阅读说明：本技术 一种防护构件和防护鞋 (Protection component and protection shoes ) 是由 杨君其 韩健 叶福泉 黄守东 王有承 于 2020-04-29 设计创作，主要内容包括：本申请公开了一种防护构件,其用于与鞋底结合形成鞋面或与鞋面结合形成鞋面防护层,其包括面层、里层和设于二者之间的防护层,防护层由ESA材料注塑而成；其设有用于覆盖脚面的主体部,以及延伸于主体部两侧的翼部,翼部用于包覆脚踝面；且其形成筋条结构,并在筋条结构围成区域的上表面设有若干第一凹陷部。还公开了两种防护鞋,其均设有如上所述的防护构件。该防护构件用于向脚面包括脚踝面提供全面的防护,防护效果良好；且防护构件整体轻便易于安装。该防护鞋既能为脚面提供全面的防护,且抱脚包裹性理想,轻便适于穿着。(The application discloses a protective component, which is used for being combined with a sole to form a vamp or being combined with the vamp to form a vamp protective layer and comprises a surface layer, a lining layer and a protective layer arranged between the surface layer and the lining layer, wherein the protective layer is formed by injection molding of an ESA material; the ankle joint is provided with a main body part for covering the foot surface and wing parts extending to two sides of the main body part, wherein the wing parts are used for covering the ankle surface; and the upper surface of the area enclosed by the rib structures is provided with a plurality of first concave parts. Also disclosed are two protective shoes, each of which is provided with a protective member as described above. The protective component is used for providing comprehensive protection for the instep including the ankle surface, and the protective effect is good; and the protective component is light and easy to install. The protective shoes can provide comprehensive protection for the instep, have ideal wrapping property for holding feet, and are light and convenient to wear.)

1. A protective member for forming an upper in combination with a sole or an upper protective layer in combination with an upper, characterized in that: the protective layer is formed by injection molding of ESA materials;

the ankle joint is provided with a main body part for covering the foot surface and wing parts extending to two sides of the main body part, wherein the wing parts are used for covering the ankle surface;

and the upper surface of the area enclosed by the rib structures is provided with a plurality of first concave parts.

2. A guard member according to claim 1, wherein: the lower surface of the protection component, which is surrounded by the rib structures, is provided with a plurality of second concave parts corresponding to the first concave parts.

3. A guard member according to claim 1, wherein: the protective component is provided with a plurality of ventilation through holes penetrating through the upper surface and the lower surface in an area surrounded by the rib structure.

4. A guard member according to claim 1, wherein: the surface layer is a surface film and is coated on the upper surface of the protective layer.

5. A guard structure according to claim 4, wherein: the inner layer is of a double-layer structure.

6. A guard member according to claim 1, wherein: the side edge of the protection component, which is in contact with the ankle surface, is rounded.

7. A pair of protective shoes is characterized in that: comprising a sole and an upper formed by a protective member according to any one of claims 1-6; the vamp is provided with a mounting edge along the bottom extension of the main body part, and the sole is provided with a double-layer wrapping sheet for clamping the mounting edge; the mounting edge is fixedly connected between the double-layer wrapping sheets.

8. A guard member according to claim 7, wherein: the vamp is used for conducting fading treatment on the extending edge contacted with the sole.

9. A pair of protective shoes, according to claim 8, wherein: the device also comprises an elastic adjusting piece; the vamp is provided with adjusting holes at the positions close to the ankles; one end of the tightness adjusting piece penetrates through the adjusting hole, and the other end of the tightness adjusting piece is fixedly connected to the sole and used for limiting the tightness degree of the vamp and the ankle.

10. A pair of protective shoes is characterized in that: comprising a sole, an upper and a protective member according to any one of claims 1-6; the vamp is fixedly connected with the sole, and the vamp is provided with a mounting pocket matched with the protective component; the protective component is inserted into the mounting pocket so as to be combined with the vamp to form the vamp protective layer.

Technical Field

The invention relates to the technical field of structural design of shoes, in particular to a protective component and a protective shoe.

Background

In daily life, the condition that the foot surface is injured due to the fact that a falling weight smashes the foot or is stepped on by people occurs; in addition, particularly in the case of a violent sport such as soccer or basketball, a weak part such as the instep or ankle is more likely to be struck by a violent physical impact, and serious physical injury occurs. The injury is caused by insufficient protection effect of the vamp, so that external impact force is directly applied to the foot surface, ankle surface and other parts to cause injury.

