KR102213255B1 - Shoe heel with cushion function - Google Patents

Abstract

The present invention relates to a heel of a shoe having a cushioning function, and more particularly, it is applied to a heel of a shoe with a narrow ground area, such as a high heel for women, and has abrasion resistance to extend the service life while having a cushioning and absorbing power when walking. It relates to a shoe heel with an improved cushioning function to reduce the impact and fatigue applied to the ankle and knee.

Description

Shoe heel with cushion function

The present invention relates to a heel of a shoe having a cushioning function, and more particularly, it is applied to a heel of a shoe with a narrow ground area, such as a high heel for women, and has abrasion resistance to extend the service life while having a cushioning and absorbing power when walking. It relates to a shoe heel with an improved cushioning function to reduce the impact and fatigue applied to the ankle and knee.

In general, shoes have a heel or a back sole (hereinafter referred to as a'shoe heel') mostly made of a solid material such as wood and resin, and an elastic material such as rubber is attached to the bottom surface for the purpose of preventing slipping.

Therefore, the shock is not absorbed because there is almost no cushion, and when walking, the shock that comes into contact with the ground makes you feel uncomfortable and pressure. In particular, women's high heels have a lot of shocks to the ankles and knees, resulting in fatigue and fracture injury. And problems that cause arthritis.

In order to improve these problems, a number of cushioning devices using coil springs or airbags have been developed, but since the coil springs or airbags have to be embedded in the heels of the shoes, the installation space is insufficient, especially in the heels of shoes such as women's high heels. Because it is complicated and wears quickly and easily, these coil springs or airbag structures are easily exposed to the outside by finishing the bottom plate, leading to serious problems such as damage and defects due to shortening of life.

Republic of Korea Patent Publication No. 10-2010-0025051 (2010.03.09.), heel of shock absorbing shoes Republic of Korea Patent Publication No. 10-2000-0072444 (2000.12.05.), heel height adjustment shock absorbing shoes

The present invention has been created to solve the problems in the prior art as described above, and is applied to the heel of a shoe with a narrow ground area, such as a high heel for women, in particular, and has abrasion resistance to extend the service life while buffering Its main purpose is to provide a shoe heel with an improved cushioning function to reduce the shock and fatigue that is applied to the ankles and knees when walking with absorption power.

The present invention is a means for achieving the above object, the heel body 10, the coupling member 20 that is assembled at the lower end of the heel body 10, and the coupling member 20 is inserted at the bottom of the elastic In the heel of the shoe having a cushioning function comprising an elastic material (30) to maintain; A plurality of insertion grooves 12 are formed at the lower end of the heel main body 10; On the upper surface of the coupling member 20, an insertion protrusion 22 that is press-fitted and fixed to the insertion groove 12 is formed to protrude; An installation groove 24 is formed on the lower surface of the coupling member 20; The elastic material 30 has a disk shape formed of rubber, and provides a shoe heel having a cushioning function, characterized in that a part of the thickness is inserted and fixed in the installation groove 24 of the coupling member 20.

At this time, the elastic material 30 is formed of an elastic material molding resin solution; The elastic molding resin solution is 3.5% by weight of fullerene powder, 2.5% by weight of cocamidopropyl betaine, 8.0% by weight of cellulose diacetate, 6.5% by weight of polytetrafluoroethylene, and C ₁₈ H ₂₄ N _{2 It} is also characterized in that it is composed of 3.5% by weight, 5% by weight of a liquid obtained by dissolving Gutta Perca in chloroform, and the remaining highly elastic emulsion resin.

In addition, to the elastic material molding resin solution, based on 100 parts by weight of the elastic material molding resin solution, 15 parts by weight of oleamide, 10 parts by weight of borosilicate glass, and 5 parts by weight of parinaric acid are further added. There is this.

According to the present invention, it is applied to the heel of a shoe, in particular, a shoe with a narrow ground area such as a high heel for women, and has abrasion resistance to extend the service life and has a cushioning absorbing power to reduce the impact and fatigue that are applied to the ankle and knee during walking. Can be obtained.

1 is an exemplary exploded perspective view showing a shoe heel having a cushioning function according to the present invention.
2 is an exemplary cross-sectional view showing an assembly example of a shoe heel having a cushioning function according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings.

Prior to the description of the present invention, the following specific structure or functional descriptions are exemplified only for the purpose of describing embodiments according to the concept of the present invention, and embodiments according to the concept of the present invention may be implemented in various forms, It should not be construed as being limited to the embodiments described herein.

In addition, since embodiments according to the concept of the present invention can be modified in various ways and have various forms, specific embodiments are illustrated in the drawings and will be described in detail in the present specification. However, this is not intended to limit the embodiments according to the concept of the present invention to a specific type of disclosure, and it should be understood that all modifications, equivalents, and substitutes included in the spirit and scope of the present invention are included.

