KR20150068098A - Arrow - Google Patents

Abstract

Disclosed is an arrow. A shaft and an arrowhead composing the arrow are not integrally formed, and a buffer part through which the arrowhead can be moved in the direction of the shaft is formed between the shaft and the arrowhead, such that an impact generated when the arrowhead strikes a target can maximally be alleviated. In accordance with an embodiment of the present invention, the arrow comprises: the shaft, the arrowhead, and the buffer part formed between the shaft and the arrowhead, wherein the arrowhead can be moved in the direction of the shaft when the arrowhead strikes a target.

Description

Arrow {Arrow}

The present invention relates to an arrow, and more particularly, to an arrow used in an arrow motion simulation system for measuring an arrow movement, in which an arrow is fired to prevent damage to the target and the arrow when the target is charged It is about the arrow.

There exists a predetermined archery simulation system for measuring the motion of the arrow or for experiencing an actual archery even if the shooting range is not provided for the archery.

For example, a Korean registered patent (Registration No. 10-1101936, "Bow Shooting Simulation System", hereinafter referred to as "Prior Art 1") is disclosed. The above-mentioned prior art 1 provides a technical idea about a system which can simulate the trajectory of an arrow due to shooting of an arrow in a three-dimensional space by measuring a shooting power and an inclination of an arrow when an arrow is shot using an arrow.

However, the above-mentioned prior art 1 does not disclose an actual bow for launching an arrow, but rather a method for measuring the bow's deformation data (e.g., a sensor for measuring the bow's deformation data, tilt data, and / or orientation point data) The present invention can simulate the trajectory of a virtual bow in a virtual space using three-dimensional space using the bow data. The user can shoot an empty bow without an arrow, I can not help but feel a sense of discomfort.

In addition, Korean Patent No. 10-1102939 entitled "Screen Retrieval System", hereinafter referred to as "Prior Art 2") discloses a related art 2, in which a user can experience an abduction in performing horseback riding on horseback This is implemented so that the user can ride the horse model and shoot arrows toward the screen.

In the case of the arrow used in the prior art 2, an arrowhead which is in contact with a bull's-eye (that is, a screen), a shaft shaft extending from the end of the arrowhead and an arrowhead provided at one end of the shaft shaft have.

In the case of such an archery simulation system, it is necessary that the arrow fired through the bow does not penetrate the target or be stuck to the target unlike the actual. To this end, the conventional art 2 is designed to prevent the arrow from being stuck on the screen or passing through the screen by making the end of the arrow head blunt or spherical.

However, arrows shot through the bow have a very strong kinetic energy and fly at a high speed. When the arrowhead is formed integrally with the shaft or when the arrowhead and the shaft are engaged, the target and / There is a problem that frequent damage occurs. Particularly, such an archery simulation system is often installed in a room. In this case, the distance between the position where the arrow is fired (that is, the position of the user) and the target (that is, It is very close to the archery to be performed. Therefore, even if the arrowhead of the arrow is not sharpened, there is always a possibility that a strong flying arrow may damage the target.

In the case where the target is implemented with a rigid material other than a cloth or cloth screen as in the prior art 2, there is a high possibility that the arrow may be broken or deformed when the target is hit by the target There is a danger.

Therefore, a predetermined buffer is provided between the shaft and the arrowhead, and the arrowhead for charging the target is formed to be movable through the buffer so that the impact generated when the arrow strikes the target can be alleviated as much as possible The need for arrows is increasing.

Accordingly, it is an object of the present invention to provide a cushioning device for a cushioning device in which an arrowhead constituting an arrow and an arrowhead are not integrally formed, and a buffering portion is formed between the arrowhead and the arrowhead, And to provide a technical idea that can mitigate the impact that occurs when it is priced.

In addition, a slide groove or a slide through hole is formed on both sides of the arrowhead to prevent the arrowhead from being detached from the arrow, while facilitating movement of the arrowhead to effectively mitigate the impact will be.

According to an aspect of the present invention, there is provided an arrow according to an embodiment of the present invention, which includes a shaft, an arrowhead, and an arrowhead formed between the arrowhead and the shaft to allow the arrowhead to move in the direction of the shaft when the arrowhead The formed buffer portion can be formed.

In the buffering portion, a buffer space may be formed such that the arrowhead can move in the direction of the shaft.

In addition, the buffer space may be formed to apply a repulsive force to the arrowhead when the arrowhead is priced at the target.

