JP2001179019A - Nonwoven fabric filter - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a nonwoven fabric filter high in the collection effect of pollen or dust, good in air permeability even if impregnated with a drug such as a pollinosis preventing drug or the like and excellent in actual feeling of effect and use feeling. SOLUTION: A nonwoven fabric filter is obtained by arranging hydrophilic fibers and/or hydrophobic fibers on at least the single surface of a hydrophobic nonwoven fabric and integrating them by water jet entanglement and the fineness of the fibers constituting the hydrophobic nonwoven fabric is 5-20 denier.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a filter for removing pollen, house dust and the like to reduce allergic symptoms.

[0002]

2. Description of the Related Art In recent years, hay fever, which is considered to be caused by scatter of a large amount of cedar pollen and hypersensitivity of mucous membranes due to air pollution accompanying urbanization, has become a serious problem. In addition, due to changes in housing conditions such as improvement in airtightness of houses, allergies due to house dust caused by mites and the like are increasing year by year. As a general preventive method for preventing such an allergen from being taken into the body, use of a product using filters is mentioned. Such products are classified into products intended for purifying indoor air, and products intended for purifying intake air when worn on a human body. Representative examples of the former include an air purifier and an air conditioner, but since they act on the environment, it is difficult to use them in a wide place or when moving. A typical example of the latter is a mask, which has the advantage that it can be used anywhere, not only indoors but also outdoors.However, general gauze masks are insufficient for capturing pollen and house dust, resulting in allergy. Symptom reduction effect is not enough. In response to such a situation, in recent years, many masks equipped with a high-performance filter for reducing allergic symptoms are commercially available. Representative examples include a filter containing activated carbon, a laminated filter, and an electrostatic filter (electret filter).

A filter containing activated carbon and a filter in which sheets of various materials are laminated (Japanese Patent Application Laid-Open No. Hei 8-170262) merely physically capture pollen and dust between voids and fibers of activated carbon. Therefore, pollen, house dust, and the like once collected may be re-scattered, and the effect is hardly exhibited.

[0004] The electrostatic filter uses polarized fibers, and electrically adsorbs negatively charged pollen and dust. However, since the action is electric, the effect is reduced or eliminated by applying moisture or washing, and the subsequent effect is the same as that of the laminated filter or the filter containing activated carbon. is there.

[0005] Therefore, in order to prevent the captured pollen from re-scattering and to maintain the effect, a moisturizing (water-retaining) type, ie, a type of mask that maintains a constant humidity (Japanese Utility Model Laid-Open No. 5-9555).
No. 56, Japanese Utility Model Application Laid-Open No. 6-70748, Japanese Utility Model Application Laid-Open No.
67460, JP-A-4-20362, and JP-A-2-274265) have been proposed. It is well known from experience that the use of a mask or mouth gauze for masks that has been wetted with water and squeezed has increased dust-collecting power. Impregnated, there is a problem that the air permeability becomes poor,
When the amount of liquid is reduced or the sheet with many voids is impregnated in order to secure the air permeability, there is a disadvantage that the effect of capturing pollen and dust is reduced.

On the other hand, for the purpose of symptomatic treatment of colds and hay fever, masks of the type impregnated with a fragrance, a cooling agent or various agents (Japanese Utility Model Laid-Open No. 6-66695, Japanese Utility Model Laid-Open No. 1-1)
33941, JP-A-58-157149,
JP-A-63-127644, JP-A-7-14822
No. 80) has also been proposed. These can be effective by giving the nose and throat a refreshing feeling and moistness, and they can alleviate the symptoms.However, this is not a fundamental symptom reduction, and the original trapping effect of the mask is improved. Not necessarily.

[0007]

As described above, the conventional product has a poor effect of realization and feeling of use because the effect of capturing pollen and dust is not sufficient or the air permeability is poor. . Accordingly, an object of the present invention is to provide a nonwoven fabric filter which has a high pollen and dust trapping effect, has good air permeability even when impregnated with a drug such as a hay fever preventive agent, and has an excellent effect and a feeling of use. It is in.

