CN216534062U - Sole and shoe body - Google Patents

Abstract

The utility model provides a sole and a shoe body. The sole includes: the convex parts are distributed in the front sole area and/or the rear heel area of the sole in a convex shape; the concave parts are distributed in the front sole area and/or the rear heel area of the sole in a sucker shape; the rib parts are arranged in a rib shape in the front sole area and/or the rear heel area of the sole, and a groove is formed between the adjacent rib parts; and anti-skid lines positioned in the heel area of the sole. The shoe body comprises an upper and the sole. The utility model comprehensively utilizes the ground gripping design of the convex part, the ground suction design of the concave part and the anti-skid design of the convex edge part and the anti-skid lines, and can greatly improve the anti-skid effect of the shoe body.

Description

Sole and shoe body

Technical Field

The utility model relates to the field of sports equipment and daily wearing, in particular to an anti-skidding sole and a shoe body.

Background

The anti-skidding function of the existing sole mainly has two types of requirements: the antiskid requirement exists in the daily walking process of ordinary people, particularly old people and children; the other is that the athlete needs to increase the ground gripping effect by increasing the friction force of the sole during the process of sports and competitions, thereby improving the competition result. Currently, antiskid shoes on the market usually adopt bulges simulating spiked shoes or adopt a design similar to a sucker to realize an antiskid effect. The anti-skid and wear-resistant structure has a single design structure, and can play a certain role in anti-skid support and wear resistance, but the anti-skid support and wear-resistant effect is not outstanding, so that the further requirements of people on anti-skid support and wear resistance in daily life or sports competition processes can not be met.

Therefore, the market needs soles with anti-skid functions, so that the anti-skid support and wear resistance of the shoe body are further improved, and more beneficial effects are obtained.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem that the anti-skid support and wear-resisting capability of the existing anti-skid sole are not enough, the utility model provides a sole and a shoe body with multiple anti-skid support and wear-resisting designs.

In order to achieve the purpose, the utility model adopts the following technical scheme:

a sole, characterized in that it comprises: the convex part is higher than the plane of the sole and is distributed in the front sole area and/or the rear heel area of the sole in a convex shape; the concave part is higher than the plane of the sole and is distributed in the front sole area and/or the rear heel area of the sole in a sucker shape; the rib parts are arranged in a rib shape in the front sole area and/or the rear heel area of the sole, and a groove is formed between the adjacent rib parts; and the anti-skid grains are positioned in the heel area of the sole.

The raised part can imitate the effect of spiked shoes, increase the depth of pricking the ground and correspondingly increase the friction force; the concave part can increase the holding force between the sole and the ground through suction force; the rib part can more comprehensively increase the friction force between the sole and the ground; the antiskid lines are arranged in the heel area, so that the ground grabbing effect of the user when the heel falls to the ground is enhanced. By integrating the four parts, the friction force between the sole and the ground can be greatly enhanced, and the anti-skid effect of the sole is improved from multiple dimensions.

In one embodiment, the peak height of the male part is higher than the female part.

In one embodiment, the hardness of the male part is greater than the hardness of the female part.

In one embodiment, the peak of the raised elements is higher than the hardness of the female elements, while the hardness of the raised elements is greater than the hardness of the female elements. The hardness of the convex part is greater than that of the concave part, so that the grip force of the shoe body on the ground can be further increased, and the anti-skid effect of the shoe body is improved to the maximum extent.

In one embodiment, the male component comprises: the first ring-shaped object is annularly positioned on the outer side of the convex part, and the height of the first ring-shaped object is not lower than the plane of the sole; the bulge is positioned in the center of the convex part and has a height not lower than that of the first ring; and an annular groove located between the protrusion and the first ring.

In one embodiment, the female component comprises: a second ring-shaped object which is positioned at the outer side of the concave part and is not lower than the plane of the sole in a ring shape; and the sucker object is gradually inwards concave from the inner extension of the second annular object and is in a sucker shape.

In one embodiment, the anti-slip texture further comprises at least one pattern of sipes.

In one embodiment, the first ring is annular and the protrusion is cylindrical.

In one embodiment, the second ring is triangular and the suction cup is Y-shaped.

