KR20220106365A - Non-slip sports socks - Google Patents

Abstract

To improve a problem of conventional sports socks having a non-slip function, non-slip sports socks of the present invention form an inner non-slip unit for preventing slipping with a wet urethane sheet having a certain shape on an inner surface of a bottom of the sports socks; and form an outer non-slip unit with a foamed polyurethane sheet on an outer surface of the bottom of the sports socks. When a wearer sweats on soles of feet due to long-term exercise by a relative difference of coefficients of kinetic friction of the inner non-slip unit and the outer non-slip unit, the present invention prevents slip on a skin surface of the soles of the feet. By forming the outer non-slip unit of the sports socks with the foamed polyurethane sheet, the present invention minimizes a thickness of the outer non-slip unit and increases an impact relief effect caused by exercise. By uniformly dispersing body pressure throughout the soles of the feet, the present invention prevents pressure pain in a specific part of the soles of the feet. To form the outer non-slip unit of the sports socks with foamed polyurethane, by adhering various patterns, designs, and characters to the bottom of the socks in a thermal transfer method and providing aesthetic elements to an appearance of the socks, high-value sports socks can be easily manufactured.

Description

Non-slip sports socks {Non-slip sports socks}

The present invention relates to sports socks having a large amount of activity for a long time, such as soccer, baseball, basketball, marathon, mountain climbing, etc., and by attaching non-slip members to the inside and outside of the sports socks, respectively, to prevent slipping of the feet during sports activities and to reduce the impact It relates to an anti-slip sports sock that improves athletic performance by relieving and performs a function of preventing foot injury.

The foot is a part of the body that supports the body weight and maintains the balance of the human body during various exercises, where numerous muscles and nerves are concentrated. Even if a minor injury occurs to the foot, even if the overall physical ability is sufficient, it is impossible to walk or run and exercise. Therefore, the foot must be managed very sensitively, and the sports socks worn on the foot must be designed according to the characteristics of the foot. do.

Fiber materials applied to socks mainly use cotton that is easy to absorb sweat and use a mixture of synthetic fiber materials such as polyester and nylon in consideration of strength and elasticity. In the case of a sports activity having a sock, slippage may occur between the sole and the sock, or slippage may occur between the sports sock and the insole of the shoe.

In addition, when you walk, the force and weight of your foot every time you step on your foot causes a slip between the foot and the sports sock, and the slip occurs between the sports sock and the shoe, and an impact is applied to the toe, and this shock is continuously generated while walking. will do

In particular, in sports such as marathon, mountaineering, and trail running, where the same motion is repeated for a long time, friction between the sole and the socks causes blisters or severe skin peeling, which forces you to give up exercise. It is fatal because it takes a lot of time to recover.

Such slippage is caused by insufficient gripping force due to low friction between the skin of the sole and the sock. Sports socks that lack grip like this can cause ankle and knee injuries.

In order to prevent injuries due to the slip phenomenon as described above and to improve athletic performance, the present applicant has applied for "Sports Non-Slip Socks (Patent Document 1, Korean Patent Publication No. 10-1686547)", "Non-slip feet equipped with a cushioning spacer" Clothing (Patent Document 2, Korean Patent Publication No. 10-2002633)" has applied for and registered a number of patents.

However, in the case of coating the non-slip material at the same point inside and outside the socks as in the above patent document, when the non-slip material coated part is worn for a long time, the pressure is concentrated at the point where the sole and the non-slip material contact, and by this pressure, the wearer's Fatigue accumulates and, in severe cases, blisters and wounds occur.

In the case of Patent Document 2, the position of the non-slip coated surface of the inner surface of the sock bottom and the no-slip coated surface of the outer surface of the sock is configured in a zigzag pattern to improve the problem of coating the non-slip material at the same point on the inside and outside of the socks. Even when the pressure applied by the weight is concentrated on the non-slip coated surface of the inner side and the non-slip coated surface of the outer surface, the surface tissue of the sports socks easily collapses, and the problem of the non-slip, where the load is concentrated, is separated or dropped from the socks increases. became

Also, the friction between the inner surface of the sock and the skin surface of the sole and the friction force between the outer surface of the sock and the insole surface of the shoe are not large. As this relatively large size, slip occurs between the skin surface of the sole and the inner surface of the socks, resulting in blisters or wounds on the skin of the soles.