1 and 2, a shoe heeled heel body 10 having a cushioning function according to the present invention, a coupling member 20 assembled at the lower end of the heel body 10, and the coupling member (20) includes an elastic material 30 that is inserted at the bottom to maintain elasticity.

At this time, a plurality of insertion grooves 12 are formed at the lower end of the heel body 10 to assemble and fix the coupling member 20.

In addition, an insertion protrusion 22 that is inserted and fixed to the insertion groove 12 is protruded on an upper surface of the coupling member 20.

In this case, since the insertion protrusion 22 is inserted and fixed in the insertion groove 12 by a force-fitting method, it is possible to securely assemble and fix without using a separate adhesive, and if necessary, it may be removed and replaced.

In addition, the coupling member 20 is preferably made of hard urethane. This is to ensure that the elastic material 30 can be stably fixed.

In particular, the reason why the coupling member 20 is made of hard urethane is that there is a problem that the life of the heel is shortened because it wears out too quickly when formed of rubber having good elasticity.

In addition, the elastic member 30 is formed of rubber, and an installation groove 24 is formed on the lower surface of the coupling member 20 to be fixed to the lower surface of the coupling member 20, and the elastic member 30 Is formed in a disk shape and fixed in such a way that a part of the thickness is inserted and fixed in the installation groove 24.

In other words, a part of the thickness is exposed and grounded with the floor surface, thereby providing a cushion, that is, an elastic buffer function.

At this time, the elastic material 30 may be fixed in a manner that is press-fitted into the installation groove 24, and in some cases, may be fixed in a manner that is adhesively fixed using an adhesive.

On the other hand, when the elastic material 30 is formed of 100% rubber, it has good elasticity and excellent shock absorption function, but it wears out too quickly, so it is necessary to adjust it to an appropriate level.

To this end, in the present invention, the elastic material 30 is separately formed and molded with the following elastic material molding resin solution to increase short-term wear suppression and enhance waterproofness to prevent shortening of life while preventing contamination easily. It is particularly desirable to maintain cleanliness as well.

The elastic material molding resin solution according to the present invention includes 3.5% by weight of fullerene powder, 2.5% by weight of cocamidopropyl betaine, 8.0% by weight of cellulose diacetate, 6.5% by weight of polytetrafluoroethylene, and C ₁₈ It consists of 3.5% by weight of H ₂₄ N ₂ , 5% by weight of a liquid obtained by dissolving gutta perca in chloroform, and the remaining high elastic emulsion resin.

Here, inde as the third allotrope of carbon is fullerenes (fullerene) For the other allotropes of carbon diamond and graphite carbon atoms are solids that are infinitely array whereas, in the finite molecular molecular formula is C _60.

C ₆₀ is a soccer ball-like molecule composed of 20 hexagons and 12 pentagons that do not fold. Each carbon is located at the vertex of them, and it is the most symmetrical molecule that can exist in the three-dimensional Euclidean space. , It is added to increase abrasion resistance. In other words, it is the best component selected to suppress easy and rapid abrasion with flexible tensile strength and wear resistance to some extent.

At this time, the cocamidopropyl betain is added to prevent the generation of static electricity and to strengthen the water-soluble thickening function.

In addition, the phosphorous acid ester is added to prevent crack resistance, in particular, by contributing to increase the erosion prevention power by the chlorine component.

In addition, the cellulose diacetate is added to improve tensile strength, flexural strength, and impact strength since it has a high glass transition temperature due to the pyranose rings constituting the cellulose.

In addition, the polytetrafluoroethylene is added to enhance cleanliness by enhancing non-adhesive and antifouling properties so that contamination is not easy.

In addition, C ₁₈ H ₂₄ N ₂ (N-(1,3-Dimethylbutyl)-N'-phenyl-p-phenylenediamine) is added to inhibit discoloration of the elastic material and to block cracking and cracking.

In addition, Gutta Perca has a trans-type long chain by polymerizing 1000-5000 isoprene units, and has less elasticity than rubber, so it performs elasticity control functions while maintaining acid and alkali resistance, and strengthening water repellency, especially water resistance. It is added to prevent shortening of life.

Lastly, the high elastic emulsion resin is a base resin used to secure moldability, shape retention and elasticity, and a resin obtained by mixing an acrylic copolymer emulsion resin and a polyurethane emulsion resin in a weight ratio of 1:1 is used.

In particular, in the case of the elastic material 30 molded in this way, at least two rows of slotted channels (not shown) are spaced apart in the thickness direction in order to reinforce the elastic buffering force and tensile force in the vertical direction. It can be further formed.

Then, when the ground is grounded, the load applied through the heel is distributed in multiple directions through the slotted channel, thereby further increasing the buffering force.

In addition, the elastic molding resin contains 15 parts by weight of oleamide to enhance the degree of freedom of molding by enhancing slip properties, and to enhance thermal shock resistance and chemical durability by reducing thermal expansion and contraction. So, 10 parts by weight of borosilicate glass and 5 parts by weight of parinaric acid may be further added to promote the softening of the resin to increase binding properties.

