CN219645148U

CN219645148U - Comfortable shoe outsole and high-heeled shoe

Info

Publication number: CN219645148U
Application number: CN202223130848.5U
Authority: CN
Inventors: 吴志强
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-11-24
Filing date: 2022-11-24
Publication date: 2023-09-08
Anticipated expiration: 2032-11-24

Abstract

The utility model discloses a comfortable outsole and a high-heeled shoe, which are characterized by comprising a bottom plate, a buffer component arranged at the position corresponding to the arch rising part of the sole of a human body on the front surface of the bottom plate, and flexible components arranged on the front surface of the bottom plate and positioned on two sides of the buffer component; the buffer component comprises an embedded groove and an elastic block, wherein the embedded groove is arranged at the position of the bottom plate corresponding to the arch lifting part of the sole of the human body, and the elastic block is embedded in the embedded groove; through the design of the shoe outsole, the problem that the shoe outsole is thick and heavy and difficult to bend when the enough buffering performance is guaranteed is solved, the enough buffering elastic performance of the arch raising part of the sole is guaranteed, meanwhile, the easy bending rate of the shoe outsole in the walking process is improved, and the softness and wearing comfort of the shoe outsole are improved.

Description

Comfortable shoe outsole and high-heeled shoe

Technical Field

The utility model belongs to the technical field of shoe parts, and particularly relates to a comfortable shoe outsole and a high-heeled shoe.

Background

The sole is a main component in the shoe, and is positioned at the outermost bottom of the shoe, so that the sole has good anti-skid, wear-resistant, corrosion-resistant and other effects.

The prior Chinese patent application number 201120450938.5 discloses a sole buffer structure and a high-heeled shoe using the sole buffer structure, wherein the buffer structure is arranged at the front sole, and a composite middle-low plate layer, a surface lining layer and a composite layer in the buffer structure are sequentially fixed in the shoe in sequence, so that the sole can be buffered, and damage to human bodies caused by overlarge front sole stress in the process of wearing the high-heeled shoe is prevented.

In this way, when various layers are overlapped to improve the buffering capacity, the weight of the shoe is correspondingly increased, and the whole sole is thick, so that the shoe which is assembled in practice is not easy to bend in the walking process, and the softness and wearing comfort are greatly reduced.

Disclosure of Invention

The comfortable sole and the high-heeled shoe solve the problem that the sole is thick and heavy and is not easy to bend when the sole is ensured to have enough buffering performance by designing the sole, realize the enough buffering elastic performance of the arch part of the sole, improve the bending rate of the sole in the walking process and improve the softness and wearing comfort of the sole.

The technical scheme provided by the utility model is as follows:

the comfortable shoe outsole is characterized by comprising a bottom plate, a buffer component arranged at the position corresponding to the arch lifting part of the sole of a human body on the front surface of the bottom plate, and pliable components arranged on the front surface of the bottom plate and positioned on two sides of the buffer component;

the buffer component comprises an embedded groove and an elastic block, wherein the embedded groove is arranged at the position, corresponding to the arch lifting part of the sole of the human body, of the base plate, and the elastic block is embedded in the embedded groove. The elastic block is fixedly embedded in the embedded groove, so that buffering force is uniformly distributed in the embedded groove, and the arch rising part of the sole is effectively protected; the adhesive layer can be white adhesive or yellow adhesive.

Wherein, the front of the bottom plate is one surface which can be contacted with the sole, and the back of the bottom plate is one surface contacted with the ground.

According to the high-heeled shoe, the embedded groove and the elastic block are arranged at the arch part of the sole, so that the elasticity of the arch part of the sole is effectively increased, the impact force applied to the arch part of the sole can be greatly buffered when the high-heeled shoe is worn, and the comfort of the arch part of the sole is improved. And the embedding groove and the elastic block are embedded, so that the elasticity of the corresponding position can be improved on the premise that the whole thickness is not too thick. However, the method of providing the embedded grooves to fill the elastomeric blocks still has a relatively thicker thickness than the plain outsole, but is thinner than the outsole with better cushioning properties, e.g., the plain outsole has a thickness of about 3mm, and the inventive sole has a thickness of about 5mm, and the softness of the thin outsole is generally better than that of the thicker outsole. Through set up the flexible subassembly in buffer unit both sides, can effectively increase the flexibility of bottom plate, correspondingly improve the compliance of bottom plate, effectively solve the problem that the compliance is poor because the bottom plate is thicker, have the compliance of whole bottom plate concurrently when guaranteeing that the bottom plate has better elasticity in relevant position, improve the wearing travelling comfort.

