CN215501556U - Double-density female heel shoe outsole and female heel shoe - Google Patents

Abstract

The utility model discloses a double-density female heel shoe outsole which is formed by connecting and combining a first density area and a second density area, wherein the first density area is positioned at one side close to a toe cap, and the second density area is positioned at one side far away from the toe cap; the density of the first density region is less than the density of the second density region; the first density region may be folded up and down 180 degrees around its intersection with the second density region. The utility model also provides a pair of women's heel shoes, which consists of the double-density women's heel shoe outsole, the insole positioned above the outsole and the soft filling layer positioned above the insole; the structure of the middle sole is half-section design or front soft and back hard. The utility model effectively solves the technical problem of foot discomfort caused by overlarge pressure on the foot due to overhigh sole in the prior art, thereby realizing the technical effects of relieving the foot pressure and improving the comfort level.

Description

Double-density female heel shoe outsole and female heel shoe

Technical Field

The utility model relates to the technical field of high-heeled shoes, in particular to a double-density women heel shoe outsole, and particularly relates to a double-density women heel shoe outsole and a women heel shoe.

Background

High-heeled shoes, sometimes also called women's heels, are shoes with particularly high heels, so that the heels of a person wearing the shoes are obviously higher than the toes. High-heeled shoes have many different styles, especially on the change of heels, such as thin heels, thick heels, wedge-shaped heels, nail-shaped heels, mallet-shaped heels, knife-shaped heels and the like.

When the height of the high-heeled shoes rises to 6-8 cm, the center of gravity of the human body naturally moves upwards when walking. One study found that if you wear 7 cm high-heeled shoes for 2 hours, neck stiffness increases by 22%, and health professionals generally do not recommend that people who face computers for a long time wear 6-8 cm high-heeled shoes, which only causes the neck of people to become increasingly tired. In order to relieve the pressure of the women's heel shoes on the feet, some manufacturers adopt softer materials as the midsoles of the high-heeled shoes to relieve the pressure of the feet.

However, in the process of implementing the technical solution in the prior art, the applicant finds that the following technical problems exist in the technical solution in the prior art:

although a soft midsole may relieve foot pressure, the bottom of the heel piece, acting as a support member, still exerts some pressure on the foot, which experiences less pressure from the midsole than from the outsole. The comfort brought by the soft material of the middle sole is greatly reduced due to the pressure brought by the hard outsole, and the pressure of the heel outsole on the foot cannot be ignored. Pressure from the heel counter also tends to cause the foot to feel different levels of discomfort.

SUMMERY OF THE UTILITY MODEL

On the one hand, the utility model aims to provide the double-density female heel shoe outsole, solve the technical problem that the pressure on the foot is too high and the foot is uncomfortable in the prior art due to the fact that the sole is too hard, and achieve the technical effect of relieving the pressure and the discomfort of the foot.

In order to solve the technical problems, the technical scheme of the utility model is as follows:

a double-density women heel shoe outsole is formed by connecting and combining a first density area and a second density area, wherein the first density area is positioned on one side close to a toe cap, and the second density area is positioned on one side far away from the toe cap; the density of the first density region is less than the density of the second density region; the first density region may be folded up and down 180 degrees around its intersection with the second density region.

The first density zone of the forefoot step is of a lower material density than the second density zone of the heel step.

Preferably, the first density zone is made of a soft material, and the second density zone is made of a hard material.

More preferably, the soft material is one of PV glue, TPR glue or plastic.

Particularly preferably, the edge portion of the first density region has a density greater than that of the central portion of the first density region.

The utility model provides a pair of female heel shoes, which consists of the double-density female heel shoe outsole, a midsole positioned above the outsole and a soft filling layer positioned above the midsole; the structure of the middle sole is half-section design or front soft and back hard.

Preferably, the filling layer is one of an ergonomic memory sponge or an air cushion.

