CN216135284U - Half insole of female heel shoe and female heel shoe - Google Patents
Half insole of female heel shoe and female heel shoe Download PDFInfo
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- CN216135284U CN216135284U CN202120553270.0U CN202120553270U CN216135284U CN 216135284 U CN216135284 U CN 216135284U CN 202120553270 U CN202120553270 U CN 202120553270U CN 216135284 U CN216135284 U CN 216135284U
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Abstract
The utility model discloses a half insole of a pair of female heels, which comprises a main body, wherein one end of the main body, which is close to a forefoot, is left empty, and the part of the main body, which is far away from the forefoot, is made of hard materials; both ends of the bottom of the main body, which are close to the hollow part, are provided with convex landing points, and a flat part is arranged between the convex landing points; by leaving a space at one end of the main body close to the half sole of the foot, when the soft foot bed and the outsole respectively clamp the main body up and down, the half sole part can be folded upwards by 180 degrees; the raised landing points are combined with the flat parts, so that the firmness of the half midsole is enhanced. The female heel shoe adopting the half midsole of the female heel shoe has firm structure and effectively reduces the pressure of feet.
Description
Technical Field
The utility model relates to the technical field of female heel shoes, in particular to a female heel shoe midsole, and particularly relates to a female heel shoe half midsole and a female heel shoe.
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.
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 neck stiffness increased by 22% if you were to wear 7 cm high heeled shoes for 2 hours. However, health professionals at the university of Harvard, USA, found that wearing 4-6 cm high-heeled shoes is most helpful for losing weight, and shoes of this height can effectively consume the metabolism rate of the waist and abdomen fat. Many women can choose to wear high-heeled shoes with proper height in both formal occasions and leisure occasions. 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:
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 the soft midsole can reduce the pressure on the foot, the soft midsole can cause insufficient supporting force on the foot, and further cause the unstable structure of the heel shoes for women. The use of a hard midsole may result in increased pressure on the foot, and particularly when the front end of the foot is raised, the midsole may be too hard and may restrict the motion of the foot, resulting in discomfort due to compression of the foot.
SUMMERY OF THE UTILITY MODEL
On the one hand, the technical problem to be solved by the utility model is to provide the half midsole of the female heel shoe, which solves the technical problems that the midsole of the female heel shoe in the prior art is unstable in structure and large in pressure on feet, and achieves the technical effects of being stable in structure and relieving the pressure on the feet.
In order to solve the technical problems, the technical scheme of the utility model is as follows:
a half insole of a female heel shoe comprises a main body, wherein the main body is a half main body, one end of the main body close to a forefoot is left empty, and the part of the main body far away from the forefoot is made of hard materials; the thickness of the main body is a preset thickness; both ends of the bottom of the main body, which are close to the hollow part, are provided with convex landing points, and a flat part is arranged between the convex landing points; by leaving a space at one end of the main body close to the half sole of the foot, when the soft foot bed and the outsole respectively clamp the main body up and down, the half sole part can be folded upwards by 180 degrees; the raised landing points are combined with the flat parts, so that the firmness of the half midsole is enhanced.
Preferably, a sole radian convex part is arranged in the middle of the bottom of the main body, and a sole radian concave part matched with the sole radian convex part is arranged in the middle of the front surface of the main body; the main body is a single-layer or multi-layer main body formed by integral injection molding or one or more layers of pulp boards.
Preferably, one end of the main body, which is far away from the flat part, is provided with a plurality of nail locking holes and nail nailing holes; the main body can also be formed by 3D printing.
Preferably, one end of the main body, which is far away from the flat part, is provided with 2 nail locking holes and 2 nail nailing holes; the connecting line between the central points of the nail locking holes is vertical to the connecting line between the central points of the nailing holes.
Particularly preferably, the steel core is embedded and penetrates through the middle of the inner part of the main body.
Preferably, one end of the steel core, which is far away from the flat portion, is provided with a plurality of first through holes and second through holes, and the first through holes and the second through holes are respectively matched with the nail locking holes and the nailing holes.
