CN211431230U - Detachable ankle guard structure of shoes and boots - Google Patents

Abstract

The utility model discloses a detachable ankle guard structure of shoes, which comprises a shoe body, wherein the corresponding position on the upper of the shoe body is provided with an embedding groove, an ankle guard structure is arranged in the embedding groove, and the ankle guard structure is detachably embedded in the embedding groove by any one of adsorption, adhesion or clamping; the ankle guard structure comprises a rubber layer and a D3O layer, and the ankle guard structure is formed by integrally laminating the rubber layer and the D3O layer. The utility model provides an ankle guard structure on shoes boots has detachability, can decide whether need this ankle guard structure according to service environment, and this ankle guard structure of mountable when outdoor use protects the ankle, under indoor safety ring border, can dismantle it to increase shoes boots's the travelling comfort of dress, can satisfy different environment of dress. The ankle guard structure adopts wear-resisting, prevent scraping, resistant rubber sheet that collides with to and adopt the D3O material that has slow resilience performance, can alleviate the injury of external impact force to the ankle.

Description

Detachable ankle guard structure of shoes and boots

Technical Field

The utility model belongs to shoes boots ankle guard field, concretely relates to shoes boots dismantle ankle guard structure.

Background

Because outdoor activity intensity is great, the topography is complicated, if not good protection of both feet under complicated geographical environment can appear spraining, colliding with scheduling problem. The ankle guard structure is added on the shoes and boots, and the accidental injury brought when can effectively reduce outdoor activities, but most ankle guard structures are all hard partially, and the accidental injury when can reducing outdoor activities, but its travelling comfort is not high, and under some relatively safer indoor environment, the ankle guard structure then can influence the travelling comfort of foot. Based on this, there is a need to design an ankle support structure that can satisfy different wearing environments.

SUMMERY OF THE UTILITY MODEL

To the demand among the above-mentioned prior art, the utility model aims at providing a shoes boots dismantle ankle guard structure.

The purpose of the utility model is realized through the following technical scheme.

A detachable ankle guard structure of a shoe comprises a shoe body, wherein an embedding groove is formed in the corresponding position of an upper of the shoe body, an ankle guard structure is arranged in the embedding groove, and the ankle guard structure is detachably embedded in the embedding groove in any one of adsorption, adhesion or clamping; the ankle guard structure comprises a rubber layer and a D3O layer, and the ankle guard structure is formed by integrally laminating the rubber layer and the D3O layer.

The ankle guard structure is inlayed in inlaying the groove through adsorption mode detachable, inlay the fixed magnet that is provided with in the groove, the fixed metal that is provided with mutually with magnet attracting in D3O layer edge of ankle guard structure.

The magnet is positioned inside the shoe and boot body.

Ankle guard structure inlays through adhesion mode detachable and inlays in inlaying the groove, inlay the hair side that is provided with the magic subsides in the groove, the fixed hook face that is provided with the magic subsides in D3O layer edge of ankle guard structure.

Ankle guard structure inlays through joint mode detachable and inlays in inlaying the groove, inlay and be provided with the draw-in groove in the groove, the D3O layer edge fixation of ankle guard structure is provided with the card that is provided with draw-in groove matched with and holds in the palm.

The clamping groove and the clamping support are made of metal materials or hard plastic materials.

The ankle guard structure is irregular pentagon.

The thickness of the D3O layer is 5-8 mm.

The utility model has the advantages that: the utility model provides an ankle guard structure on shoes boots has detachability, can decide whether need this ankle guard structure according to service environment, and this ankle guard structure of mountable when outdoor use protects the ankle, under indoor safety ring border, can dismantle it to increase shoes boots's the travelling comfort of dress, can satisfy different environment of dress. The ankle guard structure adopts wear-resisting, prevent scraping, resistant rubber sheet that collides with to and adopt the D3O material that has slow resilience performance, can alleviate the injury of external impact force to the ankle.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural diagram of the clamping manner of the present invention.

In the figure, 10 is a boot body, 11 is a card slot, 20 is an ankle guard structure, 21 is a rubber layer, 22 is a D3O layer, and 23 is a card support.

Detailed Description

As shown in figures 1 and 2, the detachable ankle guard structure of the shoe and boot can determine whether the ankle guard structure is needed according to the use environment, the ankle guard structure can be installed when the shoe and boot is used outdoors to protect the ankle, and the ankle guard structure can be detached in an indoor safe environment to improve the wearing comfort of the shoe and boot. The ankle protection ankle boots comprise boot bodies 10, wherein the upper of each boot body 10 is correspondingly provided with an embedding groove, and the embedding groove is arranged corresponding to the ankle position of a human body, so that the ankle protection ankle structure 20 can fully protect the ankle; an ankle guard structure 20 is arranged in the embedding groove, and the ankle guard structure 20 is detachably embedded in the embedding groove in any one of adsorption, adhesion or clamping. The ankle guard structure 20 is an irregular pentagon, which can enhance the beauty of the ankle guard structure 20 and the footwear body 10.

