CN210952516U - Embedded laser percussion device - Google Patents

Abstract

The utility model discloses what embedded laser firing ware related to is a firing device who is applied to in firearms simulation shooting training. The embedded laser trigger is provided with a hollow strip-shaped trigger body, a trigger switch is fixedly arranged at the upper part of the rear end of the trigger body, a rotating shaft hole is formed in one side of the trigger body, a rotating shaft screw is arranged on the rotating shaft hole through threads, a Z-shaped shifting lever is movably sleeved on the rotating shaft screw, a traction hole is formed in the tail end of the shifting lever, a trigger pull rod is movably connected to the traction hole, and the other end of the trigger pull rod is movably connected with a trigger of a firearm; a control circuit board is also arranged in the main body of the percussion device, a cable extends out of the control circuit board, and the tail end of the cable is provided with a plug which can be connected with a laser emitter; the trigger body is provided with a battery compartment, a battery is filled in the battery compartment, any one of the positive pole and the negative pole of the battery compartment is connected with the control circuit board, and the other pole of the battery compartment is in a normally open state with the trigger switch through a deflector rod.

Description

Embedded laser percussion device

Technical Field

The utility model discloses what embedded laser firing ware related to is a firing device who is applied to in firearms simulation shooting training.

Background

In the shooting training, a laser simulation method is often adopted for training, and in the training mode, a laser emitting device is usually required to be additionally arranged on a real gun to simulate bullets emitted by weapons during shooting, and the shooting training effect is evaluated by judging the positions of laser points.

In the current laser shooting training, an external hanging type trigger and a binding type trigger are often adopted to realize laser emission, the external hanging type trigger and the binding type trigger are relatively complex to install, and the installation is complex due to the frequent need of working procedures such as winding, screwing and the like; moreover, the trigger is exposed outside, so that the service life of the trigger is greatly shortened due to the occurrence of conditions such as frequent collision, excessive squeezing force and the like; and because the firing devices are arranged at the front end of the gun barrel or on the handle of the gun, the gravity center and the appearance of the gun are changed, and the actual training action and the training effect of the shooter are influenced.

How to solve above-mentioned problem makes things convenient for the training person to use, improves reliability, tightness, the durability of percussion ware, is the difficult problem that the laser shooting training is badly in need of solving.

Disclosure of Invention

Aiming at the problems, the invention provides the embedded laser trigger device which is simple in structure and convenient to use, can realize the quick installation of the trigger and can be immediately put into use, and the embedded design greatly prolongs the service life of the trigger; has good using and popularizing effects.

The embedded laser percussion device has a strip-shaped appearance, and when the embedded laser percussion device is used, the embedded laser percussion device is installed and placed in a gun body, the front end of the embedded laser percussion device is clamped in a gun barrel, the rear end of the embedded laser percussion device is clamped in a firing pin module, the embedded laser percussion device is clamped front and back, meanwhile, a limiting plate is installed, the embedded laser percussion device is prevented from rotating, and the embedded laser percussion device can be immediately.

The invention realizes the installation of the firing device in the gun body and the function of laser emission, the gun body fixes the firing device, has no installation parts, can be used along with installation, is simple and convenient to use, and can be quickly put into shooting training.

The invention is realized by adopting the following technical scheme:

the embedded laser trigger is provided with a hollow strip-shaped trigger body, a trigger switch is fixedly mounted at the upper part of the rear end of the trigger body, a rotating shaft hole is formed in one side of the trigger body, a rotating shaft screw is mounted in the rotating shaft hole through threads, a Z-shaped shifting rod is movably sleeved on the rotating shaft screw, a traction hole is formed in the tail end of the shifting rod, a trigger pull rod is movably connected to the traction hole, and the other end of the trigger pull rod is movably connected with a trigger of a firearm; a control circuit board is also arranged in the main body of the percussion device, a cable extends out of the control circuit board, and the tail end of the cable is provided with a plug which can be connected with a laser emitter; the trigger body is provided with a battery compartment, a battery is filled in the battery compartment, any one of the positive pole and the negative pole of the battery compartment is connected with the control circuit board, and the other pole of the battery compartment is in a normally open state with the trigger switch through a deflector rod.

The length of the firing device main body is not longer than that of the cartridge case.

The rear end of the lower part of the trigger main body is also provided with a bottom limiting plate which is used for limiting when the embedded laser trigger is placed in the gun body.

The front end of trigger main part is provided with barrel matched with boss, and the front end of boss is hollow drum, and the external diameter of drum cooperatees with the bore of barrel, when the assembly, can be through supporting the drum tightly fill in the afterbody of barrel to through the bottom limiting plate, thereby accomplish embedded laser trigger at the internal spacing of rifle.