One or more technical solutions provided by the present application have at least the following technical effects or advantages:

according to the technical scheme, due to the fact that the female heel shoes which are combined with the double-density outsole are formed by adopting materials with different densities as the double-density outsole structures, the density of the part, where the sole of the foot falls, of the front sole is lower than that of the part, away from the front sole, of the front sole, the part, where the sole of the foot falls, of the front sole, which is softer, can absorb more vibration and relieve more pressure, and pressure on the foot, caused by the fact that the outsole is too hard, is eliminated. The use of soft insole and soft filler can further reduce the pressure and the degree of compression on the front sole. The technical problem that the foot is uncomfortable due to the fact that the pressure on the foot is too large due to the fact that the sole is too hard in the prior art is effectively solved, and therefore the technical effects of relieving the pressure on the foot and improving the comfort level are achieved.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural diagram of an embodiment of the present invention in which the edge portion of the first density region has a greater density than the central portion of the first density region;

FIG. 3 is a schematic view showing the structure of a woman's heel shoe using a double-density outsole according to the present invention, in which the soft packing layer is in a separated state.

In the figure, 100-outsole, 101-first density zone, 102-edge portion, 103-second density zone, 200-midsole, 300-soft filler layer.

Detailed Description

The following further describes embodiments of the present invention with reference to the drawings. It should be noted that the description of the embodiments is provided to help understanding of the present invention, but the present invention is not limited thereto. In addition, the technical features involved in the embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

The technical scheme of this application embodiment is through providing a double density heel shoes outsole 100, has solved among the prior art sole and has leaded to too big and lead to the uncomfortable problem of foot to foot pressure, and the material density that first density district 101 of falling the foot in the forefoot is lower than the second density district 103 adoption of heel falling the foot and first density district 101 can be around its and second density district 103 juncture folding 180 degrees from top to bottom under realized alleviating foot pressure and uncomfortable beneficial effect.

The general idea of the embodiment of the utility model for solving the technical problems is as follows:

the women's heel shoes adopting materials with different densities as the structural components of the double-density outsole 100 and combining the double-density outsole 100 have the advantages that the density of the part of the sole where the foot falls is lower than that of the part of the sole far away from the sole, the part of the sole where the foot falls can absorb more vibration and relieve more pressure more softly, and the pressure on the foot caused by over-hardness of the outsole 100 is eliminated. The use of the soft midsole 200 and soft filler can further reduce the pressure and compression on the forefoot.

In order to better understand the technical solution, the technical solution will be described in detail with reference to the drawings and the specific embodiments.

Example 1

In order to solve the above technical problem, as shown in fig. 1, the technical solution of this embodiment is:

a double-density women heel shoe outsole 100 is formed by connecting and combining a first density area 101 and a second density area 103, wherein the first density area 101 is positioned at one side close to a toe cap, and the second density area 103 is positioned at one side far away from the toe cap; the density of the first density region is less than the density of the second density region 103; the first density region 101 may be folded up and down 180 degrees around its intersection with the second density region 103.

The first density zone 101 of the ball of the foot is less dense than the second density zone 103 of the heel.

Specifically, the first density zone 101 is a soft material, and the second density zone 103 is a hard material.

More specifically, the soft material is one of PV or TPR glue.

One or more technical solutions of this embodiment have at least the following technical effects or advantages:

according to the technical scheme, the density of the part of the front sole where the foot falls is lower than that of the part far away from the front sole, the softer part of the front sole where the foot falls can absorb more vibration and relieve more pressure, and the pressure on the foot caused by over-hardness of the outsole 100 is eliminated. The technical problem that the foot is uncomfortable due to the fact that the pressure on the foot is too large due to the fact that the sole is too hard in the prior art is effectively solved, and therefore the technical effects of relieving the pressure on the foot and improving the comfort level are achieved.

Example 2

In order to solve the above technical problem, as shown in fig. 1, the technical solution of the present invention is:

a double-density women heel shoe outsole 100 is formed by connecting and combining a first density area 101 and a second density area 103, wherein the first density area 101 is positioned at one side close to a toe cap, and the second density area 103 is positioned at one side far away from the toe cap; the density of the first density region is less than the density of the second density region 103; the first density region 101 may be folded up and down 180 degrees around its intersection with the second density region 103.

The first density zone 101 of the ball of the foot is less dense than the second density zone 103 of the heel.

Specifically, the first density zone 101 is a soft material, and the second density zone 103 is a hard material.

More specifically, the soft material is one of PV glue, TPR glue, modified rubber or plastic.