Preferably, a foldable bearing structure layer is arranged at one end of the main body, which is close to the forefoot; when the soft foot bed and the outsole respectively clamp the main body up and down, the half sole part can be folded upwards by 180 degrees.
More preferably, the foldable support structure layer is one or more of the following:
one or more layers of soft materials with preset thickness, which coat the whole main body and extend to one end of the half sole;
one or more layers of soft materials with preset thickness are fixed at one end of the main body close to the forefoot;
one or more layers of foldable materials with preset thickness and containing a plurality of cutting openings or holes are fixed at one end of the main body close to the forefoot;
one or more layers of frame materials with hollows in the middle are fixed at one end of the main body close to the forefoot, wherein the hollowed part of the frame materials with hollows in the middle can be filled with soft materials or directly left empty;
one or more layers of soft materials with preset thickness are attached above and/or below the main body;
the supporting material is fixed at the foremost end of the sole of the foot through the connecting material.
Particularly preferably, the body is full of vent holes extending therethrough; the soft material is one or more of the following materials:
one or more combined wrapping layers of sponge, latex or fabric with preset thickness, which wrap the whole main body and extend to one end of the half sole;
one or more layers of upper-layer sponge lower-layer adhesive cloth assemblies with preset thickness are fixed at one end of the main body close to the forefoot;
the single-layer or multi-layer upper and lower sponge middle fabric composite layers are attached to the main body and extend to one end close to the forefoot, and the upper and lower sponge middle fabric composite layers have preset thicknesses.
In another aspect, the utility model provides a pair of female heel shoes comprising the half midsoles, wherein the large sole and the footbed of each female heel shoe are made of foldable materials, so that the front sole part can be folded upwards by 180 degrees; the foot bed can be further sleeved in the bag, and a middle sole is nested below the bag.
One or more technical solutions provided by the present application have at least the following technical effects or advantages:
according to the technical scheme, one end of the main body, which is close to the forefoot, is left empty, and the part of the main body, which is far away from the forefoot, is made of hard materials; the two ends of the bottom of the main body, which are close to the hollow part, are provided with a series of protruding landing points, and flat parts are arranged between the protruding landing points. When the soft foot bed and the outsole respectively clamp the main body up and down, the half sole part can be folded upwards by 180 degrees; the raised landing points are combined with the flat parts, so that the firmness of the half midsole is enhanced. In addition, the convex landing points can also strengthen the support for the foot and reduce the pressure of the foot. Effectively solved the technical problem that the structure is unstable and big to foot pressure in the heel shoes insole of women among the prior art, and then realized strengthening insole structural stability and alleviate foot pressure's technological effect.
Drawings
FIG. 1 is a schematic structural view of the present invention;
FIG. 2 is a top view of the present invention;
FIG. 3 is a schematic structural view of a steel core according to the present invention;
FIG. 4 is a schematic view of the heel of the present invention;
FIG. 5 is a schematic view of a foldable support structure of the present invention covering the entire body and extending to a soft material with a predetermined thickness at one end of the front sole;
FIG. 6 is a schematic view of a foldable support structure of the present invention attached to a soft material of a predetermined thickness near the forefoot of the body;
FIG. 7 is a schematic view of a foldable support structure of the present invention secured to a foldable material having a predetermined thickness near the forefoot of the body and containing a plurality of cuts or perforations;
FIG. 8 is a schematic view of a foldable support structure according to the present invention attached to one or more layers of frame material hollowed out in the center of the body near the forefoot;
FIG. 9 is a schematic view of a foldable support structure according to the present invention attached to a soft material of a predetermined thickness above and below the main body;
figure 10 is a schematic view of a collapsible support structure of the present invention attached to a support material near the forward most portion of the forefoot by a connecting material;
FIG. 11 is a schematic structural view of an embodiment of the present invention employing the air permeable midsole body structure.
