KR20090015882A - Composition for polarization box which has the function of anti-frictional electricity - Google Patents

Abstract

A composition for a polarization box is provided to prevent the contamination of an LCD film accepted by separating an antistatic material from a polarization box, through adding the antistatic material to the thermoplastic resin. A composition for a polarization box(100) receiving a plurality of films in a laminated state, comprises thermoplastic resin 75-99.5 weight% and antistatic material 0.5-25 weight%. The thermoplastic resin and antistatic material are mixed to manufacture the polarization box added with an antistatic material. The antistatic material is a conductive polymer selected from the group consisting of poltaniline, polyethylenedioxythiophene, polypyrole, polythiophene, poly(phenylene), polyacetylene, poly (p-phenylene vinylene), polythienylene vinylene, polyisothianaphyhene, poly (p-phenylene sulfide) and their combination.

Description

Composition for polarization box which has the function of anti-frictional electricity}

The present invention relates to a composition for a pole box having an antistatic function, in particular, it is possible to prevent the contamination of the film for LCD contained in the antistatic material is removed from the pole box, the antistatic function of the pole box can be maintained for a long time It relates to a composition for a pole box having an antistatic function.

A display panel commonly used in a flat panel display such as a TV or a monitor is a TFT-LCD (Thin Film Transistor-Liquid Crystal Display) panel. The TFT-LCD panel is composed of LCD film, liquid crystal plate, color filter, etc. These parts are transported from the production plant to the production plant of the TFT-LCD panel and finally assembled.

However, due to static electricity generated during transportation, the LCD film is electrically damaged or fine dust adheres to the surface of the LCD film in many cases. Since the damage and contamination of the LCD film cause the defect of the final product TFT-LCD panel, it was necessary to transport the LCD film so that it is not exposed to static electricity.

In order to improve this problem, conventionally, the LCD film was put in a plastic bag coated with an antistatic material and then packed in a container in some cases. However, such a plastic bag has a problem in that the antistatic performance is lowered due to the weak wear resistance, the antistatic material falls off during use.

In addition, the plastic bag packaging method, because a separate plastic packaging process is added, the overall transportation time is increased, there is a problem that the transportation cost is increased because the plastic bag is disposable. In addition, the plastic bag packaging method has a hassle to tear off the plastic packaging at the production plant of the TFT-LCD panel after the transport of the LCD film, the LCD film during the transport process or dismantle the plastic packaging of the LCD film There was a problem that this is likely to be damaged.

In order to solve this problem, as shown in FIG. 1, a pole box 1 for receiving a plurality of LCD films F in a stacked state has been used. The pole box 1 is composed of a lower box 2, which is a rectangular container with an open top, and an upper box 3 for sealing an open upper part of the lower box 2, and the lower box 2 ) And the upper box 3 is coated with an antistatic material on the outside.

When the LCD film F is accommodated using the pole box 1, unlike the plastic bag packaging method, the plastic packaging is carried out at the production plant of the TFT-LCD panel after the transport of the LCD film F. This has the effect of eliminating the hassle of tearing off.

However, even in this case, the coated antistatic material is separated from the resin surfaces of the lower box 2 and the upper box 3 to contaminate the LCD film F, and the poles are prevented due to the release of the antistatic material. There is a problem that the antistatic function of the box (1) is deteriorated, and even in the manufacturing process of the pole box (1) there is a problem in that the economic efficiency is lowered by the addition of the coating process of the antistatic material.

The present invention has been made to solve the above problems, the purpose of which is to prevent the antistatic material from being detached from the pole box to contaminate the housed LCD film, the antistatic function of the pole box can be maintained for a long time In order to provide a composition for a pole box having an antistatic function improved components so as to.

In order to achieve the above object, the composition for a pole box having an antistatic function according to the present invention is a composition for a pole box used in the manufacture of a pole box accommodating a plurality of LCD films in a laminated state, thermoplastic resin 75 to 99.5% by weight; It includes 0.5 to 25% by weight of an antistatic material, characterized in that the thermoplastic resin and the antistatic material are mixed so that the pole box in which the antistatic material is embedded.

