodies (1);

rifle body (1) is including body of a gun (2), barrel (3), body of a gun (2) internal fixation has gas pitcher (4), gas mixing chamber (5), electronic control board (6), exhaust solenoid valve (7), electric arc ignition head (8), body of a gun (2) front portion is close to barrel (3) department installs gas mixing chamber (5), the gas outlet of gas mixing chamber (5) with barrel (3) intercommunication, gas pitcher (4) with connect through the gas pipeline between gas mixing chamber (5), exhaust solenoid valve (7) install in on the gas pipeline, electric arc ignition head (8) install in the gas outlet department of gas mixing chamber (5), electronic control board (6) with exhaust solenoid valve (7), electric arc ignition head (8) are connected, power (9) be used for to electronic control board (6) and electric arc ignition head (8), An exhaust electromagnetic valve (7) and an electric arc ignition head (8) are used for supplying power, a deflation switch joint (10) and an electric arc ignition switch joint (11) are arranged at the bottom of the gun body (2), one end of the deflation switch joint (10) is connected with the power supply (9), the other end of the deflation switch joint is connected with the electronic control board (6), one end of the electric arc ignition switch joint (11) is connected with the power supply (9), and the other end of the electric arc ignition switch joint is connected with the electronic control board (6);

the remote operation end (12) comprises branch control ends (13) and a total control end (14), the number of the branch control ends corresponds to that of the gun body groups, the branch control ends (13) comprise auxiliary mounting plates (15), auxiliary gas release switches (16) and auxiliary arc ignition switches (17), and the auxiliary gas release switches (16) and the auxiliary arc ignition switches (17) are fixed on the auxiliary mounting plates (15); the main control end (14) comprises a main mounting plate (18), a main deflation switch (19) and a main arc ignition switch (20), wherein the main deflation switch (19) and the main arc ignition switch (20) are fixed on the main mounting plate (18);

the auxiliary air release switch (16) comprises a shell a (161), an auxiliary air release knife switch (162) is arranged on the shell a (161), a plurality of rows of auxiliary air release switch joints (163) are horizontally distributed on the side wall of the shell a (161) from top to bottom, plugs of the rows of auxiliary air release switch joints (163) positioned in a left row are connected with static contacts of the auxiliary air release knife switch (162) through common-pole metal sheets (164), and plugs of the rows of auxiliary air release switch joints (163) positioned in a right row are also connected with movable contacts of the auxiliary air release knife switch through common-pole metal sheets; the auxiliary arc ignition switch comprises a shell b, an auxiliary arc ignition knife switch is arranged on the shell b, a plurality of rows of auxiliary arc ignition switch joints are horizontally distributed on the side wall of the shell b from top to bottom, plugs of one row of the auxiliary arc ignition switch joints on the left side are connected with static contacts of the auxiliary arc ignition knife switch through common-pole metal sheets, and plugs of one row of the auxiliary air release switch joints on the right side are also connected with moving contacts of the auxiliary arc ignition knife switch through common-pole metal sheets;

the main air release switch comprises a shell c, a main air release knife switch is arranged on the shell c, a plurality of rows of main air release switch joints are horizontally distributed on the side wall of the shell c from top to bottom, plugs of one row of the main air release switch joints on the left side are connected with the fixed contact of the main air release knife switch through common-pole metal sheets, and plugs of one row of the main air release switch joints on the right side are also connected with the movable contact of the main air release knife switch through common-pole metal sheets; the main arc ignition switch comprises a shell d, a main arc ignition knife switch is arranged on the shell d, a plurality of rows of main arc ignition switch joints are horizontally distributed on the side wall of the shell d from top to bottom, plugs of a row of the main arc ignition switch joints on the left side are connected with static contacts of the main arc ignition knife switch through common-pole metal sheets, and plugs of a row of the main air release switch joints on the right side are also connected with a moving contact of the main arc ignition knife switch through the common-pole metal sheets;

a gas release switch joint (10) and an arc ignition switch joint (11) on each gun body (1) are respectively connected with a row of auxiliary gas release switch joints on auxiliary gas release switches of a corresponding group of branch control ends and a row of auxiliary arc ignition switch joints on auxiliary arc ignition switches through a double-plug quick connector power line (21); a row of auxiliary air release switch joints on the auxiliary air release switch of each group of sub-control ends and a row of auxiliary arc ignition switch joints on the auxiliary arc ignition switch are also respectively connected with a row of main air release switch joints on the main air release switch of the main control end and a row of main arc ignition switch joints on the main arc ignition switch through a double-plug quick connector power line;

the electronic control board (6) is used for controlling whether the exhaust electromagnetic valve (7) is opened or closed according to the triggering conditions of the auxiliary air release switch (16) and the main air release switch (19);

the electronic control board (6) is also used for controlling whether the arc ignition head (8) is ignited or not according to the triggering conditions of the auxiliary arc ignition switch (17) and the main arc ignition switch (20).

2. A ballast firearm control system according to claim 1, characterised in that the gas tank (4) is an inflatable gas tank, the inflation port (41) of which is located outside the firearm body (2).

3. The ballast firearm control system of claim 1, wherein the power source is a rechargeable battery.

4. A track gun control system as claimed in claim 1, characterized in that the gun body (2) has recesses for mounting the bleeder switch fitting (10), the arc ignition switch fitting (11) and the like.

5. A track tool gun control system as claimed in any one of claims 1 to 4, characterized in that a GPS positioning chip (22) is also fixed in the gun body (2), and the GPS positioning chip (22) is connected with a power supply (9).

6. A track instrument firearm control system according to any of the claims 1-4, characterized in that the gas in the gas tank (4) is butane.

7. The utility model provides a road instrument firearms, a serial communication port, including body of a gun (2), barrel (3), body of a gun (2) internal fixation has gas pitcher (4), gas mixing chamber (5), electronic control board (6), exhaust solenoid valve (7), electric arc ignition head (8), body of a gun (2) front portion is close to barrel (3) department installs gas mixing chamber (5), the gas outlet of gas mixing chamber (5) with barrel (3) intercommunication, gas pitcher (4) with connect through the gas transmission pipeline between gas mixing chamber (5), exhaust solenoid valve (7) install in on the gas transmission pipeline, electric arc ignition head (8) install in the gas outlet department of gas mixing chamber (5), electronic control board (6) with exhaust solenoid valve (7), electric arc ignition head (8) are connected, power (9) be used for to electronic control board (6), The gas-discharging gun is characterized in that an exhaust electromagnetic valve (7) and an electric arc ignition head (8) are used for supplying power, a gas-discharging switch joint (10) and an electric arc ignition switch joint (11) are arranged at the bottom of the gun body (2), one end of the gas-discharging switch joint (10) is connected with a power supply (9), the other end of the gas-discharging switch joint is connected with an electronic control board (6), one end of the electric arc ignition switch joint (11) is connected with the power supply (9), and the other end of the electric arc ignition switch joint is connected with.

8. A road firearm as claimed in claim 7, characterised in that said tank (4) is an inflatable tank, the inflation port (41) of which is located outside said frame (2).

9. The ballast firearm as claimed in claim 7, wherein recesses are made in the body (2) for the mounting of the bleeder switch connection, the arc ignition switch connection.

10. A track gun as claimed in any one of claims 7 to 9, characterized in that a GPS positioning chip (22) is also fixed inside the frame (2), said GPS positioning chip being connected to a power supply.

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