KR101760319B1 - Bullet head recovery apparatus for indoor and outdoor shooting ranges, enabling an automatic separation and recovery of bullet heads - Google Patents

Abstract

The salvage collecting apparatus for indoor and outdoor ranges (1) capable of automatically separating and recovering the warhead according to the present invention is characterized in that zinc plating steel plates (15) are provided on the surfaces other than the front and top surfaces of the main body frame Combine to create a space in the warhead salvage box (2); A target rubber plate 3 and a frame protector 4 coupled to the front portion of the empty shell recovery box 2; An intermediate rubber plate 5 installed in the inner space of the empty shell recovery box 2 and spaced apart from the target rubber plate 3 by a first distance and located behind the intermediate rubber plate 5; A shock-absorbing rubber plate (6) spaced from the intermediate rubber plate (5) in an inner space of the empty shell recovery box (2) and standing thereon; Shock absorbers 9 such as rubber powder filled in the shock absorber filling space 9a between the target rubber plate 3 and the intermediate rubber plate 5; A warhead separation space (7) existing between the intermediate rubber plate (5) and the shock absorbing rubber plate (6); An upper lid 20 covering an upper surface portion of the empty shell recovery box 2; And an intermediate support rack (5a) mounted on the inner surface of both side portions (11) of the empty hopper bin (2) and capable of fitting the intermediate rubber plate (5) And a discharge port 13a formed by removing a part of the area of the bottom surface portion 13 of the shell recovery container 2 is formed and the discharge port blocking plate 14 is engaged as much as possible per slice.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a bullet recovery apparatus for indoor and outdoor shooting ranges capable of automatically separating and recovering a bullet-

[0001] The present invention relates to an empty-gun recovery apparatus for indoor and outdoor shooting ranges capable of automatically separating and recovering a warhead, and in particular, in the case of a conventional indoor chamber shooting range of a military unit, a bullet- In order to solve the problem that the heavy metal components such as lead and copper contained in the warhead were scattered into the air due to the collision of the warhead with the iron plate, the shock energy of the warhead was completely exhausted The automatic separation of the warhead to prevent the scattering of hazardous materials such as lead and copper contained in the warhead and the recovery of the warhead easily for recycling by allowing the warhead to be separated from the shock absorbers naturally. To an indoor and outdoor shotgun shell recovers.

The installation and operation of an indoor shotgun range is essential to train the skillful use of firearms in military units and police. In recent years, it has become known that heavy metal components such as lead and copper contained in a warhead are scattered as they are scattered in the air due to the collision of the warhead to the iron plate of the pile of the bullet at the indoor chamber shooting range, And to the point where the police 's indoor shooting range operation ceased.

In the conventional indoor shooting range, it was impossible to collect the warhead because the bullet which receives the warhead was made of iron plate only, and the warhead fired from the firearm hit the iron plate and the warhead was shattered and shattered. As the warhead breaks down into very small particulate components, the heavy metals such as lead and copper in the warhead are scattered into the air, causing heavy metal pollution to soldiers, police and others who are trained at the shooting range. And the environment around the indoor shooting range was severely damaged by heavy metal pollution. In addition, heavy metals such as lead and copper contained in the warheads are valuable resources on the one hand, and because they will not be able to recycle these resources at all, in terms of the economic aspects of national defense and police budgets There were disadvantages that were very disadvantageous.

In order to solve these problems, the present inventor filed and patented a number of salvage collecting devices for absorbing the impact energy of the warhead by using a filler such as rubber powder (Patent No. 1262298 " Patent No. 1575273 entitled " Salvage Recoil System for Indoor Cylindrical Shooting Range ", Patent No. 1633194, "Portable Salvage Recycling System ", and Patent Application No. 10-2016-0010362 entitled" Salvage- In order to recover the warhead, the fillers such as the rubber powder are introduced into the warhead by means of the warheads to recover the warhead, It is necessary to separate the warhead from the collecting box and sieve it into the sieve so that the collecting operation of the warhead is troublesome and time Personnel, there was a disadvantage that costly. In this sense of necessity, there has been a need to develop a new type of salvage recovery device that does not require the separation of the warhead from the filler such as rubber powder easily, or the separation of the rubber powder and the warhead.

In order to solve the above problem, the present invention allows the flying energy of the warhead to be completely destroyed by the shock absorbers in the shell of the shell, so that after the warhead passes through the middle rubber plate in the shell recovery chamber, So as to allow the automatic separation and recovery of the warhead, and to provide a warhead recovery device for an indoor and outdoor shooting range.

In order to enable the automatic separation of the warhead in the shell recovery box, the present invention is applied to a type of bullet to be used so that the warhead can completely exhaust the flying energy of the warhead in the process of penetrating the shock absorbers and the intermediate rubber plate. And design values of the internal components of the hopper-hopper that are optimized to the specifications.

It is another object of the present invention to provide a warhead recovering device having a configuration of a warp guide plate capable of appropriately guiding a warhead, which loses its force and is no longer able to be blown in a shell, to a discharge port in a shell recovery box do.

In order to accomplish the above object, the present invention provides an empty and salted shothole collecting apparatus capable of automatically separating and recovering a warhead provided by the present invention, comprising: a main body frame 10 formed by combining square pipes of metal in a rectangular parallelepiped shape; A shell recovering box (2) formed by joining galvanized steel plates (15) to the surfaces of the main frame (10) other than the front surface and the top surface to create a space therein; A target rubber plate 3 coupled to a front portion of the empty shell recovery box 2; A frame protector (4) interposed between the target rubber plate (3) and a front portion of the main body frame (10); An intermediate rubber plate 5 installed in the internal space of the empty shell recovery box 2 and spaced apart from the target rubber plate 3 by a first distance and located behind the intermediate rubber plate 5; A shock-absorbing rubber plate 6 installed on the rear side of the intermediate rubber plate 5 in the internal space of the empty shell recovery box 2 and spaced apart from the intermediate rubber plate 5 at a second interval; A shock absorbing material filling space 9a existing between the target rubber plate 3 and the intermediate rubber plate 5; A warhead separating space (7) existing between the intermediate rubber plate (5) and the shock absorbing rubber plate (6); An upper lid 20 covering an opening portion formed in an upper surface portion of the empty shell recovery bin 2; The intermediate rubber plate 5 is formed in a linear shape in the vertical direction on the inner surface of both side portions 11 of the empty shell recovery bin 2, An intermediate support rack (5a) that can be engaged and disengaged from the inner surface in a sliding manner; Is filled in the shock absorber filling space (9a) inside the empty shell recovery box (2) and is made of a material selected from the group consisting of rubber, synthetic rubber, natural rubber, plastic, silica and silicone rubber, A shock absorber 9 of 0.1 to 5 mm; An outlet 13a formed by removing a part of the area of the bottom surface 13 of the empty shell recovery box 2; And an outlet blocking plate (14) capable of engaging and disengaging with the bottom surface portion (13) in a sliding manner and closing the outlet (13a) when engaged with the bottom surface portion (13) And the warhead 71 launched by the gun including the pistol and the rifle at the outdoor shooting range pass through the target rubber plate 3, the shock absorber filling space 9a and the intermediate rubber plate 5, And is accumulated in the warhead separating space 7 by falling.

In order to accomplish the above object, the present invention provides an empty and salted shothole collecting device capable of automatically separating and recovering the warhead provided by the present invention, which is attached to the front surface of the target rubber plate (3) (8) in which a target (8b) which can be a shooting target is displayed by a person who shoots a round shot, and the target rubber plate (3) is provided with a plurality of target papers (8) in the horizontal direction and the vertical direction And the target 8 is fixed to the front surface of the target rubber plate 3 by an attachment pin 8a.

In order to achieve the above-mentioned object, the present invention provides an empty and salted shothole collecting apparatus capable of automatically separating and recovering a warhead provided with a frame guard (4) made of a rubber material, The width of the protective member 4d is greater than the width of the square pipe in the main body frame 10 and the thickness of the warhead 71 in the traveling direction is 60 to 100 mm .

In order to achieve the above-mentioned object, the present invention provides an empty-space capturing hopper recovering apparatus for automatically separating and recovering the warhead provided with rectangular tapes having a rectangular cross section in the intermediate support racks (5a, 50) And the intermediate rubber plate 5 is inserted in the intermediate rubber plate inserting gaps 5b and 50a provided between the square pipes in a sliding manner so as to be engaged and disengaged .

In order to accomplish the above object, the present invention provides an empty-space capturing hopper recovering apparatus for automatically separating and recovering a warhead provided by the present invention, characterized in that the intermediate support rack (50) The intermediate rubber plate 5 can be installed in a range in which the intermediate support rack 50 is formed by including a plurality of square pipes spaced apart from each other at a first interval along the traveling direction of the intermediate support rack 71 .

Further, in order to achieve the above object, the present invention provides an empty-shell recoil-type empty shell recycling apparatus capable of automatically separating and recovering the warhead provided with the present invention, in which the flying energy of the warhead (71) The shock absorber filling space 9a and the intermediate rubber plate 5 are exhausted while the target rubber plate 3 and the shock absorber filling space 9a are filled in accordance with the specifications of the warhead 71 used for the firearm. (A) the diameter of the warhead is less than 6 mm, the thickness of the target rubber plate 3 is 10 mm, the thickness of the shock absorber filling space 9a is The thickness of the intermediate rubber plate 5 is 10 mm, the thickness of the impact-relief rubber plate 6 is 65 mm, (b) when the diameter of the warhead is 6 mm or more and less than 8 mm, The thickness of the target rubber plate 3 is 10 mm, The thickness of the hollow space 9a is 20 to 40 cm, the thickness of the intermediate rubber plate 5 is 10 mm, the thickness of the shock-absorbing rubber plate 6 is 65 mm, (c) the diameter of the warhead is 8 Mm or more and less than 10 mm, the thickness of the target rubber plate 3 is 14 to 20 mm, the thickness of the shock absorber filling space 9a is 30 to 80 cm, the thickness of the intermediate rubber plate 5 is 10 mm (D) the thickness of the target rubber plate (3) is 14 to 30 mm when the diameter of the warhead is 10 mm or more and less than 12 mm, the thickness of the impact absorbing rubber plate (6) The thickness of the filling space 9a is 50 to 120 cm, the thickness of the intermediate rubber plate 5 is 12 mm, the thickness of the shock absorbing rubber plate 6 is 130 mm, (e) the diameter of the warhead is 12 The thickness of the target rubber plate 3 is 20 to 40 mm and the thickness of the shock absorber filling space 9a is 100 to 150 cm when the thickness of the intermediate rubber plate 5 is less than 14 mm. The thickness is 15 mm, and the thickness of the shock-absorbing rubber plate 6 is 260 mm.

