CN215639035U - Anti-riot gun safety control system - Google Patents

Abstract

The utility model discloses a safety control system for an anti-riot gun, which comprises a background server, a remote controller and a control mechanism arranged on the gun; the background server is used for displaying gun information in real time and remotely controlling gun unlocking and locking; the remote controller is controlled by a person not holding the gun and is used for controlling the gun to unlock and lock under an emergency condition; the control mechanism is installed inside the gun and used for receiving signals to control unlocking and locking of the gun, and comprises a communication module, a monitoring module, a positioning module, a data processing module, an information storage module, a control motor, a battery, an electric quantity counting and displaying device and a charging and data interface. The gun locking system can record information such as gun position, electric quantity and shooting in real time, the gun transmitter is locked by controlling the motor under non-emergency conditions, the gun transmitter is unlocked by non-gun-holding personnel through the remote controller under emergency conditions, and the gun can be remotely controlled to be unlocked and locked by the background server when the remote controller fails or is robbed or stolen.

Description

Anti-riot gun safety control system

Technical Field

The utility model belongs to the field of anti-riot firearms, and particularly relates to a safety control system for an anti-riot firearm.

Background

The safety is a constant pursuit in China, the danger control capability is an important capability for social stability, firearms are prominent danger factors, and malignant events caused by the management and control loopholes of the firearms are rare at home and abroad, so that the high importance of China must be brought. Along with the rapid development of comprehensive strength in China and the increasingly complex social security situation, security personnel inevitably carry firearms in the security process, a great deal of technical research is carried out in all countries in the world in order to prevent disordered storage and receiving orders of the firearms, prevent the users of the firearms from losing emotion and using the firearms to generate mischief, and prevent the firearms from being stolen and robbed to be used for implementing crimes and damaging the society, and all levels of law enforcement departments in China also place high expectations on safety control technologies applied to the firearms.

To above-mentioned situation, scientific research personnel mostly solve through designing novel intelligent firearms, but escort company existing equip the firearms just can't continue to use, and whole intelligent firearms that change outfit cost is higher can cause a large amount of wastes and hold the firearms personnel and need retrain with familiar with novel intelligent firearms, and policeman armed forces and escort company's repacking wish are lower.

SUMMERY OF THE UTILITY MODEL

The utility model solves the potential safety hazard existing in the use of the existing gun, provides the anti-riot gun safety control system which can shoot only after being unlocked through remote control of the remote controller, only needs to be modified on the existing gun, is additionally provided with the positioning module and the remote control motor, can solve the safety control of the gun, does not modify the existing gun in a large amount, has lower reloading cost and can be used without heavy training of gun holders basically.

The technical scheme of the utility model is as follows: a safety control system for an anti-riot gun comprises a background server, a remote controller and a control mechanism installed on the gun;

the background server is used for displaying gun information in real time and remotely controlling gun unlocking and locking;

the remote controller is controlled by a person not holding the gun and is used for controlling the gun to unlock and lock under an emergency condition;

the control mechanism is installed inside the gun and used for receiving signals to control unlocking and locking of the gun, and comprises a communication module, a monitoring module, a positioning module, a data processing module, an information storage module, a control motor, a battery, an electric quantity counting and displaying device and a charging and data interface.

Preferably, the remote controller is used for remotely unlocking and locking the gun in an emergency, and remotely transmits a control signal to the in-gun communication module by controlling the in-gun control motor, namely, the in-gun control motor can be controlled to stretch and contract by a switch, so that the transmitter is locked or unlocked.

Preferably, the communication module is located in the firearm handle, is connected with the remote controller and the background server in a Bluetooth, UWB and 4g network signal transmission mode, receives unlocking and locking signals, transmits firearm positioning information to the background in real time, transmits the signals to the background after each firearm shooting, and records the emission time and position.

Preferably, the monitoring module is positioned at the upper part of the gun handle, monitors the recoil force and the sound state of the gun in real time, transmits data to the data processing module, and judges shooting information by the data processing module; the positioning module is located in the firearm grip, records the firearm position in real time through a Beidou positioning system and transmits the firearm position to the background through the communication module.

