KR101127316B1 - Ammunition for Mortar with Separation Mechanism of Propellant Assembly Part - Google Patents

Abstract

The present invention relates to an artillery fired ammunition that is loaded and fired into a muzzle, and in particular, the warhead assembly and the propulsion assembly are integrally assembled and are provided with a separation mechanism for separating the propulsion assembly and the warhead assembly after the trigger, while rotating only the warhead assembly. A method of artillery firing ammunition having a propulsion assembly detachment mechanism for flying

A warhead assembly 10 which is fired from the mortar and rotates; A propulsion assembly 20 for providing flight thrust to the warhead assembly 10 at the rear of the warhead assembly 10; And a clip 30 that connects and integrates the warhead assembly 10 and the propulsion assembly 20 and is dropped immediately after launch to separate the warhead assembly 10 and the propulsion assembly 20.

Therefore, it is not necessary to install a separate flight stabilization mechanism for flight stability, and the range and accuracy are improved, and the killing power can be increased by increasing the volume of the high explosives by increasing the volume of the bullet compared to the existing wing stabilized ammunition. do.

Mortar, shell, warhead assembly, prop assembly separation clip, clip, discharge gun, propulsion gun, ignition container, high explosive, rotating stabilized ammunition, wing stabilized ammunition, flight stabilizer

Description

Ammunition for Mortar with Separation Mechanism of Propellant Assembly Part}

The present invention relates to an artillery fired ammunition loaded with a muzzle and fired, and in particular, the warhead assembly and the propulsion assembly are integrally assembled and are provided with a separation mechanism for separating the warhead assembly and the propulsion assembly after the trigger, while rotating only the warhead assembly. An artillery fired ammunition having a prop assembly assembly mechanism for flight.

In general, artillery fired ammunition fired from cannons are classified into wing stabilized ammunition and rotation stabilized ammunition, depending on the flight stabilization mechanism. The wing stabilized ammunition is an ammunition in which a warhead assembly and a propulsion assembly are integrally formed, and wings are provided at the rear of the propulsion assembly to ensure flight stability by the wings. And rotationally stable ammunition means ammunition to ensure flight stability by rotation without rotating the wing by flying while rotating.

Rotating stabilized ammunition can actually increase warhead power by increasing the volume and volume of high explosives than wing stabilized ammunition, as the weight of the aircraft flying toward the target is greater than that of wing stabilized ammunition. In addition, rotationally stable ammunition can increase the range and accuracy compared to wing stabilized ammunition due to the flight characteristics flying while rotating. Therefore, most of the ammunition shells (eg, ammunition, gun shells, etc.) except mortar shells are operated in rotational stability.

On the other hand, since the mortar shell is loaded through the muzzle, it does not use general rotating stabilized ammunition, and selects and operates wing stabilized ammunition and integral rotate stabilized ammunition according to the caliber. In other words, the 60mm mortar or 81mm mortar uses the wing stabilization ammunition system, and uses wing stabilized ammunition, and in the case of large diameter mortars such as 4.2 inch (107 mm) mortars, steel wire is provided inside the barrel. Rotating stabilized ammunition is used, not ammunition.

The 4.2-inch mortars, however, are rotationally stable ammunition, but fly integrally without separating the warhead assembly and the propulsion assembly. This is because the mortar shell is loaded with integrated ammunition because it is difficult to separate the warhead assembly from the propulsion unit assembly due to the loading structure called the muzzle loading, even if the rotationally stable ammunition is loaded.

The 4.2-inch mortar is a wire-type mortar that can be rotated while the shell rotates, increasing warhead volume by increasing warhead volume and eliminating the need for a separate wing. Since the sub-assemblies fly integrally with the warhead assembly, the propellant assembly is separated and has a disadvantage in that the range and accuracy are lower than that of the ammunition flying only the warhead.

The present invention is to solve the above-mentioned conventional problems, to improve the accuracy by using a rotating stabilized ammunition instead of wing stabilized ammunition as a mortar shell, and separated by the propulsion unit assembly and the warhead assembly after firing so that only the warhead assembly rotating flight range It is an object of the present invention to provide a cannon-fired ammunition with a prop assembly assembly mechanism to prevent a decrease in airflow.

