阅读说明：本技术 一种定向解锁的枪械控制系统 (Directional unlocking firearm control system ) 是由 刘洋 聂诚 于 2021-10-14 设计创作，主要内容包括：本发明领域属于枪械装备领域,尤其涉及一种定向解锁的枪械控制系统,包括定向信号发射装置、定向信号接收装置和锁定装置；所述定向信号发射装置装在枪械上,用于发射指定角度范围内的信号,且光束信号发射方向朝向射击点；所述定向信号接收装置固定于射击目标处,其用于接收指定角度范围内的信号；所述锁定装置安装于枪械上,与定向信号接收装置连接,利用接收的信号对枪械实施锁定或者解除锁定动作。本发明可以实现枪械定向射击解锁,当枪械偏离靶板角度过大时,对枪械进行锁定,不需要对枪械本身进行物理限制,在不影响射击体验的条件下,保证了射击安全性。(The invention belongs to the field of firearm equipment, and particularly relates to a directional unlocking firearm control system which comprises a directional signal transmitting device, a directional signal receiving device and a locking device, wherein the directional signal transmitting device is used for transmitting a directional signal to the firearm control system; the directional signal emitting device is arranged on the firearm and used for emitting signals within a specified angle range, and the emitting direction of the light beam signals faces to a shooting point; the directional signal receiving device is fixed at a shooting target and used for receiving signals within a specified angle range; the locking device is arranged on the firearm, is connected with the directional signal receiving device and is used for locking or unlocking the firearm by using the received signal. The invention can realize directional shooting unlocking of the firearm, locks the firearm when the angle of the firearm deviating from the target plate is too large, does not need to physically limit the firearm, and ensures the shooting safety under the condition of not influencing the shooting experience.)

1. A directional unlocking firearm control system is characterized in that: the device comprises a directional signal transmitting device, a directional signal receiving device and a locking device; the directional signal emitting device is arranged on the firearm and used for emitting signals within a specified angle range, and the emitting direction of the light beam signals faces to a shooting point; the directional signal receiving device is fixed at a shooting target and used for receiving signals within a specified angle range; the locking device is arranged on the firearm, is connected with the directional signal receiving device and is used for locking or unlocking the firearm by using the received signal.

2. A directionally unlocked firearm control system according to claim 1, wherein: the directional signal transmitting device comprises a signal lamp and a fixed angle transmitting device which are matched with each other, the signal lamp is used for transmitting light beam signals, the fixed angle transmitting device limits the light beam signals transmitted by the signal lamp within a certain angle, interference on other shooting points is avoided, and the angle is adjusted by adjusting and setting the inner diameter and the length of the fixed angle transmitting device.

3. A directional unlocking firearm control system according to claim 2, wherein the signal lamp employs a signal source emitting a larger scattering angle or employs a directional laser signal having a smaller scattering angle.

4. A directionally unlocked firearm control system according to claim 1, wherein: the directional signal receiving device comprises a directional receiving angle device, a signal receiver, a command emitter and a battery for the receiving device; the directional signal receiving device can only receive the light beam signal from the directional signal transmitting device within a certain angle range and send an unlocking command to the locking device on the firearm, when the direction of the directional signal receiving device deviates from the designated direction too much and the light beam signal cannot be received, the directional signal receiving device sends the firearm locking command, has a positioning function and sends an alarm when the directional signal receiving device leaves the designated area.

5. An directionally unlocked firearm control system according to claim 4, wherein said fixed angle retraction device determines the angle at which a signal can be received in front of the target, and the angle adjustment is accomplished by adjusting the inside diameter and length of the fixed angle retraction device.

6. A directionally unlocked firearm control system according to claim 4, wherein said signal receiver is adapted to receive and recognize information specifying the light beam and to pass the information to the command emitter.

7. A directional unlocking firearm control system according to claim 6, wherein the command emitter determines whether the firearm should be unlocked based on the light beam information of the signal receiver, and transmits the command to the locking device in a wireless manner.

8. The directional unlocking firearm control system according to claim 1, wherein the locking device receives a command from the directional signal receiving device through a wireless signal, performs an unlocking action on the firearm, and locks the firearm and maintains a locked state when the unlocking command of the directional signal receiving device cannot be received.

9. The directional unlocking firearm control system according to claim 8, wherein the locking device comprises a steering engine, a locking rod and a battery for the locking device, wherein the steering engine is used for receiving a command from the directional signal receiving device and driving the locking rod to rotate; the locking rod is a cylinder with a groove and is not buckled by propping against a trigger of the firearm so as to realize the locking of the firearm; the steering engine adopts a steering engine capable of automatically returning.

