KR20200027131A - Gloves for controling static electricity - Google Patents

Abstract

The present invention relates to static electricity control gloves, which comprise a hand accommodating part for accommodating the palm and the back of the hand; a finger accommodating part for accommodating the fingers; and a sticker-type static electricity shielding part installed in an attachment manner inside the finger accommodating part. According to the present invention, the sticker-type static electricity shielding part is applied to the finger accommodating part, thereby effectively controlling static electricity on finger parts and maintaining a palm part pleasant.

Description

Static Control Gloves {GLOVES FOR CONTROLING STATIC ELECTRICITY}

The present invention relates to an electrostatic control glove, and more specifically, by applying the sticker-type electrostatic shield only to the finger receiving portion of the glove, the electrostatic control at the finger portion is effectively controlled and the dual structure capable of improving comfort in the palm portion It relates to an electrostatic control glove.

When static electricity is accumulated between two objects by forming an electric double layer due to accumulation of excessive positive or negative charges due to friction, peeling, flow, ejection, destruction, etc., the two objects are stationary while being charged with their respective charges. it means.

Static electricity is attracting attention as a product to be controlled in various industries in consideration of product quality control and worker safety. For example, in the textile industry, chemical fibers may stick to each other or repel by static electricity, and damage to the product may occur in the discharge of static electricity in the electronics industry. This can be contaminated.

In the electronics industry, the problems caused by static electricity are most seriously highlighted, and the spread of clean rooms or clean benches for electrostatic discharge (ESD) is widespread. .

Workers in the clean room wear personal protective equipment such as anti-static, anti-static gloves and dust masks, and dust-proof clothing. Conventional antistatic gloves worn by workers in environments requiring high-precision work (semiconductor, LCD, and BLD processes) are mainly woven of highly conductive carbon yarns, nylon yarns, and polyester yarns, and have the effect of releasing accumulated charges into the atmosphere. Have

However, the conventional antistatic gloves have a problem in that there is excessive free space around the fingertips and there is a limit to the flexibility of the woven fabric, resulting in poor agility.

In addition, the conventional antistatic gloves have a problem in that they exhibit weakness in terms of the function of discharging sweat generated from the hands due to the characteristics of the woven fibers.

In addition, due to the above problems, there is a problem in that work efficiency is lowered and risk may be increased due to a safety accident in the industrial site.

In addition, the conventional antistatic gloves have a problem that the antistatic performance has not been verified.

Background art of the present invention is published in Republic of Korea Patent Publication No. 10-2005-0052435 (2005.06.02. Publication, the name of the invention: work gloves with antistatic function).

The present invention has been devised to improve the above problems, and by applying the sticker-type electrostatic shield only to the finger receiving portion of the glove, it is possible to effectively control the static electricity in the finger portion while improving comfort in the palm portion. Its purpose is to provide electrostatic control gloves.

The electrostatic control glove according to the present invention is characterized in that it comprises: a hand accommodating portion accommodating the palm and the back of the hand, a finger accommodating portion accommodating the finger, and a sticker-type electrostatic shield installed in an attachment manner inside the finger accommodating portion. .

In addition, the sticker-type static electricity shielding portion is characterized in that it comprises an electrostatic shielding member including graphene and an adhesive polymer member that attaches the electrostatic shielding member to the inside of the finger receiving portion.

In addition, the electrostatic shielding member is made by removing copper from the copper graphene film, and the adhesive polymer member is characterized in that it is a pressure-sensitive adhesive.

In addition, the electrostatic shielding member is characterized in that it is disposed between the adhesive polymer member and the finger receiving portion.

In addition, the hand accommodating portion and the finger accommodating portion are formed separately, and the hand accommodating portion is formed in the form of a semi-glove for accommodating a part of the finger, and is characterized by comprising a sweat-absorbent quick-drying fiber capable of releasing sweat to the outside.

In addition, the finger accommodating portion is connected to the thumb portion for receiving the thumb, the thumb portion, the index portion for accommodating the index finger, the detection portion, the middle portion for receiving the middle finger, and the middle portion for receiving the index finger, and for receiving the index finger It characterized in that it comprises a ring finger portion, connected to the ring finger portion, the holding portion for receiving the holding finger, and connected to the thumb portion, the wrist wearing portion is formed to surround the wrist.

The static electricity control gloves according to the present invention can improve the comfort in the palm portion while effectively controlling the static electricity in the finger portion by applying the sticker-type static shield to the finger receiving portion of the glove.

