CN219396412U - Antistatic shoes - Google Patents

Abstract

The utility model discloses an anti-static shoe, which consists of a bottom table, an anti-slip outsole, a vamp and a second insole, wherein the bottom table is respectively provided with a first through hole at the position opposite to the heel and the half sole, and two ends of a first conductive braid pass through the first through holes and are adhered to the bottom surface of the bottom table; the anti-skid outsole is formed by compression molding of conductive rubber, the plane of the inner side of the anti-skid outsole is adhered to the bottom surface of the base table, and the anti-skid outsole is in conductive connection with the first conductive braid; the vamp is adhered to the bottom table, a plurality of symmetrically arranged holes are formed in the interval from the heel to the arch of the vamp, the second conductive braid passes through the holes and is adhered to the bottom fabric, and the second conductive braid and the first conductive braid form conductive connection; the second insole is arranged in the vamp, a second through hole is formed in the position, opposite to the heel and the arch of the foot, of the second insole, the third conductive braid penetrates through the second through hole and then is adhered to the bottom surface of the insole, and the third conductive braid is in conductive connection with the second conductive braid. The user can timely release the static electricity in the body by stepping on the anti-static shoes.

Description

Antistatic shoes

Technical Field

The utility model relates to shoes, in particular to an anti-static shoe.

Background

The grounding refers to electrically connecting the human body with the earth to release excessive static electricity, so that the human body keeps the same potential as the earth, the human body is restored to the potential balance, the most natural charged state is restored, and the oxidation resistance system in the human body is restored to resist free radicals. The form of grounding is a movement that uses the earth's electrical energy, which is also transferred to the body if some part of the body contacts the earth or contacts an object that can conduct the earth's electric field. Studies indicate that grounding the human body can reduce chronic pain, reduce nerve tension, balance hormone secretion, help sleep at night, promote blood circulation, balance blood pressure, improve menstrual pain or climacteric discomfort, help surgical wound healing, eliminate edema, and the like. The simplest grounding mode is to make bare feet outdoors and shine the sun or make bare feet walk on the seaside beach.

In order to ground without taking off shoes and making bare feet in daily life, several utility models and creations related to grounded shoes have been created, and it is desirable to conduct redundant charges of human bodies to the ground in different designs of conductive manner.

The taiwan patent No. M570631 discloses a grounding air shoe electrically connected by a conductive member and conductive wires, wherein one surface of the conductive member is provided with a plurality of conductive wire holes in a penetrating manner, and the other surface of the conductive member is provided with a buffer slot communicated with each conductive wire hole in a penetrating manner; the wire is provided with a grounding section and a guiding section, the wire penetrates through any two wire holes respectively, the bending part of the wire is positioned in the buffer groove and is the grounding section, the rest part which is not positioned in the buffer groove is the guiding section, the guiding section is sewed and fixed on the side wall of the vamp, when a user is in electrical contact with the guiding section, the charge accumulated in the user body is conducted to the ground through the guiding section, the conductive piece and the grounding section.

The guide section is sewn and fixed on the side wall of the vamp, and under dynamic use such as frequent running and jumping of shoes, the guide section, the conductive piece, the wire guide section and the wire grounding section are difficult to ensure, and the falling of any link leads to electric connection and disconnection. The user cannot know that the grounding function is lost without any warning.

The utility model patent of taiwan No. M559081 discloses a grounding shoe which comprises an upper made of conductive fabric; an insole made of conductive foam and conductive fabric; a base made of conductive rubber by compression molding; the conductive EVA is used for manufacturing the middle sole by compression molding or injection molding, and positive ions of the body are grounded electrostatically, so that free electrons on the surface of the earth flow into the body of a user, the electric charge of the body is balanced, and the body health is maintained.

The material with conductive function is not contended with the general material in terms of material cost, for example, conductive rubber (conductive rubber) is used for adding carbon powder or metal powder such as silver plating of glass, silver plating of aluminum, silver and the like into a material which has high resistance value and is almost insulating, and the conductive material is conductive through pressure; conductive fiber cloth (conductive fabric) is formed by using a generally used polyester fiber cloth as a base material and applying a plated metal coating to the base material so as to have metal characteristics.

The grounding air shoe is made of conductive fabric into a vamp; the conductive foam and the conductive fabric are made into insoles; the conductive rubber is made into a base table; the conductive EVA is made into the midsole, and the high material cost tends to weaken the market competitiveness of the product.

Disclosure of Invention

The utility model aims to: in view of the above-mentioned shortcomings of the prior art, the present utility model provides an anti-static shoe, which is capable of forming a stable and reliable conductive connection between a user and the ground through conductive elements corresponding to each structural unit of the shoe, thereby releasing excessive static electricity.

