CN216869310U - Mounting type laser emission device - Google Patents

Abstract

The application discloses carry formula laser emission device includes: the laser emission module (10) is used for emitting laser along the muzzle aiming direction of the simulated firearm according to the trigger signal; and the hanging structure (20) is used for hanging the laser emission module (10) on the gun body of the simulated gun. The device of this application can hang laser emitter on the body of a gun of various simulation firearms, need not reform transform the firearms, can utilize laser to replace live ammunition to accomplish the shooting experience, and not only the security is higher, has fine suitability moreover.

Description

Mounting type laser emission device

Technical Field

The application belongs to a laser emission device, and particularly relates to a mounting type laser emission device.

Background

At present, China is widely popularized in the aspects of firearm knowledge science popularization and national defense education, but based on basic national conditions, the firearms have a lot of limitations in the aspect of firearm control. At present, in the gun science popularization activities held by departments such as public security, armed police and the like, for the safety consideration of the nation, the simulation teaching aid is mostly used for explanation, and the nation can rarely touch or shoot hands in the experience link. Even if shooting is permitted, only small-caliber live ammunition, BB ammunition, water ammunition or the like is often used. However, small caliber live and simulated projectiles, while reducing the lethality of small arms firing in caliber and material, still present some safety risks during the scientific popularization of the fire.

Therefore, partial domestic demonstration firearms are modified, the infrared laser emitter and the excitation device are additionally arranged in the gun barrel, the method can really perform simulated training of the firearms, but the problem of gun modification is complex in design amount and high in manufacturing cost, the number of standard firearms is large, and unnecessary resource waste is obviously caused when each type of firearms needs to be adapted and modified.

SUMMERY OF THE UTILITY MODEL

The embodiment of the application provides a carry formula laser emitter, can hang laser emitter on the body of a gun of various simulation firearms, utilize laser to replace live ammunition to accomplish the shooting experience, have very high suitability.

The embodiment of the application provides a mount type laser emission device, includes:

the laser emission module is used for emitting laser along the muzzle aiming direction of the simulated firearm according to the trigger signal;

and the hanging structure is used for hanging the laser emission module on the gun body of the simulated gun.

Optionally, the laser emitting module includes:

a laser transmitter;

a power source;

the trigger switch is used for outputting a trigger signal when a trigger of the simulated firearm is pulled;

and the controller is respectively connected with the laser transmitter, the power supply and the trigger switch and is used for controlling the laser transmitter to shoot laser according to the trigger signal.

Optionally, the controller is further configured to control the laser emitter to continuously emit laser light.

Optionally, the controller is further connected to a main control switch, and is configured to adjust a mode of the controller, so that the controller controls the laser emitter to shoot the laser light or controls the laser emitter to continuously emit the laser light according to the trigger signal.

Optionally, the power supply includes a rechargeable battery.

Optionally, the power supply is further connected with an adsorption type charging slot.

Optionally, the controller is further connected with a connecting line, and the controller is connected with the trigger switch through the connecting line.

Optionally, the hanging structure includes:

the laser emission module is arranged in the box body;

the mounting part is arranged on the box body and used for mounting the box body on the gun body of the simulation gun.

Optionally, along the muzzle direction of aiming that is on a parallel with the simulation firearms, the one end of box body is equipped with detachable laser camera lens, laser emitter inlays to be put in the laser camera lens.

This embodiment adopts detachable laser camera lens, installs laser emitter alone in laser camera lens, can conveniently change laser emitter.

Optionally, a first rotating shaft and a second rotating shaft are arranged on the laser lens and are respectively used for calibrating the laser emitter in the vertical direction and the horizontal direction.

The technical scheme of the embodiment of the application has at least the following beneficial technical effects:

the mount type laser emission device provided by the embodiment of the application can mount the laser emitter on the gun body of various simulated firearms, utilizes laser to replace live ammunition to complete shooting experience, is high in safety and good in applicability, and can greatly reduce cost compared with the modification of firearms.

Drawings

Fig. 1 is a schematic structural diagram of a laser emission module in an exemplary embodiment of the present application;

FIG. 2 is a schematic structural diagram of a hanging structure in an exemplary embodiment of the present application;

FIG. 3 is a top view of FIG. 2;

fig. 4 is a schematic circuit diagram of a controller in an exemplary embodiment of the present application.

In the figure, 10, a laser emitting module; 11. a laser transmitter; 12. a power source; 13. a trigger switch; 14. a controller; 15. a master switch; 16. an adsorption charging slot; 17. a connecting wire; 20. a hanging structure; 21. a box body; 211. a base; 212. a cover plate; 22. a mounting member; 23. a laser lens; 24. a first rotating shaft; 25. a second rotation axis.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is further described in detail below with reference to the accompanying drawings in combination with the detailed description. It should be understood that the description is intended to be exemplary only, and is not intended to limit the scope of the present application. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present application.