The ankle guard structure 20 comprises a rubber layer 21 and a D3O layer 22, and the ankle guard structure 20 is formed by integrally laminating the rubber layer 21 and the D3O layer 22. The D3O layer 22 is a D3O material, the D3O material has slow resilience performance and can relieve the injury of external impact force to ankles, the D3O material is kept in a loose state in a normal state, is soft and elastic, once being severely impacted or squeezed, molecules are locked with each other immediately and are quickly tightened and hardened to digest external force, a protective layer is formed, after the external force disappears, the material can return to an initial loose soft elastic state, and the material can make different reactions under different impact conditions in nano-second and is a non-Newtonian fluid substance. Rubber layer 21 is whole sheet rubber, for the rubber material, has wear-resisting, prevents scraping and resistant performance of colliding with, can prevent the direct striking to D3O material when external impact, prolongs the life of D3O material. When the ankle brace is pressed and formed, different pressing molds can be arranged according to different embedding modes, so as to manufacture the ankle brace 20 with different structures. The present invention is not described in detail with respect to the press-molding technique, which is a prior art in the textile field.

Further, the thickness of the D3O layer 22 is 5-8 mm.

Ankle guard structure 20 inlay in inlaying the groove through absorption mode detachable inlay the fixed magnet that is provided with in the groove, the fixed metal that is attracted with magnet that is provided with in D3O layer 22 edge of ankle guard structure 20, the edge ring shape setting on D3O layer 22 is followed to the metal. When the integrated type ankle protection structure is pressed and formed, the edge of the reserved D3O layer 22 is stepped, metal is bonded along the step by strong glue, or the metal is sewn on the D3O layer 22 by a wire, and it should be noted that the surface of the metal and the surface of the D3O layer 22 should be on the same plane.

Further, the magnet is located inside the shoe and boot body 10 and is embedded inside the groove, so that the magnet is stably installed and is not easy to drop.

Ankle guard structure 20 inlay through adhesion mode detachable and inlaying the groove in, inlay the hair side that is provided with the magic subsides in the groove, the hair side that the magic was pasted is fixed on the surface of inlaying the groove through powerful glue or wire rod, the fixed hook face that is provided with the magic subsides in D3O layer 22 edge of ankle guard structure, it is the same with set up the metal on ankle guard structure 20, the hook face that the magic was pasted is the edge step annular setting along D3O layer 22 equally, the hook face that the magic was pasted is fixed on D3O layer 22 through powerful glue or wire rod. Wherein, the hair side of magic subsides is difficult for adhering objects such as hair, catkin, wire rod, and after ankle guard structure 20 under the dismantlement, can keep the clean and tidy of shoes boots body 10 embedding groove.

Ankle guard structure 20 inlay through joint mode detachable and inlay in inlaying the groove, inlay and be provided with draw-in groove 11 in the groove, draw-in groove 11 sets up in advance in inlaying the groove, D3O layer 22 edge fixation of ankle guard structure 20 is provided with the card that holds in the palm 23 with draw-in groove 11 matched with, and it is the same with the hook face that sets up metal or magic subsides on ankle guard structure 20, the card holds in the palm 23 and is the edge step annular setting along D3O layer 22 equally, the card holds in the palm 23 and fixes on D3O layer 22 through powerful glue or wire rod.

Further, the card slot 11 and the card holder 23 are made of metal materials or hard plastic materials.

It should be noted that the fixing manner by the wire is not that the wire passes through the hook surface or the clamping support 23 of the metal or the magic tape, but only that the wire passes around the hook surface or the clamping support 23 of the metal or the magic tape, and the wire is limited on the D3O layer 22.

Explaining the working mode of the utility model by an adsorption connection mode, when the ankle guard structure 20 is integrally pressed and molded, a pressing mold is prefabricated, so that the thickness of the D3O layer 22 is 5mm, a step with the depth of 1.5mm is arranged at the 3mm position of the edge of the ankle guard structure, and after the ankle guard structure 20 is pressed and molded, iron sheet metal is arranged on the step at the edge of the D3O layer 22 by strong glue; when the boot body 10 is manufactured, the inlay groove is also prefabricated, and a strong magnet is also prefabricated inside the inlay groove.