[0008]

Means for Solving the Problems As a result of intensive studies in view of the above-mentioned circumstances, the present inventors have found that hydrophilic fibers and / or hydrophobic fibers are arranged on at least one surface of a hydrophobic nonwoven fabric having a specific fineness. By impregnating a liquid material such as a pollen preventive agent into the nonwoven fabric filter integrated, a filter sheet having excellent air permeability while maintaining the filter effect of capturing dust and pollen has been invented.

That is, the present invention provides the following (1) to (4)
Exists. (1) A nonwoven fabric filter in which hydrophilic fibers and / or hydrophobic fibers are arranged on at least one surface of a hydrophobic nonwoven fabric and integrated by hydroentanglement, wherein the fineness of the fibers constituting the hydrophobic nonwoven fabric is 5 to 20. A nonwoven fabric filter having a denier thickness. (2) The hydrophobic non-woven fabric has a weight of 2
The nonwoven fabric filter according to the above (1), wherein the nonwoven fabric filter is impregnated with a liquid agent in an amount of up to 4 times. (3) The nonwoven fabric filter according to the above (2), wherein the impregnating solution is a hay fever preventing agent. (4) The nonwoven fabric filter according to any one of the above (1) to (3), wherein the outermost layer is covered with a hydrophobic nonwoven fabric.

[0010]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The nonwoven fabric filter of the present invention has, for example, a structure in which hydrophilic fibers or hydrophobic fibers are arranged on one surface of a hydrophobic nonwoven fabric, or a structure in which hydrophilic fibers or hydrophobic fibers are arranged on both surfaces of a hydrophobic nonwoven fabric. Structure, structure in which hydrophilic fibers (or hydrophobic fibers) are arranged on one side of a hydrophobic nonwoven fabric and hydrophobic fibers (or hydrophilic fibers) are arranged on the other surface, hydrophilic fibers on one or both sides of a hydrophobic nonwoven fabric And a structure in which a mixed fiber of a hydrophilic fiber and a hydrophobic fiber is disposed, or a structure in which one surface is a mixed fiber of a hydrophilic fiber and a hydrophobic fiber in the above structure.

Next, the structure of the nonwoven fabric filter of the present invention will be described with reference to the drawings. FIG. 1 is a schematic cross-sectional view showing one embodiment of the nonwoven fabric filter of the present invention. A hydrophilic fiber (or hydrophobic fiber) 2a is arranged on one surface of a hydrophobic nonwoven fabric 1, and the hydrophobic nonwoven fabric 1 is Fiber (or hydrophobic fiber)
2a are entangled and integrated by water entanglement described later. Here, since the shape of the hydrophobic nonwoven fabric 1 itself does not change even after the entanglement, a tentative layer structure can be recognized by the boundary 3, but in practice, each hydrophilic fiber (or hydrophobic fiber) 2 a exceeds the boundary 3. And penetrates deeply into the hydrophobic nonwoven fabric 1 and is intertwined. FIG. 2 schematically shows the entangled state of the fibers beyond the boundary 3, in which the hydrophilic fibers (or hydrophobic fibers) 2a penetrate deep into the hydrophobic nonwoven fabric 1 beyond the boundary 3, and This shows a state where it is entangled with the nonwoven fabric 1. FIG. 3 is a schematic cross-sectional view illustrating another embodiment of the nonwoven fabric filter of the present invention. In this aspect,
On one surface of the hydrophobic nonwoven fabric 1, hydrophilic fibers (or hydrophobic fibers) 2a are arranged, and on the other surface, mixed fibers 2b of hydrophilic fibers and hydrophobic fibers are arranged.

