KR100498085B1 - Electronic imitation gun magazine for substituting a blank shot and controlling method thereof - Google Patents

Abstract

The present invention relates to an electronic simulated magazine for terrorism that enables the control of impact, explosion, flash, fire mode, and the use of bullets by substituting the terror bombs used in military training, and the method of controlling the same. A launch switch; A shock generator for generating a shock by receiving a control signal according to the pulling of the trigger; A binge generator for generating a binge by receiving a control signal according to the pull of the trigger; A flash generating unit for generating a flash by receiving a control signal according to the pulling of the trigger; A firing mode setting switch for setting single shot, firing shot or continuous firing; A virtual bullet charging unit capable of inputting the charged water repellent of the virtual coal by charging control / power charger; A residual coal display unit for displaying the charged water repellent of the virtual coal; Receiving a signal to detect the trigger pull from the firing switch to control the impact, explosion, flash generating unit and subtract the water repellent of the virtual coal used in the charged water repellent input from the virtual coal charging unit to subtract the remaining xanthan water repellent A control unit which controls to display the display unit; By providing the power supply unit, the same effect as that of the dread bullet can be maximized, and the training cost can be reduced, and the safety cost can be prevented.

Description

Electronic imitation gun magazine for substituting a blank shot and controlling method

The present invention relates to an electronic simulated magazine for a dread bullet and a method of controlling the same, in particular, instead of a training dart fired from a rifle in order to achieve a training purpose such as combat in a small squadron, a shock, explosion, flash of a bomb is fired at the time of firing a dread shot. In addition to providing the same effect, it is possible to control the firing speed of a single shot / fire / firing, and to control and reload the number of used bullets. will be.

Dread bullets are removed from bullets only for training purposes in order to give them the same situation as the actual killings in small team training. The composition consists of primers, casings, and propellants.

These terror bullets are loaded into magazines and used in the rifle. When a trigger is pulled, the ball strikes the detonator's detonator, detonates the detonator and explodes a propellant, making it sound as if it's being used for training purposes. In this case, the weapons are fired and used in a state where a minimum safety distance is secured during training, thereby achieving the same effect as in combat.

However, in handling the bombs, the careful use of the bombs by the user or the manager to recycle them after the use of the bombs in training, and the management operation procedure based on the actual bullets are applied to prevent them from being used in crime. .

In producing such a dread bomb, since it is made of the same material as a real bullet, there is a problem in that expensive manufacturing cost is required.

In addition, in the field unit, the demand for the dread bullets is increasing to obtain a realistic training effect in training, which causes a large consumption of the national budget, and to improve the description and effect of the realistic training situation in the future. Since the additional terror bombs are expected to occur greatly, the cost is expected to increase further, resulting in a problem in that consumable costs continue to increase.

On the other hand, when using terror bombs in field units, there are no fears compared to real bullets, which can lead to accidents caused by physical injuries such as burns and injuries due to carelessness, as well as damage to the training atmosphere due to safety accidents. There was a lot of waste in safety education and prevention programs.

In addition, the deterioration factor of gun life, such as gun wear and corrosion caused by the use of terror bombs, and the maintenance time of the soldiers increased due to firearms in the field.

In dealing with other dread bombs, there were problems such as excessive management time of management personnel due to separate management of the management personnel and over-payment of the administrative staff due to the application of actual shots, especially in terms of recovery and management of casings. The psychological burden was so heavy that the training effect was always inherent.

Therefore, the present invention was devised to solve such a conventional problem, and an object of the present invention is to obtain the same effect as the dread bullet, while replacing the use of the dread bomb by replacing the use of dread bullet electronic simulation magazine and its control method To provide.

Another object of the present invention is to provide an electronic simulated magazine for fear bombs having an electronic and mechanical device for controlling bombs, bombs, flashes, firing modes and used bullets by substituting a bomb, and a control method thereof.

It is still another object of the present invention to provide an electronic simulation magazine and a control method for replacing a bomb, which can reduce training cost by replacing the use of a bomb.