Particularly, as shown in fig. 2, the edge portion 102 of the first density region 101 has a density greater than that of the central portion of the first density region 101.

One or more technical solutions of this embodiment have at least the following technical effects or advantages:

according to the technical scheme, the density of the part of the front sole where the foot falls is lower than that of the part far away from the front sole, the softer part of the front sole where the foot falls can absorb more vibration and relieve more pressure, and the pressure on the foot caused by over-hardness of the outsole 100 is eliminated. The border region supports the periphery of the foot, where greater density than the central portion is more beneficial for structural stability and where higher density is used in the border portion 102 for greater resistance to abrasion. The technical problem that the foot is uncomfortable due to the fact that the pressure on the foot is too large due to the fact that the sole is too hard in the prior art is effectively solved, and therefore the technical effects of relieving the pressure on the foot and improving the comfort level are achieved.

Example 3

In order to solve the above technical problem, as shown in fig. 1, the technical solution of this embodiment is:

a double-density women heel shoe outsole 100 is formed by connecting and combining a first density area 101 and a second density area 103, wherein the first density area 101 is positioned at one side close to a toe cap, and the second density area 103 is positioned at one side far away from the toe cap; the density of the first density region is less than the density of the second density region 103; the first density region 101 may be folded up and down 180 degrees around its intersection with the second density region 103.

The first density zone 101 of the ball of the foot is less dense than the second density zone 103 of the heel.

Specifically, the first density zone 101 is a soft material, and the second density zone 103 is a hard material.

More specifically, the soft material is a modified rubber.

Particularly, as shown in fig. 2, the edge portion 102 of the first density region 101 has a density greater than that of the central portion of the first density region 101. The border region supports the periphery of the foot, and a greater density than the central portion is more conducive to structural stability.

Another aspect of the present invention is to provide a pair of women's heel shoes, which comprises an outsole 100 of a pair of dual-density women's heel shoes, a midsole 200 located above the outsole 100, and a soft filling layer 300 located above the midsole 200; the midsole 200 is configured in a half-shell design or soft front and hard back.

Specifically, the filling layer is one of a memory sponge or an air cushion which accords with human engineering.

One or more technical solutions of this embodiment have at least the following technical effects or advantages:

according to the technical scheme, the density of the part of the front sole where the foot falls is lower than that of the part far away from the front sole, the softer part of the front sole where the foot falls can absorb more vibration and relieve more pressure, and the pressure on the foot caused by over-hardness of the outsole 100 is eliminated. The border region supports the periphery of the foot, where greater density than the central portion is more beneficial for structural stability and where higher density is used in the border portion 102 for greater resistance to abrasion. The use of the soft midsole 200 and soft filler can further reduce the pressure and compression on the forefoot. The technical problem that the foot is uncomfortable due to the fact that the pressure on the foot is too large due to the fact that the sole is too hard in the prior art is effectively solved, and therefore the technical effects of relieving the pressure on the foot and improving the comfort level are achieved.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the described embodiments. It will be apparent to those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, and the scope of protection is still within the scope of the utility model.

Claims (6)

1. The double-density women's heel shoe outsole is characterized in that: the shoe toe cap is formed by connecting and combining a first density area and a second density area, wherein the first density area is positioned on one side close to a toe cap, and the second density area is positioned on one side far away from the toe cap; the density of the first density region is less than the density of the second density region; the first density region may be folded up and down 180 degrees around its intersection with the second density region.

2. The dual density women's heel outsole of claim 1, wherein: the first density zone is made of soft materials, and the second density zone is made of hard materials.

3. The dual density women's heel outsole of claim 2, wherein: the soft material is one of PV glue, TPR glue or plastic.

4. The dual density women's heel outsole of claim 3, wherein: the edge portion of the first density region has a density greater than that of the central portion of the first density region.

5. A pair of female heel shoes is characterized in that: the dual-density women's heel shoe outsole of any one of claims 1 to 4, a midsole positioned above the outsole and a soft filling layer positioned above the midsole; the structure of the middle sole is half-section design or front soft and back hard.

6. The female heel shoe according to claim 5, wherein: the soft filling layer is one of a memory sponge or an air cushion which accords with human engineering.

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