KR102279124B1 - Bullet recovery device for shooting test and method for installing the same - Google Patents

Abstract

The present invention relates to an ammunition recovery device for a shooting test and an installation method thereof. Specifically, the present invention relates to the ammunition recovery device for the shooting test and the installation method thereof, wherein the ammunition recovery device prevents a possibility of an accident such as an occurrence of a shelling report and waste in ammunitions, an occurrence of a fire, and the like when performing various tank ammunition acceptance and technical test evaluations, and improves a test safety performance procedure and secures a test safety of an operator. The ammunition recovery device for the shooting test according to a first aspect of the present invention is installed in an installation site provided to have a rear wall of a predetermined height by digging the ground or cutting the wall of the ammunition landing site, and allowing a plurality of unit structures in a shape of a bent plate to be coupled to each other to form a hexahedron shape for which the front and the rear is opened.

Description

BULLET RECOVERY DEVICE FOR SHOOTING TEST AND METHOD FOR INSTALLING THE SAME

The present invention relates to a bullet recovery device for a shooting test and a method for installing the same. Specifically, when various tank ammunition acceptance and technical test evaluation are performed, the possibility of accident risk such as occurrence of fallen bullets and ballistic missiles and fire occurrence is prevented and , It relates to a bullet recovery device for shooting tests that can improve test safety performance procedures and ensure operator test safety, and a method for installing the same.

A safe landing site is required to accept various tank ammunition and perform technical test evaluation.

The acceptance test is one of the verification tests, and it is a test that determines whether or not to accept by evaluating whether all requirements are satisfied.

Currently, we are using the impact site with the military for acceptance and evaluation of technical tests, and we are conducting shooting by sharing the weekly shooting schedule with military training.

As described above, there are many restrictions on the use of the shooting range due to fire control because there are inherent danger factors such as a bullet site within the firing range and a fall when the moving line overlaps when shooting during the same time period.

In addition, as the government acceptance test had to be performed within the deadline, a test site that could be used without restrictions even under military control was required.

Accordingly, the all-weather gun test site was recently completed. However, when shooting at this all-weather test site, as shown in FIG. 1 , the fire at the campsite (sloping wall) (W) is performed. In the absence of safety measures such as ammunition, fire, etc., which may occur between shooting at the shooting range, there is no separate safety device for test safety and actual shooting, and the risk of accidents is inherent.

Therefore, it is urgently required to prevent the possibility of accidents such as the occurrence of camel, ballistic rain, and fire, improve the test safety performance procedure, and secure the test safety of the operator.

KR 10-1505983 B1 (2015.03.27. Announcement)

The present invention has been devised to solve the various problems of the prior art as described above, and when performing various tank ammunition acceptance and technical test evaluation, the possibility of accident risk such as the occurrence of camel and ballistic rain, and the occurrence of fire is prevented and The purpose of this is to provide an ammunition recovery device for shooting test that can improve test safety performance procedures and ensure operator test safety, and a method for installing the same.

Another object of the present invention is to provide a semi-permanently usable ammunition recovery device for shooting test and a method for installing the same.

In order to achieve the above objects, the bullet recovery device for a shooting test according to the first aspect of the present invention is installed in an installation site provided to have a rear wall of a predetermined height by digging the ground or cutting the wall of the impact site, and is bent. It is characterized in that a plurality of unit structures in the form of a plate are coupled to each other to form an entire structure in the form of a hexahedron with front and rear open.

In this case, it is preferable that the unit structure is an iron plate bent in the shape of a giyeok character (a).

In addition, a plurality of reinforcing frames are installed along the longitudinal direction of the front and rear on the inner surface of the entire structure in the form of a hexahedron having the front and rear open.

These reinforcing frames are respectively installed on the four inner surfaces of the entire structure in the form of a hexahedron having the front and rear open.

In addition, a reinforcing beam (beam) is installed on the outer surface of the unit structure in the form of a grid.

