KR100758968B1 - Shoes for electrostatic prevention adhesive - Google Patents

Abstract

An electrostatic prevention type footwear is provided to prevent a static electricity from being caused from a human body, and to prohibit the growth of the bacteria and the occurrence of the bad smell, caused because of the sweat discharged from a foot sole, by using the silver lines arranged at regular intervals inside the soles so as to maintain the comfort inside the footwear. An electrostatic prevention type footwear comprises: an insole(10), made out of a fabric layer(10a), woven with a yarn coated with a silver, and a synthetic resin foaming layer(10b), arranged under the fabric layer(10a), and having a pair of penetrated insertion holes(70a,70a'); a midsole(20), made out of a pressed layer of a polyester yarn, and having a penetrated insertion hole in a position corresponding to the penetrated insertion holes(70a,70a') of the insole(10) so that a transfer member(60) is inserted thereinto; and an outsole(30), having an insertion hole, and configured in such a closed manner that a lower end of the insertion hole supports the inserted transfer member(60).

Description

Shoes for electrostatic prevention adhesive

1 is an exploded perspective view of a conventional shoe insole installed on each of the upper and lower surfaces of the insole conductive plate.

Figure 2 is an illustration of a conventional shoe insole in which the electrical conductors are arranged at regular intervals on the surface of the insole.

Figure 3 is a side view showing a state in which the grounding portion inside the antistatic shoes in accordance with the present invention.

4 is an enlarged detail view of portion A of FIG. 3;

Figure 5a to 5d is an exploded perspective view showing a process in which the sole of the antistatic shoes in accordance with the present invention is coupled.

Figure 6 is a perspective view showing a state in which the conductive fabric is separated on the bottom of the antistatic shoe insole according to the invention.

Figure 7 is a perspective view showing a state in which the grounding for electrostatic discharge is separated on the bottom of the antistatic shoe outsole according to the invention.

Explanation of symbols on the main parts of the drawings

10: insole 20: midsole

30: outsole 41: silver (Ag) -line

42 conductive staple 50 conductive fabric 60 transmission member 70 insertion groove 81 grounding portion fixing piece 82 fixing hole 90 grounding portion for electrostatic discharge

The present invention relates to an antistatic shoe, and more particularly, the silver (Ag) line having excellent electrical conductivity of electric current is arranged at a predetermined interval inside the fabric of the upper surface of the insole where the sole is in contact with the static electricity charged to the human body (Ag After being challenged through the) -line, it discharges to the ground through the electrostatic discharge ground configured in the outsole, thereby preventing the generation of static electricity generated from the human body, and by the silver (Ag) line arranged on the upper surface of the insole, It relates to an antistatic shoe characterized by having a deodorizing power.

In general, in winter when the weather is dry, the clothes worn by people and dry skin are rubbed against each other to generate static electricity. Such static electricity is not very dangerous in everyday social life because there is little current and there is no current even though the voltage is high, but whenever you touch or move an object, you can get sparked and swell your body, which limits your behavior. In the industrial field, the static electricity from the worker's body may cause product defects, safety accidents, or fires.Therefore, there are various shoes, clothes, or sprays to prevent the static electricity. Is being developed.

Looking at the various antistatic shoes that have been developed in the meantime, as shown in Figure 1, Republic of Korea Patent Publication No. 92-2062 (published on Feb. 28, 1992), the insole (2) in which the static electricity in the human body is concentrated to the sole Conductive to conductive plate 5 via copper coil 4 disposed in conductive fabric 3 on the surface of the conductive plate and to conductive rubber member 6 through rivet 7 from conductive plate, and then to conductive member 9 The shoes configured to be discharged to the ground through the ground rod and the ground rod 8 are known, but in the case of the shoes, when the shoes are worn for a long time, the copper coils are corroded blue by the salinity of the sweat discharged from the soles to contaminate the insole, The eastern coating may be harmful to the human body, and there is a concern that the sole of the foot may be uncomfortable when walking due to the conductive plate 5 installed across the surface of the insole.

And as shown in Figure 2 of the Republic of Korea Utility Model Publication No. 91-19437 (published on December 19, 1991) by thinning the electrical conductors (4) on the surface of the shoe insole (1) installed in the shoe A shoe having an electrostatic discharge function is known, which is obtained by weaving and weaving it on the surface fabric layer 3 of the shoe insole 1. There is a problem that can not be realized because the ground structure to be discharged is not configured.

Therefore, the present invention for solving the above problems is excellent in conductivity, insole woven fabric in the form of silver (Ag) line in which the silver (Ag) plated yarn having antibacterial and deodorizing performance arranged at regular intervals. The static electricity generated by the friction between the human body and the clothing by being adhered to the upper part of the silver (Ag) -line is then conducted to the ground through the electrostatic discharge ground configured in the outsole, thereby generating the static electricity generated in the human body. In addition, it prevents the growth of bacteria and odors caused by sweat discharged to the sole by the silver line arranged at regular intervals. The purpose is to provide an antistatic shoes.

