KR100904042B1 - Cushion device and shoe having the devise - Google Patents

Abstract

A cushion element and a shoe having the same are provided, which use the elastic body with excellent abrasion resistance, compression, and restoring force. A cushion element of a shoe comprises: a first member(10) consisting of the elastic body in which the groove(11) of the predetermined depth is formed and which relieves the impact of the moment in which the sole of the foot comes in contact with the surface; a second member(12) which has the coefficient of elasticity smaller than the coefficient of elasticity of the first member and consists of the elastic body; and a third member(13) consisting of the sheet of the abrasion resistant material.

Description

Cushion device and shoe having the devise}

TECHNICAL FIELD The present invention relates to a cushioning element and a shoe having the element, and more particularly, to a shoe configured to reduce the fatigue of walking by softening the wearing feeling of the wearer and improving the repulsive force of the shoe.

Conventional shoes use various cushioning materials and structures that act as a cushion to reduce the impact of body loads when the bottom of the foot contacts the ground during walking to protect the feet and joints.

Conventional shoes having a simple structure may include only the upper and the sole (outsole), but generally, as shown in FIG. 1, a cushion layer 2 is provided between the sole and the sole 3 combined with the upper 1 of the shoe. I make it by placing it.

As the cushion material, foamed polyurethane or elastic rubber is mainly used, and in the structure serving as a cushion, there are proposed configurations in which an air bag, a coil spring, a leaf spring, an elastic material, and the like are installed between the insole and the sole 3, And some have been put to practical use.

If the sole or cushion layer of the shoe is made of elastic urethane or rubber, the impact during walking is smoothed, but these materials are not easily worn because they are not easily worn, which causes the shoe to twist. When the shoes are stopped or walking, it is difficult to support the body, so that the muscles of the joints become overloaded so that there is a problem of increasing fatigue.

 Cushion shoes are disclosed in application number 1986-0007583, filed May 27, 1986 and published December 21, 1987. This cushion shoe is formed on the cushion heel attached to the back of the shoe that has the greatest impact strength when walking, forming a space part to form upper and lower boards, and elasticizing the upper and lower boards with several elastic rods to exert cushioning power. It is to reduce the shock to the absorption. It is a cushion shoe that the upper and lower boards formed by the space part between the sole of the shoe and the upper part of the back of the shoe to which the load of the human body is most applied are interposed through the cushioning heel which is reinforced with several elastic bars.

This shoe is difficult to manufacture due to the complicated structure, foreign matter is caught between the upper and lower plates during use, and the upper or lower boards may be damaged, and the elastic rod may be pulled out, resulting in inconvenience in the stable use of the shoes. It is not.

The present invention is to provide a device to be used for shoe cushion using an elastic material of excellent wear resistance and compression and restoring force, and to provide a shoe sole and a shoe using such a device.

The present invention provides a cushioning element having a double elastic structure in which the wearer first absorbs a part of the weight by landing a soft material first at the moment of landing, and then a strong elastic material supports the rest of the weight, and the soft Even if the material is excellent in the resilience recovery, it is to provide a cushioning element for shoes that can extend the life as a material that does not wear well.

The shoe cushion element of the present invention includes a second member coupled to the first member in order to alleviate the impact of the sole contacting the ground when a person walks.

The first member is formed with a groove formed to a predetermined depth, formed of a strong elastic body, and the second member is attached in the groove of the first member and has a length longer than the depth of the groove, and is smaller than the elastic modulus of the first member. It is formed of an elastic body having elastic modulus and good restoring force.

The second member is made of a material that is well compressed and restored. For example, CELLASTO manufactured on the basis of polyesterpolyol and 1.5-naphthylene diisocyanate. To satisfy the device's performance.

In the actual design of the cushioning element, the second member protrudes by a length L than the surface of the groove formed in the first member, and the elastic force when the second member is compressed by the length L is equal to or equal to the initial compression force of the first member. It is good to design small.

The groove formed in the first member has a shape in which the bottom surface is narrower than the inlet and has a size to accommodate the volume when the second member is compressed to reduce its volume.

The device further includes a third member made of a thin plate of wear resistant material at the end of the second member exposed outside the groove of the first member.

The shoe sole of the present invention is to install the shoe cushioning element configured in this way in an important place where the load of the body is applied when walking and integrated with other parts of the shoe sole.

The present invention can use the shoe sole as described above as the sole of the sole, or by installing the cushioning element of the present invention to the sole of the shoe to make the shoes to absorb the weight of the wearer can be made to reduce the shock.

