KR20180058346A - Armor for ground torpedo pressure of explosion defense - Google Patents

Abstract

The present invention relates to an armor for protecting explosion of a mine, which is mounted in a lower portion of a combat vehicle and minimizes vertical deformation at explosion of the mine to promote safety of passengers, without increasing a thickness. The armor includes an outer armor having a substantially V-shaped cross section and a recessed portion at the center, of which slope portions are formed on both sides of the recessed portion to have an angle of inclination increased from a lower portion to an upper portion; a reinforcing rib having a plurality of inner reinforcing ribs integrated with the inner surface of the outer armor, and a plurality of outer reinforcing ribs integrated with the outer surface; and a reinforcing panel connected integrally with the inner surface of the outer armor and having engaging slots on both sides to receive the inner reinforcing ribs, of which the top surface is provided with a plurality of fastening holes to achieve the same behavior as the outer armor, thereby absorbing impact at explosion of the mine and thus reinforcing strength.

Description

BACKGROUND OF THE INVENTION Field of the Invention [0001] The present invention relates to an armor for ground torpedo pressure of explosion defense,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a glove for landmine explosion protection to be mounted on a lower portion of a combat vehicle, and more particularly to a glove for landmine explosion protection that minimizes vertical deformation .

In general, combat vehicles such as tanks and armored vehicles are equipped with protective gloves to protect the crew on board when a weapon such as a mine explodes from below.

On the other hand, the lower armor of the combat vehicle is thinner than the other parts, and therefore, it is the main cause of damage due to the explosion pressure of the steel sheet when the land mine explosion occurs or causing the crew to be injured.

Accordingly, it has been required to provide a glove for protection against landmines, which minimizes the damage of the vehicle from the explosion pressure when the landmine is exploded, and also prevents the crew from being injured. Accordingly, various materials and configurations of gloves have been proposed.

However, in the conventional mine explosion protection glove, since the thickness is made thick by using high-strength material in order to improve the protection performance, there is a problem that the weight of the vehicle is increased, the cost is increased, and the maneuverability is lowered.

In addition, the conventional mine explosion-proof protection glove is formed as an integral banding structure in the width direction in order to prevent the damage of the welded portion in explosion, but the impact due to the explosion can not be effectively dispersed or absorbed, Therefore, there is a problem that the crew footstep and the crew chair part are interfered with each other, resulting in the crew being injured.

Patent No. 10-1378516

SUMMARY OF THE INVENTION It is therefore an object of the present invention to provide a method of minimizing the dynamic deformation in the vertical direction caused by the explosive pressure generated during landmine explosion without increasing the thickness of the lower armor of the combat vehicle, And to provide a glove for protection against landmines, which prevents breakage and ensures the safety of the crew.

In order to achieve the above object, according to the present invention, there is provided a protective glove for landmine explosion protection, the glove having a substantially V-shaped cross-section, a central portion formed with a concave portion, An outer glove on which an inclined portion is formed so as to form an inclination angle that widens the angle of inclination; A plurality of inner reinforcing ribs formed integrally through the inner surface of the outer glove, and a plurality of outer reinforcing ribs integrally formed through the outer surface; And a plurality of fastening holes are formed on the upper surface of the fastening hole so as to have the same behavior as that of the outer glove, A reinforcing panel formed to absorb the shock when the mine explodes and to reinforce the strength; And a control unit.

The inner reinforcing ribs are symmetrically symmetrical with respect to the inner central channel of the outer glove, so that the panels are welded simultaneously to the inner central channel surface, the bottom surface, and the side surfaces, i.e., three surfaces, of the outer glove.

The outer reinforcing ribs are formed by inverting the alphabet letter "U" so that the outer reinforcing ribs are simultaneously welded to both sides of the outer glove and the bottom surface, that is, three surfaces.

Wherein the reinforcing panel is fastened and fixed to the inner surface of the outer glove by a fastener (b) which is joined to the inner surface of the outer glove with a bottom surface by an adhesive and received through the fastening hole.

And the outer glove has a thickness of 12.0 mm to 13.0 mm.

As described above, the present invention minimizes dynamic deformation in the vertical direction when the landmine is exploded, thereby preventing damage to the vehicle and safely protecting the crew.

Further, the present invention has the effect of improving the lower protection performance without increasing the thickness of the lower glove, thereby reducing the weight and cost of the vehicle and improving the maneuverability.

