KR101643270B1 - Appratus enhancing impact resistance for course correction fuze - Google Patents

Abstract

The present invention provides an apparatus for enhancing impact resistance for a course correction fuse, comprising: a fuse, a ballistic body, a base ring member, a ball bearing, an elastic member and a plurality of magnetic bodies. The fuse has a front surface part protruding in a bullet progressing direction and a concave part recessed in a circumferential direction. The base ring member is installed on the concave part to surround the fuse in such a manner as to be rotated in a direction parallel to a work direction and is spaced from an internal surface of the concave part. The ballistic body is spaced from the fuse at a predetermined distance, has a reception part receiving a part of the fuse, and allows the base ring member to be inserted and coupled thereto to be rotated together with the base ring member. The ball bearing is installed between the fuse and the base ring member to allow the fuse and the ballistic body to independently be rotated. The elastic member is installed between the ball bearing and the base ring member to be elastically deformed in a direction parallel to the work direction, thereby preventing contact between the base ring member and the concave part in the work direction. The magnetic bodies are installed on the fuse and the ballistic body, respectively, to relieve impact applied to the ball bearing and are arranged to be spaced from each other.

Description

TECHNICAL FIELD [0001] The present invention relates to an impact resistance strengthening device for a ballistic correction fuse,

The present invention relates to an apparatus capable of mitigating an impact acting on a ball bearing inside a new tube by enhancing the impact resistance of a ballistics correction tube which is flying at a high speed.

In order to develop self-propelled ball bearings, ball bearings are used which have the advantage of being able to rotate at high speed and withstand large loads.

When the shell is fired, a severe impact is applied to the shell due to the harsh acceleration environment, where most of the impact is transmitted to the ball bearings and elastic members inside the fuse.

However, since ball bearings and elastic members can not withstand large loads due to acceleration acting in the direction of the shell, there is a problem that the ball bearings are asymmetrically broken due to the high impact at the moment the shells are fired and the loads acting on the sides.

In addition, the ball bearing can not withstand the high impact and is broken, and contact occurs between the fuse body portion of the fuse and the base ring. Therefore, after the shell exits from the port, the main pipe and the body need to rotate independently of each other for continuous self-generation, but the fuse body of the new pipe and the base ring are not separated and rotate together.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a device for preventing breakage of a ball bearing by enhancing the impact resistance of a new pipe and preventing rotation of the new pipe and the main body together.

In order to accomplish the object of the present invention, an impact resistance strengthening apparatus of a ballistic modifying trunk according to an embodiment of the present invention includes a front surface portion and a circumferential surface portion, which are rotatable in one direction, A fuse having recesses formed by recessing along an axis; A base ring member which is installed to surround the main pipe in the recess so as to be rotatable about an axis parallel to the one direction and is spaced apart from the inner surface of the recess; A base member having the base ring member inserted and coupled to rotate with the base ring member, the base ring member having a receiving portion spaced apart from the main pipe by a predetermined distance to receive a portion of the main pipe; A ball bearing installed between the main pipe and the base ring member such that the main pipe and the main body rotate independently; An elastic member provided between the ball bearing and the base ring member and elastically deformed in a direction parallel to the one direction so as to prevent the base ring member and the recess in one direction; And a plurality of magnetic bodies that are respectively disposed on the main pipe and the main body so as to mitigate the impact acting on the ball bearings and are disposed to be spaced apart from each other.

According to an embodiment of the present invention, the plurality of magnetic bodies include: a fuse magnetic body provided on the fuse; And a toroidal magnetic body that is spaced apart from the bristle magnetic body and installed in the inside of the containing portion to generate repulsive force due to interaction with the bristle magnetic body.

Wherein the fuze magnetic body includes a plurality of first fuze magnetic bodies provided on a rear surface opposite to a front portion of the fuse crossing the one direction; And a plurality of second fuze magnetic bodies provided on an outer circumferential surface of the new pipe.