The fibers used as the hydrophobic non-woven fabric are not particularly limited. For example, polyolefins such as polyethylene and polypropylene, polyesters such as polyethylene terephthalate and polybutylene terephthalate, nylon 6, nylon 66 and nylon 4
Fibers of thermoplastic synthetic resins such as polyamide-based resins such as No. 6 and the like, polyvinyl chloride, polyvinylidene chloride, polystyrene, polycarbonate, polyvinylidene fluoride and the like are preferred, and polyolefin-based and polyester-based resins are more preferred. Also, a mixed fiber of two or more kinds of fibers can be used. The fineness of the fiber constituting the hydrophobic nonwoven fabric is 5 to 2
It is preferable to use about 0 denier, especially 10 to 20 denier. If the fineness is less than 5 denier,
The porosity of the nonwoven fabric filter tends to be small, and the air permeability tends to be low. On the other hand, when it is larger than 20 denier, the nonwoven fabric filter becomes hard and tends to lack the fit to the mouth. Nonwoven fabrics made of thermoplastic synthetic resin fibers and the like as described above are manufactured by various known manufacturing methods such as a spunbond method, a spunlace method, and a melt blow method. Non-woven fabrics are preferred. The basis weight of the nonwoven fabric is not particularly limited, but is preferably 10 to 100 g / m ² , and 20 to 60 g / m ^2.
g / m ² is more preferred. If the basis weight is less than 10 g / m ² , the formation tends to be uneven and the performance of the nonwoven fabric filter tends to vary, and if it exceeds 100 g / m ² , the nonwoven fabric filter tends to be hard.

The hydrophilic fibers disposed on one or both sides are not particularly limited. For example, cellulosic fibers such as regenerated cellulose fibers such as pulp, cotton, cupra, viscose rayon, polynosic rayon, etc. Is preferred, and rayon is more preferred. Also, 2
Mixed fibers of more than one kind of fiber can also be used. The fineness of the hydrophilic fiber is not particularly limited, but those having a denier of 0.8 to 3.0, which are generally used, can be suitably used. If the fineness is less than 0.8 denier, the fibers tend to be dense and the air permeability tends to decrease, and if it exceeds 3.0 denier, the fit tends to decrease.

The hydrophobic fibers disposed on one side or both sides are not particularly limited. For example, thermoplastic synthetic fibers such as polyolefins such as polyethylene and polypropylene, and polyesters such as polyethylene terephthalate and polybutylene terephthalate can be used. , Nylon 6,
Nylon 66, polyamide fibers such as nylon 46, polyvinyl chloride, polyvinylidene chloride, polystyrene, polycarbonate, polyvinylidene fluoride and the like fibers are used, preferably polyolefin fibers, polyester fibers, more preferably polyester fibers. Polyethylene terephthalate is used. Also, a mixed fiber of two or more kinds of fibers can be used. Further, these fibers may be subjected to a hydrophilic treatment with a surfactant or the like. The fineness of the hydrophobic fiber is not particularly limited, but is preferably 0.8 to 3.0 denier. If the fineness is less than 0.8 denier,
Fibers tend to be dense and air permeability tends to decrease, and 3.0
If it exceeds denier, the fit tends to decrease.

As a method for producing a nonwoven fabric filter, a web of hydrophilic fibers and / or hydrophobic fibers is formed on one or both sides of a hydrophobic nonwoven fabric, and a high-pressure jet stream is jetted from one or both sides of the nonwoven fabric. The hydroentanglement method in which the hydrophobic nonwoven fabric of the layer is entangled with the fiber web on one or both sides is preferred. In a method other than the hydroentanglement method, for example, the thermal bond method or the chemical bond method, the fibers are bonded to each other to harden the filter, and the hydrophilic and / or hydrophobic fibers do not enter the interior of the hydrophobic nonwoven fabric. The impregnating property when impregnated with the prophylactic agent is undesirably reduced.

The weight per unit area of the nonwoven fabric filter is preferably in the range of 50 to 200 g / m ² , and 80 to 13 g / m ^2.
A range of 0 g / m ² is more preferred. When the weight per unit area is less than 50 g / m ² , pollen trapping property is reduced, and 200
If it exceeds g / m ² , the fit will be undesirably reduced.

