KR101240837B1 - Anti-static glove - Google Patents

Abstract

PURPOSE: Anti-static gloves are provided to prevent damage to electronic devices or electronic components due to static electricity. CONSTITUTION: Anti-static gloves comprise a main body unit(120) into which a hand is inserted, a wrist unit(110) which is extended to the main body unit and is closely connected to the wrist, and a finger unit(130) which is divided from the main body unit. The gloves are woven with carbon thread and nylon thread. The electrostatic test value of the anti-static gloves is 10-7 to 10-9 Ω/sq.

Description

Anti-static glove}

The present invention relates to an anti static glove.

More specifically, by using the yarns of gloves, poly yarns, carbon yarns and nylon yarns to discharge the static electricity that is charged to the human body by friction between the human body, the coating, or the mechanical parts and the coating, thereby causing the electronic devices and the electronic parts to be discharged. An anti-static glove for preventing damage.

In general, the conventional work glove is a non-conductor made of pure cotton and polyester not only has a function to remove static electricity, but also could not be used in a semiconductor factory or a precision electronic component factory due to the fine dust generated from the cotton.

In particular, in the semiconductor manufacturing process, electronics assembly process, plastic manufacturing process, printing operation, etc., inevitably static electricity is generated, such static electricity is accumulated in the human body without discharge and generates a strong spark. These sparks are not only harmful to the human body but can also cause serious damage to precision electronics, so it is necessary to discharge the generated static electricity to prevent the sparks.

On the other hand, since the conductive glove is manufactured using conductive fibers having good electrical conductivity, it is possible to easily discharge static electricity charged in the human body. Conventional conductive fibers include a method of mixing metal fibers such as copper having excellent electrical conductivity with synthetic fibers and a method of dispersing fine particles such as copper and carbon black having excellent electrical conductivity evenly inside the synthetic fibers.

The former has an advantage of excellent antistatic ability, but the manufacturing process is complicated, the metal fiber is cut or separated by the external force during use, the conductivity is reduced, and there is a disadvantage that it is difficult to knit the conductive fiber mixed with other fibers manufactured. In the latter case, there is an advantage of excellent mixing workability with other fibers and no decrease in performance due to use. However, when a large amount of fine particles are mixed in order to have insufficient antistatic ability and sufficient antistatic ability, There is a problem in that the fiber is difficult to manufacture and the strength and stretch is reduced.

The present invention has been made to solve the problems of the prior art as described above, the object of the present invention by using a poly yarn, carbon yarn and nylon yarn weaving gloves by friction of the human body, coating or mechanical parts and coating The present invention provides an anti-static glove for preventing damage to electronic devices or electronic components by static electricity by discharging static electricity charged in the human body.

In addition, another object of the present invention is to provide an anti-static glove that can be removed in advance by the discharge of static electricity can be harmful to the human body.

In addition, another object of the present invention is to provide an anti-static glove to remove the phenomenon that the dust sticks to the glove by discharging by removing the static electricity.

In addition, another object of the present invention is to provide an anti-static glove so that the finger is exposed to the outside by removing a portion of the finger tip of the anti-static glove.

One embodiment of the present invention proposed to solve the technical problem as described above, in the anti-static glove consisting of a body portion is inserted into the hand and the body portion is extended to the body portion is closely coupled to the wrist, the anti The static glove is a weft with a carbon yarn having a thickness when 9000 m of carbon yarn is pulled out of 60 g of carbon fiber, and a nylon yarn having a thickness when 9000 m nylon yarn is drawn from 540 g of nylon fiber oil. It is characterized by being knitted.

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Electrostatic test (ESD TEST) value of the anti-static glove is characterized in that 10 ^-7 ~ 10 ^-9 Ω / sq.

Wrist portion of the anti-static glove is characterized in that it is produced in the form of single wood, middle wood or long wood.

Wrist end portion of the anti-static glove is characterized in that the anti-loosening treatment.

It is preferable that the thickness of the said antistatic glove is 2-4 mm.

It further comprises a finger portion branched from the main body portion, characterized in that the front end portion of the finger portion is removed so that the finger inserted through the main body portion is exposed to the outside through the finger portion.

The present invention having the configuration and operation and the preferred embodiment as described above discharges the static electricity that is charged to the human body by friction of the human body, the coating or mechanical parts and the coating by using a yarn yarn, poly yarn, carbon yarn and nylon yarn. By doing so, there is an effect of preventing damage to electronic devices or electronic components due to static electricity.

In addition, the present invention has an effect that can be removed in advance by causing the static electricity to be discharged harm to the human body static electricity.

In addition, another object of the present invention has the effect of being able to remove the phenomenon that the dust sticks to the gloves by discharging by removing the static electricity.

In addition, another object of the present invention is to remove some of the finger tip of the anti-static glove so that the fingers are exposed to the outside, so that the operator can easily perform the work that takes off the glove during work without taking off the glove It is effective. That is, when the worker removes the glove or removes the glove when needed, the work time is reduced and the work efficiency is improved.