In order to achieve the above-mentioned object, the present invention provides an empty-shell recoil-type empty shell recycling apparatus capable of automatically separating and recovering the warhead provided on the left and right sides of the discharge port (13a) Wherein each of the inclined guide plates 17 is inclined with respect to the vertical direction of the side wall 11 of the shell recovery box 2 from one edge of the discharge port 13a, And the side coupling portion 171 provided at one end of the inclined guide plate 17 is engaged with the inner wall surface of the side portion 11 of the shell recovery box 2 And is fixed to the inner wall surface of the side portion 11 by a first fastening bolt 171b and a bottom engaging portion 172 provided at the other end of the warp guide plate 17 is inserted into the empty shell collecting box 2 so as to be brought into contact with the bottom surface portion 13 of the second body By means of bolts (172b) it characterized in that fixed to the bottom portion 13.

The automatic and space-saving shothole recovering apparatus capable of automatically separating and recovering the warhead according to the present invention is characterized in that the shock absorber (9) filled in the shock absorber filling space (9a) in the shell recovery box (2) Rubber, synthetic rubber, plastic, silicone rubber and the like, and that the particle size of each of the shock absorbers is 5 mm or less, and more preferably 3 mm or less, And furthermore, it automatically collects the warheads in a separate space (warhead separating space) in the empty shell recovery box, thereby making the operation of collecting human warheads very easy.

The empty shell recovery apparatus according to the present invention can provide design values regarding the thickness of the target rubber plate, intermediate rubber plate, shock-absorbing rubber plate and shock absorber filling space optimized for each diameter of the warhead, , There is an advantage that after passing through the target rubber plate, the shock absorbers and the intermediate rubber plate of the empty shell recovery box, the force to be blown away is lost and it naturally falls away.

Therefore, when the empty shell recovering apparatus according to the present invention is used, the warhead is automatically collected in a space separated from the shock absorber such as rubber powder. Therefore, as in the conventional empty shell recovering apparatus, warheads mixed with shock absorbers such as rubber powder As a result, the recovery operation of the warhead is very simple, and it is not necessary to take out the shock absorbers from the empty shell collecting box in order to collect the warhead, thereby greatly reducing labor and maintenance cost. The effect can be obtained.

FIG. 1 is a perspective view of an empty and salted shothole collecting apparatus 1 that enables automatic separation and recovery of a warhead according to a first embodiment of the present invention.
FIG. 2 is a perspective view showing a state in which the upper lid 20 of the empty shell collecting apparatus 1 shown in FIG. 1 is removed.
3 is a plan view of the empty shell recovery bin 2 shown in FIG. 2, viewed from above.
Fig. 4 is an exploded perspective view of the empty shell recovery machine 1 shown in Figs. 1 and 2. Fig.
Fig. 5 is a front view of the frame guard 4 and the target rubber plate 3 in the empty container collecting apparatus 1 shown in Fig.
6 is a front view of the intermediate rubber plate 5 in the empty shell cartridge recovery apparatus 1 shown in Fig.
7 is a sectional view of the empty shell recovery bin 2 shown in Figs. 1, 2 and 4 when cut in the horizontal direction.
Fig. 8 is a sectional view of the intermediate support rack 5a of the empty shell recovery bin 2 shown in Fig. 7, with the intermediate rubber plate 5 inserted therebetween, and shows a sectional view when the empty shell recovery bin 2 is cut in the horizontal direction Respectively.
9 shows a salvage recovering apparatus 1 according to a second embodiment of the present invention in which a shock absorbing rubber plate 6 provided adjacent to a rear portion 12 of a shell recovery box 2 is divided into two rubber plates 61, and 62, respectively.
FIG. 10 shows a shell recovery machine 1 according to a third embodiment of the present invention. The middle support rack 50 provided in the internal space of the shell recovery box 2 is composed of a plurality of support racks The mounting position of the rubber plate 5 can be changed.
11 is a cross-sectional view showing a state in which the shock absorber 9 filled in the shock absorber filling space 9a existing in the shell recovery box 2 shown in FIG. 10 is filled with the filler absorber 9 such as rubber powder.
12 is a schematic view of a mechanism for separating and collecting the shell 71 from the shell receptacle recovery box 2 when the gun 70 is fired toward the shell recovery apparatus 1 according to the present invention. After the warhead 71 fired from the warp recovery box 1 passes through the target rubber plate 3, the filling absorbent material 9 and the intermediate rubber plate 5 after colliding against the rear shock-absorbing rubber plate 6, As shown in FIG.
13 is a cross-sectional view for explaining the structure of the bullet 500 to be launched into the empty shell recovery apparatus of the present invention.
14 is a schematic view of a mechanism for separating and collecting the empty shell 71 by the empty shell collecting bin 2 when the firearm 70 is fired toward the empty shell collecting apparatus 1, 1 is cut in the vertical direction in parallel with the advancing direction of the warhead.
Fig. 15 is a cross-sectional view taken along the line AA in Fig. 4, and shows a view as viewed from a direction of Fig. 1 and Fig.
Fig. 16 is a rear view of the salvage collecting device 1 shown in Figs. 1 and 4 viewed from the position (b). The dashed lines in the figure are rectangular pipes 10a, 10b, and 10c.
Fig. 17 is an enlarged view of a portion C in Fig. 16, and shows a state in which the outlet blocking plate 14 capable of closing the outlet 13a of the bottom portion 13 is engaged.
18 shows a top lid 20 of the salvage recovering apparatus 1 according to the present invention, wherein FIG. 18 is a plan view and FIG. 18 is a sectional view taken along the line XX in FIG. , And Fig. <C> is a cross-sectional view taken along line YY in Fig.
19 is a bottom view of the upper lid 20 of Fig. 18, Fig. 18 is a right side view of the lid of Fig. 19, and Fig. In Fig.
20 is a side sectional view showing a state in which warheads 71 are piled up in the warhead separating space 7 of the empty shell recycling bin 2 of the empty shell collecting apparatus 1 according to the present invention, 13 through the discharge port 13a of the empty shell recovery box 2 by opening the discharge blocking plate 14 of the discharge port blocking plate 14 of the discharge port 13 as shown in FIG.
FIG. 22 is a view showing the empty shell collecting apparatus according to the fourth embodiment of the present invention, in which slope guide plates 17 are installed on the bottom face 13 of the empty shell collecting bin 2.
23 is a partially exploded perspective view showing the installation structure of the inclined guide plate 17 of FIG. 22 in more detail.
24 is a plan view of the empty shell recovery bin 2 shown in Figs. 22 and 23. Fig.
Fig. 25 is a cross-sectional view corresponding to Fig. 15 with respect to a fourth embodiment of the present invention, showing the cross-sectional state of the shell as seen from the front of the shell recovery bin 2 along the advancing direction of the shell. The dashed lines in FIG. 25 show the square pipes 10a, 10b, 10c located in the galvanized steel sheet 15 of the rear portion 12 of the shell recovery box 2.
Fig. 26 is an enlarged view of part D in Fig. 25, showing a situation in which warheads 71 are slipped along the warp guide plates 17 and assembled above the outlet barrier plate 14. Fig.
FIG. 27 shows an empty shell collecting apparatus 1 according to a fifth embodiment of the present invention. In FIG. 27, the height of the empty shell collecting bin 2 is relatively low, Fig. 2 is a perspective view of the recovery device 1. Fig.
28 is an exploded perspective view for explaining a coupling relationship between the respective constituent parts of the empty shell cartridge recovery apparatus 1 of Fig.
29 is a table illustrating the specifications of the respective components of the empty shell recovery box for allowing the warheads to be automatically separated from the shock absorber 9 in the shell recovery bin 2 in the shell recovery machine according to the present invention The thickness of the intermediate rubber sheet 5, and the thickness of the impact-relieving rubber sheet 6. The thickness of the impact absorbing material filling space 9a, the thickness of the intermediate rubber sheet 5, and the thickness of the impact-
Fig. 30 shows the specification table of Fig. 29 in more detail. The thickness of the target rubber plate 3, the thickness of the shock absorber filling space 9a, the thickness of the intermediate rubber plate 5, 6 is a table showing the thickness of the relief rubber plate 6. Fig.
31 is a plan view showing a state in which the empty shell recovery apparatuses 101, 102 according to the present invention are installed in the counter-terrorism training shooting range 200;
Fig. 32 is a perspective view showing a state in which the empty shell capturing apparatus 1 according to the present invention is installed in the outdoor zero-point shooting range 300, Fig. 33 is a plan layout view thereof, and Fig.
FIG. 35 is a perspective view showing the shooting table 327 in the outdoor zero shooting range 300 shown in FIGS. 32 to 34, and FIG. 36 is a perspective view showing the target unit 310.

Hereinafter, the structure and operation of the empty and salted shothole collecting apparatus for automatically separating and collecting the warhead according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a perspective view of an empty and salted shothole collecting apparatus 1 that enables automatic separation and recovery of a warhead according to a first embodiment of the present invention. Referring to FIG. 1, the indoor and outdoor fire fighting salvage collecting apparatus 1 according to the present invention takes the form of a box-shaped salvage collecting box 2 as a whole placed on a support 30. The coupling relationship between the support portion 30 and the empty shell receptacle 2 may be a coupling relationship using a fastening structure using a bolt or a nut or may be an engagement relationship between the support frame 31 and the support leg 32 It is possible to take a form in which the empty shell recovery box 2 is placed on the support portion 30 having the structure. 2, the edge of the empty shell recovery bin 2 is formed of a metal body frame 10 (see FIG. 2). The main body frame 10 is formed by assembling square pipes and welding or bolting them together As shown in Fig.

A target rubber plate 3 having a target 8 attached thereto is attached to the front surface of the empty shell recovery box 2. A frame protector 4 made of a rubber material is interposed between the target rubber plate 3 and the main frame 10, Is interposed. The screw bolts 3a are fastened and fixed to the body frame 10 along the edge portions of the target rubber plate 3 so that the target rubber plate 3 is coupled to the body frame 10, The protector 4 is also coupled to the main frame 10.

In FIG. 1, four target papers 8 are shown attached to the target rubber plate 3 of the empty shell box 2, and the number of the target pads 8 can be changed as much as necessary. The target 8 can be attached to the target rubber plate 3 by using an attachment pin 8a or a tacker, a nail, a pin, etc., and a shot target can be replaced with a new target. In FIG. 1, reference numeral 8b denotes a 'target' shape printed on the target 8.

The upper lid 20 is placed on the upper part of the empty shell recovery box 2. The upper lid 20 forms the lid frame 20a by assembling the square pipes 23, (22). The upper lid 20 can be picked up by hand with the rectangular pipe 23 portion and it is then possible to replace the components inside the empty shell recovery box 2 and the shock absorber 9 (see Fig. 2). A rubber lid protector 21 is coupled to the front of the upper lid 20 to prevent breakage of the upper lid 20 when the warhead hits the upper lid 20. FIG.

