JP2006204902A - Deodorizing method for fibers, and laundry bag - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a deodorizing method in which smell of objects to be washed before washing is prevented from being diffused in surroundings and odor preventing effect is given to the fibers without spoiling detergency upon washing, and to provide a laundry bag. <P>SOLUTION: Fibers are housed in a laundry bag comprising a warm water-soluble film containing a deodorant and washed in a washing solution at ≥45°C. Fibers are housed in a laundry bag comprising an alkaline water-soluble or alkaline water-decomposable film containing a deodorant, and washed in a washing solution of ≥8.5 pH. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a method for deodorizing and deodorizing fibers, and a laundry bag.

For example, Patent Document 1 below discloses a method of storing an object to be cleaned in a laundry bag, washing and sterilizing the laundry bag together with the laundry bag, and a laundry bag usable in the method. The laundry bag described here has cold water resistance and moisture resistance near room temperature, and is formed of a material that dissolves in hot water or hot water during cleaning and sterilization.
Japanese Patent Laid-Open No. 2001-219941

A conventional laundry bag can be cleaned without being in direct contact with the object to be cleaned, but does not give a deodorizing effect to the object to be cleaned.
The present invention is capable of preventing the smell of the object to be cleaned before washing from diffusing to the surroundings, and imparting a deodorizing effect that makes it difficult to smell fibers without impairing the washing power during washing and The purpose is to provide laundry bags.

In order to solve the above-mentioned problems, the fiber deodorization method of the present invention is to store the fibers in a laundry bag made of a warm water-soluble film containing a deodorant and wash it in a cleaning solution at 45 ° C. or higher. Features.
Alternatively, the fiber is stored in a laundry bag made of an alkaline water-soluble or alkaline water-disintegrating film containing a deodorant, and washed in a cleaning solution having a pH of 8.5 or more, and the fiber is deodorized. It is.
The present invention also provides a laundry bag in which a warm water-soluble, alkaline water-soluble, or alkaline water-disintegrating film containing a deodorant is formed into a bag shape.

According to the deodorizing method of the present invention, it is possible to prevent the odor of the object to be cleaned before cleaning from diffusing to the surroundings, and to impart a deodorizing effect in which fibers are not easily smelled without impairing the cleaning power at the time of cleaning. be able to.
According to the laundry bag of the present invention, it is possible to prevent the smell of the object to be cleaned before cleaning from spreading to the surroundings. Further, by storing and washing the fibers in the laundry bag, it is possible to impart a deodorizing effect that makes it difficult for the fibers to smell without deteriorating the detergency during washing.

The deodorant used in the present invention has an effect of reducing or removing the odor by chemically reacting with the odor component.
For example, synthetic deodorants such as photocatalysts, plant essential oils, plant extracts, and glyoxal can be used. Among these, a photocatalyst is preferable.
Specific examples of the photocatalyst include Se, Ge, Si, Ti, Zn, Cu, Al, Sn, Ga, In, P, As, Sb, C, Cd, S, Te, Ni, Fe, Co, Ag, and Mo. , Sr, W, Cr, Ba, Pb and other compounds such as oxides which are insoluble in water. In particular, at least one selected from titanium oxide, zinc oxide and tungsten oxide is preferable.

  Although the usage-amount of a deodorizer is not specified in particular, 0.001 mass%-40 mass% are preferable with respect to the total mass of a laundry bag, and 0.005 mass%-20 mass% are more preferable. By making the usage-amount of a deodorizer more than the lower limit of the said range, favorable odor spreading | diffusion prevention property is obtained and favorable deodorizing property can be provided to fibers. On the other hand, as the amount of the deodorant increases, these effects are improved, but the strength of the film constituting the bag tends to decrease.

The adsorbent used in the present invention has an effect of reducing or removing the odor by physically adsorbing the odor component.
For example, an inorganic porous material, activated carbon, graphite or the like is used.
Examples of the inorganic porous material include layered compounds such as aluminosilicate (aluminosilicate), phyllosilicate, and smectite, zeolite, porous silica, and apatite.
By adding an adsorbent to the film in addition to the deodorant, the odor component is fixed and the effect of the deodorant can be exhibited synergistically.
In particular, apatite is preferable in that it is excellent in protein adsorption and can provide an infection prevention effect due to the adsorption effect of bacteria and viruses.

