JP2016147028A - Air cleaner - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an air cleaner capable of preventing leakage of moisture and preventing leakage of a chemical agent even if a gel-like form containing moisture is used as a chemical agent.SOLUTION: There is provided an air cleaner which comprises a vessel having an opening, a chemical agent stored in the vessel, a cover sheet which closes the opening of the vessel and has air permeability and water absorbency, wherein the chemical agent comprises a holding material, water held by the holding material and a functional component dissolved in water and is formed of at least one gel-like form which is constituted so that water can be evaporated from the holding material.SELECTED DRAWING: Figure 3

Description

  The present invention relates to an air purifier.

  Conventionally, various air purifiers containing chemicals such as fragrances and deodorants have been proposed. For example, in the air cleaner of patent document 1, it is comprised so that the chemical | medical agent leaked from the chemical | medical agent container may be received in a mounting part, and it prevents that a chemical | medical agent leaks outside.

  By the way, some medicines are composed of a gel-like molded body holding water and medicine components. Since such a gel-like molded body is configured such that water evaporates over time, the molded body contracts as the water evaporates. Therefore, the use situation can be visually recognized according to the size of the medicine.

JP 2007-7125 A

  However, when a drug comprising the gel-like molded body as described above is used, water may accumulate in the container, and this water may leak to the outside. In addition, the contracted medicine may leak from the container. The present invention has been made to solve the above problems, and even when a gel-like molded body containing moisture is used as a medicine, it is possible to prevent moisture leakage and prevent medicine leakage. An object is to provide an air purifier that can be used.

  An air cleaner according to the present invention includes a container having an opening, a medicine accommodated in the container, and a cover sheet that closes the opening of the container and has air permeability and water absorption, and the medicine is retained. Formed of at least one gel-like molded body comprising a material, water held by the holding material, and a functional component dissolved in the water, and configured to allow the water to evaporate from the holding material. Has been.

  According to this configuration, since the opening of the container for storing the medicine is closed by the cover sheet, it is possible to prevent the medicine from being detached from the container. Moreover, since the chemical | medical agent used with the air cleaner which concerns on this invention contains water, there exists a possibility that water may leak from a container. However, in the air cleaner according to the present invention, since the opening of the container is covered with the cover sheet having water absorption, it is possible to prevent water from leaking. Further, for example, even when the container is tilted, water is absorbed by the cover sheet, so that it is possible to prevent water from spilling from the container.

  Although the said cover sheet can be formed with various materials, it can be formed with a nonwoven fabric, for example.

  When the cover sheet is formed of a non-woven fabric, the non-woven fabric can be formed of a core-sheath fiber material having a core material and a sheath material covering the outer periphery of the core material, and the sheath material has a melting point. The nonwoven fabric can be made lower than the melting point of the core material. Thereby, when fixing the cover sheet to the container by welding, if the cover sheet is welded at a temperature higher than the melting point of the sheath material and lower than the melting point of the core material, it is possible to prevent the entire nonwoven fabric fibers from melting. it can.

  The said air cleaner WHEREIN: The said cover sheet can be comprised by the single layer formed with the said nonwoven fabric. For example, when the cover sheet is formed of two or more layers, when the cover sheet is bonded to the opening of the container, layers other than the layer bonded to the container may be peeled off. Therefore, it is preferable to form the cover sheet in a single layer.

  Each of the air purifiers may further include a gas-impermeable water-impervious sheet that covers the cover sheet, and the water-impervious sheet includes at least a first layer in contact with the cover sheet, and the first layer. A second layer covering the layer, wherein the melting point of the first layer can be lower than the melting point of the second layer.

  According to this configuration, since the water shielding sheet is provided, it is possible to prevent moisture from evaporating from the cover sheet before use. In addition, since the melting point of the first layer in contact with the cover sheet in the waterproof sheet is lower than the melting point of the other second layer, for example, when fixing the waterproof sheet to the cover sheet by welding, the melting point of the first layer If the water shielding sheet is welded at a temperature that is high and lower than the melting point of the second layer, the entire layer of the water shielding sheet can be prevented from melting.

  In each of the above air purifiers, the container may have a laminated structure including at least a plurality of layers including an adhesive layer to which the cover sheet is attached, and the melting point of the adhesive layer is lower than the melting points of the other layers. can do.

