JP3042737B2 - Non-woven fabric for wiping - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a nonwoven fabric for wiping which is excellent in wiping properties of both oily and water-based stains and has a shape-retaining property and is easy to wipe. It can be used for applications such as kitchens.

[0002]

2. Description of the Related Art Conventionally, when wiping dirt from OA equipment or the like, a cloth such as a rag or tissue has been generally used. However, there are also oily stains that cannot be wiped off with a rag, tissue, or the like, and in this case, the detergents have to be used in combination to remove the stains. Therefore, so that the detergent does not need to be included in the rag or tissue,
Wipers in which a rag or tissue is preliminarily mixed with a detergent, a chemical, or the like are known. However, these rags and tissues have no strength and no shape retention in a wet state, and thus are difficult to wipe and have poor wiping properties.

On the other hand, Japanese Unexamined Utility Model Publication No. 2-8355 discloses a wiping cloth in which a part of the surface of a water-absorbent cloth is coated with ultra-fine fibers and which is excellent in wiping water and oily dirt. However, this wiping cloth, like conventional rags and tissues, has no strength especially in a wet state and has no shape retention, so that it is difficult to wipe and has poor wiping properties.

[0004]

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned drawbacks, and provides a nonwoven fabric for wiping which is excellent in shape retention when wet, easy to wipe, and excellent in wiping. The purpose is to:

[0005]

According to the present invention, there is provided an ultrafine fiber layer comprising 100% by weight of ultrafine fibers having a fineness of 0.5 denier or less;
A hydrophilic fiber layer mainly composed of hydrophilic fibers, and a fusion fiber layer containing a heat-fusible fiber located between these layers, comprising at least three layers , wherein the fusion fiber layer comprises a heat-fusible fiber. Nothing
A nonwoven fabric for wiping comprising a layer formed by fusing under pressure .

[0006]

The nonwoven fabric for wiping of the present invention has an ultrafine fiber layer composed of 100% by weight of ultrafine fibers having a fineness of 0.5 denier or less, so that even fine dirt can be wiped off, and ultrafine fibers having a fineness of 0.5 denier or less can be wiped off. If is a lipophilic synthetic fiber, it is easier to wipe off oily dirt.

Since the nonwoven fabric for wiping of the present invention has a hydrophilic fiber layer mainly composed of hydrophilic fibers, the hydrophilic fiber layer can wipe off and retain water-based stains. In a wet state, a chemical solution or the like can be held, and the pressure of the hand when wiping causes the chemical solution or the like to ooze into the ultrafine fiber layer, so that the wiping performance by the ultrafine fiber layer is dramatically improved.

[0008] The fused fiber layer of the present invention is located between the ultrafine fiber layer and the hydrophilic fiber layer. Since the conductive fiber does not swell or deform even in a wet state, it imparts shape retention in a wet state. Therefore, the nonwoven fabric for wiping of the present invention is easy to wipe and has excellent wiping properties. Further, since the fused fiber layer of the present invention is not mixed with the ultrafine fibers but is a layer, the wiping property of the ultrafine fibers is not reduced. Since the heat-fusible fibers are generally lipophilic, they retain oily stains wiped off by the ultrafine fiber layer or the hydrophilic fiber layer.

[0009] The ultrafine fiber layer of the present invention comprises 0.5.
The cross-sectional shape of the ultrafine fibers, which are fine fibers of denier or less and are usually obtained by dividing easily breakable fibers having a substantially circular cross-sectional shape, have sharp corners, so that it is easier to wipe off oily dirt. The easily splittable fibers giving such ultrafine fibers are made of two or more types of resins, and are fibers split by mechanical action such as water flow or needle punch, or by chemical action such as dissolution and removal, swelling and shrinkage. More specifically, polyamide resin and polyester resin, polyamide resin and polyolefin resin, polyamide resin and polyacrylonitrile polymer resin, polyester resin and polyolefin resin, polyester resin and polyacrylonitrile resin, polyolefin resin and polyolefin Examples of the combination of acrylonitrile polymer resins include, but are not limited to, these.

The resin components may be arranged in any manner. For example, a chrysanthemum flower fiber having a cross-sectional shape in which one component is radially arranged between other components, and different components are alternately laminated in layers. Bimetallic fibers having a cross-sectional shape described above, or sea-island fibers having a cross-sectional shape in which one component is dispersed in an island shape with another component. Among these easily splittable fibers, ultrafine fibers obtained from chrysanthemum flower type fibers and bimetal type fibers have a sharp cross-sectional shape portion, are easier to scrape off dirt, and are easier to wipe off oily dirt.

The ultrafine fiber layer of the present invention may be not only an ultrafine fiber obtained from easily splittable fibers but also an ultrafine fiber obtained by applying an air flow when jetting a fiber directly from a spinning nozzle. However, the present invention is not limited to ultrafine fibers.

The ultrafine fiber layer of the nonwoven fabric for wiping of the present invention comprises 100% by weight of the above ultrafine fibers.

