CN110859357A

CN110859357A - Translation switching antistatic shoe

Info

Publication number: CN110859357A
Application number: CN201911149595.6A
Authority: CN
Inventors: 赵俊清
Original assignee: Taizhou Furuorong Shoes Co Ltd
Current assignee: Taizhou Furuorong Shoes Co Ltd
Priority date: 2019-11-21
Filing date: 2019-11-21
Publication date: 2020-03-06
Anticipated expiration: 2039-11-21
Also published as: CN110859357B

Abstract

The invention discloses a translation switching antistatic shoe.A plurality of upper conductive columns which are uniformly distributed from left to right are fixed on the upper side wall of a sliding moving groove, and a plurality of lower conductive columns which are uniformly distributed from left to right are fixed on the lower side wall of the sliding moving groove; a switching support plate is arranged in the sliding moving groove in a left-right sliding manner; a plurality of conducting connecting columns which are uniformly distributed on the left and the right are embedded on the switching supporting plate; when the switching support plate is positioned at the leftmost end, the left end of the switching support plate exceeds the left end of the sole, and the conductive connecting column is staggered with the upper conductive column and the lower conductive column; when the switching support plate is positioned at the rightmost end, the right end of the switching support plate exceeds the right end of the sole, the conductive connecting column is opposite to the upper conductive column and the lower conductive column, and the upper conductive column and the lower conductive column are respectively contacted with the conductive connecting column; the switching support plate is composed of a non-conductive material.

Description

Translation switching antistatic shoe

Technical Field

The invention relates to the field of anti-static shoes, in particular to translation switching anti-static shoes.

Background

With the development of the electronic industry and the increasing environmental requirements, various electronic products cannot be manufactured without high-precision equipment and human operation and maintenance, but the components of the electronic products are damaged by static electricity. The static phenomenon is an invisible killer and is not easy to be perceived, when static electricity cannot be discharged in a timely manner when workers operate on site, a certain amount of static electricity is accumulated, static electricity discharge occurs, light persons damage components of electronic products, and heavy persons cause fire and explosion. Therefore, the electrostatic protection measures are very important, and the anti-static shoes are an important solving channel in the electrostatic protection measures; however, the existing antistatic shoes are generally special and are generally used in antistatic occasions, so that the applicability of the shoes is greatly reduced.

Disclosure of Invention

The invention aims to solve the technical problem that the application range of antistatic shoes is narrow, and provides translation switching antistatic shoes.

The technical scheme for solving the technical problems is as follows: a translation switching antistatic shoe comprises a sole; the sole is made of non-conductive rubber material; a sliding moving groove which is in a rectangular groove shape and penetrates left and right is formed in the middle of the sole; a plurality of upper conductive columns which are uniformly distributed on the left and right are fixed on the upper side wall of the sliding moving groove, and a plurality of lower conductive columns which are uniformly distributed on the left and right are fixed on the lower side wall of the sliding moving groove; the upper conductive columns and the lower conductive columns are vertically opposite one another; the upper end surface and the lower end surface of the upper conductive column are respectively flush with the upper end surface of the sole and the upper side wall of the sliding moving groove; the upper end surface and the lower end surface of the lower conductive column are respectively flush with the lower side wall of the sliding moving groove and the bottom surface of the sole; a switching support plate is arranged in the sliding moving groove in a left-right sliding manner; a plurality of conducting connecting columns which are uniformly distributed on the left and the right are embedded on the switching supporting plate; when the switching support plate is positioned at the leftmost end, the left end of the switching support plate exceeds the left end of the sole, and the conductive connecting column is staggered with the upper conductive column and the lower conductive column; when the switching support plate is positioned at the rightmost end, the right end of the switching support plate exceeds the right end of the sole, the conductive connecting column is opposite to the upper conductive column and the lower conductive column, and the upper conductive column and the lower conductive column are respectively contacted with the conductive connecting column; the switching support plate is composed of a non-conductive material.