  According to this configuration, for example, when the cover sheet is fixed to the container by welding, if the cover sheet is welded at a temperature higher than the melting point of the adhesive layer and lower than the melting point of the other layers, the entire layer of the container is melted. Can be prevented.

  Each said air cleaner WHEREIN: The said container can be equipped with the container main body which has an opening, and the flange part formed in the opening periphery of the said container main body, The said cover sheet shall be fixed to the said flange part. Can do.

  According to this structure, since the flange part is provided in the container, it becomes easy to attach the cover sheet. Further, when the container is inclined and the flange portion is installed on the installation surface, the opening of the container body is lifted from the installation surface by the flange portion, so that the side wall surface of the container body is inclined. Thereby, since the water in a container accumulates on the bottom wall side, it can prevent that water leaks from a container.

  Although the said chemical | medical agent can be made into various forms, for example, it can be comprised with the said several gel-like molded object formed in spherical shape.

  According to the air cleaner according to the present invention, even when a gel-like molded body containing moisture is used as a medicine, leakage of moisture can be prevented and leakage of the medicine can also be prevented.

It is a perspective view which shows one Embodiment of the air cleaner which concerns on this invention. It is a top view of FIG. FIG. 3 is a cross-sectional view of FIG. 2. It is the partial top view (a) and sectional drawing (b) of the flange part in the air cleaner of FIG. It is an expanded sectional view of the flange part in the air cleaner of FIG. It is sectional drawing which shows the usage method of the air cleaner of FIG. It is sectional drawing which shows the other usage method of the air cleaner of FIG. It is the observation photograph by the electron microscope which showed the boundary vicinity of the 1st welding area | region H1 and a non-welding area | region. It is sectional drawing which shows the other example and usage method of the air cleaner of FIG.

  Hereinafter, one embodiment in the case of using an air cleaner concerning the present invention as a deodorizer is described, referring to drawings. 1 is a perspective view of the air purifier, FIG. 2 is a plan view of FIG. 1, and FIG. 3 is a cross-sectional view of FIG.

  As shown in FIG. 1, the air purifier includes a container 1 that has an opening in the upper portion and stores a medicine 2 (gel-like molded body). A cover sheet 3 is attached, and a gas-impermeable water-impervious sheet 4 is attached so as to cover the cover sheet 3. Hereinafter, each member will be described.

<1. Container>
The container 1 includes a rectangular parallelepiped container main body 11 having a rectangular opening 111 in the upper part, and a flange portion 12 extending outward from the peripheral edge of the opening of the container main body 11, and these are integrally formed. Yes. The container main body 11 includes a rectangular bottom wall 112 and four side walls 113 extending upward from each side of the bottom wall 112, and the bottom wall 112 and the side walls 113 are integrally formed. Each side wall 113 is formed to be inclined slightly outward as it goes upward from the bottom wall 112. And the flange part 12 extended in a horizontal direction is formed in the upper end part of each side wall 113, and is integrally connected so that it may become a rectangular shape in planar view. Further, the four corners of the flange portion 12 are formed in an arc shape.

  Although the shape of the container 1 is not specifically limited, For example, it can be set as the shape which can become independent with the side wall 113 as a bottom face. For example, the length of the side wall 113 may be longer than the bottom wall 112, or the side wall 113 is long enough to be self-supporting even when the side wall 113 is shorter than the bottom wall 112. I just need it.

  Although the material which comprises this container 1 is not specifically limited, It can form with various resin materials. For example, as shown in FIG. 3, it can be formed by an outer layer 110 made of polyethylene terephthalate and an inner layer (adhesive layer) 120 laminated on the inner side and made of polyethylene. With this configuration, the inner wall surface of the container body 11 on the inner space side is formed by the inner layer 120, and the outer wall surface is formed by the outer layer 110. The flange portion 12 has an upper surface formed by the inner layer 120 and a lower surface formed by the outer layer 110. However, the material constituting the container 1 may be other than this. For example, from the viewpoint of facilitating welding with the cover sheet 3 as described later, the layer facing the cover sheet 3, that is, the inner layer 120. It is preferable that the melting point is lower than the melting point of the outer layer 110. It can also be formed of three or more layers.