In one embodiment, the shore hardness of the male component ranges from 80 degrees to 90 degrees, and the shore hardness of the female component ranges from 60 degrees to 80 degrees.

In view of the above, the present application also proposes a shoe body comprising a sole and an upper as described above.

By adopting the technical scheme, compared with the prior art, the utility model has the beneficial effects that: the convex parts and the convex rib parts are distributed in the front sole area and/or the rear heel area, so that a plurality of supporting points are provided when people contact the ground during movement, and the ground binding effect of the sole is enhanced. In addition, the hardness of the convex part is set to be larger than that of the concave part, which is different from the design of common anti-skid soles, thereby being beneficial to further improving the wear resistance of the soles and prolonging the service life of the shoe body. The sucker of the concave part is designed to be matched with the anti-skid mechanism in the anti-skid lines, so that the adsorption and ground gripping capability of the sole to the ground is further enhanced, and the body supporting performance can be improved when a user wears the shoe body with the sole to walk, so that the effects of being safer, improving the sports performance and the like are achieved. In addition, the highest point of the convex part is higher than that of the concave part, so that the ground pricking effect is further enhanced.

The details of one or more embodiments of the description are set forth in the accompanying drawings and the description below. Other features, aspects, and advantages of the utility model will become apparent from the description, the drawings, and the claims.

Drawings

Fig. 1 shows a bottom view of an embodiment of the utility model.

Fig. 2 shows a front view of an embodiment of the utility model.

Figure 3 shows a cross-sectional view of an embodiment of the present invention.

Detailed Description

The present application will be described in further detail with reference to the following drawings and examples. It is to be understood that the specific embodiments described herein are for purposes of illustration only and are not to be construed as limitations of the utility model. It should be noted that, for convenience of description, only the portions related to the present invention are shown in the drawings.

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present application will be described in detail below with reference to the embodiments with reference to the attached drawings.

The labels in the figure correspond to the following:

1. a sole;

2. a boss member;

3. a female component;

4. a rib member;

5. anti-skid lines;

6. a first cyclic compound;

7. a protrusion;

8. an annular groove;

9. a second ring;

10. a suction cup object;

11. concave gaps are formed.

Figure 1 shows a bottom view of one embodiment of the present invention. Referring to fig. 1, in one embodiment of the present invention, a shoe sole 1 includes:

the convex parts 2 are distributed in the front sole area and/or the rear heel area of the sole 1 in a convex shape;

the concave parts 3 are distributed in the front sole area and/or the rear heel area of the sole 1 in a sucker shape;

the rib parts 4 are arranged in a rib shape in the front sole area and/or the rear heel area of the sole 1, and a groove is formed between the adjacent rib parts 4;

and the anti-slip lines 5 are positioned in the heel area of the sole 1.

In order to increase the anti-skid effect of the sole 1, the utility model at least comprises the following four parts: the whole of the convex part 2 is convex, so that the effect of nailing shoes can be simulated, and the friction force of pricking the ground is increased; the concave part 3 is integrally in a sucker shape, so that the gripping force between the sole 1 and the ground can be increased through suction; the rib part 4 increases the friction between the sole 1 and the ground more comprehensively; the antiskid lines 5 are arranged in the heel area, so that the ground grabbing effect of the user when the heel falls to the ground is enhanced. By integrating the four parts, the friction force between the sole 1 and the ground can be greatly enhanced, and the anti-skid effect of the sole 1 is improved from multiple dimensions.

For the sake of beauty and different requirements of stable scenes, the design of the positions, number and the like of the convex parts 2 and the concave parts 3 can be changed according to actual needs, for example, the convex parts can be distributed in the front sole area, the back heel area, or both the front sole area and the back heel area.

The arrangement of the male and female elements 2, 3 may also be varied and designed to be distributed in various different arrangements in different areas of the sole 1, for example, they may be regularly arranged at intervals, they may be randomly arranged irregularly, etc.

In order to increase the stability of heel when the shoe body is on the ground, the rib part 4 may be a regular corrugated pattern extending over the front sole and heel area as shown in fig. 1, or may be an arrangement of various uneven characters, patterns and patterns.

Similarly, the non-slip pattern 5 may be a dense hole as shown in fig. 1, or may be various uneven characters, figures or patterns.