1 is a glove to which the present invention is applied.
2 is a view for explaining the anti-static glove knitting method.
3 is a view showing single, middle and long wood of the anti-static glove knitted in accordance with the present invention. That is, (a) is single-wood, (b) medium wood, and (c) longwood.
4 is a diagram illustrating an anti static glove for explaining another embodiment of the present invention.

Hereinafter, the antistatic glove according to the present invention will be described.

The anti-static glove 100 of the present invention is formed extending from the body portion 120 and the body portion 120 is inserted into the hand and the wrist portion 110 is in close contact with the wrist, and the body portion 120 It is made of a branched finger portion 130.

In particular, the finger portion 130 is a portion of the front end portion is removed, the finger inserted through the body portion 120 is exposed to the outside through the finger portion 130. At this time, the finger portion 130 may remove only one of the tip portion of the thumb, the detecting portion, the middle portion, the ring finger portion and the holding portion to expose only an arbitrary finger, as shown in FIG. It can be removed so that the thumb, index finger, middle finger, ring finger, and possession can be exposed out of all anti static glove 100.

As described above, the anti-static glove 100 including the wrist part 110, the main body part 120, and the finger part 130 is knitted with the same number of poly yarns, carbon yarns, and nylon yarns. That is, as shown in (a) and (b) of Figure 2 it can be seen that the nylon yarns and carbon yarns are knitted in the same number to produce an anti-static glove 100. That is, the antistatic glove 100 is produced, for example, using one strand of nylon yarn as a warp yarn, and the other strand of carbon yarn as a weft yarn.

In this case, the blending ratio of carbon and nylon is 600 denier. That is, 10% of carbon yarn is 60 denier, 90% of nylon yarn 540 denier, and is manufactured by weaving gloves by inputting 15G into an automatic knitting machine. Denia refers to the thickness of the yarn when 9000m pulled with 1g of fiber, that is, 2 denier means the thickness of the yarn when 9000m pulled out of 2g of fiber, the 600denia Is the thickness of the yarn when 9000 m of yarn is drawn with 600 g of fiber. Therefore, the gloves are squeezed together with a carbon yarn having a thickness of 9000m when pulled out of the 60g fiber mentioned above and a nylon yarn having a thickness of 9000m pulled out of the 540g fiber. In other words, the anti-static glove 100 has a carbon yarn having a thickness when a 9000 m carbon yarn is drawn from a 60 g carbon fiber, and a thickness when a 9000 m nylon yarn is drawn from a 540 g nylon fiber oil. It is knitted with nylon yarns having a warp yarn.

An ESD test value of the anti static glove 100 is 10 ⁻⁷ to 10 ⁻⁹ Ω / sq. Here, Ω / sq is Ohm / Square .

Wrist portion of the anti-static glove 100 is manufactured in the form of one of the lumber, lumber or long wood as shown in FIG. At this time, the timber is about 2.5 cm, the middle wood is 4.5 cm, the long wood is 6.5 cm. And the wrist portion is knitted in the form of rubber knit to give elasticity as shown in FIG. 3 is a view showing only the wrist portion is expanded for explanation.

In addition, the size of the anti-static glove 100 is produced in small (S), medium (M), large (L), extra large (XL), the operator selects a glove of the appropriate size according to the hand size Wear it.

The wrist end portion of the anti-static glove 100 is subjected to the overlock sewing process to prevent the wrist end portion is released.

Thus produced anti-static glove 100 is significantly thicker than other conventional gloves. That is, the thickness of the anti-static glove 100 is applied to the present invention is 2 ~ 4mm. Therefore, it is not only thick enough to substitute the work cotton gloves generally used, but also durable and can be used for a long time.

As mentioned above, although preferred embodiments of the present invention have been described in detail, those of ordinary skill in the art to which the present invention pertains should realize the present invention without departing from the spirit and scope of the present invention as defined in the appended claims. Although various modifications or changes may be made, these are included in the spirit and scope of the invention as included in the appended claims.

100: anti static glove

Claims (8)

delete In the anti-static glove consisting of a main body portion is inserted into the hand and the wrist portion is formed extending to the body portion is tightly coupled to the wrist,
The anti-static glove is a nylon yarn having a thickness when we pulled 9000 m of nylon yarn from 540 g of nylon fiber oil, and a carbon yarn having a thickness when we pulled 9000 m of carbon yarn from 60 g of carbon fiber. Warp, knitted,
The anti static glove of the anti static glove (ESD TEST) is characterized in that the anti-static glove is 10 ^-7 ~ 10 ^-9 Ω / sq.
delete delete The method of claim 2,
Anti-static gloves, characterized in that the wrist portion of the anti-static glove is made of one of the form of single wood, medium wood or long wood.
The method of claim 5, wherein
Wrist end of the anti-static glove anti-static glove, characterized in that the anti-loosening treatment by the overlock sewing process.
The method of claim 2,
The anti static glove is characterized in that the thickness of 2 ~ 4mm.
The method of claim 2,
And a finger portion branched from the main body portion, wherein an end of the finger portion is removed so that a finger inserted through the main body portion is exposed to the outside through the finger portion.

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