1, the rectangular pipes 10a, 10b, 10c (see FIGS. 3 and 4) constituting the main body frame 10 of the empty shell recovery bin 2 are made of a metal material For example, square pipes made of iron, steel, stainless steel, aluminum or the like can be used, and in particular, the use of square pipes made of steel is advantageous in terms of manufacturing cost and frame Which is preferable in terms of securing rigidity. Since the pipes used in the empty hopper collecting apparatus 1 of the present invention are square pipes having a rectangular sectional shape, the square pipes 10a, 10b, 10c, 10d, 3 and 4), the square pipes 23 of the upper lid 20 and the square pipes of the support portion 30, the name 'square pipe' and the name 'square pipe' are used in combination .

3 and 4) are connected to each other by a metal plate so as to form side faces 11, a rear face 12 (see Fig. 4), and a bottom face 11 (See Fig. 4). It is preferable to use a galvanized steel sheet as such a metal sheet, or a general steel sheet may be used. The present inventor has determined that it is most preferable to use a galvanized steel sheet as the metal plate constituting the side surface portion 11, the rear surface portion 12 and the bottom surface portion 14. Hereinafter, We will use the name "galvanized steel sheet". It is also preferable to use a galvanized steel sheet for other metal plates employed in the empty shell recovers 1 according to the present invention. That is, metal plates such as the first bottom plate 22 of the upper lid 20 and the shock absorber fall-down storage unit 33 coupled to the support 30 are preferably made of a material of galvanized steel sheet Do.

The target rubber plate 3 located on the front surface of the empty shell recovery box should be able to be easily pinched by the holes formed after the warheads fired by the firearms have passed through at the shooting bar at least small. It is preferable to use a rubber material such as natural rubber rubber or raw rubber having excellent shrinking force and restoring force.

The frame protector 4 positioned immediately behind the target rubber plate 3 and the lid protector 21 located on the front side of the upper lid 20 protect the square pipes made of the metal material behind the frame guard 4 when the warhead is hit It is preferable to fabricate a rubber material having sufficient thickness and elasticity.

FIG. 2 is a perspective view showing a state in which the upper lid 20 of the empty shell collecting apparatus 1 shown in FIG. 1 is removed. 2, when the upper lid 20 is separated from the shell recovery box 2, the intermediate rubber plate 5 and the shock-absorbing rubber plate 6 installed in the shell recovery box 2 can be seen, It can be seen that the shock absorber 9 is filled in the space in front of the intermediate rubber plate 5 in the collection box 2.

The shock absorber 9 may be made of a material selected from the group consisting of rubber, synthetic rubber, natural rubber, plastic, silica and silicone rubber. The size of the shock absorber 9 is 0.1 to 5 mm. Particularly, the shock absorber 9 is preferably made of rubber, silicone rubber or the like, or may be finely pulverized into a predetermined size of 0.1 to 5 mm, such as waste PVC, waste tire and the like. Since the warhead is to be exhausted to the inside of the empty shell recovery box 2 to exhaust the flying energy of the warhead while passing between the shock absorbers 9 but the damage of the warhead itself must be prevented, ) Is preferably made of a rubber material having good elasticity. Particularly, when the particle size is kept at 3 mm or less, damage to the warhead can be prevented as much as possible by increasing the shock absorbing effect.

2, the first bottom plate 22 of the upper lid 20 is provided with four fitting projections 24 at four corners. The fitting projections 24 are formed at four corners of the inner space of the shell recovery box 2, . Therefore, when the upper lid 20 is coupled to the shell recovery box 2, the upper lid 20 can be seated in place by engaging the fitting projections 24 with the inner space edge of the shell recovery box 2 do.

On the other hand, the target rubber plate 3 has a large number of holes due to the penetration of the warhead, and it is impossible to completely prevent leakage of a small amount of the shock absorbers 9 from these holes. For this reason, the empty shell collecting apparatus 1 according to the present invention is provided with the shock absorber fall-down storage portion 33 bent in an L-shape at the front side of the support portion 30, and through the holes formed in the target rubber plate 3, The shock absorbers 9 can be prevented from being contaminated or dirty with the shock absorbers because the shock absorbers 9 are all gathered in the shock absorber drop holders 33. [

3 is a plan view of the empty shell recovery bin 2 shown in FIG. 2, viewed from above. 3, the planar shape of the empty shell recovery box 2 is generally rectangular parallelepiped shape, and the main body frame 10 constituting the skeleton of the empty shell recovery bin 2 is formed by arranging the upper horizontal rectangular pipes 10a And they are connected to each other by welding or the like. An intermediate rubber plate 5 is installed upright in the internal space of the empty shell recovery box 2. A rubber powder or the like is inserted into the shock absorber filling space 9a located between the intermediate rubber plate 5 and the target rubber plate 3. [ The shock absorber 9 is filled. An intermediate support rack 5a is provided on the inner wall surface of the side portion 11 of the empty shell hopper 2 and an intermediate support plate 5b is provided in the intermediate rubber plate insertion gap 5b The rubber plate 5 is fitted in a sliding manner.

In addition, a shock-absorbing rubber plate 6 is provided behind the intermediate rubber plate 5, and the impact-relief rubber plate 6 is preferably installed in close contact with the rear surface 13 of the shell box 2. The bottom 13 is provided with a discharge port 13a at the center thereof and the discharge port blocking plate 14 is coupled to the discharge port 13a in a sliding manner.

The length L _{1 in} the left and right width direction of the empty shell recovery bin 2 is 1 to 2.5 m and the length L in the front and rear direction is L ₁₁ ) is between 0.5 and 1m. The thickness L ₄ of the square pipes constituting the main body frame 10 of the empty shell box 2, that is, the upper horizontal angle pipe 10a is 30 to 70 mm. The upper horizontal angle pipe 10a preferably has a square cross-sectional shape. The inventor of the present invention has conducted a number of tests on the empty shell box in an actual shooting range. The length L ₁ of the shell box 2 is 1.5 m and the length L ₁₁ in the fore and aft direction is 679 mm It is most preferable to set the sectional size of the square pipes 10a, 10b, 10c and 10d constituting the main body frame 10 to 50 mm x 50 mm and the thickness of the steel plate of the square pipes to be 1.4 mm I was able to get a conclusion.

2, reference numeral L ₂ denotes a length obtained by subtracting the thickness (L ₄ x 2) of the both square pipes 10a from the total width L _{1 of the} shell recovery box, L ₃ is the length of the left and right sides of the outlet blocking plate 13a The thickness t ₁ of the target rubber plate 3 attached to the front of the empty shell box 2 is 10 to 40 mm and the thickness t ₃ of the frame protector 4 is 50 to 500 mm, 100 mm. 3, the middle support rack 5a is coupled to the inner wall surface of the shell recovery box 2 such that rectangular pipes having a rectangular cross section protrude by a method such as welding or the like. The middle support rack 5a , The length L ₅ of one side to the long side is 30 to 60 mm and the length L ₁₆ of one side to the short side is 10 to 30 mm. Preferably, the cross-sectional size of the square pipe constituting the intermediate support rack 5a is 40 mm x 20 mm, and the thickness of the steel plate constituting the square pipe is 1.4 mm.

The thickness t ₄ of the intermediate rubber plate 5 may be 10 to 30 mm and the thickness t ₅ of the rubber plate 6 may be 50 to 260 mm. Since the intermediate rubber plate 5 has the puncture holes due to the warhead as it passes through the target rubber plate 3, the puncture holes are formed in such a manner that the puncture holes are small and easily resilient. Or rubber rubber or the like. That is, the intermediate rubber plate 5 may be made of the same material as the target rubber plate 3. It is preferable that the shock-absorbing rubber plate 6 is made of a rubber material having a certain rigidity so that the warhead that has penetrated the intermediate rubber plate 5 can bump against it. To this end, it is preferable that the shock-absorbing rubber plate 6 is made of any one material selected from the group consisting of chloroprene rubber, acrylonitrile butadiene rubber, chlorosulfonated polyethylene rubber, acrylic rubber and fluorine rubber. A material having a specific gravity of 1.0 to 1.2, a Shore-A hardness of 40 to 90, a tensile strength (kg / cm3) of 60 to 250 and a elongation percentage (%) of 100 to 500 It is good to make using material.

3, the impact-absorbing-material drop storage section 33 is protruded to the front side of the empty shell recovery bin 2. The shock absorber drop storage section 33 has an L-shaped cross-section, It is advantageous to use a galvanized steel sheet having a thickness (t ₂ ) of 1 to 2 mm, preferably 1.4 mm, of the metal sheet (galvanized steel sheet). Reference numeral 33a in Figure 3 is perpendicular to the fold back portions of the shock absorber falls housing 33, the numeral ₁₅ indicates a projecting width L of the shock absorber falls housing 33, preferably such that the 5 ~ 20㎝ Do.

The distance L ₁₄ between the intermediate rubber plate 5 and the target rubber plate 3 means the length of the shock absorber filling space 9a and needs to be adjusted appropriately according to the specification of the warhead used in the firearm. Therefore, it is preferable that the length L ₁₄ of the 'shock absorber filling space' 9a is variable from 10 cm to 150 cm.

In Figure 3 the reference numeral L ₁₂ refers to the distance to the intermediate rubber plate 5 from the front portion of the main frame (10) of recovering the warhead (2), L ₁₃ is a shock from the intermediate rubber plate 5 a rubber plate (6) To the front surface of the vehicle.

[0035] The numerical value of the optimum size of the empty shell recovery bin 2 obtained by the inventor in a plurality of shooting experiments is as follows. The total left width L ₁ of the empty shell recovery bin 2 is 1,500 mm, The length L ₁₁ was 679 mm and the sectional shape of the square pipes 10 a constituting the main frame 10 had a size of 50 mm x 50 mm. The cross-sectional shape of the square pipes was 20 mm x 40 mm. The square pipes 10a and 5a are made of galvanized steel, which is preferable in terms of manufacturing cost, ease of maintenance, and rigidity of the frame.

Fig. 4 is an exploded perspective view of the empty shell recovery machine 1 shown in Figs. 1 and 2. Fig. 4, the empty shell collecting bin 2 itself has a box shape with its front and top open, and the rectangular pipes 10a, 10b, 10c and 10d are coupled to the body frame 10 And a galvanized steel plate 15 is coupled between the square pipes to form a side portion 11, a rear portion 12, and a bottom portion 13. 4 has a height of about 1.5 to 2.5 m. Therefore, in order to secure the strength of the main body frame 10, a middle horizontal angle pipe 10d is provided horizontally at the center of the front portion A plurality of vertical angular pipes 10c and middle horizontal angular pipes 10d are disposed between the galvanized steel sheets 15 of the rear portion 12 (refer to FIG. 15 and FIG. 16).

When the warhead launched from the gun enters the empty shell recovery bin 2, the flying energy of the warhead is transmitted to the shock absorbers 9 in the empty shell recovery bin 2 So that after the warhead 71 has passed through the intermediate rubber plate 5, it is no longer able to be blown away and automatically falls down in the warhead separating space 7.