The technical scheme is as follows: an antistatic shoe, which consists of the following components:

the bottom table is provided with first through holes at positions opposite to the heel and the half sole respectively, and two ends of the first conductive braid respectively pass through the two first through holes from the top surface and are adhered to the bottom surface of the bottom table through conductive adhesive;

the anti-slip outsole is formed by compression molding of conductive rubber, the inner side plane of the anti-slip outsole is adhered to the bottom surface of the base table, and the anti-slip outsole is in conductive connection with the first conductive braid.

Further, the shoe comprises a vamp, the vamp is adhered to the edge of the upper part of the bottom of the base table, a plurality of symmetrically arranged holes are formed in the interval from the heel to the arch of the vamp, the second conductive braid passes through the holes and is adhered to the bottom of the base table through conductive adhesive, and the second conductive braid is in conductive connection with the first conductive braid.

Further, the shoe pad also comprises a second shoe pad, the second shoe pad is arranged in the vamp, a second through hole is respectively arranged at the position of the shoe pad corresponding to the heel and the foot arch, two ends of a third conductive braid respectively penetrate through the two second through holes and then are adhered to the bottom surface of the shoe pad through conductive adhesives, and the third conductive braid is in conductive connection with the second conductive braid.

Further, the shoe pad comprises a third insole and a conductive pad, a third through hole is formed in the position, opposite to the heel, of the third insole, the shape of the conductive pad is matched with that of the third through hole, the conductive pad is inlaid in the third through hole, and the conductive pad and the second conductive braid are in conductive connection.

Further, the conductive pad is made of conductive rubber through an integral molding mode.

Further, the periphery of the bottom side of the anti-slip outsole is provided with an outer side pattern part with an anti-slip function.

When the anti-static shoes are used, when a user steps on the anti-static shoes, the third conductive mesh belt, the second conductive mesh belt, the first conductive mesh belt and the grounded anti-slip outsole form conductive connection, and static electricity in the user is released.

Drawings

Fig. 1 is an exploded perspective view of an embodiment of the present utility model.

Fig. 2 is an enlarged view at a of fig. 1.

Fig. 3 is an exploded perspective view of another embodiment of the present utility model.

Fig. 4 is an enlarged view at B of fig. 3.

Wherein:

1-base table
		11-first through hole	12-first conductive webbing
2-antiskid outsole
		21-medial plane	22-outside pattern part
3-vamp
		31-bottom fabric	310-hole
32-second conductive webbing
		4-second insole	4' -third insole
41-second through hole	41' -third through hole
		42-third conductive webbing
5-conductive pad

The specific embodiment is as follows:

the following detailed description of specific embodiments of the utility model.

Example 1

Fig. 1 is an exploded perspective view of an embodiment of the present utility model. Fig. 2 is an enlarged view at a of fig. 1. As shown in fig. 1 and 2, the antistatic shoe is composed of a bottom table 1, an antiskid outsole 2, a vamp 3 and a second insole 4, wherein:

the bottom table 1 is provided with first through holes 11 at the positions opposite to the heel and the half sole respectively, two ends of a first conductive braid 12 downwards penetrate through the two first through holes 11 respectively from the top surface of the bottom table 1, and then are adhered to the bottom surface of the bottom table 1 by conductive glue;

the anti-slip outsole 2 is formed by compression molding of conductive rubber, an inner side plane 21 of the anti-slip outsole 2 is adhered to the bottom surface of the base table 1 by conductive glue, the anti-slip outsole 2 and the first conductive webbing 12 form conductive connection, and outer side pattern parts 22 with anti-slip functions are arranged on the periphery of the bottom side of the anti-slip outsole 2;

the vamp 3 is adhered to the periphery of the top side of the bottom table 1, a plurality of symmetrically arranged holes 310 are arranged between the bottom fabric 31 of the vamp 3 and the heel to arch region, the second conductive braid 32 passes through the holes 310 in a shoelace threading manner, and is adhered to the bottom fabric 31 by conductive glue, and the second conductive braid 32 and the first conductive braid 12 form conductive connection;

the second insole 4 is arranged in the vamp, the second insole 4 is respectively provided with a second through hole 41 at the position corresponding to the heel and the arch of foot, two ends of the third conductive braid 42 downwards penetrate through the two second through holes 41 from the top surface of the insole 4, then the third conductive braid 42 is adhered to the bottom surface of the second insole 4 by conductive glue, and the third conductive braid 42 and the second conductive braid 32 form conductive connection.