It is still another object of the present invention to provide an electronic simulated magazine for a dread bullet that can prevent a safety accident during training by replacing the use of a dread bomb and a control method thereof.

In order to achieve the above object, the electronic mock magazine instead of a dread bullet according to the present invention includes: a firing switch for detecting a pull of a trigger of the rifle; A shock generator for generating a shock by receiving a control signal according to the pulling of the trigger; A binge generator for generating a binge by receiving a control signal according to the pull of the trigger; A flash generating unit for generating a flash by receiving a control signal according to the pulling of the trigger; A firing mode setting switch for setting single shot, firing shot or continuous firing; A virtual bullet charging unit for inputting a charging / receiving number of a virtual bullet that can be fired by a charging control / power charger; A residual coal display unit for displaying the charged water repellent of the virtual coal; Receiving a signal for detecting the trigger pull from the firing switch to control the impact, explosion, flash generating unit and subtracting the water repellent of the virtual coal used in the charging water repellent of the virtual coal input from the virtual coal charging unit to reduce the residual carbon water A control unit controlling to display the remaining coal display unit; Characterized in that the power supply unit.

According to the present invention, there is provided a method for controlling an electronic simulated magazine for fear bombs, including: determining whether a charged water repellent receiving a virtual bullet from a charging control / power charger is an authorized water repellent;

If the number of charged virtual coals is an authorized water repellent, displaying the number of charged virtual coals on the remaining coal display unit, and if the number of charged virtual coals is not an authorized water repellent, recharging from a charge control / power charger;

Judging whether the firing signal is input, and if there is no input signal, returning to the step of determining whether the charged water-repelling water is an authorized water-repelling water, and determining the firing mode when the firing signal is input;

If the firing mode is a single shot, generating the impact signal, the flash sound and the flash once and then returning to the step of determining whether the firing signal has been input, and repeating the following steps;

If the firing mode is a firing point, generating three consecutive impacts, explosions, and flashes, and when the firing signal is terminated, returning to determining whether the firing signal is input and repeating the following steps;

If the shooting mode is continuous shooting, while the firing signal is being input, shock, explosion, and flash are continuously generated. If the firing signal is terminated, the process returns to the step of determining whether the firing signal is input and repeats the following steps. It consists of steps.

Hereinafter, each component for implementing the basic technical idea of the present invention with reference to the accompanying drawings will be described in detail.

Fig. 1 is a block diagram showing the configuration of the electronic simulated magazine for the dread bullets according to the present invention.

Electronic simulated magazine for the dread bullets according to the present invention and the firing switch 11 for detecting the pull of the trigger of the rifle; A shock generating unit (12) generating a shock by receiving a control signal as the trigger is pulled; A binge generator 13 for generating a binge by receiving a control signal according to the trigger pull; A flash generator 14 for generating a flash by receiving a control signal according to the trigger pull; A shooting mode setting switch 15 capable of setting a single shot, a firing shot or a continuous shot; A virtual bullet charging unit 16 capable of inputting a charging / receiving number of a virtual bullet shot by the charging control / power charger 60; A residual coal display unit 17 for displaying the charged water repellent of the virtual coal; Receiving a signal for detecting the trigger pull from the firing switch 11 to control the impact, explosion, flash generating unit (12, 13, 14) and the charging of the virtual coal input from the virtual coal charging unit 16 A control unit 18 which controls to display the remaining xanthan water repellent on the xanthan display unit 17 by subtracting the water repellent of the virtual coal used in water repellent; It consists of a power supply unit 19.

As shown in FIG. 2, the simulated magazine 10 according to the present invention has the same overall appearance as the actual magazine and can be inserted into the magazine insertion opening 21 of the actual rifle 20. When the electronic rifle magazine 10 of the present invention is inserted into the actual rifle 20, the impact generator 12 is inserted into the magazine insertion hole 21, while the explosion generator 13 and the shooting mode setting switch 15 are inserted. The virtual coal charging unit 16, the remaining coal display unit 17, and the power supply unit 19 are exposed to the outside.

