CN215501557U

CN215501557U - Double-density outsole female heel shoe with composite lining

Info

Publication number: CN215501557U
Application number: CN202022537888.6U
Authority: CN
Inventors: 王珍
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-11-05
Filing date: 2020-11-05
Publication date: 2022-01-14
Anticipated expiration: 2030-11-05

Abstract

The utility model discloses a pair of composite inner-lining double-density outsole heeled shoes, which consists of the following parts: the shoe main body consists of an outsole in contact with the ground, a midsole positioned above the outsole and a footbed attached above the midsole; a foot mattress is arranged above the foot bed; the foot mattress is made of sponge-like materials; the outsole is formed by connecting and combining a first density area and a second density area, the first density area is positioned on one side close to the 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 area can be folded up and down for 180 degrees around the junction of the first density area and the second density area; the shoe upper is sheathed outside the shoe main body; the soft composite layer is respectively a top layer, a degerming layer, an aromatic layer and a bottom layer from top to bottom; the inner lining is positioned in the vamp, and the surface layer of the inner lining is the soft composite layer. The utility model has the beneficial effects of foot protection, ventilation, degerming and odor removal.

Description

Double-density outsole female heel shoe with composite lining

Technical Field

The utility model relates to the technical field of high-heeled shoes, in particular to a pair of female heel shoes with double-density inner soles.

Background

A high-heeled shoe is a shoe with a particularly high heel, so that the heel of the person wearing the shoe is significantly 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.

Health experts at the university of Harvard in the United states found that wearing 4-6 cm high-heeled shoes is most helpful in losing weight, and shoes of this height can effectively consume the metabolic rate of the fat in the lower abdomen. 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. 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:

the female heel shoes have foot discomfort caused by large friction force and poor air permeability at the contact part of the female heel shoes and the feet, and can generate foot pain and peculiar smell after being worn for a long time; in addition, there is a problem that the front end of the foot is excessively compressed to cause pain in the ball of the foot.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problems that the female heel shoes with double-density inner soles are provided, the technical problems of foot discomfort and forefoot pain caused by poor ventilation and shock absorption effects of the female heel shoes in the prior art are solved, and the technical effects of foot protection, ventilation, sterilization, odor removal and pressure relief are achieved.

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

the utility model provides a compound inside double density outsole heeled shoes which characterized in that: the device consists of the following parts:

the shoe main body consists of an outsole in contact with the ground, a midsole positioned above the outsole and a footbed attached above the midsole; a foot mattress is arranged above the foot bed; the foot mattress is made of sponge-like materials; the outsole is formed by connecting and combining a first density area and a second density area, the first density area is positioned on one side close to the 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 area can be folded up and down for 180 degrees around the junction of the first density area and the second density area;

the shoe upper is sheathed outside the shoe main body;

the soft composite layer is respectively a top layer, a degerming layer, an aromatic layer and a bottom layer from top to bottom;

the inner lining is positioned in the vamp, and the surface layer of the inner lining is the soft composite layer.

Preferably, the soft composite layer further comprises a sponge-like layer, and the sponge-like layer is positioned between the top layer and the degerming layer; the first density zone is made of soft materials, and the second density zone is made of hard materials.

Preferably, the thickness of the surface layer is 1mm or more; the thickness of the foot mattress is more than 2 mm.

Preferably, the top layer or/and the foot mattress is made of livestock skin; the soft material is one of PV glue, TPR glue or plastic.

Preferably, the livestock skin is cow leather or pig leather; the livestock skin is provided with a plurality of through holes.

Preferably, the top layer is made of non-nylon fabric or nylon net.

More preferably, the foot mattress is the soft composite layer; the vamp is detachably provided with an ornament.

More preferably, the midsole is a half-midsole, and the midsole is left empty close to the toe part; the foot bed is one of memory sponge or air cushion which accords with human engineering; and a skin layer is also arranged between the bottom of the foot bed and the upper part of the insole.

