CN219270275U - Pressure-reducing heel bed for women's heels and shoe last - Google Patents

Abstract

The utility model discloses a pressure-reducing heel shoe foot bed, which comprises a foot bed main body: the upper end face of the footbed main body is provided with a slip-resistant structure, and the slip-resistant structure at least comprises one of a medial arch convex supporting part, a lateral arch convex supporting part and a heel concave supporting part; the preset shapes of the inner arch raised supporting part, the transverse arch raised supporting part and the heel depression supporting part are matched with the sole structure; wherein, the liquid crystal display device comprises a liquid crystal display device, the foot bed body is characterized in that the positions of the inner arch bulge supporting part, the transverse arch bulge supporting part and the heel depression supporting part are corresponding to the positions of the inner arch, the transverse arch and the heel of the sole. The utility model realizes the technical effects of relieving the pressure of the foot and the pressure of other parts of the human body and reducing the adverse effect on the flat foot wearers.

Description

Pressure-reducing heel bed for women's heels and shoe last

The present application claims priority to application number 202111342509.0

Technical Field

The utility model relates to the technical field of women's heeled shoes, in particular to a women's heeled shoe foot bed, and especially relates to a pressure-reducing women's heeled shoe foot bed, a women's heeled shoe and a shoe last.

Background

High-heeled shoes are not only an extrinsic apparel option, but also have their own language, and are themselves a culture. In China, there is a high-heeled shoe in Zhou, and 2200 years ago, the gift shoe worn by Zhou females is a shoe with a round head and a high sole, which is called as an ancient high-heeled shoe. Today, high-heeled shoes come in a wide variety of styles.

However, in the process of realizing the technical scheme in the prior art, the applicant finds that the technical scheme in the prior art has the following technical problems:

the pressure of the heel shoes on the feet is large, discomfort is easy to occur, the pressure can be relieved temporarily by adding the foot beds or the foot pads, but when the heel shoes are worn, the feet can slide forwards due to overlarge inclination angles, so that the pressure relieving effect of the foot pads on the feet is weakened.

In particular, for a wearer with a flat foot, the foot of the flat foot wearer is subjected to a greater pressure than the normal foot when the wearer has to wear a female heel shoe. Because the foot arch of the flat foot user collapses to different degrees, when the foot arch cannot normally play the functions, other parts of the foot and other parts of the body compensate the functions of the foot arch, so that the foot is further injured. Meanwhile, flat-foot users wear women's heeled shoes on the market, which are more uncomfortable due to the greater pressure applied to other parts of the body, such as the knees and waist. While the conventional pressure-reducing insole absorbs part of the pressure in a static state, when a user walks, the foot slides down toward the toe, so that the original energy-absorbing structure cannot play its role due to the position change.

Disclosure of Invention

The utility model aims to solve the technical problems of providing a pressure-reducing heel shoe foot bed, solving the technical problems that the heel shoe generates larger pressure on the foot and other parts of a human body when being worn in the prior art, particularly the negative effect on flat foot patients is large, and at least achieving one of the technical effects of relieving the pressure of the foot and the pressure of other parts of the human body and reducing the adverse effect on flat foot wearers.

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

a reduced-pressure, heel-in footbed for women, comprising a footbed body: the upper end face of the footbed main body is provided with a slip-resistant structure, and the slip-resistant structure at least comprises one of a medial arch convex supporting part, a lateral arch convex supporting part and a heel concave supporting part; the preset shapes of the inner arch raised supporting part, the transverse arch raised supporting part and the heel depression supporting part are matched with the sole structure;

wherein the preset shape of the medial arch relief support, lateral arch relief support, and heel depression support may be custom designed according to the following:

the true man steps on the modeling mold, and according to the concave-convex structure of the foot print left by the modeling mold, the preset shapes of the inner arch convex supporting part, the transverse arch convex supporting part and the heel depression supporting part are calculated and designed.

Wherein,, the foot bed body is characterized in that the positions of the inner arch bulge supporting part, the transverse arch bulge supporting part and the heel depression supporting part are corresponding to the positions of the inner arch, the transverse arch and the heel of the sole.

That is, the positions of the arch support, the lateral arch support and the heel depression support are corresponding to the positions of the arch, the lateral arch and the heel of the sole when the sole is normally stepped on the footbed body.

Preferably, the anti-slip structure of the footbed main body is composed of the inner arch raised supporting part, the transverse arch raised supporting part and the heel depression supporting part; the inner arch raised support, the lateral arch raised support and the heel depression support together form a multi-point anti-slip structure that prevents the foot from sliding in the toe direction.