Most of the existing sports shoes are only provided with anti-collision strips at the toe part of the upper or the heel part of the rear part of the upper to play a local protection effect, however, the arrangement mode cannot play a comprehensive protection effect because the part extending from the rear part of the toe part to the ankle surface is not covered, and still has a certain injury risk; the anti-collision strips arranged at the toe parts or the heel parts of the uppers are generally only used for dispersing impact force in the horizontal direction so as to protect the toe parts and the heel parts from collision and cannot disperse the impact force in the vertical direction during pounding or impacting, and the protection effect is limited; in addition, the existing sports shoes provided with the protective components are heavy, inconvenient to move and uncomfortable to wear due to poor foot holding performance.

Disclosure of Invention

The present invention is directed to overcoming the above-mentioned drawbacks and problems of the related art, and providing a protective member for providing a foot surface, including an ankle surface, with a good protective effect; and the protective component is light and easy to install. The protective shoe takes the protective components as the vamp, can provide comprehensive protection for the vamp, has ideal foot holding wrapping performance, and is light and convenient to wear. In addition, the protective shoe can provide comprehensive protection and replace a protective component for recycling, so that the manufacturing cost is saved.

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

a protective component is used for being combined with a sole to form a vamp or being combined with the vamp to form a vamp protective layer, and comprises a surface layer, a lining layer and a protective layer arranged between the surface layer and the lining layer, wherein the protective layer is formed by injection molding of an ESA material; the ankle joint is provided with a main body part for covering the foot surface and wing parts extending to two sides of the main body part, wherein the wing parts are used for covering the ankle surface; and the upper surface of the area enclosed by the rib structures is provided with a plurality of first concave parts.

Preferably, the lower surface of the protection component, which is surrounded by the rib structure, is provided with a plurality of second concave parts corresponding to the first concave parts.

Preferably, the protective component is provided with a plurality of ventilation through holes penetrating through the upper surface and the lower surface in a region surrounded by the rib structure.

Preferably, the surface layer is a surface film which is coated on the upper surface of the protective layer.

Preferably, the inner layer is a double-layer structure.

Preferably, the side edge of the protection member contacting the ankle surface is rounded.

A protective shoe, preferably comprising a sole and an upper formed by a protective member as described above; the vamp is provided with a mounting edge along the bottom extension of the main body part, and the sole is provided with a double-layer wrapping sheet for clamping the mounting edge; the mounting edge is fixedly connected between the double-layer wrapping sheets.

Preferably, the outer extension edge of the upper, which is used for being in contact with the sole, is subjected to fading treatment.

Preferably, the device further comprises a tightness adjusting piece; the vamp is provided with adjusting holes at the positions close to the ankles; one end of the tightness adjusting piece penetrates through the adjusting hole, and the other end of the tightness adjusting piece is fixedly connected to the sole and used for limiting the tightness degree of the vamp and the ankle.

A protective shoe, preferably comprising a sole, an upper and a protective member as described above; the vamp is fixedly connected with the sole, and the vamp is provided with a mounting pocket matched with the protective component; the protective component is inserted into the mounting pocket so as to be combined with the vamp to form the vamp protective layer.

As can be seen from the above description of the present invention, the present invention has the following advantages over the prior art:

1. the protective component comprises a surface layer, an inner layer and a protective layer arranged between the surface layer and the inner layer, and the surface layer and the inner layer are pressed and formed by adopting an integral foaming technology; and based on the human engineering principle, the main part and the alar part of having moulded plastics and having formed with instep and the laminating of ankle face shape, through main part and alar part adaptation cladding promptly on instep and ankle face to provide comprehensive protection to the whole instep that extends to the ankle from the toe portion, the cladding nature is good. The protective layer is formed by injection molding of an ESA material, the material is a shear thickening material, and the material can be quickly hardened after being impacted to resist the external impact force; and the material can recover to the soft state after the external force disappears, namely the material is soft in texture and does not influence the wearing under the normal state, the joint feeling with the protection part is good, and the whole wearing comfort degree is improved. In addition, the wing parts extend to two sides of the main body part, namely the wing parts and the main body part form the protection component which can be independently assembled into an integral structure, so that the installation mode of the protection component can be conveniently selected according to the actual use requirement, and particularly, the protection component can be combined with the sole to form the vamp and can also be combined with the vamp to form the vamp protective layer.

