JP2010023900A - Moisture-absorbing container - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To improve a situation that a content may be brought into contact with a drying agent component in a moisture-absorbing container exerting a function of removing moisture in an inside space. <P>SOLUTION: The container has a container wall 1 composed of a resin molded product forming the sealed inside space S housing a content, a planar moisture absorber 60 which is confined in an inner layer of the container wall 1 and exhibits a water absorbing property, and holes 61 which are formed at a plurality of locations of the container wall 1 so that the inside space S is exposed to the surface of the planar moisture absorber 60. The holes 61 are formed to have sizes or shapes which can prevent the content from entering there and being brought into contact with the planar moisture absorber 60. A polypropylene resin serving as a base material in which silica gel powder is dispersed as a functional component can be used as the planar moisture absorber 60. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  In addition to pharmaceuticals, foods, and electronic parts, the present invention can contain various contents that may damage the initial properties and performance when moistened by the influence of moisture. The present invention relates to a hygroscopic container in which possible measures are taken.

  Pharmaceutical products are not limited to those of tablet type or powder type, and if they touch or absorb moisture in the air, their initial shape, properties, performance, etc. will not be maintained. The same thing can be said about foods such as candy, not limited to tablet types and powder types. In addition, many industrial products such as electronic parts are required to be stored or stored while being shielded from the influence of moisture in the air.

  Conventionally, when contents that dislike moisture such as pharmaceuticals and foods are stored in plastic containers, for example, a bag made of perforated sheet material such as Japanese paper filled with desiccant such as silica gel particles and quicklime (containing desiccant) The means of storing the bag) together with the contents in a plastic container has been widely used.

Further, a container body with a lid is formed by an outer container body and a dry resin inner container inserted in an overlapping manner inside the outer container body, and the contents are moistened by the hygroscopicity exhibited by the dry resin inner container. There has also been known a plastic container that prevents this (for example, see Patent Document 1). In Patent Document 1, the dry resin inner container includes calcium oxide having a particle diameter of 5 to 100 μm as a desiccant or an acrylic polymer water absorbent, and a linear low density polyethylene resin as a base resin. In the dry resin inner container, the base resin in which the above desiccant is mixed and dispersed is integrally formed in the outer container body by the two-color injection molding method. Is obtained.
JP 2007-269367 A (FIG. 1, 0003)

  However, the means for storing the desiccant-containing bag together with the contents in the plastic container requires extra time for the manufacturer to insert the desiccant-containing bag into the plastic container and to inspect the desiccant-containing bag. In addition to the problem that the user may accidentally ingest and accidentally eat the desiccant contained in the desiccant-containing bag, the desiccant-containing bag itself may be an empty plastic container. Another problem is that the waste is individually discarded as garbage, which is against the trend of reducing the amount of garbage.

  On the other hand, in the plastic container proposed by the above-mentioned patent document 1, since the surface of the container inside the dry resin of the container body is exposed to the internal space for storing the contents, the contents stored in the plastic container are Contact the surface of the dry resin container.

  However, when the contents stored in a plastic container come into contact with the surface of the plastic container inside the plastic container, the contents are oral type drugs or foods that enter the human mouth. It is not particularly preferable. That is, in a dry resin inner container formed by dispersing and mixing a desiccant with a base resin, the desiccant component contained therein bleeds out to the surface of the base resin over time or wears on the base resin due to wear of the base resin. If the contents come into contact with the surface of the container inside the dry resin because it may be exposed, the desiccant component adheres to the contents and enters the human mouth. May cause unpredictable and unfavorable situations, such as

  The present invention has been made in view of the above-described problems and situations, and can solve the problems in the case of using the desiccant-containing bag as described above, and is manifested by the plastic container proposed in Patent Document 1. However, an object of the present invention is to provide a hygroscopic container that can improve the situation where the contents may come into contact with the desiccant component.

  In the present invention, the hygroscopic container is a container wall made of a resin molded body that forms a sealed internal space for containing the contents, and a planar hygroscopic body that exhibits hygroscopicity confined in the inner layer portion of the container wall. And a hole that is opened at a plurality of locations on the container wall and allows the internal space to face the surface of the planar hygroscopic body, and the contents enter the hole to form the planar hygroscopic body. It is formed in a size or shape that can be prevented from contacting with.

