ANTI-SLICE GOLF TEE

Abstract

The present invention relates to an anti-slice golf tee and, more specifically, is a technology relating to an anti-slice golf tee, which supports a golf ball while surrounding a part of the golf ball, thereby suppressing the rotation force of the golf ball during a tee shot to prevent slicing of the golf ball and allowing an impact point to be concentrated on the center portion of the golf ball. That is, the present invention relates to an anti-slice golf tee comprising: a head part shaped to surround one side of a golf ball; a support part connected to the head part and formed to be perpendicularly fixable on the ground; an insertion groove concavely formed at the inner center portion of the head part; and a hitting member separately inserted in the insertion groove so as to allow an impact point to be concentrated on the center portion of the head part, wherein the hitting member has a space formed therein.

Claims

1. An anti-slice golf tee comprising: a head part (100) shaped to surround one side of a golf ball; a support part (200) connected to the head part (100) and formed to be perpendicularly fixable on a ground; an insertion groove (110) concavely formed at an inner center portion of the head part (100); and a hitting member (300) separately inserted in the insertion groove (110) to allow an impact point to be concentrated on a center portion of the head part (100), wherein the hitting member (300) is formed therein with a space (400).

2. The anti-slice golf tee of claim 1, wherein the head part (100) is formed at an outer side thereof with a protruding part (120) at a portion in which the insertion groove (110) is formed.

3. The anti-slice golf tee of claim 1, wherein the hitting member (300) and the head part (100) are formed of materials different from each other, in which the hitting member (300) has the material having a striking strength higher than the material of the head part (100).

4. The anti-slice golf tee of claim 3, wherein the hitting member (300) is formed of a titanium material.

5. The anti-slice golf tee of claim 3, wherein the head part (100) is formed of a graphene material.

Description

DESCRIPTION OF DRAWINGS

[0020] FIG. 1 is a perspective view showing an anti-slice golf tee of the present invention.

[0021] FIG. 2 is an exploded perspective view showing a state in which a hitting member of the present invention is disassembled.

[0022] FIG. 3 is a sectional view showing the anti-slice golf tee of the present invention.

[0023] FIG. 4 is an enlarged sectional view showing a coupling portion of the hitting member of the present invention.

[0024] FIG. 5 is an enlarged sectional view showing an embodiment in which the hitting member of the present invention further protrudes from an inside of a head part.

[0025] FIGS. 6 and 7 show another embodiment in which incision holes are further formed in the head part of the present invention.

BEST MODE

[Mode for Invention]

[0026] Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Further, in the following description of the embodiments of the present invention, the detailed description of the related known function or configuration incorporated herein will be omitted when it possibly makes the subject matter of the present invention unclear unnecessarily.

[0027] The present invention is a technology related to an anti-slice golf tee including as shown in FIG. 1: a head part 100 shaped to surround one side of a golf ball; and a support part 200 connected to the head part and formed to be perpendicularly fixable on a ground.

[0028] As shown in FIGS. 2 and 3, the anti-slice golf tee of the present invention includes: an insertion groove 110 concavely formed at an inner center portion of the head part 100; and a hitting member 300 separately inserted in the insertion groove 110 to allow an impact point to be concentrated on a center portion of the head part 100. In addition, the hitting member 300 is formed therein with a space 400.

[0029] The head part 100 of the present invention has a shape surrounding a part of the golf ball from the outside of the golf ball. Accordingly, when a golf club hits the outside of the head part 100 first during a tee shot process, the hitting force is transferred to the golf ball positioned inside the head part 100, so that the golf ball move forward. In other words, the hitting force of the golf club is indirectly transferred through the head part 100, so that the spin of the golf ball is suppressed.

[0030] However, the spin of the golf ball cannot be completely suppressed only by the configuration of the head part 100. Thus, according to the feature of the present invention the hitting member 300 is coupled to an inner side of the head part 100 to allow the impact point to be concentrated on the center of the golf ball at the moment of hitting, so that the slice can be prevented and the flying distance can be increased.