1 is a view showing an electrostatic control glove according to an embodiment of the present invention.
2 is a cross-sectional view taken along line AA ′ in FIG. 1.
3 is a view schematically showing a part of a method of manufacturing a sticker-type static electricity shield applied to an electrostatic control glove according to an embodiment of the present invention.
Figure 4 is a view showing a finger receiving portion of the electrostatic control glove according to an embodiment of the present invention, a view showing a user's back side.
5 is a view showing a finger accommodating part of an electrostatic control glove according to an embodiment of the present invention, and is a view showing a palm side portion of a user.
6 is a view showing a hand receiving portion of the electrostatic control gloves according to an embodiment of the present invention.

Hereinafter, embodiments of the static electricity control gloves according to the present invention will be described with reference to the accompanying drawings. In this process, the thickness of the lines or the size of components shown in the drawings may be exaggerated for clarity and convenience. In addition, terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to a user's or operator's intention or practice. Therefore, definitions of these terms should be made based on the contents throughout this specification.

1 is a view showing an electrostatic control glove according to an embodiment of the present invention, FIG. 2 is a cross-sectional view taken along AA 'of FIG. 1, and FIG. 3 is a sticker-type electrostatic shield applied to the electrostatic control glove according to an embodiment of the present invention FIG. 4 is a view schematically showing a part of a manufacturing method of a part, and FIG. 4 is a view showing a finger accommodating part of an electrostatic control glove according to an embodiment of the present invention, and is a view showing a user's back side part, and FIG. 5 is a view of the present invention FIG. 6 is a view showing a finger accommodating part of an electrostatic control glove according to an embodiment, and showing a palm-side portion of a user, and FIG. 6 is a view showing a hand accommodating part of an electrostatic control glove according to an embodiment of the present invention.

1 to 6, the electrostatic control glove according to an embodiment of the present invention includes a palm 10 and a hand receiving portion 100 accommodating the back of the hand 20 and a finger accommodating the finger 30 It includes a part 200 and a sticker-type static electricity shielding part 300 which is installed inside the finger accommodating part 200 by an attachment method. The finger accommodating part 200 is preferably made of a material having good adhesion to improve agility.

Referring to FIG. 2, the sticker-type static electricity shielding part 300 includes an electrostatic shielding member 310 including graphene and an adhesive polymer member that attaches the electrostatic shielding member 310 to the inside of the finger accommodating part 100. 320.

Graphene is a thin film-like material in which atoms are entangled in a single carbon layer in graphite composed of several carbon layers. In addition, since it is composed of a single layer of carbon atoms, it is an atomic single-layer material, structurally and chemically stable, has excellent electrical conductivity, and has excellent static electricity control.

The static electricity shielding member 310 is made of only graphene or partially including graphene, and is disposed between the adhesive polymer member 320 and the finger receiving unit 200.

The adhesive polymer member 320 is formed to have a larger area than the static electricity shielding member 310 and is adhered to the inside of the finger accommodating part 200 by the adhesive force of a portion formed outside the edge of the static electricity shielding member 310, Through the adhesion of the adhesive polymer member 320 and the finger accommodating part 200, the electrostatic shielding member 310 can be attached to the inside of the finger accommodating part 200.

As such, the electrostatic shield member 310 including graphene is positioned inside the adhesive polymer member 320 so that the electrostatic shield member 310 does not directly contact the human body, thereby increasing human safety when using graphene. have.

The electrostatic shielding member 310 is formed by removing copper 41 from the copper graphene film 40 shown in FIG. 3, and the adhesive polymer member 320 is a pressure sensitive adhesive (PSA) to be.

When the copper 41 is removed from the copper graphene film 40 made by the method illustrated in FIG. 3, and the pressure-sensitive adhesive adhesive polymer member 320 is used as a carrier, graphene on the sheet is included. A sticker-type electrostatic shield 300 in the form of a sticker may be made.

When the sticker-type static shield 300 is used, graphene is included to obtain an excellent static control effect, and it is not necessary to be blended or spun with other fibers, so that it can be applied to various materials, and even to materials with adhesion. It is applicable.

The electrostatic control glove according to an embodiment of the present invention may be formed by separating the hand accommodating part 200 and the finger accommodating part 100, and the hand accommodating part 200 is a finger as shown in FIGS. 1 and 6. It may be formed in a semi-glove shape to accommodate a portion of.

The palm and the back of the hand are the parts that are less likely to directly touch an object during high-precision work, but are sweaty. Therefore, the hand accommodating part 200 preferably includes a sweat-absorbing and quick-drying fiber for improving comfort, and is preferably formed to have a porous structure 210 for sweat discharge.

