KR101175144B1 - The structure for dispersing back blast at close range - Google Patents

Abstract

The present invention relates to a short-range after-storm dispersion structure that can prevent the damage caused by the after-storm by dispersing the after-storm generated when the projectile is launched in the open weapon system installed in the armored vehicle,
A horizontal dispersion frame 10 arranged horizontally at the rear of the open weapon system 50 and widened toward the rear to distribute the after-storm and the debris 56 in the vertical direction; A vertical dispersion frame 20 disposed vertically to the rear of the open weapon system and wider toward the rear to distribute the rear storm and the fragments in the left and right directions and to support the horizontal dispersion frame; A support frame 30 for supporting the horizontal dispersion frame and the vertical dispersion frame; And a base block 40 connecting the armored vehicle and the support frame and supporting the support frame thereunder.

Description

The structure for dispersing back blast at close range}

The present invention relates to a short-range rear storm dispersion structure that can prevent the damage caused by the rear storm by dispersing the rear storm generated when the projectile is launched in the active protective weapon system installed in the armored vehicle.

In general, armored vehicles have excellent protection against enemy fire extinguishers, but are largely vulnerable to enemy rocket gun attacks and missile attacks due to their large size. Especially in street fighting situations, the risk of armored vehicles being destroyed by enemy portable missile attacks is very high.

Accordingly, in order to improve the survivability of the armored vehicle, a method of increasing the strength of the glove material itself or forming a thick glove is mainly used, but there is a limit to increasing the strength of the glove material. In this case, there is a limit to the thickening of the gloves because the mobility is reduced due to the weight. In addition, by attaching reaction gloves to the surface of the armored vehicle, the survivability of the armored vehicle can be improved by reducing the power caused by the explosion of enemy shells or missiles.

However, the above methods start from the concept of defense against enemy attacks and do not act as a complete shield against enemy rocket cannons or missile attacks, and even if the defense is successful, some damage is inevitable.

In recent years, armored vehicles have been equipped with active protection systems that can actively protect against enemy rocket gun and missile attacks. The active protection system detects an enemy attack and then fires a protective weapon mounted on the vehicle to explode an enemy rocket or missile so that the vehicle is not damaged.

Armored vehicles equipped with an active protection system capable of attacking such an air defense include armored vehicles used for transporting troops, and tanks for direct attack. Since the active protection system is mainly equipped with an open firing system, after the projectile is launched, the after-storm and debris may occur to damage the armored vehicle and the occupant. Other vehicles that are caused by such after-storms and debris are missile launch vehicles equipped with missile launch devices.

Accordingly, armored vehicles equipped with an active protection system and missile launching vehicles equipped with missile launching devices are provided with devices for preventing damage caused by the aftermath.

According to the after-storm protection structure of the conventional missile launch vehicle shown in FIG. 1, the missile launch device 200 capable of rotating and elevation adjustment is installed on the missile launch vehicle 100 and the missile launch device 200 is provided. The cover plate 150 is installed on the upper surface and the peripheral device of the missile launch vehicle 100 so as to prevent damage caused by the after-storm and the debris, so that the after-storm and the debris do not impact the armored vehicle itself. At this time, the cover plate 150 is formed along the rotation radius of the missile launch device 200 to protect the armored vehicle 100 regardless of the rotation of the missile launch device 200, Even at the minimum elevation angle, the armored vehicle 100 is formed to have a width that can protect the vehicle.

On the other hand, the missile launcher 200 supports the missile cradle 220 is mounted with a plurality of missiles 210, and the missile cradle 220 so as to adjust the angle to launch the missile 210 is rotatable. The missile support 230, and installed on top of the armored vehicle 100 includes a missile rotating device 240 for rotating the missile support 230.

The conventional post-blast protection structure of the missile launch vehicle configured as described above is applied to the armored vehicle by blocking the after-storm and debris emitted from the rear of the missile cradle by the cover plate installed on the upper surface and the peripheral device of the armored vehicle when the missile is launched after the target is detected. It is preventing damage.

In addition, as shown in FIG. 2, the rear storm blocking wall 450 is installed at the side of the active protection system 400 installed at one side of the armored vehicle 300 to prevent from the after storm generated when the active protection system 400 operates. The armored vehicle 300 may be protected. Among such active protection systems 400 is well known is the trophy system of Israel. Referring to FIG. 3, it can be seen that a rear storm blocking wall 450 is installed between the trophy system 400 so as not to be affected by the rear storm caused by the trophy system 400 installed on one side of the armored vehicle 300. have.