Another embodiment of the bullet recovery device for a shooting test according to the first aspect of the present invention is to be installed in an installation site prepared to have a rear wall of a predetermined height by digging the ground or cutting a wall at the landing site, and is formed in the shape of a giyeok character (a). A plurality of unit structures made of bent iron plates are coupled to each other to form an entire structure in the form of a hexahedron with front and rear open.

At this time, a plurality of reinforcing frames are installed on the inner surface of the entire structure in the form of a hexahedron having the front and rear open, along the longitudinal direction of the front and rear.

These reinforcing frames are respectively installed on the four inner surfaces of the entire structure in the form of a hexahedron having the front and rear open.

In addition, a reinforcing beam (beam) is installed on the outer surface of the unit structure in the form of a grid.

Another embodiment of the bullet recovery device for a shooting test according to the first aspect of the present invention is to be installed in an installation site prepared to have a rear wall of a predetermined height by digging the ground or cutting a wall at the landing site, and in the form of a giyeok character (a) It is characterized in that 8 unit structures made of a bent iron plate are mutually coupled to form a whole structure in the form of a cube with front and rear open.

At this time, a plurality of reinforcing frames are installed on the inner surface of the entire structure in the form of a hexahedron having the front and rear open, along the longitudinal direction of the front and rear.

In addition, the reinforcing frame is installed on the four inner surfaces of the entire structure in the form of a hexahedron having the front and rear open.

In addition, a reinforcing beam (beam) is installed on the outer surface of the unit structure in the form of a grid.

Another embodiment of the bullet recovery device for a shooting test according to the first aspect of the present invention is to be installed in an installation site prepared to have a rear wall of a predetermined height by digging the ground or cutting the wall of the landing site, and is in the form of a giyeok character (a) A plurality of unit structures made of a bent iron plate are coupled to each other to form an entire structure in the form of a hexahedron with front and rear open, and a plurality of reinforcing frames are installed on the inner surface of the entire structure in the form of a hexahedron along the longitudinal direction of the front and back. characterized.

At this time, a reinforcing beam (beam) is installed on the outer surface of the unit structure in the form of a grid.

On the other hand, in the method for installing a bullet recovery device for a shooting test according to the second aspect of the present invention, the installation site is provided to have a rear wall of a predetermined height by digging the ground or cutting the wall of the landing site, and a plurality of bent plates are formed. The unit structure is moved to the installation site, and the plurality of unit structures are combined to complete the entire structure in the form of a hexahedron with front and rear open.

In addition, when the unit structure is moved to the installation site, a support frame in a straight line is installed to support the inner surfaces of both ends of the unit structure so that the unit structure bent in the shape of a giyeok character (a) is not deformed. One end is fixed to the inner surface of one end of the unit structure, and the other end of the support frame is fixed to the inner surface of the other end of the unit structure.

In addition, when the plurality of unit structures are combined at the installation site to complete the entire structure, the support frame is removed.

In addition, when the plurality of unit structures are coupled to the installation site to complete the entire structure, the remaining parts except for the open front and rear of the entire structure are covered and fixed with soil.

Specific details of other embodiments are included in "Details for carrying out the invention" and the accompanying "drawings".

Advantages and/or features of the present invention, and methods of achieving them, will become apparent with reference to the various embodiments described below in detail in conjunction with the accompanying drawings.

However, the present invention is not limited to the configuration of each embodiment disclosed below, but may be implemented in a variety of different forms, and each embodiment disclosed in this specification makes the disclosure of the present invention complete, It is provided to fully inform those of ordinary skill in the art to which the invention pertains to the scope of the present invention, and it should be understood that the present invention is only defined by the scope of each claim.

According to the means for solving the above problems, the present invention has the following effects.