4, two rectangular pipes are coupled to the inner wall surfaces of the side portion 11 of the empty shell recovery box 2 in the vertical direction to constitute an intermediate support rack 5a, The intermediate rubber plate 5 can be inserted in a sliding manner. A discharge port 13a is formed in the bottom surface portion 13 of the empty shell receptacle 2 and a discharge port blocking plate 14 is coupled to the discharge port 13a in a sliding manner. It is possible to cause the warheads accumulated in the shell box 2 to escape downward through the discharge port 13a (see FIGS. 20 and 21).

The intermediate rubber plate 5, which can be fitted in the intermediate support rack 5a of the empty shell box 2, can be used just by the rubber plate itself, but the length in the horizontal direction is about 1.5 m and the length in the vertical direction is about 2 m It is preferable to support the outer shape of the rubber plate member 52 by using a metallic frame member 51 in order to maintain the shape of the rubber plate member 52. [ The shock-absorbing rubber plate 6 positioned behind the intermediate rubber plate 5 may also support the outer shape by interposing a metal mold member like the intermediate rubber plate 5, but as shown in FIG. 4, 6a can be used to directly connect the impact-relieving rubber plate 6 itself to the rear face portion 12 of the shell recovery box 2. Reference numeral 6b denotes a hole through which the fixing bolt 6a passes and which is formed as a fastening hole 6b formed in the shock absorbing rubber plate 6. Reference numeral 12a denotes a hole formed in the rear face portion 12 of the shell recovery box 2 It points to the bolt fixing ball.

The front portion of the empty shell recovery box 2 is just opened. A frame protector 4 made of a rubber material is coupled to the opened front portion, and a target rubber plate 3 is coupled to the frame protector 4. The frame protector 4 is made of a rigid rubber material or a synthetic resin material such as plastic having rigidity rather than the target rubber plate 3. The frame protector 4 is made of a synthetic resin material such as plastic, Thereby preventing collision with itself. The frame protector 4 may be attached to the front face of the shell recovery box 2 using an adhesive or an adhesive tape or alternatively the screw bolts 3a shown in FIG. The frame guard 4 is guided to the empty shell collecting box 2 through the protector 4 so as to be directly fixed to the square pipes 10a, 10b and 10c constituting the main frame 10 of the empty shell collecting bin 2 ). &Lt; / RTI &gt;

The width of the portions of each protective member 4d (see Fig. 5) constituting the frame protector 4 is set to be the same as the width of the warhead recovery box 4 It is preferable that the width of the rectangular pipes 10a, 10b, 10c, and 10d is 1.5 to 3 times larger than the width of the square pipes 10a, 10b, 10c, and 10d. 4, reference numeral 4a denotes bolt fasteners formed along portions of the protection member 4d of the frame protector 4 and 4b denotes a middle horizontal protector 4b, 2 of the horizontal horizontal pipe 10d. And reference numeral 4c denotes a warhead through-hole formed in the frame protector 4.

The upper part of the empty shell recovery box 2 is open, and the upper lid 20 can be seated on the opened upper part. The upper lid 20 is manufactured by assembling a first bottom plate 22 to a lid frame 20a constituted by square pipes 23. A lid protector 21). The lid protector 21 may be made of the same material as that of the frame protector 4. The lid protector 21 may be coupled to the lid frame 20a using an adhesive or an adhesive tape, It is also possible to fix it with a bolt or the like.

The support 30 located at the bottom of the empty shell recovery bin 2 is used to maintain the shell recovery bin 2 at a predetermined height or more from the ground and can be manufactured using metal, wood or synthetic resin. The support portion 30 was fabricated by using a galvanized steel sheet and a galvanized pipe in consideration of manufacturing cost and strength. The supporting portion 30 is manufactured by attaching support legs 32 to a support frame 31 formed by combining square pipes. At this time, a galvanized steel plate is joined to the upper surface of the support frame 31, . A part of the surface of the support surface 31a is removed to form a warhead discharge through hole 31b. The warhead discharge through hole 31b is formed in the discharge port 13a formed in the bottom surface portion 13 of the shell recovery box 2 ) Are aligned with each other.

An angle-shaped shock absorber fall-down storage portion 33 having an L-shaped cross-sectional shape is coupled to the front of the support surface 31b of the support portion 30. The shock absorber drop storage portion 33 may be coupled to the support surface 31b of the support portion 30 using a bolt 33b or may be directly coupled by welding or the like. 4, reference numeral 33c denotes a bolt fastening hole provided at a front portion of the support surface 31a so that the bolt 33b can be engaged.

FIG. 5 is a front view of the frame guard 4 and the target rubber plate 3 in the empty shell cartridge recovery apparatus 1 shown in FIG. 5, the left and right width L ₁ of the frame protector 4 is equal to the entire width L _{1 of the} empty shell box 2 (see FIG. 3), and the height H ₁ Is 1.5 to 2.5 m corresponding to the height of the empty shell recovery box 2 and the width L ₂₃ , H ₂ and H ₃ of the protective member 4d of the frame protector 4 is 50 to 150 mm . According to the optimum size of the shell recovery box found by the inventor through a number of field tests, the width L ₁ of the frame protector 4 is 1.5 m, the height H ₁ is 2 m, (L ₂₃ , H ₂ , H ₃ ) was 10 cm.

5, the left-right width L ₂₁ and the height H ₁₁ of the target rubber plate 3 are the same as those of the frame protector 4 can do. 5 shows the position (3b-1) of the bolt passage hole in the form of a cross on the target rubber plate 3. The screw bolt 3a (see FIG. 4) The target rubber plate 3 is engaged with the bolt fastening holes 4a of the frame protector 4 so as to be coupled to the front surface of the frame protector 4.

6 is a front view of the intermediate rubber plate 5 in the empty shell cartridge recovery apparatus 1 shown in Fig. Referring to Figure 6, the intermediate rubber sheet (5) outside the edge of the framework member 51 of metallic material are combined haejuneunde supporting the shape of the intermediate rubber (5), the front width of the frame member 51 of the (H ₂₃ , L ₃₃ ) is 20 to 50 mm, preferably 30 mm. Reference numeral L ₃₁ denotes the length in the horizontal direction of the intermediate rubber plate 5, and H ₂₁ denotes the height in the vertical direction. The size (L ₃₁ , H ₂₁ ) of the intermediate rubber plate 5 may be set according to the size of the internal space of the empty shell box 2.

7 is a sectional view of the empty shell recovery bin 2 shown in Figs. 1, 2 and 4 when cut in the horizontal direction. In FIG. 7, the dotted line indicates the lower horizontal angular pipes 10b disposed under the galvanized steel sheet above the two-ply galvanized steel sheets 15 of the bottom surface portion 13. As shown in FIG. The empty shell recovery bin 2 according to the present invention is constructed such that the rectangular pipes 10a, 10b and 10c are centered and welded to the front and rear faces of the square pipes 10a, 10b and 10c with the galvanized steel plate 15 The lower horizontal angular pipes 10b are formed under the galvanized steel sheet 15 as the bottom surface portion 13 shown in Fig. 7 because the side surface portion 11, the rear surface portion 12 and the bottom surface portion 13 are formed by attaching .

On the other hand, the outlet blocking plate 14 connected to the outlet 13a of the bottom surface portion 13 is also manufactured using a galvanized steel plate. On the bottom surface of the outlet blocking plate 14, an L-shaped bent handle 14a Is attached by a method such as welding, so that the outlet blocking plate 14 can be separated from the bottom surface portion 13 when the user grasps and pulls the handle portion 14a.

In Figure 7, the reference numeral L ₆ is a width of the protective member (4d) of the frame protection bar 4, the width (L ₆₎ of said protection member (4d) is 1.5 greater than the thickness of the rear vertical square pipe of (10c) To about 3 times larger than that of the first embodiment. L ₁₇ denotes the length of the outlet blocking plate 14 in the direction of the warhead traveling direction in which the length L ₁₇ of the plate 14 is equal to the length L ₁₇ of the plate 14 from the rear portion 12 to the position of the intermediate rubber plate 5 As shown in FIG.

The intermediate rubber plate 5 can be inserted into the intermediate rubber plate insertion gap 5b provided between the intermediate support racks 5a by a sliding method.

Fig. 8 is a sectional view of the intermediate support rack 5a of the empty shell recovery bin 2 shown in Fig. 7, with the intermediate rubber plate 5 inserted therebetween, and shows a sectional view when the empty shell recovery bin 2 is cut in the horizontal direction Respectively.

9 shows a salvage recovering apparatus 1 according to a second embodiment of the present invention in which a shock absorbing rubber plate 6 provided adjacent to a rear portion 12 of a shell recovery box 2 is divided into two rubber plates 61, and 62, respectively. 2, 3, 4, 7, and 8, the shock-absorbing rubber plate 6 is formed of a single piece of rubber plate. Alternatively, the shock-absorbing rubber plate 6 may be formed of a plurality of rubber plates . The shock-absorbing rubber plate 6 is a member that finally collides with the intermediate rubber plate 5 through the warp, so it should never be pierced by the warhead, and basically the warp should be repelled. For this purpose, it is necessary to provide the shock-absorbing rubber plate 6 with a sufficient thickness. In the case of a bullet having a low thermal power according to specifications of the gun and the bullet, the thickness of the shock- It is preferable that the thickness of the shock-absorbing rubber plate 6 is increased or two or more rubber plates are laid on top of each other. Reference numerals t ₅ and t ₆ indicate the thicknesses of the two shock-absorbing rubber plates, that is, the first shock-absorbing rubber plate 61 and the second shock-absorbing rubber plate 62, and t ₇ indicates the thickness of the shock- ). &Lt; / RTI &gt;

FIG. 10 shows a shell recovery machine 1 according to a third embodiment of the present invention. The middle support rack 50 provided in the internal space of the shell recovery box 2 is composed of a plurality of support racks The mounting position of the rubber plate 5 can be changed. In the present invention, the flying energy of the warhead varies depending on the specification of the bullet used in the firearm. Therefore, in the case of a bullet with a thermal power, it is necessary to increase the length of the shock absorber filling space 9a, It is necessary to reduce the length of the shock absorber filling space 9a. The empty shell collecting apparatus 1 of the present invention allows the empty space of the empty shell 5 to pass through the shock absorbing material filling space 9a and exit the intermediate rubber plate 5, It is necessary to appropriately adjust the distance (thickness) of the shock absorber filling space 9a according to the specification of the bullet. Since the distance (thickness) of the shock absorber filling space 9a is determined according to the installation position of the intermediate rubber plate 5, it is necessary to easily change the installation position of the intermediate rubber plate 5, The intermediate support rack 50 is constituted by a plurality of square pipes so that the intermediate rubber plate 5 can be inserted easily at any position.

11 is a cross-sectional view showing a state in which the shock absorber 9 filled in the shock absorber filling space 9a existing in the shell recovery box 2 shown in FIG. 10 is filled with the filler absorber 9 such as rubber powder.