[0031] The essence of the present invention is that the hitting 300 is configured separately from the head part 100 and coupled to the head part 100, and a space 400 is formed inside the coupled hitting member 300. At the moment when the hitting member 300 hits the golf ball through the space 400, a repulsive force is generated on the hitting member 300, so that a stronger hitting may be applied to the impact point portion. In other words, a strong repulsive force may be generated in the process that a contact portion of the hitting member 300 is inserted into the space 400 and restored during the hitting process, thereby strongly bouncing the golf ball.

[0032] In order to form the space 400 inside the hitting member 300 in the above manner, it is preferable to form a groove in the insertion portion of the hitting member 300 such that the hitting member 300 has a section in a rectangular ‘C’ shape as shown in the drawing.

[0033] An insertion groove 110 is formed inside a center portion of the head part 100 to have a concave shape such that the hitting member 300 of the present invention may be coupled thereto. It is preferable that the insertion groove 110 and the hitting member 300 have a circular shape, but the shape may be changed and applied with other shapes as needed.

[0034] Further, as shown in FIG. 4, the hitting member 300 of the present invention coupled to the head part 100 may have a shape the same as an inner surface of the head part 100 without protruding from the inside of the head part 100. When configured as in the above manner, the golf ball may be stably supported entirely on the inner surface of the head part 100.

[0035] Further, as shown in FIG. 5, when the hitting member 300 is configured to protrude more than the inner surface of the head part 100, the inner surface of the head part 100 does not entirely come into contact with the golf ball when the golf ball is put on the golf tee. However, the hitting effect may be further increased by the hitting member 300 that protrudes more. Because the degree of protrusion of the hitting member 300 is slight, the hitting member may be temporarily pressed in a direction of the insertion groove 110 during the hitting process, so that the entire inner surface of the head part 100 may come into close contact with the golf ball.

[0036] In addition, a protruding part 120 may be formed in an outer side of the head part 100 of the present invention at a portion in which the insertion groove 110 is formed so as to allow the protrusion part 120 to come into contact first when hit by the golf club, so that the transfer of the force may be concentrated onto the hitting member 300 positioned in the center even when a hitting position of the golf club is inaccurate.

[0037] According to the golf tee of the present invention as shown in FIG. 3 the hitting member 300 is positioned at a lower portion by an angle ‘a’ other than a middle of the golf ball to increase a flying distance of a tee shot. The angle ‘a’ may be preferably applied as 10°.

[0038] The hitting member 300 of the present invention is configured separately from the head part 100 and may be preferably formed of different materials compared to the same material. At this point, a material having a hitting strength higher than that of the material of the head part 100 is applied to the hitting member 300, so that the force hit by the hitting member 300 may be concentrated.

[0039] It is preferable that the hitting member 300 is formed of a titanium material. When the hitting member 300 is formed of a metal alloy containing titanium, the flying distance may be effectively increased through the high coefficient of restitution of titanium itself in addition to the rigidity.

[0040] In addition, the head part 100 may be formed of synthetic resin generally used for manufacturing golf tees, however, the durability may be further increased when the head part 100 is formed of a graphene material. Graphene is a material called the new material of dreams, and has excellent flexibility, elasticity, and strength compared to other materials, so it may be suitable for a portion onto which strong hits are repeatedly performed.

[0041] In addition, it may also be a preferred embodiment that the head part 100 to have a significantly transparent shape, so that a portion covered by the head part 100 may be easily seen by the user with the naked eye.

[0042] In addition, FIGS. 6 and 7 show another embodiment of the present invention. When a plurality of incision holes 130 are formed at equal intervals at positions spaced apart from the insertion groove 110 of the head part 100 at a predetermined interval, the force may be more concentrated onto the central portion in which the insertion groove 110 is formed. In other words, since the incision holes 130 functions to prevent the force hitting on the center of the head part 100 through the golf club from being distributed to the outside of the incision holes 130, the force may be concentrated into the incision holes 130.

[0043] In the above, the present invention has been described with reference to the above embodiments, but it will be apparent that various modifications are available within the scope of the technical idea of the present invention.