FIG. 1 is a view showing a separation of a reinforcing panel of a glove for protection against landmine explosion-proof according to the present invention.
2 is a view showing a glove for protection against landmine explosion protection according to the present invention from a bottom surface (bottom surface).
3 is a view schematically showing a state in which a glove for protection against landmine explosion protection according to the present invention is assembled.
4 is a cross-sectional view taken along the line AA in Fig.
5 is a cross-sectional view taken along the line BB in Fig.
6 and 7 are graphs showing the results of the thickness and pressure test of the gloves for protection against landmine explosion protection according to the present invention.
FIG. 8 is a view schematically showing a vertical deformation state of a glove for landmine explosion protection according to the present invention during an explosion test.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of a glove for protection against landmine explosion-proof according to the present invention will be described in more detail with reference to the accompanying drawings.

Hereinafter, the same reference numerals will be used to denote the same or similar elements in all of the following drawings, and repetitive descriptions will be omitted. The following terms are defined in consideration of the functions of the present invention. It should be interpreted as meaning.

As shown in FIGS. 1 to 8, the present invention is generally divided into an outer glove 110, a reinforcing rib 120, and a reinforcing panel 130.

The outer glove 110 is formed so as to have an approximately "V" shape in cross section by using a rolled homogeneous armor having high tensile strength and high elongation, And the inclined portion 112 is formed on both sides of the concave portion 111 so as to form an inclined angle that widens from the lower side to the upper side.

In order to determine the inclination angle of the bottom plate of the outer glove 110 according to the present invention, an analytical model shape obtained by reducing a combat vehicle was selected and explosion analysis was performed. As shown in Table 1, And various design parameters such as bottom plate, side thickness, ground clearance and inclination angle were selected and explosion analysis was carried out and the analytical results as shown in Table 2 were obtained.

180 ° 170 ° 160 ° 150 ° 140 °

Table 2 shows the results of explosion analysis for 25 analytical models. Cracks occurred on the bottom plate in cases 1, 2, 6, 7, 11, 14, 16, , The model with cracks in the bottom plate is designed to have the inclination angle of 170 ° and 180 °.

Therefore, it is desirable that the outer glove 110 is designed to be at least 160 degrees in order to prevent (protect) the bottom plate of the outer glove 110. As the inclination angle becomes smaller, It is preferable that the plate inclination angle is formed at 150 °.

That is, the angle of inclination of the bottom plate of the outer glove 110 according to the present invention is determined to be the minimum angle in consideration of the suspension attached to the bottom.

In this way, the outer glove 110 is formed so that the cross section of the outer glove 110 has a substantially V-shaped inclination angle of 150 DEG to easily disperse the explosion pressure upon explosion of land mines (not shown).

That is, when the cross section of the outer glove 110 is formed to have a substantially V-shaped inclination angle and at the same time high rolling tensile strength and excellent elongation ratio are applied, the inclined portion 112, By resisting pressure energy and simultaneously dispersing explosive pressure and debris, the damage to the combat vehicle (not shown) can be minimized or prevented.

It is preferable that the rolled homogeneous steel sheet is a glove panel formed by cold rolling a steel material to have a thickness of 12.0 mm to 13.0 mm.

Here, the thickness of the outer glove 110 according to the present invention is set to 12 to 13 mm, which is a design criterion of the mine protection structure of the wheeled armored vehicle, In the design of the lower surface structure, the distance between the crew's walking plate and the outer glove 110, which is the lower floor plate, and the reinforcing panel 130 is 120 mm. However, considering the design safety factor, It is preferable that the design standard is set so that it is 100 mm or less.

The lower bottom plate of the combat vehicle is operated by a double laminated structure of the outer glove 110 and the reinforcement panel 130 to exhibit the maximum protection performance. The steel outer glove 110 has a density of 7850 kg / m ³ , the reinforcing panel 130 is 970 kg / m ³ , and it is effective to reduce the thickness of the outer glove 110 in order to reduce the weight of the vehicle body.

6 and 7, the outer glove 110 and the reinforcing panel 130 can sufficiently perform the protective performance of the outer glove 110 according to the present invention. Therefore, the thickness of the outer glove 110 is preferably in the range of 12.0 mm to 13.0 mm.

That is, when the thickness of the outer glove 110 is less than 12 mm, the outer glove 110 is damaged due to the vertical displacement exceeding 100 mm and the protection performance is not satisfied.

When the outer glove 110 is formed to have a thickness of 13 mm or more, the vertical displacement generated when the land mine detonates is reduced to 100 mm or less, but the vertical deformation is reduced, and the inner energy absorbed by the self- The function is degraded.

Therefore, it is preferable that the outer glove 110 according to the present invention has a thickness ranging from 12.0 mm to 13.0 mm.