In addition, the buffer space may include an elastic member configured to generate the repulsive force by an elastic force during the movement.

The cushioning space may include a magnetic member that is formed at one end of the arrowhead in the direction of the arrowhead and one end of the arrowhead in the direction of the arrowhead so as to generate the repulsive force by a magnetic force .

Further, the elastic member and the arrowhead may be integrally combined.

In addition, the buffer portion may include a fastening member that fastens the arrow shaft and the arrowhead and is formed to include the buffer space inside.

In addition, a slide groove or a slide through hole is formed in the arrow head in the longitudinal direction so as to be movable along the inner circumferential surface of the fastening member on both side surfaces thereof, and the end portion of the fastening member is moved along the slide groove or the slide through- And a fixing part protruding in the inward direction is formed so as not to come off.

Further, the arrowhead may be formed of an elastic member.

According to the technical idea of the present invention, by forming a cushion portion between the arrow shaft and the arrow head which constitute the arrow, the arrow head can move in the direction of the arrow shaft, thereby minimizing the impact that occurs when the arrow head is hit on the target have.

In addition, a slide groove or a slide through hole is formed on both sides of the arrowhead to prevent the arrowhead from being detached from the arrow, and the arrowhead can be easily moved.

1 shows a schematic configuration of an arrow according to an embodiment of the present invention.
2 shows an embodiment of an arrow buffering part according to an embodiment of the present invention.
Fig. 3 shows an embodiment of a slide groove (or a slide through hole) formed in an arrowhead according to an embodiment of the present invention.
4 is a view showing, from another angle, an embodiment of a slide groove (or a slide through hole) formed in an arrowhead according to an embodiment of the present invention.

In order to fully understand the present invention, the operational advantages of the present invention, and the objects attained by the practice of the present invention, reference should be made to the accompanying drawings, which illustrate preferred embodiments of the present invention, and the contents of the accompanying drawings.

In the following description, well-known functions or constructions are omitted for clarity.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, the present invention will be described in detail with reference to the preferred embodiments of the present invention with reference to the accompanying drawings. Like reference symbols in the drawings denote like elements.

1 shows a schematic configuration of an arrow according to an embodiment of the present invention.

Referring to FIG. 1, an arrow 100 according to an embodiment of the present invention includes a shaft 110, an arrowhead 120, and a buffer 130 formed between the shaft 110 and the arrowhead 120 .

The shaft (110) is configured to form the body of the arrow (100), and may be formed of the same or similar material as the conventional arrow. The buffer unit 130 may be formed at one end of the shaft unit 110, and an arrowhead may be formed at the other end of the shaft unit 110.

The arrowhead 120 may be a portion directly hit on the target when the arrow 100 is fired. The arrowhead 120 may be integrally formed with the shaft shaft 110 or may be integrally formed so that the arrowhead 120 and the shaft shaft 110 are completely in tight contact with each other, (For example, when the arrow 100 penetrates the target or is stuck on the target) due to the impact of the arrow 100 on the target, or when the arrow 100 strikes the target There is a risk that the arrow 100 is broken or deformed.

However, the arrow 100 according to the technical idea of the present invention can be used in a predetermined simulation system capable of measuring the motion of an arrow to be fired or experiencing the shooting of the bow in the room. The arrow 100 passes through the target, It is preferable to be embodied so as not to be stuck to the surface. Further, it is preferable that the arrow 100 is prevented from being damaged due to impact when the arrow 100 is struck on the target. In particular, as described above, the target may be a cloth or cloth screen in which a predetermined screen can be displayed, but may be a rigid material. In this case, when the arrow is struck on the target, the arrow 100 is damaged The possibility of being able to be much larger.

Therefore, according to the embodiment of the present invention, since the shock absorber 130 is provided between the arrow shaft 110 and the arrowhead 120 to mitigate the impact generated when the arrow 100 is priced at the target It is possible to provide not only the arrow 100 but also a technical idea that can prevent damage to the target. For this, the arrowhead 120 may be formed of a predetermined elastic member such as rubber, sponge, or the like.

A buffer space 131 may be formed in the buffer 130 to mitigate an impact between the arrow shaft 110 and the arrowhead 120. A buffer space 131 may be formed in the buffer 130 so that the arrowhead 120 may move in the direction of the shaft 110. The arrowhead 120 may be formed at one end When the impact is applied, the impact may be mitigated by moving in the direction of the shaft (110) through the buffer space (131).