Still be provided with the switch cover on trigger switch's upper portion, the switch covers and is provided with the through-hole to be provided with corresponding through-hole and screw hole in trigger switch and trigger main part, screw one loops through above-mentioned through-hole, with switch cover and trigger switch fixed connection in the trigger main part, the switch cover shelters from trigger switch, prevents to receive unexpected colliding with.

The control circuit board is provided with a through hole and is fixedly connected to the trigger main body through a second screw.

Furthermore, a circuit board cover plate used for protection is arranged above the control circuit board, a through hole is formed in the circuit board cover plate and corresponds to the through hole formed in the control circuit board, and a second screw penetrates through the circuit board cover plate and the control circuit board in sequence and is fixedly connected to the trigger main body.

The upper surface and the lower surface of the through hole on the control circuit board are respectively provided with a first pad column and a second pad column; the first cushion column and the second cushion column are inserted on the second screw in a sleeved mode and used for providing a gap for the control circuit board, preventing the control circuit board from being damaged by pressure and providing a buffering space and a heat dissipation space.

The first cushion column and the second cushion column are rubber cushion columns or plastic cushion columns.

The control circuit board is also provided with a circuit board control switch for controlling the state of the embedded laser trigger and preventing misoperation; the circuit board control switch is a push switch, a boat-shaped switch or a toggle switch.

The control circuit board is also provided with an indicator light for indicating the connection state of the control circuit board.

The battery is a dry battery, a lithium battery or a button battery, and preferably the button battery.

The trigger switch is an SS-5GL-F type light-touch switch.

The laser emitter is a commercially available laser emitter.

The shifting rod is movably connected with the trigger pull rod through a pin shaft, a buckle or circular shifting rod magnetic steel; when the shifting lever is movably connected through shifting lever magnetic steel, the circular hollow magnetic steel base with steps is matched, the trigger pull rod is sleeved on the magnetic steel base, the magnetic steel base is adsorbed on the shifting lever through the shifting lever magnetic steel, the shifting lever is made of iron sheets or stainless steel, and the gun body is made of nonmagnetic materials, preferably engineering plastics or aluminum alloy.

The shifting rod magnetic steel in the device can be firmly adsorbed on the trigger pull rod, when the trigger is pulled, the trigger pull rod moves back and forth to drive the shifting rod to displace, the tact switch is triggered, the tact switch is switched on, and the laser emitter emits laser to finish laser emission. The whole process does not directly contact with the trigger device, so that the damage to the trigger caused by human factors is prevented, and the service life of the trigger is greatly prolonged.

During the use, install embedded laser firing ware at the barrel tail end and support tightly, carry on spacingly through the bottom limiting plate, prevent that embedded laser firing ware from rotating, after guaranteeing that embedded laser firing ware installation targets in place, be in the rifle and wait to send out the state, pull the trigger of rifle, the trigger pulls trigger pull rod forward motion, and then the pulling driving lever rotates around the pivot screw, and the other end of driving lever triggers dabbing switch, and the circuit is put through, and laser emitter launches laser to accomplish a simulated shooting.

The embedded laser trigger is equivalent to a bullet in size, is integrally arranged at the bullet position in the gun body, has no parts outside the gun body, and does not influence the appearance of the gun and combat action.

The invention has the beneficial effects that: the embedded laser trigger is clamped and fixed by the gun body, so that complicated installation parts and steps are omitted, the defect that the trigger is exposed outside is overcome by the design of the embedded laser trigger, and the service life of the trigger is greatly prolonged. The gun body does not need to be disassembled, and the trigger does not need to be manually pressed to bring great convenience and good training experience to the trainers.

Drawings

The present invention will be further explained with reference to the accompanying drawings:

FIG. 1 is a schematic view of the firing of an in-line laser firing device in a gun body according to the present invention;

FIG. 2 is a schematic view of an exploded state of an embedded laser trigger of the present invention;

FIG. 3 is a schematic view of the general structure of an in-line laser trigger of the present invention;

FIG. 4 is a schematic view of the installation of an in-line laser trigger of the device of the present invention in a gun body;

FIG. 5 is a schematic view of the device of the present invention in an in-line laser trigger mounted on a 95-type rifle.

Reference numbers in the figures: 1. the gun comprises a gun body, 2, a trigger pull rod, 3, a trigger, 4, a first screw, 5, a switch cover, 6, a tact switch, 7, a trigger main body, 8, a bottom limiting plate, 9, a second screw, 10, a third screw, 11, a circuit board cover plate, 12, a first cushion column, 13, a control circuit board, 14, a connector assembly, 15, a second cushion column, 16, a fourth screw, 17, a deflector rod magnetic steel, 18, a deflector rod magnetic steel seat, 19, a spacer ring, 20, a deflector rod, 21, a battery bin, 22, a battery, 23, an indicator lamp, 24, a circuit board switch, 25, a gun barrel, 26, a front end boss, 27, a rear end boss, 28, a firing pin module, 29, a laser emitter, 30 and a rotating shaft hole.