The shoe cushioning element of the present invention is the first member to be grounded by the second member to be grounded and softly grounded and grounded to the ground, and the first member is compressed until the first member is landed while absorbing some impact force of the wearer, the rest of the load is As it is supported by one member, the landing becomes smooth.

In addition, since the first member is a strong elastic body, as in ordinary shoes, the feeling of landing and feeling is improved.

Therefore, rather than making the sole or cushion layer of the shoe is made of a good elastic urethane material or rubber material, the impact during walking is softly resolved, wear resistance is good, not easy to wear and can be used for a long time without twisting the shoe.

In addition, the cushion at the first landing is very good and soft, and after that, it is easy to support the body stably without shaking with a strong elastic material, so that the fatigue of the joint muscles can be reduced and refreshing walking.

In the actual design of the cushioning element, if the elastic force when the protruding length L of the second member is compressed is less than or equal to the initial elastic force of the compression of the first member, the impact of the first member landing is hardly felt. It can have a very good fit.

The cushioning element of the present invention may be applied to a shoe sole or to an intermediate layer, and may be used for sneakers and gentlemen's shoes, ladies' shoes, special functional shoes made for travel, and the like, and have a good effect.

Wearing the shoes of the present invention in particular reduces the fatigue of walking, in particular less impact on the joints, it is possible to achieve a good effect as a therapeutic shoe for those with weak joints.

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

2 is a plan view of the cushioning device of the present invention, FIG. 3 is a cross-sectional view showing the AA section of FIG. 2 and the compressed state of the second member, FIG. 4 is a top view of the cushioning device of another embodiment of the present invention, and FIG. 5 is a BB of FIG. 4. 6 is a plan view of the sole of the shoe on which the cushioning element of the present invention is disposed, and FIG. 7 is a perspective view showing that the cushioning element of the present invention is installed on the heel of a high heel, FIG. 9 is a cross-sectional view of a cushioning device according to another embodiment of the present invention, FIG. 9 is a cross-sectional view taken along line AA thereof, FIG. 10 is a cross-sectional view showing a compressed state of the second member, and FIG. It is sectional drawing which shows the compressed state of a member.

As shown in FIGS. 2 and 3, the shoe cushioning element of the present invention has a second member 12 coupled with the first member 10 to alleviate the impact of the moment when the sole touches the ground when a person walks. It includes.

The first member 10 has a groove 11 formed to a predetermined depth and is formed of a strong elastic body. What is necessary is just to use the material of a new outsole normally used as it is, and to form the groove | channel 11 in a required location so that a 2nd member can be attached.

In FIG. 3, a rod-type second member is shown. The shape in which the second member 12 is attached and the second member is compressed and compressed in the groove 11 leaves a free space in the groove 11. ') Is showing. At this time, the free space is almost disappeared, and the second member almost occupies the free space.

4 and 5 show a ring-type or pipe-type second member, showing that the ring-shaped second member is attached to the groove 11 of the first member. At this time, the groove 11 may have the free space 14 inside the ring, or may not have the free space 14. When the second member 12 is in a compressed state 12 ′, the free space 14 and the groove 11 are filled.

The second member 12 is attached to the groove 11 of the first member by an adhesive or structurally made by making an uneven groove.

The second member has a length D + L longer than the depth D of the groove, has a modulus of elasticity smaller than that of the first member, and is formed of an elastic body having good restoring force. When the contraction is reduced with a smaller force than the first member and the compression force is lost, the second member is made of a material which is almost restored to its original state. The second member of such a material uses a commercially available material that is well compressed and restored. For example, various materials such as raw rubber, polyurethane, latex, or sponge can be selected and used. In particular, the trade name "CELLASTO" may be used, which may be polyesterpolyol and 1.5-naphthalene diisocyanate or 4.4 diphenylmethane diisocyanate (4,4). It is manufactured based on -Diphenylmethane diisocyanate) and it is recognized as a material with good elasticity and wear resistance. This shows that the compression rate (%) according to the load rises diagonally as the compression rate is only about 20% for rubber, while the gentle curve is drawn up to 75% for the Cellasto model MH24-35 (density 35). It is known that the wear resistance under the same conditions (when rubbed at a speed of 8 mm / sec on a metal plate) is such that the wear resistance is 0.6% when the rubber wears 20%. These characteristics are only slightly different even under the conditions of -30 degrees.