The present invention is formed by combining a plurality of unit structures in the form of bent iron plates on an installation site provided to have a rear wall of a predetermined height by digging the ground or cutting the wall of the landing site to form an entire structure in the form of a hexahedron with front and rear open. By installing the ammunition recovery system, when various tank ammunition acceptance and technical test evaluation are performed, the possibility of accident risks such as the occurrence of camel and ballistic missiles and fire is prevented, the test safety performance procedure is improved, and the operator's test safety has the effect of securing

In addition, the present invention has an effect of preventing the deformation of the unit structure bent in the shape of a giyeok character (a) when the unit structure is moved to the installation site by installing a support frame in a straight line to support the inner surfaces of both ends of the unit structure.

In addition, the present invention completes the entire structure by combining a plurality of unit structures on the installation site, and then covers and fixes the remaining parts except for the open front and rear of the entire structure with soil, thereby securing safety by preventing movement due to the impact of the bullet. There is an effect that can be done.

In addition, the present invention combines a plurality of unit structures made of iron plates bent in the shape of a giyeok character (a) to form an entire structure in the form of a hexahedron with an open front and back, and the inner surface of the entire structure in the form of a hexahedron along the longitudinal direction of the front and back By installing a plurality of reinforcing frames and installing reinforcing beams in the form of a grid on the outer surface of the unit structure, there is an effect that can be used semi-permanently by increasing rigidity and durability.

1 is a photograph showing an all-weather test site in which shooting is conventionally made at a campsite (sloping wall surface).
FIG. 2 is a view showing the ammunition recovery device for a shooting test according to the present invention, and is a view showing the entire structure in the form of a hexahedron to which unit structures are combined.
3 is a view illustrating a state in which FIG. 2 is viewed from another direction.
FIG. 4 is a front view of FIG. 2 ;
FIG. 5 is a plan view or a side view of FIG. 2 .
6 is a model of a bullet recovery device for a shooting test according to the present invention, and is a view showing the entire structure in the form of a hexahedron to which unit structures are combined.
7 is a model of the unit structure in the bullet recovery apparatus for a shooting test according to the present invention.
8 is a flowchart illustrating a method of installing a bullet recovery device for a shooting test according to the present invention.
9 is a photograph showing an installation site for installing a bullet recovery device for a shooting test according to the present invention.
10 is a photograph showing a state in which the bullet recovery device for a shooting test according to the present invention is installed at an installation site.
11 is a photograph showing a state in which the bullet recovery device for a shooting test of FIG. 10 is viewed from the front.
12 is a photograph showing a state in which unit structures are combined in the ammunition recovery apparatus for a shooting test according to the present invention.
13 is a photograph showing a state in which unit structures are supported by a support frame in the shot recovery apparatus for a shooting test according to the present invention.
14 is a photograph showing a state in which the support frame is removed from the unit structure in the ammunition recovery apparatus for a shooting test according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Before describing the present invention in detail, the terms or words used in this specification should not be construed as being unconditionally limited to their ordinary or dictionary meanings, and in order for the inventor of the present invention to describe his invention in the best way It should be understood that the concepts of various terms can be appropriately defined and used, and further, these terms or words should be interpreted as meanings and concepts consistent with the technical idea of the present invention.

That is, the terms used herein are only used to describe preferred embodiments of the present invention, and are not used for the purpose of specifically limiting the content of the present invention, and these terms represent various possibilities of the present invention. It should be noted that the term has been defined taking into account.

Also, in the present specification, it should be noted that, unless the context clearly indicates otherwise, the expression in the singular may include a plurality of expressions, and may include the meaning of the singular even if similarly expressed in plural. do.

In the case where it is stated throughout this specification that a component "includes" another component, it does not exclude any other component, but further includes any other component unless otherwise stated. It could mean that you can.

Furthermore, when it is described that a certain component is "exists in or is connected to" of another component, this component may be directly connected or installed in contact with another component, and a certain It may be installed spaced apart at a distance, and in the case of being installed spaced apart by a certain distance, a third component or means for fixing or connecting the component to another component may exist, and now It should be noted that the description of the components or means of 3 may be omitted.