Preferably, the data processing module is positioned in the firearm grip and used for converting the signal received by the communication module into a motor action signal so as to control the motor, identifying the data of the monitoring module, judging whether the firearm shoots and transmitting the data to the communication module; the information storage module is positioned in the firearm grip, is connected with the data processing module and the charging and data interface, stores all data in the information storage module, and can be led out through the charger data interface, so that the inquiry is facilitated.

Preferably, the control motor is located inside the gun transmitter and used for receiving and responding to signals transmitted by the background server and the remote controller after being processed by the data processing module, controlling the transmitter to unlock or lock, and when the transmitter is locked, the control motor jacks up the hanging block to enable the gun to be incapable of being fired; when the gun is unlocked, the motor is controlled to fall down, the hook block returns to the original position, and the gun is in a cocked state.

Preferably, the battery is positioned at the lower part of the firearm grip, supplies power to other modules of the system so as to ensure the normal operation of the mechanism, and is connected with the electric quantity display device and the charging and data interface; the electric quantity counting and displaying device is positioned at the rear part of the gun handle, is connected with the battery and can display the residual electric quantity of the battery in real time through the indicating lamp; the charging and data interface is positioned at the rear part of the firearm grip, is connected with the battery and the information storage module, can be connected with an external interface to charge the battery and import or export data.

Preferably, the background server has the highest gun management authority, is used for counting and recording gun information, can remotely control gun unlocking or locking after the remote controller fails or is stolen or robbed, and can control the remote controller to fail.

Preferably, the background server is further used for viewing gun position, residual electric quantity, unlocking and shooting information in real time.

A working method of a safety control system of an anti-riot gun comprises the following steps:

1) before the guns are called, the guns are charged in a gun library through a charging and data interface, the residual electric quantity is checked when the guns are called, the guns with enough electric quantity are called, and the electric quantity counting and displaying device transmits the real-time electric quantity to a background server through a data processing module and a communication module;

2) after the gun is delivered out of the warehouse, the positioning module records the position of the gun in real time and transmits the position to the background through the communication module;

3) when the gun is in a non-emergency state, the gun is in a locking state, and the motor jacks up the internal hanging block of the gun transmitter through the transmission device, so that the gun cannot be fired;

4) when an emergency occurs, a person who does not hold the firearm in the same line authorizes the unlocking of the firearm through a remote controller, the communication module receives signals and transmits the signals to the data processing module, the data processing module processes the signals and then controls the motor to contract, the transmission device enables the hanging block in the transmitter in the firearm to fall down, the firearm is unlocked and is in a cocked state;

5) a gun holder pulls a trigger, ammunition is fired, the monitoring module monitors information such as recoil force and sound and transmits the information to the data processing module, the data processing module judges shooting behaviors and transmits the information to the information storage module and the communication module, and shooting information is stored and transmitted to a background;

6) when the emergency situation is relieved, a person who does not hold the gun in the same row locks the gun through a remote controller, the communication module receives signals and transmits the signals to the data processing module, and the data processing module processes the signals and then controls the motor to extend, so that the built-in block of the transmitter in the gun is lifted, and the gun is locked;

7) when the remote controller fails or is stolen or robbed, the background can unlock or lock the gun through remote control, the authority of the background is higher than that of the remote controller, and the remote controller can be remotely locked to cause the remote controller to fail; when the gun is stolen and robbed, the gun can be remotely locked in the background, and the position of the gun can be monitored in real time.

The gun shooting device can record information such as the position, the electric quantity and the shooting of a gun in real time, the gun transmitter is locked by the control motor under non-emergency conditions, and when the gun shooting device encounters emergency conditions, a non-gun-holding person unlocks the gun transmitter by the remote control motor, so that the gun is in a cockable state.

Drawings

FIG. 1 is a schematic diagram of a firearm safety control mechanism system of the present invention;

FIG. 2 is a block diagram of a firearm safety control system of the present invention;

FIG. 3 is a schematic representation of a modified firearm launcher of the present invention;

FIG. 4 is a schematic block diagram of the operational flow of the firearm safety control system of the present invention;

in the figure, 1 is a background server, 2 is a remote controller, 3 is a control mechanism, 4 is an on-hook block, 3-1 is a communication module, 3-2 is a monitoring module, 3-3 is a positioning module, 3-4 is a data processing module, 3-5 is an information storage module, 3-6 is a control motor, 3-7 is a battery, 3-8 is an electric quantity statistics and display device, and 3-8 is a charging and data interface, and 3-9 is a charging and data interface.

