CN218999670U - Anti-static sandal - Google Patents

Abstract

The utility model discloses an anti-static sandal, which consists of a bottom table, an anti-slip outsole, a shoe bed and a conductive pad, wherein a first through hole is formed in the bottom table opposite to the heel part, and one end of a first conductive braid penetrates through the first through hole and is adhered to the bottom surface of the bottom table; the anti-slip outsole is formed by compression molding of conductive rubber, the plane of the inner side 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; the shoe bed is adhered to the front surface of the bottom table, a groove is formed in the shoe bed opposite to the heel part, a third through hole is formed in the groove, and the other end of the first conductive braid penetrates through the third through hole and is then adhered in the groove; the conductive pad is adhered to the top side of the groove and forms conductive connection with the first conductive braid. When a user wears the anti-static slippers of the utility model, the user steps on the anti-static slippers, and the first conductive woven belt and the grounded anti-slip outsole form conductivity to release in-vivo static electricity.

Description

Anti-static sandal

Technical Field

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

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 have shown that grounding 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 oedema, and the like. The simplest grounding mode is to make bare feet outdoors and sun or light feet on the seaside beach.

In order to ground without taking off shoes and making bare feet in daily life, many utility models of shoes capable of grounding 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. M582320 discloses a slipper with replaceable electric conductors, which is provided with a sole and a belt body, wherein the sole is provided with through holes, the belt body is made of fabric or plastic belt made of conductive materials, and the belt body is tied to the sole through the through holes of the sole so as to enable the belt body to be respectively contacted and attached to the surface and the bottom surface of the sole, the foot of a user is contacted with the belt body on the surface of the sole, static electricity is conducted to the belt body on the bottom surface of the sole, the belt body is contacted with the ground, and the static electricity is conducted to the ground.

The exposed conductive strip body is in direct contact with the ground, and after long-term use, the conductive connection efficiency is reduced or even lost due to abrasion.

In a health shoe disclosed in taiwan patent No. M573964, a conductive part is disposed on an upper, the conductive part has a contact area and a conductive area, when the contact area contacts a foot, static electricity is conducted to the conductive area, and the conductive area contacts a ground to conduct static electricity to the ground.

The area of the conductive area in contact with the ground is very small, and the conductive connection efficiency tends to be reduced or even lost after the sole is worn for a long time,

the taiwan patent No. M525091 discloses a shoe with a grounding structure on a sole, wherein the grounding structure comprises four annular metal foil conductive elements, a first metal foil conductive element is sleeved on the sole along the length direction of the sole, and the other three metal foil conductive elements are sleeved on the sole at intervals and staggered with the first metal foil conductive element along the length direction of the sole.

The design that the annular metal foil conductive elements are sleeved on the sole in a staggered manner is also faced to the design that the metal foil conductive elements at the bottom of the sole are directly contacted with the ground, and after long-time use, the conductive connection efficiency is reduced or even lost due to abrasion.

Disclosure of Invention

The utility model aims to: aiming at the defects of the prior art, the utility model discloses an anti-static sandal. The utility model enables the user to form good conductive connection with the ground through the tight conductive contact of each structural unit of the slippers so as to release the static electricity in the body.

The technical scheme is as follows: an anti-static sandal, which consists of a bottom table, an anti-slip outsole, a shoe bed and a conductive pad, wherein:

a first through hole is formed in the heel part opposite to the bottom table, and one end of a first conductive braid penetrates through the first through hole and is adhered to the bottom surface of the bottom table through conductive glue;

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 by conductive glue, and the anti-slip outsole is in conductive connection with the first conductive braid;

the shoe bed is adhered to the front surface of the bottom table by conductive glue, a groove is formed in the shoe bed opposite to the heel part, a third through hole is formed in the groove, and the other end of the first conductive webbing passes through the through hole and is adhered to the groove by conductive glue;

the conductive pad is made of conductive materials, the conductive pad is matched with the groove in shape, the conductive pad is adhered to the top side of the groove through conductive glue, and the conductive pad and the first conductive braid form conductive connection.