On the other hand, in the present invention, the coupling member 20 improves its own bonding ability and, in addition to the force-fitting type press-fitting method, naturally also maintains the adhesive function, and the fixing stability with the heel body 10 and the attachment of the elastic material 30 It may be configured to further enhance the elastic shock absorbing power through the space formed inside the heel body 10 by maintaining the airtight stability with the lower surface of the heel body 10 while increasing the stability.

To this end, the coupling member 20 is 2.5% by weight of 2-ethylhexyl acrylate, 2.5% by weight of hydrocolloid, 3.5% by weight of polycarboxylic acid sodium salt, 1.5% by weight of glutaryl outlet race, and sodium perborate Is molded with a resin composition consisting of 2.5% by weight and the remainder of the polyurethane resin.

At this time, the 2-ethylhexyl acrylate is an acrylic monomer that has a large adhesive area initially and increases affinity with the adherend, thereby maintaining sticky properties when molded into the bonding member 20 to maintain adhesive strength. Is added to

In addition, the hydrocolloid is added to form a gel to maintain a wet state, thereby securing adhesiveness for a long time to maintain tensile strength, and to partially maintain adhesive strength with 2-ethylhexyl acrylate.

In addition, the polycarboxylic acid sodium salt is a liquid high-performance dispersant and has excellent color tone and viscosity stability.In the present invention, it is added to suppress the generation of pinholes, wrinkles, and streaks due to non-uniform dispersion during molding, and to prevent stretch defects. do.

In addition, the glutaryl concentrate is added to remove toxicity and maintain formation.

In addition, the sodium perborate is added to assist in maintaining the adhesion stability while the composition is completely solidified through chemical reaction to generate oxygen by combining with the moisture contained in the introduced air.

Finally, the polyurethane resin is a base resin.

Tensile strength (kgf/cm2) was tested for each of the elastic material 30 and the coupling member 20 in order to confirm the elastic absorption and abrasion resistance of the heel of the shoe according to the present invention configured as described above.

As a result of the test, the elastic material 30 according to the present invention was confirmed to be 350kgf/cm2, and the coupling member 20 was confirmed to be 120kgf/cm2.

In the case of the elastic material 30, compared to the silicone rubber and natural rubber having a tensile strength of 280kgf/cm2, it was possible to secure a remarkably high tensile strength, so it was confirmed that the elastic absorbing power was very excellent. In the case of the case, it was confirmed that the tensile strength of less than 35kgf/cm2 was obtained when molding hard urethane alone, while the high tensile strength was secured almost four times while maintaining the fixing stability as it was.

In addition, in the case of the elastic material 30, in order to check the abrasion resistance, it was used as an invention material, and for comparison, the abrasion degree was checked and compared through a'RCA abrasion resistance tester' using that molded with 100% of the existing rubber as a comparative material.

At this time, the applied load was calculated as the female average weight of 50 kg, the round trip distance was 60 mm, the test speed was 30 cycles/min, and the test time was 60 minutes.

As a result of the test, the wear of the invention material was less than 1 mm, but the wear of the comparative material was 5 mm or more.

Through this, it is predicted that the heel according to the present invention can sufficiently perform a buffering function, but is not easily worn, thereby achieving a longer life.

10: heel body
20: coupling member
30: elastic material

Claims (3)

A cushioning function including a heel body 10, a coupling member 20 assembled at the lower end of the heel body 10, and an elastic material 30 having the coupling member 20 inserted at the lower end to maintain elasticity In the heel of a shoe having a;
A plurality of insertion grooves 12 are formed at the lower end of the heel main body 10;
On the upper surface of the coupling member 20, an insertion protrusion 22, which is press-fitted and fixed to the insertion groove 12, is formed to protrude;
An installation groove 24 is formed on the lower surface of the coupling member 20;
The elastic material 30 has a disk shape formed of rubber, and a part of the thickness is inserted and fixed in the installation groove 24 of the coupling member 20,
The elastic material 30 is formed of an elastic material molding resin;
The elastic molding resin solution is 3.5% by weight of fullerene powder, 2.5% by weight of cocamidopropyl betaine, 8.0% by weight of cellulose diacetate, 6.5% by weight of polytetrafluoroethylene, and C ₁₈ H ₂₄ N ₂ A shoe heel having a cushioning function, characterized in that consisting of 3.5% by weight, 5% by weight of a liquid obtained by dissolving Gutta Perca in chloroform, and the remaining high elastic emulsion resin.
delete The method according to claim 1,
Cushioning function, characterized in that, to the elastic material molding resin solution, 15 parts by weight of oleamide, 10 parts by weight of borosilicate glass, and 5 parts by weight of parinaric acid are further added to 100 parts by weight of the elastic material molding resin solution. Having a shoe heel.

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