In addition, the present invention connects the warhead assembly and the propulsion assembly by the clip to be loaded integrally, and immediately after launch, the clip is separated so that the warhead assembly can be separated from the propulsion assembly assembly so that only the warhead assembly can fly in rotation. It is an object to provide artillery fired ammunition with a separation mechanism.

It is also an object of the present invention to provide artillery fired ammunition having a prop assembly detachment mechanism that allows the propeller assembly separated from the warhead assembly to be automatically released out of the barrel.

In addition, an object of the present invention is to provide a gun-fired ammunition having a propulsion assembly assembly mechanism for igniting the ignition container assembly ignited by the trigger and then the propellant and the discharge pill are sequentially ignited.

It is also an object of the present invention to provide a gun-fired ammunition having a prop assembly separation mechanism for inserting ammunition through the muzzle to insert the ammunition into the correct position.

An artillery firing ammunition having a propulsion assembly assembly mechanism of the present invention for achieving the above object comprises: a warhead assembly that is fired from a mortar and rotates; A propulsion assembly for providing flight thrust to the warhead assembly at the rear of the warhead assembly; And a clip which connects and integrates the warhead assembly and the propulsion assembly and is dropped immediately after launch to separate the warhead assembly and the propulsion assembly.

In addition, according to the artillery firing ammunition provided with the propulsion assembly assembly mechanism of the present invention, the propulsion assembly further comprises a discharge means to be automatically released from the barrel after the warhead assembly is fired and separated; The discharge means includes a plurality of holes through which the warhead assembly is coupled and provided at a rear of a coupling part having an inlet through which combustion pressure is introduced, filled with a discharge charge therein, and a combustion gas discharged from the discharge charge at the rear thereof. It is characterized in that the release drug collection.

Further, according to the artillery fired ammunition provided with a propulsion assembly assembly mechanism of the present invention, the propulsion assembly includes a coupling part having an inlet through which the warhead assembly is coupled and a combustion pressure is introduced, and behind the coupling part. Propellant assembly assembly is installed and the ignition cabinet assembly is installed therein, and the propellant assembly assembly is installed on the outer circumferential surface of the ignition cabinet and ignited by a flame emitted through a plurality of ignition holes radially formed in the ignition cabinet. It is characterized by including.

In addition, according to the artillery fired ammunition provided with the propulsion unit assembly separation mechanism of the present invention, the propulsion unit assembly is provided with a guide means for holding the position when the loading, the guide means is formed protruding from the coupling portion And a front guide part and a rear guide part protruding from the rear of the ignition medicine container.

In addition, according to the artillery fired ammunition having a propulsion assembly assembly mechanism of the present invention, the warhead assembly includes a carcass assembly filled with high explosives and a high width provided in the front of the carcass assembly and provided inside the carcass assembly. Characterized in that it comprises a fuse to explode the gunpowder.

Artillery fired ammunition provided with a propulsion assembly assembly mechanism of the present invention, since the propulsion assembly is separated and only the warhead assembly is rotated after the trigger, it is not necessary to install a separate flight stabilization mechanism for flight stability as well as the range and This has the effect of improving accuracy.

In addition, according to the artillery fired ammunition provided with the propulsion assembly assembly mechanism of the present invention, since the volume of the bullet can be increased compared to the existing rotationally stable ammunition, the effect of increasing the amount of high explosive charges to increase the killing power. There is.

In addition, according to the artillery firing ammunition provided with the propulsion assembly assembly mechanism of the present invention, after the warhead assembly is separated and fired, the post-operation for discharging the propulsion assembly by automatically discharging the propulsion assembly remaining inside the barrel. This has no effect.

In addition, according to the artillery fired ammunition having the propulsion assembly assembly mechanism of the present invention, since the ignition container assembly is ignited by the trigger, the propellant assembly and the discharge charge assembly are sequentially ignited. It is effective.