Wherein the depth of the embedded groove is 2.5-3.5mm. Through this setting for the elasticity piece of certain thickness can be placed to the embedded groove, guarantees that the bottom plate corresponds sole and plays the arch position and have abundant elasticity buffer capacity, improves comfort level.

Wherein the bottom plate is a rubber bottom plate or a thermoplastic polyurethane bottom plate. Through this setting, can select the bottom plate material in a flexible way according to actual conditions, the production convenience of being convenient for.

Wherein the bottom plate is concave in an arc shape towards the front sole position corresponding to the heel position. Through the arrangement, in the subsequent process of manufacturing the shoe, the outsole is convenient to be connected with heels of any shape, and the application universality of the outsole is improved.

Further, the pliable component comprises a first pliable region arranged on one side of the buffer component and a second pliable region arranged on the other side of the buffer component. Through this setting, guarantee the outsole when guaranteeing better elasticity, also satisfy the easy flexibility of walking in-process outsole, correspondingly improve the compliance of bottom plate, improve the travelling comfort.

Further, the first pliable region comprises a plurality of first grooves which are equidistantly arranged. Wherein the first pliable region may be triangular in shape. The second pliable region includes a plurality of second slots disposed equidistant. The depth of the first groove is the same as the depth of the second groove; the depth of the first groove is 2.5-3.5mm. Through the degree of depth setting in first groove and second groove, can effectively weaken the hardness of bottom plate, improve the easy degree of buckling of bottom plate, guarantee the compliance of wearing.

Wherein the interval between the adjacent second grooves is 1.8-2.2mm. Through the interval setting between the second recess, guarantee to be convenient for buckle when guaranteeing the bottom plate stable structure, laminating sole motion range greatly improves the comfort level of wearing.

Meanwhile, by arranging the flexible assembly, part of the weight of the bottom plate is effectively removed, the whole weight of the outsole can be reduced, and the portability is improved.

Further, the first profile edge formed by the cushioning component and the pliable component is the same as the second profile edge formed by the base plate. Wherein the first profile edge is 5-9mm inwardly retracted from the second profile edge. Through this setting for buffer unit and flexible subassembly's existence can not influence the follow-up processing to the bottom plate border, guarantees its independence, guarantees the smoothness nature of big end processing operation.

Further, the elastic block is a foaming rubber elastic block or a foaming thermoplastic polyurethane elastic block. Through this setting, the material has better cushioning properties, makes its embedding in the first recess, effectively guarantees the bottom plate elasticity that corresponds sole arch position, and the impaired condition to the sole that significantly reduces.

Further, the anti-skid shoe further comprises an anti-skid component arranged on the back surface of the bottom plate and at the corresponding position of the front sole part of the human body, and a leather layer connected with the back surface of the bottom plate and surrounding the edge of the anti-skid component. Wherein, the shape of the cortex corresponding to the front sole position is arc-shaped. Through this setting, increase the contact friction between bottom plate and the ground to effectively improve skid resistance, guarantee the security of wearing. And through setting up the cortex, effectively improve the aesthetic property of big end to and use the wearability, improve life.

Further, the anti-skid component comprises an anti-skid layer connected to the back of the bottom plate at the corresponding position of the front sole part of the human body, and protruding parts distributed on the anti-skid layer at equal intervals. Wherein the anti-slip layer can be a silica gel layer or a rubber layer. The shape of the protruding portion may be various regular or irregular shapes, for example, the protruding portion may be provided in various shapes such as a prismatic shape, a circular shape, a wavy shape, and the like. Through this setting, the skid resistant course sets up in the front sole atress position, effectively makes skid resistant course fully contact the bottom surface, and in addition the setting of bellying, greatly increased with the frictional force between the ground, guarantee skid resistance, improve the wearing safety. And the shape of the protruding part is provided with diversity, so that various requirements are met.

A high-heeled shoe comprises the shoe outsole. The elasticity of the arch part of the sole corresponding to the high-heeled shoe is improved, the damage to the arch part of the sole is greatly reduced, and the wearing comfort is improved.

The utility model has the beneficial effects that:

through the design of the shoe outsole, the problem that the shoe outsole is thick and heavy and difficult to bend when the enough buffering performance is guaranteed is solved, the enough buffering elastic performance of the arch raising part of the sole is guaranteed, meanwhile, the easy bending rate of the shoe outsole in the walking process is improved, and the softness and wearing comfort of the shoe outsole are improved.