  When the hygroscopic container has the above-described configuration, the contents only come into contact with the container wall made of the resin molded body, and contact the planar hygroscopic body that exhibits the hygroscopic property confined in the container wall. There is nothing. Therefore, even if the contents are oral products such as pharmaceuticals and foods, a situation in which the moisture absorbing component (desiccant component) contained in the planar moisture absorbent adheres to the contents and enters the mouth cannot occur. . Nevertheless, the moisture or moisture in the interior space of the hygroscopic container in which the contents are stored is opened at multiple locations on the container wall due to the hygroscopicity of the planar hygroscopic body. It is absorbed by the planar hygroscopic body through the hole that faces the surface of the hygroscopic body, and the internal space and contents are kept dry. In the present invention, the moisture absorbent confined in the container wall is limited to a sheet-like or plate-like moisture absorbent, and excludes a particulate moisture absorbent (for example, the desiccant powder itself). Is done. This is because the configuration in which the powdery hygroscopic material is confined in the container wall is considered to be the same as the configuration of the container in the dry resin shown in the above-mentioned Patent Document 1.

  In the present invention, the planar hygroscopic material may be obtained by dispersing a desiccant exhibiting hygroscopicity as a functional component in a resin layer as a base material. Such a planar hygroscopic material is a kneaded product obtained by kneading a resin as a base material and a desiccant exhibiting hygroscopicity as a functional component using a single screw or a twin screw, and passing through such a kneading step. Can be obtained by molding into a planar shape such as a sheet or plate with a mold.

In the present invention, the planar moisture absorbent is formed by molding a kneaded product of the base material and the desiccant into a planar shape, and the resin as the base material contained in the planar moisture absorbent is a polyolefin such as a polypropylene resin. Silica powder may be sufficient as the desiccant as a functional component. In addition to polypropylene resin and polyethylene resin, the base resin is ethylene-α olefin copolymer resin, ethylene-cyclic olefin copolymer resin, propylene-ethylene block copolymer resin, polypropylene-α olefin copolymer. Polyolefin resins such as resins are included.
Further, it is desirable that the base resin of the planar moisture absorber is a resin having a property of being welded to a resin used for molding the container wall, that is, a compatible resin. This is mainly because such selection of the resin is beneficial in simultaneously molding the container wall and the planar moisture absorbent at low cost by the two-color injection molding method. However, even if the base resin of the planar hygroscopic body is a resin that is not compatible with the resin used to mold the container wall, the planar hygroscopic body can be confined in the inner layer portion of the container wall. . For example, the container wall is divided into an outer wall and an inner wall that are separately molded, and the outer wall and the inner wall are welded after sandwiching the sheet moisture absorber, and the sheet moisture absorber is confined in the inner layer portion of the container wall. Is possible.

  In the present invention, the container wall is divided into a wall portion on the container body side that forms a space for containing the contents, and a wall portion on the lid body that seals the entrance of the contents provided in the container body. And the said planar moisture absorption body may be confine | sealed in the inner layer part of either one of the wall part by the side of a container main body, and the wall part by the side of a cover body, or both inner layer parts. Such a hygroscopic container is useful as a portable hygroscopic container having a size that fits in the palm of the hand.

  In particular, the wall portion on the container body side and the wall portion on the lid body side are connected to each other in a circumferential direction through a resin hinge portion so as to be openable and closable, and the planar moisture absorber is a container. In the hygroscopic container provided with the configuration of being confined in the wall portion on the main body side, there is an advantage that the lid body is not separated from the container main body and lost.

  As described above, in the hygroscopic container according to the present invention, the planar hygroscopic body is confined to the container wall, and the moisture in the internal space of the hygroscopic container is transferred to the planar hygroscopic body through the hole formed in the container wall. Since it is absorbed, there is no room for the situation that the contents directly contact the planar moisture absorbent. Therefore, even if the desiccant bleeds out on the surface of the planar moisture absorbent body, the bleed-out desiccant does not adhere to the planar moisture absorbent body. At the same time, there is no risk of entering the human mouth. As a result, when the contents are medicines or foods, there is no need to worry that the unknowingly unhealthy health is impaired due to the oral use of the contents to which the desiccant is attached.

