KR102637738B1 - Gonpowder Case with an Easy-to-Open Opening Unit - Google Patents

Abstract

The present invention includes a casing having a predetermined length and a charge installed therein; A cap sealed at the top or bottom of the casing, respectively; A charge container may be provided in which an opening having a notch portion is formed on a flat portion of the cap to facilitate opening.

Description

Gonpowder Case with an Easy-to-Open Opening Unit}

The present invention relates to a charged container that minimizes the chain explosion of other nearby charged containers by causing the stored charged container to explode in the longitudinal direction of the charged container due to an impact or the like.

Propelling charge is a gunpowder that, when ignited by an ignition device, burns quickly and generates a large amount of gas, supplying energy for a warhead to fly at high pressure.

Propulsion charges can undergo oxidation, foreign substances, and changes in chemical composition during long-term storage, which can have a significant impact on the accuracy or range of shells, so they are transported and stored in sealed metal packaging containers. The charge container in which the propellant charge is mounted is basically of a sealed structure considering long-term storage.

However, although this structure is advantageous in harmful storage environments such as moisture absorption and contamination, there is a risk of explosion due to high temperature and high pressure gas if the propellant is ignited inside the charge container due to an unexpected accident such as external shock.

Propellant, the main component of the propellant charge, is a high-energy combustion material that can cause significant material and human damage to the surrounding area when ignited in an enclosed space.

Here, in the case of a cylindrical charged container, the casing, which is the outer shell of the charged container, is manufactured by rolling up a metal plate and welding the ends, so when an impact or the like occurs, the possibility of bursting at the welded portion may increase.

In other words, since there is a high possibility of the charge container exploding in the side direction, it will have a direct effect on other charge containers around it, and as a result, multiple charge containers may all explode.

The present invention provides a charge container that, when a plurality of charge containers explode, explodes in the longitudinal direction of the charge container, thus minimizing the chain explosion of other nearby charge containers.

The solution of the present invention is a casing having a predetermined length and a charge installed therein; A cap sealed at the top or bottom of the casing, respectively; A charge container may be provided in which an opening having a notch portion is formed on a flat portion of the cap to facilitate opening.

As described above, the present invention is a structure in which an opening having a notch is provided in the cap of the casing constituting the charged container, and when a plurality of charged containers are stored or transported and explode due to an external impact, the charged container explodes in the radial direction. Instead, an explosion can be induced along the length direction, thereby preventing chain explosions of other nearby charge containers.

Figure 1 is a front view showing a state in which a plurality of charge containers of the present invention are provided.
Figure 2 is a plan view of a state in which a plurality of charge containers of the present invention are provided.
Figure 3 is a plan view showing an opening formed in the cap of the charge container of the present invention.
Figure 4 is a cross-sectional view taken along line AA of Figure 2.
Figure 5 is a plan view showing an opening of a different structure formed in the cap of the charge container of the present invention.
FIG. 6 is a plan view showing an opening having a structure different from that of FIG. 5 formed.

Figure 1 is a front view showing a state in which a plurality of charged containers of the present invention are provided, and Figure 2 is a plan view showing a state in which a plurality of charged containers of the present invention are provided.

The shell of a self-propelled artillery has a structure in which the warhead and charge are separated. The purpose of making a shell with the warhead and charge separated is that the warhead and charge can be stored separately, which reduces the risk of explosion accidents, and also there is no binding force between the warhead and the charge container. This is because of the advantage that there is less percussion failure or chamber damage. Additionally, if the shell is constructed as an integrated shell, it may weigh a lot and thus may be difficult to handle.

Referring to FIG. 1, in such an artillery shell, for example, when the charge container 100 in which the charge is mounted inside is stored in a predetermined place, a plurality of the charge containers 100 can be stacked and stored in a lying state.

The loaded medicine container 100 of the present invention may include a casing 110 made of a metal material and having a cylindrical shape, and a first cap 120 and a second cap 130, which are caps provided on both ends of the casing 110, respectively. there is.

Referring to FIG. 2, the first cap 120 may be provided with a locking device to seal the first cap 120 to the end of the casing 110, and the second cap 130 may be attached to the casing 110. It can be joined by welding to the other end of .

The second cap 130 may have a circular flat portion 131 formed therein, and an open portion 140 may be formed in the flat portion 131 .

The opening portion 140 has a cut line 141 formed along the circumferential direction in the flat portion 121, and includes a plurality of nozzles whose outer ends are sharply narrowed at intervals with respect to the entire cut line 141. It may be a structure in which teeth 142 are formed. Referring to FIG. 3, the incision line 141 may be formed as a notch-shaped incision groove.

A notch generally refers to a change in the cross-sectional area of a part, and this notch creates uneven stress distribution and eventually leads to stress concentration, which is called the notch effect.

Therefore, since the incision line 141 is composed of a notch-shaped incision groove, stress can be concentrated, and the edge of the opening portion 140 is a notch portion 142 with a sharply narrow end. Since it is formed, this notch portion 142 may also be a location where stress concentration occurs. If an explosion occurs inside the casing 110, the opening portion 140 may be separated by the explosive force and explode in the longitudinal direction of the casing 110.

The open portion 140 can be formed in various shapes, and an important feature of the present invention is to form a notch portion 142 whose cross-sectional area changes.

The notch portion 142 may be an area whose cross-sectional area decreases from the center C of the open portion 140 to the outside of the open portion 140 along the radial direction.