Detailed Description

The present invention will be described in further detail with reference to fig. 1 to 5.

The embedded laser trigger is provided with a hollow strip-shaped trigger body 7, a trigger switch 6 is fixedly arranged at the upper part of the rear end of the trigger body 7, a rotating shaft hole 30 is arranged at one side of the trigger body, a rotating shaft screw 16 is arranged on the rotating shaft hole 30 through threads, a Z-shaped deflector rod 20 is movably sleeved on the rotating shaft screw 16, a traction hole 20-1 is arranged at the tail end of the deflector rod 20, a trigger pull rod 2 is movably connected to the traction hole 20-1, and the other end of the trigger pull rod 2 is movably connected with a trigger 3 of a firearm; a control circuit board 13 is further installed inside the trigger body 7, a cable extends out of the control circuit board 13, a plug 14 is arranged at the tail end of the cable, and the plug 14 can be connected with a laser emitter 29; the main body of the trigger 29 is provided with a battery chamber 21, a battery 22 is filled in the battery chamber 21, any one of the positive pole and the negative pole of the battery chamber 21 is connected with the control circuit board 13, and the other pole is normally open with the trigger switch 6 through a deflector rod 20.

The length of the firing device main body 7 is not longer than that of the cartridge case.

The rear end of the lower part of the trigger main body 7 is also provided with a bottom limiting plate 8 which is used for limiting the embedded laser trigger when the embedded laser trigger is placed in the gun body 1.

The front end of the trigger main body 7 is provided with a boss 31 matched with the gun tube 25, the front end of the boss 31 is a hollow cylinder 32, the outer diameter of the cylinder 32 is matched with the caliber of the gun tube 25, and when the trigger main body is assembled, the trigger main body can be tightly plugged into the tail of the gun tube 25 through the cylinder 32 and passes through the bottom limiting plate 9, so that the limit of the embedded laser trigger in the gun body 1 is completed.

Still be provided with switch cover 8 on trigger switch 6's upper portion, be provided with the through-hole on switch cover 8 to be provided with corresponding through-hole and screw hole in trigger switch 6 and trigger main part, screw 4 loops through above-mentioned through-hole, with switch cover 8 and trigger switch 6 fixed connection on trigger main part 7, switch cover 8 shelters from trigger switch 6, prevents to receive unexpected colliding with.

The control circuit board 13 is provided with a through hole, and the control circuit board 13 is fixedly connected to the trigger main body 7 through a second screw 10.

Further, a circuit board cover plate 24 for protection is arranged above the control circuit board 13, a through hole is formed in the circuit board cover plate 24, the through hole corresponds to the through hole formed in the control circuit board 13, and the second screw 10 sequentially penetrates through the circuit board cover plate 24 and the control circuit board 13 to be fixedly connected to the trigger main body 7.

A first pad column 12 and a second pad column 15 are respectively arranged on the upper surface and the lower surface of the through hole on the control circuit board 13; the first pad column 12 and the second pad column 15 are sleeved on the second screw 10 to provide a gap for the control circuit board 13, prevent the control circuit board from being crushed, and provide a buffering and heat dissipation space.

The first padding column 12 and the second padding column 15 are rubber padding columns or plastic padding columns.

A circuit board control switch 24 is also arranged on the control circuit board 13 and is used for controlling the state of the embedded laser percussion device and preventing misoperation; the circuit board control switch 24 is a push switch, a boat-type switch or a toggle switch.

The control circuit board 13 is further provided with an indicator lamp 23 for indicating the on state of the control circuit board 13.

The battery 22 is a dry battery, a lithium battery or a button battery, preferably a button battery.

The trigger switch 6 is an SS-5GL-F type light touch switch.

The laser emitter 29 is a commercially available laser emitter.

The shifting rod 20 is movably connected with the trigger pull rod 2 through a pin shaft, a buckle or a circular shifting rod magnetic steel 17; when the shifting lever 20 is movably connected through the shifting lever magnetic steel 17, the circular hollow magnetic steel base 18 with steps is also matched, the trigger pull rod 2 is sleeved on the magnetic steel base 18, the magnetic steel base 18 is adsorbed on the shifting lever 20 through the shifting lever magnetic steel 17, the shifting lever 20 is an iron sheet or stainless steel, and the gun body 1 is made of a non-magnetic material, preferably engineering plastics or aluminum alloy.

The deflector rod magnetic steel 17 in the device can be firmly adsorbed on the trigger pull rod 2, when the trigger 3 is pulled, the trigger pull rod 2 moves back and forth to drive the deflector rod 20 to displace, the tact switch is triggered, the tact switch is connected with a circuit, and the laser emitter 29 emits laser to finish laser emission. The whole process does not directly contact with the trigger device, so that the damage to the trigger caused by human factors is prevented, and the service life of the trigger is greatly prolonged.

