CN219088523U - Sport sole and sport shoes with shock-absorbing function - Google Patents
Sport sole and sport shoes with shock-absorbing function Download PDFInfo
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- CN219088523U CN219088523U CN202223158828.9U CN202223158828U CN219088523U CN 219088523 U CN219088523 U CN 219088523U CN 202223158828 U CN202223158828 U CN 202223158828U CN 219088523 U CN219088523 U CN 219088523U
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- 238000010521 absorption reaction Methods 0.000 claims abstract description 8
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- 230000000386 athletic effect Effects 0.000 claims description 14
- 210000003371 toe Anatomy 0.000 claims description 14
- 239000011159 matrix material Substances 0.000 claims description 12
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- 239000004433 Thermoplastic polyurethane Substances 0.000 description 6
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- 239000004033 plastic Substances 0.000 description 2
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P70/00—Climate change mitigation technologies in the production process for final industrial or consumer products
- Y02P70/50—Manufacturing or production processes characterised by the final manufactured product
- Y02P70/62—Manufacturing or production processes characterised by the final manufactured product related technologies for production or treatment of textile or flexible materials or products thereof, including footwear
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- Footwear And Its Accessory, Manufacturing Method And Apparatuses (AREA)
Abstract
The utility model discloses a sports shoe with a shock absorption function and a sports sole, wherein the sports sole comprises a first outsole, a second outsole and a third outsole which are arranged on the ground and respectively cover a front sole, an arch and a rear heel area correspondingly; the midsole comprises a first supporting part, a second supporting part and a third supporting part which are arranged around the outsole corresponding to the front sole edge, the rear heel edge and the center of the front sole to the heel area, and a hollow accommodating space is formed together with the second outsole; the first grooves take the position of the first supporting part at the toe as a starting point, and take one end of the first supporting part close to the accommodating space as an ending point, and the first grooves are sequentially distributed on the surface of the first supporting part side by side; the second grooves are sequentially distributed on the surfaces of the second supporting parts side by taking the positions of the second supporting parts at the heels as starting points and taking one end of the second supporting parts, which is close to the accommodating space, as an ending point. According to the utility model, the midsole is provided with the plurality of supporting parts and the accommodating space to form the corresponding supporting mechanism, so that good shock absorption performance is provided.
Description
Technical Field
The utility model relates to the technical field of shoes, in particular to a sports sole with a shock absorption function and a sports shoe.
Background
Shoes are indispensable articles for daily use in people's daily life, and the sole is the most important part of a pair of shoes, and it not only plays the most important guard action, and elasticity, skid resistance and the comfort level of shoes all depend on sole's structure and material.
The soles of the existing sports shoes are mostly made of MD, RB, EVA and other materials in a multi-layer bonding or single-layer solid structure, so that the soles have certain flexibility and elasticity to play a role in shock absorption, or the soles are directly arranged into shock absorption structures, so that the impact force in the sports process is relieved. However, there are different demands on the performance of the sports shoe in different sports environments, for example, the need for portability and wear resistance of the sports shoe is primary in marathon games and the need for support performance of the sports shoe is primary in hiking off-road environments. Such improvements have limited effectiveness if cushioning is provided by shock absorbing, shock absorbing structures, or by material selection to change the weight of the sole.
Disclosure of Invention
The utility model mainly solves the technical problem of providing the sports sole with the shock absorption function and the sports shoes, which can play a role in shock absorption when feet exert acting force on the sole body in the walking or sports process of an athlete, and improve the comfort of the sole body.
In order to solve the technical problems, the utility model adopts a technical scheme that: an athletic shoe sole with cushioning function, comprising: the first outsole is arranged on the ground and corresponds to the front sole area, the second outsole corresponds to the arch area and the third outsole corresponds to the heel area; the midsole comprises: the sole comprises a first supporting part, a second supporting part and a third supporting part, wherein the first supporting part is arranged on the upper surface of the outsole around the edge of the outsole corresponding to the front sole, the second supporting part is arranged on the upper surface of the outsole around the edge of the heel corresponding to the outsole, and the third supporting part is arranged on the upper surfaces of the first supporting part and the second supporting part and correspondingly covers the area from the center of the front sole to the heel; wherein the first supporting part and the second supporting part are independent from each other and are not connected, so that a hollow accommodating space is formed among the first supporting part, the second supporting part, the third supporting part and the second outsole; the surface of the first supporting part is also provided with a plurality of first grooves, the first grooves take the position of the first supporting part at the toe as a starting point, and one end of the first supporting part, which is close to the accommodating space, as an ending point, and the first grooves are sequentially distributed on the surface of the first supporting part side by side; the surface of second supporting part still sets up a plurality of second recesses, and a plurality of the second recess all regards as the start point with the second supporting part is located the position of heel, with the second supporting part is close to the one end of accommodation space is the terminal point, distributes side by side in proper order in the surface of second supporting part.
