CN220571653U - Sole and sports shoes with shock attenuation antiskid - Google Patents

Abstract

The utility model relates to the technical field of shoes, and provides a sole with shock absorption and skid resistance and a sports shoe, which comprise a midsole and an outsole, wherein the midsole comprises a half sole part, an arch part and a heel part, and the midsole is provided with a guide groove which penetrates through the half sole part, the arch part and the heel part; the sole sets up on the sole of sole, and the guide slot runs through the sole setting, has set gradually first rotatory antiskid district, pattern antiskid district, arch of foot stable region, second rotatory antiskid district, inboard anti-deviation zone, first antiskid district, outside anti-deviation zone, arch of foot transition zone and second antiskid district clockwise on the sole with the guide slot as the center and with heel as the starting point, so forms the sole district of multiple functions on the sole, improves shoes use travelling comfort. The arrangement of the guide groove can form a good damping purpose, reduce stress at the heel and achieve the purpose of improving the damping effect.

Description

Sole and sports shoes with shock attenuation antiskid

Technical Field

The utility model relates to the technical field of shoes, in particular to a sole with shock absorption and skid resistance and a sports shoe.

Background

Shoes are a necessity for daily life, with the improvement of living standard and shoemaking technology, people put more demands on the functionality of the shoes, and it is particularly important for sports enthusiasts that the shoes have good shock absorption and anti-skid properties.

The patent of the utility model entitled "anti-skid and shock-absorbing sole and lightweight shoe" with the publication number CN 207613282U describes: the anti-skid damping sole comprises a sole body and a plurality of anti-skid damping components; the sole body comprises a sole part, an arch part and a heel part, wherein the sole part is provided with a first shunt groove and a second shunt groove, the first shunt groove penetrates through the sole part along the length direction of the sole body, the second shunt groove penetrates through the sole part along the width direction of the sole body, the heel part is provided with a damping groove, and the damping groove penetrates through the heel part along the length direction of the sole body; the anti-skid shock absorbing components are arranged at the sole part, the heel part and the arch part, a drainage groove is formed between two adjacent anti-skid shock absorbing components, a buffer zone is formed by the anti-skid shock absorbing components in the arch part, and the anti-skid shock absorbing components achieve anti-skid and shock absorbing effects and have fewer functions.

Therefore, the application aims to provide a sole with shock absorption and skid resistance and a sports shoe, which have better skid resistance and shock absorption performance and rich functionality.

Disclosure of Invention

The utility model aims to provide a sole with shock absorption and skid resistance and a sports shoe, and aims to solve the problems of low skid resistance and shock absorption effect and less functions of the existing shoes.

In order to achieve the above purpose, the present utility model adopts the following technical scheme: a sole with cushioning and anti-slip properties, comprising:

the shoe comprises a shoe midsole, wherein the shoe midsole comprises a half sole part, an arch part and a heel part, and the shoe midsole is provided with a guide groove which penetrates through the half sole part, the arch part and the heel part; and

The sole, it sets up on the sole surface of sole, just the guiding groove runs through the sole sets up, on the sole with the guiding groove is the center and with the heel position as the start point clockwise set gradually first rotatory antiskid district, drawing antiskid district, arch of foot stable region, second rotatory antiskid district, inboard anti-deflection district, first antiskid district, outside anti-deflection district, arch of foot transition district and second antiskid district.

Preferably, an opening communicating with the outside is provided at one side of the guide groove located at the arch portion, and the opening is located at a position of the arch transition region.

Preferably, at least one circular anti-skid pattern is arranged on the first rotary anti-skid region and the second rotary anti-skid region.

Preferably, the arch stabilizing region is provided with a triangular pattern structure.

Preferably, the edge parts of the inner side deviation prevention area and the outer side deviation prevention area are provided with equidistant bending grooves, and the sole positioned on one side of the bending grooves is provided with protrusions.

Preferably, grid-shaped anti-skid patterns are arranged on the first anti-skid area and the second anti-skid area.