In addition, the protective structure forms a rib structure, and a plurality of first concave parts are arranged on the upper surface of an area defined by the rib structure; when each rib is subjected to impact force in the vertical direction, two sides of each rib can respectively deform towards the first sunken parts respectively arranged on the left side and the right side, so that the impact force is dispersed and absorbed; and, make the inoxidizing coating that adopts the ESA material receive the impact force and harden rapidly simultaneously to keep out external impact force, including the ankle face for its instep that covers play comprehensive protecting effect, the protecting effect ideal, make instep and ankle face avoid strikeing and avoid being injured. After the external impact force disappears, the ribs are deformed and restored, and the protective layer is restored to a soft state, so that comfortable wearing is not affected.

Furthermore, ESA materials do not need to be filled in each first concave part, the final protection effect is not influenced, and the materials of the ESA on the protective layer can be reduced, so that the whole weight of the protective component is reduced, the portability is improved, and the material cost is saved.

2. The protective component is provided with a plurality of second concave parts corresponding to the first concave parts on the lower surface of the region surrounded by the rib structure, namely, the relative concave first concave parts and the second concave parts are used for further reducing the thickness, namely, the material consumption of ESA on the protective layer is reduced so as to improve the overall portability, and the material consumption cost is further reduced. Specifically, the second concave part can be correspondingly arranged at the position easy to bend, so that the whole thickness of the position easy to bend is reduced, bending deformation is facilitated, namely, the loss of the protective component caused by frequent bending is reduced, and the service life of the protective component is prolonged.

3. The protective component is provided with a plurality of ventilation through holes penetrating through the upper surface and the lower surface in an area surrounded by the rib structure, and is used for ventilation to avoid stuffiness and improve the use experience; specifically, the ventilation through holes need to be arranged in a dispersed manner, so that local strength reduction caused by concentrated arrangement is avoided. Wherein, can select a plurality of first depressed parts to set up ventilative through-hole, because the thickness of first depressed part is thinner, can reduce the degree of difficulty of punching a hole processing promptly.

4. The surface layer is a surface layer film, can be attached to the upper surface of the protective layer through a film, and is used for enhancing the tearing resistance of the ESA material, preventing the protective layer from cracking and improving the overall strength of the protective member; the surface film can play a certain waterproof and dustproof effect to delay the oxidation efficiency of the protective layer and ensure the durability; furthermore, surface layer films with different patterns can be sprayed on the protective layer, so that the overall attractive and fashionable degree of the protective component is improved, and the diversified selection requirements of consumers are met. In addition, the protective component processed by the film coating further reduces the thickness compared with an actual three-layer structure, and is suitable for the requirement of light wearing of running shoes. Preferably, the tearing resistance of the protective layer can also be improved by covering and hanging transparent gauze.

5. This nexine is bilayer structure, and cloth is in order to strengthen the bulk strength of protective member promptly through setting up two-layer, and then compensaties owing to set up first depressed part and the bulk strength that the second depressed part and descend to guarantee that the protective member is stable and durable.

6. The protective component is used for rounding the side edge which is in contact with the ankle surface, so that the ankle surface is prevented from being touched when the protective layer is stressed to be hardened, and the wearing comfort is guaranteed without being influenced.

7. The protective shoe comprises a sole and an upper formed by the protective component, so that the protective shoe has comprehensive protective effect on the foot including the ankle, is light and convenient, is suitable for wearing, and has ideal use experience; the vamp can be firmly installed on the sole, and is not easy to shift and fall off after installation, so that the normal use of the protection component is ensured. Specifically, the installation limit of the double-deck package piece centre gripping vamp that is equipped with through the sole promptly, rethread sewing or glue modes such as glutinous make the firm double-deck package piece that is located of installation limit to realize the stable rigid coupling of vamp and sole.

8. The protective component is used for gradually eliminating the extending edge contacted with the sole, namely the extending edge forms a continuous inclined surface, and stress points can be dispersed into stress surfaces when the extending edge is impacted, so that the impact force is further dispersed and absorbed, and the integral protective effect is improved; moreover, the outer extending edge after the gradual elimination treatment can be more closely and fixedly connected with the sole, so that the wrapping property of the foot holding is improved.

9. The protective shoe also comprises an elastic adjusting piece, so that a user can adjust the tightness degree of the vamp and the ankle conveniently according to the actual use requirement, the ankle is prevented from being extruded excessively, and the protective shoe is suitable for being worn in an adjusting way; meanwhile, the tightness adjusting piece has a limiting effect on the protection component, so that the protection component can be wrapped on the ankle surface, and the situation that the protection component is tilted at the position corresponding to the shoe tongue due to frequent contact with the ankle is avoided.

