JPH1088451A - Wiping cloth and its production - Google Patents

Abstract

PROBLEM TO BE SOLVED: To obtain wiping cloth suitable for a clean room, etc., having water absorption properties equal to or more than those of nonwoven fabric, not causing self-dusting, excellent in chemical resistance, by scouring a specific knitted fabric with a polyoxyalkyl ether compound by using a jet dyeing machine. SOLUTION: A knitted fabric which comprises a filament yarn of synthetic fiber such as polyester yarn having 0.1-2 denier and >=4g/d fiber strength as a constituent material, has 50-300g/m<2> weight and 3-7cm<3> /g bulkiness is scoured with a low foaming scouring agent consisting essentially of a polyoxyalkyl ether compound and caustic soda by using a jet dyeing machine to give the objective wiping cloth having <120 amount of dusts with >=0.5μm particle diameters, >=140 water absorption rate both in the warp and weft directions and >=350wt.% water absorption ratio.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to cleaning or maintenance of a liquid crystal clean room machine, and more particularly to a wiping cloth which is excellent in water absorption and suitable for low dust generation liquid crystal and a method of manufacturing the same. It is.

[0002]

2. Description of the Related Art When a liquid crystal product is manufactured, it is very strict with respect to dust.
(JIS Z122).
If there is a large amount of dust, the dust gets on the glass substrate and causes a defect in product performance. Therefore, when cleaning and maintenance of a liquid crystal product manufacturing machine in a clean room, a device with particularly low dust generation is required. In addition, since paste is used in the manufacturing process, the paste scatters and stains the machine, etc., and the organic solvent such as acetone, ethyl alcohol, and NMP (normalimethylpyrrolidone) is contained in the wiper for cleaning. ing.

[0003] Conventional wipers include silicon paper and non-woven fabric. However, since silicon paper is easily scratched on the surface of glass and has a very low water-absorbing performance, it is cleaned with an organic solvent. Had the drawback of being difficult to handle. In addition, the nonwoven fabric has good water absorption performance, and there is no problem in wiping the machine by including an organic solvent. However, there is a problem that the fibers are easily cut and dust is generated very much. Furthermore, ultrafine fibers (single fiber fineness is 0.
Although less than 1 denier, the wiper of the knitted fabric used has excellent wiping properties, but because the fibers are too tight and too dense, it is difficult to contain an organic solvent. As a result, there is a disadvantage that fibers are cut and self-dusting occurs.

[0004]

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned problems of the prior art, and has a water absorbing property higher than that of a non-woven fabric, does not cause self-dusting, and has excellent chemical resistance. It is an object to provide a wiping cloth suitable for use.

[0005]

A wiping cloth according to the present invention for solving the above-mentioned problems comprises a synthetic fiber filament yarn having a single fiber fineness of 0.1 to 2 denier and a yarn strength of 4 g / d or more. The weight of the knitted fabric is 50 to 300
g / m ² and a bulk height of ³ to 7 cm ³ / g.

[0006]

DESCRIPTION OF THE PREFERRED EMBODIMENTS In the present invention, a synthetic fiber filament yarn such as polyester or nylon having a single fiber fineness of 0.1 to 2 denier and a yarn strength of 4 g / d or more is used. Preferably, the single fiber fineness is from 0.9 to 1.1 denier.

In the case of an ultrafine fiber having a single fiber fineness of less than 0.1 denier, since the filament yarn strength is low, when the fiber is caught on a small projection of a machine, the fiber is cut and self-dusting occurs. On the other hand, if the single fiber fineness exceeds 2 denier, the surface of the product is scratched, or the wiping properties are reduced due to the large single fiber. In addition, the water absorption capacity is also reduced.

If the strength of the filament yarn is 4 g / d or more, dust generation hardly occurs, and preferably 5 to 6 g / d. Further, compared to filament yarn, short fibers are more likely to fall off and cause self-dusting. Therefore, the present invention is characterized by using filament yarn.

In the present invention, the synthetic fiber filament yarn is composed of a knitted fabric. In a woven fabric, the thickness of the fabric is thin, it is difficult to handle with a fluff, and the porosity is small, so that the water absorption is very low. In addition, there is a problem that, when a yarn breaks in a woven fabric, the yarn is unraveled as it is.

As the knitted material, a flat knitting or a warp knitting can be applied, but a circular knitting is particularly preferable.

In the present invention, the basis weight of the wiping cloth is 50 to 300 g / m ² , preferably 150 to ² g / m ² .
00 g / m ² . If it is less than 50 g / m ^2, it is too thin to be easily broken and has low water absorption. On the other hand, if it exceeds 300 g / m ^{2, it} will be too thick and rough and difficult to handle, the voids will be reduced, and the water absorption will be reduced.