Wherein, the first outsole includes: the first anti-skid area is correspondingly arranged to cover the front sole edge area; the ground contact surface of the first anti-slip area is provided with a plurality of first bulges and second bulges, and the first bulges are sequentially arranged around the edge area of the toe; the second anti-slip area correspondingly covers the toe root area of the hallux; wherein, the ground contact surface of the second anti-slip area is parallel with a plurality of third bulges; the second protrusions are respectively and symmetrically arranged on the inner side and the outer side of the front sole at the positions corresponding to the second anti-skid areas; the third anti-skid area is distributed in the residual area of the area formed by the first anti-skid area and the second outsole; the ground contact matrix of the third anti-skid area is provided with a plurality of protruding units, each protruding unit comprises n strip-shaped protrusions, and the n strip-shaped protrusions are parallel to each other and are distributed side by side to form a protruding unit; the second outsole includes: the through groove is formed in the ground contact surface of the second outsole and corresponds to the center area of the arch; the first anti-skid area is arranged on the ground contact surface of the second outsole and correspondingly covers the outer side edge area of the arch; the ground contact surface of the first anti-slip area is provided with a plurality of first bulges in parallel; the second anti-skid area is arranged on the ground contact surface of the second outsole and correspondingly covers the inner side area of the foot arch; the ground contact surface of the second anti-slip area is provided with a plurality of second bulges in parallel; the third anti-skid area is arranged in an area formed by the first anti-skid area of the second outsole and the through groove; wherein, the ground contact matrix of the third anti-slip area is provided with a plurality of third bulges; the fourth anti-skid area is arranged in an area formed by the second anti-skid area of the second outsole and the through groove; wherein, the ground contact surface of the fourth anti-slip area is distributed with a plurality of fourth bulges; the third outsole includes: the first anti-slip area is arranged on the ground contact surface of the third outsole and corresponds to the heel outer side edge area of the heel; the ground contact surface of the first anti-slip area is parallel to a plurality of first bulges in parallel; the second anti-skid area is arranged on the ground contact surface of the third outsole, correspondingly covers the inner side edge area of the heel, and is positioned between the second anti-skid area of the second outsole and the first anti-skid area of the third outsole; wherein, the ground contact surface of the second anti-slip area is parallel and is provided with a plurality of second bulges side by side; the third anti-skid area is arranged on the ground contact surface of the third outsole, correspondingly covers the area from the center of the heel to the outer edge of the heel, and is positioned between the second outsole and the first anti-skid area of the third outsole; wherein, the ground contact matrix of the third anti-skid area is distributed with a plurality of anti-skid protrusions; the fourth anti-skid area is arranged on the ground contact surface of the third outsole and corresponds to an area of which the heel is not covered by the first anti-skid area, the second anti-skid area and the third anti-skid area of the third outsole; the ground contact matrix of the fourth anti-skid area is provided with a plurality of protruding units, each protruding unit comprises n strip-shaped protrusions, and the n strip-shaped protrusions are parallel to each other and distributed side by side to form one protruding unit.
Wherein the first bulges and the second bulges distributed on the first anti-skid area of the first outsole are rectangular; the size of each first bulge is different, and when the first bulges are respectively distributed towards the outer side and the inner side of the sole from the toe position, the sizes of the first bulges are gradually increased; the number of the second bulges is 2, and the size of the second bulges is larger than that of each first bulge; the third bulges distributed on the second anti-skid area of the first outsole are in strip shapes, and the length direction of the third bulges is parallel to the extending direction of the inner side and the outer side of the front sole; the plurality of raised elements distributed over the third non-slip region of the first outsole are substantially the same size, and n=3.
The second anti-skid area of the first outsole is contacted with the ground surface, a marking area is further distributed on the contacted surface of the second anti-skid area of the first outsole, the marking area is circular in shape and covers the upper surface of a part of the third bulge.
Wherein the through groove is rectangular, one end of the through groove is close to the edge of the first outsole, which is close to the second outsole, and the other end of the through groove is close to the edge of the third outsole, which is close to the second outsole; the first protrusions distributed on the first anti-skid area of the second outsole are rectangular in shape, and the size of each first protrusion is basically the same; the second protrusions distributed on the second anti-skid area of the second outsole are rectangular in shape, and the size of each second protrusion is basically the same; the third protrusions distributed on the third anti-skid region of the second outsole are square in shape, and the size of each third protrusion is basically the same; the shape of the plurality of fourth bulges distributed on the fourth anti-skid area of the second outsole is a strip shape, and the length direction of the fourth bulges is parallel to the extending direction of the inner side and the outer side of the front sole.
Wherein the first protrusions distributed on the first anti-slip region of the third outsole are rectangular in shape, and the size of each first protrusion is substantially the same; the second bulges distributed on the second anti-skid area of the third outsole are in strip shapes, and the length direction of the second bulges is parallel to the extending direction of the inner side and the outer side of the front sole; the shapes of the plurality of anti-skid protrusions distributed on the third anti-skid area of the third outsole are English letter shapes; the plurality of raised elements distributed over the fourth non-slip region of the third outsole are substantially the same size, and n=3.