Particularly preferably, the part near the empty space below the midsole has two torsion points a and B, which are located at the bottom of the midsole, the two torsion points form a triangle ABC with a top center point C of the heel, and the relative positions of the midsole and the heel both follow the following sine-triangle relationship:

CB/sin A＝CA/sin B＝AB/sin C。

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

according to the technical scheme, the foot mattress made of sponge is combined with a series of technical means that a soft composite layer consisting of a top layer, a sterilization layer, an aromatic layer and a bottom layer from top to bottom is used as a surface layer of an inner layer, and then the soft composite layer is matched with a double-density outsole which can be folded up and down by 180 degrees around the junction of a first density area and a second density area. The rapid adsorption of moisture on the feet through the breathable sponge-like material is realized on the structure of the shoe, and the growth of bacteria caused by the residual moisture on the feet is reduced; the sponge-like body has elasticity and can absorb part of vibration generated during walking; the antibacterial layer and the aromatic layer in the composite layer can remove bacteria and odor generated by feet. Meanwhile, materials with different densities are adopted as the double-density outsole, the structure is combined with the heel of the woman shoe with the double-density outsole, the density of the part, where the sole 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 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. Effectively solved among the prior art because of the heel shoes breathe freely inhale shake the technical problem that the effect is bad and arouse that the foot is uncomfortable and the sole is painful, and then realized protecting the foot and ventilative degerming removes the flavor and alleviate the technical effect of pressure.

Drawings

FIG. 1 is a schematic structural view of a dual-density outsole of the present invention;

FIG. 2 is a schematic structural view of the present invention showing the soft composite layer and the shoe main body in a separated state;

FIG. 3 is a schematic structural view of an embodiment of the present invention in which the flexible composite layer includes a sponge-like layer;

FIG. 4 is a schematic structural view of an embodiment of the present invention provided with a decorative article;

FIG. 5 is a schematic diagram of an embodiment of the present invention utilizing a half midsole.

In the figure, 1-a shoe main body, 2-an insole, 3-a vamp, 5-an ornament, 10-a soft composite layer, 11-a top layer, 12-a sponge-like layer, 13-a sterilization layer, 15-a fragrance layer, 17-a bottom layer, 100-an outsole, 101-a first density area, 102-an edge part, 103-a second density area, 200-a midsole, 300-a footbed, 301-a foot mattress and 400-a veneer 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 100 big end of 2 double density in the compound heels shoes, the problem of uncomfortable and the painful sole before foot that arouse because of the heels shoes are ventilative to inhale shock-absorbing effect is bad among the prior art is solved, the top layer 11 from top to bottom is respectively combined to the foot mattress 301 made by class sponge, degerming layer 13, soft composite layer 10 that fragrant layer 15 and bottom layer 17 are constituteed is as the top layer of interior 2 and has been cooperated first density district 101 again and can be around its and the juncture of second density district 103 fold 180 degrees double density big end 100 down and realized protecting foot and ventilative degerming beneficial effect that removes flavor.

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

a foot mattress 301 made of sponge is combined with a soft composite layer 10 consisting of a top layer 11, a degerming layer 13, an aromatic layer 15 and a bottom layer 17 from top to bottom to serve as a surface layer of an inner layer 2, and a double-density outsole 100 which can be folded up and down by 180 degrees around the junction of the first density region 101 and a second density region 103 is matched. The rapid adsorption of moisture on the feet through the breathable sponge-like material is realized on the structure of the shoe, and the growth of bacteria caused by the residual moisture on the feet is reduced; the sponge-like body has elasticity and can absorb part of vibration generated during walking; the antibacterial layer 13 and the aromatic layer 15 in the composite layer can remove bacteria and peculiar smell generated by feet. Meanwhile, materials with different densities are adopted as the structural component of the double-density outsole 100, and the heel shoes adopting the double-density outsole 100 are combined, the density of the part where the front sole falls is lower than that of the part far away from the front sole, the part where the front sole 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.