The plurality of first body magnetic bodies arranged on one surface of the receiving portion so as to generate a repulsive force so as to be spaced apart from the first plurality of first tube magnetic bodies; And a plurality of second sacchi-magnetic bodies provided on an inner circumferential surface of the receiving portion so as to be spaced apart from the plurality of second attract magnetic bodies so as to generate a repulsive force, and due to the repulsive force between the plurality of magnetic bodies, And the impact acting on the elastic member can be dispersed.

The fuzzy magnetic body and the torus magnetic body may be arranged in a halbach array.

The bristle magnetic body and the bristle magnetic body may be alternately arranged.

According to another embodiment of the present invention, the ball bearing includes: an outer ring portion coupled to the base ring member; An inner ring portion adapted to contact the new pipe; And a ball portion provided between the outer ring and the inner ring, wherein the ball bearings are provided in plurality, and the plurality of ball bearings may be installed at regular intervals along the one direction.

An extension portion extending in the direction of the center axis of the base ring member may be formed at one end of the inner circumferential surface of the base ring member, and the elastic member may be provided between the outer ring portion and the extension portion.

According to an embodiment of the present invention, there is provided an impact resistance strengthening apparatus for a ballistic correction fuse including a plurality of magnetic bodies disposed between a ball bearing and a base ring member and spaced apart from each other by a resilient member. With this structure, it is possible to mitigate the impact acting on the ball bearing and to enable independent rotation of the fuse and body.

According to another aspect of the present invention, there is provided an impact resistance strengthening apparatus for a ballistic correction tube, wherein the ball bearing may include a ball bearing installed at predetermined intervals along one direction. Due to this structure, the load applied to the ball bearing in the advancing direction of the cannula is dispersed, so that breakage of the ball bearing can be prevented.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a conceptual diagram of a shock resistance strengthening apparatus for a ballistic correction fuse according to an embodiment of the present invention; FIG.
2 is an enlarged view of a portion A in Fig.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The present invention may be embodied in many different forms and is not limited to the embodiments described herein.

In the present specification, the same or similar reference numerals are given to different embodiments in the same or similar configurations. As used herein, the singular forms "a", "an" and "the" include plural referents unless the context clearly dictates otherwise.

FIG. 1 is a conceptual diagram of an impact resistance strengthening apparatus 100 of a ballistic modifying trunk according to an embodiment of the present invention, and FIG. 2 is an enlarged view of a portion A of FIG.

1 and 2, an impact resistance strengthening apparatus 100 of a ballistic modifying trunk according to an embodiment of the present invention includes a new pipe 10, a base ring member 20, a body 30, a ball bearing 40, An elastic member 50, and a magnetic body 60.

The new pipe 10 has a front portion 12 protruding toward the direction of the shell, a rear portion 19 formed on the opposite side of the front portion 12, and a rear portion 19 formed between the front portion 12 and the rear portion 19 in one direction And an intermediate portion 14 partially including a portion extending and formed.

In this case, the intermediate portion 14 includes first and second intermediate portions 15 and 16, and a fuse body portion 17. The first and second intermediate portions 15 and 16 and the fuse body portion 17 may be integrally formed with each other. A recess 18 to be described later may be formed between the fuse body 17 and the first and second intermediate portions 15 and 16. The new pipe 10 is rotatable about the axis parallel to the one direction when the shell is fired.

Particularly, the intermediate portion 14 of the new pipe 10 may be formed in a cylindrical shape. The intermediate portion 14 may be provided with a recess 18 formed by recessing along the circumferential direction. The concave portion 18 forms a structure for accommodating the base ring member 20 so that the base ring member 20 to be described later rotates away from the tube 10.

The body 30 is rotated independently of the new tube 10 when the shell is fired. The body 30 can be rotated in the same direction as the rotation axis of the new tube 10, for example, in a direction parallel to the one direction. The body 30 may extend in a direction parallel to the one direction.

The body 30 includes a receiving portion 35 capable of receiving a rear portion 19 of the fuse 10 and a portion of the intermediate portion 14. The base body 30 receives the rear face portion 19 of the new tube 10 and separates the base ring member 20 from the concave portion 18 and the receiving portion 35, And is inserted into the receiving portion 35 of the body 30 so as to be inserted thereinto.