Preferably, the side surface of the heel part of the midsole is provided with at least one hollowed-out hole in a penetrating way.

Preferably, the shoe comprises a heel, and is characterized by further comprising an outer supporting part, wherein the outer supporting part is arranged on the heel, the outer supporting part comprises a first supporting part, a second supporting part and a connecting part connected between the first supporting part and the second supporting part, the first supporting part and the second supporting part are symmetrically arranged on two sides of the heel, the first supporting part is far away from the direction of the shoe outsole to form at least one convex peak, and the second supporting part and the first supporting part are arranged in the same structure.

Preferably, a positioning protrusion is provided on a side surface of the heel portion, and a through hole engaged with the positioning protrusion is provided on the first support portion or the second support portion.

There is also provided an athletic shoe, comprising:

the sole is the sole with shock absorption and skid resistance; and

An upper including a first upper and a second upper, a bottom of the second upper disposed on a top surface of a midsole of the sole; the top of the second vamp is connected with the bottom of the first vamp, and a separation belt is formed on the side surface of the second vamp; the first vamp is provided with at least one ventilation area, and the side surface of the second vamp is provided with a plurality of ventilation holes; a plurality of splicing blocks are arranged between the welt of the first vamp and the separation band.

After the technical scheme is adopted, compared with the background technology, the utility model has the following advantages:

1. through setting up the guiding groove for the central part of heel position that the sole corresponds does not contact with ground, with the impact force of alleviateed ground to heel position, and utilize the guiding groove to receive the pressure back lateral wall can warp the shrink toward the centre characteristic, guide pressure transmits along the orbit that the guiding groove extends, disperses the pressure that the heel position received, promotes buffering absorbing effect.

2. The sole comprises a guide groove, a first rotary anti-slip region, a pattern anti-slip region, an arch stabilizing region, a second rotary anti-slip region, an inner side anti-deviation region, a first anti-slip region, an outer side anti-deviation region, an arch transition region and a second anti-slip region, which are sequentially arranged around the guide groove as a center, wherein the first rotary anti-slip region and the second rotary anti-slip region are used for assisting a user in making rotary motions, the first anti-slip region and the second anti-slip region are used for increasing the friction force of the sole, the anti-slip function is exerted, the pattern anti-slip region can be designed according to requirements while the anti-slip function is exerted, the attractiveness is increased, the arch transition region and the arch part of the sole are increased in stability, the situation that the sole is excessively deformed due to stretching and extrusion is avoided, in addition, the inner side anti-deviation region and the outer side anti-deviation region can exert the anti-slip function, the sole is effectively prevented from being used for foot-spraining due to side deviation, and the sole is reasonably utilized, and the sole is fully partitioned.

Drawings

FIG. 1 is a schematic view of a sole with a cushioning anti-slip sole according to the present utility model;

FIG. 2 is a schematic view of a midsole with a cushioning anti-slip sole according to the present utility model;

FIG. 3 is a schematic view of a sports shoe according to the present utility model;

fig. 4 is a schematic structural view of an outer support portion of the sports shoe according to the present utility model.

Reference numerals illustrate:

10. a midsole; 11. a sole; 12. a guide groove; 13. a vamp; 14. an outer support portion;

101. a half sole portion; 102. an arch portion; 103. a heel portion;

1031. positioning the bulge; 1032. a hollowed hole;

111. a first rotary anti-slip zone; 112. an image antiskid area; 113. an arch stabilization zone;

114. a second rotary anti-slip zone; 115. an inner side deviation prevention area; 116. a first anti-skid region;

117. a second anti-slip zone; 118. an outer side deviation prevention area; 119. an arch transition region;

1111. circular anti-skid patterns; 1131. a triangular pattern structure; 1151. a bending groove;

1152. a protrusion; 1161. anti-skid lines;

121. an opening;

131. a first upper; 132. a second upper; 133. a separator;

1311. a ventilation zone; 1312. splicing blocks; 1321. ventilation holes;

141. a first support portion; 142. a second supporting part; 143. a connection part;

1411. and a through hole.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

In addition, it should be noted that: the terms "upper," "lower," "left," "right," "vertical," "horizontal," "inner," "outer," and the like are based on the orientation or positional relationship shown in the drawings, and are merely for convenience of description and to simplify the description, and do not denote or imply that the apparatus or elements of the present utility model must have a particular orientation, and thus should not be construed as limiting the utility model.

