KR20230047972A - Handle for exercise equipment with personalized grip shape - Google Patents

Abstract

The present invention relates to a handle for exercise equipment with a personalized grip shape, which improves stability, prevents slipping, and helps correct posture by manufacturing grips for exercise equipment with handles using recycled EVA resin to suit individual characteristics. By pressing the outer peripheral surface of a stick pipe (10) made of either EVA resin or silicone resin, which is easily thermoplastic, a grip shape (20) identical or similar to a user's finger is expressed in a number of places. At the center of the grip shape (20), a reference point display portion (30) is formed, which can confirm the exact position of the finger and simultaneously correct the position of the finger.

Description

Handle for exercise equipment with personalized grip shape {Handle for exercise equipment with personalized grip shape}

The present invention relates to a handle for exercise equipment with a grip shape tailored to each individual, and more particularly, by using recycled EVA resin to make a grip for exercise equipment with a handle suitable for individual characteristics, thereby improving stability while preventing slipping and correcting posture. It relates to a handle for exercise equipment having a personalized grip shape that helps to do this.

In general, sports events such as golf, tennis, badminton, baseball, field hockey, and ice hockey use separate sports equipment (clubs, rackets, and clubs), and it is recognized that the importance of grips is very great.

For example, a golf club has a grip, which is a handle part held by a golfer's hand, at the upper end of a golf club, a shaft that forms a body at the lower end of the grip, and a head having a hitting surface for hitting a golf ball at the lower end of the shaft. (Head) consists of.

Golf clubs with this structure are classified into wood, iron, and putter according to their shape and purpose of use, and these are also classified into several types according to the position, distance, and angle to hit. .

Therefore, since the golf club must maintain a consistent and accurate swing posture when hitting the golf ball on the field or green to fly the golf ball to the desired point, users must know how to hold the grip accurately and correct swing posture from the beginning. It can be said that learning is the most important thing.

The grip of a general golf club is made of rubber and has a number of inclined grooves on its outer surface to simply prevent slipping. It is very difficult for beginner golfers to learn how to accurately grip the grip in a short period of time without expert guidance. If you swing without gripping the grip correctly, your hands will slip or it will be difficult to hit accurately.

This is not limited to golf, but as the distribution of power varies depending on the user's grip strength, body shape, and muscle strength, such as baseball bats, tennis rackets, and badminton rackets, grips are inserted into the handles or grip tape is wrapped to prevent slipping. and used to seek stability.

However, it is difficult to satisfy the user's necessary and sufficient conditions because the grip or grip tape as described above is uniform in that the user uses the product provided by the manufacturer rather than the user's customized product. In addition, there was considerable difficulty in posture correction, such as swinging in an incorrect posture as these items were continuously used.

1. Patent Application No. 10-2010-0060866 (Title of Invention: Golf Club Grip and Manufacturing Method) 2. Patent Application No. 10-2016-0041855 (Title of Invention: Manufacturing method of golf club grip using rubber latex) 3. Patent Application No. 10-2016-0076872 (Title of Invention: Golf Grip and Manufacturing Method) 4. Patent Application No. 10-2021-0040179 (Title of Invention: Golf Grip for Preventing Slipping and Twisting and Manufacturing Method) 5. Utility model registration No. 0-0424963 (name of the design: grip tape with through hole and concave-convex part)

Accordingly, the present invention has been devised to recognize the above problems and to propose a solution thereof, and provides a grip that is perfect for an individual by utilizing a 3D printer with recycled EVA resin as the main raw material, but storing the information of the grip provided to the individual Its purpose is to provide a handle for exercise equipment with a personalized grip shape that allows users to perform stability, anti-slipping and grip correction functions by making it easy to customize at any time when the customer requests it.

In order to achieve the above object, the handle P for exercise equipment having a personalized grip shape according to the present invention is an outer circumferential surface of the stick pipe 10 made of any one selected from easily thermoplastic EVA resin or silicone resin as a raw material. By applying pressure to the user's finger, the same or similar grip shape 20 is expressed in a plurality of places, and at the center of the grip shape 20, a reference point display unit 30 capable of correcting the position of the finger while confirming the exact position of the finger Characterized in that each is formed.

At this time, the reference point display unit 30 is characterized in that it is composed of any one shape selected from grooves or protrusions formed by embossed angles.

In addition, the pressure applied to the outer circumferential surface of the stick pipe 10 outputs a finger shape using a 3D printer based on data scanned with a 3D scanner of the shape of the user's left and right fingers, thereby enabling easy joint movement Robot It is characterized in that the pressurization is performed at the moment the robot finger grips after the user's left and right finger pressures are stored in a computer after the user's left and right finger pressures are measured and fixed.