As the preferable technical scheme, the upper conductive column is cylindrical; the lower conductive column is cylindrical.

Preferably, the conductive connection column is cylindrical.

Preferably, when the switching support plate is positioned at the rightmost end, the left end surface of the switching support plate and the left end surface of the sole are positioned on the same curved surface; when the switching supporting plate is positioned at the leftmost end, the right end face of the switching supporting plate and the right end face of the sole are positioned on the same curved surface.

Preferably, a plurality of cylindrical limiting guide rods which are distributed left and right and are in the front-back direction are formed between the front side wall and the back side wall of the sliding moving groove; the switching support plate is formed with a long-hole switching limit hole which penetrates through the switching support plate from front to back and is matched with the limit guide rod on the corresponding side; the limiting guide rod penetrates through the switching limiting hole in the front-back direction and is arranged in a left-right moving mode relative to the switching limiting hole; when the switching support plate is positioned at the rightmost end, the limiting guide rod is positioned at the leftmost end of the switching limiting hole at the corresponding side; when the switching supporting plate is positioned at the leftmost end, the limiting guide rod is positioned at the rightmost end of the switching limiting hole at the corresponding side.

Preferably, a plurality of spring plungers distributed left and right are respectively fixed on the front side wall and the rear side wall of the sliding moving groove; a plurality of limit hole groups matched with the steel balls of the spring plunger are formed in the front and back of the switching supporting plate; each group of limiting hole groups comprises a pair of limiting holes distributed left and right; when the switching support plate is positioned at the rightmost end, the steel balls of the spring plungers are inserted into the limiting holes on the left side of the limiting hole groups on the corresponding sides; when the switching support plate is positioned at the leftmost end, the steel balls of the spring plungers are inserted into the limiting holes on the right side of the limiting hole groups on the corresponding sides.

The invention has the beneficial effects that: the switch has the advantages of simple structure, capability of switching between insulation and static prevention, no need of specially squatting down or taking down the shoes for switching, and convenience and rapidness in switching.

Drawings

FIG. 1 is a schematic structural view of a cross section of the present invention during insulation;

FIG. 2 is a schematic structural view of a cross section of the insulating film according to the present invention;

FIG. 3 is a schematic structural view of a cross section of the antistatic film according to the present invention;

fig. 4 is a schematic structural view of a cross section in the electrostatic prevention of the present invention.

In the figure, 10, the sole; 100. a sliding moving groove; 101. a limiting guide rod; 11. an upper conductive column; 12. a lower conductive post; 13. switching the support plate; 130. switching the limiting hole; 1300. a limiting hole; 131. a conductive connection post; 14. a spring plunger.

Detailed Description

As shown in fig. 1 to 4, a translational switching antistatic shoe comprises a sole 10; the sole 10 is made of a non-conductive rubber material; a sliding moving groove 100 of a rectangular groove shape penetrating left and right is formed in the middle of the sole 10; a plurality of upper conductive columns 11 which are uniformly distributed left and right are fixed on the upper side wall of the sliding moving groove 100, and a plurality of lower conductive columns 12 which are uniformly distributed left and right are fixed on the lower side wall; the upper conductive columns 11 are opposite to the lower conductive columns 12 one by one from top to bottom; the upper end surface and the lower end surface of the upper conductive column 11 are respectively flush with the upper end surface of the sole 10 and the upper side wall of the sliding moving groove 100; the upper and lower end surfaces of the lower conductive column 12 are flush with the lower side wall of the sliding moving groove 100 and the bottom surface of the sole 10 respectively; a switching support plate 13 is arranged in the sliding moving groove 100 in a left-right sliding manner; a plurality of conducting connecting columns 131 which are uniformly distributed on the left and the right are embedded on the switching supporting plate 13; when the switching support plate 13 is at the leftmost end, the left end of the switching support plate 13 exceeds the left end of the sole 10 and the conductive connection column 131 is staggered from the upper conductive column 11 and the lower conductive column 12; when the switching support plate 13 is located at the rightmost end, the right end of the switching support plate 13 exceeds the right end of the sole 10, the conductive connection column 131 is opposite to the upper conductive column 11 and the lower conductive column 12, and the upper conductive column 11 and the lower conductive column 12 are respectively in contact with the conductive connection column 131; the switching support plate 13 is composed of a non-conductive material.