10. A directional release firearm control system according to claim 8, wherein the locking device remains normally locked and is unlocked only upon receipt of a release command from the directional signal receiving device, and wherein the locking device is immediately forced back into the locked state upon interruption of the signal.

Technical Field

The invention belongs to the field of firearm equipment, and particularly relates to a directional unlocking firearm control system.

Background

The industries of shooting ranges, shooting clubs, and the like have their particularity of allowing designated personnel to hold firearms and ammunition and carry out shooting actions. However, there is also a great safety risk that a designated person may shoot or hold a gun to another person nearby after holding the gun. At present general management method is through fixed muzzle direction of modes such as iron chain and firearms position to prevent the emergence of above condition, but this kind of solution mode again very big influence is used freely, reduces the user experience of shooting club, and still exists hidden danger such as chain pine takes off. In addition, there is a way of identifying the muzzle pointing angle through a gyroscope, which is substantially different from the present invention in implementation and cannot lock the firearm.

Disclosure of Invention

The invention provides a method for unlocking a firearm in an appointed direction aiming at the characteristics and hidden danger risks in the shooting club industry, the firearm is locked by the actions of gunshot disordering and gun holding escaping, the firearm can be normally shot only when a muzzle faces the appointed direction, the firearm is not bound through a lock chain, and the safety of the firearm and the shooting experience are greatly improved.

The technical scheme of the invention is as follows: a directional unlocking firearm control system comprises a directional signal transmitting device, a directional signal receiving device and a locking device; the directional signal emitting device is arranged on the firearm and used for emitting signals within a specified angle range, and the emitting direction of the light beam signals faces to a shooting point; the directional signal receiving device is fixed at a shooting target and used for receiving signals within a specified angle range; the locking device is arranged on the firearm, is connected with the directional signal receiving device and is used for locking or unlocking the firearm by using the received signal.

Preferably, the directional signal emitting device comprises a signal lamp and a fixed-angle emitting device which are matched with each other, the signal lamp is used for emitting a light beam signal, the fixed-angle emitting device limits the light beam signal emitted by the signal lamp within a certain angle, interference on other shooting points is avoided, and the angle is adjusted by adjusting and setting the inner diameter and the length of the fixed-angle emitting device.

Preferably, the signal lamp adopts a signal source with a larger emission scattering angle or adopts a directional laser signal with a smaller scattering angle.

Preferably, the directional signal receiving device comprises a fixed receiving angle device, a signal receiver, a command emitter and a battery for the receiving device; the directional signal receiving device can only receive the light beam signal from the directional signal transmitting device within a certain angle range and send an unlocking command to the locking device on the firearm, when the direction of the directional signal receiving device deviates from the designated direction too much and the light beam signal cannot be received, the directional signal receiving device sends the firearm locking command, has a positioning function and sends an alarm when the directional signal receiving device leaves the designated area.

Preferably, the fixed-angle-retracting device determines the angle in front of the shooting target within which a signal can be received, and the angle is adjusted by adjusting the inner diameter and the length of the fixed-angle-retracting device.

Preferably, the signal receiver is configured to receive and recognize information specifying the light beam and to transmit the information to the command transmitter.

Preferably, the command emitter judges whether the lock should be unlocked according to the light beam information of the signal receiver, and transmits the command to the locking device in a wireless manner.

Preferably, the locking device receives a command from the directional signal receiving device through a wireless signal, performs an unlocking action on the firearm, and locks the firearm and maintains a locked state when the unlocking command of the directional signal receiving device cannot be received.

Preferably, the locking device comprises a steering engine, a locking rod and a battery for the locking device, and the steering engine is used for receiving commands from the directional signal receiving device and driving the locking rod to rotate; the locking rod is a cylinder with a groove and is not buckled by propping against a trigger of the firearm so as to realize the locking of the firearm; the steering engine adopts a steering engine capable of automatically returning.

Preferably, the locking device is kept in a normal locking state, the locking is released only when an unlocking command transmitted by the directional signal receiving device is received, and the locking device is forced to return to the locking state immediately when the signal is interrupted.

The invention has the following beneficial effects:

the invention can realize directional shooting unlocking of the firearm, locks the firearm when the angle of the firearm deviating from the target plate is too large, does not need to physically limit the firearm, and ensures the shooting safety under the condition of not influencing the shooting experience.

