KR101263664B1 - Remove device for shell - Google Patents

Abstract

PURPOSE: A device for removing a shell is provided to easily remove a shell inserted into a gun barrel by the rotation of the shell through rotating a bearing of a support stand positioned in a shell inlet hole. CONSTITUTION: A device for removing a shell comprises a steel rod(50), a front screw(20), a rearward screw, and a support stand(40). Screw threads are formed in one or more end portions of the steel rod. The front screw is connected to one end portion of the steel rod. The rearward screw is located in the other end portion of the steel rod and is connected to a wrench(30). The support stand is located in the other end portion of the steel rod.

Description

Shell removal device {REMOVE DEVICE FOR SHELL}

The present invention relates to a loaded shell stripping apparatus.

In artillery such as self-propelled artillery, shells are mounted on the barrel. At this time, in order to train the shell on the barrel of the SPG, a training bullet made for training is used instead of the actual shell used in practice.

Thus, when carrying out a shell-mounted drill using a training bullet, in order to remove the shell from the barrel, the barrel is positioned perpendicular to the ground, and the detachment weight is freely dropped from above to the ground inside the barrel perpendicular to the ground. Detach the Load Gun inside the barrel by hitting the Load Gun.

However, in order to remove the shell in this manner, there is a problem in that it takes time to first make the barrel perpendicular to the ground, and the warhead portion of the training bullet is removed when the strike gun is hit by using the removal weight. Due to the deformation of the shape, there was a problem that shortened the life of the drill.

In addition, when using a hydraulic press to remove the shell, the hydraulic press must be installed in front of the muzzle, and the pressure is applied to the front of the bullet to remove the training bullet mounted in the barrel, so it takes more time to remove the shell and to position the barrel. In addition to the manpower required to move the fire, the manpower required to install the hydraulics is increased, thereby increasing the manpower required for shell removal. Moreover, there was a disadvantage that the barrel may be damaged due to the installation of the hydraulic press or a safety accident may occur due to pressure.

In addition, the shell removal method is a method of removing the training bullet mounted on the barrel by pulling the cap (cap) mounted on the bullet portion of the training bullet. However, this method also causes the stripping rod connected to the cap to break when the cap is pulled due to the weight of the training bullet. If the rod is broken in this way, it is very difficult to remove the drill bullet inserted into the barrel.

The technical problem to be achieved by the present invention is to safely and easily remove the shell inserted in the barrel.

According to one aspect of the present invention, a shell stripping device includes an iron rod having a thread formed on at least one end, a front screw coupled to the one end of the iron rod, and the other end of the iron rod opposite to the one end of the iron rod. And a rear screw positioned at and coupled to the wrench, and a support positioned at the other end of the iron rod.

One end of the iron rod A second stopper having a diameter of different sizes and coupled to a rear stopper including a first part and a second part connected to each other, wherein the second part having a larger diameter at the rear end stop has an outer thread on an outer circumferential surface and the rear end stopper; The second portion of may preferably include a hole penetrating itself and having internal threads therein.

The outer thread formed on the second portion of the rear cap is coupled to the rear portion of the training bullet, and the one end of the iron rod is coupled to the inner thread formed on the second portion of the rear cap.

The support is located between the rear screw and the front screw, and further comprising a bearing located between the support and the iron rod, the support is preferably having a rectangular planar shape.

The iron rod is separated from each other and has a first portion and a second portion having a thread at both ends, and further comprising a socket connecting the first portion and the second portion to each other, wherein the first portion and the second portion One end of either end of the part is preferably connected to the trailing end cap.

It is preferable to further include a projection projecting in a straight line at the one end of the iron bar, and a hexagonal end coupled to the other end of the iron bar and having a hexagonal shape.

The protrusion is coupled to a stopper screwed to the rear end of the shell to remove the stopper from the shell, the stopper includes a groove cut in a straight shape, the stopper is removed from the shell in the empty space formed in the shell One end of the iron rod is screwed, the stopper is the groove is dug into a cross shape, it is preferable that the protrusion protrudes crosswise.

According to this feature, by connecting the iron rod and wrench to the shell to the rear cap and rotating the wrench in one direction, the iron rod and the rear cap are rotated, and accordingly, the shell is also rotated by the bearing of the support located in the shell insertion opening Since it rotates in one direction, the shell inserted in the barrel can be easily removed.