  The amount of the adsorbent used is not particularly specified, but is preferably 0.001% by mass to 50% by mass and more preferably 0.01% by mass to 30% by mass with respect to the total mass of the laundry bag. By setting the amount of the adsorbent to be not less than the lower limit of the above range, good odor diffusion prevention property can be obtained, and good deodorization property can be imparted to the fibers. On the other hand, as the amount of adsorbent increases, these effects are improved, but the film strength tends to decrease.

The form of the deodorant and the adsorbent is not particularly limited, but it is preferable that the deodorant is contained in the film in a state where the deodorizer is contained (for example, impregnated or included) in the adsorbent.
For example, when a plant extract or plant oil is used as a deodorant, these are contained in an adsorbent, preferably impregnated, thereby suppressing the deterioration and volatilization of the deodorant.
Further, when using a photocatalyst as a deodorant, it is possible to avoid the photocatalyst from coming into direct contact with the adsorbent, preferably by inclusion, and to suppress the decomposition of the film. There is an effect of maintaining the strength of the film.
For example, as proposed in JP-A-11-76835, photocatalyst fine particles having a primary particle diameter in the range of 0.001 to 0.3 μm are made of aluminosilicate at a ratio of 0.01 to 70% by mass. The photocatalyst fine particle-containing aluminosilicate particles contained in the particles can be suitably used.

As the hot water-soluble film used in the present invention, a film that dissolves in hot water of 45 ° C. or higher is used. When the dissolution temperature of the hot water-soluble film is lower than 45 ° C., when the laundry bag is stored under high temperature and high humidity conditions, the film collapses before washing, which is not preferable.
In the present invention, “dissolution” means that 0.5 g of film is dissolved in 1 liter of water at 50 ° C. within 10 minutes, preferably within 7 minutes, and the solution after dissolution is passed through a sieve of No. 8.6 (Pharmacopeia: 2000 μm). ) Means that no residue remains. In addition, although it melt | dissolves in water and the shape of a film is not fastened, suppose that the state in which a residue remains when it passes through the said sieve is called "collapse".

Specific examples of the hot water soluble film include polyvinyl alcohol, polyvinyl pyrrolidone, pullulan, polyacrylamide, polyethylene oxide, polyvinyl methylene ether, xanthan gum, gar gum, collagen, carboxymethyl cellulose, hydroxypropyl cellulose and hydroxyethyl cellulose, and polyacrylic acid or its Organic polymer having carboxyl group and / or sulfonic group such as salt, polymethacrylic acid or salt thereof, polyitaconic acid or salt thereof and / or salt thereof, homopolymer of N-vinylacetamide or N-vinylacetamide and vinyl Examples thereof include a film obtained by blending a copolymer with a monomer with a compound having a polyoxyalkylene group which is a water-soluble plasticizer.
In particular, polyvinyl alcohol or polyvinyl alcohol modified with maleic acid or itaconic acid is preferred.

The alkaline water-soluble or alkaline water-disintegratable film used in the present invention is one that dissolves or disintegrates in an aqueous solution or aqueous dispersion having a pH of 8.5 to 14 and a temperature of 5 to 100 ° C.
As a specific example, a film containing an alkaline water-soluble or alkaline water-disintegrating polymer such as carboxymethyl cellulose (CMC) polymer, enteric polymer, modified PVA (polyvinyl alcohol) as a constituent component can be mentioned.
In addition, films containing hydroxyalkyl alkyl cellulose or cellulose acetate, hydroxyethyl methyl cellulose, hydroxyethyl ethyl cellulose, hydroxypropyl methyl cellulose, etc., films containing polypropylene fiber and water-insoluble or poorly water-soluble carboxymethyl cellulose or carboxyethyl cellulose, etc. Can also be suitably used.

  The thickness of the film constituting the laundry bag is not particularly limited, and can be appropriately selected depending on the size, application, usage form, etc. of the laundry bag. A preferable range is about 5 to 200 μm, and a more preferable range is about 10 to 100 μm.