The buffer space 131 may be formed so as to be movable only when the arrowhead 120 is struck against the target, but may be formed to generate a repulsive force for the movement for a higher buffering effect. That is, the buffer space 131 may be formed so as to apply a repulsive force to the arrowhead 120 when the arrowhead 120 is priced at the target. A specific embodiment will be described in detail with reference to FIG.

Fig. 2 shows implementations of a buffer space according to an embodiment of the present invention.

2A, the cushioning space 131 formed in the arrow 100 according to an embodiment of the present invention includes a cushioning space 131 formed in a predetermined space, which is formed so as to generate a repulsive force by an elastic force when the arrowhead 120 moves An elastic member 133 may be provided. The elastic member 133 may be embodied by a spring, for example. In this case, when the arrow 100 is hit by the target and an impact is applied to the arrowhead 120, the arrowhead 120 moves in the direction of the arrow shaft 110 through the buffer space 131, Can be mitigated. At this time, the impact can be more effectively mitigated by the repulsive force generated by the elastic member 133. The elastic member 133 may be implemented in the form of a spring or the like. When the arrowhead 120 is struck by the sponge, rubber or the like and moves in the direction of the shaft 110, It can be implemented in any material or any form as long as it can generate repulsive force.

The elastic member 133 may be disposed in the buffer space 131 and may be formed between the arrow shaft 110 and the arrowhead 120 so as not to protrude outside the buffer space 131.

According to an embodiment, the elastic member 133 may be formed integrally with the arrowhead 120. That is, the elastic member 133 may be integrally coupled to the arrowhead 120 at one end of the arrowhead 120 in the direction of the shaft 110. The elastic member 133 may be integrally coupled to the shaft block 110 and may be integrally formed with the shaft block 110 and the arrowhead 120 so that the shaft block 110 and the arrowhead 120 may be connected to each other. Or may be formed in a combined form. In any case, the elastic member 133 may be formed to generate a repulsive force with respect to the movement of the arrowhead 120 in the buffer space 131.

According to another embodiment, a predetermined magnetic member (for example, 133-1 and 133-2) may be provided in the buffer space 131 as shown in FIG. 2B. The magnetic members 133-1 and 133-2 may be formed at one end of the arrowhead 120 in the direction of the arrow shaft 110 and at one end of the arrowhead 110 in the direction of the arrowhead 120, have. At this time, the magnetic members (e.g., 133-1 and 133-2) may be arranged such that the same poles are opposed to each other, and the repulsive force is generated by a magnetic force. For example, when the S pole of the magnetic member (for example, 133-1) formed on the shaft 110 is disposed to face the direction of the arrowhead 120, the one end of the arrowhead 120 in the direction of the shaft 110 (For example, 133-2) formed on the optical axis of the light guide plate 130 may also be arranged so that the S pole is directed toward the optical axis 110 to generate the repulsive force.

According to an embodiment of the present invention, the buffer 130 may include a predetermined fastening member 132 that fastens the arrow shaft 110 and the arrowhead 120 and includes the buffer space 131 inside . For example, as shown in FIG. 1, the shaft rod 110 and the arrowhead 120 may be formed to be coupled by the coupling member 132 while having the buffer space 131.

When the buffer 130 includes the fastening member 132, the elastic member 133 may be engaged with the arrowhead 120 and / or the shaft 110 as described above, May be positioned between the shaft (110) and the arrowhead (120) in the fastening member (132) (i.e., the buffer space (131)).

According to an embodiment of the present invention, when the fastening member 132 is provided on the buffer 130, the arrowhead 120 moves in the buffer space 131 in the direction of the shaft 110 A slide groove or a slide groove is formed in the longitudinal direction on both sides of the arrowhead 120 so that the arrowhead 120 can move along the inner circumferential surface of the fastening member 132 due to the impact generated by the impact of the arrowhead 120. [ A ball can be formed. An example in which the slide groove or the slide through hole is formed will be described with reference to FIGS. 3 to 4. FIG.

FIG. 3 illustrates an embodiment of a slide groove (or a slide through hole) formed in an arrowhead according to an embodiment of the present invention. FIG. 4 illustrates a slide groove (or a slide through hole) formed in an arrowhead according to an embodiment of the present invention. In different angles.