Drawings

In order to more clearly illustrate the technical solution in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced as follows:

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

FIG. 2 is a schematic view of the directional angle launch of the angle-of-launch device of the present invention;

FIG. 3 is a schematic diagram of directional signal reception of the fixed angle device of the present invention;

FIG. 4 is a schematic view of the locking device of the present invention in a locked state;

FIG. 5 is a schematic view of the unlocked state of the locking device of the present invention;

FIG. 6 is a schematic diagram of a directional signal receiving apparatus according to the present invention;

FIG. 7 is a schematic view of the present invention mounted to a firearm;

in the figure:

1. directional signal transmitting device, 11 signal lamp, 12 angle setting device;

2. a directional signal receiving device, 21, a fixed receiving angle device, 22, a signal receiver, 23, a command emitter, 24, a battery for the receiving device;

3. locking device, 31 steering engine, 32 locking rod, 33 command receiver, 34 locking device battery, 35 firearm trigger.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings.

As shown in FIG. 1, the directional unlocking firearm control system comprises a directional signal transmitting device 1, a directional signal receiving device 2 and a locking device 3. The three parts are arranged in the manner shown in fig. 1, with the directional signal receiving means 2 arranged near the target plate and directed towards the firing point. The directional signal emitting device 1 and the locking device 3 are mounted on the firearm, together with the firearm, at the firing point. The locking device 3 should be in a locked state when the firearm is not in use.

The directional signal emitting device 1 comprises a signal lamp 11 and a fixed-angle emitting device 12, the signal lamp 11 emits optical signals towards the direction of a target plate, a plurality of target plates are arranged side by side in a general target range, the fixed-angle emitting device 12 is installed on the directional signal emitting device 1 for avoiding the interference of signals between different firearms to adjacent shooting-point firearms, and the scattering angle of the optical signals can be controlled within a certain range, as shown in fig. 2.

As shown in fig. 6, the directional signal receiving apparatus 2 includes a fixed reception angle device 21, a signal transmitter 22, a command transmitter 23, and a receiving apparatus battery 24. The directional signal receiving device 2 can only receive the light beam signal from the directional signal transmitting device 1 within a certain angle range and send an unlocking command to the locking device 3 on the firearm, when the direction of the directional signal receiving device deviates from the designated direction too much and the light beam signal cannot be received, the firearm locking command is sent, the positioning function is provided, and when the firearm leaves the designated area, an alarm can be sent.

In order to avoid mutual interference, a fixed-angle-of-convergence device 21 is mounted on the directional signal receiving device 2 on the target board to control the scattering angle of the received optical signal, as shown in fig. 3.

The directional signal emitting device 1 is installed in front of the firearm and below the muzzle through a universal Picatinny guide rail. The locking device 3 is mounted adjacent the grip and firearm trigger 35 and is mounted to the firearm by way of a U-shaped frame clamp. Through wireless communication between directional signal transmitting device 1 and locking device 3, the two need not reequip the firearms, also can not cause the harm to the firearms, but accessible instrument dismantlement nevertheless can't bare-handed dismantlement, has guaranteed the security, as shown in figure 7.

The directional signal receiving device 2 and the locking device 3 transmit the locking and unlocking signals through wireless signal transmission.

When the signal receiver 22 on the directional signal receiving device 2 senses the optical signal, the internal command transmitter 23 will transmit the unlocking signal to the locking device 3 through the wireless signal.

The locking device 3 comprises a steering engine 31, a locking lever 32, a command receiver 33 and a locking device battery 34, is connected with the directional signal receiving device 2, receives a command from the directional signal receiving device 2 through a wireless signal, executes an unlocking action on the firearm, and locks the firearm and keeps a locking state when the unlocking command of the directional signal receiving device 2 cannot be received.

After the locking device 3 receives the unlocking signal, the steering engine 31 rotates by a certain angle, and the locking rod 32 is linked with the steering engine shaft and rotates by a certain angle.

The locking bar 32 is a cylindrical body with a recess that can be accessed when the trigger is actuated to perform its own function when the recess is aligned with the trigger. However, when the notch is not aligned with the firearm trigger, the firearm trigger is pulled and is blocked by the lock bar 32, and further action is not possible, and firing of the firearm is not possible, thus locking the firearm, as shown in fig. 4 and 5.

When the shooting is finished, the muzzle moves, the directional signal receiving device 2 loses the optical signal, and the signal output to the locking device 3 is interrupted. The unlocking signal cannot be continuously received by the locking device 3 due to the fact that the signal is cut off, the directional signal transmitting device 1 and the directional signal receiving device 2 are blocked, and the like.

When the locking device 3 does not continuously receive the unlocking signal, the firearm is automatically locked immediately, so that the safety is ensured.