That is, for example, the point of the incision line 141 that meets an imaginary circle having a predetermined radius from the center of the opening 140 is the first point ⓛ, and the position is spaced apart from the first point ⓛ. And the point of the cut line 141 that meets the virtual circle is the second point (②), which is formed at a position spaced apart from the virtual circle and is spaced apart from the first point (ⓛ) and the second point (②). The point of the cut line 141 at the position is defined as the third point (③), the area of the virtual circle is defined as the first area (a1), and the third point excluding the first area (a1) is ( When defining the area formed by the first point (ⓛ) and the second point (②), where the incision line 141 is connected to ③), as a second area (a2), the second area (a2) ) may be formed to be smaller than the area of the first area (a1).

In other words, the cross-sectional area of the second area (a2) corresponding to the notch portion 141 may be significantly smaller than the first area (a1) that occupies most of the open portion 140, and accordingly, the notch effect may be affected. When the pressure inside the casing 110 increases, the opening portion 140 is easily separated and the casing 110 is opened, and the direction of explosion by the charge can be guided along the longitudinal direction of the casing 110.

On the other hand, when the opening portion 140 is formed in a circular shape, the notch portion is not formed, so when the charge container explodes, it may not be easily separated and opened.

Accordingly, it may be desirable to form the notch portion 142 in a shape in which the cross-sectional area changes rapidly.

The number of notches 142 formed at the edges along the circumferential direction of the open portion 140 may not be particularly limited.

Normally, the charge container 100 is placed in a designated storage location and must be kept sealed so as not to be affected by moisture or temperature changes. Even when the open portion 140 of the present invention is formed, this sealed state can be maintained as is. However, when transported by a charge container transport vehicle, if a plurality of charge containers collide with each other or with another structure, the charge container 100 may explode.

Of course, when transporting a plurality of charge containers 100, a structure for holding the charge containers 100 may be installed, but especially when the charge container transport vehicle drives off-road, the charge container 100 may be impacted by vibration. This may be applied, and accordingly, the possibility that the charge container 100 explodes cannot be ruled out.

The present invention allows the explosion of the charged container 100 in the above-mentioned emergency, and when allowed, induces the charged container 100 to explode in the longitudinal direction rather than the radial direction, thereby causing other nearby charged containers 100 to explode. Transmission of explosive force can be minimized.

The charge container 100 is usually transported lying down in a horizontal state, and a plurality of charge containers 100 are provided close to each other along the radial direction. Therefore, when a collision occurs, the possibility of a collision occurring may increase due to external force acting in the radial direction rather than the longitudinal direction of the charged container 100, so an opening ( When forming 140), there may be a small possibility that the open portion 140 will be released from its sealed state by external force.

In addition, the present invention is another structure of the open portion, and as shown in FIG. 5, straight incision lines 151 having a predetermined length are formed on the flat part 131 of the second cap 130 at intervals along the circumferential direction. An opening 150 may be provided. The incision line 151 may be formed as a notch-shaped incision groove. In other words, the plurality of incision lines 151 may be formed to have a predetermined length radially from the center point where they meet each other, and may be formed at positions spaced apart from each other at a predetermined angle along the circumferential direction.

The incision line 151 may be formed in a curved shape other than a straight line.

In addition, the present invention is another structure, as shown in FIG. 6, a predetermined shape is formed by incision lines 161 at intervals along the circumferential direction on the flat part 131 of the second cap 130. A plurality of area portions 162 may be formed, and an opening portion 160 may be provided at one end of the area portion 162 whose width becomes narrower toward the end. The incision line 161 may be formed as a notch-shaped incision groove.

Therefore, when the charge container 100 explodes due to a change in the state of the internal charge due to impact or long-term storage, the openings 150 and 160 of other structures are opened first and explode, and the charge container 100 The second cap 130 may be opened before the casing 110, thereby preventing explosion of other nearby charge containers 100.

Meanwhile, when looking at the overall structure of the charge container 100, the opening portions 140, 150, and 160 are formed in the cap and have a relatively small area compared to the casing 110, so they are There may not be much chance that the opening 140 will be damaged.

Therefore, in the present invention, there is a small possibility that the sealed state of the charged container 100 cannot be maintained by the opening portion 140, and instead, when the charged container 100 explodes in an emergency, other nearby charged containers 100 By reducing the spread, the damage caused by the explosion can be greatly reduced.

100... Charge container 110... Casing
120... first cap 130... second cap
121,131... Flat part 140,150,160... Open part
141,151,161... Cut line 142... Notch area
162... Area section
①... first point ②... second point
③... Third point
a1... first area a2... second area
C... center r... radius

Claims (5)

A casing having a predetermined length and having a charge installed therein;
Caps sealed at both ends of the casing; Including,
An opening having a notch is formed on the flat part of the cap sealed at one end of the casing to facilitate opening,
The opening portion includes an incision line,
A first point is a point of the incision line that intersects an imaginary circle having a predetermined radius from the center of the opening,
The point of the incision line that is spaced apart from the first point and meets the virtual circle is the second point,
The point of the cut line formed at a position spaced apart from the virtual circle and spaced apart from the first point and the second point is defined as a third point,
The area of the virtual circle is a first area,
When defining the area formed by the first point and the second point, which are each connected to the third point with an incision line, excluding the first area, as the second area,
The charge container wherein the second area is formed to be smaller than the area of the first area.
delete According to claim 1,
The second area is a charge container in which the width becomes narrower as it goes from the virtual circle to the third point.
delete A casing having a predetermined length and having a charge installed therein;
Caps sealed at both ends of the casing; Including,
An opening is formed in the flat portion of the cap sealed at one end of the casing,
The opening portion is formed by a plurality of area portions forming a predetermined shape by incision lines at intervals along the circumferential direction,
A charge container in which one end of the area is formed to become narrower toward the end.