JP4984349B2 - Closet structure - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a closet structure using a hygroscopic rod that is inserted between a futon and the like housed in the closet .
[0002]
[Prior art]
In general, in a closet, since a futon, a blanket, a pillow, etc. that absorbs sweat from a human body at bedtime are stored as they are, moisture tends to accumulate.
[0003]
Therefore, conventionally, a dehumidifying rod that has been proposed to be inserted between the futons stacked in such a closet has been proposed.
[0004]
That is, this dehumidifying rod is configured by providing a dehumidifying agent such as silica gel or calcium chloride in a rod-shaped container, and is designed to dehumidify directly from the futon by inserting it into the gap between the futons. .
[0005]
[Problems to be solved by the invention]
However, in the case of the above-mentioned conventional dehumidifying rod, the dehumidifying rod itself absorbs moisture directly from the futon etc., but these dehumidifying agents cannot be reused, and even if they can be reused, high temperatures are required for regeneration. In such a closet, the hygroscopic force cannot be regenerated.
[0006]
The present invention has been made in view of such circumstances, and can sufficiently dehumidify futons and the like stored in a closet to prevent generation of mold due to moisture and to regenerate the dehumidifying ability. It is an object of the present invention to provide a close-in structure using a moisture absorbing rod that can be sustained.
[0007]
[Means for Solving the Problems]
The press-in structure of the present invention for solving the above-mentioned problems is a cross-linked acrylate fiber having antibacterial and antifungal properties, and in addition to hygroscopicity, a hygroscopic rod formed into a hollow cylindrical shape having moisture release properties. The hygroscopic rod is inserted into the gap between the futons stored in the closet or between the futon and the floor of the closet. It is made as long as possible so that the cylindrical part of the rod penetrates .
Further, a hygroscopic rod having a moisture absorption difference of 30 g / m ² or more between an air temperature of 20 ° C. and a relative humidity of 50% and an air temperature of 20 ° C. and a relative humidity of 95% is used. Furthermore, a moisture absorption rod provided with a moisture sensor for grasping the moisture absorption state is used . Et al is provided a slit-shaped opening between the room and the closet has been made to allow ventilation inside and outside the closet.
[0008]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0009]
FIG. 1 shows an outline of the entire configuration of the moisture absorbing rod 1, and FIGS. 2 and 3 show a push-in structure in which the moisture absorbing rod 1 is in use.
[0010]
That is, the hygroscopic rod 1 is formed in a cylindrical shape by the hygroscopic substrate 2.
[0011]
The hygroscopic rod 1 absorbs moisture from the respective futons 4 and 4 with which the hygroscopic rod 1 is in contact with the futons 4 and 4 accommodated in the closet 3. Moreover, since the moisture absorption rod 1 is formed in the cylindrical shape, it can be made to ventilate in the cylinder part 10. FIG.
[0012]
The moisture absorbing / releasing substrate 2 forming the moisture absorbing rod 1 has a moisture absorbing / releasing property that simply adjusts the humidity, and the comb has antibacterial properties that prevent the generation of mold in addition to the moisture absorbing / releasing property. Those having antifungal properties can be used.
[0013]
As the moisture absorbing / releasing substrate 2 having moisture absorbing / releasing properties, for example, moisture absorbing / releasing acrylate fibers such as Bel Oasis (trade name) manufactured by Kanebo Corporation can be used. In the case of this moisture-absorbing / releasing acrylate fiber, the moisture-absorbing / releasing substrate 2 having both antibacterial and antifungal properties can be easily obtained by using antibacterial fibers in combination.
[0014]
In addition to moisture absorption / release properties, as the moisture absorption / release substrate 2 having both antibacterial and antifungal properties, for example, cross-linked acrylate fibers such as MOISCARE (trade name) manufactured by Toyobo Co., Ltd. can be used. In the case of this crosslinked acrylate fiber, a specific example is a crosslinked acrylate fiber in which the increase in nitrogen content due to hydrazine crosslinking is 1.0% by weight to 8.0% by weight. 1.0 mmol / g to 4.5 mmol / g salt-type carboxyl group is introduced into the part, amide group is introduced into the remainder, the tensile strength is 1 g / d or more, the limiting oxygen index is 24 or more, and the sterilization rate is 90% or more of hygroscopic fibers are preferred.