On the other hand, if you look at the process of firing ammunition from the actual rifle, insert the ammunition loaded into the magazine insertion slot and use the rifle's loading handle (26) to retreat and then move forward the thrust assembly housed inside the rifle. The lug on the front guides and loads the ammunition located at the top of the magazine into the chamber and is ready for launch.

In this state, grasping the handle (22) and pulling the trigger (23), the tumbler acts to hit the ball housed in the bolt, the ball hit the ball in the chamber of the ammunition loaded (loaded) When a bombardment strikes, the primer is ignited and detonated, and the detonation creates pressure in the sealed casing due to the explosion of the propellant contained in the bullet, and the bullet mounted at the tip of the casing is separated. Rotates along the rifle's barrel liner and propels forward at high speed to fly towards the target.

As such, when the propellant is exploded, the bullet exits forward, but the rifle receives a repulsion force due to the recoil, so that the electronic mock magazine 10 instead of the dread bullet according to the present invention also has a magazine inlet 21 to generate such a reaction force. An impact generating portion 12 is installed in the upper portion inserted into the upper portion as shown in FIG. The impact generating unit 12 may reproduce the impact generated when a real shot or a real bullet by a rifle is fired by, for example, a solenoid.

4 is a cross-sectional view showing a state in which an impact generating unit according to the present invention is made of a solenoid and mounted on a simulated magazine.

As shown, the impact generating portion 12 is installed on the upper portion of the mock magazine 10 (ie, the portion inserted into the magazine insertion hole of the rifle). The cylindrical coil 31 wound in a cylindrical shape is level with the direction in which the bullet is blown (forwarding), and the hammer 32 in the cylindrical coil 31 is operated in the opposite direction to the direction in which the bullet is blown (forwarding). To be installed. The hammer rod 33 inserted into the cylindrical coil 31 has a magnetic force of the N pole or the S pole, and is normally pulled by the spring 34.

When the shooter pulls the trigger 23 of the rifle 20, the firing switch 11 is pressed to the "on" state, and this "on" signal is input to the control unit 18. The controller 18 receiving the "on" signal from the launch switch 11 operates the shock generator 12.

When the control unit 18 outputs an operation signal to the impact generating unit 12, power is applied to the cylindrical coil 31 so that the cylindrical coil 31 has a magnetic force, and a hammer rod inserted into the cylindrical coil 31. Numeral 33 is subjected to the repulsive force and the hammer 32 protrudes from the inside of the cylindrical coil 31 to the outside to hit the inner wall of the simulated magazine 10.

The impact generated when the hammer 32 hits the inner wall of the simulated magazine 10 hits the rifle body near the magazine inlet 21 of the rifle 20 and its price force is shot through the butt 25. It will give a shock to you.

On the other hand, the amount of impact generated when shooting a bullet is 4g-m / s, and the amount of impact is 4㎏-m / s. The mass is only the mass of the generated gas, and only the pressure of the generated gas acts.

However, the flow rate of generated gas is theoretically about 4,000m / s, but it is actually less than 2,500m / s due to energy loss.In this case, the amount of impact is very small when the gas is released through the muzzle. It is only about 30%.

Therefore, it is assumed that the amount of impact generated during the shooting of the dread bomb is about 4 kg-m / s × 30% = 1.2 kg-m / s, thereby implementing an electric shock device corresponding thereto.

On the other hand, the explosion sound is generated along with the impact generated during the actual shooting of the bullet or the dreaded bullet by the rifle. In the electronic simulated magazine 10 instead of the terror bomb according to the present invention, the explosion sound generation unit 13 generates the explosion sound.

As shown in FIG. 5, the binge generator 13 includes a binge signal storage unit 41 storing a binge sound at the time of bullet shooting, and the binge signal storage unit 41 under the control of the controller 18. A loudspeaker reproducing unit 42 for reproducing the loudspeaker signal stored in the loudspeaker as a loud sound, an amplifying unit 43 for amplifying the reproduced loudspeaker signal, a speaker 44 for generating the amplified loudspeaker signal as sound, It consists of an amplification control unit 45 for adjusting the amplification amount of the amplification unit 43.