In order to solve the technical problems, the utility model adopts another technical scheme that: an athletic shoe with a damping function comprises a shoelace and a vamp closely attached to the lower side of the shoelace; the shoe comprises a shoe upper, a shoe sole, a shoelace, a shoe tongue and a sport sole, wherein the shoe upper is reserved in the shoe upper, the shoelace penetrates through the shoe upper, and the upper is tightly attached to the lower side of the shoe upper.
The front side of the vamp is fixedly connected with a front sheet, a net surface is sewn and fixed in the front sheet, the rear side of the vamp is fixedly connected with a heel, and the heel is fixedly connected with a third supporting part of the midsole; the surface of heel sets up the guard portion, guard portion regards as the center with the axis of heel, one end to the vamp outside extend to with the position fixed connection of the outside edge center of heel that the third supporting part corresponds, the other end to the vamp inboard extend to with the position fixed connection of the inside edge center of heel that the third supporting part corresponds.
Wherein, still include: a first wrapping sheet, which is arranged on the outer side surface of the vamp and is a part with a hollow interior and a nearly triangular shape; the bottom edge of the first wrapping sheet is fixedly connected to the outer side edge of the third supporting part at a position corresponding to the accommodating space, and the length of the bottom edge of the first wrapping sheet is larger than the width of the accommodating space, so that the accommodating space can be completely covered by the first wrapping sheet; and a portion of the exterior side of the upper corresponding to the hollow region of the first cover sheet is exposed; and a second coating sheet provided on an inner side surface of the upper, the second coating sheet being a member having a substantially triangular shape and being hollow inside; the bottom edge of the second wrapping sheet is fixedly connected to the outer side edge of the third supporting part at a position corresponding to the accommodating space, and the length of the bottom edge of the second wrapping sheet is larger than the width of the accommodating space, so that the second wrapping sheet can completely cover the accommodating space; and a portion of the interior side of the upper corresponding to the hollow region of the second cover sheet is exposed.
Wherein, on the surface of front piece, cover the toe area around still setting up the guard portion.
According to the sports shoe with the cushioning function and the sports sole, provided by the embodiment of the utility model, according to different forces applied to the feet of a player in a sports process, the first outsole, the second outsole and the third outsole which cover different areas are divided on the soles, and the protrusions and the grooves with different shapes are arranged on the first outsole, the second outsole and the third outsole according to the positions of the protrusions and the grooves, so that the player generates relative friction force when the feet are landed and lifted, and the phenomenon of slipping does not occur; meanwhile, the first outsole which covers the front sole and extends to the outer edge of the heel along the outer side of the arch is provided with the anti-slip textures with large density and complex textures, and the anti-slip textures are used for friction force generated by the sole in all directions to play a multi-direction anti-slip role, so that an athlete can quickly react when doing various foot actions, and the friction coefficient of the sole can be greatly enhanced through the mutual matching of the protrusions and the grooves in different arrangement modes, thereby meeting the requirement of complex road conditions during exercise. Therefore, the sole is provided with the protrusions and the grooves in the area dividing mode, the anti-skid and supporting functions of the sole are guaranteed while the functional parts of the sole are not increased, the weight of the sole can be reduced, and the athletic performance of a sportsman is improved. Further, a rebound supporting area is formed at the front sole and the rear heel through a first supporting part, a second supporting part and a third supporting part which are arranged on the midsole and a containing space which is formed, and a rebound buffer area is formed at the arch position; the athlete can relieve the reaction force of the ground to the sole when the front sole or the heel in the process of exercise is grounded, and can protect the cushioning property of the arch, the feet of the athlete and improve the athletic performance of the athlete.
Drawings
FIG. 1 is a schematic plan view of an athletic sole with cushioning in accordance with an embodiment of the present utility model;
FIG. 2 is a schematic view showing a lateral structure of an athletic sole with cushioning function according to an embodiment of the present utility model;
FIG. 3 is a schematic view showing a medial structure of an athletic sole with cushioning function according to an embodiment of the present utility model;
FIG. 4 is a schematic view showing a lateral structure of an athletic shoe with cushioning function according to an embodiment of the present utility model;
fig. 5 is a schematic view showing a medial structure of an athletic shoe with cushioning function according to an embodiment of the present utility model.
Detailed Description
The prior art nouns to which the present utility model relates are explained first as follows.
The MD sole is also called a PHYLON sole, commonly called a flying dragon, so that the burden of feet can be reduced, and the material is soft, good in elastic effect and good in shockproof effect, but when the MD sole encounters high temperature, the shoe is easy to shrink and can be wrinkled.