When an element is referred to as being "fixed to" or "disposed on" another element, it can be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or be indirectly connected to the other element.

Unless specifically stated or limited otherwise, the terms "mounted," "connected," and "coupled" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communicated with the inside of two elements or the interaction relationship of the two elements. The specific meaning of the above terms in the utility model will be understood by those skilled in the art according to the specific circumstances.

Examples

Referring to fig. 1, 2, 3 and 4, the present embodiment provides a sole with shock absorption and anti-slip properties, comprising a midsole 10 and an outsole 11.

The middle sole 10 includes a half sole 101, an arch 102 and a heel 103, and the middle sole 10 is provided with a guide groove 12 penetrating the half sole 101, the arch 102 and the heel 103, and is used to falling to the ground with the heel when in movement, the stress center of gravity of the foot is at the heel position, the heel position is stressed too much, if the heel position is not buffered, the user is easy to be injured, and the buffering and damping of the heel position are important, so that the buffering effect of the heel position is realized by arranging the guide groove 12 penetrating the half sole 101, the arch 102 and the heel 103 on the middle sole 10.

Specifically, the guide groove 12 is provided while penetrating the outsole 11 and the midsole 10, and the width of the guide groove 12 is gradually widened from the half sole position to the heel position, i.e., the width of the guide groove 12 corresponding to the heel position is widest, so that the center portion of the outsole corresponding to the heel position is not in direct contact with the ground when the floor is placed, thereby reducing the impact force of the ground to the heel position and playing a role in buffering and damping. In addition, set up guide slot 12 and make the sole have certain deformation space, when the foot applys pressure to the sole, the lateral wall of guide slot 12 can warp the shrink towards the centre to guide pressure and transmit along the orbit that guide slot 12 extends, disperse the pressure that the heel position received, play the effect of protection to heel 103 position.

In addition, the outsole 11 is disposed on the bottom surface of the midsole 10, and the outsole 11 is provided with a first rotation anti-slip region 111, a pattern anti-slip region 112, an arch stabilizing region 113, a second rotation anti-slip region 114, an inner side anti-slip region 115, a first anti-slip region 116, an outer side anti-slip region 118, an arch transition region 119 and a second anti-slip region 117 in sequence clockwise with the guide groove 12 as a center and with the heel position as a starting point (i.e., the side corresponding to the heel position of the human body is disposed), each functional region is disposed around the guide groove 12, and different patterns are disposed in each functional region to achieve the effects of anti-slip, stabilizing, rotating and preventing the foot from being rotated by a user, wherein the first rotation anti-slip region 111 and the second rotation anti-slip region 114 are used for increasing the sole friction force, and the pattern anti-slip region 112 can also exert the anti-slip function by designing the pattern according to the requirement, the outer side anti-slip region 116, the arch region 118 is fully utilized, the sole is prevented from being deformed by the outer side anti-slip region 118, and the sole is fully deformed by the sole region 118, and the sole is prevented from being deformed by the outer side region, and the sole region is fully utilized by the sole region 118.