1 is a perspective view of a shell removal apparatus according to an embodiment of the present invention.
Figure 2 is an exploded perspective view of a portion of the shell stripping device according to an embodiment of the present invention.
Figure 3 is a perspective view of the rear cap of the shell stripping apparatus according to an embodiment of the present invention.
4 is a view illustrating a rear cap of a shell removing apparatus according to an embodiment of the present invention mounted on a shell, and is a perspective view showing a portion of the shell removing apparatus to show the rear cap.
5 is a diagram illustrating a case in which a shell removing apparatus according to an embodiment of the present invention is mounted on a shell.
6 is a perspective view of a shell removal apparatus according to another embodiment of the present invention.
7 is a view showing a case of removing the stopper by mounting a shell removal apparatus according to another embodiment of the present invention to the shell.
8 is a diagram illustrating a case in which a shell removing apparatus according to another embodiment of the present invention is mounted on a shell.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and like reference numerals designate like parts throughout the specification.

Next, a shell removal apparatus according to an embodiment of the present invention will be described with reference to the accompanying drawings.

First, referring to Figures 1 to 4, the configuration of the shell stripping apparatus according to an embodiment of the present invention will be described in detail.

1st Example

1 to 4, the shell removing device according to an embodiment of the present invention is located at one end of the iron bar 50, each of which formed a plurality of threads at both ends, the iron rod 50 is formed of a plurality of threads The front screw 20, the support 40 located at the other end of the plurality of threaded iron bar 50, the rear screw 42 located at the other end of the plurality of threaded iron bar 50, and the rear screw 42 It is provided with a wrench (30) coupled to.

Iron bar 50 may be made entirely of iron.

However, in one embodiment of the present invention is provided with at least a portion of the empty space 51 extending in the longitudinal direction of the iron bar 50 to reduce the weight of the iron bar 50 to facilitate use.

As an example, the portion of the iron rod 50 having the void space 51 may consist of a 3/4 inch pipe.

The portion of the iron bar 50 in which the space 51 is not formed and the thread is formed on the outside is connected to an external device such as the shell 100 or the wrench 30, respectively, so that the rest of the iron bar 50 to which the external device is not connected. It may be both ends of the bar 50 to withstand relatively more force as compared to.

As shown in FIG. 1, in this embodiment, a thread formed in the iron bar 50 is located at a part of the iron bar 50, that is, at both ends, but not limited thereto, and the iron bar 50 in the longitudinal direction of the iron bar 50. Threads may be formed throughout the outer surface.

1 and 2, the support 40 is inserted into the other end of the iron bar 50 and coupled to the iron bar 50, so that the iron bar 50 is inserted into the center portion of the support 40. The hole is located and has a bearing 41 in the center portion.

Therefore, even if the iron bar 50 is rotated by the bearing 41, the support 40 is fixed to a predetermined position without moving along the thread formed in the other end of the iron bar 50. As shown in FIG.

The support 40 has a rectangular planar shape in this example, but may have another planar shape, such as a circle.

The rear screw 42 is located between the support 40 and the end of the other end of the bar 50, and moves in the longitudinal direction of the bar 50 along the thread formed at the other end of the bar 50. At this time, the rear screw 42 is a hexagonal screw.

By the threads formed in the bar 50, the support 40 and the rear screw 42 is variable in position within the portion where the thread is located in the bar 50.

Wrench 30 has a handle 31 and a wrench portion 32 connected to the handle 31, the handle 31 is a handle for rotating the wrench portion 32 is fixed to the wrench portion 32, Wrench portion 32 is a hexagonal wrench (wrench) because it is coupled with the rear screw (42).

Since the rear screw 42 is fully inserted into and coupled to the wrench portion 32, when the rear screw 42 is coupled to the wrench 30, the rear screw 42 is not exposed to the outside as shown in FIG. 1. do.

The wrench portion 32 moves the rear screw 42 coupled to the inside of the wrench portion 32 in the longitudinal direction of the iron rod 50 along the thread of the iron rod 50 by using the rotation of the handle 31. In accordance with the movement of the rear screw 42 coupled to the wrench portion 32, the wrench 30 also moves in the longitudinal direction of the iron bar 50.

In the shell stripping apparatus of the present invention formed as described above, the rear end cap 10 of the training bullet 100 may be connected to a threaded portion formed at one end of the iron bar 50.