In the figure, 10-main body, 11-oblique side, 20-convex landing, 30-arch convex part of sole, 31-arch concave part of sole, 40-flat part, 50-nail locking hole, 51-first through hole, 60-nail locking hole, 61-second through hole, 70-steel core, 80-heel; 100-soft material, 101-sponge, 103-fabric, 105-adhesive cloth, 200-hard material, 201-cutting opening, 300-frame material, 301-hollowed part and 400-air hole.
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.
According to the technical scheme of the embodiment of the application, the half midsole of the female heel shoe is provided, the problems that the midsole of the female heel shoe in the prior art is unstable in structure and high in pressure on feet are solved, a space is reserved at one end, close to the forefoot, of the main body 10, and the part, far away from the forefoot, of the main body 10 is made of hard materials; both ends of the bottom of the main body 10, which are close to the hollow part, are provided with protruding landing points 20, and under the means of a flat part 40 arranged between the protruding landing points 20, the area of the contact ground is increased, thereby realizing the beneficial effects of enhancing the structural stability of the insole and relieving the pressure of the foot.
The general idea of the embodiment of the utility model for solving the technical problems is as follows:
currently, there is a pair of contradictions in the design of midsoles:
although the soft midsole can reduce the pressure on the foot, the soft midsole can cause insufficient supporting force on the foot, and further cause the unstable structure of the heel shoes for women.
The use of a hard midsole may result in increased pressure on the foot, and particularly when the front end of the foot is raised, the midsole may be too hard and may restrict the motion of the foot, resulting in discomfort due to compression of the foot.
In order to solve the above-mentioned contradiction:
one end of the main body 10 close to the forefoot is left empty, and the part of the main body 10 far away from the forefoot is made of hard materials; the bottom of the main body 10 is provided with a series of protruding landing points 20 at both ends close to the hollow part, and a flat part 40 is arranged between the protruding landing points 20. So that when the soft foot bed and the outsole respectively clamp the main body 10 up and down, the half sole part can be folded upwards by 180 degrees; the firmness of the half midsole is enhanced by the raised landing sites 20 in combination with the flat portion 40. In addition, raised landing sites 20 may provide increased support to the foot, reducing foot pressure. Flats 40 are provided between raised landing points 20 to increase the ground contact area to enhance stability of the midsole structure and relieve foot pressure.
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 half midsole for a female heel shoe, as shown in fig. 1 and 2, comprising a body 10: one end of the main body 10 close to the forefoot is left empty, and the part of the main body 10 far away from the forefoot is made of hard materials; both ends of the bottom of the main body 10, which are close to the hollow part, are provided with convex landing points 20, and a flat part 40 is arranged between the convex landing points 20; by leaving a space at one end of the main body 10 close to the half sole of the foot, when the soft foot bed and the outsole respectively clamp the main body 10 up and down, the half sole part can be folded upwards by 180 degrees; the firmness of the half midsole is enhanced by the raised landing sites 20 in combination with the flat portion 40.
One or more technical solutions provided by the present embodiment have at least the following technical effects or advantages:
according to the technical scheme, one end of the main body 10, which is close to the forefoot, is left empty, and the part of the main body 10, which is far away from the forefoot, is made of hard materials; the bottom of the main body 10 is provided with a series of protruding landing points 20 at both ends close to the hollow part, and a flat part 40 is arranged between the protruding landing points 20. So that when the soft foot bed and the outsole respectively clamp the main body 10 up and down, the half sole part can be folded upwards by 180 degrees; the firmness of the half midsole is enhanced by the raised landing sites 20 in combination with the flat portion 40. In addition, raised landing sites 20 may provide increased support to the foot, reducing foot pressure. Effectively solved the technical problem that the structure is unstable and big to foot pressure in the heel shoes insole of women among the prior art, and then realized strengthening insole structural stability and alleviate foot pressure's technological effect.
Second embodiment
A half midsole for a female heel shoe, as shown in fig. 1 and 2, comprising a body 10: one end of the main body 10 close to the forefoot is left empty, and the part of the main body 10 far away from the forefoot is made of hard materials; both ends of the bottom of the main body 10, which are close to the hollow part, are provided with convex landing points 20, and a flat part 40 is arranged between the convex landing points 20; by leaving a space at one end of the main body 10 close to the half sole of the foot, when the soft foot bed and the outsole respectively clamp the main body 10 up and down, the half sole part can be folded upwards by 180 degrees; the firmness of the half midsole is enhanced by the raised landing sites 20 in combination with the flat portion 40.