In addition, the present invention is inserted into the insertion groove by inserting a transfer member wrapped with a conductive fabric to the outer groove of the synthetic resin foam as an intermediary means for transferring the electrostatic challenged from the silver line of the insole to the electrostatic discharge ground of the outsole. Another object of the present invention is to provide an antistatic shoe, which is characterized by absorbing the impact from the electrostatic discharge ground of the outsole to the upper portion of the insole to allow comfortable walking.

Antistatic shoes of the present invention for solving the above problems is to conduct the electrostatic generated from the human body using a woven fabric by arranging silver (Ag) coated yarn in the form of a line inside the fabric layer of the upper portion of the insole (electric After the conduction, the above object can be achieved by discharging to ground using an electrostatic discharge ground.

In the present invention, the antistatic shoes include safety shoes, work shoes, as well as normal shoes worn during normal social life or sports shoes worn for exercise.

Hereinafter, a side view showing a state in which a grounding part is projected inside an antistatic shoe according to the present invention of FIG. 3 and a detailed view showing an enlarged portion A of FIG. 3 of FIG. 4, and FIGS. 5A to 5D are static electricity according to the present invention. Referring to the drawings of the separated perspective view showing the process of the sole of the prevention shoe is coupled as follows.

In the anti-static shoes consisting of insoles, midsoles and outsoles,

A pair of through insert grooves 70a for filling a silver-plated yarn with a woven fabric layer 10a and a conductive staple 42 in the center portion of the front window beneath the fabric layer 10a. Insole 10 made of a synthetic resin foam layer (10b) formed 70a '),

A midsole 20 made of a crimped layer of polyester yarn in which a through insertion groove 70b is formed so that the transfer member 60 can be inserted into a portion corresponding to the insertion grooves 70a and 70a 'of the insole;

The lower end of the insertion groove (70c) is composed of the outsole 30 is sealed to support the inserted transmission member 60,

Then, the ground part fixing piece 81 is installed inside the lower end of the outsole insertion groove 70c, and the ground part 90 for electrostatic discharge is inserted into the pair of fixing holes 82a formed in the ground part fixing piece. Fixed,

It is characterized in that the transmission member 60 is inserted into the insertion groove (70b, 70c) which is a space formed while the midsole and the outsole are integrally bonded.

In the present invention, the fabric layer 10a of the insole 10 is woven in a form in which silver (Ag) lines are arranged in the longitudinal direction of the insole using a nylon yarn coated with silver (Ag) having a purity of 99.9 wt% or more. This silver (Ag) line absorbs the static electricity generated by the human body. In addition, since the silver (Ag) -line uses silver (Ag) material having excellent antibacterial and deodorizing performance, it is possible to suppress the occurrence of bacteria and odors that are proliferated by sweat discharged from the sole of the foot. In the present invention, it is preferable to use a nylon yarn, but if necessary, in the case of using another yarn having physical properties equal to or higher than that of the nylon yarn, the kind is not particularly limited. And the fabric layer 10a of the insole in FIG. 4 is a side view of the fabric layer in which silver (Ag) -line 41 is woven, and is shown by silver (Ag) -line 41 in FIG. Separate fabric layer (10a) is not divided.

In addition, the insertion groove (70a) of the insole 10 is filled after filling with a conductive staple (42) in the form of a bundle of yarn agglomerated like cotton using a nylon yarn plated silver (Ag) In order to prevent the conductive staples from escaping to the outside of the insole insertion groove 70a, the conductive staple is attached to the lower portion of the insertion groove by using the conductive fabric 50. Therefore, the conductive staple 42 in the form of a yarn bundle absorbs the shock transmitted from the electrostatic discharge ground at the bottom and at the same time receives the electrostatic charge from the silver (Ag) line arranged in the upper fabric layer 10a. It serves to deliver to the transmission member (60). In the above, the number of the insertion grooves 70a into which the conductive staples 42 are inserted is preferably two, but the number may be adjusted as necessary. In the present invention, it is preferable to use a nylon yarn bundle in the conductive staple, but, if necessary, when using other yarn bundles having properties equal to or greater than nylon yarn, the type is not particularly limited.

In addition, the synthetic resin foam layer of the insole is preferably foamed by using ethylene vinyl acetate (EVA) or polyurethane (PU) in order to excellent shock absorption in the foaming.

The transmission member 60 is made of an ethylene vinyl acetate (EVA) foam or a polyurethane (PU) foam, the inside of the structure wrapped around the conductive fabric 50, the person of the outsole when walking Since the shock applied to the upper portion of the insole from the electrostatic discharge grounding portion 90 can be sufficiently absorbed, the foot is not easily fatigued.