As described above, the conventional non-slip socks have a thick non-slip made of wet polyurethane material, and the frictional force difference due to the non-slip inside and outside of the socks is generated during use by the wearer. In order to do this, the thickness of the non-slip is remarkably reduced compared to the existing ones by applying a thermal transfer type foamed polyurethane sheet that has not been previously applied to the outer surface of the socks. Even when the non-slip inside the socks and the non-slip outside are overlapped at the same location, it reduces the tenderness of the soles according to the thickness of the non-slips, and the relative coefficient of kinetic friction between the inside of the socks and the skin surface of the soles is higher than the outside, even when a large amount of sweat is discharged. It is intended to develop an anti-slip sports sock that prevents slipping of the skin surface of the sole by keeping it high.

Korean Registration Publication No. 10-1686547 (Notice on Dec. 14, 2016) Korean Registration Publication No. 10-2002633 (Notice on July 22, 2019)

The anti-slip sports socks of the present invention are to improve the problems of the conventional sports socks having an anti-slip function, and a wet urethane sheet having a certain shape on the inner surface of the sports socks bottom forms an inner non-slip part for anti-slip, and sports socks By forming an outer non-slip part with a foamed polyurethane sheet on the outer surface of the floor, the relative difference between the coefficient of kinetic friction between the inner non-slip part and the outer non-slip part prevents slipping of the skin surface of the sole even when the wearer sweats on the soles of the feet due to prolonged exercise. do.

In addition, by forming the material of the outer non-slip part with a foamed polyurethane sheet, the impact mitigation effect during activity of the wearer is increased, and the thickness of the outer non-slip part is minimized, and the outer non-slip part is configured in a free form.

In order to solve the above problems, the non-slip sports socks of the present invention have an inner non-slip part 20 in contact with the user's feet on the inner surface of the bottom of the socks in the non-slip sports socks 10 surrounding the wearer's feet. The outer non-slip portion 30 is formed on the outer surface of the sock bottom to contact the insole of the user's shoe, and the inner non-slip portion 20 is formed of a wet polyurethane sheet and the outer non-slip portion 30 It is characterized in that it is formed of a foamed polyurethane sheet.

The coefficient of kinetic friction between the inner non-slip part 20 and the outer non-slip part 30 is 1:0.7 to 0.8, the thickness of the inner non-slip part is 300-500 µm, and the thickness of the outer non-slip part is 50-100 µm do it with

In addition, the foamed urethane sheet of the outer non-slip part is characterized in that it is prepared in a ratio of 10 to 20% by weight of the foaming agent and 80 to 90% by weight of the thermosetting polyurethane resin.

On the other hand, the foaming agent is 80 to 90% by weight of methyl methacrylate-acrylonitrile copolymer, 5 to 15% by weight of isobutane, 0.1 to 5% by weight of vinylidene chloride, and 0.1 to 5% by weight of acrylonitrile do it with

The polyurethane foam sheet formed as described above is characterized in that it is transferred and simultaneously foamed by pressing and heating the outer surface of the sports socks for 5 to 10 sec at a temperature of 140 to 160 ° C.

A wet urethane sheet is applied to the inner non-slip part of the sports socks, and a foamed polyurethane sheet is applied to the outer non-slip part to increase the frictional force difference between the inner and outer sides, so that even when the wearer sweats a lot, the sole and inner side of the socks Because the friction force of the skin is large, it is possible to prevent slipping and blisters or wounds on the skin.

By forming the outer non-slip part of the sports socks with a foamed polyurethane sheet, the thickness of the outer non-slip part is minimized, and the impact mitigation effect due to exercise is increased, and body pressure is uniformly distributed throughout the sole, thereby preventing tenderness in a specific part of the sole. .

In order to form the outer non-slip part of the sports socks with foamed polyurethane, various patterns, patterns, and characters are attached to the bottom of the socks in a heat transfer method to give aesthetic elements to the appearance of the socks, thereby making it easy to manufacture high value-added sports socks.