Through different combinations and arrangements of the convex part, the concave part, the convex rib part, the anti-skid grains and the like and the change mode which can be thought of by the technical personnel in the field, the soles with different patterns can be formed, thereby meeting different application scenes and requirements. For example, the number of the convex parts can be increased, so that the sole has stronger ground binding capacity, and is more suitable for sports such as sprinting, long jump and the like. For another example, the height of the convex parts can be properly reduced, the number of the convex parts can be reduced, and the number of the concave parts can be increased, so that the walking stabilizing device is more suitable for the requirements of old people and children on walking stability.

In one embodiment, the male part 2 comprises: a first ring 6, which is annular and is positioned outside the raised part 2 and has a height not lower than the plane of the sole 1; a boss 7 located at the center of the boss 2 and having a height not lower than that of the first ring 6; and an annular groove 8 located between the protrusion 7 and the first ring 6.

Specifically, the first ring 6 may be a geometric figure such as a square ring, a circular ring, a diamond ring, a triangular ring, or a modified figure thereof to form a ring structure, or may be a ring formed by characters or patterns such as a trademark and a cartoon figure; similarly, the protrusion 7 located at the center of the protrusion member 2 may be any character, geometric figure or pattern, and may be the protrusion 7 capable of playing a similar effect as a spiked shoe.

Generally, the height of the projections 7 is greater than the height of the first ring 6, so as to simulate the effect of a spiked shoe. Of course, the height of the protrusions 7 can also be designed to be flush with the height of the first ring 6, according to the actual requirements. Likewise, the height of the first ring 6 should be generally higher than the plane of the sole 1, and the height can be designed to be flush with the plane of the sole 1 according to practical requirements.

In addition, an annular groove 8 is formed between the first ring 6 and the bulge 7, and the annular groove 8 enables a gap to be formed between the first ring 6 and the bulge 7, so that the effect of pricking the bulge 7 is further increased.

In one embodiment, the female part 3 comprises: a second ring 9, located outside the concave part 3, not lower than the plane of the sole 1 in a ring shape; the sucking disc object 10 is gradually concave inwards from the inner extension of the second ring-shaped object 9 and is in a sucking disc shape.

Specifically, the second ring 9 may be a geometric figure such as a square ring, a circular ring, a diamond ring, a triangular ring, or a modified figure thereof to form a ring structure, or may be a ring formed by characters or patterns such as a trademark or a cartoon figure; similarly, the suction object 10 located at the center of the concave part 3 may be any character, geometric figure or pattern, and may be the suction object 10 having the effect similar to the suction of the suction cup. For example, the concave part may be designed in a flower shape, thereby increasing the aesthetic appearance of the sole.

In one embodiment, the peak height of the male part 2 is higher than the female part 3.

It will be appreciated that the highest point of the raised element 2 is at the boss 7, and that a spiked-like ground piercing effect is only produced if the boss 7 is higher than the recessed element 3. The raised part 2 and the concave part 3 are higher and lower relative to the plane of the sole 1, are matched with each other, are deeply pricked and stably sucked, and greatly enhance the anti-skidding effect.

In one embodiment, the hardness of the male part 2 is greater than the hardness of the female part 3. The parameters of the Shore hardness of the convex part 2 range from 80 degrees to 90 degrees, and the parameters of the Shore hardness of the concave part 3 range from 60 degrees to 80 degrees.

Specifically, in the field of shoe manufacturing, plastics, rubbers, synthetic resins, and the like are generally measured with shore hardness. The shore hardness measuring device is called a shore hardness meter, the unit of the hardness value of the shore hardness meter is 'degree', the maximum value of the dial is 100 degrees, and the higher the degree is, the harder the hardness of the measured object is. Generally, the shore hardness parameter of the rubber ranges between 50 degrees and 100 degrees.

In the utility model, the Shore hardness value of the concave part is controlled to be between 60 degrees and 80 degrees by controlling the Shore hardness parameter range of the convex part to be between 80 degrees and 90 degrees. Specifically, the effect of piercing the raised part 2 is mainly due to the degree of stability of piercing the ground, so the hardness of the raised part 2 is inevitably an important factor affecting the effect of piercing the ground of the entire sole 1, and in order to achieve a better piercing effect, the hardness of the raised part 2 can be increased to be higher than that of the peripheral recessed part 3 and the sole 1. In the utility model, when the shore hardness of the bulge 7 is between 80 degrees and 90 degrees, the best ground pricking effect can be realized. Of course, if the hardness of this sole 1 is increased, the wearing comfort of the person is impaired, and therefore the hardness of the flat surface of the sole 1 and the concave part 3 may be set between 60 degrees and 80 degrees.