TPU (Thermoplastic polyurethanes) is a high molecular material formed by jointly reacting and polymerizing diisocyanate molecules such as diphenylmethane diisocyanate (MDI) or Toluene Diisocyanate (TDI) with macromolecular polyol and low molecular polyol (chain extender). TPU has excellent characteristics of high tension, toughness and aging resistance, and is a mature environment-friendly material. The plastic has the characteristics of high strength, good toughness, wear resistance, cold resistance, oil resistance, water resistance, aging resistance, weather resistance and the like which are incomparable with other plastic materials, and simultaneously has a plurality of excellent functions of high waterproof moisture permeability, wind resistance, cold resistance, antibacterial property, mildew resistance, warmth retention, ultraviolet resistance, energy release and the like.
In order to describe the technical content, the structural features, the achieved objects and the effects of the present utility model in detail, the present utility model will be described in detail with reference to the accompanying drawings and embodiments.
Please refer to fig. 1-3, which are schematic diagrams of a sports sole with a damping function according to an embodiment of the present utility model.
The sports shoe sole 100 comprises an outsole 1 and a midsole 2; wherein, the midsole 2 is connected to the upper surface of the outsole 1.
The outsole 1 comprises a first outsole 11, a second outsole 12 and a third outsole 13; the first outsole 11 is arranged on the ground contact surface of the outsole 1 and correspondingly covers the front sole area; the second outsole 12 is arranged on the ground contact surface of the outsole 1 and correspondingly covers the arch area; the third outsole 13 is disposed on the ground contact surface of the outsole 1 and covers the heel area correspondingly.
In this embodiment, the first outsole 11, the second outsole 12, and the third outsole 13 are all made of wear-resistant rubber materials to ensure wear-resistant and anti-slip properties of the athletic shoe.
Specifically, the first outsole 11 includes a first anti-slip region 110, a second anti-slip region 111, and a third anti-slip region 112, where the first anti-slip region 110 is disposed to cover a forefoot edge region, and the second anti-slip region 111 and the third anti-slip region 112 are distributed in a region formed by the first anti-slip region 110 and the second outsole 12; the second anti-slip region 111 corresponds to a toe root region of the hallux, and the third anti-slip region 112 is distributed in a remaining region of the region formed by the first anti-slip region 110 and the second outsole 12. Further, the ground contact surface of the first anti-slip area 110 is provided with a plurality of first protrusions 1101 and second protrusions 1102, the first protrusions 1101 are sequentially disposed around the toe edge area, and the second protrusions 1102 are respectively and symmetrically disposed on the inner side and the outer side of the forefoot corresponding to the position of the second anti-slip area 111. In this embodiment, the first projection 1101 and the second projection 1102 are each rectangular in shape; each first projection 1101 is different in size, and the first projections 1101 gradually increase in size as they are respectively distributed toward the lateral side and the medial side of the sole from the toe position. The number of the second protrusions 1102 is 2, and the size is larger than that of each of the first protrusions 1101.
A plurality of third protrusions 1110 and a marking area 1111 are distributed on the ground contact surface of the second anti-slip area 111; the third protrusions 1110 are elongated, and the length direction of the third protrusions is parallel to the extending direction of the inner side and the outer side of the forefoot, and the third protrusions 1110 are arranged side by side and parallel to the ground contact surface of the second anti-skid area 111; the marking area 1111 is circular in shape and covers part of the upper surface of the third protrusion 1110.
The ground contact matrix of the third anti-slip area 112 distributes a plurality of protruding units 1120, and the plurality of protruding units 1120 have substantially the same size. Wherein each protrusion unit 1120 includes n strip-shaped protrusions 1121, which are arranged side by side in parallel with each other to form one protrusion unit 1120. In the present embodiment, n=3.
The second outsole 12 includes a through slot 120, a first anti-skid region 121, a second anti-skid region 122, a third anti-skid region 123, and a fourth anti-skid region 124; the through groove 120 is formed on the ground contact surface of the second outsole 12, and is disposed corresponding to the center area of the arch. In this embodiment, the through groove 120 has a rectangular shape, one end of which is close to the edge of the first outsole 11 close to the second outsole 12, and the other end of which is close to the edge of the third outsole 13 close to the second outsole 12. The first anti-slip area 121 is disposed on the ground contact surface of the second outsole 12, and covers the outer edge area of the arch; the second anti-slip region 122 is disposed on the ground contact surface of the second outsole 12 and corresponds to the arch medial region. The third anti-slip region 123 is disposed in a region formed by the first anti-slip region 121 and the through groove 120, and the fourth anti-slip region 124 is disposed in a region formed by the second anti-slip region 122 and the through groove 120.