As the conductive fabric 50 used in the present invention, it is preferable to use a woven fabric using a nylon yarn plated with silver (Ag). It does not specifically limit the kind.

The thickness of the plated coating plated on the nylon yarn used in the silver (Ag) -line or conductive fabric is preferably 5 ~ 30㎛. If the thickness of the silver-plated coating is less than 5 µm, the nylon yarn may easily conduct electrostatic discharge if the silver-plated coating is damaged, and if it exceeds 30 µm, silver (Ag) Since the conductive performance is no longer particularly proportionally improved in proportion to the increase in the thickness of the plated film, there is a concern that an uneconomical problem may occur.

And the static electricity conductive to the transfer member 60 is discharged to the ground through the electrostatic discharge ground. At this time, in order to ensure that the static electricity conducted by the transmission member 60 can be smoothly discharged to the ground, the grounding portion fixing piece 81 for fixing the grounding portion for electrostatic discharge 90 and the grounding portion 90 for electrostatic discharge. It is preferable to use conductive rubber as the material, and the type of conductive rubber is not particularly limited.

The fixing hole 82a formed in the grounding part fixing piece 81 has a structure in which the upper end of the electrostatic discharge grounding part 90 having an enlarged diameter of the upper end part is easily inserted and fixed, and does not fall out. On the basis of the diagonal grooves of the "∧" form protruding outward of the circumference is formed. Therefore, when the static discharge ground portion 90 having an enlarged diameter of the upper portion is vertically fixed after passing through the protruding “∧” shaped groove, the diameter of the upper portion of the static discharge ground portion is the diameter of the fixing hole 82a. Because of the larger size, the electrostatic discharge ground portion 90 is fixed without being separated from the fixing hole 82a formed in the ground portion fixing piece 81.

The antistatic shoe of the present invention having the above structure absorbs the static electricity generated from the human body in the silver (Ag) line 41 arranged on the fabric layer of the insole not shown in FIG. After conducting the conductive fabric wrapped around the outer surface of the transmission member through the conductive fabric and the lower portion thereof, the conductive metal can be discharged to the ground via the plated electrostatic discharge ground 90.

And the outsole 30 is made of a layer (30a) of the ethylene vinyl acetate (EVA) foam or polyurethane (PU) foam having a high impact absorption capacity, the lower portion of the synthetic rubber layer having excellent wear resistance and high hardness ( 30b).

In addition, the lower end of the insertion groove 70c forms a pair of fixing holes 82b penetrating the outside of the outsole 30, and then inserts the grounding portion 90 for electrostatic discharge through the fixing holes 82b. The enlarged upper end portion of the electrostatic discharge ground portion 90 is inserted into and fixed to the fixing hole 82a formed in the ground portion fixing piece 81.

Hereinafter, a process of manufacturing an antistatic shoe according to the present invention will be described in detail with reference to the drawings illustrated in FIGS. 5A to 5D.

1) The silver (Ag) -line 41 is formed by woven fabric layer 10a arranged at regular intervals in the longitudinal direction of the insole, and the insertion layer 70a penetrates the fabric layer through the center portion of the front window. Bonding to a synthetic resin foam layer (10b); (FIG. 5A)

2) filling the conductive staples 42 into the insertion grooves 70a of the insole, and then attaching the conductive fabric 50 to the lower end of the insertion grooves 70a, (FIG. 5a).

3) After attaching the grounding portion fixing piece 81 to the lower end of the outsole insertion groove 70c, the grounding portion 90 for electrostatic discharge is fixed to the fixing hole 82a formed in the grounding portion fixing piece 81. Inserting the shear member 60 into the insertion groove 70c, (FIG. 5a)

4) adhering the midsole 20 such that the transmission member 60 inserted into the insertion groove 70c on the upper surface of the outsole is inserted into the insertion groove 70b of the midsole, (FIG. 5B).

5) attaching the insole 10 to the upper portion of the shoe sole to which the outsole 30 and the midsole 20 are bonded, the sole of the antistatic shoe (FIG. 5D) is manufactured through (FIG. 5C).

Step 1) is a step in which the silver (Ag) -line woven fabric is bonded to the insole, the silver (Ag) -line is plated with the silver (Ag) directly wrapped around the yarn of purity 99.9% by weight or more It is woven to be arranged in the fabric layer in the longitudinal direction of the insole as a yarn.

Step 2) after filling the conductive staples 42, which are in the form of a bundle of yarn agglomerate like cotton, using a nylon yarn plated with silver (Ag) in the groove of the insole silver (Ag) -line 41 Bonding the conductive fabric 50 to the lower end of the insertion groove (70a) in order to conduct the static electricity conductive from the transfer member 60.