The body 30 further includes a body portion 37 having a sufficient thickness and length so that the body 30 can rotate and move and generate a large acceleration when the shell is fired .

The base ring member 20 is coupled to be inserted into the receiving portion 35 of the body 30 to rotate together with the body 30. The base ring member 20 coupled to the body 30 and the body 30 It rotates independently of the shotgun as described above.

The base ring member 20 is formed in a ring shape, for example, and can be provided in the recess 18. The base ring member 20 may be formed of at least two members so as to be installed in the recesses 18, and the two members may be assembled through bolts, fins, or the like.

At one end portion of the inner circumferential surface of the base ring member 20, an extending portion 25 extending in the rotational axis direction of the base ring member 20 along the inner circumferential surface is formed. In other words, it is formed so as to extend inward from the inner peripheral surface of the rear surface side end portion of the base ring member 20.

A ball bearing 40 may be provided between the concave portion 18 and the base ring member 20. The ball bearing 40 is configured to receive a large load from the bullet 30 on the inner side when the shell is fired and from the bullet 30 to which the base ring 20 is coupled on the outer side. The ball bearing 40 should be constructed so as to withstand the load so that the shotgun and the body 30 rotate independently. The base ring member 20 is brought into contact with the fuse body portion of the fuse 10 and the fuse body 30 is rotated together with the fuse 10 and the independent rotation The performance of the cannon is inevitably deteriorated.

The ball bearing 40 is installed along the one direction between the new pipe 10 and the base ring member 20 so as to form a structure that can withstand the load.

The ball bearing 40 includes an outer ring portion 42 coupled to the base ring member 20, an inner ring portion 45 contacting the inner ring portion 45, and a ball portion 40 disposed between the outer ring portion 42 and the inner ring portion 45. [ (47).

The outer ring part 42 contacts the base ring member 20 and rotates together with the base ring member 20 so that the inner ring part 45 contacts the outer circumferential surface of the fuse body part 17 and contacts the fuse body part 17 Rotate together. The ball portion 47 is provided between the outer ring portion 42 and the inner ring portion 45 and receives a force transmitted from the outer ring portion 42 and the inner ring portion 45.

A plurality of ball bearings 40 are formed, and the plurality of ball bearings 40 are spaced apart from each other in the one direction. Such a structure is an advantageous structure capable of withstanding the force when the new tube and the torus are subjected to the acceleration force in the advancing direction of the shell. Also, in consideration of the general structure of the ball bearing 40, a plurality of ball bearings 40 may be provided in the circumferential direction. It is apparent that a plurality of ball portions 47 are provided between the outer ring portion 42 and the inner ring portion 45 when the ball bearings 40 are formed in a plurality.

The elastic member 50 is installed between the ball bearing 40 and the base ring member 20 so that the elastic member 50 is elastically deformed in a direction parallel to the extending direction of the new tube 10 and the body 30 . For example, the elastic member 50 may be installed between one end of the outer ring portion 42 of the ball bearing 40 and the extended portion 25. One end of the outer ring portion 42 is an end portion of the outer ring portion 42 of the ball bearing 40 located closest to the rear portion 19 of the new pipe 10 among the plurality of ball bearings 40.

The elastic member 50 is elastically deformed between one end of the outer ring portion 42 and the extended portion 25 to prevent the base ring member 20 from moving toward the front direction, that is, toward the advancing direction of the shell. As a result, the base ring member 20 is prevented from coming into contact with the fuse 10, and the fuse 10 and the body 30 can rotate independently of each other. In addition, the elastic member 50 can mitigate and disperse the impact acting on the ball bearings 40 in the front direction.

A plurality of magnetic bodies 60 are provided and each of the new tube magnetic body 62, the salient magnetic body 64, the first and second extrinsic magnetic bodies, and the first and second body magnetic bodies 64a and 64b, which will be described below, All may be provided in plural.

The magnetic body 60 may be formed in various shapes such as a strip shape, a square shape, and a circular shape to generate magnetism.

