KR100811052B1 - Repairing method for racquet - Google Patents

Abstract

A racquet repairing method is provided to prevent the repaired part from being easily damaged and to prevent the weight of the racquet from increasing considerably due to the repairing. A racquet repairing method includes the steps of: inserting a carbon rod into a hollow portion inside a damaged racquet frame; applying an adhesive resin to the surface of the carbon rod; winding any one selected from a group consisting of a carbon graphite sheet and a carbon fiber sheet on the carbon rod and the frame; a taping step of giving pressure to the winding sheet; performing heat treatment at more than 130deg.C and less than 250deg.C for more than 1 hour and less than 3 hours; a grommet forming step; and a packing step.

Description

Repairing method for racquet {Repairing method for racquet}

1 is a process of inserting a carbon rod into a damaged racket,

2 is a step of wrapping a carbon graphite sheet,

3 is a step of taping on a sheet,

4 is a process for removing taping and forming grommets,

5 is a photograph showing a process of embedding color processing and barking.

The present invention relates to a racket repair method, if cracked damage occurs in the frame of a badminton racket or tennis racket heat treatment using a carbon rod and a carbon fiber sheet for a certain period of time to increase the weight and the vertical balance of the upper and lower sides Solved the problem.

Badminton uses shuttlecocks and rackets made of bird feathers, a sport that can be enjoyed by anyone, regardless of age, skill or skill, and is a modern blend of tennis and speedy aspects of table tennis. It is a sport. Shuttlecocks, unlike tennis balls and ping-pong balls, are made of feathers and are subject to air resistance, which limits their speed. Therefore, even beginners can pass it without much skill, making it more interesting than other racquet movements. First, badminton is a recreation that can be enjoyed by anyone, regardless of age or gender. Second, badminton can be used regardless of wherever you are at school, at work, at home or at an outdoor picnic. It can be enjoyed, no special stadium is required, and it can be a stadium or any place. Third, like tennis and table tennis, the game is played with the net in between, so there is little risk because it is played without physical contact with the other side. Fourth, as a whole body exercise, running, jumping and flexible rotation of the body are required. It helps with the development of the respiratory and circulatory systems. Fifth, it consists of running and striking movements to solve the destructive needs of humans as well as to relieve mental stress. Like this, badminton is an exercise that anyone can do easily, and the movement of the body and the activity of the brain is active, so it is now a lifelong sport as well as an indispensable modern sport. You can also control your fitness to make use of your leisure time and improve your health.

Badminton rackets are usually manufactured using a carbon graphite sheet as a main raw material. Before processing, the graphite sheet is soft and gel-like and rolled into a large roll. Graphite can be woven in a pattern or blended with materials such as boron or titanium. Titanium rackets refer to the addition of titanium to the carbon graphite weaving process. Woven graphite rolls round to form a tube (hollow). In this process, the weight of the product is determined. The graphite roll on which the tube (hollow) is formed is folded in a racket shape.

The racket-shaped graphite is molded into a mold and the shape of the final product is determined in this state. If the mold is of an isometric type, the isometric racket is made, and if it is a standard mold, a standard racket is made. The mold containing graphite is placed in a high temperature and high pressure oven for heat treatment. The heat treatment process is the most technically necessary part and blows the air from the oven into the tube (hollow), and the temperature is usually heat treated by controlling the temperature three to seven times at intervals of about 5 minutes between 135 and 150 ° C.

Through this process, the basic frame of the racket is made. The quality is subsequently determined by post-machining in this state, which is crude and unbalanced.

Base paint on the base frame. Afterwards, a prima coating is applied to the base paint, either polished or matte coated.

Drill a grommet (pin hole) into the frame. It is a mechanical punching operation in which the racket is placed in the mold aligned above and below the racket.

Then stick the grommet on. The hole width of the pin varies depending on the position of the grommet, so it must be fitted properly.

Then wrap the grip tape. The process of winding the basic grip.