<2. Cover sheet>
Next, the cover sheet 3 will be described. The cover sheet is formed of a sheet having water absorption and air permeability, and can be formed of, for example, a porous sheet or a nonwoven fabric. Nonwoven fabric, for example, fibers made of silk, hemp, wool, cotton, pulp, polyethylene, polyethylene terephthalate, acetate, nylon, acrylic, vinylon, cupra, ethylene vinyl acetate, rayon, polyester, polypropylene, polyurethane, polyvinyl chloride, etc. , Or a composite fiber that combines these.

  As a fiber which comprises a nonwoven fabric, the nonwoven fabric which consists of a fiber of a core sheath structure can be used, for example. In this case, for example, a nonwoven fabric formed of a core material made of polyethylene terephthalate and a sheath material made of polyethylene covering the core material can be used.

  Such non-woven fabrics include wet papermaking methods, dry papermaking methods, spunbond methods, melt blow methods, latex resin bond methods, solvent bond methods, stitch bond methods, needle punch methods, spunlace methods, thermal bond methods, air-through methods. It can be manufactured by a method such as a method.

The cover sheet 3 as described above, it becomes necessary ventilation, For this purpose, for example, it is preferable that the basis weight of the nonwoven fabric with 10 to 200 g / m ^2, more be 10 to 100 g / m ² Preferably, it is more preferable to set it as 10-80 g / m < ² >. Further, as a specific air permeability of the cover sheet 3, for example, it is preferably 10~200cm ³ / cm ² · sec, more preferably from ^{20~150cm 3 / cm 2 · sec,} 50~150cm More preferably, it is ³ / cm ² · sec. As a method for measuring air permeability, for example, the method described in “6.8 Air permeability” of JIS L1913 can be employed.

<3. Impermeable sheet>
The water shielding sheet 4 covers the cover sheet 3 described above, and is not particularly limited as long as it is liquid impermeable. For example, it can be composed of a resin sheet mainly composed of polyethylene or the like, but polyester, polyvinyl alcohol, polypropylene, nylon, cellophane, vinylon, vinyl chloride or the like can also be used. Further, it can be formed of a plurality of layers, and can be formed of a plurality of layers containing the same kind of material as the cover sheet 3 in consideration of attachment to the cover sheet 3 as will be described later. For example, as shown in FIG. 3, the sheet may be formed of a sheet having a three-layer structure in which a first layer 41 made of polyethylene, a second layer 42 made of nylon, and a third layer 43 made of polyethylene terephthalate are laminated from below. it can. Thereby, since the 1st layer 41 and the cover sheet 3 which oppose the cover sheet 3 in the water-impervious sheet 4 are the same kind of material, welding of both the sheets 3 and 4 becomes easy. Further, from the viewpoint of facilitating welding, the layer in contact with the cover sheet 3 is preferably a material having the lowest melting point as compared with other layers. However, the layer structure of the water shielding sheet 4 may be other than this.

<4. Drug>
The drug 2 includes a holding material, water held by the holding material, and a functional component dissolved in water, and is formed by a gel-like molded body configured to evaporate the water from the holding material. ing. Hereafter, this gel-like molded object is demonstrated.

  In the present embodiment, a gel-like molded article (i), a gel-like molded article (ii) described below, or a gel-like molded article assembly including a mixture thereof is used as a drug. The gel-like molded product (i) is a gel-like molded product prepared using an acrylamide-acrylate copolymer as a water absorbent resin. The acrylamide-acrylate copolymer may be a block copolymer or a random copolymer. The acrylamide-acrylate copolymer is not particularly limited with respect to the constituent ratio of acrylamide and acrylic acid, but as an example, the constituent ratio of acrylamide: acrylic acid is 10: 0.5 to 10, Preferably it is 10: 3.3-8.2, More preferably, it is 10: 4.3-6.7. Examples of the acrylamide-acrylate copolymer include an acrylamide-alkali metal acrylate copolymer, and preferably an acrylamide-sodium acrylate copolymer.

  In addition, the gel-like molded article (ii) includes one or more water-absorbents among a nonionic polyalkylene oxide water-absorbing resin, an alkene-maleic anhydride copolymer, and a polyacrylate cross-linked product. It is the gel-like molded object prepared using resin.