Detailed Description

The present invention will be described in further detail with reference to the attached drawings, but the present invention is not limited thereto.

As shown in fig. 1-3, a firearm safety control system comprises a background server 1, a remote controller 2 and a control mechanism 3.

The background server 1 has the highest gun management authority, is used for counting and recording gun information, can remotely control gun unlocking or locking after the remote controller 2 is invalid or stolen and robbed, and can control the remote controller 2 to be invalid.

And the remote controller 2 is used for remotely controlling the control motor in the gun and transmitting a control signal to the control mechanism 3.

The control mechanism 3 comprises a communication module 3-1, a monitoring module 3-2, a positioning module 3-3, a data processing module 3-4, an information storage module 3-5, a control motor 3-6, a battery 3-7, an electric quantity counting and displaying device 3-8 and a charging and data interface 3-9.

The communication module 3-1 is located in the firearm grip, is connected with the remote controller 2 and the background server 1 through signal transmission modes such as Bluetooth, UWB and GPRS, receives unlocking and locking signals, can transmit firearm positioning information to a background in real time, transmits the signals to the background after each firearm shooting, and records the emission time and position.

The monitoring module 3-2 is positioned at the upper part of the firearm grip, monitors the states of the firearm recoil force, the sound and the like in real time, transmits data to the data processing module 3-4, and judges shooting information by the data processing module 3-4.

The positioning module 3-3 is located in the firearm grip, records the position of the firearm in real time through a Beidou positioning system and transmits the position to the background through the communication module 3-1.

The data processing module 3-4 is positioned in the firearm grip and used for converting the signals received by the communication module 3-1 into motor action signals so as to control the motor, and identifying and judging whether the firearm shoots or not by the data of the monitoring module 3-2 and transmitting the data to the communication module 3-1.

The information storage module 3-5 is positioned in the firearm grip, is connected with the data processing module 3-4 and the charging and data interface 3-9, stores all data in the information storage module, and can be led out through the charger data interface 3-9, so that the inquiry is facilitated.

The control motors 3-6 receive the data processing module transmission block signals and react to control the motors to stretch and retract, so that the gun transmitter is controlled to be unlocked or locked. When locking, the motor jacks up the hanging block 4 to enable the firearm to be incapable of being fired, and when unlocking is performed, the motor falls down, the hanging block 4 returns to the original position, and the firearm is in a firing state.

The batteries 3-7 are positioned at the lower part of the firearm grip and supply power to other modules of the system so as to ensure the normal operation of the mechanism. And is connected with a power statistics and display device 3-8 and a charging and data interface 3-9.

The electric quantity counting and displaying device 3-8 is positioned at the rear part of the firearm grip and connected with the battery 3-7, and the residual electric quantity of the battery can be displayed in real time through the indicating lamp.

The charging and data interface 3-9 is positioned at the rear part of the firearm grip, is connected with the battery 3-7 and the information storage module 3-5, and can be connected with an external interface to charge the battery 3-7 and import or export data.

A working method of a gun safety control system comprises the following steps:

1) before the guns are called, the guns are charged in a gun library through a charging and data interface, the residual electric quantity is checked when the guns are called, the guns with enough electric quantity are called, and the electric quantity counting and displaying device transmits the real-time electric quantity to a background server through a data processing module and a communication module;

2) after the gun is delivered out of the warehouse, the positioning module records the position of the gun in real time and transmits the position to the background through the communication module;

3) when the gun is in a non-emergency state, the gun is in a locking state, and the motor jacks up the internal hanging block of the gun transmitter through the transmission device, so that the gun cannot be fired;

4) when an emergency occurs, a person who does not hold the firearm in the same line authorizes the unlocking of the firearm through a remote controller, the communication module receives signals and transmits the signals to the data processing module, the data processing module processes the signals and then controls the motor to contract, the transmission device enables the hanging block in the transmitter in the firearm to fall down, the firearm is unlocked and is in a cocked state;