Specifically, a sole arc protruding portion 30 is disposed in the middle of the bottom of the main body 10, and a sole arc recessed portion 31 matched with the sole arc protruding portion 30 is disposed in the middle of the front of the main body 10.
More specifically, the end of the main body 10 away from the flat portion 40 is provided with 2 nail locking holes 50 and nail driving holes 60.
Specifically, a line connecting the center points of the nail holes 50 is perpendicular to a line connecting the center points of the nail holes 60.
More specifically, as shown in fig. 3 and 4, it further comprises a steel core 70, the steel core 70 being nested throughout the middle inside the main body 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, one end of the main body 10, which is close to the forefoot, is left empty, and the part of the main body 10, which is far away from the forefoot, is made of hard materials; the bottom of the main body 10 is provided with a series of protruding landing points 20 at both ends close to the hollow part, and a flat part 40 is arranged between the protruding landing points 20. So that when the soft foot bed and the outsole respectively clamp the main body 10 up and down, the half sole part can be folded upwards by 180 degrees; the firmness of the half midsole is enhanced by the raised landing sites 20 in combination with the flat portion 40. In addition, raised landing sites 20 may provide increased support to the foot, reducing foot pressure. Effectively solved the technical problem that the structure is unstable and big to foot pressure in the heel shoes insole of women among the prior art, and then realized strengthening insole structural stability and alleviate foot pressure's technological effect.
The steel core 70 is arranged to further strengthen the structure of the midsole, so that the midsole is firmer.
Third embodiment
A half midsole for a female heel shoe, as shown in fig. 1 and 2, comprising a body 10: one end of the main body 10 close to the forefoot is left empty, and the part of the main body 10 far away from the forefoot is made of hard materials; both ends of the bottom of the main body 10, which are close to the hollow part, are provided with convex landing points 20, and a flat part 40 is arranged between the convex landing points 20; by leaving a space at one end of the main body 10 close to the half sole of the foot, when the soft foot bed and the outsole respectively clamp the main body 10 up and down, the half sole part can be folded upwards by 180 degrees; the firmness of the half midsole is enhanced by the raised landing sites 20 in combination with the flat portion 40.
Specifically, a sole arc protruding portion 30 is disposed in the middle of the bottom of the main body 10, and a sole arc recessed portion 31 matched with the sole arc protruding portion 30 is disposed in the middle of the front of the main body 10.
More specifically, the end of the main body 10 away from the flat portion 40 is provided with 2 nail locking holes 50 and nail driving holes 60.
Specifically, a line connecting the center points of the nail holes 50 is perpendicular to a line connecting the center points of the nail holes 60.
More specifically, as shown in fig. 3 and 4, it further comprises a steel core 70, the steel core 70 being nested throughout the middle inside the main body 10.
Particularly, one end of the steel core 70 far away from the flat portion 40 is provided with a plurality of first through holes 51 and second through holes 61, and the first through holes 51 and the second through holes 61 are respectively matched with the nail locking eyelets 50 and the nailing holes 60.
This embodiment provides a woman's heel shoes including above-mentioned woman's heel shoes half insole, and the outsole and the footbed of woman's heel shoes adopt soft material to make preceding sole part upwards folding 180 degrees. The height of the heel 80 can be freely selected.
One or more technical solutions provided by the present embodiment have at least the following technical effects or advantages:
according to the technical scheme, one end of the main body 10, which is close to the forefoot, is left empty, and the part of the main body 10, which is far away from the forefoot, is made of hard materials; the bottom of the main body 10 is provided with a series of protruding landing points 20 at both ends close to the hollow part, and a flat part 40 is arranged between the protruding landing points 20. So that when the soft foot bed and the outsole respectively clamp the main body 10 up and down, the half sole part can be folded upwards by 180 degrees; the firmness of the half midsole is enhanced by the raised landing sites 20 in combination with the flat portion 40. In addition, raised landing sites 20 may provide increased support to the foot, reducing foot pressure. Effectively solved the technical problem that the structure is unstable and big to foot pressure in the heel shoes insole of women among the prior art, and then realized strengthening insole structural stability and alleviate foot pressure's technological effect.