  Specific examples of the nonionic polyalkylene oxide water-absorbing resin used in the gel-like molded product of (ii) include polyethylene oxide, polypropylene oxide, ethylene oxide-propylene oxide copolymers, and polyalkylene oxides thereof. And a cross-linked product having a main chain. Moreover, as a crosslinked product having polyalkylene oxide as the main chain, a product obtained by crosslinking polyalkylene oxide and polyol with an isocyanate compound is suitable. Among these, a crosslinked product of polyethylene oxide, a crosslinked product of polypropylene oxide, and a crosslinked product of ethylene oxide-propylene oxide copolymer are preferable. These nonionic polyalkylene oxide water-absorbing resins may be used singly or in combination of two or more.

  Further, the olefin-maleic anhydride copolymer used in the gel-like molded product of (ii) is not particularly limited as long as it can swell with water and form a gel without dissolving in water. Specific examples of the olefin-maleic anhydride copolymer include an ethylene-maleic anhydride copolymer and an isobutylene-maleic anhydride copolymer. An isobutylene-maleic anhydride copolymer is also used. As the isobutylene-maleic anhydride copolymer, an alkali metal salt such as a sodium salt is preferably used.

  Further, the polyacrylate cross-linked product used in the gel-like molded product of (ii) is a cross-linked product having polyacrylic acid as the main chain, and does not dissolve in water, but swells with water and gel. There is no particular limitation as long as it can be formed. As the polyacrylate cross-linked product, an alkali metal salt such as a sodium salt is preferably used.

  From the viewpoint of more effectively suppressing leakage of the liquid contained in the gel-like molded article, the water-absorbent resin of the gel-like molded article (ii) is preferably a nonionic polyalkylene oxide-based water absorbent resin, olefin-anhydrous A maleic acid copolymer, more preferably an olefin-maleic anhydride copolymer.

  The gel-like molded product of (i) and (ii), as a holding material according to the present invention, the water-absorbent resin of each component having a predetermined shape absorbs water and other components as necessary and swells. It is a hydrogel formed by. Accordingly, each water-absorbing resin used for forming the gel-shaped molded product of (i) and (ii) is in accordance with the shape, size, water absorption amount, etc. of the gel-shaped molded product of (i) and (ii). The shape and other characteristics may be set as appropriate. In addition, the manufacturing method of such a water absorbing resin is well-known, The water absorbing resin prepared according to the well-known method using each component mentioned above can be used.

  As an example of the blending ratio of the water-absorbent resin used in the gel-shaped molded product of (i) and (ii), it is used for the gel-shaped molded product of (i) and (ii) with respect to the total amount of the aggregate. The total amount of the water-absorbing resin is usually 0.8 to 20% by weight, preferably 1 to 10% by weight, and more preferably 1.1 to 6% by weight.

  The ratio of the water-absorbent resin used in the gel-like molded article of (i) and (ii) is, for example, 100 parts by weight of the water-absorbent resin used in the gel-like molded article of (i), The total amount of the water-absorbent resin used in the gel-like molded article (ii) is 1 to 500 parts by weight, preferably 2 to 100 parts by weight, and more preferably 2 to 50 parts by weight. By containing each water-absorbing resin while satisfying such a ratio, in the gel-like molded body aggregate, deformation of individual gel-like molded bodies and leakage of liquid contained in the gel-like molded body are more effective. Can be suppressed.

The blending ratio of the water-absorbent resin used in the gel-like molded products (i) and (ii) is appropriately set based on the blending ratio and the ratio, and the following blending ratios are exemplified as an example.
Water-absorbent resin used for the gel-like molded product of (i): Usually 0.7 to 10% by weight, preferably 0.8 to 5% by weight, more preferably 0.9 to 3.5% by weight
Water-absorbent resin used in the gel-like molded product of (ii): usually 0.1 to 10% by weight, preferably 0.2 to 5% by weight, more preferably 0.2 to 3.5% by weight.

In addition, the size of the gel-like molded bodies (i) and (ii) may be appropriately set according to the size and appearance (aesthetics) of the container to be accommodated. For example, in the case of gel-like molded article (i), from the viewpoint in the good aesthetics enhance design effect, usually 0.05～5.0Cm ^3, preferably 0.1～5.0Cm ³ More preferably, a block-shaped molded body of 0.2 to 3.0 cm ³ is exemplified. Further, for example, in the case of the gel-like molded body of (ii), the same block shape as that of the gel-shaped molded body of (i) may be used, but the one smaller than the block-shaped molded body (for example, granular , Fine granular).