In addition, the technical features mentioned in the different embodiments of the present application described below may be combined with each other as long as they do not conflict with each other.

As shown in fig. 1 to 3, an embodiment of the present application provides a mount-type laser emitting device, including:

the laser emission module 10 is used for emitting laser along the muzzle aiming direction of the simulated firearm according to the trigger signal;

and the hanging structure 20 is used for hanging the laser emission module 10 on the gun body of the simulated gun.

The mount type laser emission device of the embodiment of the application can mount the laser emitter 11 on the gun body of various simulated firearms, utilizes laser to replace live ammunition to finish shooting experience, is high in safety and good in applicability, and can greatly reduce cost compared with the improvement of firearms.

As shown in fig. 1, in some embodiments, the laser emission module 10 includes:

a laser transmitter 11;

a power supply 12 for supplying power to the system;

a trigger switch 13 for outputting a trigger signal when a trigger of the simulated firearm is pulled;

and the controller 14, the controller 14 is respectively connected with the laser emitter 11, the power supply 12 and the trigger switch 13, and is used for controlling the laser emitter 11 to shoot laser according to a trigger signal.

Wherein the laser transmitter 11 may be an infrared laser transmitter. Illustratively, the infrared laser emitting device and the trigger switch 13 are respectively connected to an output pin and an input pin of the controller 14, and after the trigger switch 13 outputs a trigger signal, the controller 14 may control the infrared laser emitting device to shoot laser according to the trigger signal.

In some embodiments, the trigger switch 13 may be a jog trigger device, which includes a high-sensitivity jog switch and a micro-feedback chip connected to the high-sensitivity jog switch, and the micro-feedback chip may feed back a jog triggered electrical signal within 0.1ms when the high-sensitivity jog switch is touched.

In some embodiments, the trigger switch 13 may be disposed on the front of a trigger simulating a firearm, and a person manually pushes the trigger switch 13 to cause the trigger switch 13 to output a trigger signal.

In some embodiments, the trigger switch 13 may also be disposed on the back of a trigger simulating a firearm, and when the trigger is pulled by a human hand, the trigger presses the trigger switch 13 to output a trigger signal.

In some embodiments, the controller 14 is further configured to control the laser emitter 11 to continuously emit laser light.

In this embodiment, by expanding the output mode of the laser emitter 11, the mounted laser emitting device can be applied to different scenes, for example, positioning is performed by controlling the laser emitter 11 to continuously emit laser in a dark environment.

In some embodiments, the controller 14 controls the laser emitter 11 to continuously emit laser light to design as mode one, the controller 14 controls the laser emitter 11 to spot laser light to design as mode two according to the trigger signal, and the controller 14 can switch the two modes by operating a key.

In some embodiments, the controller 14 is further connected to a main control switch 15, configured to adjust a mode of the controller 14, so that the controller 14 controls the laser emitter 11 to shoot laser light or controls the laser emitter 11 to continuously emit laser light according to a trigger signal. The main control switch 15 can be used for key operation, so that the controller 14 switches between two modes. For example, by pressing the main control switch 15, mode switching can be performed.

As shown in fig. 4, for example, the controller 14 includes a single chip, and the single chip is provided with a pin 1, a pin 2, a pin 3, a pin 4, and a pin 5. The pin 1 is connected to the main control switch 15 to form a key circuit, when the main control switch 15 is pressed, the level of the pin 1 is pulled down to a low level, in this state, the control mode of the controller 14 can be switched to one of the first mode or the second mode, when the main control switch 15 is pressed again, the level of the pin 1 is pulled up to a high level by the resistor, and in this state, the control mode of the controller 14 can be switched to the other of the first mode or the second mode. The pins 2, 3 and 4 can be connected with the LED lamp, and the number of times or time for pressing the main control switch 15 is determined by the on/off of the LED lamp, so as to determine whether the mode is successfully switched. In addition, the singlechip can also be connected with the trigger switch 13 through the pin 5, in a mode two state, the pin 5 can detect whether the trigger switch 13 is triggered, when the trigger switch 13 is triggered, the pin 5 detects a high level, and a signal is output from an output port (OUT + OUT-), so that the laser transmitter 11 transmits laser.

In some embodiments, the power source 12 includes a rechargeable battery.

In some embodiments, a suction charging slot 16 is also connected to the power source 12.

In some embodiments, the controller 14 may be connected to the trigger switch 13 in a wired or wireless manner. Illustratively, the controller 14 is further connected with a connecting line 17, and the controller 14 is connected with the trigger switch 13 through the connecting line 17. For example, one end of the connecting wire 17 is connected to the trigger switch 13, and the other end is connected to the input pin of the controller 14 through an interface, which can ensure the reliability of the excitation, and in addition, the connecting wire 17 with different lengths can be selected according to different firearms.

As shown in fig. 2-3, in some embodiments, the hanging structure 20 includes:

the box body 21, the said laser emission module 10 is installed in the said box body 21;

and the mounting part 22 is arranged on the box body 21 and is used for mounting the box body 21 on the gun body of the simulated gun.