The steel core 70 is arranged to further strengthen the structure of the midsole, so that the midsole is firmer. One end of the steel core 70 far away from the flat portion 40 is provided with a plurality of first through holes 51 and second through holes 61, and the first through holes 51 and the second through holes 61 are respectively matched with the nail locking holes 50 and the nailing holes 60, so that the structure can still be kept firm after the heel 80 is installed.
Fourth embodiment
The various foldable support structure layers are described as follows:
as shown in fig. 5, the foldable support structure layer is a soft material 100 with a predetermined thickness, for example, more than 2mm, covering the entire body and extending to one end of the forefoot:
specifically, the upper and lower layers or even multiple layers of sponge 101 cover the main body 10 and extend to one end of the forefoot, and a fabric 103 is arranged between the upper and lower layers. Alternatively, the upper and lower layers or even multiple layers of fabric 103 may cover the body 10 and extend to the forefoot end, with the sponge 101 disposed therebetween. The fabric 103 and sponge 101 composite extending to the ball end forms a collapsible support structure.
As shown in fig. 6, the foldable support structure is a soft material 100 with a predetermined thickness fixed on the end of the main body near the forefoot:
specifically, the soft material 100 is a sponge 101 or/and a fabric 103.
As shown in fig. 7, the foldable support structure is a foldable support structure fixed to the end of the body near the forefoot and having a predetermined thickness and containing a plurality of cut materials:
specifically, the main body 10 and the end near the sole of the foot may be integrally formed or joined, or may be one or more layers, and the end near the sole of the foot is a hard material 200 including a plurality of cuts 201, because the presence of the plurality of cuts 201 enables the hard material 200 to be folded up to 180 degrees, thereby forming a foldable support structure layer.
As shown in fig. 8, the foldable support structure is one or more layers of frame material hollowed out in the middle of the body near the forefoot: 300-frame material, 301-hollowed out portion,
specifically, the middle of one or more layers of materials of the main body close to one end of the forefoot is hollowed, the edge of the materials forms a frame material 300, the middle of the materials forms a hollowed part 301, and one end of the main body close to the forefoot is combined below the frame material 300 by the hollowed part 301 and can be folded by 180 degrees. The hollowed-out portion 301 may be backfilled with a soft material, and still be folded up at 180 degrees after backfilling with the soft material.
As shown in fig. 9, the foldable support structure layer is a soft material 100 with a preset thickness attached above and below the main body: 101-sponge, 105-patch
Specifically, the upper part may be the sponge 101, the lower part may be the patch 105, or the upper part may be the patch 105 and the lower part may be the sponge 101. It may be a combination of the sponge 101 and the patch 105 alternating with each other or a single layer or multiple layers. The sponge 101 and the patch 105 are soft materials and thus can be folded 180 degrees.
As shown in figure 10, the foldable support structure is a support material attached to the front of the forefoot by a connecting material.
Specifically, the soft material 100 is connected to one end of the sole of the foot of the main body 10, and the other end of the sole of the foot away from the main body 10 is a supporting material made of the same material as the main body 10. The support material and the main body 10 can also be connected by a linear soft connecting object, and when the middle sole is placed on the soft foldable big sole, the whole structure can be folded by 180 degrees.
Fifth embodiment
The midsole body is designed to be breathable, and as shown in fig. 11, the ventilation holes 400 are distributed throughout the body 10. The airing holes 400 are formed all over and through the midsole of the main body 10 to match the structures of the first to fourth embodiments.
The main body of the above embodiment may be made using a conventional method or 3D printing.