[0015]
The cross-linked acrylate fiber has a nitrile group remaining in the hydrolysis by introducing a cross-linking bond to the acrylic fiber by hydrazine treatment to adjust the increase in nitrogen content within the range of 1 to 8% by weight. Can be obtained by introducing a carboxyl group into 1.0 mmol / g to 4.5 mmol / g, introducing an amide group into the remainder, and then converting the carboxyl group into a salt form.
[0016]
This cross-linked acrylate fiber that is the best moisture absorbing / releasing substrate 2 will be specifically described below.
[0017]
Examples of the raw fiber of the crosslinked acrylate fiber include fibers formed of an AN polymer containing acrylonitrile (hereinafter referred to as AN) of 40% by weight or more, preferably 50% by weight or more. Such raw material acrylic fibers may be in any form such as short fibers, tows, yarns, knitted fabrics, non-woven fabrics, and may be intermediate products or waste fibers. The AN polymer may be either an AN homopolymer or a copolymer of AN and another monomer. Other monomers include vinyl halides and vinylidene halides; (meth) acrylic acid esters; sulfonic acid-containing monomers such as methallyl sulfonic acid and p-styrene sulfonic acid and salts thereof; (meth) acrylic acid, itaconic acid, and the like And other monomers such as acrylamide, styrene, and vinyl acetate.
[0018]
As a method for introducing hydrazine crosslinking into the acrylic fiber, a method of treating at a temperature of 50 ° C. to 120 ° C. for 1 to 5 hours in a hydrazine aqueous solution having a concentration of 6% to 80% is preferable. The increase in the nitrogen content means increasing the nitrogen content of the hydrazine-crosslinked acrylic fiber as compared with the nitrogen content of the raw acrylic fiber. Examples of hydrazine include hydrazine hydrate, hydrazine sulfate, hydrazine hydrochloride, hydrazine nitrate, and hydrazine bromate.
[0019]
As a method for introducing a carboxyl group into 1.0 mmol / g to 4.5 mmol / g of the amount of nitrile groups remaining without being crosslinked by hydrazine by a hydrolysis reaction and introducing an amide group into the remainder, an alkane metal hydroxide is used. And a basic aqueous solution of ammonia and the like; a means of heat treatment in a state in which an aqueous solution of a mineral acid such as nitric acid, sulfuric acid and hydrochloric acid is impregnated, or in a state in which raw fiber is immersed in this aqueous solution. In addition, a hydrolysis reaction can also be performed simultaneously with the introduction of the crosslink. Moreover, when hydrolyzing with an acid, it is necessary to convert a carboxyl group into a salt form.
[0020]
As a method for converting the carboxyl group into a salt form, a method of immersing the above-described hydrolyzed fiber in various salt-type hydroxides or aqueous solutions of salts, followed by washing and drying is preferably used. Examples of the salt type of the carboxyl group include alkali metals such as Li, Na and K, alkaline earth metals such as Be, Mg, Ca and Ba, Cu, Zn, Al, Mn, Ag, Fe, Co and Ni. And organic cations such as NH4 and amine.
[0021]
This crosslinked acrylate fiber is presumed to have antibacterial properties due to a crosslinked structure containing nitrogen. Further, since this crosslinked acrylate fiber is excellent not only in hygroscopicity but also in hygroscopicity, the hygroscopicity can be sufficiently regenerated even when used in the environment in the closet 3. This cross-linked acrylate fiber may constitute the entire hygroscopic substrate 2, or may be mixed with other chemical fibers, natural fibers, animal fibers, etc. to form the hygroscopic substrate 2. May be.
[0022]
In order to form the hygroscopic substrate 2 on the cylindrical hygroscopic rod 1, for example, it can be performed as follows.
[0023]
First, the moisture-absorbing / releasing substrate 2 is made into a strip-shaped nonwoven fabric by mixing the above-mentioned crosslinked acrylate fibers with adhesive fibers that can be melt bonded.
[0024]
The hygroscopic substrate 2 is heated after being wound around a core material (not shown) to form a cylindrical shape. Then, the adhesive fibers mixed in the moisture-absorbing / releasing substrate 2 are heated and melted, and the fibers constituting the moisture-absorbing / releasing substrate 2 are formed into a cylindrical shape by point bonding. . Thereafter, the core material (not shown) is removed.