When the ankle guard structure is worn outdoors, the ankle guard structure 20 is embedded in the embedding groove, and the iron sheet is attracted by the powerful magnet, so that the ankle guard structure 20 is fixed in the embedding groove; in an indoor safe environment, the ankle guard structure 20 is detached by separating the iron sheet and the strong magnet to improve the comfort of the shoes and boots when worn.

The working mode of the utility model is described in an adhesion connection mode, when the integrated pressing type ankle guard structure 20 is pressed, a pressing mold is prefabricated, so that the thickness of the D3O layer 22 is 7mm, a step with the depth of 2mm is arranged at the 3mm position of the edge of the D3O layer, and after the ankle guard structure 20 is pressed and molded, the hook surface of the magic tape is arranged on the step at the edge of the D3O layer 22 through the super glue; when making boots body 20, inlay the groove in the same prefabrication, pass through the powerful glue setting with the matte of magic subsides on the surface of inlaying the groove.

When the ankle support is worn outdoors, the ankle support structure 20 is embedded in the embedding groove and is connected with the hair side through the hook side and the hair side of the magic tape; when the indoor safety environment, through the hook face and the hair side of separating the magic subsides, dismantle ankle guard structure 20 to the travelling comfort when improving shoes boots and wear.

The working mode of the utility model is described in a clamping connection mode, when the ankle guard structure 20 is integrally pressed and molded, a pressing mold is prefabricated, so that the thickness of the D3O layer 22 is 8mm, a step with the depth of 4mm is arranged at the 3mm position of the edge of the D3O layer, and after the ankle guard structure 20 is pressed and molded, the hard plastic clamping support 23 is arranged on the step at the edge of the D3O layer 22 through strong glue; when the shoe boot body 10 is manufactured, the embedding groove is prefabricated, the hard plastic clamping groove 11 is preset on the surface of the embedding groove, the height of the clamping groove 11 and the height of the clamping support 23 are both 3mm, when the clamping groove 11 is spliced with the clamping support 23, the clamping groove 11 and the bottom of the clamping support 23 are connected, the height of the clamping groove 11 and the bottom of the clamping support 23 are just 4mm, and the surface of the rubber layer 21 of the ankle guard structure 20 and the surface of the shoe boot body 10 are located on the same plane.

When the ankle guard structure is worn outdoors, the ankle guard structure 20 is embedded in the embedding groove, and the clamping support 23 is inserted into the clamping groove 11, so that the ankle guard structure 20 is fixed in the embedding groove; in an indoor safety environment, the ankle guard structure 20 is detached by separating the clip holder 23 and the clip groove 11, so as to improve the comfort of the shoes and boots when worn.

The above description is only a preferred embodiment of the present invention, and is not a limitation to the technical solution of the present invention, it should be noted that, further improvements and changes can be made by those skilled in the art on the premise of the technical solution of the present invention, and all such improvements and changes should be covered in the protection scope of the present invention.

Claims (8)

1. The utility model provides a shoes boots dismantle ankle guard structure, includes shoes boots body, its characterized in that: an embedding groove is formed in the corresponding position of the upper of the shoe body, an ankle guard structure is arranged in the embedding groove, and the ankle guard structure is detachably embedded in the embedding groove in any one of adsorption, adhesion or clamping; the ankle guard structure comprises a rubber layer and a D3O layer, and the ankle guard structure is formed by integrally laminating the rubber layer and the D3O layer.

2. The removable ankle brace construction of a footwear according to claim 1, wherein: the ankle guard structure is inlayed in inlaying the groove through adsorption mode detachable, inlay the fixed magnet that is provided with in the groove, the fixed metal that is provided with mutually with magnet attracting in D3O layer edge of ankle guard structure.

3. The removable ankle brace construction of a footwear according to claim 2, wherein: the magnet is positioned inside the shoe and boot body.

4. The removable ankle brace construction of a footwear according to claim 1, wherein: ankle guard structure inlays through adhesion mode detachable and inlays in inlaying the groove, inlay the hair side that is provided with the magic subsides in the groove, the fixed hook face that is provided with the magic subsides in D3O layer edge of ankle guard structure.

5. The removable ankle brace construction of a footwear according to claim 1, wherein: ankle guard structure inlays through joint mode detachable and inlays in inlaying the groove, inlay and be provided with the draw-in groove in the groove, the D3O layer edge fixation of ankle guard structure is provided with the card that is provided with draw-in groove matched with and holds in the palm.

6. The removable ankle brace of a footwear according to claim 5, wherein: the clamping groove and the clamping support are made of metal materials or hard plastic materials.

7. The removable ankle brace construction of a footwear according to claim 1, wherein: the ankle guard structure is irregular pentagon.

8. The removable ankle brace construction of a footwear according to claim 1, wherein: the thickness of the D3O layer is 5-8 mm.

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