The explosion signal storage section 41 converts the analog sound from the live shots into a digital signal and stores it in a storage device such as an IC memory chip, and the explosion playback section 42 converts the digital signal into an analog signal. Can be produced by a sound reproducing apparatus such as a synthesizer or the like.

When the control unit 18 receives a signal indicating that the trigger 23 is pulled from the firing switch 11, the control unit 18 operates the explosion generating unit 13 to control the explosion signal stored in the explosion signal storage unit 41. ) To read it and play it back as a blast signal.

The reproduced explosion signal is amplified by the amplifier 43 and converted into sound by the speaker 44 to generate the explosion sound. In addition, the amplification control unit 45 to adjust the amount of amplification so that the sound-absorption effect can be adjusted within the range of 100 ~ 150 kHz (average noise level in the case of a live shot is 143 kHz).

On the other hand, when a real shot or a real shot by a rifle fires, the muzzle flashes due to explosive explosives. The electronic simulated magazine 10 of the dread bullets according to the present invention is also equipped with a flash generating unit 14 on the muzzle 24 side of the rifle 20 in order to reproduce the actual flash. Let the flash occur on page 24).

The flash generating unit 14 is connected so that when the shooter pulls the trigger 23 of the rifle 20, the flashing should be generated by the control signal of the control unit 18, so that the control signal can be applied from the control unit 18. It should be, and also generates a glare, and thus requires a power source, when wired to the simulated magazine 10 by wire can use the power of the power supply unit 19 installed in the simulated magazine 10.

However, since the power of the power supply unit 19 installed in the mock magazine 10 is not available when connected wirelessly, the rifle 20 may be provided with a separate power supply 53 in the flash generating unit 14 itself. It turns out that a small battery can be installed separately on the muzzle 24 side.

The flash generating unit 14 is formed in a cylindrical shape so as to be easily fitted to the muzzle 24 as shown in FIG. 6, and when the shooter pulls the trigger 23 of the rifle 20, the control unit 18 Since the flash should be generated by the control signal, the control signal is connected in a wired form so that the control signal can be applied.

However, since the streamlined flash generating unit 14 as described above is easily caught by the shooter's arm or equipment during training, the flash generating unit 14 is located on the simulated magazine 10 side as shown in FIG. A wireless transmitter 51 is provided, and a wireless receiver 52 is provided on the muzzle 24 side of the rifle 20 to wirelessly connect the flash generating signal output from the controller 18 to wirelessly transmit the flash. Note that it can also be generated.

That is, the flash generating signal output from the control unit 18 is modulated into a radio signal by the wireless transmitting unit 51 and input to the wireless receiving unit 52 of the flash generating unit 14, and the input signal flashes the power source 53. Flash is generated by applying to the generator 54.

The shooting mode setting switch 15 may selectively set one of the single shot, the fireman, and the continuous shooting according to the controller's instruction before the shooting.

When the shooter sets the firing mode setting switch 15 to "firing" and pulls the trigger 23, the control unit 18 receives the shock generating unit 12 and the explosion when the "on" signal is input from the firing switch 11. The generator 13 and the flash generator 14 are automatically operated to be fired at a firing speed of, for example, about 10 to 15 shots per second. If the shooter keeps pulling the trigger 23, it is fired continuously for that duration.

On the other hand, the electronic simulated magazine 10 for the dread bullets according to the present invention is to receive the charged water repellent of the virtual coal that can be used by the charge control / power charger 60.

The charge control / power charger 60 is, for example, a PDA (Personal Digital Assistant), which is carried by a controller and connected to the virtual bullet charging unit 16 of the mock magazine 10 when necessary to charge the virtual bullet. And remove the balance after training.

In order to receive the charging and recharging of the virtual coal from the charge control / power charger 60, an outlet-shaped virtual bullet charging portion 16 is installed below the simulated magazine 10, and the charge control / power charger 60 of the The plug is inserted to receive the charged water repellent of the virtual bomb by an electrical signal.

In this way, the charge control / power charger (60) can control the charging and repelling of the virtual bullets of each shooting in the central control headquarters can be obtained a realistic training effect.