The thickness of the nonwoven fabric filter is 0.5 to 20.
mm is preferable, and the thickness of the hydrophobic nonwoven fabric layer is preferably about 0.1 to 1.0 mm (when measured with a load of 8 g / cm ² using a Peacock upright dial gauge). .

The nonwoven fabric filter of the present invention can be impregnated with water or another liquid agent. This is preferable because the re-scattering of the captured pollen is prevented, and at the same time, the nose and throat are replenished with moisture and the effect of alleviating the symptoms is improved.
As a liquid, for example, water, hay fever prevention agent, various flavors,
A cooling agent compounding liquid can be mentioned. Here, the hay fever preventive agent is, for example, a substance having an action of adsorbing pollen, a component having an action of inactivating antigens, and the like. Components that can be activated are included. For example, the average particle diameter measured by the dynamic light scattering method is 1 to 5000 nm, the absolute value of the zeta potential measured by the electrophoretic light scattering method is 30 mV or more, and the purity determined by the powder X-ray diffraction method is 90.
% Of a water-swellable viscosity mineral is preferable (Japanese Patent Application Laid-Open No. 9-157152, Japanese Patent Application No. Hei 1-157152).
No. 0-196798). Specific examples of particularly preferable ones include guanidine derivatives or smectite clay minerals (bentonite, montmorillonite, saponite, etc.).
Is mentioned. By impregnating the hay fever preventive agent, pollen can be more firmly adsorbed and the antigen can be deactivated, and a more sophisticated filter can be obtained.

The optimum amount of impregnation with water or other liquid agent is 2 to 4 times the weight of the hydrophobic nonwoven fabric. When the amount is less than 2 times, the adsorption and deactivation of pollen is not sufficient, and when the amount exceeds 4 times, the air permeability is reduced, and the breathing becomes difficult when used.

When the nonwoven fabric filter of the present invention is used as a filter impregnated with water or another liquid agent, the outermost layer is further made of a hydrophobic nonwoven fabric in order to prevent the mask and the skin from directly wetting and to improve the usability. Can be covered. The fibers constituting the hydrophobic nonwoven fabric are not particularly limited. For example, thermoplastic synthetic fibers such as polyethylene and polyolefin fibers such as polypropylene, polyethylene terephthalate, polyesters such as polybutylene terephthalate, nylon 6, nylon 66, Fibers such as polyamide fibers such as nylon 46, polyvinyl chloride, polyvinylidene chloride, polystyrene, polycarbonate, and polyvinylidene fluoride are preferable, and polyolefin fibers and polyester fibers are particularly preferable. The fineness of the constituent fibers is not particularly limited, but is preferably 0.5 to 30 denier. The hydrophobic nonwoven fabric, spunbond method, spunlace method, melt blow method, those manufactured by various known manufacturing methods such as thermal bonding method can be used,
Spunbonded nonwoven fabrics are preferred because they prevent seepage of water and other liquids from the filter and do not reduce air permeability. The basis weight of the hydrophobic nonwoven fabric in this case is 2
About 0 to 60 g / m ² is preferable.

The method of covering the non-woven fabric filter with the above-mentioned hydrophobic non-woven fabric is not particularly limited, and includes a method of adhering and / or fusing to both layers of the non-woven filter, a method of sandwiching the non-woven filter, and a method of covering the non-woven filter with a bag-shaped hydrophobic filter. Examples of the method include a method of placing the resin in a non-woven fabric.

The nonwoven fabric filter of the present invention can be used, for example, as a filter for a mask, a filter for an air purifier, a filter for an air conditioner, and the like. When a non-woven fabric filter covered with a hydrophobic non-woven fabric is used as a filter for a mask, the filter may be used by directly contacting the inside of the mask. It is desirable. The means for preventing displacement is not particularly limited, and examples thereof include a method of using a fiber having a high coefficient of friction as a fiber constituting the hydrophobic nonwoven fabric, a method of raising the hydrophobic nonwoven fabric, and a method of using a magic tape or an adhesive tape. And a method of forming a pocket in a mask and putting it inside.