In some embodiments, the cartridge body 21 may include a base 211 and a cover 212. Wherein, the cover plate 212 is fixed on the base 211 by a plurality of cross countersunk head screws.

In some embodiments, the interface for installing the connecting wire 17 and the main control switch 15 may be disposed on the base 211 and the cover 212 to facilitate connection or key operation by an operator.

In some embodiments, the suction charging slot 16 may be disposed on the cover plate 212 or the base 211 for charging convenience. For example, the absorption formula charging slot 16 is connected magnetism and is inhaled formula charging wire and can realize exempting from the purpose that the dismouting charges.

In some embodiments, the mounting member 22 may include a plurality of clips that fit over the barrel of a simulated firearm and are secured in place by bolts. Exemplarily, in order to guarantee the laminating and the fixed effect of clamp, the inboard of clamp is the hexagon design. In other embodiments, the inside of the clip may also be designed in other shapes. In other embodiments, the mounting member 22 may be attached to the body of a simulated firearm, for example, the mounting member 22 may be attached to the body of a simulated firearm.

In some embodiments, in order to facilitate the replacement of the laser emitter 11 to adapt to different scene use requirements, a detachable laser lens 23 is disposed at one end of the box body 21 along a direction parallel to the muzzle aiming direction of the simulated firearm, and the laser emitter 11 is embedded in the laser lens 23. In the embodiment, the detachable laser lens 23 is adopted, and the laser emitter 11 is independently installed in the laser lens 23, so that the laser emitter 11 can be conveniently replaced. For example, in different usage environments, the laser lens 23 can be removed to replace the laser emitter 11 with laser in different output bands.

In some embodiments, a camera may also be embedded within the laser lens 23, for example, the camera may be used to record law enforcement procedures.

In some embodiments, a bulb may be further disposed in the laser lens 23 or on the box 21, for example, the bulb may be used for searchlighting.

In some embodiments, a sensor, such as a thermal imaging sensor, may be disposed in the laser lens 23 or on the box 21.

In some embodiments, in order to meet the requirement of installation accuracy, the laser lens 23 is provided with a first rotating shaft 24 and a second rotating shaft 25, which are respectively used for calibrating the laser transmitter 11 in the vertical direction and the horizontal direction. For example, when the home point of the laser transmitter 11 is shifted in the vertical direction, the shooting position calibration in the up-down direction may be performed by the first rotation axis 24, and when the home point of the laser transmitter 11 is shifted in the horizontal direction, the shooting position calibration in the left-right direction may be performed by the second rotation axis 25.

While the present embodiments have been described with reference to the accompanying drawings, it is to be understood that the invention is not limited to the precise embodiments described above, which are meant to be illustrative and not restrictive, and that various changes may be made therein by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (7)

1. A mount-type laser transmitter, comprising:

the laser emission module (10) is used for emitting laser along the muzzle aiming direction of the simulated firearm according to the trigger signal;

the hanging structure (20) is used for hanging the laser emission module (10) on the gun body of the simulated gun;

the laser emitting module (10) comprises:

a laser transmitter (11);

a power source (12);

a trigger switch (13) for outputting a trigger signal when a trigger of the simulated firearm is pulled;

the controller (14), the controller (14) is respectively connected with the laser emitter (11), the power supply (12) and the trigger switch (13), and is used for controlling the laser emitter (11) to shoot laser according to a trigger signal;

the controller (14) is also used for controlling the laser transmitter (11) to continuously transmit laser;

the controller (14) is further connected with a main control switch (15) and used for adjusting the mode of the controller (14) so that the controller (14) controls the laser emitter (11) to shoot laser point or controls the laser emitter (11) to continuously emit laser according to a trigger signal.

2. The mounted laser transmitter according to claim 1, wherein the power source (12) comprises a rechargeable battery.

3. The laser transmitter of claim 2, wherein the power supply (12) is further connected with a suction charging slot (16).

4. The mounted laser transmitter according to claim 1, wherein a connecting wire (17) is further connected to the controller (14), and the controller (14) is connected to the trigger switch (13) through the connecting wire (17).

5. The mounted laser transmitter according to claim 1, wherein the mounting structure (20) comprises:

the laser emission module (10) is arranged in the box body (21);

and the mounting part (22) is arranged on the box body (21) and is used for mounting the box body (21) on the gun body of the simulated firearm.

6. The mounted laser transmitter according to claim 5, characterized in that, along the direction parallel to the muzzle aiming direction of the simulated firearm, one end of the box body (21) is provided with a detachable laser lens (23), and the laser transmitter (11) is embedded in the laser lens (23).

7. The mounted laser transmitter device according to claim 6, wherein the laser lens (23) is provided with a first rotating shaft (24) and a second rotating shaft (25) for calibrating the laser transmitter (11) in a vertical direction and a horizontal direction, respectively.

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