12 is a schematic view of a mechanism for separating and collecting the shell 71 from the shell receptacle recovery box 2 when the gun 70 is fired toward the shell recovery apparatus 1 according to the present invention. After the warhead 71 fired from the warp recovery box 1 passes through the target rubber plate 3, the filling absorbent material 9 and the intermediate rubber plate 5 after colliding against the rear shock-absorbing rubber plate 6, As shown in FIG. That is, when the warhead 71 launched from the gun enters the empty shell recovery bin 2, the flying energy of the warhead 71 is transmitted to the empty shell recovery bin 2 So that after the warhead 71 has passed through the intermediate rubber plate 5, it is no longer able to be blown away and automatically falls down in the warhead separating space 7 by the shock absorbers 9 .

In Fig. 12, reference numeral 3d denotes a first rupture hole formed when the warhead 71 passes through the first target rubber plate 3, and 5d denotes a first rupture hole formed when the warhead 71 passes through the intermediate rubber plate 5 And a second rupturing hole.

13 is a cross-sectional view for explaining the structure of the bullet 500 to be launched into the empty shell recovery apparatus of the present invention. A bullet used for firearms as personal firearms used by the military and police is a bullet with a bullet diameter of 30 mm (0.6 in.) Or less. A bullet bullet (bullet diameter 9 mm, 22 mm) , A firearm bullet (bullet diameter 5.56 mm, 7.62 mm), a machine gun bullet (bullet diameter 5.56 mm, 7.62 mm), and the general structure of a firearm bullet is as shown in FIG.

The bullet 72 is composed of a weak bulge portion 73 for holding the gunpowder and providing a fire energy to the bullet by explosive force, and a warhead 71 connected to the front of the weak bulge portion 73. The weak shoulder portion 73 is composed of a cartridge case 73a which is also called a cartridge and a propellant 73b built in the padding 73a and an extraction groove 73c Is formed. The warhead 71 is also called a bullet, and is composed of a jacket 71c corresponding to a shell, an inner core 71b and an incendiary 71a filling a space therebetween . The lead wire 71c is made of nickel and brass (alloy of copper and zinc), and the warhead filler 71a is made of antimony (Sb) and lead (Pb) Of the total weight of the warhead, but the copper accounts for 14 to 27% of the total warhead weight, and zinc accounts for 0.7 to 4% of the weight. Antimony, used in small amounts in the production of warheads, plays a role in enhancing strength, preventing chemical corrosion, preventing shrinkage and lowering the melting point of the alloy, which is contained on an average within a range of 1.5%.

 14 is a schematic view of a mechanism for separating and collecting the empty shell 71 by the empty shell collecting bin 2 when the firearm 70 is fired toward the empty shell collecting apparatus 1, 1 is cut in the vertical direction in parallel with the advancing direction of the warhead. 14, the empty shell recovery machine 1 according to the present invention is characterized in that the shock absorbers 9 such as rubber powder filled in the shock absorber filling space 9a in the shell recovery box 2 are inserted into the warhead 71 So that after the warhead 71 breaks through the intermediate rubber plate 5, it collides against the shock-absorbing rubber plate 6 and falls downward.

14, the warheads 71 emitted from the gun 70 are piled up in the warhead separation space 7 of the empty shell recovery bin 2 and the discharge outlet blocking plate 14 is pulled to pull the outlet 13a The stacked warheads 71 can be taken out of the shell recovery bin 2.

On the other hand, the shock absorbers 9 leaking through the first rupturing hole 3d of the target rubber plate 3 are gathered in the shock absorber dropping storage portion 33 provided at the lower end of the front portion of the empty hopper recovery device 1, do.

Fig. 15 is a cross-sectional view taken along the line AA in Fig. 4, and shows a view as viewed from a direction of Fig. 1 and Fig. 15 shows a state in which the upper lid 20 is placed on the upper part of the empty shell recovery bin 2. Reference numeral H ₃₁ denotes the thickness of the square pipe 10a in the upper lid 20, Reference numeral ₃₄ denotes the thickness of the upper horizontal angle pipe 10a in the empty shell box 2. And reference numeral H33 denotes the height of the empty shell recovery box 2 only.

On the other hand, as shown in Fig. 15, zinc plated steel plates 15 are joined to both sides of the vertical angle pipe 10c in the lateral direction to form a side portion 11. On both upper and lower sides of the lower horizontal angle pipe 10b, Plated steel plates 15 are joined together to form a bottom surface portion 13. A discharge angle blocking plate 14 is coupled to a discharge port 13a of the bottom surface portion 13. A supporting angle 14b is provided in the lower horizontal angle pipe 10c disposed in the vicinity of the discharge port 13a, The plate 14 can be slidably mounted on the support angle 14b.

Fig. 16 is a rear view of the salvage collecting device 1 shown in Figs. 1 and 4 viewed from the position (b). The dashed lines in the figure are rectangular pipes 10a, 10b, and 10c. 16 shows a state in which the upper lid 20 is separated from the empty shell receptacle 2, but the projections 24 protrude from the bottom edge portions of the upper lid 20. The fitting projection 24 is a square pipe having a size of 25 mm x 25 mm attached to the lower surface of the first bottom plate 22 by welding or the like and its projection length H ₃₅ is a length of 50 to 150 mm . In particular, it is desirable to set the protrusion length (H ₃₅ ) to 100 mm. The thickness of the steel plate of the square pipe constituting the fitting protrusion 24 is preferably 2 mm.

Fig. 17 is an enlarged view of a portion C in Fig. 16, and shows a state in which the outlet blocking plate 14 capable of closing the outlet 13a of the bottom portion 13 is engaged. In FIG. 17, reference numeral t ₇ denotes the thickness of the galvanized steel sheet 15 constituting the bottom surface portion 13, and it is preferable to use a galvanized steel sheet 15 having a thickness of 1.0 to 2.0 mm. And reference numeral ₈ is t to refer to a steel plate thickness of each of the lower horizontal pipe (10b) of the bottom portion 13, the thickness (t ₈₎ can be set to 1.0 ~ 2.0㎜. It is preferable that the thickness of the zinc plated steel sheet 15 is set to 1.5 mm and the thickness of the steel plate of the lower horizontal angle pipe 10b is set to 1.4 mm.

17, the supporting angles 14b are connected to the lower horizontal angle pipe 10b just under the portion where the discharge port 13a is provided by welding or the like, and the discharge angle blocking plate 14 are slidably mounted.

18 shows a top lid 20 of the salvage recovering apparatus 1 according to the present invention, wherein FIG. 18 is a plan view and FIG. 18 is a sectional view taken along the line XX in FIG. , And Fig. <C> is a cross-sectional view taken along line YY in Fig.

19 is a bottom view of the upper lid 20 of FIG. 18, FIG. 18 is a right side view seen from the direction of ⓓ of FIG. 19, FIG. a> of Fig. 19, the first bottom plate 22 of the upper lid 20 is joined to the four corners thereof by a welding method or the like, The fitting protrusions 24 are joined by welding or the like.

20 is a side sectional view showing a state in which warheads 71 are piled up in the warhead separating space 7 of the empty shell recycling bin 2 of the empty shell collecting apparatus 1 according to the present invention, 13 through the discharge port 13a of the empty shell recovery box 2 by opening the discharge blocking plate 14 of the discharge port blocking plate 14 of the discharge port 13 as shown in FIG.

FIG. 22 is a view showing the empty shell collecting apparatus according to the fourth embodiment of the present invention, in which slope guide plates 17 are installed on the bottom face 13 of the empty shell collecting bin 2.

In the first to third embodiments described above, the discharge port 13a is formed at the center of the bottom surface portion 13 of the empty shell recovery box 2, When the outlet blocking plate 14 is detached, in order to collect the warheads 71 separated from the area other than the discharge port 13a, It had to be scraped by the hand into the shell (2) or scraped off with a tool. However, it is troublesome to scrape off the warheads 71 that are separated from the bottom surface portion 13 by using a hand or a tool. Therefore, the fourth embodiment of the present invention is applicable to the bottom portion 13 of the shell recovering bin 2 The inclined guide plate 17 is installed around the discharge port 13a of the discharge port 13a so that the warheads 71 are automatically collected toward the discharge port 13a.

22, inclined guide plates 17 are provided on both sides of the discharge port 13a of the empty shell recovery box 2. The inclined guide plate 17 is inclined at an angle of 15 to 45 ° toward the discharge port 13a So that when the warhead 71 falls on the inclined guide plate 17, it naturally slides down to be placed on the outlet blocking plate 14.

23 is a partially exploded perspective view showing the installation structure of the inclined guide plate 17 of FIG. 22 in more detail. The inclined guide plate 17 is made by bending an iron plate or a galvanized steel plate having a thickness of 1.0 to 2.0 mm and is bent at both ends so that one side of the inclined guide plate 17 is engaged with the side engaging portion 171), and the other side is the bottom surface engaging portion 172 contacting the bottom surface portion 13 of the empty shell recovery box 2. A first bolt hole 171c is formed in the side coupling portion 171. The first bolt hole 171b is coupled to the side portion 11 through the first bolt hole 171c to form the side coupling portion 171 Is fixed to the side portion 11. A second bolt hole 172c is formed in the bottom surface coupling part 172. The second bolt hole 172b passes through the second bolt hole 172c and the bolt fastener 130 So that the bottom surface engaging portion 172 is fixed to the bottom surface portion 13. 23, reference numeral 171a denotes a first folding line for separating the inclined guide plate 17 from the side coupling portion 171 and reference numeral 1722a denotes a second folding line for separating the inclined guide plate 17 from the bottom engaging portion 172. [ Curve.

24 is a plan view of the empty shell recovery bin 2 shown in Figs. 22 and 23. Fig.

Fig. 25 is a cross-sectional view corresponding to Fig. 15 with respect to a fourth embodiment of the present invention, showing the cross-sectional state of the shell as seen from the front of the shell recovery bin 2 along the advancing direction of the shell. 25, since the inclined guide plate 17 is installed at an angle of 15 to 45 degrees with respect to the discharge port 13a of the bottom portion 13 from both sides thereof toward the side portion 11, When the warhead falls on the inclined guide plate 17, it naturally slides down and collects on the outlet blocking plate 14.

On the other hand, the dotted lines in FIG. 25 show the square pipes 10a, 10b, and 10c positioned in the galvanized steel sheet 15 of the rear portion 12 of the shell recovery box 2.

Fig. 26 is an enlarged view of part D in Fig. 25, showing a situation in which warheads 71 are slipped along the warp guide plates 17 and assembled above the outlet barrier plate 14. Fig.

FIG. 27 shows an empty shell collecting apparatus 1 according to a fifth embodiment of the present invention. In FIG. 27, the height of the empty shell collecting bin 2 is relatively low, Fig. 2 is a perspective view of the recovery device 1. Fig. In the above-described first to fourth embodiments, the size of the empty shell recovery box 2 is set to 2x2 target papers, and the left and right widths are 1.5 m and 2 m, respectively. In some cases, it is not necessary to increase the height of the empty shell collecting box (2) to that of a two-stage target, but it is also necessary to lower the height by attaching only one target.