  Moreover, when not using a water absorbing resin, a gelatinizer or a thickener can be used as a holding material which concerns on this invention. As the gelling agent or thickener, for example, one or two or more of the following groups can be used. Animal substances: gelatin, plant substances: starch, konjac mannan, tamarind seed gum, locust bin gum, sodium alginate, guar gum, agar, carrageenan, pectin, microbial substances: xanthan gum, gellan gum, curdlan, acrylic compounds: poly Acrylate, vinyl compound: PVA, polyvinyl pyrrolidone, carboxyvinyl polymer, other compound: CMC-Na, polyethylene oxide.

  Further, the ratio of the number of gel-like molded bodies of (i) and the number of gel-like molded bodies of (ii) depends on the blending ratio of each water absorbent resin, the size of each gel-like molded body, etc. Set as appropriate.

  The gel-like molded products of (i) and (ii) are not particularly limited with respect to their individual shapes. For example, it may be a spherical shape, a rectangular shape, a star shape, or a special shape such as an animal, a plant, or an anime character. Further, the gel-like molded bodies (i) and (ii) may have different shapes, but may have the same shape. However, in the present embodiment, a spherical gel-like molded body will be described as an example.

  The gel-like compact aggregate contains water in order to form the gel-like compacts (i) and (ii). The mixing ratio of water in the gel-like molded product aggregate varies depending on the type of water-absorbent resin used in the gel-shaped molded product of (i) and (ii), but as an example, the total amount of the aggregate The proportion of water is 50 to 99% by weight, preferably 60 to 99% by weight, and more preferably 80 to 99% by weight. The ratio shown here is the ratio of the total amount of water contained in the gel-shaped molded body of (i) and (ii) to the entire gel-shaped molded body aggregate. The water content of the gel-shaped product (i) and the water content of the gel-shaped product (ii) are not necessarily the same.

  The gel-like molded product aggregate is used for developing an effect based on the functional component, and contains the functional component. Here, the functional component is a component that can exhibit a desired function in an environment where the gel-like molded body aggregate is used. In this embodiment, a deodorizing component is used as the functional component. Specific examples include extracts of plants such as rice, pine, hinoki and cocoons; desalted betaine compounds; modified organic acid compounds; triethanolamine; stabilized chlorine dioxide;

  In addition, the blending ratio of the functional component in the gel-like molded body assembly is the type of the functional component, the use of the aggregate, and the type of water-absorbent resin used in the gel-shaped molded body of (i) and (ii). For example, the functional component is 0.1 to 50% by weight, preferably 0.2 to 39% by weight, more preferably 0.4 to 18.9% by weight, based on the total amount of the aggregate. The ratio becomes. In addition, the ratio shown here is a ratio which the total amount of the functional component contained in the gel-shaped molded body of (i) and (ii) occupies the whole gel-shaped molded body aggregate.

  These functional components may be contained in one or both of the gel-like molded products of (i) and (ii), but both of the gel-shaped molded products of (i) and (ii) or ( It is desirable to be included in the gel-like molded product of i). In addition, in this invention, although the functional component may be contained in the state which osmose | permeated the inside of a gel-like molded object, you may be contained in the state adhering to the surface of the gel-like molded object.

<5. Preparation of drug>
The drug 2 can be prepared by various methods. For example, the gel-like molded body (i) containing a predetermined component and the gel-like molded body (ii) containing a predetermined component are separately prepared. Then, the obtained gel-like molded products (i) and (ii) may be produced by mixing them at a predetermined ratio, but the production methods exemplified below are simple and suitable. That is, (i) the water-absorbent resin of the gel-like molded body, (ii) the water-absorbent resin of the gel-like molded body, water, functional components, and if necessary, predetermined amounts of other components are put in a container. As described later, the container 1 is sealed with the cover sheet 3 and the water-impervious sheet 4 and allowed to stand at room temperature for about 12 to 24 hours to allow the water-absorbent resin to absorb the added components. During this time, if necessary, stirring may be performed by means such as vibrating the container.