As shown in FIG. 3, the rear end plug 10 connected to one end of the iron rod 50 is connected to the first portion 120 and the first portion 12a having the diameter d1 and the diameter d1. And a second portion 121 having a diameter d2 greater than).

In this example, the diameters d1 and d2 are outer diameters of each of the first part 120 and the second part 121, and the diameter d2 generated due to the formation of the thread 121a at the second part 121. The size of the diameter d2 existing within the size difference of) is regarded as the same size.

In this example, the first portion 120 has a circular planar shape, but is not limited thereto, and may have various planar shapes, and has the same diameter d1 regardless of position, but is not limited thereto.

The second part 121 also has the same circular planar shape as the first part 120 and has the same diameter d2 regardless of the position, but is not limited thereto.

The second part 121 has a plurality of threads (hereinafter, referred to as a plurality of external threads) 121a on an outer circumferential surface thereof.

The rear stopper 10 having the first portion 120 and the second portion 121 penetrates a part of the second portion 121 and has a plurality of threads (hereinafter, '') as shown in FIG. Internal thread ') (11) with holes (13).

As shown in FIG. 4, the external thread 121a formed on the outer circumferential surface of the second part 121 is connected to the protruding portion of the drill 100 and is screwed with the drill 100, and the hole of the rear cap 10 is provided. The internal thread 11 formed at 11 is connected to one end of the iron rod 50 with the thread. Therefore, the hole 13 of the rear cap 10 is screwed with one end of the iron bar 50.

At this time, the drill shell 100 is screwed with the external thread 121 of the rear cap 10 to the portion where the training shell 100 is connected to the rear cap 10 for screwing the training bullet 100 and the rear cap 10. Threads are formed.

In addition, the other surface of the second portion 121 positioned opposite to the surface of the second portion 121 coupled to the first portion 120 has a concave shape, and the height of the other surface of the second portion 121 is Lower toward the hole 13 of the second portion 121.

Due to this concave shape of the second part 121, the user can easily find the position of the hole 13 into which the iron bar 50 is inserted when the iron bar 50 is coupled to the second part 121. The operation of screwing the internal thread 11 and the thread of the iron rod 50 by inserting the iron rod 50 into the hole 13 is easily performed.

Accordingly, as shown in FIG. 4, the rear cap 10 is coupled to the drill bullet 100 using the external thread 121, and the internal thread 11 formed in the hole 13 of the rear cap 10 is removed. One end of the bar 50 is screwed through.

Next, with reference to Figure 5, the operation of the shell removal apparatus according to an embodiment of the present invention will be described in detail.

First, as shown in FIG. 5, the rear stopper 10 is coupled to the training bullet 100 mounted in the barrel 110 through an external thread 121 formed on the rear stopper 10 of the shell removing apparatus. As already explained, since the drill 100 has threads threaded into the outer threads 121 of the rear cap 10, the drill shell 100 and the rear cap 10 are coupled to each other through these threads. .

At this time, the end of the barrel 110 is provided with a muzzle inlet device 70, the muzzle inlet device 70 is a device for safely removing the training bullet 100 is removed from the inside of the barrel 110. The muzzle inlet device 70 has an arched hole formed so that the iron bar 50 can penetrate but the support 40 can not penetrate.

Then, the wrench 30 is operated to couple the iron rod 50 to the internal thread 11 of the rear cap 10. As described above, the end of the iron bar 50 is screwed with the hole 13 formed in the rear cap 10, the training bullet 100 and the iron bar 50 inside the barrel 110 is connected.

Then, when the user rotates the handle 31 in the predetermined direction (first direction) by rotating the wrench 32, the rear screw 42 is moved toward the support 40 along the thread formed on the iron bar (50) To move directly to the side of the support (40).

At this time, the support 40 is blocked by the muzzle inlet device 70 is no longer able to move. Therefore, the rear screw 42 and the wrench 30 positioned to the side of the support 40 can no longer be moved in the longitudinal direction of the rod 50 by the support 40 which is not moved by the muzzle inlet device 70. There will be no. As a result, when driving the wrench 30 in a state in which it is no longer able to move in the longitudinal direction of the iron bar 50 by the position of the support 40, the rotational movement of the wrench 30 is a linear movement of the iron bar 50. The iron bar 50 is moved in the longitudinal direction.

In this state, when the wrench 32 is rotated again in the first direction, the rear screw 42 no longer moves due to the support 40. However, the support rod 40 does not prevent the wrench portion 32 and the rear screw 42 from rotating, but instead, the bar 50 moves linearly toward the rear screw 42.