To this end, in the fifth embodiment, an empty shell recovery apparatus 1 is provided in which only one target in the height direction can be attached. When the empty shell collecting apparatus 1 is manufactured for one stage of the target, the position of the target 8 is considerably lower than that of the shell recovery bin 1 (Figs. 1 to 26) for the two stages of target, It is necessary to increase the length of the support legs 32 of the support portions 30. For example, in the first to fourth embodiments, if the length of the support leg 32 of the support portion 30 is about 20 to 40 cm, the length of the support leg 32 of the support portion 30 To be about 40 to 70 cm. Preferably, the height of the support portion 30 in the first to fourth embodiments is set to 30 cm, and the height of the support portion 30 in the fifth embodiment is set to be 50 cm.

28 is an exploded perspective view for explaining a coupling relationship between the respective constituent parts of the empty shell cartridge recovery apparatus 1 of Fig. 28, only one stage of the target 8 is disposed in the height direction, so that the height of the empty shell recovery box 2 is reduced as much as possible. As a result, the intermediate horizontal angle pipes 10d, 4 are omitted and the intermediate protection member 4b (see FIG. 4) is omitted in the frame protector 4, the same contents as those already described with reference to FIG. 4 are omitted.

29 is a table illustrating the specifications of the respective components of the empty shell recovery box for allowing the warheads to be automatically separated from the shock absorber 9 in the shell recovery bin 2 in the shell recovery machine according to the present invention The thickness of the intermediate rubber sheet 5, and the thickness of the impact-relieving rubber sheet 6. The thickness of the impact absorbing material filling space 9a, the thickness of the intermediate rubber sheet 5, and the thickness of the impact-

As described above, in the empty shell recovery apparatus 1 of the present invention, the flying energy of the warhead 71 fired from the gun passes through the target rubber plate 3, the shock absorber filling space 9a and the intermediate rubber plate 5 The impact absorbing material filling space 9a and the intermediate rubber plate 5 are formed in accordance with the type of the bullet used in the firearm so that the impact absorbing rubber plate 6 can not be pierced. It is necessary to set the thickness appropriately.

The flying energy of a warhead (ie, the amount of impact) is determined by the amount of gunpowder charged to the bullet, which generally tends to increase as the diameter (diameter) of the warhead increases. In other words, a bullet using a large warhead has a large amount of gunpowder so that the warhead can fly away and have a lethal force, and a bullet using a small warhead has a small amount of gunpowder so that the warhead can fly only a short distance and have a small killing power.

Here, the lethal force refers to the force that can be killed by precisely aligning a human being with a gun. The distance to obtain such lethal force is called a killing distance, and in the case of ordinary pistols and rifles, it is tens to hundreds of meters. The effective range is the maximum distance a warhead can fly, and a rifle reaches several kilometers.

The present inventor has found that the number of shot tests has made it possible to reduce the specific design items in the empty shell recovery box 2 such as the thickness of the target rubber plate 3, the thickness of the shock absorber filling space 9a, the thickness of the intermediate rubber plate 5, The optimum values for the thickness of the substrate 6 can be found.

That is, the thicknesses of the target rubber plate 3, the shock absorber filling space 9a, the intermediate rubber plate 5 and the shock-absorbing rubber plate are varied according to the specification of the warhead 71 used for the gun, For reference,

(a) First, when the diameter of the warhead is less than 6 mm, the thickness of the target rubber plate 3 is 10 mm, the thickness of the shock absorber filling space 9a is 10 to 20 cm, and the thickness of the intermediate rubber plate 5 is 10 mm, the thickness of the impact-relieving rubber plate 6 is preferably set to 65 mm,

(b) When the diameter of the warhead is 6 mm or more and less than 8 mm, the thickness of the target rubber plate 3 is 10 mm, the thickness of the shock absorber filling space 9a is 20 to 40 cm, The thickness is 10 mm, and the thickness of the shock-absorbing rubber plate 6 is preferably 65 mm.

(c) When the diameter of the warhead is 8 mm or more and less than 10 mm, the thickness of the target rubber plate 3 is 14 to 20 mm, the thickness of the shock absorber filling space 9a is 30 to 80 cm, ) Is 10 mm, the thickness of the shock-absorbing rubber plate 6 is preferably set to 130 mm,

(d) When the diameter of the warhead is 10 mm or more and less than 12 mm, the thickness of the target rubber plate 3 is 14 to 30 mm, the thickness of the shock absorber filling space 9a is 50 to 120 cm, ) Is 12 mm, the thickness of the shock-absorbing rubber plate 6 is preferably 130 mm,

(e) When the diameter of the warhead is 12 mm or more and less than 14 mm, the thickness of the target rubber plate 3 is 20 to 40 mm, the thickness of the shock absorber filling space 9a is 100 to 150 cm, ) Is 15 mm, and the thickness of the impact-relieving rubber plate 6 is preferably set to 260 mm.

Fig. 30 shows the specification table of Fig. 29 in more detail. The thickness of the target rubber plate 3, the thickness of the shock absorber filling space 9a, the thickness of the intermediate rubber plate 5, 6 is a table showing the thickness of the relief rubber plate 6. Fig. In other words, the bullets mainly used in Korea are divided into 22 bullets, 7.62 bullets, 38 bullets, 45 bullets and 12.7 bullets by the size of the warhead,

The thickness of the target rubber plate 3 is 10 mm and the thickness of the shock absorber filling space 9a is 10 to 20 cm when the warhead is a 22 bullet hole (warhead diameter 5.56 mm) 5) is 10 mm, the thickness of the shock-absorbing rubber plate 6 is preferably 65 mm,

(2) In the case where the diameter of the warhead is 7.62 mm, the thickness of the target rubber plate 3 is 10 mm, the thickness of the shock absorber filling space 9a is 20 to 30 cm, the thickness of the intermediate rubber plate 5 is 10 mm, the thickness of the shock-absorbing rubber plate 6 is preferably 65 mm,

(3) The thickness of the target rubber plate 3 is 15 mm, the thickness of the shock absorber filling space 9a is 30 to 50 cm when the warhead is a 38 bullet hole (warhead diameter 9.65 mm) 5 is 10 mm, the thickness of the shock-absorbing rubber plate 6 is preferably 130 mm,

The thickness of the target rubber plate 3 is 20 mm and the thickness of the shock absorber filling space 9a is 50 to 100 cm when the warhead is a 45 bullet diameter (warhead diameter: 11.43 mm) 5 is 12 mm, the thickness of the shock-absorbing rubber plate 6 is preferably 130 mm,

(5) When the diameter of the warhead is 12.7 mm, the thickness of the target rubber plate 3 is 30 mm, the thickness of the shock absorber filling space 9a is 100-150 cm, the thickness of the intermediate rubber plate 5 is 15 mm, and the thickness of the shock-absorbing rubber plate 6 is preferably 260 mm.

31 is a plan view showing a state in which the empty shell recovery apparatuses 101, 102 according to the present invention are installed in the counter-terrorism training shooting range 200; The empty shell recovers 1 according to the present invention can be applied not only to indoor and outdoor zero-point shooting ranges, but also to a counter-terrorism shooting range provided in a closed indoor space as shown in FIG.

Conventional counter-terrorism training shooting range was not able to install a salvage recovery facility on the pit bull behind the target, and as a result, a large number of warheads were crushed and the harmful substances were scattered into the air, which was very bad for the environment. 1, 101, and 102 are installed behind the target 8, it is possible to safely and automatically collect all the warheads launched by the training personnel 204, thereby greatly reducing the cost and manpower required for the separation and recovery of the warhead, There is an excellent effect of completely eliminating environmental hazards caused by scattering of warheads.

31, a plurality of shothole collecting apparatuses 101 and 102 are installed along a wall 203 in a space inside the shooting range 205 in the range 200 for counter-terrorism training. And can be manufactured in different widths in the left and right direction. 31, the basic type salvage recovering device 101 has a width of about 1.5 m as shown in FIGS. 1 to 28, and the extended salvage returning device 102 is 1.5 to 2 The width is about twice the width. Training personnel 204 such as soldiers and police can enter the space inside the shooting range 205 through the entrance 201 of the shooting range 200 and then shoot toward the target 8 while moving along the direction of the arrow, Upon completion of the shooting, it exits through exit 202. In FIG. 31, reference numeral 3e denotes a rubber plate sandwiched between the empty shell collecting apparatuses 102, and 203a denotes an entrance of the shooting range 200, but indicates an entrance where the empty shell collecting apparatuses 101 and 102 are disposed.

Fig. 32 is a perspective view showing a state in which the empty shell capturing apparatus 1 according to the present invention is installed in the outdoor zero-point shooting range 300, Fig. 33 is a plan layout view thereof, and Fig. 32, a shooting range building 320 having a shooting table 327 (see FIG. 33) and a control room 323 (see FIG. 33) is located on one side of the outdoor zero shooting range 300, Located target portion 310 is located. In the target portion 310, a plurality of empty shell recoverers 1 according to the present invention are arranged in a line, and a canopy 311 is disposed above and behind the target portion 310. An entrance door 312 is provided at one side of the canopy 311 so that maintenance and management of the empty shell recovery device 1 and separation operation of the warhead can be performed while the administrator goes in.

On the other hand, inner and outer walls 313 and 314 are installed around the outdoor zero shooting range 300, and a protective forest 315 is installed between the walls 313 and 314, And it also serves to cover the situation inside the shooting range from the outside field of view.

33, a shooting table 327 having a plurality of war yarns 324 is installed in an interior 320a of the shooting range building. Partitions 326 for separating war yarns are installed in the shooting table 327, Is installed. A control room 323 is provided at the rear of the shooting stand 327, in which facilities for monitoring and controlling the shooting status of each warrior are provided. The shooting controller may instruct the control room 323 to shoot and monitor and control the shooting status by each shooting. Reference numeral 322 denotes an entrance door of the shooting range building 320 and reference numeral 317 denotes a yard located between the shooting table 327 and the target portion 310. In addition, L ₄₀ denotes the entire width of the shooting table 327, L ₄₁ denotes the distance from the shooting table 327 to the target portion 310, and L ₄₂ denotes the total length of the outdoor zero shooting range 300.

34, the warhead 71, which is shot by the shooter 75 from the gun 70 in the shooting stand 327, enters the empty shell recovery apparatus 1 located in the target portion 310 and is supported by the shock absorbers 9 (9) after all the flying energy has been absorbed without damage by the shock absorbers (9).

FIG. 35 is a perspective view showing the shooting table 327 in the outdoor zero shooting range 300 shown in FIGS. 32 to 34, and FIG. 36 is a perspective view showing the target unit 310.

The empty space of the empty space of the warhead 71 is sufficiently destroyed by the shock absorbers 9 in the empty shell box 2 So that after the warhead 71 has passed through the intermediate rubber plate 5, it loses the force to be blown away and automatically falls off.