Tactel, coolmax, and the like may be used as the sweat-absorbent quick-drying fiber. The tabletel functions as a quick-dry sweat-absorbing function through the interaction between the inner inner tabletel and the outer outer tabletel. The wide hole inside the tabletel can quickly and easily absorb large amounts of moisture by contact with moisture on the skin. The outer tabletel, which is densely composed of microfiber nylon thinner than the hair, strongly and quickly pulls up the moisture contained in the inner tabletel by capillarity and osmotic pressure and releases it to the outside.

Coolmax absorbs sweat quickly through its unique clover-shaped four-channel structure, discharges and dries out. Coolmax's 4-channel structure is a structure with four grooves in the shape of a clover made of microfibers, and each groove absorbs sweat more easily due to the capillary phenomenon.

In addition, in the semiconductor or display operation, since the presence of moisture may affect elements, sensors, circuits, etc., it is preferable that the hand accommodating part 200 does not include fibers having good hygroscopic properties that retain moisture in the fibers for a long time.

The hand accommodating part 200 is made of a sweat-absorbent quick-drying fiber, so that sweat in the form of water vapor generated on the surface of the human skin can be easily discharged to the outside, thereby improving comfort.

4 and 5, the finger receiving portion 100 is connected to the thumb portion 110, the thumb portion 110 for receiving the thumb, the detection portion 120 for receiving the index finger, and the detection portion Connected to (120), the middle part 130 for receiving the middle finger, and the middle part 130, the ring finger part 140 for receiving the ring finger, and the ring finger part, for receiving the small finger It includes a wrist 150 and a wrist wearing part 160 that is connected to the thumb 110 and is formed to surround the wrist.

Since the wrist wearing portion 160 is configured to be connected to the thumb portion 110, the finger receiving portion 100 can be prevented from being peeled off.

If you want to use the electrostatic control gloves according to an embodiment of the present invention, as shown in Figures 4 and 5, first wearing the finger receiving portion 100, and wearing a hand receiving portion 200 thereon The finger accommodating part 100 and the hand accommodating part 200 are separated and thus, agility is improved due to the use of fibers having good adhesion and electrostatic shielding fibers, and static electricity can be effectively controlled. In the (20) and palm (10) parts, comfort can be improved by using sweat-absorbing and quick-drying fibers.

As described above, according to the present invention, by applying the sticker-type electrostatic shield only to the finger receiving portion of the glove, it is possible to effectively control static electricity at the finger portion and improve comfort in the palm portion.

The present invention has been described with reference to the embodiment shown in the drawings, but this is merely exemplary, and those skilled in the art to which the art belongs can various modifications and equivalent other embodiments from this. Will understand. Therefore, the true technical protection scope of the present invention should be defined by the claims below.

100: finger receiving portion 110: thumb portion
120: detection unit 130: stop unit
140: weak part 150: small part
160: wrist wear 200: hand receiving
210: porous structure 300: electrostatic shield
310: static electricity shielding member 320: adhesive polymer member

Claims (6)

A hand accommodating part accommodating the palm and the back of the hand;
A finger accommodating portion accommodating a finger; And
A sticker-type static electricity shield installed in an attachment manner inside the finger receiving portion;
Electrostatic control gloves, characterized in that it comprises a.
According to claim 1,
The sticker-type static electricity shielding part,
A static electricity shielding member comprising graphene; And
An adhesive polymer member that attaches the electrostatic shield member to the inside of the finger accommodating portion;
Electrostatic control gloves, characterized in that it comprises a.
According to claim 2,
The electrostatic shielding member is made by removing copper from a copper graphene film, and the adhesive polymer member is a pressure-sensitive adhesive, characterized in that the electrostatic control glove.
In the third,
The electrostatic shielding member is an electrostatic control glove, characterized in that disposed between the adhesive polymer member and the finger receiving portion.
The method according to any one of claims 1 to 4,
The hand receiving portion and the finger receiving portion are formed separately,
The hand receiving portion is formed in the form of a semi-glove for accommodating a part of the finger, the static electricity control glove characterized in that it comprises a sweat-absorbing and quick-drying fiber that can release sweat to the outside.
The method of claim 5,
The finger receiving portion,
A thumb portion accommodating the thumb;
A detection unit connected to the thumb and receiving an index finger;
A middle part connected to the detection part and receiving a middle finger;
A ring finger part connected to the middle part and accommodating the ring finger;
A holding portion connected to the ring finger portion and receiving a holding finger; And
A wrist wearing part connected to the thumb and formed to surround the wrist;
Electrostatic control gloves, characterized in that it comprises a.

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