During the use, install embedded laser firing ware at barrel 25 tail end and support tightly, it is spacing to carry out through the bottom limiting plate, prevent that embedded laser firing ware from rotating, after guaranteeing that embedded laser firing ware installs in place, be in the state of waiting to send out with the rifle, pull trigger 3 of rifle, trigger 3 pulls trigger pull rod 2 forward motion, and then pulling driving lever 20 rotates around pivot screw 16, the other end of driving lever 20 triggers dabbing switch, the circuit switch-on, laser is launched to laser emitter 29, thereby accomplish a simulated shooting.

The present invention will be described in further detail with reference to examples.

Examples

The application of embedded laser firing ware on 95 formula rifle, as shown in fig. 5, 95 formula rifle is when installing embedded laser firing ware, take off cartridge clip 30 earlier, pull open the bore of a gun, install embedded laser firing ware in 95 formula rifle from cartridge clip 30 position, concrete mounting means is as shown in fig. 4, install laser emission pipe 29 in the barrel from the muzzle position, as shown in the figure, wear out the connecting piece from barrel 25, be connected with embedded laser firing ware's connector 14, open embedded laser firing ware's switch 24 and give the system power-on, the installation resilience clamp can come into use. In appearance, no additional part is arranged, the trigger 3 is pulled once, one-time laser emission is realized, and laser simulation training can be carried out.

Claims (9)

1. An embedded laser firing ware which characterized in that: the trigger device is provided with a hollow strip-shaped trigger body, a trigger switch is fixedly installed at the upper part of the rear end of the trigger body, a rotating shaft hole is formed in one side of the trigger body, a rotating shaft screw is installed on the rotating shaft hole through threads, a Z-shaped shifting rod is movably sleeved on the rotating shaft screw, a traction hole is formed in the tail end of the shifting rod, a trigger pull rod is movably connected to the traction hole, and the other end of the trigger pull rod is movably connected with a trigger of a firearm; a control circuit board is also arranged in the main body of the percussion device, a cable extends out of the control circuit board, and the tail end of the cable is provided with a plug which can be connected with a laser emitter; the trigger body is provided with a battery compartment, a battery is filled in the battery compartment, any one of the positive pole and the negative pole of the battery compartment is connected with the control circuit board, and the other pole of the battery compartment is in a normally open state with the trigger switch through a deflector rod.

2. The in-line laser firing device of claim 1, wherein: the rear end of the lower part of the trigger main body is also provided with a bottom limiting plate.

3. The in-line laser firing device of claim 1, wherein: the front end of trigger main part is provided with barrel matched with boss, and the front end of boss is hollow drum, and the external diameter of drum cooperatees with the bore of barrel, when the assembly, can be through supporting the drum tightly fill in the afterbody of barrel to through the bottom limiting plate, thereby accomplish embedded laser trigger at the internal spacing of rifle.

4. The in-line laser firing device of claim 1, wherein: the upper portion of the trigger switch is further provided with a switch cover, a through hole is formed in the switch cover, corresponding through holes and corresponding threaded holes are formed in the trigger switch and the trigger main body, the first screw penetrates through the through holes in sequence, the switch cover and the trigger switch are fixedly connected to the trigger main body, and the trigger switch is shielded by the switch cover.

5. The in-line laser firing device of claim 1, wherein: a circuit board cover plate used for protection is arranged above the control circuit board, a through hole is arranged on the circuit board cover plate and corresponds to the through hole arranged on the control circuit board, and a second screw penetrates through the circuit board cover plate and the control circuit board in sequence and is fixedly connected to the trigger main body.

6. The in-line laser firing device of claim 5, wherein: the upper surface and the lower surface of the through hole on the control circuit board are respectively provided with a first pad column and a second pad column; the first cushion column and the second cushion column are sleeved and inserted on the second screw to provide a gap for the control circuit board;

the first cushion column and the second cushion column are rubber cushion columns or plastic cushion columns.

7. The in-line laser firing device of claim 1, wherein: a circuit board control switch is also arranged on the control circuit board; the circuit board control switch is a push switch, a boat-shaped switch or a toggle switch.

8. The in-line laser firing device of claim 1, wherein: and the control circuit board is also provided with an indicator lamp.

9. The in-line laser firing device of claim 1, wherein: the shifting rod is movably connected with the trigger pull rod through a pin shaft, a buckle or circular shifting rod magnetic steel; when the shifting lever is movably connected through the shifting lever magnetic steel, the circular hollow magnetic steel base with steps is matched, the trigger pull rod is sleeved on the magnetic steel base, the magnetic steel base is adsorbed on the shifting lever through the shifting lever magnetic steel, the shifting lever is made of iron sheets or stainless steel, and the gun body is made of nonmagnetic materials.

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