On the other hand, when the thickness of the outer glove which can be produced is formed to be 15 mm or 19 mm, the starting performance of the vehicle other than the protection performance, which is the main performance of the armored vehicle, is somewhat lowered due to the weight increase Not suitable for combat vehicle thickness.

The material of the outer glove 110 is not limited to the rolled homogeneous steel sheet but may be formed of a high-strength metal panel satisfying the US room standard " MILA-12560H CLASS2 ".

In addition, since the recess 111 capable of receiving a drive shaft (not shown) is formed in the center of the outer glove 110, the weight can be remarkably reduced and the dynamic deformation in the vertical direction can be absorbed Respectively.

That is, the recess 111 formed in the central portion of the outer glove 110 primarily absorbs and buffers the dynamic deformation in the vertical direction upon explosion of the land mine without increasing the thickness of the lower glove, Thereby improving mobility and reducing costs.

The reinforcing rib 120 includes a plurality of inner reinforcing ribs 121 integrally formed through the inner surface of the outer glove 110 and a plurality of outer reinforcing ribs 122 integrally formed through the outer surface of the outer reinforcing ribs 120 do.

The inner reinforcing ribs 121 are formed on the inner side of the outer glove 110 so that the roughly trapezoidal panels are mutually symmetrical with respect to the inner central channel of the outer glove 110 to firmly support the inner surface of the outer glove 110. [ It is preferable to simultaneously weld the center channel face, the bottom face and the side face, that is, three faces.

That is, the inner reinforcing ribs 121 are formed at a plurality of intervals along the longitudinal direction of the inner surface of the outer glove 110.

Accordingly, the outer glove 110 is rigidly reinforced and supported, thereby improving the lower strength and the stiffness.

The inner center channel of the outer glove 110 protrudes as an outer surface of the recess 111.

The outer reinforcing ribs 122 are formed by inverting a letter "U" in a shape corresponding to the shape of the outer recess 111 of the outer glove 110 so that the outer surface of the outer glove 110 is firmly fixed It is preferable to simultaneously weld both sides of the concave portion 111 of the outer glove 110 to the bottom surface, that is, three surfaces.

That is, the structural shape of the reinforcing rib 120 is simultaneously welded to three surfaces including the center channel portion, the bottom portion, and the side surface portion through the inner and outer surfaces of the outer glove 110 forming the integrated banding structure.

Since the reinforcing rib 120 is normally operated in the vicinity of the bottom center portion and the bottom center portion when the land mine is exploded, the explosion pressure starts to be vertically deformed in the center portion and proceeds in the lateral direction. When the deformation of the center portion starts, And three sides are simultaneously restrained so that vertical deformation can be prevented in the order of side surfaces, so that the three sides simultaneously prevent vertical deformation.

The external reinforcing ribs 122 function to support the deformation of the internal reinforcing ribs 121.

The outer reinforcing ribs 122 are formed at a plurality of intervals along the longitudinal direction of the recess 111 of the outer glove 110.

Accordingly, the outer glove 110 is rigidly reinforced and supported, thereby improving the lower strength and the stiffness.

The reinforcing rib 120 having such a configuration improves the strength and stiffness of the combat vehicle together with the outer glove 110 so that the vertical deformation of the lower surface of the outer glove 110 during the land mine explosion So that the lower protective performance of the combat vehicle is improved.

That is, rigidity reinforcement of the bottom plate can be achieved by firmly welding the inner reinforcing ribs 121 and the outer reinforcing ribs 122 through the three inner and outer surfaces of the outer glove 110.

In order to understand the vertical displacement of the center portion of the outer glove 110 according to the present invention, the explosion analysis was performed as shown in FIG. 8, and the analysis results as shown in Table 3 were obtained.

The maximum displacement is about 98 mm

Time-displacement graph

That is, the vertical displacement of the center portion through the pressure test of FIG. 8 was about 98 mm as shown in the graph of Table 3, and it can be confirmed that the vertical displacement is less than 120 mm which is the design limiting condition.

Accordingly, it can be seen that the center portion of the outer glove 110 according to the present invention has improved vertical stiffness.

The reinforcing panel 130 is joined to the inner surface of the outer glove 110 to form an integral slot 131 on both sides of the center to receive and couple the inner reinforcing rib 121 , And a plurality of fastening holes (132) for receiving the fastening holes (b) are formed to penetrate the upper surface of the outer glove (110).

That is, the reinforcement panel 130 is fixed to the outer surface of the outer glove 110 by a fastener b which is firmly joined to the inner surface of the outer glove 110 by a bonding agent and is received through the fastening hole 132, Tightened with the inner surface of the base 110, and firmly fixed.