The manufacturing method of the film which comprises a laundry bag is not specifically limited, A suitable manufacturing method can be used according to the magnitude | size, thickness, use, etc. of a laundry bag. In general, known film forming methods such as a hot melt molding method, a cast film forming method from a solution, a gel film forming method, and a wet film forming method are used.
In particular, in the case of a hot water soluble film, the hot melt molding method is particularly preferable. Compared to other methods, the hot melt molding method is not only relatively inexpensive to manufacture, but the film is crystallized in the process of being cooled from the molten state, thereby improving cold water resistance, moisture resistance, strength, etc. Therefore, this is a suitable method for obtaining a film constituting a laundry bag.
Here, there are no particular limitations on the type of hot melt molding method, and any known method can be used as long as the resin is heated to a temperature equal to or higher than the melting point or softening point and shaped into a film. Examples include T-die extrusion molding, inflation molding, calendar molding, and the like, but the inflation molding method is particularly preferable from the viewpoint of cold water resistance, moisture resistance, manufacturing cost, and the like.

  And the method of making a film contain a deodorizer or an adsorbent can use the method of heat-melting a film raw material, and adding and mixing there, for example.

The shape of a laundry bag should just be a bag shape which has an opening part, and is not specifically limited. For example, it can be made into a bag shape having a quadrangular shape, three of which are closed and the other side is an opening. A laundry bag having such a shape is, for example, a method for sealing one opening of a film formed into a cylindrical shape, a method for folding one rectangular film in two and sealing two sides, and a method for sealing two rectangular films. It can be manufactured by a method of overlapping and sealing three sides.
The method for closing the portion other than the opening is preferably a method that does not impair the solubility or disintegration property of the laundry bag. For example, a heat sealing method, a pressure bonding method, and the like can be given.
The size of the laundry bag is not particularly limited, but is usually used in a range of 5 to 200 cm in width and 10 to 500 cm in length.

  Moreover, it is preferable that the opening part of a laundry bag can be sealed substantially air-tightly after putting a to-be-cleaned object. The type of sealing means for the opening is not limited as long as the inside of the laundry bag can be hermetically sealed. For example, chucking, adhesive, folding or binding sealing, or clipping is used. Etc. From the standpoint of convenience at the site of use and manufacturing cost, it is particularly preferable to attach a string that binds the mouth of the bag in the vicinity of the opening. In that case, the string is preferably water-soluble, and is particularly preferably a vinyl alcohol polymer. Further, the vinyl alcohol polymer may be the same as or different from the laundry bag of the present invention. Preferably, it is more water-soluble at a lower temperature and faster in dissolution rate than the vinyl alcohol polymer used in the bag. The reason is that the string part dissolves faster during washing and the mouth opens, so that the dissolution time of the entire laundry bag can be shortened.

When using the laundry bag of the present invention, fibers are accommodated therein, and the opening is preferably closed airtight. It can be stored or transported in this state. When washing the fibers inside, the laundry bag can be put into the washing liquid and washed.
The fibers are not particularly limited, and various types of fibers that are generally used for washing, such as woven fabrics, non-woven fabrics, and clothing, are applicable.

  When the laundry bag is made of a hot water-soluble film, hot water of 45 ° C. or higher is used as the cleaning liquid. The temperature of the hot water is preferably 50 ° C to 90 ° C, more preferably 50 ° C to 85 ° C. If the temperature of the cleaning solution is lower than the above range, the film (laundry bag) does not dissolve sufficiently, resulting in uneven adhesion to the object to be cleaned, which may cause partial curing after drying, The odorant is not sufficiently released into the cleaning solution, and the fiber deodorizing effect is insufficient. If the temperature of the cleaning liquid exceeds the above range, the fibers of the object to be cleaned may be deteriorated. In particular, when washing fibers made of cotton and polyester blends, the temperature of the washing liquid is preferably about 55 ° C.