Charging control / power charger 60 and the virtual coal charging unit 16 is a plug and an outlet can be connected by wire to control the charging and charging of the virtual coal.

Therefore, the number of charges can be adjusted according to the type of training, while the shooter can shoot by setting the shooting mode setting switch 15 either single shot, fireman or continuous shooting according to the training situation. do.

8 is a flowchart showing a method of controlling an electronic simulated magazine for use of a dread bullet in accordance with the present invention.

The simulated magazine 10 according to the present invention connects the plug of the charging control / power charger 60 to the outlet of the virtual bullet charging unit 16 and uses the charging / repelling power of the virtual coal that can be used from the charging control / power charger 60. Is input whenever necessary, and when the electronic mock magazine 10 of the present invention is inserted into the magazine insertion slot 21 of the rifle 20, the controller 18 determines whether the charged water repellent of the loaded virtual bullet is an authorized water repellent. It judges (step S81).

If the charged water repellent is not an authorized water repellent, " reloading " is displayed on the xanthan display unit 17 (step S82), and the process returns to step S81 to determine whether the charged water repellent of the loaded virtual coal is an authorized water repellent.

When the charged water repellent is the authorized water repellent, the controller 18 displays the charged water repellent of the charged virtual coal on the residual coal display unit 17 (step S83), and then performs the next step.

Subsequently, it is determined whether the firing signal is input (step S84), and when the firing signal is not input, it is determined whether the charging water repellent of the virtual coal charged from the charging control / power charger 60 is an authorized water repellent (S81). When the firing signal is inputted, the shooting mode is determined (step S85).

When the shooting mode is a single shot, the impact / explosion / flash generation unit 12, 13, 14 is operated to generate the impact, explosion / flash once (step S86), and it is determined whether the firing signal is finished (step S87). ).

 If the firing signal has not ended, step S86 or less is repeated. If the firing signal is ended, the process returns to step S84 to determine whether the firing signal has been input and repeats the following steps.

If the shooting mode is a firing point, the impact, explosion, and flash generators 12, 13, and 14 are operated three times to generate three times of impact, explosion, and flash (step S88), and it is determined whether the firing signal is finished ( Step S89).

If the firing signal has not ended, step S88 or less is repeated. If the firing signal is ended, the process returns to step S84 to determine whether the firing signal has been input and repeats the following steps.

When the shooting mode is continuous, the impact, explosion, and flash generators 12, 13, and 14 are operated continuously to generate the impact, the explosion, and the flash (step S90), and it is determined whether the firing signal is finished ( Step S91).

If the firing signal has not ended, step S90 or less is repeated. If the firing signal is ended, the process returns to step S84 to determine whether the firing signal has been input and repeats the following steps.

As described above, according to the electronic simulation magazine and the control method for the dread bullets of the present invention, it is possible to improve the training effect by replacing the dread bullets while obtaining the same effects as the conventional dread bullets, and also to improve the impact, explosion, It is a useful invention that can control the flash, fire mode, and use ammunition, reduce the training cost of the field force, and also prevent safety accidents during training.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a block diagram showing the configuration of an electronic simulated magazine for fear bombs according to the present invention;

2 is an explanatory view showing a state in which an electronic simulated magazine replacing a dread bullet according to the present invention is inserted into a magazine insertion hole of an actual rifle;

3 is an external state diagram of an electronic mock magazine instead of a dread bullet according to the present invention;

4 is a cross-sectional view showing a state in which the impact generating unit made of a solenoid according to the present invention is installed in an electronic mock magazine instead of a dread bullet;

5 is a block diagram showing a configuration of a binge generator according to the present invention;

Figure 6 is an embodiment of a flash generating unit made of a cylindrical shape easily fitted into the muzzle according to the present invention,

7 is a block diagram showing the configuration of a flash generating unit which is inserted into the muzzle by the present invention and wirelessly transmits / receives an electronic simulated magazine for replacing a bullet.

Fig. 8 is a flowchart showing a method of controlling an electronic simulated magazine for a dread bullet according to the present invention.