On the other hand, when it is described that a certain element is "directly connected" or "directly connected" to another element, it should be understood that the third element or means does not exist.

Similarly, other expressions describing the relationship between components, such as "between" and "immediately between", or "neighboring to" and "directly adjacent to", have the same meaning. should be interpreted as

In addition, in this specification, terms such as "one side", "the other side", "one side", "the other side", "first", "second", etc., if used, with respect to one component, this single component It is used to be clearly distinguished from other components, and it should be understood that the meaning of the component is not limitedly used by such terms.

In addition, in the present specification, terms related to positions such as "upper", "lower", "left", and "right", if used, should be understood as indicating a relative position in the drawing with respect to the corresponding component, Unless an absolute position is specified with respect to their position, these position-related terms should not be construed as referring to an absolute position.

Furthermore, in the specification of the present invention, terms such as “…unit”, “…group”, “module”, “device”, etc., if used, mean a unit capable of processing one or more functions or operations, which means hardware Alternatively, it should be understood that it may be implemented in software, or a combination of hardware and software.

In addition, in this specification, in specifying the reference numerals for each component of each drawing, the same component has the same reference number even if the component is shown in different drawings, that is, the same reference is made throughout the specification. Symbols indicate identical components.

In the drawings attached to this specification, the size, position, coupling relationship, etc. of each component constituting the present invention are partially exaggerated, reduced, or omitted for convenience of explanation or in order to sufficiently clearly convey the spirit of the present invention. may be described, and therefore the proportion or scale may not be exact.

In addition, in the following, in describing the present invention, a detailed description of a configuration determined that may unnecessarily obscure the gist of the present invention, for example, a detailed description of a known technology including the prior art may be omitted.

2 is a view showing a bullet recovery device for a shooting test according to the present invention, and is a view showing the entire structure in the form of a hexahedron to which unit structures are combined, FIG. 3 is a view showing a state in which FIG. 2 is viewed from a different direction, FIG. 4 is It is a front view of FIG. 2, and FIG. 5 is a top view or a side view of FIG.

The ammunition recovery device for shooting test according to the present invention is installed at the impact site for accepting various types of tank ammunition (105 mm or 120 mm caliber ammunition) and performing technical test evaluation. This is to prevent the damage caused by camels and to prevent fires in the nearby bush area caused by the activated ammunition.

The bullet recovery device for shooting test according to the present invention as described above is installed in an installation site prepared to have a back wall of 3 to 4 m in height by digging the ground or cutting the wall of the impact site, and a plurality of units in the form of a bent plate The structures 10 are coupled to each other to form the entire structure 100 in the form of a hexahedron having an open front and rear.

In this case, the unit structure 10 is preferably an iron plate bent in the shape of a giyeok character (a), and is provided in eight pieces and coupled using high-tensile steel bolts/nuts/washers.

In addition, a plurality of reinforcing frames RF are installed on the inner surface of the entire structure 100 in the form of a hexahedron with front and rear open along the longitudinal direction of the front and rear.

These reinforcing frames (RF) are respectively installed by welding on the four inner surfaces of the entire structure 100 in the form of a hexahedron having an open front and rear.

In addition, a reinforcing beam RB is installed on the outer surface 14 of the unit structure 10 in the form of a honeycomb lattice.

As such, a plurality of reinforcing frames RF are installed on the inner surface of the entire structure 100 in the form of a hexahedron along the longitudinal direction of the front and rear, and reinforcing beams RB in the form of a grid on the outer surface 14 of the unit structure 10 ), the rigidity and durability are increased, so that it can be used semi-permanently.

Another embodiment of the ammunition recovery device for a shooting test according to the present invention is to be installed in an installation site prepared to have a back wall of 3 to 4 m in height by digging the ground or cutting the wall of the impact site, and is bent in the shape of a giyeok character (a). A plurality of unit structures 10 made of iron plates may be coupled to each other to form the entire structure 100 in the form of a hexahedron with front and rear open.

