KR20170014529A - safety management system for Shooting Ranges with auto-transferring magazine - Google Patents

Abstract

In the present invention, a control board and each company connected to the control room are installed. In the control room, a status board is provided to display the status of each warrior by the operation of the control unit. To a shot range control system having an automatic tacking device having a configuration in which a carbon supply unit is fixedly installed.

Description

Technical Field [0001] The present invention relates to a safety management system for a shooting range control system,

In the present invention, a control board and each company connected to the control room are installed. In the control room, a status board is provided to display the status of each warrior by the operation of the control unit. To a shot range control system having an automatic tacking device having a configuration in which a carbon supply unit is fixedly installed.

Conventional shooting ranges are to conduct shooting exercises in the process of shooting toward each target from each faction after receiving a bullet, and in this faction, a large number of people carry out shooting and shooting exercises with firearms and bullets, .

In this case, after collecting the cartridge, it is necessary to count the returned cartridge and to prevent the loss of the cartridge and the accident of the firearm. Therefore, the recovery and counting of the cartridge is very important, And the counting work must be done accurately and quickly.

Conventional art No. 1271113 discloses a technology of a shell-and-shell-counting device. The structure of the shell-shell-counting device is as shown in FIG. 1. The shell-and-counter 10 includes an opening / The supply hopper 20 is provided at the bottom of the opening and closing cover 12 and the supply bag 30 is provided below the supply hopper 20 to supply the cartridge C, And a discharge spout 40 is provided below the supply spout 30 to discharge the spout C by standard.

The supply belt 30 is connected to the supply motor 31 by drive transmission means 32 such as a belt and a belt pulley so that a supply conveyor is provided for driving the supply belt 31. The supply belt 31 is driven by a drive belt 32, And the supply motor 31 is configured to be driven by the sensor signal of the detection sensor S provided on the discharge stand 40.

Since the discharge stand 40 is installed on the vibration spring 41 and vibrates by the drive of the vibrator 42 to be applied thereto, (C) is moved along the casket feed path and is dropped into a separate collection box (not shown). During the discharge of the casings C through the casket discharge port D, And transmits the counted quantity to the control panel 14.

However, the above-described counting device is configured such that only the counting of the casings is possible, and it is difficult to manage the bullets when the bullet or the magazine is received.

Also, there is a disadvantage in that it is difficult to manage efficiently, since it is only possible to confirm the completion time of shooting in each firing line by the shooter's confirmation work.

SUMMARY OF THE INVENTION It is an object of the present invention to solve the above-mentioned problems of the prior art, and it is an object of the present invention to enable automatic supply of a bullet, prevent loss of movement after receipt of a bullet, accurately ascertain the supply situation of the bullet, The present invention also provides a shooting range control system including an automatic tandem automatic feeding device that allows a user to quickly identify a collection situation and make a quick determination at a remote place of each situation.

In order to attain the above object, the present invention provides a control room and each company connected to the control room, wherein the control room is provided with a status board for displaying the status of each person by the operation of the control unit, And a shooting range control system having an automatic tacking device composed of a fixed supply unit for the automatic supply of the magazine to which the bullet is to be shot.

In addition, the carbon supply unit of the present invention is characterized in that it includes a carbon loading unit in which a large loading hole and a small loading hole are overlapped, a unit control unit connected to a detection sensor installed in the carbon loading unit, And a silencer automatic feeding device including an inlet and an outlet connected to the carbon footprint portion.

In addition, in the coal supply unit of the present invention, a bullet collecting net connected to a bullet collecting hole is provided at one side of the housing, a load cell is provided at one side of the pressurized collection hall, A range control system with a feeder is provided.

In addition, the control unit of the present invention provides a shooting range control system having an automatic charging device installed to display a supply of a magazine on a status plate during operation of a sensing sensor for sensing the advancement of a pusher.

A shot range control system including a carbon supply unit of the present invention and an automatic tacking device in which an entrance is closed is provided.

In addition, according to the present invention, there is provided a shooting range control system including an automatic charging device, which is further provided with a cradle for preventing unloading while mounting a rifle to a carbon supply unit.

As described above, according to the present invention, it is possible to automatically supply the bullet while preventing the loss of movement after receipt of the bullet, to precisely confirm the supply status of the bullet, and to facilitate the collection of the cartridge easily So that it is possible to make a quick judgment at a remote place of each situation.