The bulk height of the wiping cloth of the present invention is ^{3 to} 7 cm ³ / g. Bulk altitude is 3
If it is less than cm ³ / g, it is too thin to handle easily, and the water absorption becomes extremely low. On the other hand, if it exceeds 7 cm ³ / g, it will be too thick and rough and difficult to handle.

In order to obtain such a bulkiness, means such as crimping of the filament yarn by false twisting and heat treatment, yarn processing such as imparting yarn-to-yarn entanglement by air entanglement, or shrinkage imparting by heat treatment of the knitted fabric, etc. Is adopted.

The wiping cloth has a water absorption rate (JIS
L-1096 6.26.1) is 140 mm or more in both the vertical and horizontal directions, preferably 145 mm or more and 16
It is less than 0.

The wiping cloth is JIS L
The water absorption measured at -1096 6.26.2 water absorption is 350% by weight or more, preferably 350% by weight or more and less than 400%.

JIS B-99 of this wiping cloth
23 6.2 (1.2) Particle size by tumbling method
The amount of dust generation of 5 μm or more is less than 120, preferably 10 or more and less than 110.

JIS B-99 of this wiping cloth
23 6.2 (1.2) Particle size by tumbling method
100 particles / ft ³ or less, preferably 30 particles / ft ³ or less, more preferably 10 particles / ft ³ or more
^In a clean room of ³ or less, the wiping cloth of the present invention is washed with pure water such as distilled water or ion-exchanged water, packed and packed, and it is preferable to use this wiping cloth in the clean room when necessary. .

The wipe pink cloth of the present invention is particularly suitable for cleaning and maintenance of tools and equipment for manufacturing liquid crystal products and manufacturing machines.

Next, the LF scouring method, which is an example of a preferred method for producing the wiping cloth of the present invention, will be described.
In the usual scouring process, continuous scouring is performed. However, continuous scouring cannot thoroughly wash off the knitting oils and the like that have been attached in the previous process. For this reason, the water absorption is very poor, and even if a solvent is to be contained, it will not be absorbed but will be spilled.

Therefore, in the present invention, the scouring step is performed not in a continuous manner but in a batch manner, and the scouring is performed using a liquid jet dyeing machine.

First, before scouring, washing with hot water is performed to remove some oil agent, and then scouring is performed. The conditions for scouring were 1-5 g of sodium hydroxide.
/ L (solid) and a low-bubble scouring agent mainly composed of a polyoxyalkyl ether compound (nonionic). The scouring temperature is preferably from 80C to 100C.
By using caustic soda, the oil agent can be removed, and the fiber surface can be made hydrophilic by melting the fiber surface.

In washing after scouring, hot water is washed twice in order to remove ions as much as possible. In order to further remove ions, it is preferable to wash with hot water using a sequestering agent.

[0023]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below in detail based on embodiments.

Evaluation of dust generation is based on JIS B-9923.
The measurement was performed according to 6.2 (tumbling method). The water absorption rate in water absorption is JIS L-1096 6.26.1.
(Bilec method), and the water absorption rate is JIS L-1
The measurement and evaluation were carried out according to 096 6.26.2.

The wiping property was evaluated by the following method.

That is, the silicone oil SH200
About 5 mg (manufactured by Dow Corning Toray Silicone Co., Ltd.) was dropped on a glass plate with a syringe needle, and fixed to one end face of a cylindrical load having a diameter of 45 mm and a weight of 1 kgf via a woven fabric having a thickness of about 1 mm. A sample (wiping cloth) is placed on a glass plate and moved at a speed of 1 m / min to wipe off the silicone. Next, a toner for a dry copying machine (SF-76)
T: manufactured by Sharp Corporation) on a glass plate, and the toner is blown off with compressed air (1 kgf / cm ² ). A cellophane tape (manufactured by Sekisui Chemical Co., Ltd.) is attached to the surface of the glass plate, and the residual toner on the glass plate is peeled off, and the degree of the toner adhered to the cellophane tape is determined. Grade 5 where no toner adhered (the glass plate was completely wiped of silicone) and Grade 1 where a very large amount of toner remained, were visually judged in 5 stages.

Example 1 A 75 denier, 72 filament polyester false twisted yarn was knitted by a circular knitting machine (28G) by an interlock method to obtain a raw material. After opening the greige, it was washed once with a jet dyeing machine at 60 ° C. for 10 minutes and then with water at room temperature. After that, by scouring with a low-foaming scouring agent containing caustic soda and "Sunmole FL" (trade name of Nichika Chemical Co., Ltd.-polyoxyalkyl ether compound) as main components, the oil agent attached to the greige was removed. The polyester fibers were made hydrophilic by slightly melting the surface of the polyester fibers. Next, in order to remove caustic soda as much as possible, washing with hot water was performed twice at 60 ° C. × 10 minutes.
Then, it dried and heat-set at 160 degreeC.