At this time, a plurality of reinforcing frames (RF) are installed on the inner surface 12 of the entire structure 100 in the form of a hexahedron having an open front and back, in the longitudinal direction of the front and back, and these reinforcing frames RF are in the form of a hexahedral having an open front and rear. It is installed on the four inner surfaces 12 of the entire structure 100, respectively.

In addition, reinforcing beams RB are installed on the outer surface 14 of the unit structure 10 in the form of a grid.

Another embodiment of the ammunition recovery device for a shooting test according to the present invention is to be installed in an installation site prepared to have a back wall of 3 to 4 m in height by digging the ground or cutting the wall of the landing site, and is formed in the shape of a giyeok character (a). Eight unit structures 10 made of bent iron plates may be coupled to each other to form the entire structure 100 in the form of a cube with front and rear open.

At this time, a plurality of reinforcing frames (RF) are installed on the inner surface 12 of the entire structure 100 in the form of a hexahedron having an open front and rear in the longitudinal direction of the front and back, and such a reinforcing frame RF is a hexahedron having an open front and rear. It is installed on each of the four inner surfaces 12 of the overall structure 100 of the form.

In addition, reinforcing beams RB are installed on the outer surface 14 of the unit structure 10 in the form of a grid.

Another embodiment of the ammunition recovery device for a shooting test according to the present invention is to be installed in an installation site prepared to have a back wall of 3 to 4 m in height by digging the ground or cutting the wall of the landing site, and is formed in the shape of a giyeok character (a). A plurality of unit structures 10 made of bent iron plates are coupled to each other to form the entire structure 100 in the form of a hexahedron with front and rear open, and the length of the front and rear is provided on the inner surface 12 of the entire structure 100 in the form of a hexahedron. A plurality of reinforcing frames RF may be installed along the direction.

In this case, a reinforcement beam RB is installed on the outer surface 14 of the unit structure 10 in a grid shape.

6 is a model of a bullet recovery device for a shooting test according to the present invention, and is a view showing the entire structure in the form of a hexahedron to which unit structures are combined, and FIG. 7 is a model of the unit structure in the bullet recovery device for a shooting test according to the present invention. will be.

When the thickness of the steel plate of the unit structure 10 is manufactured to be 50 mm, it is difficult to transport due to its weight even if it is individually transported to the impact site.

Accordingly, in order to secure rigidity while having a relatively light weight, the thickness of the steel plate of the unit structure 10 was selected as 30 mm.

At this time, the weight of one unit structure 10 is 2.17 tons, and since eight unit structures 10 are combined with each other to complete the entire structure 100, the weight of the entire structure 100 is about 18 tons (17.36 tons). do.

8 is a flowchart illustrating a method of installing a bullet recovery device for a shooting test according to the present invention.

In the method for installing a bullet recovery device for a shooting test according to the present invention, the installation site is prepared to have a back wall of 3 to 4 m in height by digging the ground or cutting the wall of the impact site (S1), and a plurality of The unit structure 10 is moved to the installation site (S2), and a plurality of unit structures 10 are combined to complete the entire structure 100 in the form of a hexahedron with front and rear open (S3).

At this time, when moving the unit structure 10 to the installation site, a support frame (SF) in a straight line to support the inner surfaces of both ends of the unit structure 10 so that the unit structure 10 bent in the shape of a giyeok character (a) is not deformed. ) is installed.

One end of this support frame (SF) is fixed to the inner surface of one end of the unit structure 10 bent in the shape of a giyeok character (a) by welding, etc., and the other end of the support frame (SF) is the other end of the unit structure 10 . It should be fixed to the inner surface by welding, etc.

Thereafter, when a plurality of unit structures 10 are coupled to the installation site to complete the entire structure 100, the remaining parts except for the open front and rear of the entire structure 100 are covered and fixed with soil (S4).