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.

First embodiment

A composite inner lining 2 dual density outsole 100 heeled shoe, as shown in figures 1-2 and 4, is composed of the following parts:

a shoe body 1 composed of an outsole 100 contacting with the ground, a midsole 200 positioned above the outsole 100, and a footbed 300 attached above the midsole 200; a foot mattress 301 is arranged above the foot bed 300; the foot mattress 301 is made of sponge-like material; the 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 the 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 vamp 3 is sheathed outside the shoe main body 1;

the soft composite layer 10 is composed of a top layer 11, a degerming layer 13, an aromatic layer 15 and a bottom layer 17 from top to bottom;

the inner lining 2 is positioned in the vamp 3, and the surface layer of the inner lining 2 is a soft composite layer 10.

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

according to the technical scheme, the foot mattress 301 made of sponge-like materials is combined with a soft composite layer 10 composed of the top layer 11, the sterilization layer 13, the aromatic layer 15 and the bottom layer 17 from top to bottom to serve as the surface layer of the inner layer 2, and then the double-density outsole 100 which can be folded up and down for 180 degrees around the junction of the first density region 101 and the second density region 103 is matched with a series of technical means. The rapid adsorption of moisture on the feet through the breathable sponge-like material is realized on the structure of the shoe, and the growth of bacteria caused by the residual moisture on the feet is reduced; the sponge-like body has elasticity and can absorb part of vibration generated during walking; the antibacterial layer 13 and the aromatic layer 15 in the composite layer can remove bacteria and peculiar smell generated by feet. Meanwhile, materials with different densities are adopted as the structural component of the double-density outsole 100, and the heel shoes adopting the double-density outsole 100 are combined, the density of the part where the front sole falls is lower than that of the part far away from the front sole, the part where the front sole 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. Effectively solved among the prior art because of the heel shoes breathe freely inhale shake the technical problem that the effect is bad and arouse that the foot is uncomfortable and the sole is painful, and then realized protecting the foot and ventilative degerming removes the flavor and alleviate the technical effect of pressure.

Second embodiment

the vamp 3 is sheathed outside the shoe main body 1;

Specifically, as shown in fig. 3, the flexible composite layer 10 further includes a sponge-like layer 12, and the sponge-like layer 12 is located between the top layer 11 and the sterilization layer 13; the first density zone 101 is a soft material and the second density zone 103 is a hard material.

Specifically, the thickness of the surface layer is more than 1 mm; the thickness of the footbath mattress 301 is more than 2 mm.

Specifically, the top layer 11 or/and the foot mat 301 is made of livestock skin; the soft material is one of PV glue, TPR glue or plastic.

Specifically, the livestock skin is cow leather or pig skin; the livestock skin is provided with a plurality of through holes.

Specifically, the top layer 11 is made of non-nylon fabric or nylon net.

More specifically, the foot bed 300 includes a soft composite layer 10; the vamp 3 is detachably provided with an ornament 5.

In addition, the arrangement of the through holes on the livestock skin can improve the comfort and the air permeability. The fixed ornament 5 can be placed, removed or replaced by different styles of floriation in different occasions in a detachable way, so as to be suitable for wearing in different scenes.

Third embodiment

the vamp 3 is sheathed outside the shoe main body 1;

Specifically, as shown in fig. 3, the flexible composite layer 10 further includes a sponge-like layer 12, the sponge-like layer 12 is located between the top layer and the degerming layer 13; the first density zone 101 is a soft material and the second density zone 103 is a hard material.

Specifically, the top layer 11 and the foot mat 301 are made of livestock skin; the soft material is one of PV glue, TPR glue or plastic.

Specifically, the livestock skin is sheep skin; the livestock skin is provided with a plurality of through holes.