Further, the ground contact surface of the first anti-slip area 121 is provided with a plurality of first protrusions 1210, and the plurality of first protrusions 1210 are parallel to each other and are arranged in parallel in the first anti-slip area 121. In this embodiment, the first protrusions 1210 have a rectangular shape, and each of the first protrusions 1210 has substantially the same size. The ground contact surface of the second anti-slip area 122 is provided with a plurality of second protrusions 1220, and the plurality of second protrusions 1220 are parallel to each other and are arranged in parallel in the second anti-slip area 122. In this embodiment, the second protrusions 1220 have a rectangular shape, and each of the second protrusions 1220 has substantially the same size. The third protrusions 1230 are arranged in a matrix on the ground contact surface of the third non-slip area 123, and in this embodiment, the shape of the third protrusions 1230 is square, and each third protrusion 1230 has substantially the same size. A plurality of fourth protrusions 1240 are distributed on the ground contact surface of the fourth anti-slip region 124; the shape of the plurality of fourth protrusions 1240 is a strip shape, the length direction of the strip shape is parallel to the extending direction of the inner side and the outer side of the forefoot, and the plurality of fourth protrusions 1240 are arranged side by side and parallel to the ground contact surface of the fourth anti-skid region 124.
The third outsole 13 includes a first cleat region 131, a second cleat region 132, a third cleat region 133, and a fourth cleat region 134. The first anti-slip area 131 is disposed on the ground contact surface of the third outsole 13, and covers the heel lateral edge area of the heel correspondingly; the second anti-slip region 132 is disposed on the ground contact surface of the third outsole 13, covers the medial edge region of the heel, and is located between the second anti-slip region 122 of the second outsole 12 and the first anti-slip region 131 of the third outsole 13; the third anti-slip region 133 is disposed on the ground contact surface of the third outsole 13, and is correspondingly disposed between the second outsole 12 and the first anti-slip region 131 of the third outsole 13, covering the rear heel center to the rear heel outer edge region; the fourth anti-slip region 134 is disposed on the ground contact surface of the third outsole 13, and corresponds to a region where the heel is not covered by the first, second, and third anti-slip regions 131, 132, 133.
Further, the ground contact surface of the first anti-slip area 131 is provided with a plurality of first protrusions 1310, and the plurality of first protrusions 1310 are parallel to each other and are arranged in parallel in the first anti-slip area 131. In this embodiment, the first protrusions 1310 are rectangular in shape, and each first protrusion 1310 has substantially the same size. A plurality of second protrusions 1320 are distributed on the ground contact surface of the second anti-slip area 132; the second protrusions 1320 are elongated, and the length direction thereof is parallel to the extending direction of the medial side to the lateral side of the forefoot, and the second protrusions 1320 are arranged side by side and parallel to the ground contact surface of the second anti-skid area 132. The third anti-slip area 133 has a ground-contacting matrix with a plurality of anti-slip protrusions 1330, and in this embodiment, the anti-slip protrusions 1330 have an english letter shape. A plurality of protruding elements 1340 are distributed on the ground contact surface matrix of fourth anti-slip area 134, and the sizes of the plurality of protruding elements 1340 are substantially the same. Wherein each of the protrusion units 1340 includes n bar-shaped protrusions 1341, which are arranged side by side in parallel with each other to form one protrusion unit 1340. In the present embodiment, n=3.
As described above, according to the difference of forces applied to the foot action of the athlete during the exercise, the first outsole 11, the second outsole 12 and the third outsole 13 covering different areas are divided on the outsole 1, and the protrusions and grooves with different shapes are provided on the first outsole 11, the second outsole 12 and the third outsole 13 according to the positions thereof, so that the athlete generates relative friction force when the foot is landed and lifted, and no slipping phenomenon occurs; meanwhile, the first outsole 11 which covers the front sole and extends to the outer edge of the heel along the outer side of the arch is provided with the anti-slip textures with large density and complex textures, and the anti-slip textures are used for friction force generated by the sole in all directions to play a multi-direction anti-slip role, so that an athlete can quickly react when doing various foot actions, and the friction coefficient of the sole can be greatly enhanced through the mutual matching of the protrusions and the grooves in different arrangement modes, thereby meeting the requirement of complex road conditions during sports. Therefore, the sole 1 is provided with the protrusions and the grooves in the divided areas, so that the anti-skid and supporting functions of the sole are ensured while the functional parts of the sole are not increased, the weight of the sole can be reduced, and the athletic performance of a sportsman is improved.
Referring to fig. 2-3, the midsole 2 is made of a 3D high-elastic material.
The midsole 2 includes a first support 21, a second support 22, and a third support 23; wherein, the first supporting part 21 is arranged on the upper surface of the outsole 1 around the edge of the outsole 1 corresponding to the front sole; the second supporting part 22 is arranged on the upper surface of the outsole 1 around the edge of the outsole 1 corresponding to the heel; the third supporting portion 23 is disposed on the upper surfaces of the first supporting portion 21 and the second supporting portion 22, and covers the area from the center of the forefoot to the heel. The first support portion 21 and the second support portion 22 are not connected independently to each other, so that a hollow accommodating space 24 is formed in the first support portion 21, the second support portion 22, the third support portion 23, and the second outsole 12.