However, the conventional after-storm protection structure protects the armored vehicle by blocking the after-storm by using a cover plate or a barrier wall, but the thickness of the cover plate or the barrier wall is inevitably increased, thereby increasing the weight of the armored vehicle. There is a problem that the actual combat weight is reduced or mobility is weak.

That is, since the rear storm generated behind the projectile is high pressure and the debris moves at a high speed, a protective structure such as a cover plate or a barrier wall installed at a close distance to the projectile should be thick and robust. However, if the protective structure is thick, not only the weight may increase but also interference with the applied combat system may be determined, and the thickness of the protective structure is determined in consideration of mobility.

The present invention has been made to solve the above-mentioned conventional problems, and is installed in the rear of the open launching system to distribute the after-storm by using the principle of dispersing the after-storm and the fragments generated during the launching of the projectile without directly protecting it. In addition, the aim is to provide a short-range after-storm dispersion structure that minimizes the increase in weight and the interference between other parts.

In other words, the purpose of the present invention is to provide a short-range after-storm dispersion structure that can safely protect armored vehicles from the after-storm generated by the open-type launch system by minimizing the increase in weight by distributing and flowing the after-wind of the open launch system.

In addition, an object of the present invention is to provide a short-distance after-storm dispersion structure by minimizing the increase in weight by manufacturing a distribution frame for dispersing the after-storm up and down or left and right in a flat plate.

In addition, an object of the present invention is to provide a short-distance after-storm dispersion structure to protect the structure by minimizing the pressure by the after-storm.

In order to achieve the above object, the present invention, in the short-distance after-storm dispersion structure that is installed in the rear of the open launch system provided in the armored vehicle to distribute the after-storm and debris generated during the launching of the projectile, in the rear of the open launch system A horizontal dispersion frame disposed horizontally and formed to be wider toward the rear to distribute the after-storm and the fragments in the vertical direction; A vertical dispersion frame disposed vertically to the rear of the open launching system and wider toward the rear to distribute rear storms and debris in left and right directions and to support the horizontal dispersion frame; A support frame for supporting the horizontal dispersion frame and the vertical dispersion frame; And a base block connecting the armored vehicle and the support frame and supporting the support frame thereunder.

In addition, according to the short-distance after-wind dispersion structure of the present invention, the horizontal dispersion frame and the vertical dispersion frame is characterized in that the flat plate is bent in the form of a bracket or two front plates of the flat plate to have a bracket shape.

In addition, according to the short-distance storm distribution structure of the present invention, a plurality of through holes are formed in the flat plate constituting the horizontal dispersion frame and the vertical dispersion frame.

In addition, according to the short-distance after-storm distribution structure of the present invention, the open type firing system is characterized in that the missile launch device installed on the active protection weapons or surface-to-air missile vehicle installed on the side of the armored vehicle.

In addition, according to the short-distance after-storm dispersion structure of the present invention, the horizontal dispersion frame is characterized in that formed in a curved form centered on the weapon for active protection.

In addition, according to the short-distance storm distribution structure of the present invention, the horizontal dispersion frame is formed to extend to the side between the central portion and the portion where the open launch system is installed so that no after storm and debris is directly transmitted to the central portion of the armored vehicle. It is characterized by.

In addition, according to the short-distance after-wind dispersion structure of the present invention, the vertical dispersion frame is characterized in that it is installed inclined so as to be located toward the rear toward the upper side.

In addition, according to the short-distance after-wind dispersion structure of the present invention, the support frame is connected to both sides of the vertical dispersion frame and arranged in parallel with the horizontal dispersion frame, and connected to the horizontal dispersion frame and the horizontal support frame And a plurality of vertical support frames coupled to the base block and fixed to a lower portion of the vertical support frame.

The short-range rear storm dispersion structure of the present invention has a horizontal dispersion frame and a vertical dispersion frame that are wider toward the rear to distribute the rear storms and fragments up and down and left and right, so that the peripheral devices can be safely protected from the after storm and fragments.

In addition, according to the short-distance after-wind dispersion structure of the present invention, by forming a flat plate to form a horizontal dispersion frame and a vertical dispersion frame, it is possible to reduce the mobility of the armored vehicle can be reduced in weight.

In addition, according to the short-distance rear wind dispersion structure of the present invention, as the plate forming the horizontal dispersion frame and the vertical dispersion frame is formed with a plurality of through holes, the back storm passes through the through holes, thereby reducing the pressure applied to the structure. have.

In addition, according to the short-distance after-storm dispersion structure of the present invention, the vertical dispersion frame is installed inclined and the support frame is made of a lattice structure has the effect of reducing the pressure applied to the structure.

