The present invention relates to golf accessories, and more particularly to a golf tee that helps improve hitting accuracy and carry distance.
Generally, to drive off a golf ball, a golf tee stuck into the course ground is used to support the ball for facilitating ball shot and elevate the ball to adapt it to strokes with use of deferent golf clubs and desired ball striking performance.
A conventional golf tee typically has a shaft. The shaft has a lower end tapered to form a pinpoint to be thrusted into the ground and an upper end expanded to form a concave plate for a golf ball to place thereon. However, the conventional concave plate leads to a large contact area between its surface and the ball placed thereon, which in turn undesirably increases friction and even impact that deviate the ball from the desired flight path and reduce the flight distance of the ball during ball striking.
The primary objective of the present invention is to provide a golf tee that helps improve hitting accuracy and carry distance.
In order to achieve the foregoing objective, the present invention provides a golf tee, comprising: a shaft, having a stick-like body extending for a predetermined length; and a top plate, mounted on a top of the shaft, the top plate having an up-facing ball-supporting surface, the shaft inclining toward a direction of stroke and being oblique with respect to the ball-supporting surface, so that an axis of the shaft and a center line of the ball-supporting surface including an inclination angle therebetween, and the top plate further having a plurality of spaced bulges arranged along a rim of the ball-supporting surface.
Preferably, the shaft includes a body section and a pin section arranged in order from the top to a bottom of the shaft, in which the pin section has two outward-jutting, downward-tapered blade portions formed on two opposite sides of the shaft with respect to the direction of stroke. Further, each of the blade portions has a triangular cross-sectional shape, and each of the blade portions has an apex edge so that the two apex edges form two opposite sides of the pin section. Additionally, the pin section has a downward extended terminal expanded to form a downward-tapered pinpoint portion, in which the pinpoint portion has an upper edge contiguous to a lower edge of each of the blade portions so that a shoulder portion is formed between the pinpoint portion and each of the blade portions.
Preferably, the top plate is formed by a base portion connected to a top of the body section and a rubber layer covering a periphery of the base portion, and the bulges are integratedly formed on the rubber layer.
Preferably, the inclination angle is of between 13 and 18 degrees, and each of the bulges has a global or prismatic shape.
Referring to
The shaft 11 has a stick-like body extending for a predetermined length. The shaft 11 includes a body section 111 and a pin section 112 arranged in order from the top to a bottom. The pin section 112 has two outward-jutting, downward-tapered blade portions 12 formed on two opposite sides of the shaft 11 with respect to the direction of stroke. In the present embodiment, each of the blade portions 12 has a triangular cross-sectional shape, and each of the blade portions 12 has an apex edge so that the two apex edges form two opposite sides of the pin section 112. The pin section 112 has a downward extended terminal expanded to form a downward-tapered pinpoint portion 13. The pinpoint portion 13 has an upper edge contiguous to a lower edge of each of the blade portions 12 so that a shoulder portion 14 is formed between the pinpoint portion 13 and each of the blade portions 12. Thereby, the shaft 11 can be easily stuck into the ground with the pinpoint portion 13 and the blade portions 12.
The top plate 21 is mounted on the top of the body section 111 of the shaft 11. The top plate 21 is formed by a base portion 211 connected to the top of the body section 111 and a rubber layer 212 covering the periphery of the base portion 21. In practical manufacturing, the base portion 211 may be integratedly formed on the top of the body section 111 and a soft rubber material is applied onto the base portion 211 through a rubber coating process to from the rubber layer 212. Therein, the top plate 21 is diametrally increased from bottom to top to form a cone-like structure. An up-facing ball-supporting surface 22 is formed at the top of the rubber layer 212 of the top plate 21. The ball-supporting surface 22 is slightly concaved and a plurality of spaced bulges 23 arranged along the rim of the ball-supporting surface 22 on the rubber layer 212. The shaft 11 inclines toward the direction of stroke and is oblique with respect to the ball-supporting surface 22, so that the axis of the shaft 11 and the center line L of the ball-supporting surface 22 include an inclination angle θ. In other words, the shaft 11 is connected to the top plate 21 in a bias pose. Preferably, the inclination angle θ is of between 13 and 18 degrees, and there are six bulges 23 equally spaced and distributed along the rim of the ball-supporting surface 22. Each of the bulges 23 has a global or prismatic shape. The bulges 23 thus work together to hold a golf ball on the ball-supporting surface 22.
With the configuration described previously, to use the disclosed golf tee, as shown in
Furthermore, in the present invention, the top plate 21 uses the bulges 23 formed on the elastic rubber layer 212 at its periphery to support the golf ball 31, and this makes the contact between the golf ball 31 and the golf tee be point contact, instead of surface contact as seen in the prior art. This significantly reduce resistance or interference acting on the stroked ball, and in turn helps enhance hitting accuracy and carry distance. Besides, when a user swings the club in the direction of stroke X, the leaning pose of the shaft 11 allows the momentum generated by the club to be efficiently transferred to the golf ball 31, making the golf ball 31 fly higher and farther in the sky, and roll longer after landing.
Additionally, the elastic rubber layer 212 covering the periphery of the top plate 21 inherits the anti-slip property of rubber, so as to better ensure that the bulges 23 on the rubber layer 212 support the golf ball 31 stably and firmly and prevent the golf ball 31 from accidently falling off. Furthermore, the rubber layer 212 covering the top plate 21, with its elasticity, also serves to damp the shock received by the golf tee during ball striking and fed back to the user's hands, thereby providing smoother and more comfortable ball-striking experience.
Moreover, referring to
Number | Date | Country | Kind |
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111208975 | Aug 2022 | TW | national |