As shown in fig. 1 and 2, in this embodiment, an opening 121 communicating with the outside is provided on one side of the guide groove 12 located at the arch portion 102, and the opening 121 is provided at a position of the arch transition region 119, and according to the principle of relativity of force, when the foot portion applies pressure to the sole, the sole is in contact with the ground and receives the impact force from the ground in the opposite direction, and the contact area between the arch portion and the ground is small, and the contact area between the sole portion and the heel portion is large, and receives the impact force from the ground in the opposite direction, and by providing the guide groove 12, the guide groove 12 deforms and contracts under pressure, and at this time, the guide groove 12 which is elastically deformed can absorb the received force and transmit the received force to the opening 121 at the arch portion along the track of the guide groove 12 to be released quickly through vibration buffering, so as to achieve the effect of buffering and damping.

As shown in fig. 1 and 3, in this embodiment, at least one circular anti-slip pattern 1111 is disposed on the first and second anti-slip regions 111 and 114, wherein the first anti-slip region 111 is disposed at the heel position of the outsole 11, and the second anti-slip region 117 is disposed at the half sole position of the outsole 11, which is because the rapid rotation during the movement is generally spread out by the half sole region or the heel region, the circular anti-slip pattern 1111 may be disposed in the first and second anti-slip regions 111 and 114 corresponding to the half sole position and the heel position of the outsole 11 as a torsion point to assist the user in making the rotation, which is suitable for the movement requiring the multi-directional rotation and plays the anti-slip role.

As shown in fig. 1 and 3, in this embodiment, the triangle pattern structure 1131 is disposed on the arch stabilizing region 113, and based on triangle stabilization principle, the triangle pattern structure 1131 has stability, and the arch region is located at the middle part of the shoe, and is most easily extruded or stretched during walking or running, so that the triangle pattern structure 1131 slightly protruding 1152 on the arch stabilizing region 113 on the sole 11 can avoid the arch region from being excessively deformed to damage the shoe body to a certain extent due to the structural stability, and prolong the service life of the shoe.

As shown in fig. 1 and 3, in this embodiment, the edge portions of the inner side anti-deviation area 115 and the outer side anti-deviation area 118 have equidistant bending grooves 1151, the sole 11 located at one side of the bending grooves 1151 is provided with protrusions 1152, the protrusions 1152 may be cylindrical or regular polygonal columns or hemispheres, and the number of the protrusions 1152 is the same as that of the bending grooves 1151, where the protrusions 1152 slightly protrude from the bottom surface of the sole 11 to form a good supporting effect; meanwhile, the bulge 1152 has good wear resistance by utilizing certain elastic action of rubber and plastic of the bulge, and the service life of the sole is prolonged.

Specifically, the protrusion 1152 can play a supporting role, and the protrusion 1152 can make tiny movements and deformations in various directions during movement, so that foot stress is reduced to a certain extent, so as to achieve a damping effect, and because the foot stress is unstable during landing, the ankle joint is easy to turn inwards or turn outwards to be sprained, therefore, the protrusion 1152 is arranged at the edge parts of the inner side anti-deflection area 115 and the outer side anti-deflection area 118, and the resistance inclined towards two sides can be increased at the edge parts of the inner side and the outer side, so that the situation that a user is injured due to foot sprain is avoided.

Meanwhile, the edge part of the sole is also provided with bending grooves 1151 at equal intervals, because the front sole bends and deforms at the toe position during walking or running, the bending grooves 1151 which are easy to bend are arranged to provide deformable space for the sole corresponding to the front sole position, so that the sole can bend and deform along with the action of the sole, is easy to bend, and the shape of the sole can better conform to the bending of the front sole, thereby helping a user to start easily during walking or running, and simultaneously, the front sole deforms during fitting movement, so that the wearing comfort is improved.

As shown in fig. 1, in this embodiment, the first anti-slip area 116 and the second anti-slip area 117 are provided with grid-shaped anti-slip patterns 1161, and by setting the grid-shaped anti-slip patterns 1161 to increase the roughness of the sole, thereby increasing the friction force, playing a role in anti-slip, the patterns and thickness of the grids can be changed according to different requirements, the stripes of the grids intersecting each other can play a role in multi-direction anti-slip, and square grids or diamond grids or rice grids can be formed in a crossing manner so as to adapt to various transverse and longitudinal anti-slip effects, and provide a front-back and left-right multi-direction friction force.

