CN112304156A - Stage property firearms firelight synergistic module and stage property firearms - Google Patents

Abstract

The invention provides a stage property firearms fire light synergy module which comprises a power supply, a butane gas tank, an air mixing cabin, an exhaust electromagnetic valve, an electronic control panel, an air release switch, an electric arc ignition switch and an electric arc ignition head, wherein the module is arranged at the joint of the front part of a gun body and a gun barrel, a user triggers the air release switch to open the exhaust electromagnetic valve, the butane gas tank conveys gas into the air mixing cabin, the user triggers the electric arc ignition switch, the electric arc ignition head ignites the mixed gas in the gun barrel, and the mixed gas is exploded and generates fire light and explosion sound effect after being ignited due to limited volume of the gun barrel. The invention also provides a road instrument firearm, and the fire light synergistic module is used in the firearm to generate fire light and explosion sound effects similar to real gun effects.

Description

Stage property firearms firelight synergistic module and stage property firearms

Technical Field

The invention belongs to the technical field of property firearms, and particularly relates to a property firearm fire light synergistic module used in a property firearm and a property firearm adopting the module.

Background

In order to achieve the effect of real gun battle, a real gun for launching the blank ammunition is used in shooting, the blank ammunition can not be shot on a human body theoretically within 10 meters, the influence of shooting environment is caused in the actual shooting process, and actors are used in an irregular way, so that the actors are injured frequently.

In consideration of safety, some dramas also use an electronic ignition gun and a plastic and wooden prop gun, the electronic ignition gun controls an igniter to ignite gunpowder through an electronic circuit, but the gunpowder belongs to a controlled article and still has certain danger, and the plastic and wooden prop gun has enough safety but poor authenticity and needs to be added with digital special effects and sound effect processing in post-production.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: on the premise of not using empty-packed ammunition or gunpowder, how to make the prop firearms have the fire light effect and the explosion sound effect of a real gun.

In order to solve the technical problems, the technical scheme of the invention is as follows:

the stage property firearms fire light synergy module comprises a power supply, a butane gas tank, an air mixing cabin, an exhaust electromagnetic valve, an electronic control board, a gas release switch, an electric arc ignition switch and an electric arc ignition head;

the power supply is used for supplying power to the whole module;

the butane gas tank is connected with the air mixing cabin through a gas transmission pipeline, and the exhaust electromagnetic valve is arranged on the gas transmission pipeline; an air outlet of the air mixing cabin is connected with a gun barrel of the prop gun; the electric arc ignition head is arranged at an air outlet of the air mixing cabin;

the air bleeding switch is connected with the electronic control board, the electromagnetic valve is connected with the electronic control board, and the electronic control board is used for controlling whether the air bleeding electromagnetic valve is opened or closed according to the triggering condition of the air bleeding switch;

the electric arc ignition switch is connected with the electronic control board, the electric arc ignition head is connected with the electronic control board, and the electronic control board is further used for controlling whether the electric arc ignition head is ignited or not according to the triggering condition of the electric arc ignition switch.

Optionally, the fire light synergistic module further comprises a housing, and the power supply, the butane gas tank, the air mixing cabin, the exhaust solenoid valve and the electronic control board are arranged in the housing; the air bleeding switch and the arc ignition switch are respectively connected with the electronic control board through leads. Therefore, parts except the air release switch and the arc ignition switch in the flame synergistic module can be integrated into a whole, and the module can be conveniently installed in the prop gun.

Optionally, the power supply is a rechargeable battery, and a charging port of the rechargeable battery is located outside the housing. Therefore, frequent disassembly of the shell and the power supply can be avoided, and the use is convenient.

Optionally, the fire and light synergistic module further comprises a power switch located outside the housing. Therefore, the power supply can be cut off through the power switch, the electronic control board is in a rest state, the electronic control board cannot respond to external trigger actions at the moment, and the service life of the power supply electric quantity and the service life of the control circuit board are protected.

Optionally, the butane gas tank is an inflatable gas tank, and an inflation port of the butane gas tank is positioned outside the outer shell. Therefore, frequent disassembly of the shell and the power supply can be avoided, and the use is convenient.

In addition, the invention also discloses a road instrument gun, which comprises a gun body, a handrail, a trigger, a gun barrel and the flare synergistic module, wherein an installation cavity is arranged at the front part of the gun body close to the gun barrel, the flare synergistic module is arranged in the installation cavity, and an air outlet of the air mixing cabin is communicated with the gun barrel.

Optionally, the air release switch is installed in the armrest, and an opening for exposing the air release switch is arranged at the bottom of the armrest. Therefore, when the user triggers the air release switch, no obvious key operation action exists, so that the triggering process is closer to the operation mode of a real gun.