Example 2

Fig. 3 is an exploded perspective view of another embodiment of the present utility model. Fig. 4 is an enlarged view at B of fig. 3. As shown in fig. 3 and 4, the antistatic shoe is composed of a base table 1, an antiskid outsole 2, a vamp 3, a third insole 4' and a conductive pad 5, wherein:

the bottom table 1 is provided with first through holes 11 at the positions opposite to the heel and the half sole respectively, two ends of a first conductive braid 12 downwards penetrate through the two first through holes 11 respectively from the top surface of the bottom table 1, and then are adhered to the bottom surface of the bottom table 1 by conductive glue;

the anti-slip outsole 2 is formed by compression molding of conductive rubber, an inner side plane 21 of the anti-slip outsole 2 is adhered to the bottom surface of the base table 1 by conductive glue, the anti-slip outsole 2 and the first conductive webbing 12 form conductive connection, and outer side pattern parts 22 with anti-slip functions are arranged on the periphery of the bottom side of the anti-slip outsole 2;

the vamp 3 is adhered to the periphery of the top side of the bottom table 1, a plurality of symmetrically arranged holes 310 are arranged between the bottom fabric 31 of the vamp 3 and the heel to arch region, the second conductive braid 32 passes through the holes 310 in a shoelace threading manner, and is adhered to the bottom fabric 31 by conductive glue, and the second conductive braid 32 and the first conductive braid 12 form conductive connection;

the third insole 4' is arranged in the vamp, and a third through hole 41' is arranged at the position of the third insole 4' opposite to the heel, and is used for embedding a conductive pad 5 formed by integrally forming conductive rubber, and the conductive pad 5 is in conductive connection with the second conductive braid 32.

The first conductive webbing 12 disposed on the bottom frame 1, the second conductive webbing 32 disposed on the upper 3, and the third conductive webbing 42 or the conductive pad 5 disposed on the insole 4 are disposed between the heel and the half sole and are in close contact with each other, and form conductive connection with the ground through the contact of the anti-slip outsole 2, so as to release static electricity in the body to the ground.

Because the first conductive braid 12, the second conductive braid 32, the third conductive braid 42 and the conductive pad 5 are fixedly arranged on each structural unit of the shoe, the situation of poor displacement contact caused by dynamic use can be avoided, and stable grounding gas conductive connection can be ensured. In addition, except that the anti-skid outsole and the conductive pad are made of conductive rubber with high material cost, the structural units such as the base table, the vamp, the insole and the like are not made of conductive materials with high cost. By means of the low-cost conductive braid, the high-value antistatic shoe is created with relatively economical manufacturing cost.

The embodiments of the present utility model have been described in detail. However, the present utility model is not limited to the above-described embodiments, and various modifications may be made within the knowledge of those skilled in the art without departing from the spirit of the present utility model.

Claims (6)

1. The antistatic shoe is characterized by comprising the following components:

the bottom table is provided with first through holes at positions opposite to the heel and the half sole respectively, and two ends of the first conductive braid respectively pass through the two first through holes from the top surface and are adhered to the bottom surface of the bottom table through conductive adhesive;

the anti-slip outsole is formed by compression molding of conductive rubber, the inner side plane of the anti-slip outsole is adhered to the bottom surface of the base table, and the anti-slip outsole is in conductive connection with the first conductive braid.

2. The anti-static shoe according to claim 1, further comprising a vamp, wherein the vamp is adhered to the upper edge of the base table, a plurality of symmetrically arranged holes are formed in the bottom fabric of the vamp between the heel and the arch of the vamp, a second conductive braid is adhered to the bottom fabric through conductive adhesive after passing through the holes, and the second conductive braid is in conductive connection with the first conductive braid.

3. An anti-static shoe according to claim 1 or 2, further comprising a second insole, wherein the second insole is arranged in the vamp, a second through hole is respectively arranged at the heel and arch positions of the insole, two ends of a third conductive braid respectively pass through the two second through holes and are adhered to the bottom surface of the insole through conductive adhesive, and the third conductive braid is in conductive connection with the second conductive braid.

4. An anti-static shoe according to claim 1 or 2, further comprising a third insole provided with a third through hole at a position opposite to the heel, and a conductive pad having a shape corresponding to the shape of the third through hole, the conductive pad being inlaid in the third through hole, the conductive pad being conductively connected to the second conductive webbing.

5. The antistatic shoe according to claim 4, wherein the conductive pad is made of conductive rubber by integral molding.

6. An anti-static shoe according to claim 1, wherein the periphery of the bottom side of the anti-slip outsole is provided with an outer pattern part having an anti-slip function.