1 is a configuration diagram schematically showing the after-storm protection structure of a conventional surface-to-air missile launch vehicle.
Figure 2 is a configuration diagram showing another embodiment of the after-storm protection structure of a conventional armored vehicle.
3 is a reference diagram showing the trophy system of Israel.
4 is a conceptual diagram of a short-distance after-storm dispersion structure of the present invention.
5 is a perspective view of a short-distance after-storm dispersion structure according to the present invention.
Figure 6 is an exploded perspective view of the short-distance after-storm dispersion structure of the present invention.

Hereinafter, with reference to the accompanying drawings illustrating a short-distance after-storm dispersion structure of the present invention.

5 and 6, the short-range after-storm dispersion structure according to the present invention is installed at the rear of the open-type launching system 50 provided in the armored vehicle, and after-storms and debris 56 is generated during the launching of the projectile 55. And a horizontal dispersion frame (10) arranged horizontally in the rear of the open type firing system (50) and formed to be wider toward the rear to distribute the after-storm and the debris (56) in the vertical direction; Vertically distributed frame disposed vertically to the rear of the open type firing system 50 to be wider toward the rear to disperse the after-storm and the debris 56 in left and right directions and to support the horizontal dispersion frame 10. 20; A support frame (30) for supporting the horizontal dispersion frame (10) and the vertical dispersion frame (20); And a base block 40 connecting the armored vehicle and the support frame 30 to support the support frame 30 thereunder.

Here, the horizontal dispersion frame 10 and the vertical dispersion frame 20 is preferably such that the flat plate is bent in the form of a bracket or two front plates of the flat plate are welded. As described above, the horizontal dispersion frame 10 and the vertical dispersion frame 20 are manufactured in a flat plate to reduce the weight of the product.

As described above, when the horizontal dispersion frame 10 and the vertical dispersion frame 20 are manufactured as flat plates, it is more preferable that a plurality of through holes 15 and 25 are formed in the flat plates, respectively. This is to reduce the pressure applied to the structure by allowing a portion of the after storm to pass through the through holes 15 and 25.

On the other hand, the open type firing system 50 means a missile launch device installed in the active protection weapons or surface-to-air missile vehicle installed on the side of the armored vehicle.

In general, armored vehicles such as armored vehicles and tanks often have a commander in the center, so active protection such as anti-aircraft missiles or anti-aircraft guns can actively respond to enemy rocket or missile attacks on the side of armored vehicles. Weapon and post storm distribution structures are installed on the sides of armored vehicles. In the case of the surface-to-air missile launch vehicle, since the missile launch device is installed at the center thereof, a rear storm dispersion structure is installed at the rear of the surface-to-air missile launch vehicle.

In addition, the horizontal dispersion frame 10 is preferably formed in a curved form centered on the weapon 50 for active protection. This means that even after the active protection weapon 50 rotates toward the target, the distance from the horizontal dispersion frame 10 is kept constant so that the after-storm and the debris 56 generated when the projectile 55 is fired are smoothly dispersed. It is to make it possible.

In addition, the horizontal dispersion frame 10 is formed to extend to the side between the center portion and the portion where the open-type firing system 50 is installed so that the after-storm and the debris 56 is not directly transmitted to the center portion of the armored vehicle. More preferred.

In general, various types of equipment are often installed in the central portion of an armored vehicle, and in particular, in the case of a tank, the tank head is often boarded, and thus, when a back storm is caused by the open-type launching system 50, a malfunction of the equipment or an injury of the occupant may occur. The same problem may occur. Therefore, the occurrence of this problem is minimized by extending the horizontal dispersion frame 10 to the side portion located at the boundary line with the central portion.

On the other hand, the vertical dispersion frame 20 is preferably installed inclined so as to be located toward the rear toward the upper side. This is to allow the afterstorm to flow naturally along the slope. If the vertical dispersion frame 20 is installed vertically, the durability may be reduced by the pressure caused by the after storm.

In addition, the support frame 30 is connected to both sides of the vertical dispersion frame 20, respectively, the horizontal support frame 31 disposed in parallel with the horizontal dispersion frame 10, the horizontal dispersion frame 10 and A plurality of vertical support frame 32 is connected to the horizontal support frame 31, and the lower plate 33 is coupled to the base block 40, and fixed to the lower portion of the vertical support frame 32.

As described above, the support frame 30 has a lattice structure of the horizontal support frame 31 and the vertical support frame 32, thereby making it possible to reduce the weight of the support frame 30 to the horizontal dispersion frame 10 and the vertical dispersion frame 20. The after-storm and the debris 50 dispersed by it can flow through the space between the grid consisting of the horizontal support frame 31 and the vertical support frame 31.