The magnetic body 60 includes a new tube magnetic body 62 provided on the new tube 10 and a torus magnetic body 64 provided on the torus 30. [ The new magnetic body 62 and the magnetic body 64 should be disposed so as to face the same pole so as to be spaced apart from each other by a predetermined distance so as to generate a repulsive force therebetween.

The new tube magnetic body 62 is a magnetic body 60 provided in the new tube 10 and may include first and second tube magnetic bodies 62a and 62b.

A plurality of first magnetic flux generating bodies 62a may be provided on the rear surface 19 of the main pipe 10. The rear face portion 19 of the new pipe 10 crosses the one direction and is in contact with the outer peripheral face of the intermediate portion 14 on the opposite side of the front face portion 12.

The first fuze magnetic bodies 62a may be provided in a plurality of spaced apart from each other at the rear portion 19. In addition, the first attracting magnetic body 62a may be disposed entirely so as to substantially cover the rear face portion 19. [

A plurality of second magnetic flux generating bodies 62b may be provided on the outer peripheral surface of the intermediate portion 14 of the new tube 10. The plurality of second attracting magnetic bodies 62b may be installed along the one direction or along the circumferential direction.

The salient magnetic body 64 is a magnetic body 60 provided on the body 30 and includes first and second body magnetic bodies 64a and 64b.

A plurality of first magnetic body portions 64a are provided on one surface of the body receiving portion 35. [ One surface of the cartridge receiving portion 35 is a surface that meets the inner circumferential surface of the receiving portion 35 and may be a surface formed apart from the rear surface of the new tube 10. [ Further, the first saccharmagnetism body 64a is arranged so that the pole of the first attracting magnetic body 62a faces the pole, so that the repulsive force is generated. The first electromagnet member 64a is disposed to be spaced from the first electromagnet member 62a by a predetermined distance.

A plurality of second magnetic body portions 64b are provided on the inner circumferential surface of the shell accommodating portion 35. The inner peripheral surface of the cartridge receiving portion 35 may be a surface positioned so as to be spaced apart from the outer peripheral surface of the new tube 10. [ The second electrostrictive body 64b is arranged so as to face the pole of the second intrinsic magnetic body 62b so that a repulsive force is generated. The second elastic body 64b is arranged to be spaced from the second extension magnetic body 62b by a predetermined distance.

As described above, the first and second extrinsic magnetic materials 62a and 62b are provided so as to face the same poles respectively with the first and second body magnetic bodies 64a and 64b, and are spaced apart from each other by a predetermined distance, 60) between the first and second ends. The repulsive force thus generated relaxes the impact acting on the ball bearing 40 and the elastic member 50 when the new tube 10 and the body 30 rotate independently of each other.

The triniferous magnetic body 62 and the salient magnetic body 64 may be alternately arranged or arranged in a halbach array.

The alternate arrangement is an example shown in Fig. 2, in which one of the salient magnetic bodies 64 is arranged to be spaced apart from the two fuzzy magnetic bodies 62 by a predetermined distance, and one fuzzy magnetic body 62 is further arranged between the two salient magnetic bodies 62 64 and the like. In this case, a toroidal magnetic body 64 may be disposed opposite to the space between the two fuzzy magnetic bodies 62, and a fuze magnetic body 62 may be disposed across the space between the two toroidal magnetic bodies 64.

The Halbach arrangement means that, when the magnetic bodies 60 are arranged side by side, the poles oriented in one direction are not arranged uniformly but the continuous magnetic bodies 60 are arranged to rotate by 90 degrees each.

For example, if the (+) pole of the first magnetic body faces the right side, the (+) pole of the second magnetic body faces downward, and the (+) pole of the third magnetic body faces the left. Further, the fourth magnetic body may be arranged so that the (+) pole faces upward and the fifth magnetic body faces the (+) pole again to the right.

As described above, through the Halbach arrangement, the plurality of magnetic bodies form a structure in which the respective poles are arranged so as to face to different surfaces, and the magnetic force lines are concentrated on the adjacent portions of the plurality of magnetic bodies arranged in a row. However, even when a plurality of magnetic bodies are arranged in a stripe arrangement, a repulsive force should be generated between the proximal magnetic body 62 and the salient magnetic body 64. If a force is generated between the proximal magnetic body 62 and the proton magnetic body 64, the effect of relieving the load on the ball bearing 40 can be reduced by half, so that a repulsive force is generated between the proximal magnetic body 62 and the resilient magnetic body .