Hereinafter, with reference to the accompanying drawings illustrating a firing ammunition provided with a propulsion assembly assembly mechanism of the present invention.

1 is an external perspective view of a gun firing ammunition having a propulsion assembly detachment mechanism according to the present invention, FIG. 2 is a cross-sectional view of a gun firing ammunition provided with a propulsion assembly detachment mechanism of the present invention, and FIG. 4 is a sectional view showing the propulsion unit assembly which is a main component of the present invention, and FIG. 4 is a state in which the propulsion assembly which is the main component of the present invention is discharged out of the barrel.

The artillery firing ammunition provided with the propulsion assembly assembly mechanism according to the present invention includes: a warhead assembly (10) which is fired from a mortar and rotates; A propulsion assembly (20) for providing flight thrust to the warhead assembly (10) at the rear of the warhead assembly (10); And a clip 30 that connects and integrates the warhead assembly 10 and the propulsion assembly 20 and is dropped immediately after launch to separate the warhead assembly 10 and the propulsion assembly 20.

Here, the propulsion unit assembly 20 is coupled to the warhead assembly 10, the coupling portion 21 is provided with an inlet (21 ') through which the combustion pressure flows, and installed behind the coupling portion 21 And an ignition medicine barrel 22 having an ignition medicine barrel assembly 23 installed therein, and located between the coupling part 21 and the ignition medicine barrel 22, after the warhead assembly 10 is fired and separated. Emissions can be automatically discharged from the barrel (not shown), the discharge charge 26 is filled with a plurality of holes (25 ') formed in the rear and the combustion gas of the discharge charge 26 is discharged in the rear And a propellant assembly installed on an outer circumferential surface of the ignition medicine barrel 22 and ignited by flames emitted through a plurality of ignition holes 22 'radially formed in the ignition medicine barrel 22 ( 24, the front guide portion 27 protruding from the coupling portion 21, and after the ignition medicine barrel 22 It comprises a rear guide portion 28 protruding from the room.

In addition, the warhead assembly 10 includes a carburetor assembly 11 filled with a high explosive charge 12 therein, and a high explosive charge provided at the front of the carburetor assembly 11 and provided in the carcass assembly 11. And a fuse 13 for exploding 12).

The artillery firing ammunition provided with the propulsion assembly of the present invention configured as described above allows the warhead assembly to be separated from the propulsion assembly immediately after launching so that only the warhead assembly rotates.

The warhead assembly 10 and the propulsion assembly 20 are joined by a clip 30 to insert the integrated ammunition through the mortar of the mortar. At this time, the ammunition is inserted into the correct position and loaded by the rear guide portion 28 and the front guide portion 27 provided in the pushing unit assembly 20. When the propulsion unit assembly 20 is inserted to the lower end of the barrel, a ball provided in the barrel impacts the ignition container assembly 23 provided at the lower end of the propulsion unit assembly 20. Therefore, the ignition chamber assembly 23 is triggered and ignited, and a combustion pressure is generated inside the ignition chamber 22 installed with the ignition chamber assembly 23.

Subsequently, as the combustion pressure inside the ignition medicine cabinet 22 increases, a combustion flame is released through the ignition hole 22 'of the ignition medicine housing 22, whereby the ignition medicine housing 22 The propelling charge of the propelling charge assembly 23 mounted on the outer circumferential surface is ignited. The pressure inside the barrel increases due to the combustion pressure generated by the combustion of the propellant, and a part of the combustion pressure is introduced into the assembly 21 through the inlet 21 of the assembly 21.

Combustion pressure introduced into the assembly 21 acts on the rear of the warhead assembly 10, thereby separating the warhead assembly 10 from the propulsion assembly 20. Since the combustion pressure inside the barrel is applied to the rear end of the detached warhead assembly 10, the warhead assembly 10 is moved along the steel wire formed in the barrel and then fired through the muzzle to rotate while flying. . In this case, the clip 30, which has coupled the propulsion unit assembly 20 and the warhead assembly 10, is also separated according to the movement of the warhead assembly 10 to separate the propulsion unit assembly 20 and the warhead assembly 10. ) Is released.