Preferably, the multi-point anti-slip structure is a three-point anti-slip structure, and the three-point anti-slip structure forms three anti-slip points α, β and γ in the arch support, arch support and heel depression support respectively, and the three anti-slip points α, β and γ form a triangle αβγ and follow a sine triangle relationship γβ/sinα=γα/sinβ=αβ/sinγ.

Preferably, the foot bed main body is divided into a forefoot region, an arch region and a heel region corresponding to the sole of the human body; the inner arch raised support part and the transverse arch raised support part are positioned in the arch region, and the heel concave bearing part is positioned in the heel region; the heel region has a thickness that is less than the arch region.

Preferably, the shape of the inner arch raised supporting part is a polyhedron, and one end of the transverse arch raised supporting part, which is far away from the inner arch, is also provided with a lateral longitudinal arch raised supporting part.

Preferably, the shape of the arch support is one of dumpling shape, three-sided dumpling shape, half moon shape and shrimp shape.

Preferably, the upper surface of the foot bed main body is also provided with a ventilation layer, a sponge layer is arranged below the ventilation layer, and the atomized aromatic sterilization spray is sprayed to the ventilation holes of the ventilation layer, so that the atomized aromatic sterilization enters and stays in the sponge layer through the ventilation layer.

Another technical problem to be solved by the present utility model is to provide a pair of heel shoes, including the reduced-pressure heel footbed as described in any one of the above.

Preferably, the women's heel shoe is a overshoe, the half sole part of the middle sole of the women's heel shoe is left empty, and the outsole of the women's heel shoe is a 180-degree up-down foldable outsole.

The utility model also solves the technical problem of providing a shoe tree: the heel shoe is used for manufacturing the female heel shoe, and the lower end surface of the shoe tree is provided with a concave part of a medial arch, a concave part of a lateral arch and a convex part of a heel.

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

according to the technical scheme, the anti-slip structure is arranged on the upper end face of the foot bed main body, and at least comprises one technical means of the inner arch protruding supporting part, the transverse arch protruding supporting part and the heel concave supporting part, so that at least one point of the sole can obtain the force for preventing the sole from sliding towards the toe on the basis of absorbing pressure. The technical problem that the heel shoes in the prior art have great pressure on feet and other parts of a human body, particularly the negative effect on flat foot patients is great is effectively solved, and then the technical effects of relieving the foot pressure and the pressure on other parts of the human body and reducing the adverse effect on flat foot wearers are realized.

In addition, the anti-slip structure is formed by combining the inner arch bulge supporting part, the transverse arch bulge supporting part and the heel concave supporting part, so that a multi-point anti-slip structure for preventing the foot from sliding towards the toe is formed together. On the basis that the sole is stressed by a plurality of point support links, the plurality of points acquire the force for preventing the sole from sliding towards the toe, and the multipoint limited slip forms a more stable limited slip mechanical structure. The technical problem that the heel shoes in the prior art have large pressure on feet and other parts of a human body, particularly have large negative influence on flat foot patients is solved more effectively, and the technical effects of relieving the foot pressure and the pressure on other parts of the human body and reducing the adverse influence on flat foot wearers are further realized.

In addition, the foot bed main body is divided into a forefoot region, an arch region and a heel region corresponding to the sole of the human body; the combined inner arch raised support and the lateral arch raised support are positioned in the arch region, and the heel depression bearing is positioned in the heel region; the thickness of the heel area is smaller than that of the arch area, so that when the foot steps on the foot bed, the heel part contacts with the heel concave bearing part, the thickness difference combines the characteristic that the weight of the foot is mainly concentrated on the heel part, and a downward force tightly attached to the heel concave bearing part is formed, so that the force of bearing and anti-skidding is further enhanced. The technical effects of further relieving the pressure of the foot and the pressure of other parts of the human body and reducing the adverse effect on the flat foot wearer are realized.

Drawings

FIG. 1 is a schematic diagram of the structure of the utility model;

FIG. 2 is a schematic illustration of the structure of the inner arch support of the present utility model in a separated state;

FIG. 3 is a schematic view showing the structure of the foot bed body of the present utility model divided into a forefoot region, an arch region and a heel region;

FIG. 4 is a schematic view of the anti-skid point triangle structure of the footbed of the present utility model;

FIG. 5 is a schematic view of the structure of the arch support of the present utility model;

FIG. 6 is a side view of a lateral arch support of the present utility model;

FIG. 7 is a schematic view of the configuration of the medial arch support of the present utility model;

FIG. 8 is a schematic view of an embodiment of the present utility model employing a ventilation layer;

FIG. 9 is a schematic view of the structure of the ventilation layer combined with the sponge layer in the present utility model;

FIG. 10 is a schematic view of the present utility model in a configuration for use in a female heel;

fig. 11 is a schematic structural view of a footwear last according to the present utility model;

FIG. 12 is a bottom view of a footwear last according to the present utility model;

FIG. 13 is a schematic diagram of a comparison of single point slip prevention and multiple point slip prevention.