Further, a plurality of first grooves 210 are further disposed on the surface of the first supporting portion 21, and a plurality of second grooves 220 are further disposed on the surface of the second supporting portion 22; the first grooves 210 are all arranged on the surface of the first supporting portion 21 in parallel with each other, starting from the position of the first supporting portion 21 at the toe and ending at the end of the first supporting portion 21 near the accommodating space 24. The second grooves 220 are all sequentially distributed on the surface of the second supporting portion 22 side by side, starting from the position of the second supporting portion 22 at the heel, and ending at the end of the second supporting portion 22 near the accommodating space 24.
In the present embodiment, the third supporting portion 23 is made of TPU material.
As described above, the midsole 2 is provided with the first support portion 21, the second support portion 22, the third support portion 23, and the receiving space 24, so that a rebound support region is formed at the front sole and the rear heel, and a rebound cushioning region is formed at the arch; the athlete can relieve the reaction force of the ground to the sole when the front sole or the heel in the process of exercise is grounded, and can protect the cushioning property of the arch, the feet of the athlete and improve the athletic performance of the athlete.
Fig. 4 to 5 are schematic structural views of an athletic shoe with shock absorbing function according to an embodiment of the present utility model.
The sports shoe 200 comprises a shoelace 41, wherein the lower side of the shoelace 41 is tightly attached with an vamp 42, an eyelet button 43 is reserved in the vamp 42, the shoelace 41 is connected with the inside of the eyelet button 43 in a penetrating way, and the lower side of the vamp 42 is tightly attached with the upper side of a tongue 44.
The front side of the vamp 42 is fixedly connected with a front sheet 421, and a net surface 422 is sewn and fixed in the front sheet 421; the rear side of the vamp 42 is fixedly connected with a heel 423, and the heel 422 is fixedly connected with the third supporting portion 23.
A guard portion 424 is provided on a surface of the heel 423, and the guard portion 424 extends toward the left and right uppers 42 with respect to the central axis B-B of the heel 423. Specifically, the protection portion 424 is centered on the central axis B-B of the heel 423, one end of the lateral vamp 42 extends to be fixedly connected with the position of the center of the lateral edge of the heel corresponding to the third supporting portion 23, and the other end of the lateral vamp 42 extends to be fixedly connected with the position of the medial edge of the heel corresponding to the third supporting portion 23.
In this embodiment, the front sheet 421 and the guard 424 are made of TPU.
First and second wrapping sheets 425 and 426 are also provided on the lateral and medial surfaces of the upper 42, respectively; specifically, the first cover sheet 425 and the second cover sheet 426 are each made of TPU material and are disposed on the outside of the upper 42 by a film bonding process.
Specifically, the first cover sheet 425 and the second cover sheet 426 are each hollow-interior, approximately triangular-shaped members; the bottom edge of the first wrapping sheet 425 is fixedly connected to the outer edge of the third supporting portion 23 at a position corresponding to the accommodating space 24, and the bottom edge length of the first wrapping sheet 425 is greater than the width of the accommodating space 24, so that the first wrapping sheet 425 can completely cover the accommodating space 24; a portion of the exterior side of upper 42 corresponding with the hollow region of first cover sheet 425 is exposed. Likewise, the bottom edge of the second wrapping sheet 426 is fixedly connected to the outer edge of the third supporting portion 23 at a position corresponding to the accommodating space 24, and the bottom edge length of the second wrapping sheet 426 is greater than the width of the accommodating space 24, so that the second wrapping sheet 426 can completely cover the accommodating space 24; a portion of the interior side of upper 42 corresponding with the hollow region of second cover sheet 426 is exposed.
Further, a guard 427 is provided around the toe-over area on the surface of the front plate 421. In this embodiment, the guard 427 is made of leather material.
According to the utility model, according to different forces applied to the foot action of the athlete in the motion process, the first outsole, the second outsole and the third outsole which cover different areas are divided on the outsole, and the bulges and the grooves with different shapes are arranged on the first outsole, the second outsole and the third outsole according to the positions of the bulges and the grooves, so that the athlete generates relative friction force when the foot is landed and lifted, and the phenomenon of slipping does not occur; meanwhile, the first outsole which covers the front sole and extends to the outer edge of the heel along the outer side of the arch is provided with the anti-slip textures with large density and complex textures, and the anti-slip textures are used for friction force generated by the sole in all directions to play a multi-direction anti-slip role, so that an athlete can quickly react when doing various foot actions, and the friction coefficient of the sole can be greatly enhanced through the mutual matching of the protrusions and the grooves in different arrangement modes, thereby meeting the requirement of complex road conditions during exercise. Therefore, the sole is provided with the protrusions and the grooves in the area dividing mode, the anti-skid and supporting functions of the sole are guaranteed while the functional parts of the sole are not increased, the weight of the sole can be reduced, and the athletic performance of a sportsman is improved. Further, a rebound supporting area is formed at the front sole and the rear heel through a first supporting part, a second supporting part and a third supporting part which are arranged on the midsole and a containing space which is formed, and a rebound buffer area is formed at the arch position; the athlete can relieve the reaction force of the ground to the sole when the front sole or the heel in the process of exercise is grounded, and can protect the cushioning property of the arch, the feet of the athlete and improve the athletic performance of the athlete.