[0013] to configure the hydrophilic fiber layer of the present invention is mainly hydrophilic fibers, this layer, when wiping the dirt aqueous, holding or, for use in the wet state, hydrophilic The chemical solution of the fiber layer is supplied to the ultrafine fiber layer to dramatically improve wiping properties.

The fibers that can be used in the hydrophilic fiber layer include, for example, cotton fibers, rayon fibers, and vinylon fibers, but are not limited thereto.

When the amount of the hydrophilic fiber constituting the hydrophilic fiber layer is less than 50% by weight, the hydrophilic fiber does not function as the hydrophilic fiber layer, so that the amount of the hydrophilic fiber is required to be 50% by weight or more.
More preferably, 100% by weight are hydrophilic fibers. In addition, as the fiber other than the hydrophilic fiber , for example, rayon
Regenerated fiber such as fiber, semi-synthetic such as acetate fiber
Fiber, plant fiber like cotton, animal like silk, wool
Fiber, nylon fiber, vinylon fiber, acrylic fiber
Fiber, polyester fiber, polyvinylidene chloride fiber, poly
PVC fiber, polyurethane fiber, polyethylene fiber
Use synthetic fibers such as fibers and polypropylene fibers
Can be.

In the nonwoven fabric for wiping of the present invention, a fused fiber layer is formed between the ultrafine fiber layer and the hydrophilic fiber layer. The fused fiber layer gives strength not only when dry but also when wet, and gives shape retention, so that it is easy to wipe and has excellent wiping properties.

The heat-fusible fiber constituting the fused fiber layer may be a heat-fusible fiber composed of a single component, or a side-by-side composed of two or more resin components including a portion that is not fused by heat treatment. A composite type heat-fusible fiber such as a core type and a core-sheath type may be used. It is preferable that the fusion temperature of the heat-fusible fiber is lower by at least 10 ° C. than the melting point of any component of the ultrafine fiber so that the wiping property is not reduced by fusing the ultrafine fiber.

[0018] Polyethylene as a heat fusible fibers made from the single component, polypropylene, polyamide, polyester, polyvinyl chloride, can be exemplified fibers composed mainly of resins such as polyurethane resin hot-melt adhesive fiber composite As components, 6 nylon / polyethylene, polypropylene / polyethylene, polypropylene / ethylene-vinyl acetate copolymer, polyester / polypropylene, polyester / polyethylene, 6 nylon / 66 nylon, high melting point polyester / low melting point polyester, high density polyethylene / low density Combinations of polyethylene and the like can be exemplified, but not limited to these.

When the proportion of the heat-fusible fiber in the fused fiber layer is less than 20% by weight, the proportion of the heat-fusible fiber is too small and the heat-fusible fiber is uniform over the entire fused fiber layer. Since it is not possible to disperse the powder in a uniform manner and uniform strength and shape retention cannot be obtained, it is necessary to use 20% by weight or more.

The non-woven fabric for wiping of the present invention is not limited to these layers, but may vary the blending amount of ultrafine fibers, hydrophilic fibers or heat-fusible fibers so that each fiber amount has a gradient. Layers may be laminated, or layers of different types of ultrafine fibers, hydrophilic fibers or heat-fusible fibers may be laminated.

The present invention is a nonwoven fabric for wiping comprising the above-mentioned ultrafine fiber layer, fused fiber layer and hydrophilic fiber layer. After forming and laminating the fiber webs constituting each fiber layer, it is subjected to heat fusion. It can be obtained by fusing adhesive fibers.

[0022] The fibrous web of each layer carding, air-laying method, the spunbond method or the like, whatever may be formed by the method, but the case of forming a fiber web by a carding process, such that the fibers cross each other When oriented, it has uniform strength in all directions, and when oriented in one direction, it exhibits excellent strength in the orientation direction. Therefore, it is preferable that the heat fusible fibers are oriented so that the fibers cross each other by the air lay method or the card method, and that the fibers have uniform strength in all directions.

The nonwoven fabric for a wiper of the present invention is obtained by fusing the heat-fusible fibers to the laminated fiber web. The temperature at which the heat fusion is performed is preferably higher than the fusion temperature of the heat fusible fiber, and is preferably 10 ° C. or more lower than the melting point of any component of the ultrafine fiber. Also, for heat fusion,
Furnace, ventilation dryer, heat cylinder, infrared, etc. under no pressure
Do. Care must be taken so that the heat-fusible fibers do not seep into the ultrafine fiber layer and form a film, thereby reducing the wiping properties of the ultrafine fibers.

When the ultrafine fibers are obtained by mechanically dividing the easily splittable fibers, the easily splittable fibers may be split before laminating the fiber webs. By applying a mechanical action such as a water flow, simultaneously splitting the easily splittable fibers and entangled the laminated fiber webs, in addition to being able to bond more firmly, the number of steps can be reduced, so a more preferable manufacturing method It is.

The nonwoven fabric for wiping of the present invention obtained as described above is excellent in strength and shape retention, so that it is easy to wipe and excellent in wiping properties.