  When the laundry bag is made of an alkaline water-soluble or alkaline water-disintegrating film, a cleaning solution having a pH of 8.5 or higher is used. The preferable range of the pH of the cleaning liquid is pH 9.0 to 13.0, more preferably 9.5 to 12.0. If the pH value of the cleaning liquid is smaller than the above range, the film (laundry bag) is not sufficiently dissolved, and as a result, uneven adhesion to the object to be cleaned may occur and partial curing may occur after drying. . Further, if the pH of the cleaning liquid is too high, it is not preferable because it leads to deterioration of the fibers of the object to be cleaned, and it is necessary to increase the number of rinsing steps and the amount of water used. The temperature of the cleaning solution having a pH of 8.5 or higher is not particularly limited, and there is no problem such as a residue after cleaning as long as it is normal temperature (20 ° C.) or higher. The higher the temperature, the better the solubility.

By storing the fibers in the laundry bag of the present invention, the odor generated from the fibers is prevented from diffusing outside the laundry bag. By closing the opening of the laundry bag in an airtight manner, the odor diffusion preventing property is further improved. This is presumed to be because the deodorant or adsorbent contained in the film constituting the laundry bag decomposes or adsorbs odorous components generated from the fibers.
Further, when the laundry bag is washed in the washing liquid with the fibers stored, the laundry bag is dissolved or disintegrated in the washing liquid, and the fibers are washed. At this time, by putting the laundry bag into the cleaning liquid, the cleaning power for the fibers does not decrease.
In addition, by putting the fibers together with the laundry bag into the cleaning liquid for cleaning, a deodorizing effect is imparted that makes it difficult for the fibers to be smelled after being cleaned. This is presumed that the deodorant or adsorbent contained in the laundry bag dissolved or disintegrated in the cleaning solution adheres to the fibers and exhibits a deodorizing effect. When a photocatalyst is used as a deodorant, an antibacterial effect is obtained in addition to the deodorizing effect.
The laundry bag of the present invention is useful for transporting and washing, for example, fibers to which excrement adheres and fibers that generate an aging odor.
The laundry bag of the present invention is suitable for use in hospitals, and pathogens and viruses attached to fibers can be enclosed in the laundry bag together with the fibers. Moreover, when a photocatalyst is used as a deodorant, the bactericidal effect in a laundry bag is also exhibited. Therefore, nosocomial infections caused by pathogenic bacteria and viruses attached to fibers such as linen and secondary infections to linen carriers can be suppressed.

Hereinafter, the present invention will be described in more detail using examples, but the present invention is not limited to these examples.
<Laundry bag manufacturing method A>
A warm water-soluble film containing a deodorant was produced and formed into a bag shape to obtain a laundry bag (hereinafter sometimes simply referred to as a bag).
First, a predetermined amount of deodorant was mixed with a finely cut vinylon film (Kuraray Co., Ltd., Claria), and a pellet was prepared by melt-kneading at 225 ° C. using a twin-screw extruder. Using this pellet, inflation molding was performed at a cylinder temperature of 225 ° C. to obtain a cylindrical film A having a thickness of 25 μm and a folding width of 30 cm. After cutting this to a length of 45 cm, one side was heat-sealed to form a bag to form a bag body. Separately, an opening binding string (width: 3 cm, length: 20 cm) made of the same material as the film A is prepared, and this string is placed near one end of the string ( A length of about 3 cm) was attached to the bag body by heat sealing to obtain a laundry bag.

<Laundry bag manufacturing method B>
An alkaline water-soluble film containing a deodorant was produced and formed into a bag shape to obtain a laundry bag.
First, fibrous CMC-H (etherification degree DS = 0.65, manufactured by Nichirin Chemical Co., Ltd.) 37.5% by mass, fiber length 3-20 mm NBK pulp (coniferous bleached kraft pulp) 57.5% by mass, and place A mixed papermaking raw material consisting of a fixed amount of deodorant was made into a 1% slurry solution and sufficiently stirred and dispersed. Then, under stirring at 150 rpm by a three-one motor, 5% by mass of a 10% sulfuric acid band aqueous solution as a coagulant per raw material. % Was added and stirred for 3 minutes. Further, 0.15 anionic polyacrylamide solution (Hi Holder, Kurita Kogyo) was added at 0.02% by mass per raw material, stirred for 3 minutes, diluted to a 0.5% slurry solution, and a rectangular sheet machine (Kumaya) Hand-made sheet (basis weight average 60 g / m ² ) was prepared by Rikiki Kogyo Co., Ltd. The obtained sheet was dried with a roll rotary dryer at 105 ° C., and a vinyl acetate emulsion having an average polymerization degree of 500 (solid content concentration of 40% by mass) was applied and impregnated on this sheet-like substrate to form a polymer layer. Thus, a laminated film B was obtained. Furthermore, this laminated film B was cut into a size of 30 cm × 45 cm (one side was folded), and heat-sealed on two sides to form a bag to form a bag body. Separately from this, an opening-binding string (width 3 cm, length 20 cm) made of the same material as the laminate is prepared, and this string is placed near one end of the string ( A length of about 3 cm) was attached to the bag body by heat sealing to obtain a laundry bag.