Optionally, the arc ignition switch is mounted on the gun body near the trigger, and when the trigger is pulled, the trigger triggers the arc ignition switch backwards.

Optionally, a groove for installing the arc ignition switch is formed in the gun body. Therefore, the arc ignition switch is triggered for many times, the arc ignition switch cannot be displaced, and the using effect is stable and reliable.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the butane mixed gas discharged into the gun tube is ignited through the electric arc ignition head, so that the ignited butane gas generates an explosion effect in the gun tube with a limited volume;

2. the invention can set the air-out time of the air-out electromagnetic valve in the electronic control board to control the size of the fire light generated by explosion;

3. the air release switch and the arc ignition switch both adopt non-automatic reset switches, so that the continuous lighting effect can be realized only by triggering once, and the operation experience of a user is enhanced;

4. the invention integrates and modularizes the fire-light synergistic module, has small volume and convenient assembly, and can be matched with most toy guns and simulation guns in the market.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below.

FIG. 1 is a block diagram of a prop firearm disclosed in the embodiments;

FIG. 2 is a block diagram of a flare enhancement module disclosed in the examples;

fig. 3 is a circuit diagram of the fire and light synergistic module disclosed in the embodiment.

Detailed Description

In order to make the technical solutions of the present invention better understood by those skilled in the art, the present invention will be further described in detail with reference to the accompanying drawings and specific embodiments.

Examples

A prop firearm as shown in fig. 1 comprises a body 10, a trigger 20, an armrest 30 and a barrel 40, with a fire enhancement module 50 mounted on the front of the body 10 adjacent to the barrel 40. As shown in fig. 2, the flare effect enhancing module 50 includes a housing 51, a power supply 52, a butane gas tank 53, an air mixing chamber 54, an exhaust solenoid valve 55, an electronic control board 56, a gas release switch 57, an arc ignition switch 58 and an arc ignition head 59, wherein the gas release switch and the arc ignition switch are respectively connected with the electronic control board through wires, and the rest of the components except the arc ignition switch and the gas release switch are installed in the housing 51. The power supply 52 is used to supply power to the exhaust solenoid valve, the electronic control board, the bleed switch, the arc ignition switch, and the arc ignition head. The butane gas tank is connected with the air mixing cabin through a gas transmission pipeline, and the exhaust electromagnetic valve is arranged on the gas transmission pipeline; the air outlet of the air mixing chamber 54 is connected with the barrel 40 of the prop gun; an arc ignition head 59 is mounted at the air outlet of the air mixing chamber 54. As shown in fig. 3, the air bleeding switch 57 is connected to the electronic control board 56, and the electromagnetic valve is connected to the electronic control board 56, and the electronic control board 56 is used for controlling whether to open or close the exhaust electromagnetic valve 55 according to the triggering condition of the air bleeding switch 57; the arc ignition switch 58 is connected with the electronic control board 56, the arc ignition head 59 is connected with the electronic control board 56, and the electronic control board 56 is further used for controlling whether the arc ignition head 59 is ignited or not according to the triggering condition of the arc ignition switch 58.

In actual use, the user first triggers the air release switch 57, the electronic control board 56 accordingly controls the air release solenoid valve 55 to open, the butane air tank 53 delivers air into the air mixing chamber 54, and the air release solenoid valve automatically closes after several seconds. The user pulls the trigger 20 to trigger the arc ignition switch 58, whereupon the electronic control board 56 activates the arc ignition head 59 to ignite the mixture (discharged from the air mixing chamber) in the barrel 40, which, due to the limited volume of the barrel 40, ignites the mixture to cause an explosion and generates a flare and explosion sound. If the user does not actuate the trigger 20 within a set time period after activating the deflation switch 57, the mixed gas is expelled from the barrel 40.

The duration of opening of the exhaust solenoid valve 55 is set in the electronic control board 56, and by setting different deflation durations, the size of the flare generated by the explosion can be controlled, for example:

the exhaust solenoid valve is ignited after being deflated for 1 second to generate weak fire light,

the exhaust electromagnetic valve is ignited after being deflated for 3 seconds, and a large amount of light is generated.

The air release switch 57 is installed in the armrest 30, an opening for exposing the air release switch 57 is formed in the bottom of the armrest 30, the air release switch 57 can be retracted into the armrest 30 and also can protrude out of the armrest 30, and after a user holds the armrest 30, the index finger can touch the air release switch 57, so that the user can trigger the air release switch 57 without obvious key operation, and the triggering process is closer to the operation mode of a real gun.

The arc ignition switch 58 is mounted on the gun body 10 near the trigger 20, when the trigger 20 is pulled, the trigger 20 triggers the arc ignition switch 58 backward, a groove is formed in the gun body 10, the arc ignition switch 58 is fixed in the groove, and the arc ignition switch 58 is triggered without displacing the arc ignition switch 58.