In order to realize the present invention concretely, shock absorbers capable of preventing the warhead 71 from being damaged by sufficiently absorbing the impact from the warhead 71 are required. Further, the warhead 71 is provided with the shock absorbers 9, (That is, the target rubber plate 3) in accordance with the type and specification of the bullet, so that the flying energy of the battalion 71 can be completely exhausted in the process of penetrating the intermediate rubber plate 5 and the intermediate rubber plate 5, The intermediate rubber plate 5, and the shock absorber-filled space 9a) can be optimally set.

The present invention proposes a material such as rubber, natural rubber, synthetic rubber, plastic or silicone rubber as the shock absorber 9 to be filled in the shock absorber filling space 9a in the shell recovery box 2, It has been suggested that each particle size is advantageously less than 5 mm, more preferably less than 3 mm. The thickness of the target rubber plate 3, the intermediate rubber plate 5 and the shock absorbing rubber plate 6 and the shock absorber filling space 9a in the empty shell recovery box 2 can be set differently for each bullet hole diameter Only the warhead recovery device 1 appropriately prepared in accordance with any warhead can be used so that after passing through the target rubber plate 3, the shock absorbers 9 and the intermediate rubber plate 5 of the empty hopper recovery bin 2 Had lost the ability to fly any longer and were naturally harvested.

Therefore, when the empty and salted empty space collecting emptyhead collecting apparatuses capable of automatically separating and collecting the empty blankets according to the present invention are used, warheads are collected automatically in separate spaces separately from the shock absorbers such as rubber powder, It is not necessary to separately select the warheads contained in the shock absorbers such as the rubber powder as in the warhead recovery device. As a result, the recovery operation of the warhead is very simple, and in particular, in order to collect the warhead, It is possible to obtain an effect of drastically reducing manpower and maintenance cost.

1: Charger recovery device 2: Charger recovery box
3: target rubber plate 3a: screw bolt
3b: Bolt through ball 3b-1: Bolt through ball
3d: First rupture hole 3e: Rubber plate
4: Frame protector 4a: Bolt tightening ball
4b: intermediate horizontal protection part 4c: warhead penetration hole
4d: protective member 5: intermediate rubber plate
5a: intermediate support rack 5b: intermediate rubber plate insertion gap
5d: second rupture hole 6: shock-absorbing rubber plate
6a: fixing bolt 6b: fastening hole
7: space for separating the warhead 8: target
8a: attachment pin 8b: target
9: Shock absorber 9a: Shock absorber filling space
10: main body frame 10a: upper horizontal angle pipe
10b: lower horizontal angle pipe 10c: vertical angle pipe
10d: intermediate horizontal angle pipe 11: side portion
12: rear portion 12a: bolt fixing hole
13: bottom part 13a: outlet
14: Outlet blocking plate 14a: Handle portion
14b: support angle 15: galvanized steel plate
17: inclined guide plate 20: upper lid
21: lid protector 22: first bottom plate
23: square pipe 24: fitting projection
24a: Overhang connecting plate 25: Galvanized steel plate
30: Support part 31: Support frame
31a: Support surface 31b: Warhead discharge passage hole
32: Support leg 33: Shock absorber fall-down compartment
33a: Vertical bent portion 33b: Bolt
33c: bolt fastening hole 34: support protector
36: Bulk collector 50: Medium support rack
50a: Intermediate rubber plate insertion gap 51: Frame member
52: rubber plate member 61: first shock-absorbing rubber plate
62: second shock-absorbing rubber plate 70: firearm
71: Warhead 71a: Warhead packing
71b: ammunition 71c:
72: bullet 73: weak shoulder
73a: Patch 73b: Ammunition
73c: Extraction groove 75: Shooter
101: Basic type warhead recovery device 102: Extended warhead recovery device
130: bolt fastening hole 171:
172: bottom surface coupling portion 171a, 172a: folding line
171b and 172b: fastening bolts 171c and 172c:
200: counter-terrorism training shooting range 201: entrance
202: exit 203: wall
203a: Clogged exit 204: Soldier
205: inside the shooting range 206: mobile moving line
300: outdoor zero point range 310: target zone
310a: a target portion bottom portion 311: a canopy
312: entrance door 313: my burden
314: Foreign charges 315: Antifouling (protection forest)
317: Yard 318: Column
320: shooting range building 320a: shooting range inside building
320b: Building floor 321: Roof
322: entrance door 323: control room
324: a shooting path 326: a partition
327: Shooting range G: Ground

Claims (18)