Specifically, the top layer 11 is made of non-nylon fabric or nylon net.

More specifically, as shown in FIG. 5, the midsole 200 is a half midsole 200, with the midsole 200 being left empty near the toe portion; the foot bed 300 is one of a memory sponge or an air cushion which accords with the human engineering; a skin layer 400 is also provided between the bottom of the foot bed 300 and the upper portion of the midsole 200.

Particularly, the part of the lower part of the midsole 200 close to the hollow space has two torsion points a and B, which are located at the bottom of the midsole 200, the two torsion points and the top center point C of the heel form a triangle ABC, and the relative positions of the midsole 200 and the heel both follow the following sine-triangle relationship:

CB/sin A＝CA/sin B＝AB/sin C。

In addition, two torsion points a and B are arranged at the part below the midsole 200 close to the hollow, and the two torsion points can form a stable triangular structure with the top center point C of the heel, and the trigonometric function formula determines the relative position relationship of the ABC points, thereby determining the relative position relationship of the midsole 200, the contour of the midsole 200 and the heel of the midsole 200. The stable triangular structure is beneficial to increasing the stability of the shoe. The person's weight partially rests on the heel and the ball of the foot supports the remaining weight. When the 2 torsion points do not exist, when the shoe is worn, the weight of the human body is increased along with the inclination of the shoe, and the force acting on the half sole of the foot is increased; when 2 torsion points protruding towards the floor direction are designed behind the bottom of the shoe, the 2 torsion points form 2 points for supporting weight, the weight originally falling into the forefoot is dispersed by the 2 torsion points, one part of the weight falls into the heel, one part of the weight falls into the 2 torsion points, and the rest part of the weight falls into the forefoot, so that the pressure on the forefoot is greatly relieved. The stable triangular structure has strengthened the support to foot pressure to solved the weight of foot among the prior art and fallen into the problem of sole part because of lacking the support, reached the increase and alleviated foot pressure, increased the effect of travelling comfort.

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

1. The utility model provides a compound inside double density outsole heeled shoes which characterized in that: the device consists of the following parts:

the shoe upper is sheathed outside the shoe main body;

2. The composite inside dual-density outsole heeled shoe of claim 1, wherein: the soft composite layer also comprises a sponge-like layer which is positioned between the top layer and the degerming layer; the first density zone is made of soft materials, and the second density zone is made of hard materials.

3. The dual-sole inside composite heel counter for ladies according to claim 2, wherein: the thickness of the surface layer is more than 1 mm; the thickness of the foot mattress is more than 2 mm.

4. The dual-sole inside composite heel counter for ladies according to claim 3, wherein: the top layer or/and the foot mattress is made of livestock skin; the soft material is one of PV glue, TPR glue or plastic.

5. The dual-sole inside composite heel counter for ladies according to claim 4, wherein: the livestock skin is cow leather or pig skin; the livestock skin is provided with a plurality of through holes.

6. The dual-sole inside composite heel counter for ladies according to claim 3, wherein: the top layer is made of non-nylon fabric or nylon net.

7. The composite inside dual-density outsole heeled shoe of claim 1, wherein: the foot mattress is the soft composite layer in the claim 6; the vamp is detachably provided with an ornament.

8. The composite inside dual-density outsole heeled shoe of claim 7, wherein: the middle sole is a half middle sole, and a space is reserved near the toe part of the middle sole; the foot bed is one of memory sponge or air cushion which accords with human engineering; and a skin layer is also arranged between the bottom of the foot bed and the upper part of the insole.

9. The dual-sole inside composite heel counter for ladies according to claim 8, wherein: the part close to the hollow part below the middle sole is provided with two torsion points A and B which are positioned at the bottom of the middle sole, the two torsion points and the top center point C of the heel form a triangle ABC, and the relative positions of the middle sole and the heel follow the following sine-triangle relation:

CB/sin A＝CA/sin B＝AB/sin C。