<Description of Symbols for Major Parts of Drawings>

10: simulated magazine 11: firing switch

12: impact generating unit 13: explosion generating unit

14: flash generating unit 15: shooting mode setting switch

16: Virtual coal charging unit 17: Xanthan display unit

18: control unit 19: power supply

20: Rifle 60: Charge Control / Power Charger

Claims (7)

A firing switch 11 for detecting a pull of the trigger 23 of the rifle 20; A shock generating unit (12) generating a shock by receiving a control signal according to the pulling of the trigger (23); A loudspeaker generator 13 for generating a loud sound by receiving a control signal according to the trigger 23; A flash generator 14 for generating a flash by receiving a control signal according to the pull of the trigger 23; A shooting mode setting switch 15 capable of setting a single shot, a firing shot or a continuous shot; A virtual bullet charging unit 16 capable of inputting a charged water repellent of the virtual bullet which can be fired by the charging control / power charger 60; A residual coal display unit 17 for displaying the charged water repellent of the virtual coal; Receiving a signal for detecting the pull of the trigger 23 from the firing switch 11 to control the shock, explosion, flash generating unit 12, 13, 14 and the virtual input from the virtual bullet charging unit 16 A controller 18 which controls to display the remaining residual water repellent on the residual coal display unit 17 by subtracting the water repellent consumed by the charged water repellent of the coal; An electronic simulated magazine for a dread bullet, characterized by including a power supply unit 19. The method of claim 1, wherein the impact generating portion 12 is a cylindrical coil wound in a cylindrical shape; A hammer (32) installed in the cylindrical coil (31) to operate in a direction opposite to the direction in which the bullet is blown; A hammer rod 33 which is integral with the hammer 32 and bears magnetic force and is inserted into the cylindrical coil 31; One end thereof is fixed to the inner wall of the simulated magazine and the other end is composed of a spring (34) for pulling the hammer rod (33). The method of claim 1, wherein the binge generator 13 includes a binge signal storage unit 41 for storing a binge sound when shooting a bullet; A loudspeaker reproducing unit 42 for reproducing the loudspeaker signal stored in the loudspeaker signal storage unit 41 as the loud sound under the control of the controller 18; An amplifier 43 for amplifying the reproduced explosion signal; A speaker (44) for generating the amplified explosion signal as sound; Electronic simulation magazine for the dread bullets, characterized in that consisting of amplification control unit 45 for controlling the amplification amount of the amplification unit 43. The electronic mock magazine of claim 1, wherein the flash generating unit (14) is formed in a cylindrical shape so as to be easily fitted to the muzzle (24). 5. The flash generating unit (14) is provided with a wireless transmitter (51) on the side of the simulated magazine (10) and a wireless receiver (52) on the muzzle (24) side of the rifle (20). An electronic simulation magazine for the dread bullets, wherein the flash generation signal output from 18) is generated by wireless transmission. The electronic mock magazine of claim 5, wherein the flash generating unit (14) is provided with a separate power source (53). Determining whether the charged water repellent receiving the virtual bomb from the charged control / power charger is an authorized water repellent; If the number of charged virtual coals is an authorized water repellent, displaying the number of charged virtual coals on the remaining coal display unit, and if the number of charged virtual coals is not an authorized water repellent, recharging from a charge control / power charger; Judging whether the firing signal is input, and if there is no input signal, returning to the step of determining whether the charged water-repelling water is an authorized water-repelling water, and determining the firing mode when the firing signal is input; If the firing mode is a single shot, generating the impact signal, the flash sound and the flash once and then returning to the step of determining whether the firing signal has been input, and repeating the following steps; If the firing mode is a firing point, generating three consecutive impacts, explosions, and flashes, and when the firing signal is terminated, returning to determining whether the firing signal is input and repeating the following steps; If the shooting mode is continuous shooting, while the firing signal is being input, shock, explosion, and flash are continuously generated. If the firing signal is terminated, the process returns to the step of determining whether the firing signal is input and repeats the following steps. Control method of the electronic simulation magazine for the dread bullets, characterized in that consisting of a step.