That is, the rear stopper 10 connected to the end of the iron bar 50 and the training bullet 100 connected to the rear stopper 10 also move outward in the barrel 110 according to the linear movement of the bar 50. .

When the training rod 100 is separated from the barrel 110 by moving the iron rod 50 in a straight direction, the user grips the handle 31 of the wrench unit 30 in a direction to remove the training bullet 100. By pulling the drill 100 is pulled out from the barrel 110 to the outside.

Second Example

As shown in Figure 6, the shell removal apparatus according to another embodiment of the present invention further comprises a socket (60).

The socket 60 is a cylinder having a thread formed therein, and is provided to connect one or more iron bars. Preferably, two iron bars 51 and 52 are provided, and threads of the outer circumferential surfaces of the iron bars 51 and 52 are coupled to threads inside the socket 60 to connect the two iron bars 51 and 52.

As such, by providing one or more iron bars using the socket 60, there is an effect that the iron rods having a longer length than the one provided with only one iron rod 50 can be provided.

The shell removing apparatus according to the present embodiment operates in the same manner as that of the shell removing apparatus according to the first embodiment. However, since the shell stripping apparatus using the present embodiment is formed with a long iron rod, it is also possible to remove the drill 100 deeply mounted in the barrel 110.

And, as shown in FIG. 6, the rods 51 and 52 further include a support plate 510 having a disk shape. This is because, when the end of the iron bar 51 is coupled with the training bullet 100, the support plate 510 comes into contact with the rear portion of the training bullet 100, so that the end of the iron bar 51 is naturally the hole of the rear plug 10 ( 13) to be inserted into. Due to this, it is possible to eliminate the difficulties caused when inserting the end of the iron rod 51 into the hole 13 formed in the rear cap 10 of the training bullet 100 due to the long rods 51 and 52. It works.

At this time, the support plate 510 is formed of a rubber material to prevent the support plate 510 from damaging the tear by contacting the rear portion of the training bullet 100 or the shell 200.

Third Example

7 is a perspective view showing the structure of a shell stripping apparatus according to another embodiment of the present invention. As shown in Figure 7, in the shell stripping apparatus according to another embodiment of the present invention to remove the actual shell 200 from the barrel, not to remove the actual shell 100, the actual shell 200 In order to remove the stopper 210 provided in the actual shell 200 from the projection 53a and the hexagonal end 53b is provided.

In more detail, the iron bar 53 is provided with the protrusion part 53a which protruded in one shape at one end.

The other end of the iron bar 53 has a hexagonal end 53b. The hexagonal end 53b is integrally connected to the other end of the iron bar 53, and the hexagonal end 53b is formed to a size smaller than the diameter forming a cross section of the iron bar 53b. Hexagonal end 53b may be a nut having a hexagonal shape.

At this time, the actual shell 200 has a one-shaped groove 210a in the coal and a stopper 210 having a screw thread is coupled to the outside. The stopper 210 having a cork-like shape is screwed to the fin portion of the actual shell 200.

In the present embodiment, the groove 210a of the stopper 210 formed on the actual shell 200 is formed in a straight shape, and the protrusion 53a formed in the iron bar 53 is formed in a straight shape, but is not limited thereto. The groove 210a of the 210 may be formed in a cross shape. As such, when the groove 210a of the stopper 210 is formed in a cross shape, the protrusion 53a of the iron bar 53 is also formed in a cross shape.

The operation for removing the stopper 210 coupled to the actual shell 200 from the actual shell 200 is first performed by combining the grooves 210a of the stopper 210 and the protrusion 53a of the iron bar 53. After the wrench 30a is coupled to the end portion 53b, the handle 31a of the wrench 30a is driven to rotate the wrench portion 32a in one direction.

At this time, the hexagonal end 53b coupled to the inside of the wrench part 32a is rotated by the rotation of the wrench part 32a, and the iron bar 53 connected to the hexagonal end 53b is rotated. In addition, as the protrusion 53a connected to the end of the iron rod 53 rotates as the iron rod 53 rotates, the stopper 210 which is screwed to the actual shell 200 may be removed.

When the hexagonal end portion 53b is rotated with the wrench 30a as described above, and the protrusion 53a removes the stopper 210 from the actual shell 200, the stopper 210 is pushed out of the carcass of the actual shell 200. An empty space is formed.