According to the present invention, the antistatic material is embedded in the thermoplastic resin, thereby preventing the antistatic material from being detached from the pole box and contaminating the housed LCD film, and the antistatic function of the pole box can be maintained for a long time. It works.

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

2 is a perspective view of a pole box manufactured using a composition for a pole box having an antistatic function according to an embodiment of the present invention, Figure 3 is a pole box for having an antistatic function according to an embodiment of the present invention A diagram showing a frictional charge measurement position with respect to a specimen prepared using the composition.

2 to 3, a composition for a pole box (hereinafter referred to as "composition") having an antistatic function according to a preferred embodiment of the present invention, to accommodate a plurality of LCD films (F) in a laminated state As the composition used in the manufacture of the pole box 100, it comprises a thermoplastic resin and an antistatic material.

The thermoplastic resin is polypropylene (PP), acrylonitrile-butadiene-styrene resin (ABS), polybutylene terephthalate (PBT), polyethylene terephthalate (PET), polycarbonate (PC), polyethylene (PE), Polystyrene (PS), and combinations thereof. In this example, polypropylene (PP) was used.

The thermoplastic resin, 75 to 99.5% by weight, preferably 90 to 99.5% by weight based on the total weight of the composition.

When the thermoplastic resin is contained less than 75% by weight, the workability of the composition is not maintained to maintain mechanical properties, making it difficult to manufacture a molded article resistant to impact, and when the thermoplastic resin is contained at least 99.5% by weight of the conductivity of the composition Is lowered.

The antistatic material is any one selected from the group consisting of permanently antistatic agents (IDP, Inherently Dissipative Polymer), conductive polymers, and surfactants.

The permanent antistatic agent is a polymer having various functional groups, for example, a metal salt compound (for example, LiN (CF3SO3) 2, etc.) as a co-solvent, ether-based compounds such as polyethylene glycol, polyester elastomers, amide elastomers or urethanes It is generally prepared by mixing the elastomer with a certain ratio. For example, Polyether Block Polyamide Copolymer.

The conductive polymer is composed of Poltaniline, Polyethylenedioxythiophene, Polypyrole, Polythiophene, Poly (p-phenylene), Polyacetylene, Poly (p-phenylene vinylene), Polythienylene vinylene, Polyisothianaphyhene, Poly (p-phenylene sulfide), and combinations thereof Any one selected from the group.

The surfactants include quaternary ammonium surfactants, trimethyl ammonium ethoxide, trimethyl ammonium butoxide, trimethyl ammonium phenoxide, trimethyl ammonium P-chloro phenoxide, trimethyl ammonium lauoxide, (3-laura Midopropyl) trimethylammonium methyl sulfate, carbonic acid type surfactant, sulfate ester type surfactant, sulfonate surfactant, phosphate ester type surfactant, alkyltrimethylammonium chloride, dialkylmethylammonium chloride, benzalkonium chloride, alkyldimethylamino acetate Phosphorus, alkylamide dimethylamino acetic acid betaine, 2-alkyl-N-carboxy-N-hydroxyimidazolinium betaine, polyoxyethylene type surfactant, polyhydric alcohol ester type surfactant, ethylene oxide propylene oxide block copolymer , Selected from the group consisting of lecithin, polymeric surfactants, and combinations thereof One.

The antistatic material contains 0.5 to 25% by weight, preferably 0.5 to 10% by weight, based on the total weight of the composition. In this embodiment, the polyether block polyamide copolymer which is a permanent antistatic agent was used as the antistatic material.

The composition may be directly used to manufacture the pole box 100 in a state in which the thermoplastic resin and the antistatic material are mixed, and the thermoplastic resin and the antistatic material are introduced into an extruder to a temperature of 150 to 350 ° C. The pellet may be used to manufacture the pole box 100 after it is manufactured into pellets by extrusion.

As shown in FIG. 2, the pole box 100 has a lower box 10, which is a rectangular container with an open top, and is fixed to an inner bottom surface of the lower box 10 for the stacked LCD. It comprises a fixing device 20 for supporting the lower and side surfaces of the film (F), and the upper box 30 for sealing the open upper portion of the lower box (10).