In the figure, 10, the heel; 100. a footbed body; 110. a forefoot region, 120, heel region; 130. an arch region; 100. a footbed body; 200. a slip-resistant structure; 210. a medial arch projection support; 220. a lateral arch projection support; 230. a heel depression support; 240. a ventilation layer; 241. a vent hole; 243. a sponge layer; 300. a midsole; 500. a last; 510. a medial arch depression; 520. a transverse arch depression; 530. heel bulge.

Detailed Description

The following describes the embodiments of the present utility model further with reference to the drawings. The description of these embodiments is provided to assist understanding of the present utility model, but is not intended to limit the present utility model. In addition, the technical features of the embodiments of the present utility model described below may be combined with each other as long as they do not collide with each other.

The wearing of the women's heel shoe inevitably causes certain pressure to the foot. When the wearer belongs to a flat foot wearer, the arch collapses, which results in greater pressure being applied to the wearer, even causing deviation in walking posture and the like.

Specifically, the wearer of flat feet has a problem that the arch function cannot be normally performed, and the other parts of the body compensate for the arch function during walking, which is more serious, and thus the foot and other parts of the body are more stressed to cause discomfort.

Even if the heel pad is put on the prior art, the heel pad cannot be used for preventing the foot from sliding downwards towards the toe when a user walks, so that the original energy absorbing structure cannot exert the effect of the foot because of position change, and finally the foot is severely stressed, so that the pressure on a flat foot user is higher, and meanwhile, the damage to the foot and other parts of the body is larger.

According to the technical scheme, the problem that pressure cannot be effectively absorbed by the women's heeled shoes and the damage to feet is solved, the problem that the pressure is reduced is solved, the upper end face of the foot bed main body 100 is provided with the anti-slip structure 200, and the anti-slip structure 200 at least comprises the inner arch bulge supporting part 210, the transverse arch bulge supporting part 220 and one of the heel concave supporting parts 230, so that the beneficial effects of relieving foot pressure and pressure at other parts of a human body and reducing adverse effects on flat foot wearers are realized.

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

as shown in fig. 1, a series of technical means such as a medial arch support 210, a lateral arch support 220, and a heel depression support 230 are adopted, wherein the upper end surface of the footbed main body 100 is provided with a non-slip structure 200, and the non-slip structure 200 at least comprises one of the medial arch support 210, the lateral arch support 220, and the heel depression support 230, so that at least one point of the sole can obtain a force for preventing the sole from sliding towards the toe on the basis of absorbing pressure.

The foot bed is applied to manufacturing of the women's heeled shoes in a shoe covering mode, and the manufactured women's heeled shoes are manufactured in the shoe covering mode of the foot bed built-in the shoe covering mode compared with the rear-mounted foot bed. The foot bed is not easy to shift, so that the foot bed can be used for relieving the inner arch, the transverse arch, the heel and even the outer arch supporting parts in the walking dynamic process, and can also accurately provide effective support and shock energy absorption for the corresponding inner arch, the transverse arch, the heel and even the outer arch of the foot.

In order to better understand the above technical solutions, the following detailed description will refer to the accompanying drawings and specific embodiments.

Example 1

A reduced-pressure, heel-strike footbed, as shown in fig. 2, includes a footbed body 100: the upper end surface of the footbed main body 100 is provided with a slip-preventing structure 200, and the slip-preventing structure 200 at least comprises a medial arch protruding support part 210, a lateral arch protruding support part 220 and a heel depression bearing part 230; the pre-set shape of the medial arch support 210, lateral arch support 220, and heel depression support 230 matches the plantar structure;

specifically, the anti-slip structure 200 of the footbed body 100 is composed of a medial arch support 210, a lateral arch support 220, and a heel depression support 230; the medial arch support 210, lateral arch support 220, and heel depression support 230 together form a multi-point anti-slip structure 200 that prevents the foot from slipping in the toe direction.

The preset shapes of the medial arch support 210, lateral arch support 220, and heel depression support 230 may be custom designed according to the following:

the human being steps on the modeling mold, and calculates the preset shapes of the inner arch raised support 210, the lateral arch raised support 220, and the heel depression support 230 according to the concave-convex structure of the foot print left by the modeling mold.