A main body frame 10 formed by combining square pipes made of metal in a rectangular parallelepiped shape;
A shell recovering box (2) formed by joining galvanized steel plates (15) to the surfaces of the main frame (10) other than the front surface and the top surface to create a space therein;
A target rubber plate 3 coupled to a front portion of the empty shell recovery box 2;
A frame protector (4) interposed between the target rubber plate (3) and a front portion of the main body frame (10);
An intermediate rubber plate 5 installed in the internal space of the empty shell recovery box 2 and spaced apart from the target rubber plate 3 by a first distance and located behind the intermediate rubber plate 5;
A shock-absorbing rubber plate 6 installed on the rear side of the intermediate rubber plate 5 in the internal space of the empty shell recovery box 2 and spaced apart from the intermediate rubber plate 5 at a second interval;
A shock absorbing material filling space 9a existing between the target rubber plate 3 and the intermediate rubber plate 5;
A warhead separating space (7) existing between the intermediate rubber plate (5) and the shock absorbing rubber plate (6);
An upper lid 20 covering an opening portion formed in an upper surface portion of the empty shell recovery bin 2;
The intermediate rubber plate 5 is formed in a linear shape in the vertical direction on the inner surface of both side portions 11 of the empty shell recovery bin 2, An intermediate support rack that can be engaged and disengaged from the inner surface in a sliding manner;
Is filled in the shock absorber filling space (9a) inside the empty shell recovery box (2) and is made of a material selected from the group consisting of rubber, synthetic rubber, natural rubber, plastic, silica and silicone rubber, A shock absorber 9 of 0.1 to 5 mm;
An outlet 13a formed by removing a part of the area of the bottom surface 13 of the empty shell recovery box 2; And
And an outlet blocking plate (14) capable of sliding and coupling with the bottom surface (13) and blocking the outlet (13a) when coupled to the bottom surface (13)
The warhead 71 launched by the gun including the pistol and the rifle at the indoor and outdoor shooting ranges passes through the target rubber plate 3, the shock absorber filling space 9a and the intermediate rubber plate 5, 6), and is piled up in the warhead separation space (7) by dropping. Thus, it is possible to automatically disassemble and recover the warhead. 2. The apparatus of claim 1, further comprising a target (8) attached to a front surface of the target rubber plate (3) and having a target (8b) to which a person shooting at the indoor and outdoor shooting ranges can shoot targets In addition,
A plurality of target papers 8 can be attached to the target rubber plate 3 in the horizontal direction and the vertical direction and the target 8 is fixed to the front surface of the target rubber plate 3 by the attachment pins 8a Wherein the automatic withdrawal and recovery of the warhead is made possible by the use of an automatic gun. The galvanized steel sheet (15) according to claim 1, wherein the zinc plated steel plate (15) connects the square pipes constituting the main body frame (10) to each other and connects the surfaces, which are directly connectable to the plane of the square pipes, The number of empty shells for indoor and outdoor shooting ranges enabling the automatic separation and recovery of the warhead, characterized in that two zinc plated steel plates (15) spaced apart from each other by a thickness of a square pipe are arranged in parallel between the two square pipes Device. [Claim 7] The invention of claim 1, wherein the shock absorber (9) is composed of rubber powders having a particle size of 3 mm or less. The frame protecting apparatus according to claim 1, wherein the frame protector (4) is made of a rubber material and has a shape corresponding to a shape of a front portion of the body frame (10) , And the thickness of the warhead (71) in the traveling direction is 60 to 100 mm. [Claim 7] The automatic warhead separator as claimed in claim 1, wherein the warhead (71) has a thickness of 60 to 100 mm. The frame protection device according to claim 1 or 5, wherein the frame protector (4) is made of any one material selected from the group consisting of chloroprene rubber, acrylonitrile butadiene rubber, chlorosulfonated polyethylene rubber, acrylic rubber and fluorine rubber , The rubber material has a specific gravity of 1.0 to 1.2, a Shore-A hardness of 40 to 90, a tensile strength (kg / cm3) of 60 to 250 and an elongation percentage (%) of 100 to 500 It is characterized by the automatic withdrawal of the warhead, which enables the automatic withdrawal of the warhead for indoor and outdoor shooting ranges. 2. The intermediate support rack according to claim 1, wherein the intermediate support rack is installed by welding square pipes having a rectangular cross section to the inner wall surface of the shell recovery box (2) (5) can be engaged and separated by being fitted in a sliding manner, so as to enable the automatic separation and withdrawal of the warhead. [8] The apparatus as claimed in claim 7, wherein the intermediate support racks include a plurality of square pipes spaced apart from each other at a third interval along the advancing direction of the warhead 71 in the internal space of the shell recovery bin 2, Wherein the installation position of the intermediate rubber plate (5) can be varied within a range in which the rack is formed, wherein the automatic separating and collecting of the warhead is possible. The method of claim 1, wherein the left and right widths of the empty shell recovery bin (2) are 1 to 2.5 meters, the length in the forward and backward directions along the direction of the warhead (71) is 0.5 to 1 meter, 2.5 meters, capable of automatic separation and withdrawal of the warheads. 3. The method according to claim 1, wherein the warhead (71) fired from the gun is exhausted while its flying energy passes through the target rubber plate (3), the shock absorber filling space (9a) and the intermediate rubber plate (5)
At this time, the thicknesses of the target rubber plate 3, the shock absorber filling space 9a and the intermediate rubber plate 5 are varied according to the specification of the warhead 71 used for the gun,
(a) the thickness of the target rubber plate 3 is 10 mm, the thickness of the shock absorber filling space 9a is 10 to 20 cm when the diameter of the warhead is less than 6 mm, The thickness is 10 mm, the thickness of the shock-absorbing rubber plate 6 is 65 mm,
(b) when the diameter of the warhead is 6 mm or more and less than 8 mm, the thickness of the target rubber plate 3 is 10 mm, the thickness of the shock absorber filling space 9a is 20 to 40 cm, 5 has a thickness of 10 mm, the thickness of the shock-absorbing rubber plate 6 is 65 mm,
(c) when the diameter of the warhead is 8 mm or more and less than 10 mm, the thickness of the target rubber plate 3 is 14 to 20 mm, the thickness of the shock absorber filling space 9a is 30 to 80 cm, The thickness of the rubber plate 5 is 10 mm, the thickness of the shock-absorbing rubber plate 6 is 130 mm,
(d) when the diameter of the warhead is 10 mm or more and less than 12 mm, the thickness of the target rubber plate 3 is 14 to 30 mm, the thickness of the shock absorber filling space 9a is 50 to 120 cm, The thickness of the rubber plate 5 is 12 mm, the thickness of the shock-absorbing rubber plate 6 is 130 mm,
(e) the thickness of the target rubber plate (3) is 20 to 40 mm, the thickness of the shock absorber filling space (9a) is 100 to 150 cm when the diameter of the warhead is less than 12 mm and less than 14 mm, Wherein the thickness of the rubber plate (5) is 15 mm, and the thickness of the shock-absorbing rubber plate (6) is 260 mm. 11. The method of claim 10,
Wherein the thickness of the target rubber plate (3) is 10 mm, the thickness of the shock absorber filling space (9a) is 10 to 20 cm when the warhead is a 22 bullet hole (5.56 mm bullet diameter) (5) is 10 mm, the thickness of the shock-absorbing rubber plate (6) is 65 mm,
In the case where the diameter of the warhead is 7.62 mm, the thickness of the target rubber plate 3 is 10 mm, the thickness of the shock absorber filling space 9a is 20 to 30 cm, the thickness of the intermediate rubber plate 5 The thickness of the shock-absorbing rubber plate 6 is 65 mm,
The thickness of the target rubber plate 3 is 15 mm and the thickness of the shock absorber filling space 9a is 30 to 50 cm when the warhead is a 38 bullet hole (bullet diameter 9.65 mm) (5) is 10 mm, the thickness of the shock-absorbing rubber plate (6) is 130 mm,
The thickness of the target rubber plate (3) is 20 mm, the thickness of the shock absorber filling space (9a) is 50 to 100 cm when the warhead is a 45 bullet diameter (warhead diameter: 11.43 mm) (5) is 12 mm, the thickness of the shock-absorbing rubber plate (6) is 130 mm,
The thickness of the target rubber plate 3 is 30 mm and the thickness of the shock absorber filling space 9a is 100 to 150 cm when the diameter of the warhead is 12.7 mm and the thickness of the intermediate rubber plate 5 And the thickness of the impact-absorbing rubber plate (6) is 260 mm. [Claim 5] &lt; IMAGE &gt; The apparatus according to claim 1, further comprising: a support (30) installed at a lower portion of the shell recovery box (2) and serving to support the shell recovery box (2)
The support portion (30)
A support frame (31) formed by joining square pipes in a planar direction;
A support leg 32 extending downward from the bottom surface of the support frame 31; And
An impact absorber drop receiving portion 33 coupled to a front portion of the support frame 31 to extend from the lower end of the target rubber plate 3 by a second distance and vertically bent upward to have an L-shaped cross section; / RTI &gt;
When the shock absorber 9 in the shock absorber filling space 9a leaks out through the first rupture hole 3d formed in the target rubber plate 3 by the intrusion of the warhead 71, Is capable of being collected and collected by the shock absorber fall-down storage portion (33), so as to enable the automatic separation and withdrawal of the warhead. 2. A rubber composition according to claim 1, wherein the target rubber plate (3), the intermediate rubber plate (5) and the shock absorbing rubber plate (6) comprise rubber, natural rubber, synthetic rubber, isoprene rubber, butadiene rubber, styrene butadiene rubber, And the rubber material has a specific gravity of 0.91 to 0.94, a Mooney viscosity of 50 to 150, a Shore-A hardness of 30 to 90, Wherein the strength (kg / cm3) is 70 to 280 and the elongation percentage (%) is 100 to 600, which enables the automatic separation and recovery of the warhead. 2. The apparatus according to claim 1, wherein the target rubber plate (3) and the frame protector (4) are fixed to square pipes located at a front portion of the main body frame (10) by a plurality of screw bolts , An automatic gun-and-bullet recovery system for indoor and outdoor shooting ranges that enables automatic separation and withdrawal of warheads. 2. The apparatus of claim 1, wherein the top lid (20)
A lid frame 20a made by joining square pipes in a rectangular shape and joined together;
A first bottom plate 22 coupled to a bottom surface of the lid frame 20a;
And is inserted into the internal space of the empty shell recovery box 2 and protrudes from the corner portions of the first bottom plate 22 and is inserted into the hollow space of the shell recovery bin 2, (24); And
And a lid protector (21) made of a rubber material and attached to a front portion of the lid frame (20a) to protect the lid frame (20a) from impact by the warhead (71) Indoor and outdoor gunhead salvage recovery system that enables automatic separation and recovery of warheads. 2. The apparatus according to claim 1, further comprising inclined guide plates (17) provided on left and right sides of a discharge port (13a) of the bottom surface portion (13)
Each of the inclined guide plates 17 is inclined at a first angle from one edge of the discharge port 13a toward the inner wall surface of the side portion 11 of the shell recovery box 2 when viewed in the horizontal direction Taking a rising posture,
The side coupling portion 171 provided at one end of the inclined guide plate 17 is bent so as to be able to contact the inner wall surface of the side portion 11 of the shell recovery box 2 and the first coupling bolt 171b Is fixed to the inner wall surface of the side surface portion (11)
The bottom surface engaging portion 172 provided at the other end of the inclined guide plate 17 is bent so as to be able to contact with the bottom surface portion 13 of the shell recovery box 2 and the bottom surface engaging portion 172 is bent by the second fastening bolt 172b, (13), wherein the automatic deflector is capable of automatically separating and recovering the warhead. In an indoor shooting range for counter-terrorism training,
A shooting range (200) having an entrance (201) through which a soldier / police performing a counter-terrorist operation can enter the indoor shooting range (205) and an exit (202)
A plurality of shotgun recovery devices 101 and 102 arranged along an inner wall surface of the shooting range 200 and a plurality of shotgun recovery devices 101 and 102 arranged in an inner space of the shooting range 200;
Targets attached to the gun retrievers (101, 102) and capable of being fired by a soldier / police using a firearm,
The shotgun recovery device (101, 102) comprises a body frame (10) formed by joining square pipes of metal in a rectangular parallelepiped shape; A shell recovering box (2) formed by joining galvanized steel plates (15) to the surfaces of the main frame (10) other than the front surface and the top surface to create a space therein; A target rubber plate 3 coupled to a front portion of the empty shell recovery box 2; A frame protector (4) interposed between the target rubber plate (3) and a front portion of the main body frame (10); An intermediate rubber plate 5 installed in the internal space of the empty shell recovery box 2 and spaced apart from the target rubber plate 3 by a first distance and located behind the intermediate rubber plate 5; A shock-absorbing rubber plate 6 installed on the rear side of the intermediate rubber plate 5 in the internal space of the empty shell recovery box 2 and spaced apart from the intermediate rubber plate 5 at a second interval; A shock absorbing material filling space 9a existing between the target rubber plate 3 and the intermediate rubber plate 5; A warhead separating space (7) existing between the intermediate rubber plate (5) and the shock absorbing rubber plate (6); An upper lid 20 covering an opening portion formed in an upper surface portion of the empty shell recovery bin 2; The intermediate rubber plate 5 is formed in a linear shape in the vertical direction on the inner surface of both side portions 11 of the empty shell recovery bin 2, An intermediate support rack (5a) that can be engaged and disengaged from the inner surface in a sliding manner; Is filled in the shock absorber filling space (9a) inside the empty shell recovery box (2) and is made of a material selected from the group consisting of rubber, synthetic rubber, natural rubber, plastic, silica and silicone rubber, A shock absorber 9 of 0.1 to 5 mm; An outlet 13a formed by removing a part of the area of the bottom surface 13 of the empty shell recovery box 2; An outlet blocking plate (14) which can be engaged with and separated from the bottom surface portion (13) by a sliding manner and which can close the outlet (13a) when the bottom surface portion (13) is engaged; And a support 30 installed at a lower portion of the shell recovery box 2 and serving to support the shell recovery box 2 with respect to the ground G, Passes through the target rubber plate 3, the shock absorber filling space 9a and the intermediate rubber plate 5, and is repelled by the impact-absorbing rubber plate 6 to be piled up in the warhead separating space 7 Features a counter-terrorist drill-point gun recovery system that enables the automatic separation and recovery of warheads. In the outdoor zero point range,
A shooting table 327 in which the shooter 75 is provided with a plurality of shooting paths 324 through which the guns 70 can be fired;
A target portion 310 installed at a second distance from the charging stand 327 and provided with a plurality of targets corresponding to the warps 324 of the charging stand 327;
A canopy 311 covering the upper portion and the rear portion of the target portion 310;
A control room 323 in which equipment for controlling the shooting status of the shooting table 327 is installed and manpower can be operated;
And a shooting range building 320 in which the shooting table 327 and the control room 323 are installed,
In the target portion 310, a plurality of empty shell recoverers 1 are arranged in a row in the lateral direction,
The empty shell recycling apparatus (1) comprises a main body frame (10) formed by joining square pipes of metal in a rectangular parallelepiped shape; A shell recovering box (2) formed by joining galvanized steel plates (15) to the surfaces of the main frame (10) other than the front surface and the top surface to create a space therein; A target rubber plate 3 coupled to a front portion of the empty shell recovery box 2; A frame protector (4) interposed between the target rubber plate (3) and a front portion of the main body frame (10); An intermediate rubber plate 5 installed in the internal space of the empty shell recovery box 2 and spaced apart from the target rubber plate 3 by a first distance and located behind the intermediate rubber plate 5; A shock-absorbing rubber plate 6 installed on the rear side of the intermediate rubber plate 5 in the internal space of the empty shell recovery box 2 and spaced apart from the intermediate rubber plate 5 at a second interval; A shock absorbing material filling space 9a existing between the target rubber plate 3 and the intermediate rubber plate 5; A warhead separating space (7) existing between the intermediate rubber plate (5) and the shock absorbing rubber plate (6); An upper lid 20 covering an opening portion formed in an upper surface portion of the empty shell recovery bin 2; The intermediate rubber plate 5 is formed in a linear shape in the vertical direction on the inner surface of both side portions 11 of the empty shell recovery bin 2, An intermediate support rack (5a) that can be engaged and disengaged from the inner surface in a sliding manner; Is filled in the shock absorber filling space (9a) inside the empty shell recovery box (2) and is made of a material selected from the group consisting of rubber, synthetic rubber, natural rubber, plastic, silica and silicone rubber, A shock absorber 9 of 0.1 to 5 mm; An outlet 13a formed by removing a part of the area of the bottom surface 13 of the empty shell recovery box 2; An outlet blocking plate (14) which can be engaged with and separated from the bottom surface portion (13) by a sliding manner and which can close the outlet (13a) when the bottom surface portion (13) is engaged; And a support 30 installed at a lower portion of the shell recovery box 2 and serving to support the shell recovery box 2 with respect to the ground G, Passes through the target rubber plate 3, the shock absorber filling space 9a and the intermediate rubber plate 5, and is repelled by the impact-absorbing rubber plate 6 to be piled up in the warhead separating space 7 Characterized in that it is capable of automatic demounting of the warhead by means of an open-air zero shooting range capturing device.

Images