Step 4) combines the static electricity conducted by the transfer member 60 to be discharged to the ground through the ground portion fixing piece 81 and the electrostatic discharge ground portion 90.

Finally, the antistatic shoes are manufactured through the step 5).

6 is a perspective view showing a state in which the conductive fabric is separated on the bottom surface of the antistatic shoe insole according to the present invention, the conductive groove in the insertion groove 70b formed in the middle of the front sole of the synthetic resin foam layer 10b of the insole The staples 42 are filled and then the conductive fabric 50 is bonded.

Figure 7 is a perspective view showing a state in which the static discharge grounding part is separated on the bottom surface of the anti-static shoe outsole according to the present invention, the static discharge grounding portion 90 in the fixing hole (82b) formed on the bottom of the outsole 30 ) Shows the state before it is inserted.

As described above, the configuration of the antistatic shoes according to the present invention has been described in detail with reference to the accompanying drawings, but the configuration of the present invention is not necessarily limited only by the accompanying drawings, and various modifications may be made without departing from the spirit of the present invention. Branch substitutions and modifications are possible.

According to the present invention having the above-described structure, a woven fabric in the form of silver (Ag) -line in which silver (Ag) coated yarns having excellent conductivity and having antibacterial and deodorizing properties are arranged at regular intervals is placed on the top of the insole. By adhering the static electricity charged by the friction between the human body and the clothing through the silver (Ag) -line and then discharging it to the ground through the electrostatic discharge ground configured in the outsole, it is possible to prevent the generation of static electricity generated in the human body. In addition, the silver (Ag) line arranged at regular intervals can suppress the growth of bacteria and odors caused by sweat discharged to the soles of the feet to maintain a comfortable inside of the shoe. Transfer of synthetic resin foam wrapped with conductive fabric as an intermediary means for transferring electrostatic charges from Ag) line to electrostatic discharge grounding part of outsole By inserting the member into the insertion groove, it is advantageous to absorb the impact with the ground applied to the upper portion of the insole from the ground of the electrostatic discharge of the outsole during walking so that comfortable walking can be performed.

Claims (10)

In the anti-static shoes consisting of insoles, midsoles and outsoles, A pair of through insert grooves 70a for filling a silver-plated yarn with a woven fabric layer 10a and a conductive staple 42 in the center portion of the front window beneath the fabric layer 10a. Insole 10 made of a synthetic resin foam layer (10b) formed 70a '), A midsole 20 made of a crimped layer of polyester yarn in which a through insertion groove 70b is formed so that the transfer member 60 can be inserted into a portion corresponding to the insertion grooves 70a and 70a 'of the insole; The lower end of the insertion groove (70c) is composed of the outsole 30 is sealed to support the inserted transmission member 60, Then, the ground part fixing piece 81 is installed inside the lower end of the outsole insertion groove 70c, and the ground part 90 for electrostatic discharge is inserted into the pair of fixing holes 82a formed in the ground part fixing piece. Fixed, Antistatic shoes, characterized in that the transmission member 60 is inserted into the insertion groove (70b, 70c) is a space formed while the midsole and the outsole is integrally bonded. The method of claim 1, The fabric layer 10a of the insole 10 is woven in a form in which silver (Ag) -lines 41 are arranged in the longitudinal direction of the insole using a nylon yarn coated with a purity of 99.9% by weight or more. Antistatic shoes. The method of claim 1, The conductive staple (staple) is an anti-static shoe, characterized in that the form of a bundle of yarn agglomerated like cotton using a nylon yarn plated silver (Ag). The method of claim 1, The synthetic resin foam layer of the insole is foamed using an anti-static shoe, characterized in that foamed using ethylene vinyl acetate (EVA) or polyurethane (PU). The method of claim 1, The transfer member (60) is made of ethylene vinyl acetate (EVA) foam or polyurethane (PU) foam, the inside of the antistatic shoes characterized in that the structure wrapped around the outside using a conductive fabric. The method of claim 1, The electrostatic discharge grounding part 90 and the grounding part fixing piece 81, the antistatic shoes, characterized in that using the conductive rubber as the material. The method of claim 1, The fixing hole (82a) is an antistatic shoe, characterized in that the groove formed in the "∧" shape protruding outward of the circumference in the diagonal direction with respect to the center of the fixing hole. The method of claim 1, The outsole 30 is composed of a layer 30a of ethylene vinyl acetate foam or polyurethane (PU) foam having a high impact absorption force, and the lower portion is made of a synthetic rubber layer 30b having excellent wear resistance and high hardness. Antistatic shoes, characterized in that. The method of claim 1, The lower end of the insertion groove (70c) anti-static shoes, characterized in that to form a pair of fixing holes (82b) penetrating the outside of the outsole (30). delete

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