In the present embodiment, the lower box 10 and the fixing device 20 and the upper box 30 of the pole box 100 was made of the composition. Therefore, unlike the conventional pole box 1 manufactured by coating an antistatic material on the outside, the pole box 100 is in a state in which the antistatic material is added therein.

Hereinafter will be described for the various tests to determine the antistatic ability of the pole box 100 prepared by the composition.

First, the electric field measuring method and the measurement result for the pole box 100 will be described. The electric field measurement method is to measure the electric field component of the electromagnetic wave, it is a digital method of the frequency range 15Hz ~ 2.0KHz, the measurement range 1V / m ~ 1,999V / m, the error rate ± 5dB.

In order to measure the degree of electric field attenuation in the pole box 100 made of the composition according to the present embodiment, an electric field generating electric field is placed outside the box to be measured, and an electric field meter (E-Tester, NIT) is used. The electric field at the center inside the box was measured. For comparison, it was measured with one commercially available shipping box (# 1) and a pole box 100 made of the composition according to the present embodiment. As a result, about 150V / m of the shipping box (# 1) was measured. Although the internal electric field of was measured, the pole box 100 made of the composition according to the present embodiment was measured an internal electric field of 5V / m or less. Therefore, it can be seen that the pole box 100 made of the composition according to the present embodiment has a better ability to dissipate the electric field (electrostatic) present therein.

Hereinafter will be described the surface resistance and the half-life measurement results for the specimen prepared by the composition.

The surface resistance of the specimen serves as a reference for measuring the conductivity of the specimen, and the conductivity has a significant influence on the amount of static electricity generated in the specimen. Therefore, by measuring the surface resistance of the specimen, it is possible to know the ability to discharge static electricity, that is, the electrostatic discharge capacity (ESD, Electrostatic Discharge) of the specimen.

The test conditions of the surface resistance (KS M 3015-1997) was the applied voltage 500V, 60 seconds, 20 ± 2 ℃, 65 ± 2% RH, the test equipment was TOA SME-8311. D1 = 1.96cm, under the conditions of D2 = 2.41cm The surface resistance was measured by the ^{10 6} ~10 10 Ω. The surface resistance measurement method (KS M 3015-1997) is a method of compressing the specimen between electrodes to charge for 40-50 seconds, measuring the surface resistance 1 minute after stopping the application of voltage, and obtaining a specific resistance value by a calculation formula. When the measured surface resistance is 10 ¹² Ω or less, it is a suitable product. Since the specimen was measured at 10 ⁶ to ^{10 10} kPa, it can be seen that it is suitable.

The half-life (KS K 0555-2000, Method A) measures the time at which the applied voltage is 8 KV, applied for 60 seconds, and the time when the applied voltage is attenuated by half, and when the applied voltage half-life is within 2.0 seconds. Evaluate as appropriate. In this example, the half-life was measured to be 2 seconds or less under test conditions of 20 ± 2 ° C. and 40 ± 2% RH. Thus, suitable results were obtained.

Hereinafter, with reference to Figure 3, the method of measuring the frictional charge and the measurement results for the flat specimen 9 prepared by the composition will be described. The frictional charge was measured using a SIMCO-FMX002 (trade name) meter. The measuring device measures the intensity of the static source, and the apparent charge (unit = V) measured at this time is a measure of the possibility of destruction by the induction of the generated electromagnetic field.

1) As shown in FIG. 3, a circle having a diameter of 10 cm is drawn on each of the five measurement points on the prepared rectangular specimen 9.

2) Measure the large voltage before rubbing with paper.

3) Apply 20 times of friction (0.5HZ) within the measuring point range with 4 ~ 5Kg load using printing paper for each measuring point.

4) Measure the friction band voltage within 1 second for the friction measuring point,

Table 1 shows the five high voltages of the specimen 9 to be measured. It can be seen that 0 Volt at all measuring points before and after friction. The reason why the five high voltages were measured is to grasp the distribution of the high voltages for each measurement part. When frictional charges were measured on the box specimens than the plate specimens 9, the result was better than that of the plate specimens 9, but the results are not described here.