In another preferred embodiment, the bottom base is provided with a second through hole opposite to the half sole, one end of the second conductive braid penetrates through the second through hole and is adhered to the bottom surface of the bottom base by conductive glue, and the other end of the second conductive braid is adhered to the first conductive braid by conductive glue to form conductive connection.

The outer edge of the bottom side of the anti-slip outsole is provided with an outer side pattern part with an anti-slip function.

When a user steps on the anti-static slippers disclosed by the utility model, the first conductive braid, the second conductive braid and the grounded anti-slip outsole form conductivity, so that in-vivo static electricity 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:

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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, an antistatic sandal comprises a base table 1, an antiskid outsole 2, a shoe bed 3 and a conductive pad 4, wherein:

the opposite heel part of the bottom table 1 is provided with a first through hole 11, and one end of the first conductive braid 5 passes through the first through hole 11 and is adhered to the bottom surface of the bottom table 1 through conductive glue;

the anti-slip outsole 2 is formed by compression molding of conductive rubber, an inner side plane 21 is adhered to the bottom surface of the base table 1 through conductive glue and is in conductive connection with the first conductive braid 5, an outer side pattern part 22 is arranged at the outer edge of the bottom of the anti-slip outsole 2, and the outer side pattern part 22 has an anti-slip and wear-resistant effect;

the shoe bed 3 is adhered to the top surface of the bottom table 1 through conductive glue, a groove 31 is formed in the opposite heel part of the shoe bed 3, a third through hole 311 is formed in the groove 31, and the other end of the first conductive braid 5 passes through the third through hole 311 and is adhered in the groove 31 through the conductive glue;

the conductive pad 4 is made of conductive material, the conductive pad 4 is adapted to the shape of the top of the groove 31, and the conductive pad 4 is adhered to the top of the groove 31 by conductive glue, and the conductive pad 4 and the first conductive webbing 5 form conductive connection.

The conductive material refers to a conventional conductive material such as a conductive rubber material.

When in use, when a user steps on the conductive pad 4, static electricity sequentially passes through the first conductive braid 5 and the ground electrical contact of the anti-slip outsole 2, and the static electricity in the body is released.

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, embodiment 2 is substantially the same as embodiment 1, except that:

the bottom table 1 is provided with a second through hole 12 opposite to the half sole part, one end of a second conductive braid 6 passes through the second through hole 12 and is adhered to the bottom surface of the bottom table 1 through conductive glue, and the other end of the second conductive braid 6 is adhered to the first conductive braid 5 through conductive glue to form conductive connection.

Because the first conductive braid 5 and the second conductive braid 6 are fixedly arranged on each structural unit of the slippers, the situation that poor contact occurs due to displacement under dynamic use can be avoided, and stable grounding and static electricity discharge can be ensured.

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 (4)

1. The anti-static sandal is characterized by comprising:

a first through hole is formed in the heel part opposite to the bottom table, and one end of the first conductive braid penetrates through the first through hole and is adhered to the bottom surface of the bottom table;

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;

a footbed bonded to the front surface of the bottom table, wherein a groove is formed in the footbed opposite to the heel part, a third through hole is formed in the groove, and the other end of the first conductive braid passes through the third through hole and is bonded in the groove;

and the conductive pad is matched with the shape of the groove, is adhered to the top side of the groove, and is in conductive connection with the first conductive braid.

2. The anti-static sandal as described in claim 1, wherein said base is provided with a second through hole with respect to the half sole portion, one end of a second conductive webbing is bonded to said base after passing through the second through hole, and the other end of the second conductive webbing is bonded to the first conductive webbing and forms a conductive connection.

3. An anti-static sandal as described in claim 1, wherein said anti-slip outsole is provided with an outer pattern portion having an anti-slip function at an outer edge of a bottom side thereof.

4. An anti-static sandal as described in claim 1 wherein said conductive pad is made of a conductive material.

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