<6. Attaching the cover sheet and water shielding sheet to the container>
As described above, after the medicine is accommodated in the container, the cover sheet and the water shielding sheet are attached to the container. Hereinafter, this procedure will be described. First, the cover sheet 3 is attached to the flange portion 12 of the container 1. Although the attachment method at this time is not specifically limited, For example, it can attach by heat seal. Hereinafter, an example of a method for attaching the cover sheet 3 and the water shielding sheet 4 to the container 1 by heat sealing will be described with reference to FIGS. 4 and 5. 4 is a partial plan view (a) and a sectional view (b) of the flange portion, and FIG. 5 is an enlarged sectional view of the flange portion.

  First, the periphery of the cover sheet 3 is welded to the flange portion 12 by heat sealing. At this time, for example, if the cover sheet 3 is formed of a fiber having a core-sheath structure having a polyethylene sheath material and the upper surface (inner layer 120) of the flange portion 12 is also formed of polyethylene, the same material is used. , Welding becomes easy. Further, the region to be heat-sealed (hereinafter referred to as the first welding region H1) is not particularly limited. For example, as shown in FIG. 4, a region having gaps d1 and d2 from the inner edge and the outer edge of the flange portion 12 and can do. Thus, the cover sheet 3 covers the flange portion 12 from the inner peripheral edge of the flange portion 12 to the first welding region H1, but is not fixed to the flange portion 12 as shown in FIG. The cover sheet 3 can be separated from the flange portion 12 (region S). Thus, when the cover sheet 3 is welded to the flange portion 12, the non-woven fabric is melted in the region H1 to become a dense resin. In addition, when using what was formed with the fiber of core-sheath structure as a nonwoven fabric, it is preferable that the temperature of heat sealing is higher than melting | fusing point of a sheath material, and lower than melting | fusing point of a core material. Thereby, the sheath material is melted, but the core material is not melted, so that the entire fiber can be prevented from melting. Moreover, although the inner layer 120 of the container 1 is formed of polyethylene having a low melting point, the outer layer 110 is not melted because the outer layer 110 is formed of polyethylene terephthalate. Therefore, it is possible to prevent the entire flange portion 12 from melting.

  Subsequently, the water shielding sheet 4 is disposed on the cover sheet 3, and the water shielding sheet 4 is fixed to the cover sheet 3 by heat sealing. At this time, the water shielding sheet 4 is welded to the first welding region H1 of the cover sheet 3 described above. That is, heat sealing is performed over a narrower width than the first welding region H1 (this region is hereinafter referred to as a second welding region H2), and the water shielding sheet 4 is fixed to the cover sheet 3. At this time, if the lower surface (first layer 41) of the water-impervious sheet 4 is formed of polyethylene and the cover sheet 3 is formed of fibers of a core-sheath structure having the above-described polyethylene sheath material, the same material is used. Therefore, welding is performed easily. Thus, the cover sheet 3 and the water shielding sheet 4 are laminated and fixed on the flange portion 12 in this order.

<7. How to use Air Purifier>
Then, the usage method of the air cleaner comprised as mentioned above is demonstrated. First, as shown in FIG. 6, the water shielding sheet 4 is removed from the cover sheet 3. Thereby, the cover sheet 3 is exposed to the outside. Since the cover sheet 3 has air permeability, air can flow into the container 1 from the outside via the cover sheet 3. And the odor contained in the air which flowed in is purified by reacting with the deodorizing component contained in the gel-like molded body, and discharged from the cover sheet 3 to the outside. By repeating such air inflow, purification, and discharge, the ambient air in which the air purifier is disposed is purified.

<8. Features>
As described above, this embodiment has the following features.
<8-1>
As described above, since the medicine 2 used in this embodiment contains moisture, when the water shielding sheet 4 is removed from the cover sheet 3, the moisture of the medicine may jump out of the container 1 due to the momentum. However, in the air cleaner according to the present embodiment, since the opening 111 of the container 1 is covered with the cover sheet 3 having water absorption, it is possible to prevent moisture from jumping out. Further, even when the container 1 is inclined, the moisture is absorbed by the cover sheet 3, so that the moisture can be prevented from spilling from the container 1.

<8-2>
Although the medicine 2 contracts when the water evaporates, it is possible to prevent the medicine 2 from being detached from the upper opening 111 of the container 1 by providing the cover sheet 3.