Point Before After One O volt 0 Volt 2 0 Volt 0 Volt 3 0 Volt 0 Volt 4 0 Volt 0 Volt 5 0 Volt 0 Volt

In the case of the pole box 100 made of the composition, since the antistatic material is manufactured using an embedded thermoplastic resin, the coating process of the antistatic material is removed, unlike the conventional coating method pole box (1). Therefore, there is an advantage that the manufacturing process of the pole box 100 is simplified.

In addition, in the case of the pole box 100, the antistatic material is embedded as an antistatic material, so unlike the conventional coating method pole box 1, the antistatic material does not escape from the surface of the pole box 100. Therefore, the pole box 100 has a semi-permanent anti-friction prevention capability, and there is an advantage that the LCD film F accommodated in the pole box 100 is not contaminated by the detached antistatic material.

In addition, since the polypropylene and the polyether block polyamide copolymer which are antistatic materials used in the manufacture of the pole box 100 are both translucent, the LCD film F housed in the pole box 100 is There is an advantage that can be confirmed.

On the other hand, the polypropylene used in the manufacture of the pole box 100 is excellent in the ability to respond to fatigue failure, even if the upper box 30 and the lower box 10 is repeatedly detached, the pole box 100 It also has the advantage that fatigue fracture is not easily generated.

In the present embodiment, a low cost and excellent durability of polypropylene is used as the thermoplastic resin of the composition. However, if more durability and transparency are required, polycarbonate is preferably used.

In the present embodiment, as the antistatic material, a polyether block polyamide copolymer, which is a permanent antistatic agent, was used, but if the reduction of manufacturing cost is required or if only a limited antistatic function is sufficient, the surfactant may be used.

Although the present invention has been described above, the technical scope of the present invention is not limited to the contents described in the above-described embodiments, and an equivalent configuration modified or changed by those skilled in the art is a technical feature of the present invention. Obviously, it is not beyond the scope of thought.

1 is a perspective view showing a conventional pole box.

2 is a perspective view of a pole box manufactured using a composition for a pole box having an antistatic function according to an embodiment of the present invention.

Figure 3 is a view showing the position of the frictional charge measurement for the specimen prepared using the composition for the pole box having an antistatic function according to an embodiment of the present invention.

＊ Explanation of symbols on major part of drawing ＊

100: pole box 10: lower box

20: fixing device 30: upper box

 F: LCD film 1: Conventional pole box

Claims (4)

In the composition for a fall box used for the manufacture of a fall box for storing a plurality of LCD films in a laminated state, 75 to 99.5% by weight of thermoplastic resin; 0.5 to 25% by weight of an antistatic material; The composition for a pole box, characterized in that the thermoplastic resin and the antistatic material are mixed so that the pole box in which the antistatic material is embedded. The method of claim 1, The antistatic material is a composition for fold box, characterized in that the permanent antistatic agent (IDP, Inherently Dissipative Polymer). The method of claim 1, The antistatic material is Poltaniline, Polyethylenedioxythiophene, Polypyrole, Polythiophene, Poly (p-phenylene), Polyacetylene, Poly (p-phenylene vinylene), Polythienylene vinylene, Polyisothianaphyhene, Poly (p-phenylene sulfide), and combinations thereof A composition for a fall box, characterized in that the conductive polymer selected from the group consisting of. The method of claim 1, The antistatic substance is quaternary ammonium surfactant, trimethyl ammonium ethoxide, trimethyl ammonium butoxide, trimethyl ammonium phenoxide, trimethyl ammonium P-chloro phenoxide, trimethyl ammonium lauoxide, (3- Lauramidopropyl) trimethylammonium methyl sulfate, carbonic acid type surfactant, sulfate ester type surfactant, sulfonate surfactant, phosphate ester type surfactant, alkyltrimethylammonium chloride, dialkylmethylammonium chloride, benzalkonium chloride, alkyldimethylaminoacetic acid Betaine, alkylamide dimethylamino acetic acid betaine, 2-alkyl-N-carboxy-N-hydroxyimidazolinium betaine, polyoxyethylene type surfactant, polyhydric alcohol ester type surfactant, ethylene oxide propylene oxide block air A system selected from the group consisting of coalescing, lecithin, polymeric surfactants, and combinations thereof Paul Box composition, characterized in that the active agent.

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