Accordingly, it is possible to ensure safety by preventing the entire structure 100 from moving due to the impact of the bullet.

9 is a photograph showing an installation site for installing a bullet recovery device for a shooting test according to the present invention.

As shown in FIG. 9 to install the bullet recovery device according to the present invention, the installation site (X) provides a back wall of 3 to 4 m by digging the ground at the impact site, or by cutting the wall of the impact site to provide a rear wall You may.

10 is a photograph showing a state in which the bullet recovery apparatus for a shooting test according to the present invention is installed at an installation site, FIG. 11 is a photograph showing a state in which the bullet recovery apparatus for a shooting test of FIG. 10 is viewed from the front, and FIG. 12 is a photograph showing the present invention It is a photograph showing the state in which the unit structures are combined in the ammunition recovery device for a shooting test according to

The ammunition recovery device for a shooting test according to the present invention is composed of an entire structure 100 in the form of a hexahedron with front and rear open, which is formed by interconnecting a total of 8 bent unit structures 10 in the shape of a giyeokja.

That is, four unit structures 10 are arranged on the upper part, and four unit structures 10 are arranged symmetrically on the lower part, and then the eight unit structures 10 are combined by welding or the like to complete the entire structure 100 . make it

At this time, a reinforcing frame RF of a predetermined length is installed in a portion where each unit structure 10 abuts on the inner surface of the entire structure 100 .

In addition, a reinforcing beam RB in the form of a lattice formed in a honeycomb shape is formed on the outer surface 14 of the unit structure 10 .

13 is a photograph showing a state in which unit structures are supported by a support frame in the shot recovery apparatus for a shooting test according to the present invention.

When the unit structure 10 is moved to the installation site, a support frame in a straight line to support the inner surfaces 12 of both ends of the unit structure 10 so that the unit structure 10 bent in the shape of a giyeok character (a) is not deformed ( A red frame (SF) in FIG. 13 is installed.

Specifically, one end of the support frame SF is fixed to the inner surface 12 of one end of the unit structure 10 by welding or the like, and the other end of the support frame SF is the inner surface 12 of the other end of the unit structure 10 . ) is fixed by welding, etc.

14 is a photograph showing a state in which the support frame is removed from the unit structure in the ammunition recovery apparatus for a shooting test according to the present invention.

When a plurality of unit structures 10 are combined at the installation site to complete the entire structure 100, the support frames SF fixed to the inner surfaces 12 of both ends of the unit structure 10 are used with plasma or laser cutting machine. to remove

In the above, although several preferred embodiments of the present invention have been described with some examples, the description of various various embodiments described in the "Specific Contents for Carrying Out the Invention" item is merely exemplary, and the present invention Those of ordinary skill in the art will understand well that the present invention can be practiced with various modifications or equivalents to the present invention from the above description.

In addition, since the present invention can be implemented in various other forms, the present invention is not limited by the above description, and the above description is for the purpose of completing the disclosure of the present invention, and it is common in the technical field to which the present invention pertains. It should be understood that this is only provided to fully inform those with knowledge of the scope of the present invention, and that the present invention is only defined by each of the claims.

10: unit structure
12: the inner surface of the unit structure
14: outer surface of the unit structure
RB : Reinforcement Beam
SF : support frame
100: whole structure
RF: Reinforcement frame

Claims (19)