Preferably, in order to further increase the ground penetrating effect of the sole 1, increase the wearing comfort of the user and save resources, the shore hardness of only the protrusion 7 at the center of the protrusion part 2 may be set between 80 degrees and 90 degrees, and the shore hardness of the rest of the first ring 6, the concave part 3, the plane of the sole 1, and the like, of the sole 1 may be set between 60 degrees and 80 degrees.

In one embodiment, the anti-slip texture 5 further comprises at least one pattern of sipes 11.

In particular, in order to improve the stability of the sole 1 and to increase the aesthetic appearance of the sole 1, the sole 1 may also be designed with a pattern of at least one recess 11. Similarly, the pattern formed by the concave slits 11 can be characters, and can also be figures or patterns.

In one embodiment, the first ring 6 is annular and the protrusion 7 is cylindrical.

In one embodiment, the second ring 9 is triangular and the suction cup 10 is Y-shaped.

Fig. 2 shows a front view of another embodiment of the present invention.

Referring to fig. 2, it can be seen that, for the sake of aesthetic appearance and different requirements of stability, the positions, the number, etc. of the convex parts 2 and the concave parts 3 can be changed according to actual needs, and the changed designs are distributed in the forefoot area. Meanwhile, the arrangement of the convex parts 2 and the concave parts 3 is also changed and designed to be irregularly and randomly arranged.

Fig. 3 shows a cross-sectional view of yet another embodiment of the present invention. As shown in FIG. 3, the upper of a shoe body is a shoe upper, and a sole 1 of the present invention is disposed at the lowermost layer of the shoe body.

In the description herein, references to the description of the term "an implementation," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the utility model. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

It should be understood that the various parts of the utility model may be implemented in different combinations. The components in the embodiments of the present invention may be integrated into a sole, or each component may exist alone physically, or two or more components may be integrated into a sole.

The above description is only for the specific embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive various changes or substitutions within the technical scope of the present invention, and these should be covered by the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.

Claims (7)

1. A sole, characterized in that said sole (1) comprises:

the convex parts (2) are distributed in a convex shape in the front sole area and/or the rear heel area of the sole (1);

the protruding member (2) includes:

a first ring (6) positioned in the form of a ring outside said raised element (2) and having a height not lower than the plane of said sole (1);

a boss (7) located at the center of the boss (2) and having a height not lower than the first ring (6); and

an annular groove (8) located between the protuberance (7) and the first ring (6);

the concave parts (3) are distributed in a front sole area and/or a rear heel area of the sole (1) in a sucking disc shape;

the rib parts (4) are arranged in a rib shape in a front sole area and/or a rear heel area of the sole (1), and a groove is formed between every two adjacent rib parts (4); and

and the anti-skidding lines (5) are positioned in the heel region of the sole (1).

2. The sole according to claim 1, characterized in that the hardness of said male part (2) is greater than the hardness of said female part (3) and of the plane of the sole (1).

3. The sole according to any one of claims 1 to 2, characterized in that said male element (2) has a shore hardness ranging between 80 degrees and 90 degrees and said female element (3) has a shore hardness ranging between 60 degrees and 80 degrees.

4. The sole according to any one of claims 1 to 2, characterized in that said female part (3) comprises:

a second ring (9) located outside the female part (3) and not lower than the plane of the sole (1) in a ring shape;

the sucking disc object (10) is inwards concave gradually from the inner extension of the second annular object (9) and is in a sucking disc shape.

5. The sole according to any one of claims 1 to 2, characterized in that said first ring (6) is annular and said protuberance (7) is cylindrical.

6. The sole according to claim 4, characterized in that said second ring (9) is triangular and said suction cup (10) is Y-shaped.

7. Shoe body, characterized in that it comprises an upper and a sole (1) according to any one of claims 1-2.

Images