Finally hang the gut.

Relatively expensive rackets manufactured in this order are often damaged, such as cracks in the frame due to shock or incorrect storage during the race. The racket has different characteristics depending on whether the head is heavy or not, and the right and left weight balance is very important. A racket with a heavy head is called a top head heavy balance, and an even balance of the overall weight is called an even balance.

However, if the damaged part of the racket is wound with tape, the damaged part is damaged again even with a small impact, and it becomes unusable.In the case where the iron core is inserted to reinforce strength in the center hole of the damaged part of the racket and the outside is wound with tape, the weight of the iron core This causes a problem that the weight balance of the racket is broken. In addition, the damaged portion is likely to be easily broken again by a new impact. In addition, a significant increase in the weight of the racket due to repair is likely to cause partial strain on the exerciser's body. Badminton graphite rackets are usually 100g in total weight, usually 92 ~ 94g, in the case of the iron core repair method increases the weight of 4 ~ 5g, the balance is broken and the body of the athlete will be unreasonable.

U.S. Patent No. 4,855,173 describes a window on a damaged racket frame, filled with resin-coated reinforcing fibers and fillers (short rods made of polyester and fiberglass), wrapped with glass fibers, and then wrapped at 50 ° C for 2 to 3 A method of repairing a racket that cures time is disclosed. However, this method increases the weight due to the use of glass (reinforced) fiber or fiberglass, which has a higher specific gravity than carbon fiber, and because the elongation of glass fiber is very small (2%), the original racket frame material and physical properties There is a problem in that even if the adhesive is not integrated, the repaired part is likely to be damaged again.

Accordingly, the present invention is to solve the above problems of the racket repair, to provide a racket repair method that does not break the weight balance of the racket.

In addition, the present invention is to provide a method of repairing a racket that is not easily damaged to the repair site.

In addition, the present invention is to provide a racket repair method that does not significantly increase the weight due to repair.

In order to achieve the above object, the present inventors came to focus on a method for repairing a racket with a material similar to that of the racket. The racket is usually formed of carbon graphite or high carbon material.

The present invention

Winding one selected from the group consisting of a carbon graphite sheet and a carbon fiber sheet on the damaged racket frame to the carbon rod and the frame;

A taping process for pressurizing the wound sheet;

Heat-treating at least 130 ° C. for one hour;

Grommet forming process;

Barking process; relates to a racket repair method comprising a.

In addition, the present invention

Inserting a carbon rod into the hollow inside the damaged racket frame;

Applying an adhesive resin to the surface of the carbon rod;

Winding one selected from the group consisting of a carbon graphite sheet and a carbon fiber sheet to the carbon rod and the frame;

A taping process for pressurizing the wound sheet;

Heat-treating at least 130 ° C. for one hour;

Grommet forming process;

Barking process; relates to a racket repair method comprising a.

In addition, the present invention is characterized in that the carbon rod is a hollow type or a general type that is not hollow.

In addition, the present invention is characterized in that the step of cutting and removing the frame of the damaged area is added before the step of embedding the carbon rod.

The term “carbon rod” refers to a rod made of carbon fiber reinforced composites such as carbon fiber reinforced metal composite material, carbon fiber reinforced ceramic composite material, and carbon fiber reinforced carbon composite material in addition to carbon materials such as graphite. Say. In addition, in the present invention, the carbon rod was used to encompass a general rod or a hollow rod.

In the present invention, the term "carbon fiber" refers to a fiber containing 92 to 99.99% of carbon obtained by carbonizing the fiber spun with organic raw materials such as organic fibers, resins, and pitches, and then heat-treating at a temperature of 1000 to 3000 ° C. Carbon fiber was used as a main ingredient to encompass fibers containing reinforcing materials such as metal, ceramic, titanium, and boron.

Hereinafter, the racket repair method of the present invention will be described sequentially.