[0023]

Next, the present invention will be described in more detail with reference to examples and test examples, but the present invention is not limited to these examples.

Example 1 A nonwoven fabric filter having the composition shown in Tables 1 and 2 (Product 1 of the present invention)
To 9 and Comparative products 1 to 7) were produced and evaluated for pollen trapping property, breathlessness, impregnation property when impregnating the hay fever preventive agent, and fit. The nonwoven fabric filter comprises a hydrophobic nonwoven fabric (A to A).
A hydrophilic fiber (R), a hydrophobic fiber (P, N) or a mixture of these at a fixed ratio was arranged on both surfaces or one surface of F), and a mixture obtained by hydroentanglement was used. The results are shown in Tables 1 and 2. The symbols in the table have the following meanings. Hydrophobic nonwoven fabric (polypropylene spunbond nonwoven fabric) A: 18 denier, 50 g / m ² B: 11 denier, 50 g / m ² C: 11 denier, 80 g / m ² D: 6 denier, 50 g / m ² E: 3 denier, 50 g / m ² F: 22 denier, 50 g / m ² hydrophilic fiber R: rayon fiber (1.5 denier) Hydrophobic fiber P: polyester fiber (1.5 denier) N: polyethylene / polyester composite fiber (1.5 Denier)

<Evaluation method> Pollen trapping property: 20 mg of pollen was allowed to flow through the sample filter while being suctioned by an aspirator, and the pollen trapping rate was calculated from the amount of pollen that passed, and evaluated according to the following criteria. (Evaluation criteria) ：: 80% or more ○: less than 80%, 60% or more △: less than 60%, 30% or more ×: less than 30%

2. Breathlessness: Sensory evaluation of breathlessness when breathing while covering the nose and mouth with a filter cut to 75 × 75 mm was performed according to the following criteria. (Evaluation criteria) ：: Not stuffy at all ：: Not stuffy や: Slightly stuffy ×: stuffy

3. Impregnation: A filter cut to 75 × 75 mm was impregnated with a three-fold amount of a hay fever preventive agent, and was subjected to a sensory evaluation of liquid absorption and diffusibility according to the following criteria. (Evaluation criteria) ：: Both liquid absorbability and diffusivity are good △: Both liquid absorbency and diffusivity are slightly poor ×: Neither liquid absorbability nor diffusivity is good

4. Fit: The sensory evaluation of the fit to the face when used while applied to the inside of the mask was performed according to the following criteria. (Evaluation criteria) ◎: Very good fit ○: Good fit △: Somewhat poor fit ×: Poor fit

[0029]

[Table 1]

[0030]

[Table 2]

Example 2 Non-woven fabric filter impregnated with a liquid agent having the composition shown in Table 3
(Products 10 to 14 of the present invention) to produce pollen trapping and breathlessness
The quality was evaluated. Table 3 shows the results. In addition, use
Non-woven filters are polypropylene spunbonded
Woven cloth (50g / m ^Two11d), polyester on both sides
(1.5d) / rayon (1.5d) = 50/50 mixture
30 g / m for each synthetic fiber^TwoAre arranged one by one, and they are united by water confounding
Was used. In addition, about pollen deactivation activity,
Cedar pollen deactivation was evaluated using the impregnating agent alone.