Therefore, since the same behavior as that of the outer glove 110 is achieved, vertical dynamic deformation caused by explosion of the land mine is prevented.

In addition, it is preferable that the reinforcing panel 130 is formed to be a layer by combining various materials.

For example, the reinforcing panel 130 is preferably formed to function as a spollier of the high molecular weight polyethylene layer.

The reinforcing panel 130 according to the present invention having such a structure efficiently absorbs the impact energy through the minimum deformation in the thickness direction at the time of explosion of the land mine, so that the dynamic deformation in the vertical direction can be minimized.

According to the present invention, it is possible to prevent the damage of the vehicle by minimizing the dynamic deformation in the vertical direction even if the mine explodes in the lower part of the combat vehicle by increasing the strength and rigidity without increasing the thickness. It is safe to plan.

The operation state of the present invention having the above-described structure will now be described.

First, when the mine explodes at the ground below the combat vehicle when the combat vehicle equipped with the mine explosion protection protective glove 100 according to the present invention is started, the mine explodes from the land mine toward the upper side, that is, Explosion pressure is transmitted as the debris is scattered.

The explosion pressure and debris of these land mines first collide with the outer gloves 110 and the outer reinforcing ribs 122.

At this time, since the outer glove 110 has a substantially V-shaped cross section, the explosion pressure and the debris generated during the explosion are dispersed to the outside of the combat vehicle by the two inclined portions 112.

At the same time, the outer reinforcing rib 122 strengthens and supports the outer glove 110, thereby improving the lower strength and the stiffness.

Subsequently, the inner reinforcing rib 121 further strengthens and supports the outer glove 110, thereby improving the lower strength and rigidity.

Accordingly, the outer glove 110 and the reinforcing rib 120 resist the initial explosion pressure at the time of explosion of the land mine, and disperse the explosion pressure and the debris in all directions, thereby reducing the impact energy and minimizing or preventing the bottom damage of the combat vehicle. have.

Next, the pieces of land mines can be largely defended by the outer glove 110, and the explosion pressure is transmitted to the reinforcing panel 130 located inside the outer glove 110.

When the explosion pressure is transmitted to the reinforcing panel 130, the impact energy is efficiently absorbed through the minimum deformation in the thickness direction, and the impact energy is reduced to minimize the dynamic deformation in the vertical direction.

Therefore, even if the debris of the land mine exploded on the ground and the explosion pressure are firstly dispersed through the outer glove 110 and one outer glove 110 is partially broken and the debris flows into the inside, 130 prevents the debris and absorbs the impact energy transmitted to the inside, thereby preventing the crew from boarding the battle vehicle.

It is to be understood that the above-described embodiments of the present invention are not limited to the above-described embodiments and the accompanying drawings, and various changes, substitutions, and equivalents may be made without departing from the spirit of the present invention. And will be apparent to those skilled in the art to which the invention pertains.

100: Landmine explosion protection gloves 110: Outer gloves
111: recess 112:
120: reinforcing ribs 121: internal reinforcing ribs
122: external reinforcing rib 130: reinforcing panel
131: coupling slot 132: fastening hole
b: Fastener

Claims (5)

In a glove for protection against land mines,
An outer glove formed in a shape of a substantially V-shaped cross section and having a concave portion formed at a central portion thereof and an inclined portion formed at both sides of the concave portion so as to form an inclined angle extending from the lower portion to the upper portion;
A plurality of inner reinforcing ribs formed integrally through the inner surface of the outer glove, and a plurality of outer reinforcing ribs integrally formed through the outer surface;
And a plurality of fastening holes are formed on the upper surface of the fastening hole so as to have the same behavior as that of the outer glove, A reinforcing panel formed to absorb the shock when the mine explodes and to reinforce the strength; Wherein the protective glove comprises at least one protective layer. The method according to claim 1,
Wherein the inner reinforcing ribs are mutually symmetric with respect to the inner central channel of the outer glove and are simultaneously welded to the inner central channel surface, the bottom surface and the side surfaces, i.e., three surfaces, of the outer glove. Gloves. The method according to claim 1,
Wherein the outer reinforcing ribs are formed by inverting the alphabet "U" and are simultaneously welded on both sides of the recess of the outer glove and on the bottom surface, that is, three surfaces. The method according to claim 1,
Wherein the reinforcing panel is joined to the inner surface of the outer glove by an adhesive on the bottom surface thereof and is fastened and fixed to the inner surface of the outer glove by a fastener b received through the fastening hole. The method according to claim 1,
Wherein the outer glove has a thickness of 12.0 mm to 13.0 mm.

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