1 is a side cross-sectional view of a conventional non-slip attached sock.
Figure 2 is a cross-sectional view of the bottom of the conventional non-slip attached socks.
3 is a cross-sectional view of the bottom of the anti-slip sports sock according to the present invention.
4 is a photograph of thermally transferred polyurethane foam sheet on the outer surface of a knitted fabric similar to an anti-slip sports sock according to the present invention.

Hereinafter, the manufacturing method of the Korean paper tape of the present invention will be described in more detail with reference to examples, and the scope of the present invention is not limited to the following examples.

In the present invention, in the non-slip sports sock 10, an inner non-slip part 20 in contact with the user's foot is formed on the inner surface of the sock bottom, and the outer side contacting the insole of the user's shoe on the outer surface of the sock bottom A non-slip portion 30 is formed, the inner non-slip portion 20 is formed of a wet urethane sheet, and the outer non-slip portion 30 is formed of a foamed polyurethane sheet. will be.

As can be seen in FIGS. 1 and 2 , in the conventional non-slip sock, a non-slip part 20 is formed on the inside of the bottom of the sock 10, and a separate non-slip part 30 is formed on the outside of the bottom of the sock at the same time. . The non-slip part is formed by cutting a wet polyurethane sheet into a shape of a certain pattern and attaching it to the knitted fabric of socks by thermocompression using an adhesive or hot melt (21 or 31).

The non-slip parts 20 and 30 attached in this way are formed using a wet polyurethane sheet and have a thickness of 300 to 500 μm in order to perform a non-slip and shock absorption function. If the thickness of the non-slip attached to the inside and outside of the socks is included along with the thickness of the socks, the overall thickness becomes quite thick. The non-slip contact surface may be blistered or scratched.

In order to prevent this, as shown in FIG. 2 , a method of positioning the sock inner non-slip part 20 and the sock outer non-slip part 30 so as not to overlap each other based on the lateral cross-section of the sock has been proposed. However, when the non-slip portion is prevented from overlapping in this way, the non-slip surface is deformed while being pressed up and down based on the cross-section of the sock by the pressure of the body weight.

In addition, when vigorous exercise is performed while worn for a long time, a large amount of sweat is discharged from the user's feet on the inner side of the socks, and this moisture is not completely discharged to the outside of the socks and remains on the surface of the non-slip, compared to the outside of the socks. As the kinetic friction force inside the sock was relatively decreased, a problem occurred in that the slip on the skin surface of the sole was increased.

In the present invention, the non-slip part 20 inside the socks was formed by thermally bonding an existing wet polyurethane sheet with hot melt, and the total thickness thereof was formed in the range of 300 to 500 μm. When the thickness of the inner non-slip part 20 exceeds 500 μm, tenderness increases at the contact surface of the sole skin and blisters may occur, and when it is less than 300 μm, the non-slip function is reduced.

In the present invention, the non-slip part 30 on the outside of the sports socks is formed in a size of 50 to 100 μm using a foamed polyurethane sheet, and is formed in the form of free patterns, patterns, characters, and images on the outer surface of the sports socks bottom by heat transfer method. do. The outer non-slip portion 30 formed at this time is not limited to the position of the inner non-slip portion, and may be formed at a position overlapping the inner non-slip portion. Therefore, when the thickness of the outer non-slip part 30 exceeds 100 µm, the overall thickness of the bottom of the sports socks may be thickened to 600 µm or more, so that the thickness of the outer non-slip part 30 is formed to be 100 µm or less. On the other hand, it is good if the outer non-slip part 30 can exhibit high kinetic friction while minimizing the thickness, but when the thickness of the outer non-slip is 50 μm or less, it is difficult to firmly attach to the sock tissue and has a non-slip and shock absorption function this is lowered