Hereinafter, evaluation methods used in Examples and Comparative Examples will be described.
<Odor diffusivity evaluation method>
After putting 10 g of absorbent cotton in which 0.5 g of ammonia water was infiltrated into the laundry bag, the opening was bound with an attached tie string, and the absorbent cotton was enclosed in the bag. After leaving in the sun for 1 hour, the bag was moved indoors. The panelists approached the nose to a position of about 10 cm from the bag, and evaluated according to the following criteria. Five panelists evaluated each, and the average score was defined as odor diffusibility.
5 points: Strong smell.
4 points: Strong smell.
3 points: Smell that can be easily detected.
2 points: A weak smell that can be seen from any smell.
1 point: The smell that can finally be detected.
0 point: odorless.

<Evaluation method of breaking strength>
The film A or the laminated film B used for the production of the laundry bag is subjected to light exposure treatment (total ultraviolet ray amount: 22.7 mJ / m ^{2 in} Hirai, Edogawa-ku, June 2004), and then an autograph A tensile test was performed by [manufactured by Shimadzu Corporation], and a breaking strength (unit: kgf / cm ² ) was measured.
In the case of a laundry bag, if the breaking strength is 0.9 kgf / cm ² or more, it is acceptable.

<Washing method>
A fully automatic batch washing and dehydrating machine (Asahi Seisakusho Co., Ltd., ECONOMAT10, washing capacity 10 kg / time) is charged with 10 kg of the object to be cleaned and 100 g of detergent, washed with tap water (cleaning liquid) for 10 minutes, and rinsed 2 Times, dehydration and drying.
Washing condition (1): A detergent for alkaline powder laundry (Biosat Hard 2000 ppm: manufactured by Lion Corporation) was used as a detergent, and the temperature of the washing liquid was set to 80 ° C.
Washing condition (2): An alkaline powder laundry detergent (Biosat Hard 2000 ppm: manufactured by Lion Corporation) was used as a detergent, and the temperature of the washing liquid was set to 40 ° C.
Cleaning condition (3): A neutral liquid laundry detergent (liquid hard dash 2000 ppm: manufactured by Lion Corporation) was used as the detergent, and the temperature of the cleaning liquid was set to 80 ° C.

<Evaluation method of cleaning power>
In the cleaning method, the laundry bag containing the same absorbent cotton as used in the odor diffusibility test as the object to be cleaned, and the contaminated cloth (EMPA 101, 10 cm × 10 cm, 5 sheets) with a dirty white cloth (clean cloth) on the cloth Washing was performed under the washing condition (1), (2) or (3) using a total of 10 kg of the attached items and cotton sheets.
The reflectance of the contaminated cloth before and after washing was measured with a color difference meter (Sigma 90, manufactured by Nippon Denshoku Co., Ltd.), and the detergency was calculated based on the following formula.
Detergency (%) = (Reflectance after cleaning of contaminated cloth−Reflectivity before cleaning of contaminated cloth) / (Reflectance of clean cloth−Reflectivity before cleaning of contaminated cloth) × 100
And it evaluated by the following criteria.
A: Detergency 51 to 60%.
○: Detergency 41 to 50%.
Δ: Detergency 31-40%.
X: Detergency 21-30%.

<Method for evaluating solubility>
After adding 0.5 g of the film A or the laminated film B before bag making to 1 liter of the cleaning liquid in which the detergent used in each of the cleaning conditions (1) to (3) is dissolved, the mixture is stirred for 10 minutes or less. The residue was confirmed through a sieve of No. 8.6 (Pharmacopeia: 2000 μm). The results were visually evaluated according to the following criteria.
○: No residue is observed on the sieve.
X: A residue is recognized on a sieve.