As shown in fig. 1 to 4, the upper conductive pillar 11 is cylindrical; the lower conductive pillar 12 is cylindrical.

As shown in fig. 1-4, the conductive connection post 131 is cylindrical.

As shown in fig. 1 to 4, when the switching support plate 13 is located at the rightmost end, the left end surface of the switching support plate 13 and the left end surface of the shoe sole 10 are located on the same curved surface; when the switching support plate 13 is positioned at the leftmost end, the right end surface of the switching support plate 13 is positioned on the same curved surface as the right end surface of the shoe sole 10.

As shown in fig. 1 to 4, a plurality of left and right cylindrical limit guide rods 101 are formed between the front and rear side walls of the sliding moving groove 100; the switching support plate 13 is formed with a long hole-shaped switching limit hole 130 which penetrates through the front and back and is matched with the limit guide rod 101 on the corresponding side; the limiting guide rod 101 penetrates through the switching limiting hole 130 in the front-back direction and is arranged in a left-right movement mode; when the switching support plate 13 is positioned at the rightmost end, the limit guide rod 101 is positioned at the leftmost end of the switching limit hole 130 at the corresponding side; when the switching support plate 13 is at the leftmost end, the limit guide 101 is located at the rightmost end of the switching limit hole 130 of the corresponding side.

As shown in fig. 1 to 4, a plurality of spring plungers 14 distributed left and right are fixed to the front and rear side walls of the sliding movement groove 100; a plurality of limit hole groups matched with the steel balls of the spring plunger 14 are formed in the front and back of the switching supporting plate 13; each group of limiting hole groups comprises a pair of limiting holes 1300 distributed left and right; when the switching support plate 13 is positioned at the rightmost end, the steel balls of the spring plunger 14 are inserted into the limit holes 1300 on the left side of the limit hole group on the corresponding side; when the switching support plate 13 is at the leftmost end, the steel balls of the spring plungers 14 are inserted into the stopper holes 1300 on the right side of the stopper hole group on the corresponding side.

The working principle of the translation switching antistatic shoe is as follows:

in a normal state, as shown in fig. 1 and fig. 2, the switching support plate 13 is located at the leftmost end, the left end of the switching support plate 13 exceeds the left end of the sole 10, and the conductive connection column 131 is staggered from the upper conductive column 11 and the lower conductive column 12, so that the shoe is insulated;

when the shoes are required to be antistatic, the shoes do not need to be specially squat down or taken down, and under the condition of normal wearing, the shoes are kicked leftwards by using barriers such as walls or table feet, thus, the switching support plate 13 moves rightwards under the action of the obstacle until the right end is reached, at this time, the right end of the switching support plate 13 exceeds the right end of the sole 10, the conductive connection column 131 is opposite to the upper conductive column 11 and the lower conductive column 12, the upper conductive column 11 and the lower conductive column 12 are respectively contacted with the conductive connection column 131, the sole of the wearer is contacted with the upper conductive column 11, so that the static electricity on the body of the wearer is conducted to the ground through the upper conductive post 11, the conductive connection post 131 and the lower conductive post 12, play antistatic effect like this, when needing to resume to normal condition, only need with the help of barriers such as wall body or table foot again make switch backup pad 13 move left to the leftmost end can, it is convenient to switch like this.

The above description is only a preferred embodiment of the present invention, and for those skilled in the art, the present invention should not be limited by the description herein, since various changes and modifications can be made in the details of the embodiment and the application range according to the spirit of the present invention.

