KR102644514B1 - Dummy warhead for test by imitating anti tank high explosive - Google Patents

Abstract

The present invention is designed and manufactured with the same external shape, warhead weight, and center of gravity of the warhead as the warhead of an actual high explosive, and is used to test the speed, pressure, and dispersion of the finished bomb to improve the basic performance of the high explosive bomb under development. It concerns a dummy warhead for testing high explosive bombs for tanks that can be confirmed in advance in a short period of time at low cost.

Description

Dummy warhead for testing high explosive bombs for tanks {DUMMY WARHEAD FOR TEST BY IMITATING ANTI TANK HIGH EXPLOSIVE}

The present invention relates to a dummy warhead that simulates an antitank munition operated in a tank. More specifically, it has the same external shape, warhead weight, and center of gravity (CG: Center of gravity) as the warhead of an actual high-explosive bomb. It is designed and manufactured in accordance with Gravity, etc., and is used for testing the speed, pressure, and dispersion of finished bombs, so that the basic performance of high explosive bombs under development can be confirmed in advance at low cost and in a short period of time.

A typical high explosive (HE: High Explosive) connects a fuse with an impact function, a bullet body made of steel, a high-explosive gunpowder that is charged inside the bullet body and generates explosive pressure and fragments of the bullet body when it explodes, and a high-explosive gunpowder. It consists of an auxiliary peony assembly that

When developing a new high-explosive bomb for tanks, tests to check the speed, pressure, and dispersion of the finished shell are conducted first to verify design suitability. At this time, when a high explosive bomb under research and development is actually manufactured and tested, a lot of time and money are naturally consumed. In particular, the car body made of steel is manufactured through complex processes such as cutting, forging, rough cutting, nosing, and finishing, so it consumes a considerable amount of time and cost, and requires design changes. If so, the cost and time will be increased, and there will be many difficulties in schedule management and cost management when developing a new high explosive anti-tank (HEAT) for tanks.

As a technology in the same field as the present invention, for example, Patent Document 1 describes a grenade made of high-density plastic such as polyethylene and aluminum, and a grenade in the nose cone portion to provide directional stability for a flying grenade. A rifle-fired dummy grenade loaded with a lead shot is disclosed. As shown in FIG. 4, the dummy practice grenade 10 disclosed in Patent Document 1 has a cylindrical nose cone 12 made of high-density polyethylene and a rear portion 14 made of high-density polyethylene with a plurality of radial fins. It is made of aluminum, and the front end is accommodated in the rear groove 28 of the nose cone 12, and the rear end with a male thread 56 is fastened to the female thread 54 of the rear 14. It consists of a cylindrical body (16). Reference numerals not mentioned in FIG. 4 can be fully understood by those skilled in the art by referring to Patent Document 1, so detailed description thereof will be omitted here.

Patent Document 1: U.S. Patent Publication Patent No. US 6,837,713

The present invention allows speed, pressure, and dispersion tests performed during the development process of high explosive bombs to be conducted at low cost, making it possible to check the basic performance of high explosive bombs under development in advance in a short period of time, thereby adjusting the development schedule and cost of high explosive bombs. The purpose is to provide a dummy warhead for testing high explosive bombs for tanks that can be easily managed.

In order to solve the above problems, the dummy warhead for testing high-explosive bombs for tanks according to the present invention includes a simulated fuse assembly located at the front of the dummy warhead and designed and manufactured to allow weight adjustment, and two parts of the lower shell and the upper shell. It is characterized by being composed of a carbon body assembly that can be separated into parts. More specifically, the dummy warhead for testing high explosive bombs for tanks according to the present invention is designed and manufactured to have the same external shape, weight, and center of gravity as the warhead of an actual high explosive bomb, and was developed in speed and pressure tests using the dummy warhead. It is characterized by being able to check the dispersion performance of high explosive bombs in progress in advance.

In particular, the dummy warhead for testing high explosive bombs for tanks according to the present invention is characterized in that the weight and center of gravity of the simulated fuse assembly can be adjusted within a certain range, allowing it to appropriately respond to design change requirements to some extent.

In an embodiment described later, the simulated fuse assembly of a dummy warhead for testing according to the present invention consists of a simulated fuse body made of aluminum and a tail portion plug made of steel and fastened to the rear groove of the simulated fuse body. It is done. The tail plug is manufactured in the form of a male thread, and the rear groove is manufactured in the form of a female screw, so the two can be assembled and disassembled by screw connection. If necessary, heavy materials such as lead (Pb) may be added to the remaining space of the rear groove created when the tail plug is plugged. With this configuration, a simulated fuse assembly capable of fine adjustment of weight and center of gravity is obtained.

In addition, in the examples described later, the shell assembly of the dummy warhead for testing according to the present invention has the same weight as the shell of an actual high-explosive bomb by adjusting the wall thickness of the lower shell and upper shell made of steel without charging high-explosive gunpowder. It is constructed to have a center of gravity. With this configuration, a carbon body assembly with a simplified manufacturing process is obtained.