<Evaluation method for deodorization>
In the washing method, washing was performed under washing conditions (1), (2) or (3) using a total of 10 kg of laundry bags and cotton sheets containing three commercially available skin shirts as objects to be washed.
After washing, the skin shirt was taken out, conditioned for 24 hours in a constant temperature and humidity chamber at 20 ° C. and 40% RH, cut into 10 cm squares, and 10 test pieces were obtained. This test piece was placed in a glass desiccator of about 5 liters, and 0.1 g of 30% by mass of ammonia water was added to the test piece. After exposure to sunlight for 3 hours outdoors, the test cloth was taken out and five persons were taken out. Each panelist evaluated and made the average score deodorizing.
5 points: Strong smell.
4 points: Strong smell.
3 points: Smell that can be easily detected.
2 points: A weak smell that can be seen from any smell.
1 point: The smell that can finally be detected.
0 point: odorless.

(Examples 1-5 and Comparative Examples 1-4)
Laundry bags were manufactured under the conditions shown in Tables 1 and 2 below, and each evaluation item was evaluated. The evaluation results are shown in Tables 1 and 2.
In addition, as a deodorizer used at the time of film manufacture, the following deodorizer A, B, or C was used by the addition amount of Table 1,2. The numerical value in the table | surface has shown content (unit; mass%) of the deodorizer with respect to the total mass of a laundry bag.
Deodorant A: Lionite PC (titanium oxide clathrated in aluminosilicate, manufactured by Lion Corporation)
Deodorant B: Titanium oxide Deodorant C: Rosemary extract (oil-soluble rosemary extract, manufactured by Koei Kogyo Co., Ltd.)
Deodorant D: Jupiter F4-AP (Titanium oxide surface coated with apatite, manufactured by Showa Denko KK)

As shown in Tables 1 and 2, in any of Examples 1 to 7, the solubility was good and the required breaking strength was also obtained.
Further, when Examples 1, 2, 6, 7 and Comparative Example 1 were compared, it was found that the deodorant was not included in the film A, and the odor diffusibility and deodorization were improved. Recognize. Comparing Examples 3 and 4 with Comparative Example 2, it can be seen that the deodorant was not included in the film B, and the odor diffusibility and deodorization were improved.
From the result of Comparative Example 3, when the laundry bag using the film A was washed with a cleaning solution at 40 ° C., the solubility was poor and the deodorizing property was inferior despite containing the deodorant.
From the result of Comparative Example 4, when the laundry bag using the film B was washed with a neutral washing liquid, the solubility was poor and the deodorizing property was inferior despite containing a deodorant.

Moreover, the test using the household drum type washing machine (the product made by SHARP, ES-E61) was done as a washing machine. That is, the laundry bag used in Example 1 (with the same absorbent cotton as used in the odor diffusivity test), a commercially available T-shirt (100% cotton, manufactured by BVD) and a contaminated cloth (EMPA 101, 10 cm) As a result of putting 4.5 kg into the washing machine and washing with 30 g of powdered alkaline detergent (manufactured by Top Lion Co., Ltd.). It was confirmed that the same effects as the effects (detergency, solubility, deodorization) were exhibited.

Claims (7)

  A method for deodorizing fibers, comprising storing the fibers in a laundry bag made of a warm water-soluble film containing a deodorant and washing in a washing solution at 45 ° C or higher.   A fiber deodorizing method comprising storing a fiber in a laundry bag made of an alkaline water-soluble or alkaline water-disintegrating film containing a deodorant and washing in a cleaning solution having a pH of 8.5 or higher.   The deodorizing method according to claim 1, wherein the film further contains an adsorbent.   The deodorizing method according to claim 3, wherein the deodorizer is contained in the adsorbent.   A laundry bag in which a warm water-soluble, alkaline water-soluble, or alkaline water-disintegrating film containing a deodorant is formed into a bag shape.   The laundry bag according to claim 5, wherein the warm water-soluble, alkaline water-soluble, or alkaline water-disintegratable film further contains an adsorbent. The laundry bag according to claim 6, wherein the deodorant is contained in the adsorbent.