The new tube magnetic body 62 and the salient magnetic body 64 are arranged alternately or in a Halbach arrangement to increase the repulsive force between the new tube magnetic body 62 and the elastic magnetic body.

The impact resistance strengthening apparatus of the ballistic correction tube described above is not limited to the configuration and the method of the embodiments described above, but the embodiments may be constructed by selectively or in combination of all or a part of the embodiments so that various modifications can be made. have.

In addition, the detailed description of the invention described above is a concrete example for the inventors of the present invention to carry out the invention as an embodiment of the present invention, and the applicant's right is not limited thereto. The applicant's rights are set forth in the claims set forth below.

100: Shock resistance strengthening device of ballistic modifying tube 10:
12: front part 14: middle part 15: first middle part
16: second intermediate portion 18: concave portion 19: rear portion
20: base ring member 30: body 35: accommodating portion
37: body part (40): ball bearing (42): outer ring part
47: ball portion 50: elastic member 60: magnetic substance
62: Magnetism magnetic body 64:

Claims (8)

A new pipe rotatable in one direction and having a recess formed in a recessed portion formed along a circumferential direction and a front portion protruding toward the trajectory advancing direction;
A base ring member which is installed to surround the main pipe in the recess so as to be rotatable about an axis parallel to the one direction and is spaced apart from the inner surface of the recess;
A base member having the base ring member inserted and coupled to rotate with the base ring member, the base ring member having a receiving portion spaced apart from the main pipe by a predetermined distance to receive a portion of the main pipe;
A ball bearing installed between the main pipe and the base ring member such that the main pipe and the main body rotate independently;
An elastic member provided between the ball bearing and the base ring member and elastically deformed in a direction parallel to the one direction so as to prevent the base ring member and the recess in one direction; And
And a plurality of magnetic bodies which are respectively disposed on the new pipe and the body so as to mitigate impact acting on the ball bearings and are arranged to be spaced apart from each other. The method according to claim 1,
Wherein the plurality of magnetic bodies comprise:
A new tube magnetic body installed in the new tube; And
And a cylindrical magnetic body that is spaced apart from the fuzzy magnetic body so as to generate a repulsive force due to an interaction with the fuzzy magnetic body. 3. The method of claim 2,
The fuzzy magnetic body includes:
A plurality of first fuze magnetic bodies provided on a rear surface opposite to a front portion of the fuse crossing the one direction; And
And a plurality of second fan-tube magnetic bodies provided on an outer circumferential surface of the new tube. The method of claim 3,
The above-
A plurality of first body magnetic bodies provided on one surface of the receiving portion to generate a repulsive force so as to be spaced apart from the plurality of first observer magnetic bodies; And
And a plurality of second electromagnet elements provided on an inner circumferential surface of the receptacle so as to be spaced apart from the plurality of second introductory magnetic bodies and generating a repulsive force,
And an impact acting on the ball bearing and the elastic member is dispersed due to a repulsive force between the plurality of magnetic bodies. 5. The method of claim 4,
Wherein the fuzzy magnetic body and the ternary magnetic body are arranged in a halbach arrangement. 5. The method of claim 4,
Wherein the magnetic flux corrugation body and the electromagnetism magnetic body are arranged alternately with each other. The method according to claim 1,
In the ball bearing,
An outer ring portion coupled to the base ring member;
An inner ring portion adapted to contact the new pipe; And
And a ball portion provided between the outer ring portion and the inner ring portion,
Wherein a plurality of the ball bearings are provided, and the plurality of ball bearings are installed at regular intervals along the one direction. 8. The method of claim 7,
An extension portion extending in the direction of the central axis of the base ring member is formed at one side end portion of the inner circumferential surface of the base ring member,
Wherein the elastic member is installed between the outer ring part and the extension part.

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