Drawings

FIG. 1 is a front view of the present utility model;

FIG. 2 is an enlarged schematic view of the portion A in FIG. 1;

FIG. 3 is a front view of the present utility model (except for the elastomeric block);

FIG. 4 is a rear view of the present utility model;

FIG. 5 is a schematic view of a partial cross-sectional structure of a first pliable region according to the present utility model.

The marks in the figure: a base plate 1; a buffer assembly 2, an embedded groove 21 and an elastic block 22; a pliable component 3, a first pliable region 31, a first slot 311, a second pliable region 32, a second slot 321; a slip prevention unit 4, a slip prevention layer 41, a protrusion 42; a cortex 5.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Example 1

In order to facilitate an understanding of the present utility model by those skilled in the art, the present utility model will be described in further detail with reference to specific examples and drawings.

1-5, an embodiment of the utility model provides a comfortable outsole, which is characterized by comprising a bottom plate 1, a buffer component 2 arranged at the front of the bottom plate 1 and corresponding to the arch part of the sole of a human body, and a flexible component 3 arranged at the front of the bottom plate 1 and positioned at two sides of the buffer component 2;

the buffer assembly 2 comprises an embedded groove 21 arranged at the position of the bottom plate 1 corresponding to the arch part of the sole of the human body, and an elastic block 22 embedded in the embedded groove 21. The embedded groove 21 and the elastic block 22 are connected by adopting an adhesive layer, so that the elastic block 22 is ensured to be stably embedded in the embedded groove 21, the buffer force is uniformly distributed in the embedded groove 21, and the arch rising part of the sole is effectively ensured to be protected; the adhesive layer can be white adhesive or yellow adhesive.

Wherein, the front surface of the bottom plate 1 is one surface which can be contacted with the sole, and the back surface of the bottom plate 1 is one surface which is contacted with the ground.

In the utility model, the embedded groove 21 and the elastic block 22 are arranged at the arch part of the sole, so that the elasticity of the arch part of the sole is effectively increased, the impact force applied to the arch part of the sole can be greatly buffered when the high-heeled shoe is worn, and the comfort of the arch part of the sole is improved. And the embedded arrangement of the embedded groove 21 and the elastic block 22 can effectively ensure that the elasticity of the corresponding position is improved on the premise that the whole thickness is not too thick. However, the method of providing the insert groove 21 to fill the elastic block 22 is still relatively thicker than the thickness of the plain outsole, but thinner than the outsole with better cushioning properties, such as the thickness of the plain outsole being about 3mm, the thickness of the base plate 1 of the present utility model being about 5mm, the softness of the thin outsole generally being better than that of the thick outsole. Through set up flexible subassembly 3 in buffer unit 2 both sides, can effectively increase the pliability of bottom plate 1, correspondingly improve the compliance of bottom plate 1, effectively solve because bottom plate 1 is thicker lead to the poor problem of compliance, guarantee that bottom plate 1 has the compliance of whole bottom plate 1 concurrently when having better elasticity in relevant position, improve the wearing travelling comfort.

Wherein the depth of the embedded groove 21 is 2.5-3.5mm. Through this setting for the elastic block 22 of certain thickness can be placed to embedded groove 21, guarantees that bottom plate 1 corresponds sole arch position and has abundant elasticity buffer capacity, improves comfortable degree.

Wherein the base plate 1 is a rubber base plate 1 or a thermoplastic polyurethane base plate 1. Through this setting, can select bottom plate 1 material in a flexible way according to actual conditions, the production convenience of being convenient for.

Wherein the bottom plate 1 is concave to the front sole position corresponding to the heel position to form an arc shape. Through the arrangement, in the subsequent process of manufacturing the shoe, the outsole is convenient to be connected with heels of any shape, and the application universality of the outsole is improved.

Further, the pliable component 3 includes a first pliable region 31 disposed on one side of the cushioning component 2, and a second pliable region 32 disposed on the other side of the cushioning component 2. Through this setting, guarantee the outsole when guaranteeing better elasticity, also satisfy the easy flexibility of walking in-process outsole, correspondingly improve the compliance of bottom plate 1, improve the travelling comfort.

Further, the first pliable region 31 includes a plurality of first slots 311 disposed at equal intervals. Wherein the first pliable region 31 may be triangular in shape. The second pliable region 32 includes a plurality of second slots 321 disposed equidistantly. The depth of the first groove 311 is the same as the depth of the second groove 321; the depth of the first groove 311 is 2.5-3.5mm. Through the degree of depth setting of first groove 311 and second groove 321, can effectively weaken the hardness of bottom plate 1, improve the easy degree of buckling of bottom plate 1, guarantee the compliance of wearing.