In the actual design of the cushioning element, the second member protrudes by the length L than the surface of the groove formed in the first member, and the elastic force when the second member is compressed by the length L so that the total length is equal to the depth D of the groove is It is good to design the same or less than the initial compression force of the first member, if so, the elastic force is applied to the foot continuously and can be completely landed without feeling a small impact. However, if the elastic force after compression of the second member is smaller than the initial elastic force of the first member, there is an advantage that a stable landing point can be felt.

It may be necessary to vary the shape of the groove formed in the first member according to the type of the second member. If the volume of the material is reduced only by the direction in which the second member is compressed, the volume of the groove and the volume of the second member should be the same.However, if the volume of the second member is compressed, If you have blowing properties (such as rubber, rags, or rubber balls or air tubes), it is good to have adequate space to accommodate this blowing volume. Since foreign matter may be inserted into the groove to damage the second member, it is desirable to secure only the space as large as the volume of the compressed second member as much as possible. Thus, as shown in Figs. 9, 10, and 11, the bottom surface of the groove is generally narrower than the inlet, and the inlet is mostly formed slightly wider than the bottom surface.

9 and 10, the third member 13 is made of a thin plate of wear-resistant material on the opposite side of the end of the second member attached to the groove of the first member, that is, at the end located at the inlet of the groove. ) Is further included. The third member may be a thin disk or a square plate of a material having very good wear resistance. Usually, the cushion member is used for the purpose of attaching the third member to the surface to compensate for wear. That is, the second member uses a sponge or urethane foam, and the third member may use a cellulose plate or a raw rubber plate having a good wear resistance.

As shown in Fig. 6, the shoe sole of the present invention is installed at an important place where a lot of body load is applied when walking, thereby integrating with other parts of the shoe sole. That is, it is made to install the rod type or the ring or tube type cushioning element in a proper position.

The present invention can use the shoe sole as described above as the sole of the sole, or by installing the cushioning element of the present invention to the sole of the shoe to make the shoes to absorb the weight of the wearer can be made to reduce the shock.

Figure 7 shows an example applied to the high heels (1). High heels are most of the weight applied to the heel (4: heels), the weak material is easily worn, using a hard and strong material will sound loud. An example in which the cushioning element 5 of the present invention is attached to this heel is shown in FIG. 7, because the second member is compressed while contacting the ground first, so that the sound becomes small and gives an appropriate cushion, thereby improving the fit. In addition, the cushion element 5 is more convenient if the structure to be pin-fitted or attached with an adhesive so that it can be replaced when engaged to the heel end.

1 is a perspective view of a conventional general shoe.

2 is a plan view of a cushioning element of the present invention.

3 is a cross-sectional view illustrating the compressed state of A-A cross-sectional view and the second member of FIG.

4 is a plan view of a cushioning device according to another embodiment of the present invention.

5 is a cross-sectional view illustrating a compressed state of the second member and the cross-sectional view B-B of FIG.

6 is a plan view of a shoe sole in which the cushioning element of the present invention is disposed.

7 is a perspective view showing that the cushioning element of the present invention is installed on the heel of a high heel.

8 is a plan view of a cushioning device according to another embodiment of the present invention, FIG. 9 is a cross-sectional view taken along line A-A thereof, and FIG. 10 is a cross-sectional view showing a compressed state of the second member.

11 is a cross-sectional view of a cushioning device according to still another embodiment of the present invention and a compressed state of the second member thereof.

Claims (8)

As a cushioning element of shoes for mitigating the impact of when the sole touches the ground when a person walks, A groove having a predetermined depth is formed, the first member made of an elastic body, A second member made of an elastic body attached to the groove of the first member and having a length longer than the depth of the groove, the elastic modulus smaller than the elastic modulus of the first member, The groove has a shape that the bottom surface is narrower than the inlet, and has a space that can accommodate the volume when the second member is compressed to reduce the volume. The cushioning element according to claim 1, further comprising a third member made of a thin plate of wear resistant material at an end portion of the second member exposed outside the groove of the first member. The cushioning element of claim 1, wherein the second member is a thermoplastic polyurethane manufactured based on polyesterpolyol and 1.5-naphthylene diisocyanate. The method according to claim 1, wherein the second member is protruded by the length L than the surface of the groove formed in the first member, the elastic force when the second member is compressed by the length L is designed to be equal to or smaller than the initial compression elastic force of the first member Shoe cushion element characterized by. The shoe cushioning element of claim 1, wherein the cushioning elements are provided on the front and rear axles of the shoe, respectively. A shoe sole having a cushioning element according to claim 1. Shoes having a cushioning element according to any one of claims 1 to 5. A high heel shoe having a cushioning element according to any one of claims 1 to 5 attached to a heel.

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