Examples 2 to 5 In Example 2, knitting and scouring were performed in the same manner as in Example 1 except that a polyester false twisted yarn of 75 denier and 144 filaments was used. In Examples 3 and 4, scouring was performed in the same manner as in Example 1 except that the bulk height and the basis weight were changed. In Example 5, knitting and processing were performed in the same manner as in Example 1 using a 75 denier, 72 filament nylon yarn.

With respect to the fabrics of Examples 1 to 5, the performance required as a wiping cloth in a clean room was evaluated. The results are shown in Table 1.

[0030]

[Table 1] The fabrics of Examples 1 to 5 of the present invention were extremely excellent in cleaning a machine in a clean room because the amount of generated dust was very small and the water absorption rate and water absorption were very high.

Comparative Example 1 The ultrafine fiber is a sea-island type polyester of 50 denier and 9 filaments (70 islands / filament: manufactured by Toray Industries, Inc.), the island component is polyethylene terephthalate, and the sea component is terephthalic acid as an acid component of the polyester. A fiber made of an alkali-hot water-soluble polyester made of a copolymer of sodium sulfoisophthalic acid (the ratio of sea-island is 10
/ 90) was used. The high-shrink yarn is a 30-denier, 6-filament polyester yarn (manufactured by Toray Industries, Inc.). The high-shrink yarn and extra-fine yarn are aligned, knitted with a circular knitting machine, and the sea component is treated with caustic soda. I completely deseaded.

Comparative Example 2 The same knitting as in Example 1 was carried out using a polyester yarn having a single fiber fineness of 5.0 denier, and processed.

Comparative Example 3 Example 1 was performed using a 1.0 denier yarn having a low strength.
The same knitting was performed and processing was performed.

Comparative Example 4 A knitted cotton short fiber was used as a constituent material, and processing was performed in the same manner as in Example 1.

The evaluation results of the fabrics of Comparative Examples 1 to 4 are shown in Table 2.

[0036]

[Table 2] The cloth using extra-fine yarn had good wiping properties, but generated a large amount of dust, and had a low water absorption rate and low water absorption. On the other hand, when the single-fiber fineness was large as in Comparative Example 2, the wiping property, the water absorption speed, and the water absorption amount were low. In addition, when performing continuous scouring, the water absorption performance was not improved. In addition, those using short cotton fibers had good water absorption performance, but generated extremely large amounts of dust.

[0037]

The wiping cloth of the present invention has a very high water absorbing property, so that it contains an organic solvent firmly during machine cleaning, and that dust and dirt are hardly contained in the cloth. It has an excellent effect that the amount of generated dust is small and the device is very suitable for use in a clean room.

Claims (8)

[Claims] 1. A knitted fabric comprising a synthetic fiber filament yarn having a single fiber fineness of 0.1 to 2 denier and a yarn strength of 4 g / d or more, a basis weight of 50 to 300 g / m ² and a bulk height of 3 A wiping cloth characterized by having a weight of 7 cm ³ / g. 2. JIS B-9923 6.2 (1.2)
The amount of dust with a particle size of 0.5 μm or more by tumbling method is
The wiping cloth according to claim 1, wherein the number is less than 120. 3. The method according to claim 1, wherein a water absorption rate measured by JIS L-1096 6.26.1 water absorption rate B method (Bilec method) is 140 mm or more in both the vertical and horizontal directions. The described wiping cloth. 4. The wiping cloth according to claim 1, wherein a water absorption measured by JIS L-1096 6.26.2 water absorption is 350% by weight or more. 5. The cleaning cloth according to claim 1, wherein the wiping cloth is washed with pure water and packed in a clean room in which the number of suspended particles having a particle size of 0.5 μm or more is 100 particles / ft ³ or less. A wiping cloth according to any one of Items 1 to 4. 6. The wiping cloth according to claim 1, wherein the wiping cloth is used for a clean room. 7. The wiping cloth according to claim 1, wherein the wiping cloth is used for manufacturing a liquid crystal product. 8. A knitted fabric comprising a synthetic fiber filament yarn having a single fiber fineness of 0.1 to 2 denier and a yarn strength of 4 g / d or more, is subjected to a polyoxyalkyl ether compound using a liquid jet dyeing machine. A method for producing a wiping cloth, comprising scouring with a low-foaming scouring agent as a main component and caustic soda.