<8-3>
In order to obtain the deodorizing effect, it is necessary for air to flow into the container 1 through the cover sheet 3. However, in the air cleaner according to the present embodiment, the cover sheet 3 has water absorption, so that the air A deodorizing effect can be obtained only by contacting the cover sheet 3. For example, when the moisture of the medicine 2 is absorbed by the cover sheet 3, the deodorizing component is also held in the cover sheet 3 together with the moisture, so that the air only contacts the cover sheet 3 even if it does not flow into the container 1. In contact with deodorant ingredients. As a result, a deodorizing effect can be obtained.

<8-4>
Since the container 1 is formed with a flange portion 12, for example, as shown in FIG. The container 1 will be supported by contacting. At this time, the upper end portion of the side wall 113 of the container body 11 is lifted by the flange portion 12, and the side wall 113 is inclined downward from the upper opening 111 toward the bottom wall 112. For this reason, moisture accumulates in the vicinity of the bottom wall 112 of the container main body 11, so that leakage from the container 1 can be prevented.

<8-5>
In the above embodiment, the water shielding sheet 4 is welded in the first welding region H1 where the cover sheet 3 and the flange portion 12 are welded. In the 1st welding area | region H1, since the cover sheet 3 is fuse | melted and becomes dense resin, it is not a fiber structure like the nonwoven fabric before welding, but the surface is smoothed. For example, FIG. 8 is an electron microscope observation photograph showing the vicinity of the boundary between the first welding region H1 and the non-welding region. The first welding region H1 is generally smooth, whereas the non-welding region has a fiber structure It can be seen that the surface is uneven. Therefore, when the water shielding sheet 4 is welded in the first welding region H1, welding can be performed on a smooth surface, so that the welding strength can be stabilized and strengthened.

<8-6>
Further, since the first welding region H1 where the cover sheet 3 and the flange portion 12 are welded is formed with a gap d1 from the inner edge of the flange portion 12, the inner edge of the flange portion 12 is formed as shown in FIG. In the vicinity, a gap S is formed between the cover sheet 3 and the flange portion 12. For this reason, when the container 1 is tilted, moisture can be accumulated in the gap S, and leakage of water can be prevented.

  Further, when the cover sheet 3 is pressed downward toward the inner space of the container 1, the force concentrates on the cover sheet 3 at a position corresponding to the corner of the inner edge of the flange portion 12. There is a possibility of breaking. However, as described above, since the cover sheet 3 is welded at a position where the gap d1 is opened from the inner edge of the flange portion 12, when a downward force is applied, the cover sheet 3 is removed from the inner edge of the first welding region H1. It extends beyond the inner edge of the flange portion 12. Therefore, in the cover sheet, it is possible to prevent the force from being concentrated at a position corresponding to the corner portion of the inner edge of the flange portion 12, and as a result, it is possible to prevent the cover sheet 3 from being broken.

<8-7>
Moreover, since the 1st welding area | region H1 where the cover sheet 3 and the flange part 12 were welded is formed in the gaps d1 and d2 from the inner edge and the outer edge of the flange part 12, the following effect can be acquired. . That is, when the cover sheet 3 is welded at the inner edge of the flange portion 12, if the position of the heat seal is shifted inward, welding is performed at a portion where the flange portion 12 is not present, and a hole may be formed in the cover sheet 3. There is. On the other hand, when the cover sheet 3 is welded at the outer edge of the flange portion 12, when the heat seal protrudes from the outer edge of the flange portion 12, the cover sheet 3 is welded to the production facility, and continuous production may become difficult. Moreover, there exists a possibility that the cover sheet 3 may be difficult to cut. Therefore, it is desirable that the first welding region H1 is formed with a gap from the inner edge and the outer edge of the flange portion 12.

<8-8>
In the state shown in FIG. 7, when moisture comes into contact with the vicinity of the lower end of the cover sheet 3, if the cover sheet 3 is made of a nonwoven fabric, the moisture is sucked upward through the cover sheet 3 by capillary action. Therefore, since the deodorizing component is spread along with the moisture over the entire surface of the cover sheet 3, the deodorizing effect by the cover sheet 3 can be increased. Even if the container is not tilted, if a part of the medicine comes into contact with the cover sheet, the moisture of the medicine spreads on the cover sheet 3 together with the deodorizing component. This also increases the deodorizing effect. it can.