Wherein the interval between the adjacent second grooves is 1.8-2.2mm. Through the interval setting between the second recess, guarantee to be convenient for buckle when guaranteeing bottom plate 1 stable structure, laminating sole motion range greatly improves the comfort level of wearing.

Meanwhile, by arranging the flexible component 3, part of the weight of the bottom plate 1 is effectively removed, the whole weight of the outsole can be reduced, and the portability is improved.

Further, the first profile edge formed by the cushioning component 2 and the pliable component 3 is identical to the second profile edge formed by the base plate 1. Wherein the first profile edge is 5-9mm inwardly retracted from the second profile edge. Through this setting for buffer unit 2 and the existence of flexible subassembly 3 can not influence the follow-up processing to bottom plate 1 border, guarantees its independence, guarantees the smoothness nature of big end processing operation.

Further, the elastic block 22 is a foamed rubber elastic block 22 or a foamed thermoplastic polyurethane elastic block 22. Through this setting, the material has better cushioning properties, makes its embedding in the first recess, effectively guarantees the bottom plate 1 elasticity of corresponding sole arch position, and the impaired condition to the sole that significantly reduces.

Further, the anti-skid device also comprises an anti-skid component 4 arranged on the back surface of the bottom plate 1 and at the corresponding position of the front sole part of the human body, and a leather layer 5 connected with the back surface of the bottom plate 1 and surrounding the edge of the anti-skid component 4. Wherein the shape of the cortex 5 corresponding to the front sole is arc-shaped. Through this setting, increase the contact friction between bottom plate 1 and the ground to effectively improve skid resistance, guarantee the security of wearing. And through setting up cortex 5, effectively improve the aesthetic property of big end to and use the wearability, improve life.

Further, the anti-slip assembly 4 comprises an anti-slip layer 41 connected to the back surface of the base plate 1 at the corresponding position of the front sole part of the human body, and protruding parts 42 distributed on the anti-slip layer 41 at equal intervals. Wherein the anti-slip layer 41 may be a silica gel layer or a rubber layer. The shape of the protruding portion 42 may be various regular or irregular shapes, for example, the protruding portion 42 may be provided in various shapes such as a prismatic shape, a circular shape, a wavy shape, etc. Through this setting, skid resistant course 41 sets up in the ball of the foot atress position, effectively makes skid resistant course 41 fully contact the bottom surface, and in addition the setting of bellying 42, greatly increased with the frictional force between the ground, guarantee skid resistance, improve the wearing safety. And the shape of the protruding part 42 is provided with diversity, so that various requirements are met.

The utility model has the beneficial effects that:

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art. It should be noted that technical features not described in detail in the present utility model may be implemented by any prior art.

Claims

1. The comfortable shoe outsole is characterized by comprising a bottom plate, a buffer component arranged at the position corresponding to the arch lifting part of the sole of a human body on the front surface of the bottom plate, and pliable components arranged on the front surface of the bottom plate and positioned on two sides of the buffer component; the buffer component comprises an embedded groove and an elastic block, wherein the embedded groove is arranged at the position, corresponding to the arch lifting part of the sole of the human body, of the base plate, and the elastic block is embedded in the embedded groove.

2. The comfortable midsole of claim 1, wherein the pliable component includes a first pliable region disposed on one side of the cushioning component and a second pliable region disposed on the other side of the cushioning component.

3. The comfortable midsole of claim 2, wherein the first pliable region includes a plurality of equally spaced first grooves.

4. A comfortable sole according to claim 3, wherein the second pliable region includes a plurality of second grooves disposed equidistantly.

5. The comfortable sole of claim 4, wherein the first groove is the same depth as the second groove; the depth of the first groove is 2.5-3.5mm.

6. The comfortable midsole of claim 1, wherein the cushioning assembly and the pliable assembly form a first contoured edge that is identical to a second contoured edge formed by the chassis.

7. The comfortable midsole of claim 1, wherein the resilient block is a foamed rubber resilient block or a foamed thermoplastic polyurethane resilient block.

8. The comfortable outsole of claim 7, further comprising an anti-slip assembly disposed on a back side of the chassis opposite the portion of the forefoot of the person, a skin layer coupled to the back side of the chassis and surrounding the edge of the anti-slip assembly.

9. The comfortable outsole of claim 8, wherein the anti-slip assembly comprises an anti-slip layer connected to the back of the bottom plate at a position corresponding to the front sole portion of the human body, and protrusions equally spaced from the anti-slip layer.

10. A high-heeled shoe comprising a sole according to any of claims 1-9.