The power source 52 is a storage battery, and the casing 51 and the gun body 10 are provided with slotted holes and/or cover plates for covering the slotted holes, which are convenient for replacing the storage battery, corresponding to the storage battery. The power source 52 may also be a rechargeable battery, and the charging port 521 is located outside the casing 51, and the gun body 10 is provided with a slot hole corresponding to the charging port to expose the charging port.

The butane gas tank 53 is a disposable gas tank, and the casing 51 and the gun body 10 are provided with slotted holes and/or cover plates for covering the slotted holes, which are convenient for replacing the storage batteries, corresponding to the storage batteries. The butane gas tank 53 is an inflatable gas tank, the inflation inlet 531 of which is located outside the housing 51, and the gun body 10 is provided with a slot hole corresponding to the inflation inlet, through which the inflation inlet is exposed.

The flare effect enhancement module further comprises a power switch 59 located outside the housing 51, and a slot hole for exposing the power switch is arranged at the position of the gun body 10 corresponding to the inflation port. In actual use, the power supply 52 can be cut off through the power switch, so that the electronic control board 56 is in a rest state, and the electronic control board 56 does not respond to external trigger actions, thereby protecting the electric quantity of the power supply 52 and the service life of the control circuit board.

The high modularization of the light of a fire increase module and the integration disclosed in this embodiment can match most toy gun, emulation rifle and stage property firearms on the market, adopts butane as the burning raw materials that produces light of a fire and explosion audio, and safe and reliable need not the professional and guides and can operate.

The above-mentioned embodiments only express one implementation mode of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present application. It should be noted that the prop guns described in the present application do not refer to guns used as props in movie and television shows, but include toy guns, simulation guns, etc., and it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the concept of the present application, and these are within the scope of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (9)

1. The stage property firearms fire light synergy module is characterized by comprising a power supply (52), a butane gas tank (53), an air mixing cabin (54), an exhaust solenoid valve (55), an electronic control board (56), a gas release switch (57), an electric arc ignition switch (58) and an electric arc ignition head (59);

the power supply (52) is used for supplying power to the whole module;

the butane gas tank (53) is connected with the air mixing cabin (54) through a gas transmission pipeline, and the exhaust electromagnetic valve (55) is installed on the gas transmission pipeline; the air outlet of the air mixing chamber (54) is connected with a barrel (40) of a prop gun; the electric arc ignition head (59) is arranged at an air outlet of the air mixing cabin (54);

the air bleeding switch (57) is connected with the electronic control board (56), the electromagnetic valve is connected with the electronic control board (56), and the electronic control board (56) is used for controlling whether the exhaust electromagnetic valve (55) is opened or closed according to the triggering condition of the air bleeding switch (57);

the arc ignition switch (58) is connected with the electronic control board (56), the arc ignition head (59) is connected with the electronic control board (56), and the electronic control board (56) is further used for controlling whether the arc ignition head (59) is ignited or not according to the triggering condition of the arc ignition switch (58).

2. The prop firearm flare light synergy module according to claim 1, characterized in that the flare light synergy module (50) further comprises a housing (51), the power supply (52), the butane gas tank (53), the air mixing chamber (54), the exhaust solenoid valve (55) and the electronic control board (56) being disposed within the housing (51); the air bleeding switch (57) and the arc ignition switch (58) are respectively connected with the electronic control board (56) through leads.

3. The prop firearm flare light synergy module of claim 2, wherein the power source (52) is a rechargeable battery with a charging port located outside the housing (51).

4. The prop firearm flare light synergy module of claim 2, wherein the flare light synergy module (50) further comprises a power switch located outside the housing (51).

5. The prop firearm flare light synergy module according to claim 2, characterized in that the butane gas tank (53) is an inflatable gas tank, the inflation port of which is located outside the outer shell (51).

6. A firearm for road furniture, comprising a frame (10), a handrail (30), a trigger (20) and a barrel (40), and a modular pyrotechnic module (50) according to any one of claims 1 to 5, the front part of the frame (10) being provided with a mounting chamber close to the barrel (40), the modular pyrotechnic module (50) being placed in the mounting chamber, the air outlet of the air mixing compartment (54) being in communication with the barrel (40).

7. The prop firearm according to claim 6, characterized in that said air release switch (57) is mounted in said armrest (30) and the bottom of the armrest (30) is provided with an opening exposing said air release switch (57).

8. The prop firearm according to claim 6, characterized in that the arc ignition switch (58) is mounted on the body (10) close to the trigger (20), the trigger (20) triggering the arc ignition switch (58) backwards when the trigger (20) is pulled.

9. The prop firearm according to claim 6, characterized in that a recess is made in the frame (10) for mounting the arc ignition switch (58).

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