 On the other hand, the combustion pressure generated by the combustion of the propellant is introduced into the discharge chamber 25 through the hole 25 'formed in the discharge chamber 25, thereby igniting the discharge charge 26. . Since the warhead assembly 10 is fired while the discharge charge 26 is combusted, the pressure inside the barrel is gradually reduced due to the combustion of the propellant charge. Thereafter, the pressure inside the discharge chamber 25 increases with the burning of the discharge charge 26, and the combustion pressure is released through the hole 25 ′. Accordingly, a propulsion force is generated in the propulsion unit assembly 20, and the propulsion unit assembly 20 is discharged through the muzzle.

When the warhead assembly 10 flying while reaching the target position, the fuse 13 is operated to detonate the high explosives 12 inside the coal body assembly 11 to use the explosive force of the high explosives 12. Force damage to the enemy. At this time, since the warhead assembly 10 is rotated to fly, the accuracy is improved compared to the wing stabilized ammunition, and the range is increased compared to the rotating stabilized ammunition or wing stabilized ammunition of the integral structure.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation, Changes will be possible.

1 is an external perspective view of an artillery firing ammunition having a propulsion assembly assembly mechanism according to the present invention.

2 is a cross-sectional view of the gun fired ammunition with propulsion assembly detachment mechanism of the present invention.

Figure 3 is a schematic view showing a propulsion unit assembly which is a main component of the present invention.

4 is a cross-sectional view of a state in which the propulsion unit assembly, which is a main component of the present invention, is discharged out of the barrel.

<Explanation of symbols for the main parts of the drawings>

10: warhead assembly

   11: bullet assembly 12: high explosive

   13: fuse

20: propulsion assembly

   21: coupling unit 22: ignition medicine

   23: ignition container assembly 24: propellant assembly

   25: Release pill 26: Release pill

   27: front guide 28: rear guide

30: Clip

Claims (5)

A warhead assembly 10 which is fired from the mortar and rotates; A propulsion unit provided with a discharge means for providing flight thrust to the warhead assembly 10 at the rear of the warhead assembly 10 and allowing it to be automatically released from the barrel after the warhead assembly 10 is fired and separated. An assembly 20; And a clip 30 that connects and integrates the warhead assembly 10 and the propulsion assembly 20 and is dropped immediately after launch to separate the warhead assembly 10 and the propulsion assembly 20. The discharge means is a propulsion, characterized in that the discharge charge 26 is filled with the discharge charge 26 therein, the rear discharge chamber 25 is formed with a plurality of holes (25 ') through which the combustion gas of the discharge charge 26 is discharged. Gun firing ammunition with subassembly separation mechanism. delete The method of claim 1, The propulsion unit assembly 20 is coupled to the warhead assembly 10, the coupling portion 21 is provided with an inlet (21 ') through which the combustion pressure flows, and installed behind the coupling portion 21 and the inside An ignition medicine barrel 22 in which the ignition medicine barrel assembly 23 is installed, and a plurality of ignition holes 22 ′ which are installed on an outer circumferential surface of the ignition medicine barrel 22 and formed radially in the ignition medicine barrel 22. An artillery fired ammunition having a propellant assembly separation mechanism comprising a propellant assembly assembly (24) that is ignited by a flame emitted through it. The method of claim 3, The propulsion unit assembly 20 is provided with a guide means for holding the position when loading the bullet, The guiding means includes a front guide part 27 protruding from the coupling part 21 and a rear guide part 28 protruding from the rear of the ignition medicine barrel 22. Cannon-fired ammunition with instruments. The method of claim 1, The warhead assembly 10 includes a carburetor assembly 11 filled with a high explosive charge 12 therein, and a high explosive charge 12 provided in the front of the carburetor assembly 11 and provided in the carcass assembly 11. Gun fired ammunition having a prop assembly detachment mechanism, characterized in that it comprises a fuse (13) to explode.

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