According to the present invention, a dummy warhead for testing that mimics an actual high explosive bomb is obtained through a simplified manufacturing process, so that the basic performance of the high explosive bomb under development can be tested in advance at low cost and in a short period of time by testing the speed, pressure, and dispersion of the finished bomb. You can check it.

In addition, according to the present invention, the weight and center of gravity of the simulated fuse assembly can be finely adjusted, so even if there is a request for a design change, it can be easily responded to.

1 is a diagram showing the external shape of a dummy warhead according to an embodiment of the present invention.
Figure 2 is a view showing a simulated fuse assembly used in a dummy warhead according to an embodiment of the present invention, (A) is a combined cross-sectional view of the simulated fuse assembly, (B) is a cross-sectional view of the tail (tail) stopper, and (C) ) is a cross-sectional view of the simulated fuse body.
Figure 3 is a view showing a shell assembly used in a dummy warhead according to an embodiment of the present invention, (A) is a view showing the external shape of the shell assembly, (B) is a cross-sectional view of the lower shell of the shell assembly, (C) ) is a cross-sectional view of the upper shell of the shell assembly.
Figure 4 is a cross-sectional view of a dummy practice (rifle) grenade disclosed in Patent Document 1.

Hereinafter, an embodiment of a dummy warhead for testing a high-explosive bomb for tanks according to the present invention will be described based on the accompanying drawings.

1 to 3 schematically show the configuration of a test dummy warhead according to an embodiment of the present invention. Figure 1 shows the external shape of the assembled test dummy warhead 100, and Figure 2 shows a mock fuse. Shows the configuration of the assembly 110, and Figure 3 shows the configuration of the bullet assembly 120.

The simulated fuse assembly 110 is composed of a simulated fuse body 111 made of aluminum, and a tail stopper 113 made of steel that is fastened to the rear groove 112 of the simulated fuse body 111. Preferably, the distal end 114 of the tail plug 113 is manufactured in the form of a male thread, and the inner surface of the rear groove 112 is manufactured in the form of a female screw, so that the distal end 114 of the tail plug 113 is formed in the rear groove 112. ) to fine-tune the fixed position. Additionally, heavy substances such as lead (Pb) may be added to the remaining space 115 between the tip of the tail plug 113 and the rear groove 112, if necessary. With this configuration, a simulated fuse assembly 110 capable of fine adjustment of weight and center of gravity is obtained.

The shell assembly 120 consists of an upper shell 121 and a lower shell 122 made of steel that can be disassembled and assembled.

Since the test dummy warhead 100 according to the present invention is used without being charged with high-explosive gunpowder, the warhead weight is lighter than an actual high-explosive bomb. However, by adjusting the wall thickness of the lower shell 122 and the upper shell 121, the actual warhead 100 is used without being charged with high-explosive gunpowder. It is constructed to have the same weight and center of gravity as the warhead of a high explosive bomb.

With this configuration, a dummy warhead 100 for testing that simulates an actual high explosive can be easily obtained through a simple manufacturing process.

Although embodiments illustrating the technical idea of the present invention have been described above, the present invention is not limited to the structure and operation as described above. As an example, the material of the simulated fuse body 111 may be a non-ferrous metal other than aluminum or plastic. Additionally, the upper shell 121 and the lower shell 122 may be made of alloy materials with different compositions.

As described above, those skilled in the art will be able to understand that numerous changes and modifications can be made to the present invention without departing from the scope of the technical idea described in this specification. Accordingly, all such appropriate changes, modifications and equivalents shall be considered to fall within the scope of the present invention.

100… test dummy warhead
110… Simulated fuse assembly
111… Simulated fuse body
112… posterior groove
113… empennage
114… tip
115… remaining space
120… shell assembly
121… upper shell
122… lower body

Claims (3)

As a dummy warhead for testing high explosive bombs for tanks,
It consists of a simulated fuse assembly and a shell assembly,
The simulated fuse assembly consists of a simulated fuse body and a tail plug coupled to the rear groove of the simulated fuse body,
The carbon body assembly consists of an upper carbon body and a lower carbon body that can be disassembled and assembled,
The tail plug is manufactured in the form of a male thread at the tip,
The rear groove of the simulated fuse body is manufactured on the inner side in the form of a female thread,
A test dummy warhead for a high-explosive bomb for tanks, characterized in that the center of gravity of the test dummy warhead is adjusted according to the position at which the tip of the tail plug enters the interior of the rear groove of the simulated fuse body and is fixed. In claim 1,
A test dummy warhead for a high-explosive bomb for tanks, wherein the weight and center of gravity of the test dummy warhead can be finely adjusted by adding a weight to the remaining space between the tip of the tail plug and the rear groove. delete