First, a carbon rod of a suitable length, usually about 1.5 cm, is inserted into a hollow in a broken racket. The broken cross section has a space (i.e. hollow) into which the rod can fit, depending on its size. If there is a filler, such as a sponge, in the hollow of the damaged area, remove the filler in that area. At this time, it is also possible to cut the damaged part of the racket and insert a carbon rod. In this case, a hollow carbon rod made in a roll shape may be inserted using a carbon graphite sheet or a carbon fiber sheet instead of a general carbon rod (ie, a rod having a hollow inside). At this time, the outer diameter of the hollow carbon rod may be formed to fit a little smaller than the inner diameter of the racket frame to be repaired or to match the inner diameter.

After inserting the rod, apply an adhesive resin on the outer surface of the carbon rod to increase adhesion with carbon graphite resin or carbon fiber resin. The type of the adhesive resin is not particularly limited, and both natural and synthetic resins may be used, and epoxy resins are preferably used.

When the applied adhesive dries, cover the carbon graphite sheet or carbon fiber sheet on the outer surface of the carbon rod. In order to achieve proper strength and weight, some parts of the damaged frame are covered with two to five layers of carbon graphite sheets or carbon fiber sheets. If the damaged frame is used without removing it, it is also possible to wrap one or two sheets of sheets.

Taping is done with vinyl material such as food wrap to give pressure on the wrapped sheet. The taping method is not particularly limited, but in order to perform heat treatment after winding two to five layers, in an oven at 130 ° C. or more and 250 ° C. or less, preferably 150 ° C. or more and 200 ° C. or less, for 1 hour or more and 3 hours or less, preferably Make about 1 hour 30 minutes. The limiting temperature and time is the range that is most suitable for the strength of the racket frame and its molding.

After molding, peel off the tape on the surface and drill the grommet hole to remove impurities.

When you're done, spray as much as possible with the same color.

When the fill is hard, insert the barking and you're done.

After repairing the racket frame, insert a gut and use a string machine to set the appropriate pounds.

In the above, the method of reinforcing and repairing the carbon rod inside the damaged racket frame has been described.However, if the damaged part is small or the damage is not severe, the carbon graphite sheet or the carbon fiber sheet is wrapped around the outside of the frame without using the carbon rod. After, taping process; Heat-treating at least 130 ° C. for one hour; Grommet forming process; The racket can be repaired through a barking process.

In this case, since the weight due to the carbon rod can be reduced, the weight of the racket can be maintained.

According to the method of the present invention, if the frame of an expensive badminton or tennis racket is damaged, it can be repaired by a simple method.

In addition, according to the method of the present invention, since the weight of 0.2 to 1g is increased, the racket can be repaired so as to balance well without causing a burden on the body of the athlete.

In addition, according to the method of the present invention to repair the most similar or the same material of the racket, and through the process of integrating with the original racket frame through the heat treatment it can significantly reduce the case of damage to the damaged area again. have.

Claims (4)

Winding one selected from the group consisting of carbon graphite sheet and carbon fiber sheet to the damaged racket frame; A taping process for pressurizing the wound sheet; A step of heat treatment at a temperature of 130 ° C. or more and 250 ° C. or less for one hour or more and three hours or less; Grommet forming process; Barking process; racket repair method comprising a. Inserting a carbon rod into the hollow inside the damaged racket frame; Applying an adhesive resin to the surface of the carbon rod; Winding one selected from the group consisting of a carbon graphite sheet and a carbon fiber sheet to the carbon rod and the frame; A taping process for pressurizing the wound sheet; A step of heat treatment at a temperature of 130 ° C. or more and 250 ° C. or less for one hour or more and three hours or less; Grommet forming process; Barking process; racket repair method comprising a. The method of claim 2, The carbon rod is a racket repair method, characterized in that one selected from the group consisting of a hollow and hollow hollow type. The method of claim 2, And a step of cutting and removing the frame of the damaged portion prior to the step of inserting the carbon rod.

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