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Method capable of reducing golf flight speed and golf structure

A golf ball and flying speed technology, applied to ball games, sports accessories, etc., can solve the problems of being unable to practice hard hitting, flying everywhere, high risk of injury, etc., to achieve light weight, improved flight resistance, and easy to pick up ball easy effect

Inactive Publication Date: 2009-03-25
付文军
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] Regular golf balls are generally made of synthetic rubber inside and hard plastic with pits covering the outer layer. The weight is about 45 grams, and the diameter is generally 42.6-42.8 mm. It can fly to a distance of nearly 300 meters. This characteristic determines that it is impossible to practice hard hitting in a small space such as a living room with a regular golf ball.
In order to solve this problem, hollow lightweight plastic golf balls and light and soft PU foam golf balls have become a choice for indoor practice. However, due to the low resistance characteristics of the above-mentioned golf balls, the ball speed after hitting is still very fast, the rebound force is relatively large after hitting an obstacle, and there is still a high risk of injury. It is used as a practice chip, and due to the rolling characteristics of the ball, it will fly everywhere after rebounding. It is difficult to find it in such a complicated environment as the living room.
In summary, the single method of reducing the quality of golf balls cannot realize the desire to practice vigorously hitting golf balls in small spaces such as living rooms.

Method used

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  • Method capable of reducing golf flight speed and golf structure
  • Method capable of reducing golf flight speed and golf structure
  • Method capable of reducing golf flight speed and golf structure

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specific Embodiment approach 2

[0026] Such as figure 2 As shown, the ball structure that reduces the flying speed of the golf ball in the present invention includes foamed PU3, cork 2, PU skin 1 and speed reducing device 5. Adopt the material similar to cork 2 in density, and foaming PU3 can be any shape to match the goal that realizes golf ball 9 mass reduction, promptly can be that only the middle layer of hitting surface hemisphere adopts the cork 2 of thickness 8 millimeters, other hemisphere All adopt foaming PU3 and extend to fill the inner side of the cork 2 of the hitting surface hemisphere and glue it with its inner surface. Speed ​​reduction device 5 is made of feather 14, feather root 8, belay rope 10 and spherical head guard 11, and the quantity, length and the angle with central axis of feather 14 all can be adjusted appropriately according to the actual needs of flying speed, adopt 24 lengths in this example The feathers of 40 mm are bundled and arranged in a radial ring at 25° with the cent...

specific Embodiment approach 3

[0027] Such as image 3 As shown: the ball structure for reducing the flying speed of golf balls in the present invention includes a deceleration device 5 and a PU foamed sphere 9. The deceleration device 5 is a radial ring belt that is alternately connected with 12 skeletons 6 and fan surfaces 7 and forms a 20° angle with the central axis. The skeleton 6 of the deceleration device 5 is 38 mm long, and its large-diameter end is flush with the upper end of the 30-mm-diameter sector 7. The 8-mm-long part of the bottom end of the skeleton 6 is not connected to it, and the end of the skeleton 6 is connected to the PU foamed sphere. 9 moldings are integrated, and the outer surface of PU foamed spheroid 9 has the dimple 12 of regular golf ball, and its diameter is controlled at 42.6-42.8 millimeters.

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Abstract

The invention provides a method for reducing the flying speed of a golf ball as well as a spherical structure, relating to the golf sports field. The method comprises: a decelerating device which is symmetrical in mass and distance along a central axis is arranged on a golf ball body, the device is an actinoid girdle and forms an angle of less than 90 degrees with the central axis, besides the flying speed of the golf ball is greatly reduced, the aerodynamics features for stabilizing flying can also be maintained, thereby making a heavy hit on the golf ball during simulative practice in a narrow space such as in a room possible, and solving the problem that the current golf ball practice depends heavily on course size, as well as being very useful for popularizing and developing the golf sports.

Description

Technical field: [0001] The invention relates to the field of golf, in particular to a method capable of reducing the flying speed of a golf ball and a golf ball structure capable of practicing vigorous hitting in indoor actual combat. Background technique: [0002] Regular golf balls are generally made of synthetic rubber inside and hard plastic with pits covering the outer layer. The weight is about 45 grams, and the diameter is generally 42.6-42.8 mm. It can fly to a distance of nearly 300 meters. This characteristic determines that it is impossible to practice vigorously hitting the ball in a small space such as a living room with a regular golf ball. In order to solve this problem, hollow lightweight plastic golf balls and light and soft PU foam golf balls have become a choice for indoor practice. However, due to the low resistance characteristics of the above-mentioned golf balls, the ball speed after hitting is still very fast, the rebound force is relatively large a...

Claims

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Application Information

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IPC IPC(8): A63B43/00A63B69/00
Inventor 付文军
Owner 付文军
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