10. The protective shoe comprises a sole, a vamp and the protective component, wherein the protective component is inserted into the mounting pocket arranged on the vamp to provide comprehensive protective effect for the vamp of a foot, namely the protective component is combined with the vamp to form a vamp protective layer; in addition, the insertion installation mode is convenient for replacing damaged or aged protective components so as to recycle the vamp, and the manufacturing cost is further reduced. Similarly, the protective member can be recycled when the shoe upper is damaged.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a schematic front view of a first embodiment of the present invention;

FIG. 2 is a schematic side view of a first embodiment of the present invention;

FIG. 3 is a partial cross-sectional view of a first embodiment of the present invention;

fig. 4 is a schematic structural diagram of a second embodiment of the present invention.

Description of the main reference numerals:

the protective component 1 comprises a main body part 11, a wing part 12, a rib structure 13, a first concave part 141, a second concave part 142, a ventilation through hole 143, an outer extension edge 15, a side edge 16, a mounting edge 17 and an adjusting hole 18;

a sole 2, a double-layer wrapping sheet 21;

a slack adjuster 3.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. It is to be understood that the described embodiments are presently preferred embodiments of the invention and are not to be taken as an exclusion of other embodiments. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

In the claims, the specification and the drawings of the present invention, unless otherwise expressly limited, the terms "first", "second" or "third", etc. are used for distinguishing between different items and not for describing a particular sequence.

In the claims, the specification and the drawings of the present invention, unless otherwise expressly limited, all directional or positional relationships indicated by the terms "center," "lateral," "longitudinal," "horizontal," "vertical," "top," "bottom," "inner," "outer," "upper," "lower," "front," "rear," "left," "right," "clockwise," "counterclockwise," and the like are based on the directional or positional relationships indicated in the drawings and are used for convenience in describing the present invention and for simplicity in description, but do not indicate or imply that the device or element so indicated must have a particular orientation or be constructed and operated in a particular orientation, and therefore should not be construed as limiting the scope of the present invention.

In the claims, the description and the drawings of the present application, unless otherwise expressly limited, the terms "fixedly connected" or "fixedly connected" should be interpreted broadly, that is, any connection between the two that does not have a relative rotational or translational relationship, that is, non-detachably fixed, integrally connected, and fixedly connected by other devices or elements.

In the claims, the specification and the drawings of the present invention, the terms "including", "having" and their variants, if used, are intended to be inclusive and not limiting.

Referring to fig. 1, the present invention provides an embodiment, embodiment one; the first embodiment provides a protective component 1, the protective component 1 is used for being combined with a sole 2 to form a vamp or being combined with the vamp to form a vamp protective layer, the protective component comprises a surface layer, an inner layer and a protective layer arranged between the surface layer and the inner layer, and the surface layer and the inner layer are formed by adopting an integrated foaming technology in a pressing mode; based on the principle of human engineering, the main body part 11 and the wing part 12 which are attached to the foot surface and the ankle surface in shape are formed in an injection molding mode, wherein the radian of the wing part 12 which is matched with the ankle surface is mostly in a U-shaped arrangement; namely, the main body part 11 and the wing part 12 are adapted to cover the instep and the ankle, so that the whole instep extending from the toe part to the ankle is protected comprehensively from being injured, and the covering performance is good. Preferably, the main body 11 is mostly hit or impacted, and the impact force to the wing 12 is generally small and easily dispersed; the thickness of the wing portion 12 can be reduced in consideration of the overall portability, so that the overall weight of the sheathing member 1 can be reduced, thereby improving the portability.

The protective layer is formed by injection molding of an ESA material, and the material is a shear thickening material which can be quickly hardened after being impacted so as to resist the external impact force; and the material can be recovered to a soft state after the external force disappears, namely the material is soft in texture and does not influence the wearing in a normal state, and the material is well attached to the protection part and comfortable to wear.