The inner arch support 210, the lateral arch support 220, and the heel depression receiver 230 are located on the foot bed main body 100 at positions corresponding to the inner arch, the lateral arch, and the heel of the sole.

That is, the medial arch support 210, the lateral arch support 220, and the heel depression receiver 230 are positioned on the footbed body 100 such that the medial arch, the lateral arch, and the heel of the sole correspond when the sole is normally stepped on the footbed body 100.

Specifically, as shown in fig. 4, the multi-point anti-slip structure 200 is a three-point anti-slip structure 200, and the three-point anti-slip structure 200 forms three anti-slip points α, β and γ in the medial arch support 210, the lateral arch support 220 and the heel depression support, respectively, and the three anti-slip points α, β and γ form a triangle αβγ and follow a sinusoidal triangular relationship γβ/sinα=γα/sinβ=αβ/sinγ.

For flat foot users, the support to the inner arch part is far insufficient, and the support to the lateral arch part is ignored in many cases.

When the walking device is used, the internal arch part, the transverse arch part and the heel are supported, limited and energy-absorbing, so that the walking posture and gait can be close to the normal posture, and the influence on the whole and local health of the body structure due to deviation of the posture and the gait is avoided.

Example 2

The three-point slip prevention structure 200 provides a more stable triangular mechanics at the contact points to prevent the foot from sliding toward the toe, however the slip prevention effect of the point contact may be further enhanced.

As shown in fig. 3, the footbed body 100 is divided into a forefoot region, a 110 arch region 130, and a heel region 120 corresponding to the sole of the human foot; the medial arch support 210 and the lateral arch support 220 are located in the arch region 130 and the heel depression support 230 is located in the heel region 120; the thickness of heel region 120 is less than the thickness of arch region 130. In addition, the thickness of heel region 120 may be selected to be less than the thickness of the forefoot region and/or the thickness of heel region 120 may be less than the thickness of arch region 130 in combination with the thickness of arch region 130 being greater than the thickness of the forefoot region.

Because the thickness of the heel region 120 is smaller than the thickness of the arch region 130, the corresponding portion of the foot bed that is contacted by the heel core and the peripheral portion is a lower contact surface relative to the arch region 130, and the height difference between the arch region 130 and the heel region 120 is higher than the arch region 130, so that the interface region between the newer region and the heel region 120 forms a contact surface that blocks the foot from sliding toward the toe. In use, when a foot is placed on the foot bed, the heel contacts the heel-concave support 230, and the thickness difference combines with the characteristic that the weight of the foot is mainly concentrated at the heel when standing or walking, thereby forming a common downward force of the heel portion, which is respectively a force tightly attached to the heel-concave support 230 and a downward force tightly attached to the heel region 120, that is, the heel core portion is tightly attached to the heel-concave support 230 and the heel periphery portion is tightly attached to the heel-concave support 230 in the heel region 120, thereby realizing a further strengthening of the foot support and the anti-slip force.

Example 4

The arch support may be designed in a variety of shapes depending on the particular user, as shown in fig. 5-7: the inner arch support 210 is polyhedral in shape and the lateral arch support 220 is further provided with a lateral longitudinal arch support at the end remote from the inner arch.

Specifically, the shape of the arch support 210 is one of a dumpling shape, a three-sided dumpling shape, a half-moon shape, and a shrimp shape.

Other shapes not listed are also within the scope of this embodiment.

Example 5

The heel shoes are worn for too long, and the situation of bacterial accumulation is unavoidable, so that the embarrassing situation of peculiar smell is caused. To facilitate antimicrobial deodorizing of the heel shoe, as shown in fig. 8-9: the upper surface of the foot bed main body 100 is also provided with a ventilation layer 240, a sponge layer 243 is arranged below the ventilation layer 240, and the atomized aromatic sterilization spray is sprayed to the ventilation holes 241 of the ventilation layer 240, so that the atomized aromatic sterilization enters and stays on the sponge layer 243 through the ventilation layer 240.

In contrast to the cortical footbed body 100, a functional spray (e.g., fragrance sterilization) may be sprayed directly into the sponge layer 243 through the ventilation holes 241 and distributed within the sponge layer 243. The cortical foot bed body 100 may then block the even spray of the functional spray.

Example 6

Embodiments of the present utility model also provide a women's heel shoe, as shown in fig. 10, comprising a reduced pressure women's heel footbed as in any one of the above examples.