3, the arrowhead 120 may include a slide groove 121 or a slide through hole 121 formed on both sides in a longitudinal direction so as to be movable along the inner circumferential surface of the fastening member 132 . The slide through hole 121 may be formed in such a manner that the slide groove 121 formed on one side of the arrowhead 120 passes through the arrowhead 120 to the opposite side, have. Whether the grooves (i.e., slide grooves) formed on both sides of the arrow head 120 or the holes (i.e., the slide through holes) passing through the arrow head 120 are slightly different, The same reference numerals are used for the slide groove and the slide through hole in the present specification.

When the fastening member 132 is provided in the buffer 130 as described above, the fastening member 132 may be fastened to the slide groove 121 or the slide through hole 121 at the end of the fastening member 132 A fixing portion 132-1 protruding inwardly may be formed so that the arrowhead 120 does not protrude. That is, the fixing portion 132-1 can be fastened to the slide groove 121 or the slide through hole 121, and can prevent the arrowhead 120 from being detached.

The fixing unit 132-1 may be implemented in various forms. 4A, when the slide groove 121 is formed on both sides of the arrowhead 120, the fixing portion 132-1 may be fastened to the slide groove 121 on both sides And may protrude inward of the fastening member 132.

4B, when the slide through hole 121 is formed in the arrowhead 120, the fixing portion 132-1 may be formed so as to penetrate through the slide through hole, And may extend from one side to the opposite side of the arrowhead 120.

In any case, the fixing part 132-1 is fastened to the arrowhead 120 so that the arrowhead 120 is not separated from the arrow 100, and can be slid in the longitudinal direction from the inside of the arrowhead 120 .

The embodiments of the arrows 120, the cushioning space 131, and / or the various fastening members 132 formed to be able to fasten the shafts 110 may be possible in addition to the embodiments shown in FIGS. Of course it is.

3 to 4, the cross section of the arrowhead 120 is formed in a rectangular shape for the sake of convenience of explanation. However, the arrowhead 120 may have a cylindrical shape with a circular cross section Needless to say, it can be implemented in the form of a non-pointed cone). Also, the shape of the shaft (110) may have a cylindrical shape such as a conventional arrow as well as a shape of a rectangular parallelepiped as shown in FIGS. 3 to 4, It will be easy to deduce.

3 shows an example in which the fastening member 132 is formed so as to surround the outer circumferential surface of the shaft rod 110 and the fastening member 132 protrudes from the outer circumferential surface of the shaft rod 110. However, The fastening member 132 may be formed not to protrude from the outer circumferential surface of the shaft block 110. For example, the shaft portion 110 and the outer circumferential surface of the fastening member 132 are formed to have the same diameter, and the fastening member 132 may be inserted into the shaft portion 110 or fixedly attached in various ways. In this way, the fastening member 132 is formed so as not to protrude from the outer circumferential surface of the shaft rod 110, so that the jaw of the fastening member can be prevented from being caught on the bow protrusion.

According to an embodiment, a groove may be formed in one area in the direction of the arrowhead 120 of the shaft block 110, thereby forming a buffer space. In this case, the fastening member 132 may be integrally formed with the shaft block 110 or may not include the fastening member 132.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

Claims (9)

shaft of an arrow;
arrowhead; And
An arrow formed between the arrowhead and the shaft and formed with a cushioning portion so that the arrowhead can move in the direction of the shaft when the arrowhead is charged to the target.
The apparatus according to claim 1,
And an arrow having a buffer space such that the arrowhead is movable in the direction of the shaft.
The apparatus according to claim 2,
And a repulsive force is applied to the arrowhead when the arrowhead is priced at the target.
The apparatus as claimed in claim 3,
And an elastic member formed to be able to generate the repulsive force by an elastic force during the movement.
The apparatus as claimed in claim 3,
Wherein the magnetic member is provided at one end of the arrowhead in the direction of the arrowhead and at one end of the arrowhead in the direction of the arrowhead so as to generate the repulsive force by a magnetic force.
The arrow according to claim 4, wherein the elastic member and the arrowhead are integrally coupled.
3. The apparatus according to claim 2,
And an engaging member engaging the shaft and the arrowhead and configured to include the buffer space inwardly.
The slide fastener according to claim 7, wherein a slide groove or a slide through hole is formed on both sides of the arrowhead in the longitudinal direction so as to be movable along the inner circumferential surface of the fastening member,
Wherein an end portion of the fastening member is formed with a fastening portion protruding inward to move along the slide groove or the slide through hole so that the arrow head does not come off.
The apparatus according to claim 1,
And is formed of an elastic member.

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