FIG. 1 is a side view showing a conventional article counting apparatus.
2 is a block diagram showing a shooting range control system according to the present invention.
3 is a perspective view showing a control room of a shooting range control system according to the present invention.
4 is an installation state diagram of a shooting range control system according to the present invention.
5 and 6 are installation state diagrams of a shooting range control system according to another embodiment of the present invention, respectively.
FIG. 7 is a view illustrating a mounting state of a cradle and a charger unit according to still another embodiment of the present invention.
8 is an enlarged view of a part of a carbon supply unit for a shooting range control system according to another embodiment of the present invention.
9 and 10 are perspective views illustrating a carbon supply unit for a shooting range control system according to another embodiment of the present invention, respectively.
11 is a view illustrating an installation state of a carbon supply unit for a control system according to another embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a block diagram showing a shooting range control system according to the present invention, FIG. 3 is a perspective view showing a control room of a shooting range control system according to the present invention, FIG. 4 is an installation state view of a shooting range control system according to the present invention, FIG. 7 is a diagram illustrating a state in which a cradle and a charger unit are installed according to another embodiment of the present invention, and FIG. 8 is a sectional view FIGS. 9 and 10 are perspective views showing a carbon supply unit for a range control system according to another embodiment of the present invention, and FIGS. 9 and 10 are perspective views, respectively, of a carbon supply unit for a shooting range control system according to another embodiment of the present invention. 11 is an installation state diagram of a charcoal supply unit for a control system according to another embodiment of the present invention.

The notification system of the present invention comprises a connection structure of each warp 800 having a control room 500 and a charger unit 900 connected to the control room 500.

At this time, the warrior 800 includes a floor shape for performing a shoot-down shooting operation or a stand-by shooting operation, or an incidence path for performing a stand-by shooting operation.

In the control room 500, a status board 530 is provided to indicate the state of supplying or collecting coal in each warp by the operation of the control unit 510.

At this time, the status board 530 is provided with a lamp or a display to separately display the number of recovered cartridges, the state of supplying coal, and the completion of the loading.

The charger unit 900 is mounted on each warp 800 so that the magazine 920 in which the bullet is unloaded by the signal of the control unit 510 is automatically supplied.

The charger unit 900 includes a charger 910 having at least one of a large loading hole 911 and a small loading hole 913 in the body 960 and a pusher 910 for pushing the magazine 920 forward. A unit control unit 950 connected to the sensing sensor 951 installed in the operating state of the pusher and the charger unit, and an inlet / outlet 970 connected to the charger unit are integrally provided .

At this time, before the operation of the coal supply unit and the pusher, the outlet is closed.

In addition, the bullet supply unit 900 is connected to the bullet catching mesh 940 connected to the bullet collecting hole 920 while the bullet collecting hole 920 is further installed, And a load cell 960 connected to the unit control unit 950 at one side of the bullet collecting hole 920. The collection box 980 is inserted into the bullet collecting hole 920. [

Further, the warper 800 further includes a cradle 700 for receiving the individual firearms 600, and the cradle is installed integrally with or separated from the body of the coal supply unit.

At this time, the cradle 700 is operated by a control signal from the control unit 510 so that the gun is coupled or the gun is detachable, and the tongs supporting the gun heat by the external force are moved upward, The mounting means 710 is installed so as to be moved in at least one direction.

Further, a detection sensor 711 is provided at one side of the mounting means 710 to confirm the mounting state.

At this time, the mounting unit 710 is connected to the unit rods 713 having the antenna structure and the power source 716 while being connected to the ends of the unit rods 713 through the housing 711 fixed to each rope And a ball 715 provided at the end of the unit rod 713 is connected to the housing 711 as a nut 717. The power source is connected to at least one of A pneumatic cylinder connected to one side, a pneumatic and electric motor and a gear combination connected thereto and connected to at least one side of the pliers.

The operation of the present invention constructed as described above will be described.

As shown in FIGS. 2 to 11, the present invention can be applied to a control room 500 for remote control of a firearm 600, And a charger unit 900 installed at the cap 800 to supply a bullet at the scene immediately before the shooting so as to prevent the risk of loss or safety accident.

In addition, a mounting table 700 is further installed in each warp so that the mounting of the gun 600 is confirmed in each of the mounting cradles 700, and a command to start the shooting is issued to prevent accidental fire or accident caused by the firearm.

