KR200367788Y1 - Improvement of ESD Prevention in Garments - Google Patents

Abstract

The present invention relates to an antistatic garment which forms the entire garment in one electrical loop so as to have a complete antistatic performance of the entire garment. The antistatic garment of the present invention is made of an insulator cloth and the longitudinal direction of the cloth. And a plurality of longitudinal sewing lines formed and sewn with conductive yarns, and a plurality of transverse sewing lines formed in the transverse direction of the fabric and sewn with conductive yarns. The conductive thread is formed of carbon yarn containing a carbon material having excellent conductivity. In addition, the electrical resistance at all points of the garment has a value of 10 ⁶ to 10 ⁹ Ω satisfying the international standard (Garment (ESD STM2.1)).

Description

Clothing of antistatic

The present invention relates to an antistatic garment, and more specifically, to prevent the antistatic to have the same resistance value for the entire garment by sewing both the longitudinal and transverse seams of the garment with a conductive thread conforming to the international standard for antistatic It's about clothing.

In general, anti-static clothing is a high-tech functional clothing that is required to be worn in petrochemical, semiconductor, electronics, information and communication companies that require high cleanliness, and can prevent product destruction and failure by sparks and dust, and prevent germs and static electricity. Refers to clothing. In particular, the generation of static electricity in the workplace of the special work field is treated very sensitively as it has a direct effect in terms of product destruction or human hazards.

1 is a perspective view schematically showing a conventional jeonbok.

As shown in FIG. 1, the conventional overturned garment 10 'includes a cloth 20' of an insulator, a plurality of longitudinal seams 30 'formed in a longitudinal direction and sewn with a conductive thread, and transversely. It is composed of a plurality of transverse sewing lines 31 'formed and sewn with insulator threads.

In this case, when the static electricity generated in the electrostatic uniform 10 'is to be measured, since the charge state, the electric charge, the electric potential measurement, and the leakage characteristics are reduced, the electrostatic charge is reduced by using the clamp 50' and the resistance meter 40 ' You can grasp the state of.

However, in the conventional deformed garment 10 'as described above, the individual resistance value, that is, the resistance value at the CC' point on the same line is sealed with a conductive thread to satisfy the international standard, but the sleeve and the sleeve of FIG. The resistance value at the AB point is sealed with a non-conductive seal, which is in compliance with international standards and does not have a complete static elimination performance. In addition, there is a problem that the electric shock caused by the electric current flows into the human body by the discharge to the human body, or the productivity is reduced due to the discomfort, fear, etc. caused by the electric shock phenomenon.

Therefore, the present invention was devised to solve the above problems, and an object of the present invention is to sew both the longitudinal and transverse seams of the garment with a conductive thread that conforms to the international standard for antistatic, so that the entire garment is completed. It is to provide an antistatic garment having antistatic performance.

According to a preferred aspect of the present invention for smoothly achieving the above object of the present invention, the antistatic garment is formed of an insulator and a plurality of longitudinal agents formed in the longitudinal direction of the fabric and sealed with a conductive thread. And a plurality of transverse sewing lines formed in the transverse direction of said fabric and sewn with a conductive thread.

In addition, the conductive yarn is preferably a carbon (carbon) containing a carbon material excellent in conductivity.

In addition, the electrical resistance of the garment is preferably 10 ⁶ ~ 10 ⁹ Ω at all points, the garment may be a static clothes.

1 is a perspective view schematically showing a conventional jeonbok.

2 is a perspective view schematically showing a uniform according to the present invention.

-Explanation of symbols for the main parts of the drawings-

10: uniform 20: cloth

30: longitudinal seam 31: transverse seam

40: electrical resistance meter 50: clamp

First, "static electricity" is generally an electrical phenomenon when the distribution of charges does not change in time. The charging phenomenon due to friction, the electric field generated by the conductor under DC voltage, the electric field generated by the stationary charge, etc. are all related. For example, when a metal, such as a handle of a dry winter door, touches a hand, the static electricity charged in the metal is discharged by a finger, and the fingertip feels dull. In addition, since synthetic fibers are less hygroscopic, static electricity generated by friction tends to be charged, which is why the inner side of synthetic fibers sticks to the body. It is also the same reason that the static electricity is generated by friction and the hair sticks to the charged plastic comb. Antistatic agents have been developed to reduce the damage of static electricity. Static electricity is discharged from the combustible materials and explosive gases that stay in the mine, such as the explosion of coal mine gas, which can cause major disasters.In addition, sparks occur in special fields of work such as petrochemical, semiconductor, electronics and telecommunication companies. It may cause the product breakdown and failure. Since the electrostatic induction of the conductor takes place in about one-hundredths of a second, the theory of static electricity holds true even when there is a gentle change in time. The basic law of static electricity is Coulomb's law of electric forces acting between charges.

In addition, in order to accurately take measures against static electricity on clothes such as static electricity, the measurement of static electricity is the basis, and the charge state, the electric charge, the potential measurement, and the leakage characteristics are reduced and weakened, so that the resistance measurement can be understood. In addition, the electrical resistance value (R) according to the international standard (Garment (ESD STM2.1)) for the measurement of static electricity related to clothing is 10 ⁶ to 10 ⁹ Ω, which is a time for static electricity relaxation. This is because the discharge time in the garment should be configured for 1 to 3 seconds.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a perspective view schematically showing a deformed garment according to the present invention, substantially the deformed garment 10 ′ shown in FIG. ), And the differences will be explained.

As illustrated in FIG. 2, the electrostatic garment 10 according to the present invention includes a cloth 20 of an insulator and a plurality of longitudinal seams 30 formed in the longitudinal direction of the cloth 20 and sealed with conductive threads. And a plurality of transverse sewing lines 31 formed in the transverse direction of the cloth 20 and sewn with a conductive thread.

Accordingly, since both the longitudinal and transverse sewing lines 30 and 31 of the deformed garment according to the present invention are sewn with a conductive thread, the entire garment is composed of one loop and thus the clamp 50 and the resistance measuring instrument. The electrical resistance of the entire deformed uniform 10 through 40 equally satisfies the international standard value of 10 ⁶ to 10 ⁹ Ω at all points to have complete antistatic performance.

Here, it is preferable to use a carbon yarn containing a carbon material having excellent conductivity as the conductive thread, but the present invention uses any conductive material having an electrical resistance value of 10 ⁶ to 10 ⁹ Ω, which is an international standard. It is okay.

In addition, the present invention has been described focusing on the antistatic clothing used in the anti-static clothing of semiconductor LCD factories, hospitals, and other electronic equipment, but is not limited to this can be applied to general clothing, such as student uniforms, of course. .

As described above, according to the antistatic garment according to the present invention, both the longitudinal and transverse seams of the garment are sewn with a conductive thread that satisfies the electrical resistance of 10 ⁶ to 10 ⁹ Ω conforming to the international standard for antistatic. By forming one loop, the entire garment has the effect of having a complete antistatic performance.

Claims (4)

With the cloth of the insulator, A plurality of longitudinal seam lines formed in the longitudinal direction of the fabric and sewn with conductive yarns; Antistatic clothing, characterized in that formed in the transverse direction of the fabric consisting of a plurality of transverse sewing line sewn with a conductive thread. The method of claim 1, The conductive thread is an anti-static garment, characterized in that the carbon (carbon) containing a high conductivity carbon material. The method according to claim 1 or 2, Electrical resistance at all points of the garment is 10 ⁶ ~ 10 ⁹ Ω characterized in that the antistatic garment. The method according to claim 1 or 2, The anti-static garment, characterized in that the garment is a static.