The short-range rear storm dispersion structure of the present invention configured as described above protects the main peripheral devices by vertically and horizontally dispersing rear storms and debris generated when launching a projectile such as a missile using horizontal and vertical dispersion frames.

The short-range rear storm distribution structure has a lightweight frame structure made of metal in consideration of the weight of the combat system, and is configured to withstand the pressure and fragments caused by the back storm of the open launch system and the short-distance storm within 150 mm. . The principle of such a post-storm dispersion structure is a frame 10 (20) in which a post-storm and debris generated at the time of launching the projectile 55 and ejected to the rear of the open launching system 50 have a cramp (<) cross section. Derived from). This cramped cross-sectional frame structure is less suitable for the impact of back storms and debris collisions, and is suitable for installation near open launch systems.

The after-storms and debris generated when the projectile 55 is fired are separated up and down by the horizontal dispersion frame 10, and are separated from the left and right by the vertical dispersion frame 20. In addition, vertical support frames 31 having a circular cross section are installed at left and right sides of the vertical dispersion frame 20 to support the horizontal dispersion frame 10. The vertical frame structure including the vertical dispersion frame 20 and the vertical support frame 31 is a cross-sectional structure of the angle shape and the circular shape, but can be produced by mixing variously according to the structural characteristics of the combat system.

In addition, the shape of the horizontal dispersion frame 10 is manufactured in a semi-circular shape to prevent the structural deformation caused by the azimuth driving and the after-storm pressure of the active destruction system, it can be produced in various forms according to the combat system. In addition, by forming the horizontal dispersion frame and the vertical dispersion frame 10, 20 as a flat plate and forming a plurality of through holes in the flat plate, a part of the after-blast pressure passes through the frame structure to minimize the pressure applied to the structure. do.

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.

10 ... horizontal scattering frame
15 ... through
20 ... Vertical Distributed Frame
25 ... through
30 ... support frame
31.Horizontal Support Frame
32 ... Vertical Support Frame
33 ... base plate
40 ... base block
50 ... Open Launch System
55.Projectile
56.Aftermath and Debris

Claims (8)

In the short-distance after-storm dispersion structure is installed in the rear of the open launch system 50 provided in the armored vehicle to distribute the after-storm and debris generated during the launch of the projectile (55),
A horizontal dispersion frame 10 arranged horizontally at the rear of the open type firing system 50 so as to become wider toward the rear to distribute the after-storm and the debris 56 in the vertical direction;
Vertically distributed frame disposed vertically to the rear of the open type firing system 50 to be wider toward the rear to disperse the after-storm and the debris 56 in left and right directions and to support the horizontal dispersion frame 10. 20;
A support frame (30) for supporting the horizontal dispersion frame (10) and the vertical dispersion frame (20);
And a base block (40) connecting the armored vehicle and the support frame (30) to support the support frame (30) from the bottom thereof. The method of claim 1,
The horizontal dispersion frame (10) and the vertical dispersion frame (20) is a short-distance after-storm dispersion structure, characterized in that the plate is bent in the form of a bracket or the front plate of the two sheets to have a form of a bracket. The method of claim 2,
Short-distance after-storm distribution structure, characterized in that a plurality of through holes (15, 25) are formed in the flat plate constituting the horizontal dispersion frame (10) and the vertical dispersion frame (20), respectively. The method of claim 1,
The open weapon system (50) is a short-distance after-storm distribution structure, characterized in that the missile launch device installed on the active protection weapons or surface-to-air missile vehicle installed on the side of the armored vehicle. 5. The method according to any one of claims 1 to 4,
The horizontal dispersion frame 10 is a short-distance after-storm dispersion structure, characterized in that formed in a curved shape centered on the open type firing system (50). The method of claim 5,
The horizontal dispersion frame 10 is characterized in that it is formed extending to the side between the center portion and the portion where the open weapons system 50 is installed so that the after storm and debris 56 is not directly transmitted to the central portion of the armored vehicle. Short-distance after-storm dispersion structure. The method of claim 5,
The vertical dispersion frame 20 is a short-distance after-storm dispersion structure, characterized in that installed inclined so as to be located toward the rear toward the upper side. The method of claim 5,
The support frame 30 is connected to both sides of the vertical dispersion frame 20, respectively, and a horizontal support frame 31 disposed in parallel with the horizontal dispersion frame 10, the horizontal dispersion frame 10, and the horizontal support. Short-distance after-storm, characterized in that consisting of a plurality of vertical support frame 32 connected to the frame 31, and a lower plate 33 coupled to the base block 40 and fixing the lower portion of the vertical support frame 32 Distributed structure.

Images