In the first embodiment, the surface layer is a surface film covering the upper surface of the protective layer; the surface film is used for enhancing the tearing resistance of the ESA material, avoiding the cracking of the protective layer and improving the integral strength of the protective component; the surface film can play a certain waterproof and dustproof effect to delay the oxidation efficiency of the protective layer and ensure the durability; furthermore, surface layer films with different patterns can be sprayed on the protective layer, so that the overall attractive and fashionable degree of the protective component is improved, and various selection requirements of consumers are met. In addition, compared with the actual three-layer structure, the protective component 1 processed by the film coating of the embodiment further reduces the thickness, and is suitable for the requirement of light wearing of running shoes. Preferably, the tearing resistance of the protective layer can also be improved by covering and hanging transparent gauze. Because the lining is positioned on one side of the protective component 1, which is used for contacting with the foot surface and the ankle surface, soft, smooth and good-breathability textile fabrics, such as warp-knitted lycra mesh fabrics, are preferred; the number of the layers of the lining cloth can be set according to actual use requirements, and single-layer or double-layer arrangement is selected.

Preferably, in view of improving the overall strength of the protection member 1, a surface layer and a back layer may be respectively attached to the upper surface and the lower surface of the protection layer, so as to achieve the same protection effect; the facing layer may preferably be of PP, although not limited to other materials that provide the same tear resistance.

Wherein, because alar part 12 extends in the both sides of main part 11, the two structure as an organic whole promptly, has constituted the protective member 1 that can independently assemble, is convenient for select protective member 1's mounting means according to the user demand of reality, both can directly install on sole 2 as the vamp, also can install on the vamp as independent component in order to form the vamp inoxidizing coating with the vamp cooperation, and two kinds of mounting means homoenergetic provide the protection for the instep including the ankle face.

As shown in fig. 1-3, the protective member 1 is provided with a rib structure 13, the upper surface of the region enclosed by the rib structure 13 is provided with a plurality of first recesses 141, the lower surface of the region enclosed by the rib structure is provided with a plurality of second recesses 142 corresponding to the first recesses 141, the enclosed region is further provided with a plurality of ventilation through holes 143 penetrating the upper and lower surfaces, and each of the first recesses 141 and the second recesses 142 does not need to be filled with ESA materials.

Preferably, the lower surface may be recessed into a plurality of second recesses 142 corresponding to the first recesses 141 provided at the flexible portion; and a plurality of dispersed first recesses 141 may be selected to be provided with the air-permeable through-holes 143. The side edge 16 of the protective component 1, which is in contact with the ankle surface, is rounded to prevent the protective layer from colliding with the ankle surface when being stressed and hardened, so that the wearing comfort is ensured.

The thickness is further reduced by the first concave part 141 and the second concave part 142 which are relatively concave, namely, the material consumption of ESA on the protective layer is reduced to improve the overall portability, and the material consumption cost is further reduced; and the first concave part 141 and the second concave part 142 are correspondingly arranged at the bendable part, so that the whole thickness of the corresponding position is reduced, the bending deformation is facilitated, the loss of the protective member 1 caused by frequent bending is reduced, and the service life of the protective member 1 is prolonged. Each ventilation through hole 143 is used for ventilation to avoid stuffy feet, so that the use experience is improved; it should be noted that the air-permeable through holes 143 need to be distributed to avoid concentrated arrangement and local strength reduction. The venting through holes 143 can be distributed in selected ones of the first recesses, i.e. because the first recesses 141 are thinner, the difficulty of punching process is reduced.

Further, because the problem that the overall strength is reduced exists in the first concave part 141 and the second concave part 142 which are relatively concave, in the first embodiment, the overall strength of the protection component 1 is enhanced by arranging the lining cloth with a double-layer structure, and the stability and durability of the whole protection component 1 are further ensured.

It should be noted that the protective member 1 provided in the first embodiment can be applied to different types of shoes, including but not limited to: basketball shoes, running shoes, hiking shoes, and other types of shoes. Further, because the protective component 1 needs to be attached to the foot surface and the ankle surface with the radian, in the process of mass production, based on the consideration of process difficulty and convenience in transportation, the protective component 1 can adopt a split structure, namely the main body part 11 is divided into a plurality of sub-pieces with small radians according to the structure of the main body part 11, so that the sub-pieces are respectively subjected to injection molding and then are spliced to form the integral protective component 1, and adjacent sub-pieces are spliced in a sewing mode. The preferred dividing position is a portion that is easily bent, so that the stitching line and the bending line overlap to facilitate the bending movement, and the bending trace is not easily formed on the main body 11.

As shown in fig. 4, based on the protection member 1 of the first embodiment, the invention also provides a protective shoe, which comprises an upper formed by the protection member 1, a sole 2 and a slack adjuster 3.