[0025]
Thereby, it can form in a cylindrical shape, without inhibiting the moisture absorption / release property of the moisture absorption / release substrate 2.
[0026]
In addition to the method described above, the hygroscopic rod 1 may be formed by winding the hygroscopic substrate 2 around the outer periphery of a cylindrical mesh-shaped molding cylinder (not shown) having a plurality of vent holes. .
[0027]
The moisture absorption / release amount of the moisture-absorbing / releasing substrate 2 is not particularly limited, but the moisture absorption difference between the temperature 20 ° C. and the relative humidity 50% and the temperature 20 ° C. and the relative humidity 95% is 30 g / m. ² or more of, it is particularly preferred to use 100 g / ^{m 2} or more.
[0028]
In addition, the hygroscopic rod 1 formed by the hygroscopic substrate 2 is particularly limited in its diameter and length as long as it can be inserted into the gap between the futons 4 and 4 accommodated in the closet 3. Is not to be done.
[0029]
However, the hygroscopic rod 1 has a length as long as it can be inserted into the gap between the futons 4 and 4 so that both ends thereof are not blocked by the futon 4 and the tube part 10 penetrates. It is preferable. If both ends or one end is buried in the futon 4, the hygroscopic rod 1 can not secure the ventilation in the tube portion 10, so that moisture is released after the moisture absorption is saturated. Will not be able to recover hygroscopicity.
[0030]
The hygroscopic rod 1 configured in this way is appropriately inserted into the gaps between the futons 4 and 4 accommodated in the closet 3.
[0031]
As a result, moisture or the like contained in the futon 4 is absorbed by the hygroscopic rod 1.
[0032]
Moreover, since this moisture absorption stick | rod 1 has the moisture absorptive base material 2 in moisture absorption, when the dry air passes in the cylinder part 10 in the condition where moisture absorption has been saturated, Moisture is released and moisture absorption is automatically restored. Therefore, it is preferable to use the hygroscopic rod 1 while periodically recovering the hygroscopicity by circulating air through the cylindrical portion 10. As the closet 3 that can circulate the air in the cylindrical part 10, for example, a slit-like opening 30 is provided between the closet 3 and the living room 5 so that ventilation can be performed inside and outside the closet 3. Ventilation type closet 3 made in the above is effective.
[0033]
Even if it is not such a ventilation-type closet 3, if the bar 31 of the closet 3 is opened in a situation where the moisture absorption by the hygroscopic rod 1 has been saturated, Air will circulate and the hygroscopic property of the hygroscopic substrate 2 can be recovered.
[0034]
Furthermore, when the hygroscopicity by the hygroscopic rod 1 is more actively recovered, the hygroscopic property can be rapidly recovered by removing the hygroscopic rod 1 from the closet 3 and drying it in the sun.
[0035]
In order to make it easy to determine whether or not the hygroscopicity of the hygroscopic rod 1 has become saturated in such a use state, as shown in FIG. You may keep it. Thereby, the user can easily grasp that the hygroscopicity has become saturated. The moisture detection sensor 6 is not particularly limited as long as the humidity state of the moisture absorbing / releasing substrate 2 constituting the moisture absorption rod 1 can be grasped. Various known moisture detection sensors 6 are used. Can be used. For example, as the moisture sensor 6, a sensor using a moisture sensitive agent is used. The moisture-sensitive agent has the property of causing a color change when it comes into contact with moisture and returning to its original color when the moisture is released, so it is easy to visually grasp that the hygroscopicity has become saturated. can do. Further, as the moisture absorbing / releasing substrate 2 is dried, the moisture sensing sensor 6 returns to the original color, and therefore can be repeatedly used in the same manner as the moisture absorbing / releasing substrate 2. Specifically, the moisture detection sensor 6 is formed by laminating a moisture-impermeable film on the moisture-absorbing / releasing substrate 2 via a moisture sensitive agent, and adhering at least the periphery of the moisture-impermeable film to the moisture-absorbing / releasing substrate 2. Can be configured. This moisture sensitive agent includes cobalt dichloride (blue, light red upon moisture absorption), cobalt bromide (green, blue to magenta upon moisture absorption), nickel chloride (yellow, light green upon moisture absorption), nickel bromide (yellow brown, Green) due to moisture absorption.