The handle for exercise equipment with the above characteristics and a personalized grip shape can provide a grip that fits the individual by using a 3D printer. It is easy to use and can create economic benefits, as well as stability and anti-slip functions, which are the original functions of the grip, as well as correcting the user's grip, so there is an effect in which injury prevention and skill improvement can be expected according to the correct posture.

1 is a front view showing a preferred embodiment of the present invention
2 and 3 are front views showing another embodiment of the present invention

Hereinafter, a handle P for exercise equipment having a personalized grip shape provided by the present invention according to the accompanying drawings and preferred embodiments will be described as follows.

First, as shown in FIG. 1, the handle (P) for exercise equipment having a personalized grip shape provided by the present invention is a stick pipe (10) made of any one selected from easily thermoplastic EVA resin or silicone resin ) By applying pressure to the outer circumferential surface of the user's finger, the same or similar grip shape 20 is expressed in a plurality of places, but at the center of the grip shape 20, a reference point display unit capable of correcting the location of the finger while confirming the exact location of the finger It can be said that the core of the present invention is that each of (30) is formed.

At this time, the reference point display unit 30 may be configured in any one shape selected from grooves or protrusions due to negative and embossed angles, and the location of the reference point display unit 30 can be recognized through contact with the surface of the finger, and at this moment, the user's finger It is possible to make corrections by moving the position of the swing little by little, and to receive the best swing by changing the position arbitrarily according to the condition of the day or environmental conditions.

In addition, the pressure applied to the outer circumferential surface of the stick pipe 10 outputs a finger shape using a 3D printer based on data scanned with a 3D scanner of the shape of the user's left and right fingers, thereby enabling easy joint movement Robot After fixing it on the finger, the data value measured by the pressure of the user's left and right fingers is stored in the computer, and then pressurization is performed the moment the robot finger grips it.

In addition, after the robot finger grasps the stick pipe 10, pressurization is performed and heat is transferred at the same time, and the grip shape 20 is formed, if it is fixed while maintaining the gripped state, the individual desired to be obtained A handle having a customized grip shape may be provided.

The handle manufactured as described above can be grafted to various sports events such as golf, badminton, and tennis, and the user's individual birth year, height, weight, arm length, left and right hand grip type, and body information including the user's left hand , After scanning the shape of the right hand with a 3D scanner, the data is stored in a computer, and the pressure of the user's left and right fingers is measured and the data values are stored in the computer. A finger shape can be output with a 3D printer using any one selected from EVA resin or silicone resin, which is easily thermoplastic, as a raw material.

In addition, after sharing the hand pressure value with a robot finger equipped with an artificial intelligence function and inserting the finger shape printed by a 3D printer into the robot finger, one selected from EVA resin or silicone resin, which is easy to thermoplastic, is used as a raw material. If molding is performed by applying heat while holding the manufactured stick pipe, the grip is molded based on the hand pressure value, and the robot finger must also be able to move the joints.

This personal information can be stored in a computer and immediately provided whenever there is a user's request, which can play a role in increasing added value.

Although the embodiments of the present invention have been described, those skilled in the art can improve the present invention by adding, changing, deleting, or adding components within the scope not departing from the spirit of the present invention described in the claims. Various modifications and changes will be possible, and this will also be said to be included within the scope of the present invention.

P: handle for exercise equipment
10: stick pipe 20: grip shape
30: reference point display unit

Claims (3)

Pressurizes the outer circumferential surface of the stick pipe 10 made of any one of EVA resin or silicone resin, which is easy to thermoplastic, as a raw material, so that a grip shape 20 identical or similar to that of the user's finger is expressed in a plurality of places, but the grip shape ( 20) at the center of the handle for exercise equipment formed with a personalized grip shape, characterized in that the reference point display unit 30 capable of correcting the position of the finger at the same time as accurately confirming the position is formed.
According to claim 1,
The reference point display unit 30 is a handle for exercise equipment having a personalized grip shape, characterized in that composed of any one shape selected from among grooves and protrusions by Yin and Yang angles.
According to claim 1,
The pressure applied to the outer circumferential surface of the stick pipe 10 outputs a finger shape using a 3D printer based on the data scanned with a 3D scanner of the shape of the user's left and right fingers, so that the robot finger can easily move the joint. A handle for exercise equipment with a personalized grip shape, characterized in that the data values measured by the user's left and right finger pressures are stored in a computer after fitting and fixation, and then pressurized at the moment the robot fingers grip it.

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