In addition, the patterns in the pattern antiskid area 112 are patterns with a three-dimensional structure, different patterns can be arranged according to requirements, the surface of each pattern is of a concave-convex structure, the patterns can play a role in skid resistance, the appearance of shoes can be improved, the aesthetic feeling of the appearance of the shoes is improved, and the patterns in the arch transition area 119 are elastic bulges 1152, so that the arch can be well supported and protected.

As shown in fig. 2 and 3, in this embodiment, the side surface of the heel 103 of the midsole 10 is provided with at least one hollow hole 1032, the weight of the shoe can be reduced by providing the hollow hole 1032, the shoe is lighter when worn, in addition, the heel is stressed maximally during landing, so the reverse impact force from the ground is also stressed maximally, if the heel is not protected and is easy to be injured, the sole 10 is provided with the hollow hole 1032 at the heel 103, the compression deformation of the hollow structure itself can be utilized to absorb the stressed pressure, the impact force from the ground is reduced, and the effect of buffering and damping is achieved.

As shown in fig. 2, fig. 3 and fig. 4, the embodiment further includes an outer support portion 14, the outer support portion 14 is disposed on the heel portion 103, the outer support portion 14 includes a first support portion 141, a second support portion 142 and a connection portion 143 connected between the first support portion 141 and the second support portion 142, the first support portion 141 and the second support portion 142 are symmetrically disposed on two sides of the heel portion 103, the first support portion 141 extends away from the direction of the outsole 11 to form at least one convex peak, the second support portion 142 is disposed on the same structure as the first support portion 141, the at least one convex peak is disposed to enable the first support portion 141 and the second support portion 142 to extend from the midsole 10 to the vamp 13, so as to strengthen tight connection between the midsole 10 and the vamp 13, and in addition, heel inversion or eversion is easy to occur due to unsteadiness in the movement process, the outer support portion 14 is disposed on two sides of the heel portion 103, the first support portion 141 and the second support portion 142 are disposed on two sides of the heel portion 103 opposite to each other to form at least one convex peak, the second support portion 142 is disposed on the opposite sides of the heel portion 103, and the second support portion 141 is disposed on the opposite sides of the heel portion 103, and the heel portion is shaped to form a pair of the heel portion and the heel portion is formed to the second support portion and the heel portion is disposed on the opposite side to the heel portion.

In addition, the side surface of the heel 103 is provided with the positioning protrusion 1031, and the first supporting portion 141 or the second supporting portion 142 is provided with the through hole 1411 which is embedded with the positioning protrusion 1031, so that the first supporting portion 141 or the second supporting portion 142 can be embedded and mounted on the positioning protrusion 1031, the mounting is more firm, and the heel 103 is supported and protected more stably.

Example two

As shown in fig. 1, 2, 3 and 4, based on the same concept, the second aspect of the present embodiment further provides an athletic shoe, including: sole and vamp 13, the sole is the sole that has shock absorption antiskid that the embodiment was described in first.

Wherein vamp 13 includes first vamp 131 and second vamp 132, and the bottom of second vamp 132 sets up on the vamp top surface of the midsole 10 of sole, and the top of second vamp 132 is connected with the bottom of first vamp 131 and is set up and form the parting strip 133 in the side, is provided with a plurality of concatenation pieces 1312 between the welt of first vamp 131 and the parting strip 133. The partition belt 133 divides the vamp 13 into the first vamp 131 and the second vamp 132, and quilts edges of the first vamp 131 and the second vamp 132 to form the vamp 13, in addition, the partition belt 133 is further used for fixing one end of the splicing block 1312, the splicing block 1312 can be connected with the vamp and the partition belt 133 in a sewing, gluing or welding fixing manner and cover on the first vamp 131, certain areas (such as toe areas) of the single-layer first vamp 131 are excessively deformed and possibly worn, and the splicing block 1312 has certain elasticity and hardness, so that the vamp 13 can be shaped and the vamp 13 can be reinforced better.