[0036]
This moisture sensitive agent may be used as it is in the form of a powder by directly adhering it to the moisture absorbing / releasing substrate 2, or may be used as a moisture sensitive film previously formed into a film.
[0037]
The moisture-sensitive film can be formed, for example, by blending the above-mentioned moisture-sensitive agent into a resin emulsion, uniformly dispersing it into a film, and further removing the solvent. The moisture sensitive film can also be formed by applying and drying a resin emulsion containing a moisture sensitive agent on the moisture absorbing / releasing substrate 2 side of the non-breathable film.
[0038]
Examples of the resin emulsion used for forming the moisture sensitive film include acrylic resin emulsion, vinyl acetate resin emulsion, ethylene-vinyl acetate resin emulsion, phenol resin emulsion, unsaturated polyester resin emulsion, epoxy resin emulsion, and urethane resin. An emulsion etc. are mentioned. Selection of the resin emulsion may be appropriately performed according to required performance such as adhesion to the moisture-absorbing / releasing substrate 2, light resistance, flame retardancy, and heat resistance.
[0039]
Further, even if the moisture sensor 6 as described above is not provided, or the moisture sensor 6 does not recognize the moisture sensor, the moisture absorbing / releasing substrate 2 of the moisture absorbing rod 1 has antibacterial and fungicidal properties. Therefore, it is possible to prevent the generation of mold in the futon 4 and the like, and it is possible to prevent the generation of bad odor due to the mold in the closet 3.
[0040]
In the present embodiment, the hygroscopic rod 1 is inserted into the gap between the futons 4, 4, but may be inserted between the futon 4 and the floor surface 32 of the closet 3.
[0041]
In the present embodiment, the hygroscopic rod 1 has a cylindrical shape, but is tapered so that the diameter of the hygroscopic rod 1 decreases toward the tip so that it can be easily inserted into the gap between the futons 4, 4. It may be. Moreover, although the hygroscopic stick | rod 1 is made into linear form, it may be made into curvilinear form. Furthermore, although the end part of the moisture absorption rod 1 is opened along the longitudinal direction, as shown in FIG. 4, it may be configured to open in a direction orthogonal to the longitudinal direction.
[0042]
【Effect of the invention】
As described above, according to the present invention, by inserting this hygroscopic rod into the gap between the futons housed in the closet, moisture such as the futon can be absorbed, and generation of mold due to moisture is prevented. Can do.
[0043]
Further, since the hygroscopic rod has a cylindrical shape, dehumidification by ventilation can be performed by venting the inside thereof. In particular, this hygroscopic rod shall be hygroscopic in addition to hygroscopicity, so that moisture absorbed from futons, etc. is released into air passing through the cylinder to regenerate and maintain the dehumidifying capacity. Will be able to.
[Brief description of the drawings]
FIG. 1 is a perspective view showing an outline of the entire configuration of a hygroscopic rod used in a closet structure according to the present invention.
FIG. 2 is a cross-sectional view showing a closet structure according to the present invention.
3 is a partially enlarged perspective view of FIG. 2. FIG.
4 (a) and 4 (b) are partial perspective views showing another embodiment of the moisture absorbing rod used in the closet structure according to the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Hygroscopic stick 2 Hygroscopic substrate 3 Closet 4 Futon 6 Moisture sensor

Claims (4)

A hygroscopic rod made of a cross-linked acrylate fiber having antibacterial and antifungal properties and having a moisture-absorbing property and a hollow cylindrical shape having a moisture releasing property is a gap between futons stored in a closet, or a futon Inserted between the floor of the closet and in this inserted state, the hygroscopic rod is made as long as possible so that both ends of the hygroscopic rod are not blocked by the futon and the tube portion of the hygroscopic rod penetrates. A closet structure characterized by that. The closet structure according to claim 1, wherein a hygroscopic rod having a moisture absorption difference of 30 g / m ² or more between an air temperature of 20 ° C and a relative humidity of 50% and an air temperature of 20 ° C and a relative humidity of 95% is used. The closet structure according to claim 1 or 2, wherein a moisture absorption rod provided with a moisture sensor for grasping the moisture absorption state is used. 4. A closet structure according to any one of claims 1 to 3, wherein a slit-like opening is provided between the closet and the living room so as to allow ventilation inside and outside the closet.

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