In the second embodiment, the outer extension edge 15 of the vamp formed by the protective component 1, which is used for contacting with the sole 2, is subjected to fading treatment; that is, the extending edge 15 forms a continuous inclined surface, so that the stress point can be dispersed into a stress surface when the extending edge 15 is impacted, the impact force can be further dispersed and absorbed, and the whole protection effect can be improved. Furthermore, the outer extending edge 15 after the gradual elimination treatment can be more closely fixed on the sole 2, and the wrapping property of the foot holding is good. In addition, the vamp is provided with a mounting edge 17 along the bottom extension of the main body part 11 and is used for being matched and mounted with the sole 2; the vamp is provided with an adjusting hole 18 at the position close to the ankle for the elastic adjusting piece 3 to be arranged in a penetrating way.

The sole 2 is provided with a double-layer wrapping sheet 21 used for clamping the mounting edge 17, and the shape of the double-layer wrapping sheet 21 is matched with that of the mounting strip 17; namely, the mounting edge 17 is clamped by the double-layer wrapping sheet 21 arranged on the sole 2, and the mounting edge 17 is firmly positioned in the double-layer wrapping sheet 21 by sewing or gluing and other modes so as to realize the stable fixed connection of the vamp and the sole 2.

Wherein, one end of the elastic adjusting piece 3 passes through the adjusting hole 18, and the other section is fixedly connected with the sole 2 and used for limiting the tight attaching degree of the vamp and the ankle; preferably, the slack adjuster 3 includes a shoelace, a hook and loop fastener, and/or a zipper. In the second embodiment, the tightness adjusting member 3 is a magic tape, one end of which is fixed on the sole, and the other end of which is stuck on the first end after passing through the adjusting hole 18, so that the user can adjust the tightness between the vamp and the ankle according to the actual height of the instep, thereby avoiding excessively squeezing the ankle and being suitable for adjusting the wearing; meanwhile, the elastic adjusting piece 3 plays a limiting role in the protection component 1, so that the protection component 1 can be wrapped on the ankle surface, the situation that the protection component 1 is tilted at the position corresponding to the tongue due to frequent contact with the ankle is avoided, stable wrapping performance is ensured, and the risk of injury is reduced.

In the second embodiment, the protective member 1 is used as an upper to form a protective shoe in combination with the sole 2; in another embodiment of the present invention, embodiment three. The third embodiment provides a pair of protective shoes, wherein the protective member 1 is combined with the shoe upper to form a shoe upper protective layer, and in the third embodiment, the pair of protective shoes comprises the protective member 1, the shoe sole 2 and the shoe upper; the sole is a conventional sole; the vamp is fixedly connected with the sole 2, and the vamp is provided with a mounting pocket matched with the protection component 1 and used for inserting the protection component 1 into the mounting pocket.

Specifically, the protection member 1 is integrally inserted into the mounting pocket as an independent member, and due to the fact that the mounting pocket is matched with the protection member 1 in shape, the protection member 1 can be snugly covered on an inner layer of the mounting pocket after being mounted, so that an integral vamp protection layer is formed with the vamp, and comprehensive protection is provided for the instep including the ankle.

Preferably, the mounting pocket may be provided with a sealing member at the opening, and after the protection member 1 is inserted into the mounting pocket, the opening is closed by the sealing member to limit the protection member 1 from sliding out of the mounting pocket, so as to ensure stable mounting of the protection member 1; in addition, the mounting pocket may also take the form of a mesh bag, which can be wrapped entirely around the shielding member 1 to limit its slippage. The third embodiment provides an insert installation mode, all need not to dismantle can change the protection component 1 or the vamp of damage at any time to the intact accessory of circulation utilization has further reduced the manufacturing cost of product.

In summary, based on the second and third embodiments provided above, an appropriate installation manner can be selected according to actual use scenes of different types of shoe money, and when the protection member 1 stably covers the instep including the ankle, an ideal anti-collision effect can be achieved, so as to protect the entire instep from impact and reduce the risk of injury; further, the protective member 1 is provided with a material property and a shape so that it is comfortable to wear while covering the instep and ankle, and is light and convenient as a whole and suitable for sports.

The description of the above specification and examples is intended to be illustrative of the scope of the present invention and is not intended to be limiting. Modifications, equivalents and other improvements which may occur to those skilled in the art and which may be made to the embodiments of the invention or portions thereof through a reasonable analysis, inference or limited experimentation, in light of the common general knowledge, the common general knowledge in the art and/or the prior art, are intended to be within the scope of the invention.