5) a gun holder pulls a trigger, ammunition is fired, the monitoring module monitors information such as recoil force and sound and transmits the information to the data processing module, the data processing module judges shooting behaviors and transmits the information to the information storage module and the communication module, and shooting information is stored and transmitted to a background;

6) when the emergency situation is relieved, a person who does not hold the gun in the same row locks the gun through a remote controller, the communication module receives signals and transmits the signals to the data processing module, and the data processing module processes the signals and then controls the motor to extend, so that the built-in block of the transmitter in the gun is lifted, and the gun is locked;

7) when the remote controller fails or is stolen or robbed, the background can unlock or lock the gun through remote control, the authority of the background is higher than that of the remote controller, and the remote controller can be remotely locked to cause the remote controller to fail; when the gun is stolen and robbed, the gun can be remotely locked in the background, and the position of the gun can be monitored in real time.

Claims (9)

1. A safety control system for an anti-riot gun is characterized in that: the system comprises a background server, a remote controller and a control mechanism arranged on the gun;

the background server is used for displaying gun information in real time and remotely controlling gun unlocking and locking;

the remote controller is controlled by a person not holding the gun and is used for controlling the gun to unlock and lock under an emergency condition;

the control mechanism is installed inside the gun and used for receiving signals to control unlocking and locking of the gun, and comprises a communication module, a monitoring module, a positioning module, a data processing module, an information storage module, a control motor, a battery, an electric quantity counting and displaying device and a charging and data interface.

2. The safety control system for a riot gun according to claim 1, wherein: the remote controller is used for remotely unlocking and locking the gun in an emergency situation, remotely transmits a control signal to the communication module in the gun by controlling the motor in the gun, and can control the motor in the gun to stretch and retract through the switch, so that the transmitter is locked or unlocked.

3. The safety control system for a riot gun according to claim 1, wherein: the communication module is located in the firearm handle, is connected with the remote controller and the background server in a Bluetooth, UWB and 4g network signal transmission mode, receives unlocking and locking signals, transmits firearm positioning information to the background in real time, transmits the signals to the background after each firearm shooting, and records the emission time and position.

4. The safety control system for a riot gun according to claim 1, wherein: the monitoring module is positioned at the upper part of the firearm grip, monitors the recoil force and the sound state of the firearm in real time, transmits data to the data processing module, and judges shooting information by the data processing module; the positioning module is located in the firearm grip, records the firearm position in real time through a Beidou positioning system and transmits the firearm position to the background through the communication module.

5. The safety control system for a riot gun according to claim 1, wherein: the data processing module is positioned in the firearm grip and used for converting the signal received by the communication module into a motor action signal so as to control the motor, identifying the data of the monitoring module, judging whether the firearm shoots and transmitting the data to the communication module; the information storage module is positioned in the firearm grip, is connected with the data processing module and the charging and data interface, stores all data in the information storage module, and can be led out through the charger data interface, so that the inquiry is facilitated.

6. The safety control system for a riot gun according to claim 1, wherein: the control motor is positioned in the gun transmitter and used for receiving and responding to signals which are sent by the background server and the remote controller and transmitted after being processed by the data processing module, controlling the transmitter to unlock or lock, and when the transmitter is locked, the control motor jacks up the hanging block to enable the gun to be incapable of being fired; when the gun is unlocked, the motor is controlled to fall down, the hook block returns to the original position, and the gun is in a cocked state.

7. The safety control system for a riot gun according to claim 1, wherein: the battery is positioned at the lower part of the firearm grip, supplies power to other modules of the system to ensure the normal operation of the mechanism, and is connected with the electric quantity display device and the charging and data interface; the electric quantity counting and displaying device is positioned at the rear part of the gun handle, is connected with the battery and can display the residual electric quantity of the battery in real time through the indicating lamp; the charging and data interface is positioned at the rear part of the firearm grip, is connected with the battery and the information storage module, can be connected with an external interface to charge the battery and import or export data.

8. The safety control system for a riot gun according to claim 1, wherein: the background server has the highest gun management authority, is used for counting and recording gun information, can remotely control gun unlocking or locking after the remote controller is invalid or stolen and robbed, and can control the remote controller to be invalid.

9. The safety control system for a riot gun according to claim 8, wherein: the background server is also used for checking gun position, residual electric quantity, unlocking and shooting information in real time.

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