<Evaluation Method> Pollen capture and breathlessness were evaluated in the same manner as described above. 2. Pollen inactivation: 0.1 mg of arginine in 30 mg of cedar pollen
%, 5cc of the liquid agent, and left at 40 ° C for 1 hour.
The amount of antigen was measured by ELISA using human serum IgE and evaluated according to the following criteria. (Evaluation criteria) ：: The amount of antigen is reduced compared to the blank ×: The amount of antigen is not reduced compared to the blank

[0033]

[Table 3]

Example 3 A hydrophobic non-woven fabric was prepared according to the composition and production method shown in Table 4, and the hydrophobic non-woven fabric was covered with a liquid agent-impregnated non-woven fabric filter.
5-20) were prepared. This filter was evaluated for seepage of the impregnating solution, skin contact, and breathlessness according to the following criteria. In addition, the nonwoven fabric filter has a polyester (1.5 d) / rayon (1.5 d) on both sides of a polyethylene spunbond nonwoven fabric (50 g / m ² , 11 d).
d) = 50/50 fibers were distributed in an amount of 30 g / m ² each and integrated by hydroentanglement. In addition, the impregnating liquid agent includes benite (particle diameter 200 nm, purity 98%,
(Zeta potential absolute value 45 mV) 0.3%, 1,3-butylene glycol 20.0%, methyl parahydroxybenzoate 0.2%, pyrocton olamine 0.005%, sodium carbonate 0.045%, fragrance 0. A composition having a composition of 03% and a balance of purified water was used, and the impregnation ratio into the nonwoven fabric filter was set to 3 times. Further, the outermost hydrophobic nonwoven fabric was formed into a bag shape by three-way heat sealing, and a liquid agent-impregnated nonwoven fabric filter was inserted and used. The symbols in the table have the following meanings. <Composition> PP: polypropylene PE / PET: polyethylene / polyester composite fiber LLDPE: low-density polyethylene <Production method> SB: Spunbond method TB: Thermal bond method, MB: Melt blow method SR: Water entanglement method

<Evaluation Method> The breathlessness was evaluated in the same manner as described above. 2. Exudation of the impregnating solution: The exuding of the impregnating solution onto the face and the mask when used while being applied to the inside of the mask. (Evaluation criteria) ：: No oozing at all ：: Slight oozing, but not bothersome ×: Oxygen oozing out Skin contact: When applied to the inside of the mask,
The skin contact was sensory evaluated according to the following criteria. (Evaluation criteria) ○: good skin contact △: slightly poor skin contact ×: poor skin contact

[0036]

[Table 4]

[0037]

As described above, the nonwoven fabric filter of the present invention has an excellent pollen and dust trapping effect, does not re-scatter trapped pollen and dust, has good air permeability, and has good fit. is there.

[Brief description of the drawings]

FIG. 1 is a schematic view showing a cross section of one embodiment of the nonwoven fabric filter of the present invention.

FIG. 2 is a schematic diagram illustrating a state of entanglement of fibers beyond a boundary.

FIG. 3 is a schematic view showing a cross section of another embodiment of the nonwoven fabric filter of the present invention.

[Explanation of symbols]

 1: hydrophobic nonwoven fabric 2a: hydrophilic fiber (or hydrophobic fiber) 2b: mixed fiber 3: boundary

 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Kazuyuki Miki, Inventor 1-3-7 Honjo, Sumida-ku, Tokyo Inside Lion Corporation (72) Inventor Joji Tsugumura 1-3-1, Honjo, Sumida-ku, Tokyo No. 7 Lion Corporation F term (reference) 2E185 AA07 BA02 CC73 4D019 AA01 BA13 BB03 BC13 BC20 DA03

Claims (4)

[Claims] 1. A nonwoven fabric filter in which hydrophilic fibers and / or hydrophobic fibers are arranged on at least one surface of a hydrophobic nonwoven fabric and integrated by hydroentanglement, wherein the fineness of the fibers constituting the hydrophobic nonwoven fabric is 5%. A nonwoven fabric filter having a thickness of about 20 denier. 2. The nonwoven fabric filter according to claim 1, wherein the hydrophobic nonwoven fabric is impregnated with a liquid agent in an amount of 2 to 4 times the weight of the hydrophobic nonwoven fabric. 3. The nonwoven fabric filter according to claim 2, wherein the impregnating solution is a hay fever preventive agent. 4. The nonwoven fabric filter according to claim 1, wherein the outermost layer is covered with a hydrophobic nonwoven fabric.