Specifically, the women's heel shoe is a overshoe, the half sole part of the middle sole 300 of the women's heel shoe is left empty, the outsole of the women's heel shoe is an outsole which can be folded up and down by 180 degrees, and the heel 10 is fixed under the outsole.

More specifically, the soft material of the midsole 300 of the heel shoe may be twisted and folded on the left portion on the basis of the left portion.

More specifically, the foot bed may employ one or more of a sponge, a sponge-like, and a memory sponge.

The half sole portion of the women's heel shoe as a whole can be folded up and down 180 degrees.

In particular, the present utility model further comprises a female heel shoe last 500, wherein the lower end surface of the last 500 is provided with a medial arch depression 510, a lateral arch depression 520 and a heel protrusion 530, so as to form the medial arch protrusion support 210, the lateral arch protrusion support 220 and the heel depression support 230.

As shown in fig. 13, the upper part of fig. 13 is a schematic diagram of the situation that only one slip-stopping point exists before the change, the lower part is a schematic diagram of the situation that a plurality of slip-stopping points exist after the change, the first slip-stopping point and the second slip-stopping point are naturally formed by applying the characteristics of the memory sponge, the sole of a wearer is prevented from sliding forward, and the third slip-stopping point is arranged corresponding to the lumbar arch and is also formed by applying the memory sponge.

The embodiments of the present utility model have been described in detail above with reference to the accompanying drawings, but the present utility model 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 to these embodiments without departing from the principles and spirit of the utility model, and yet fall within the scope of the utility model.

Claims (10)

1. The utility model provides a decompression heel shoes foot bed, includes foot bed main part, its characterized in that: the upper end face of the footbed main body is provided with a slip-resistant structure, and the slip-resistant structure at least comprises one of a medial arch convex supporting part, a lateral arch convex supporting part and a heel concave supporting part; the preset shapes of the inner arch raised supporting part, the transverse arch raised supporting part and the heel depression supporting part are matched with the sole structure; wherein,, the foot bed body is characterized in that the positions of the inner arch bulge supporting part, the transverse arch bulge supporting part and the heel depression supporting part are corresponding to the positions of the inner arch, the transverse arch and the heel of the sole.

2. The reduced pressure, female heel footbed of claim 1, wherein: the anti-slip structure consists of the inner arch raised supporting part, the transverse arch raised supporting part and the heel depression supporting part; the inner arch raised support, the lateral arch raised support and the heel depression support together form a multi-point anti-slip structure that prevents the foot from sliding in the toe direction.

3. The reduced pressure, female heel footbed of claim 2, wherein: the multi-point anti-slip structure is a three-point anti-slip structure, three anti-slip points alpha, beta and gamma are respectively formed on the inner arch bulge supporting part, the transverse arch bulge supporting part and the heel depression bearing, the three anti-slip points alpha, beta and gamma form a triangle alpha beta gamma, and the three anti-slip points follow a sine triangle relation gamma beta/sinalpha = gamma alpha/sinbeta = alpha beta/singamma.

4. The reduced pressure, female heel footbed of claim 2, wherein: the foot bed main body is divided into a forefoot region, a sole center region and a heel region corresponding to the sole of a human body; the inner arch raised support part and the transverse arch raised support part are positioned in the arch region, and the heel concave bearing part is positioned in the heel region; the heel region has a thickness that is less than the arch region.

5. A reduced pressure female heel footbed as claimed in any one of claims 2-4, wherein: the shape of the inner arch raised supporting part is a polyhedron; the lateral arch raised support is further provided with a lateral longitudinal arch raised support at one end of the lateral arch raised support, which is far away from the medial arch.

6. A reduced pressure female heel footbed as claimed in any one of claims 2-4, wherein: the shape of the arch support is a half moon.

7. A reduced pressure female heel footbed as claimed in any one of claims 2-4, wherein: the foot bed is characterized in that the upper surface of the foot bed main body is also provided with a ventilation layer, a sponge layer is arranged below the ventilation layer, aromatic sterilization spray is sprayed through a ventilation hole of the ventilation layer, and atomized aromatic sterilization enters and stays in the sponge layer through the ventilation layer.

8. A pair of female heel shoes, characterized in that: a reduced pressure female heel footbed comprising any one of claims 1-7.

9. A female heel shoe as claimed in claim 8 wherein: the heel shoe is a overshoe, the half sole part of the middle sole of the heel shoe is left empty, and the outsole of the heel shoe is a 180-degree upper and lower folding outsole.

10. A last, characterized in that: for making the female heel shoe as claimed in claim 9, the lower end surface of the last is provided with a medial arch depression, a lateral arch depression and a heel protrusion.

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