The foregoing description is only illustrative of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structures or equivalent changes made by the description of the utility model and the accompanying drawings, or direct or indirect application in other relevant technical fields, are included in the scope of the utility model.
Claims (10)
1. The sports sole with the shock absorption function comprises an outsole and a midsole, wherein the outsole is connected to the lower surface of the midsole; the outsole is characterized by comprising: the first outsole is arranged on the ground and corresponds to the front sole area, the second outsole corresponds to the arch area and the third outsole corresponds to the heel area;
the midsole comprises: the sole comprises a first supporting part, a second supporting part and a third supporting part, wherein the first supporting part is arranged on the upper surface of the outsole around the edge of the outsole corresponding to the front sole, the second supporting part is arranged on the upper surface of the outsole around the edge of the heel corresponding to the outsole, and the third supporting part is arranged on the upper surfaces of the first supporting part and the second supporting part and correspondingly covers the area from the center of the front sole to the heel; wherein the first supporting part and the second supporting part are independent from each other and are not connected, so that a hollow accommodating space is formed among the first supporting part, the second supporting part, the third supporting part and the second outsole;
the surface of the first supporting part is also provided with a plurality of first grooves, the first grooves take the position of the first supporting part at the toe as a starting point, and one end of the first supporting part, which is close to the accommodating space, as an ending point, and the first grooves are sequentially distributed on the surface of the first supporting part side by side;
the surface of second supporting part still sets up a plurality of second recesses, and a plurality of the second recess all regards as the start point with the second supporting part is located the position of heel, with the second supporting part is close to the one end of accommodation space is the terminal point, distributes side by side in proper order in the surface of second supporting part.
2. The athletic sole with cushioning function of claim 1, wherein the first outsole comprises:
the first anti-skid area is correspondingly arranged to cover the front sole edge area; the ground contact surface of the first anti-slip area is provided with a plurality of first bulges and second bulges, and the first bulges are sequentially arranged around the edge area of the toe;
the second anti-slip area correspondingly covers the toe root area of the hallux; wherein, the ground contact surface of the second anti-slip area is parallel with a plurality of third bulges; the second protrusions are respectively and symmetrically arranged on the inner side and the outer side of the front sole at the positions corresponding to the second anti-skid areas; and
the third anti-skid area is distributed in the residual area of the area formed by the first anti-skid area and the second outsole; the ground contact matrix of the third anti-skid area is provided with a plurality of protruding units, each protruding unit comprises n strip-shaped protrusions, and the n strip-shaped protrusions are parallel to each other and are distributed side by side to form a protruding unit;
the second outsole includes:
the through groove is formed in the ground contact surface of the second outsole and corresponds to the center area of the arch;
the first anti-skid area is arranged on the ground contact surface of the second outsole and correspondingly covers the outer side edge area of the arch; the ground contact surface of the first anti-slip area is provided with a plurality of first bulges in parallel;
the second anti-skid area is arranged on the ground contact surface of the second outsole and correspondingly covers the inner side area of the foot arch; the ground contact surface of the second anti-slip area is provided with a plurality of second bulges in parallel;
the third anti-skid area is arranged in an area formed by the first anti-skid area of the second outsole and the through groove; wherein, the ground contact matrix of the third anti-slip area is provided with a plurality of third bulges; and
the fourth anti-skid area is arranged in an area formed by the second anti-skid area of the second outsole and the through groove; wherein, the ground contact surface of the fourth anti-slip area is distributed with a plurality of fourth bulges;
the third outsole includes:
the first anti-slip area is arranged on the ground contact surface of the third outsole and corresponds to the heel outer side edge area of the heel; the ground contact surface of the first anti-slip area is parallel to a plurality of first bulges in parallel;
the second anti-skid area is arranged on the ground contact surface of the third outsole, correspondingly covers the inner side edge area of the heel, and is positioned between the second anti-skid area of the second outsole and the first anti-skid area of the third outsole; wherein, the ground contact surface of the second anti-slip area is parallel and is provided with a plurality of second bulges side by side;
the third anti-skid area is arranged on the ground contact surface of the third outsole, correspondingly covers the area from the center of the heel to the outer edge of the heel, and is positioned between the second outsole and the first anti-skid area of the third outsole; wherein, the ground contact matrix of the third anti-skid area is distributed with a plurality of anti-skid protrusions;
the fourth anti-skid area is arranged on the ground contact surface of the third outsole and corresponds to an area of which the heel is not covered by the first anti-skid area, the second anti-skid area and the third anti-skid area of the third outsole; the ground contact matrix of the fourth anti-skid area is provided with a plurality of protruding units, each protruding unit comprises n strip-shaped protrusions, and the n strip-shaped protrusions are parallel to each other and distributed side by side to form one protruding unit.