<9. Modification>
As mentioned above, although one Embodiment of this invention was described, this invention is not limited to this, A various change is possible unless it deviates from the meaning. The following modifications can be combined as appropriate.

<9-1>
In the said embodiment, although the deodorizing component was used as a functional component of a chemical | medical agent, it is not limited to this. For example, in addition to the deodorant component, an aroma component, a deodorant component, an insect repellent component, an antibacterial component, etc. Such a functional component may be either oily or water-soluble.

  Specifically, examples of the fragrance component include natural fragrances such as lavender, lemon, orange, jasmine, and peppermint; synthetic fragrances such as limonene, tapinolene, geraniol, citronellol, and ethyl acetate; And blended fragrances thereof.

  Examples of the insect repellent component include hinokitiol, hiba oil, allyl isothiocyanate, ethanol, propanol, and 1.8. Examples include cineole.

  Examples of the antibacterial component include octyltrimethylammonium chloride, didecyldimethylammonium gluconic acid, chlorhexidine, chlorhexidine gluconate, allyl isothiocyanate, propylene glycol monomethyl ether, propylene glycol monopropyl ether and the like.

  These functional components may be used individually by 1 type, and may be used in combination of 2 or more type. As a functional component used for the gel-like molded object aggregate of the present invention, an aromatic component and a deodorizing component are preferably mentioned.

<9-2>
In the said embodiment, although the flange part 12 is provided in the container 1, the flange part 12 is not necessarily required and the cover sheet 3 should just be attached so that the opening of a container may be closed.

<9-3>
In order to store the water in the container 1 when the container 1 is tilted, for example, as shown in FIG. 9, a step 115 having a large inner diameter can be provided on the periphery of the opening 111 of the container body 11. As a result, as shown in FIG. 9B, when the container 1 is tilted, water can be stored in the step portion 115, and leakage to the outside can be reliably prevented.

<9-4>
The shape of the container 1 is not particularly limited, and it is sufficient that at least air flows in or an opening for volatilizing the drug is formed. Therefore, in addition to the rectangular parallelepiped shape, various shapes such as a cylindrical shape can be used. Further, the position of the opening is not necessarily the upper part, and may be the side surface.

<9-5>
The cover sheet 3 and the water shielding sheet 4 may be attached to the container 1 other than the heat seal described above. In short, the method is not particularly limited as long as these can be attached to the container 1.

1: Container 2: Drug 3: Cover sheet 4: Water shielding sheet 11: Container body 12: Flange

Claims (8)

A container having an opening;
A drug contained in the container;
A cover sheet that closes the opening of the container and has air permeability and water absorption;
With
The drug comprises a holding material, water held by the holding material, and a functional component dissolved in the water, and is configured to allow the water to evaporate from the holding material. An air purifier formed of a shaped molded body.   The air cleaner according to claim 1, wherein the cover sheet is formed of a nonwoven fabric. The nonwoven fabric constituting the cover sheet is formed of a core material and a fiber material having a core-sheath structure including a sheath material covering the outer periphery of the core material,
The air cleaner according to claim 2, wherein a melting point of the covering material is lower than a melting point of the core material.   The air cleaner according to claim 2 or 3, wherein the cover sheet is composed of a single layer formed of the nonwoven fabric. A liquid impervious water shielding sheet covering the cover sheet is further provided,
The water shielding sheet includes at least a first layer in contact with the cover sheet, and a second layer covering the first layer,
The air cleaner according to any one of claims 1 to 4, wherein the melting point of the first layer is lower than the melting point of the second layer. The container has at least a laminated structure including a plurality of layers including an adhesive layer to which the cover sheet is attached,
The air cleaner according to any one of claims 1 to 5, wherein a melting point of the adhesive layer is lower than a melting point of another layer. The container includes a container body having an opening, and a flange portion formed on the opening periphery of the container body,
The air cleaner according to any one of claims 1 to 6, wherein the cover sheet is fixed to the flange portion.   The air cleaner according to any one of claims 1 to 7, wherein the medicine is composed of a plurality of the gel-like molded bodies formed in a spherical shape.