Claims

1. A translational switching antistatic shoe comprising a sole (10); the sole (10) is made of non-conductive rubber material; the method is characterized in that: a sliding moving groove (100) which is in a rectangular groove shape and penetrates left and right is formed in the middle of the sole (10); a plurality of upper conductive columns (11) which are uniformly distributed on the left and the right are fixed on the upper side wall of the sliding moving groove (100), and a plurality of lower conductive columns (12) which are uniformly distributed on the left and the right are fixed on the lower side wall; the upper conductive columns (11) and the lower conductive columns (12) are vertically opposite one another; the upper end surface and the lower end surface of the upper conductive column (11) are respectively flush with the upper end surface of the sole (10) and the upper side wall of the sliding moving groove (100); the upper end surface and the lower end surface of the lower conductive column (12) are respectively flush with the lower side wall of the sliding moving groove (100) and the bottom surface of the sole (10); a switching support plate (13) is arranged in the sliding moving groove (100) in a left-right sliding manner; a plurality of conducting connecting columns (131) which are uniformly distributed on the left and the right are embedded on the switching supporting plate (13); when the switching support plate (13) is positioned at the leftmost end, the left end of the switching support plate (13) exceeds the left end of the sole (10) and the conductive connecting column (131) is staggered with the upper conductive column (11) and the lower conductive column (12); when the switching support plate (13) is positioned at the rightmost end, the right end of the switching support plate (13) exceeds the right end of the sole (10), the conductive connecting column (131) is opposite to the upper conductive column (11) and the lower conductive column (12), and the upper conductive column (11) and the lower conductive column (12) are respectively contacted with the conductive connecting column (131); the switching support plate (13) is composed of a non-conductive material.

2. The translationally switchable antistatic footwear according to claim 1, wherein: the upper conductive column (11) is cylindrical; the lower conductive column (12) is cylindrical.

3. The translationally switchable antistatic shoe according to claim 1 or 2, characterized in that: the conductive connection column (131) is cylindrical.

4. The translationally switchable antistatic footwear according to claim 1, wherein: when the switching support plate (13) is positioned at the rightmost end, the left end surface of the switching support plate (13) and the left end surface of the sole (10) are positioned on the same curved surface; when the switching support plate (13) is positioned at the leftmost end, the right end surface of the switching support plate (13) and the right end surface of the sole (10) are positioned on the same curved surface.

5. The translationally switchable antistatic footwear according to claim 1, wherein: a plurality of cylindrical limiting guide rods (101) which are distributed left and right and are in the front-back direction are formed between the front side wall and the back side wall of the sliding moving groove (100); a switching limit hole (130) which is in a long hole shape and penetrates through the switching support plate (13) in the front and back direction and is matched with the limit guide rod (101) on the corresponding side; the limiting guide rod (101) penetrates through the switching limiting hole (130) in the front-back direction and is arranged in a left-right moving mode; when the switching support plate (13) is positioned at the rightmost end, the limiting guide rod (101) is positioned at the leftmost end of the switching limiting hole (130) at the corresponding side; when the switching support plate (13) is positioned at the leftmost end, the limiting guide rod (101) is positioned at the rightmost end of the switching limiting hole (130) at the corresponding side.

6. The translationally switchable antistatic shoe according to claim 1 or 5, wherein: a plurality of spring plungers (14) distributed left and right are respectively fixed on the front side wall and the rear side wall of the sliding moving groove (100); a plurality of limit hole groups matched with the steel balls of the spring plunger (14) are formed in the front and back of the switching supporting plate (13); each group of limiting hole groups comprises a pair of limiting holes (1300) distributed left and right; when the switching support plate (13) is positioned at the rightmost end, the steel balls of the spring plunger (14) are inserted into the limiting holes (1300) on the left side of the limiting hole group on the corresponding side; when the switching support plate (13) is positioned at the leftmost end, the steel balls of the spring plunger (14) are inserted into the limiting holes (1300) on the right side of the limiting hole group on the corresponding side.