When the nonwoven fabric for wiping of the present invention is in a dry state, oily dirt can be wiped off on the ultrafine fiber layer side and aqueous dirt can be wiped off on the hydrophilic fiber layer side. In the wet state, it exhibits excellent wiping properties as in the dry state due to the shape retention property of the fused fiber layer, and when wiping on the microfiber layer side, the agent held in the hydrophilic fiber layer, etc. Oozes out to the fine fiber layer side, and the wiping property is dramatically improved.

The nonwoven fabric for wiping of the present invention can be used in a dry state or a wet state as described above, wipe glasses, wipe windows of automobiles and houses, wipe glass of office automation equipment such as copiers, and optical equipment such as cameras. Can be used for lenses, furniture and fingerprint wiping of pianos, etc.
It is not limited to these.

[0028] The following will be described an embodiment of the present invention, but is not limited to the following examples.

[0029]

EXAMPLES (Example 1) As easily separable fibers that produce ultrafine fibers constituting an ultrafine fiber layer, the fibers have a fiber cross section in which a polyamide component is radially arranged between polyester components, a fineness of 2 denier, and a fiber length of 38.
A fiber web having a basis weight of 15 g / m ² was obtained by a card method using 100% by weight of a chrysanthemum flower-type easily splittable fiber which can be divided into 8 parts in mm.

As the fused fiber layer, a fineness of 1.5 denier,
70% by weight rayon fiber having a fiber length of 38 mm, polyester fiber having a fineness of 2 denier and a fiber length of 51 mm (with a fusion temperature of 11
0 ° C) 30% by weight of cotton wool, and the basis weight is 20 by the card method.
A cross-oriented fiber web of g / m ² was obtained.

As the hydrophilic fiber layer, 100% by weight of rayon fiber having a fineness of 1.5 denier and a fiber length of 38 mm was used, and a fiber web having a basis weight of 10 g / m ² was obtained by a card method.

[0032] layered with the fused fiber layer these fiber web, by performing the entangling treatment by water flow pressure 10 to 70 kg / cm ^2, with an ultrafine fiber by dividing the easily dividable fibers, 3 The layers of fiber web were entangled. Thereafter, the entangled fiber web was treated with a ventilation dryer at a temperature of 160 ° C. to fuse the heat-fusible fibers to obtain a nonwoven fabric for wipers of the present invention.

[0033] (Comparative Example) was formed with the same ultrafine fiber layer as in Example 1, a fiber web comprising only hydrophilic fiber layer having a basis weight of 30 g / m ² obtained in the same manner as in Example 1 Same as Example 1 Water entanglement only,
A non-woven fabric for a wiper was obtained.

[0034] (Time of softness test) JIS standard, by a method analogous 6.19.1 Method A of L-1096-1990 (45 ° cantilever method), 2 × 1
The longitudinal and lateral rigidity of the nonwoven fabrics for wipers of Example 1 and Comparative Example cut to 5 cm are measured.

[0035] Wet (wet the softness test) 2 × 15cm to cut the Example 1 and Comparative Example nonwoven fabric for wipers of, after squeezed so as to be 1.5 times the moisture content of its own weight, as in the standard time Then, the vertical and horizontal rigidity are measured.

[0036] (Time tensile strength test) JIS standard, by a method analogous method A 6.12.1 of L-1096-1990, 5 × wipers of Examples 1 and <br/> Comparative Examples was cut into 20cm The vertical and horizontal tensile strength of the non-woven fabric is measured.

[0037] Wet (wet tensile strength test) 5 × 20 cm to cut the Example 1 and Comparative Example nonwoven fabric for wipers of, after squeezed so as to be 1.5 times the moisture content of its own weight, as in the standard time And the tensile strength in the longitudinal and transverse directions is measured.

[0038]

[Table 1]

[0039]

As described above, the nonwoven fabric for wiping of the present invention has an ultrafine fiber layer, so that fine stains can be wiped off.

Since the nonwoven fabric for wiping of the present invention has a hydrophilic fiber layer, water-based stains can be wiped and held by the hydrophilic fiber layer. In addition, in the wet state, the chemical solution or the like can be held, and the pressure of the hand at the time of wiping causes the chemical solution or the like to ooze into the ultrafine fiber layer, thereby greatly improving the wiping property.

The fused fiber layer of the present invention provide strength to the whole wiping nonwoven fabric for, dry, of course, to impart shape retention in the wet state. Therefore, it is a nonwoven fabric for wiping which is easy to wipe in any state and has excellent wiping properties.

Further, since the heat sealing layer of the present invention is not mixed with the ultrafine fiber layer but is substantially a layer, the wiping performance of the ultrafine fiber layer is not reduced.

[0043] In addition, fused fiber layer holds the oily soils which are wiped by the ultrafine fiber layer or the hydrophilic fiber layer.

Claims (1)

(57) [Claims] An ultrafine fiber having a fineness of 0.5 denier or less.
0 ultrafine fiber layer composed of by weight%, the hydrophilic fiber layer made mainly of hydrophilic fibers, and the fused fiber layer comprising heat fusible fibers located between these layers consists of at least three layers, wherein
The fused fiber layer is used to fuse the heat-fusible fibers without pressure.
A nonwoven fabric for wiping, wherein the nonwoven fabric is a formed layer .