Since the empty space formed in the fin of the actual shell 200 has a thread formed thereon, as shown in FIG. 8 using the thread formed at the end of the iron rod 53, the iron rod 53 in the empty space of the actual shell 200. ) Can be screwed together.

An operation example of the shell removing apparatus according to the third embodiment configured as described above will be described with reference to FIG.

First, as shown in Fig. 8, after the wrench 30b is engaged with the rear screw 42a, when the knob 31b is rotated in one direction, the wrench portion 32b rotates and the wrench portion 32b is rotated. According to the rotation, the rear screw 42a moves in the direction of the support 40a along the thread of the iron bar 53.

At this time, the wrench 30b coupled to the rear screw 42a is different from the wrench 30a coupled to the hexagonal end 53b, and the wrench portion 32a and the rear screw coupled to the hexagonal end 53b are provided. The size of the wrench portion 32b to which 42a) is coupled is different.

After the rear screw 42a is moved to the side of the support 40a, if the handle 31b of the wrench 30b is continuously rotated in one direction, the iron rod 53 is rotated to stop the actual part of the shell 200. The end of the iron bar 53 is inserted into the empty space formed by the 210 is removed.

As described above, the empty space of the actual shell 200 is threaded so that the end of the iron bar 53, which is provided with the protrusion 53b, is screwed to the carcass of the actual shell 200.

Then, the handle 31b of the wrench 30b is continuously driven in one direction. However, at this time, the rear screw 42a and the wrench portion 32bb can no longer rotate because of the support 40a. Therefore, instead of preventing the rear screw 42a and the wrench portion 32b from rotating, the iron bar 53 is moved linearly in the direction of the rear screw 42a, so that the actual shell 200 connected through the end of the iron bar 53. Also, it moves in the direction of the rear screw 42a.

Although the barrel is not illustrated in FIG. 8, when the actual shell 200 is mounted on the barrel 110 as shown in FIG. 5, the actual shell 200 moves in the straight direction due to the movement of the bar 53 in a straight direction. When a certain distance from the 110, the user pulls the actual shell 200 from the inside of the barrel 110 to the outside by pulling the handle 31b of the wrench portion 30b in the direction to remove the actual shell 200. Departure.

While the present invention has been particularly shown and described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, Of course, this is possible. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined by the equivalents as well as the claims that follow.

10: tail stopper 11: internal thread
12: external thread 20: front thread
30: wrench 31: handle
40: support 41: bearing
42: rear screw 50: iron bar
60: socket 70: muzzle inlet device
100: shell 110: barrel
200: real shell

Claims (11)

An iron rod having threads formed on at least one end thereof,
A front screw coupled to the one end of the iron rod,
A rear screw located at the other end of the iron rod opposite the one end of the iron rod and engaged with a wrench, and
A support positioned at the other end of the iron rod
Shell removal device comprising a. In claim 1,
One end of the iron rod Combined with a rear stopper having a diameter of different sizes and comprising a first part and a second part connected to each other,
The second portion having a larger diameter in the aft stopper has an outer thread on its outer circumferential surface;
And the second portion of the rear cap includes a hole penetrating itself and having an internal thread therein. In claim 2,
The outer thread formed in the second portion of the rear cap is engaged with the rear portion of the drill bullet,
The inner thread formed in the second portion of the rear cap is shell removal device that the one end of the iron bar is coupled. In claim 1,
And the support is located between the rear screw and the front screw. In claim 1,
And a bearing positioned between the support and the iron rod. In claim 1,
The support is shell removal device having a rectangular flat type. 4. The method of claim 3,
The iron rods are separated from each other and have a first part and a second part having threads at both ends,
Further comprising a socket connecting the first portion and the second portion to each other,
One end of one of both ends of the first portion and the second portion is shell removal device connected to the rear cap. In claim 1,
A protrusion protruding in a straight line at the one end of the iron rod, and
Hexagonal end coupled to the other end of the iron rod and having a hexagonal shape
Shell stripping device comprising more. 9. The method of claim 8,
The protrusion is coupled to a stopper screwed to the rear of the shell to remove the stopper from the shell,
The stopper is shell removal device comprising a groove that is dug in a straight line. The method of claim 9,
And the stopper is detached from the shell so that one end of the iron rod is screwed into an empty space formed in the shell. The method of claim 9,
The stopper is grooved in the cross,
The projecting portion of the shell stripping device protruding cross.

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