The ratio of the coefficient of kinetic friction of the inner non-slip portion and the outer non-slip portion is 1:0.7 to 0.8. The coefficient of kinetic friction of the inner non-slip part is formed to be 1.10 to 1.20 in a normal state, and the coefficient of kinetic friction of the outer non-slip part is formed to be in the range of 0.77 to 0.96. Giving the difference in the coefficient of kinetic friction is that when the wearer performs vigorous exercise while wearing sports socks for a long time, the sweat discharged from the skin of the feet remains without being completely discharged to the outside of the socks, and the inner non-slip part 20 and It reduces the coefficient of kinetic friction of the skin surface of the wearer's sole. Even when the coefficient of kinetic friction of the inner non-slip part 20 is reduced by the moisture of sweat in this way, the coefficient of kinetic friction of the inner non-slip part 20 is 0.90 or more, so it is larger than the coefficient of kinetic friction of the outer non-slip part 30, so the sole slip phenomenon to be able to suppress it.

The outer non-slip part 30 is made of a foamed polyurethane sheet formed of a foamed polyurethane sheet in a ratio of 10 to 20% by weight of a foaming agent and 80 to 90% by weight of a thermoplastic polyurethane resin. If the content of the foaming agent exceeds 20% by weight, the density may decrease and the elasticity may be excellent, but the foamed polyurethane sheet is easily peeled off on the surface of the sports socks and the kinetic friction coefficient is lowered to 0.75 or less, so that the non-slip function cannot be performed. . On the other hand, when the content of the foaming agent is lowered to less than 10% by weight, the foaming rate is low and the impact absorbing function is deteriorated.

The foaming agent is physically uniformly dispersed together with the thermoplastic polyurethane resin in a solvent together with a curing agent to prepare a coating solution, and the coating solution is applied on a substrate and dried to form a polyurethane foam layer. An adhesive layer and backing paper are formed on the bottom of this foamed polyurethane layer to make a foamed polyurethane sheet for heat transfer. At this time, the foamed polyurethane layer can be printed on the substrate by inkjet printing, so a certain pattern, various patterns, characters, etc. It can be manufactured in any desired shape.

The foaming agent is in the form of a capsule consisting of 80 to 90% by weight of methyl methacrylate-acrylonitrile copolymer, 5 to 15% by weight of isobutane, 0.1 to 5% by weight of vinylidene chloride, and 0.1 to 5% by weight of acrylonitrile . The isobutane content of the foaming agent is directly related to the foaming efficiency, and the higher the content of isobutane, the higher the foaming rate. designed to contain.

The foamed polyurethane sheet of the outer non-slip part 30 is transferred to the outer surface of the sports socks by a thermal transfer method. As shown in FIG. 4 , the outer surface of the thermally transferred sports socks is bonded to the outer non-slip portion with the thermal transfer method.

10: sports socks 20: inner non-slip part
21: hot melt layer 30: outer non-slip part
31: hot melt layer 40: outer slip portion

Claims (5)

In the anti-slip sports socks,
An inner non-slip part in contact with the user's foot is formed on the inner surface of the bottom of the sock,
An outer non-slip part that contacts the insole of the user's shoe is formed on the outer surface of the sock bottom,
The inner non-slip portion is formed of a wet urethane sheet, and the outer non-slip portion is a non-slip sports socks, characterized in that formed of a foamed polyurethane sheet. According to claim 1,
The ratio of the coefficient of kinetic friction of the inner non-slip part and the outer non-slip part is 1: 0.7 to 0.8, the thickness of the inner non-slip part is 300-500 µm, and the thickness of the outer non-slip part is 50-100 µm Anti-slip sports socks. The method of claim 1,
The non-slip foamed polyurethane sheet of the outer non-slip part is anti-slip sports socks, characterized in that it is prepared in a ratio of 10 to 20% by weight of a foaming agent and 80 to 90% by weight of a thermoplastic polyurethane resin. 4. The method of claim 3,
The blowing agent is methyl methacrylate-acrylonitrile copolymer 80 to 90% by weight, isobutane 5 to 15% by weight, vinylidene chloride 0.1 to 5% by weight and acrylonitrile 0.1 to 5% by weight characterized in that it is composed of Anti-slip sports socks. According to claim 1,
The foamed polyurethane sheet is non-slip sports socks, characterized in that the foam is heated by compression heating on the outer surface of the sports socks for 5 to 10 seconds at a temperature of 140 ~ 160 ℃.

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