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 (10)
1. The utility model provides a half insole of woman's heel shoes, includes the main part, its characterized in that: the main body is a half-section main body, one end of the main body close to the forefoot is left empty, and the part of the main body far away from the forefoot is made of hard materials; the thickness of the main body is a preset thickness; both ends of the bottom of the main body, which are close to the hollow part, are provided with convex landing points, and a flat part is arranged between the convex landing points; by leaving a space at one end of the main body close to the half sole of the foot, when the soft foot bed and the outsole respectively clamp the main body up and down, the half sole part can be folded upwards by 180 degrees; the raised landing points are combined with the flat parts, so that the firmness of the half midsole is enhanced.
2. The half midsole of a female heel shoe as claimed in claim 1, wherein: a sole radian bulge is arranged in the middle of the bottom of the main body, and a sole radian concave part matched with the sole radian bulge is arranged in the middle of the front surface of the main body; the main body is a single-layer or multi-layer main body formed by integral injection molding or one or more layers of pulp boards.
3. The half midsole of a female heel shoe according to claim 1 or 2, wherein: one end of the main body, which is far away from the flat part, is provided with a plurality of nail locking holes and nail shooting holes; the main body can also be formed by 3D printing.
4. The half midsole of a female heel shoe as claimed in claim 3, wherein: one end of the main body, which is far away from the flat part, is provided with 2 nail locking holes and 2 nail nailing holes; the connecting line between the central points of the nail locking holes is vertical to the connecting line between the central points of the nailing holes.
5. The half midsole of a female heel shoe according to claim 4, wherein: the steel core is nested and penetrates through the middle of the interior of the main body.
6. The half midsole of a female heel shoe according to claim 5, wherein: one end, far away from the flat portion, of the steel core is provided with a plurality of first through holes and a plurality of second through holes, and the first through holes and the second through holes are respectively matched with the nail locking holes and the nailing holes.
7. The half midsole of a female heel shoe according to any one of claims 1, 2 or 4 to 6, wherein: one end of the main body, which is close to the forefoot, is provided with a foldable bearing structure layer.
8. The half midsole of a female heel shoe as claimed in claim 7, wherein: the foldable support structure layer is one or more of the following:
one or more layers of soft materials with preset thickness, which coat the whole main body and extend to one end of the half sole;
one or more layers of soft materials with preset thickness are fixed at one end of the main body close to the forefoot;
one or more layers of foldable materials with preset thickness and containing a plurality of cutting openings or holes are fixed at one end of the main body close to the forefoot;
one or more layers of frame materials with hollows in the middle are fixed at one end of the main body close to the forefoot, wherein the hollows of the frame materials with hollows in the middle can be filled with soft materials or directly left empty;
one or more layers of soft materials with preset thickness are attached above and/or below the main body;
the supporting material is fixed at the foremost end of the sole of the foot through the connecting material.
9. The half midsole of a female heel shoe as claimed in claim 8, wherein: the main body is fully distributed with vent holes penetrating through the main body; the soft material is one or more of the following materials:
one or more combined wrapping layers of sponge, latex or fabric with preset thickness, which wrap the whole main body and extend to one end of the half sole;
one or more layers of upper-layer sponge lower-layer adhesive cloth assemblies with preset thickness are fixed at one end of the main body close to the forefoot;
the single-layer or multi-layer upper and lower sponge middle fabric composite layers are attached to the main body and extend to one end close to the forefoot, and the upper and lower sponge middle fabric composite layers have preset thicknesses.
10. A female heel shoe comprising the half midsole of a female heel shoe as defined in any one of claims 1 to 9, wherein: the outsole and the footbed of the female heel shoe are made of foldable materials, so that the front sole part can be folded upwards by 180 degrees; the foot bed can be further sleeved in the bag, and a middle sole is nested below the bag.
Priority Applications (1)
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CN202120553270.0U CN216135284U (en) | 2021-03-17 | 2021-03-17 | Half insole of female heel shoe and female heel shoe |
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CN202120553270.0U CN216135284U (en) | 2021-03-17 | 2021-03-17 | Half insole of female heel shoe and female heel shoe |
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