3. The athletic sole with cushioning function of claim 2, wherein the first and second protrusions disposed on the first cleat area of the first outsole are each rectangular in shape; the size of each first bulge is different, and when the first bulges are respectively distributed towards the outer side and the inner side of the sole from the toe position, the sizes of the first bulges are gradually increased; the number of the second bulges is 2, and the size of the second bulges is larger than that of each first bulge;
the third bulges distributed on the second anti-skid area of the first outsole are in strip shapes, and the length direction of the third bulges is parallel to the extending direction of the inner side and the outer side of the front sole;
the plurality of raised elements distributed over the third non-slip region of the first outsole are substantially the same size, and n=3.
4. The athletic shoe sole with cushioning function of claim 3, wherein the ground contact surface of the second non-slip area of the first outsole further comprises a marking area, wherein the marking area is circular in shape and covers a portion of the upper surface of the third protrusion.
5. The sports shoe sole with cushioning function according to claim 2, wherein the through groove is rectangular in shape, one end of the through groove is close to the edge of the first outsole close to the second outsole, and the other end of the through groove is close to the edge of the third outsole close to the second outsole;
the first protrusions distributed on the first anti-skid area of the second outsole are rectangular in shape, and the size of each first protrusion is basically the same;
the second protrusions distributed on the second anti-skid area of the second outsole are rectangular in shape, and the size of each second protrusion is basically the same;
the third protrusions distributed on the third anti-skid region of the second outsole are square in shape, and the size of each third protrusion is basically the same;
the shape of the plurality of fourth bulges distributed on the fourth anti-skid area of the second outsole is a strip shape, and the length direction of the fourth bulges is parallel to the extending direction of the inner side and the outer side of the front sole.
6. The athletic sole with cushioning according to claim 2, wherein the first protrusions disposed on the first non-slip area of the third outsole are rectangular in shape, each first protrusion having substantially the same size;
the second bulges distributed on the second anti-skid area of the third outsole are in strip shapes, and the length direction of the second bulges is parallel to the extending direction of the inner side and the outer side of the front sole;
the shapes of the plurality of anti-skid protrusions distributed on the third anti-skid area of the third outsole are English letter shapes;
the plurality of raised elements distributed over the fourth non-slip region of the third outsole are substantially the same size, and n=3.
7. An athletic shoe with a damping function comprises a shoelace and a vamp closely attached to the lower side of the shoelace; an eyelet button is reserved in the vamp, a shoelace is connected in the eyelet button in a penetrating way, and the lower side of the vamp is tightly attached to the upper side of the tongue, and the sports shoe sole is characterized by further comprising the sports shoe sole according to any one of claims 1-6.
8. The sports shoe with the shock absorbing function according to claim 7, wherein a front piece is fixedly connected to the front side of the vamp, a net surface is sewn and fixed in the front piece, a heel is fixedly connected to the rear side of the vamp, and the heel is fixedly connected with a third supporting part of the midsole;
the surface of heel sets up the guard portion, guard portion regards as the center with the axis of heel, one end to the vamp outside extend to with the position fixed connection of the outside edge center of heel that the third supporting part corresponds, the other end to the vamp inboard extend to with the position fixed connection of the inside edge center of heel that the third supporting part corresponds.
9. The sports shoe with cushioning function of claim 8, further comprising:
a first wrapping sheet, which is arranged on the outer side surface of the vamp and is a part with a hollow interior and a nearly triangular shape; the bottom edge of the first wrapping sheet is fixedly connected to the outer side edge of the third supporting part at a position corresponding to the accommodating space, and the length of the bottom edge of the first wrapping sheet is larger than the width of the accommodating space, so that the accommodating space can be completely covered by the first wrapping sheet; and a portion of the exterior side of the upper corresponding to the hollow region of the first cover sheet is exposed; and
the second cladding sheet is arranged on the inner side surface of the vamp and is a part with a hollow interior and a nearly triangular shape; the bottom edge of the second wrapping sheet is fixedly connected to the outer side edge of the third supporting part at a position corresponding to the accommodating space, and the length of the bottom edge of the second wrapping sheet is larger than the width of the accommodating space, so that the second wrapping sheet can completely cover the accommodating space; and a portion of the interior side of the upper corresponding to the hollow region of the second cover sheet is exposed.
10. The shock absorbing sports shoe according to claim 8, wherein a protective portion is further provided on a surface of the front piece around the toe region.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202223158828.9U CN219088523U (en) | 2022-11-28 | 2022-11-28 | Sport sole and sport shoes with shock-absorbing function |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202223158828.9U CN219088523U (en) | 2022-11-28 | 2022-11-28 | Sport sole and sport shoes with shock-absorbing function |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN219088523U true CN219088523U (en) | 2023-05-30 |
Family
ID=86455553
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202223158828.9U Active CN219088523U (en) | 2022-11-28 | 2022-11-28 | Sport sole and sport shoes with shock-absorbing function |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN219088523U (en) |
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2022
- 2022-11-28 CN CN202223158828.9U patent/CN219088523U/en active Active
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