That is, the cradle 700 is installed such that it can move only slightly in the left and right directions as well as in the forward, backward, and upward and downward movements with respect to the housing 711 fixed to each warp 800 Aiming of zero point aiming is possible, but it prevents the aiming or the accident to the side sight by the further movement.

At this time, the cradle 700 is installed in the housing 711, and it is possible to aim the zero point or the like through the mounting means 710 for controlling the fine movement of the gun fixed to the housing 711, To prevent accidental accidents.

The control panel 500 is provided with a status board 530 for displaying the state of the firearm 600 to each warrior by the operation of the control unit 510 so that the firearm of the mounting unit 710 is operated to fully support the firearm. Only in one state is it possible to order to fire.

At this time, the status board 530 may be provided with a lamp or a display so that the controller can completely grasp the status of each warrior.

In addition, in the control room 500, it is possible to automatically control the safety of the shooting range by supplying the coals from the coal supply unit only when the safety state of each warrior is confirmed.

In addition, the cradle 700 may be configured such that the control unit 510 controls the cradle to be coupled or the firearm is detachable by the control signal from the control unit 510 while the cradle 710 is installed to support the cradle, , And the right direction.

Further, a sensor 719 for confirming the state of mounting can be further provided at one side of the mounting means 710 so as to confirm whether or not the firearm is safely supported.

At this time, the mounting unit 710 is connected to the unit rods 713 having the antenna structure and the power source 716 while being connected to the ends of the unit rods 713 through the housing 711 fixed to each rope And a tongue 715 that is opened or closed by the tongue 720. The tongue 715 is installed to move to one side of the housing while supporting the gun.

In addition, the ball 715 provided at the end of the unit rod 713 is connected to the housing 711 as a nut 717 so that the unit rod 713 can finely move in one direction. A pneumatic cylinder connected to at least one side of the motor, a pneumatic and electric motor, and a combination of gears connected to the pneumatic cylinder and electric motor, so that the tongs are operated by the control signal of the control room to prevent the firearm from being separated from the cradle.

In addition, a charger unit 900 is further installed in the warper 800 so that the charger can be supplied only to the warper completed.

At this time, the carbon supply unit 900 may have an integral structure with the housing, and may be separated from the housing at a predetermined position.

The charger unit 900 includes a charger unit 910 in which the large-size loading hole 911 and the small loading hole 913 are overlapped with each other, a pusher 930 for advancing the magazine, A unit control unit 950 connected to the detection sensor 951 installed in the loading unit and an inlet / outlet 970 connected to the charger unit so as to simultaneously receive a large capacity and small capacity magazine, Let the magazine be supplied automatically.

In addition, the bullet supply unit 900 is further provided with a bullet collecting hole 920, and the bullet collecting net 940 connected to the bullet collecting hole 920 is pushed out to easily collect the bullet when shooting.

At this time, a load cell 960 connected to the control unit is provided on one side of the pressure-sensitive collecting hole 920 to check the collection state of the cartridge in real time in the situation room, and a collection box 980 is provided in the bullet collection hole 920 And the collection of the cartridge shell is carried out quickly when the collection box is discharged.

500 ... control room 530 ... situation board
600 ... 700 guns ...
800 ... Saro 900 ... coal supply unit
910 ... < / RTI >

Claims (5)

Control room
And an armature connected to the control room,
The control room is provided with a status board to display the status of each warrior by the operation of the control unit,
Wherein each of the warp yarns is provided with a yarn automatic feeding device in which a yarn supply unit is fixedly installed so as to automatically supply a magazine to which the yarn is burnt by a signal of a control unit. [2] The apparatus according to claim 1, wherein the charger unit comprises: a charger having a large loading hole or a small loading hole in a body fixedly attached to each warp; an operating state of a pusher and a pusher for advancing the magazine; A unit control unit connected to the detection sensor, and an inlet and an outlet connected to the charger unit. [2] The apparatus of claim 1, wherein the bullet supply unit includes a bullet collecting hole at one side of the body, a bullet collecting net connected to the bullet collecting net,
A load cell is provided on one side of the pressure-sensitive collecting hole,
And a collection box is inserted into the bullet collection hole. 2. The range control system according to claim 1, wherein the control unit is installed such that a magazine is displayed on the status plate when the detection sensor detects the advancement of the pusher. The shooting range control system according to claim 1, further comprising a mount for preventing the gun from being loosened while mounting the rifle to the carbon supply unit.

Images