When performing various tank ammunition acceptance and technical test evaluation, it is a bullet recovery device for shooting test installed at an installation site prepared to have a rear wall of a predetermined height by digging the ground or cutting a wall at the impact site,
A plurality of unit structures in the form of a bent plate are coupled to each other to form an entire structure in the form of a hollow hexahedron with front and rear open,
Reinforcement frames are respectively installed in parts along the longitudinal direction of the front and rear of the entire structure, among the portions in which the respective unit structures are in contact with each other on the inner surface of the entire structure,
A ammunition recovery device for shooting tests.
The method according to claim 1,
The unit structure is characterized in that the iron plate bent in the shape of a giyeok character (a),
Ammunition retrieval device for shooting tests.
delete 3. The method according to claim 2,
The reinforcing frame is characterized in that it is installed on each of the four inner surfaces of the entire structure in the form of a hexahedron having the front and rear open,
Ammunition retrieval device for shooting tests.
The method according to claim 1,
Characterized in that a reinforcing beam (beam) in the form of a grid is installed on the outer surface of the unit structure,
Ammunition retrieval device for shooting tests.
When performing various tank ammunition acceptance and technical test evaluation, it is a bullet recovery device for shooting test installed at an installation site prepared to have a rear wall of a predetermined height by digging the ground or cutting a wall at the impact site,
A plurality of unit structures made of iron plates bent in the shape of a giyeok character (a) are combined to form an entire structure in the form of a hollow hexahedron with front and rear open,
Reinforcement frames are respectively installed in parts along the longitudinal direction of the front and rear of the entire structure, among the portions in which the respective unit structures are in contact with each other on the inner surface of the entire structure,
A ammunition recovery device for shooting tests.
delete 7. The method of claim 6,
The reinforcing frame is characterized in that it is installed on each of the four inner surfaces of the entire structure in the form of a hexahedron having the front and rear open,
Ammunition retrieval device for shooting tests.
7. The method of claim 6,
Characterized in that a reinforcing beam (beam) in the form of a grid is installed on the outer surface of the unit structure,
Ammunition retrieval device for shooting tests.
When performing various tank ammunition acceptance and technical test evaluation, it is a bullet recovery device for shooting test installed at an installation site prepared to have a rear wall of a predetermined height by digging the ground or cutting a wall at the impact site,
Eight unit structures made of iron plates bent in the shape of a giyeok character (a) are combined to form an entire structure in the form of a hollow cube with an open front and rear,
A reinforcing frame is installed on the inner surface of the entire structure, and at portions along the longitudinal direction of the front and rear of the entire structure, among the portions where the respective unit structures are in contact, respectively,
Characterized in that a reinforcing beam (beam) in the form of a grid is installed on the outer surface of the unit structure,
A ammunition recovery device for shooting tests.
delete 11. The method of claim 10,
The reinforcing frame is characterized in that it is installed on each of the four inner surfaces of the entire structure in the form of a hexahedron having the front and rear open,
Ammunition retrieval device for shooting tests.
delete delete delete A method of installing a bullet recovery device for a shooting test according to any one of claims 1, 2, 4 to 6, 8 to 10, and 12, the method comprising:
Prepare an installation site to have a back wall of a predetermined height by digging the ground or cutting a wall at the impact site,
Moving a plurality of unit structures in the form of bent plates to the installation site,
By combining the plurality of unit structures, the entire structure in the form of a hollow hexahedron having an open front and rear is completed,
Reinforcing frames are respectively installed on the inner surfaces of the entire structure along the longitudinal direction of the front and rear of the entire structure, among the portions where the respective unit structures are in contact with each other,
Characterized in that a reinforcing beam (beam) in the form of a grid is installed on the outer surface of the unit structure,
How to install ammunition recovery device for shooting test.
17. The method of claim 16,
When the unit structure is moved to the installation site, a support frame of a straight line is installed to support the inner surfaces of both ends of the unit structure so that the unit structure bent in the shape of a giyeok character (a) is not deformed,
One end of the support frame is fixed to the inner surface of one end of the unit structure, and the other end of the support frame is fixed to the inner surface of the other end of the unit structure,
How to install ammunition recovery device for shooting test.
18. The method of claim 17,
When the plurality of unit structures are combined at the installation site to complete the entire structure, the support frame is removed,
How to install ammunition recovery device for shooting test.
17. The method of claim 16,
When the plurality of unit structures are coupled to the installation site to complete the entire structure, the remaining parts except for the open front and rear of the entire structure are covered and fixed with soil,
How to install ammunition recovery device for shooting test.

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