In addition, be provided with the ventilative district 1311 of at least one department on the first vamp 131, specifically be the multi-layer mesh structure weave the time at the bleeder vent 1321 that its coincide staggered part was reserved, mesh structure can play the effect to vamp 13 design and support, guarantee vamp 13's stiffness, simultaneously, mesh structure its integrated into one piece's bleeder vent 1321 when weaving can promote the circulation of the inside and outside air of sports shoes, timely effluvium heat and peculiar smell, the gas permeability is high, and be provided with a plurality of bleeder vents 1321 on the side of second vamp 132, can increase vamp 13's ventilation effect.

The present utility model is not limited to the above-mentioned embodiments, and any changes or substitutions that can be easily understood by those skilled in the art within the technical scope of the present utility model are intended to be included in the scope of the present utility model. Therefore, the protection scope of the present utility model should be subject to the protection scope of the claims.

Claims (10)

1. A sole with cushioning and anti-slip properties, comprising:

the shoe comprises a shoe midsole, wherein the shoe midsole comprises a half sole part, an arch part and a heel part, and the shoe midsole is provided with a guide groove which penetrates through the half sole part, the arch part and the heel part; and

The sole, it sets up on the sole surface of sole, just the guiding groove runs through the sole sets up, on the sole with the guiding groove is the center and with the heel position as the start point clockwise set gradually first rotatory antiskid district, drawing antiskid district, arch of foot stable region, second rotatory antiskid district, inboard anti-deflection district, first antiskid district, outside anti-deflection district, arch of foot transition district and second antiskid district.

2. The sole with cushioning and anti-slip properties of claim 1, wherein: an opening communicated with the outside is formed in one side of the guide groove located at the arch part, and the opening is formed in the position of the arch transition area.

3. The sole with cushioning and anti-slip properties of claim 1, wherein: at least one circular anti-skid pattern is arranged on the first rotary anti-skid area and the second rotary anti-skid area.

4. The sole with cushioning and anti-slip properties of claim 1, wherein: the arch stabilizing area is provided with a triangular pattern structure.

5. The sole with cushioning and anti-slip properties of claim 1, wherein: the edge parts of the inner side deviation prevention area and the outer side deviation prevention area are provided with equidistant bending grooves, and the sole positioned on one side of each bending groove is provided with a bulge.

6. The sole with cushioning and anti-slip properties of claim 1, wherein: and grid-shaped anti-skid patterns are arranged on the first anti-skid area and the second anti-skid area.

7. The sole with cushioning and anti-slip properties of claim 1, wherein: at least one hollowed-out hole is formed in the side face of the heel portion of the midsole in a penetrating mode.

8. The sole with cushioning and anti-slip properties of claim 1, wherein: still include outer supporting part, outer supporting part set up in heel, outer supporting part include first supporting part, second supporting part and connect in first supporting part with connecting portion between the second supporting part, first supporting part with second supporting part symmetry set up in on the both sides of heel, first supporting part is kept away from the direction extension of shoe outsole forms at least one peak, second supporting part with the same structure setting of first supporting part.

9. The sole with cushioning and anti-slip properties of claim 8, wherein: the side of the heel part is provided with a positioning bulge, and the first support part or the second support part is provided with a through hole which is embedded with the positioning bulge.

10. An athletic shoe, comprising:

a sole as claimed in any one of claims 1 to 9 having cushioning and anti-slip properties; and

An upper including a first upper and a second upper, a bottom of the second upper disposed on a top surface of a midsole of the sole; the top of the second vamp is connected with the bottom of the first vamp, and a separation belt is formed on the side surface of the second vamp; the first vamp is provided with at least one ventilation area, and the side surface of the second vamp is provided with a plurality of ventilation holes; a plurality of splicing blocks are arranged between the welt of the first vamp and the separation band.