  In addition, the hygroscopic container according to the present invention can easily be configured to open and close the entrance and exit of the contents of the container body with a lid, and the above-described problems when using a conventional bag containing desiccant Will not occur.

  FIG. 1 is a plan view of a main part of a hygroscopic container according to an embodiment of the present invention, and FIG. 2 is a cross-sectional view of a portion along line II-II in FIG.

  The hygroscopic container of the illustrated example includes a cup-shaped container main body 10 and a lid 50 for opening and closing the entrance / exit 11 of the container main body 10, and the lid 50 as shown in phantom lines in FIG. 2. When the container body 10 is attached to the container body 10, the entrance 11 of the container body 10 is sealed by the lid 50 so that moisture does not enter. In such a sealed state, the internal space S is formed by the container wall 1. Therefore, in this hygroscopic container, the container wall 1 is formed by the wall 12 on the container body 10 side and the wall 52 on the lid 50 side.

  The wall portion 12 on the container body 10 side is formed by a resin molded body having a bottom wall portion 13 and a cylindrical body portion 14 rising from the periphery of the bottom wall portion 13, and an inner layer portion of the bottom wall portion 13. The disk-shaped planar hygroscopic body 60 having a size over substantially the whole is confined in an embedded state. In addition, a plurality of locations on the bottom wall portion 13, more specifically, a plurality of locations on the bottom wall portion 13 that overlap the inside of the planar moisture absorber 60 are provided with small circular holes 61, The internal space S faces the surface of the planar hygroscopic body 60 through these holes 61. In other words, a plurality of locations on the surface of the planar moisture absorber 60 are exposed to the internal space S through the hole 61.

  The planar hygroscopic body 60 is formed into a sheet shape or a plate shape, and is formed into a sheet shape or a plate shape having a thickness of about 1 mm, for example. Although the planar hygroscopic body 60 itself exhibits hygroscopicity, the bottom wall portion 13 of the planar hygroscopic body 60 is located at a location other than the location exposed to the internal space S through the hole 61 described above. The surface is covered. Therefore, the planar hygroscopic body 60 absorbs moisture in the internal space S through the hole 61, but does not absorb moisture outside the hygroscopic container.

  The size and shape of the hole 61 are determined in relation to the size or shape of the contents accommodated in the internal space S. That is, the one hole 61 is formed in a size or shape that can prevent the contents from entering and coming into contact with the planar moisture absorber 60. FIG. 8 illustrates this point in an explanatory manner. By appropriately determining the diameter D of the circular hole 61 shown in FIG. 8 in relation to the size or shape of the contents, the contents in the holes 61 are indicated. Can be prevented from entering and coming into contact with the planar moisture absorber. The shape of the hole 61 is not limited to a circle. In short, it may be any size or shape that can prevent the contents from entering and contacting the planar moisture absorbent. The same applies to the depth of the hole 61. For example, when the hole 61 is circular, the diameter can be set to about 1.2 to 6 mm and the depth can be set to about 0.7 mm.

  As the planar hygroscopic body 60, a resin layer as a base material in which a desiccant exhibiting hygroscopicity as a functional component is dispersed can be suitably used. In addition to polypropylene resin and polyethylene resin, the base resin is ethylene-α olefin copolymer resin, ethylene-cyclic olefin copolymer resin, propylene-ethylene block copolymer resin, polypropylene-α olefin copolymer. A polyolefin-based resin such as a resin can be used, and other types of thermoplastic resins that can be applied to a molding method using a mold can be used. As the desiccant that exhibits hygroscopicity as a functional component, powders and granular materials such as general-purpose silica gel, calcium oxide, polymer water-absorbing body, and quicklime can be used.

  In this embodiment, a polypropylene resin is used as a resin as a base material, and a silica gel powder is used as a desiccant that exhibits hygroscopicity as a functional component, and the silica gel powder is uniformly dispersed in the polypropylene resin layer. Has been.

  According to the hygroscopic container having the above-described configuration, when the lid body 50 is attached to the container main body 10 containing the contents such as medicines and foods and the entrance / exit 11 is sealed, the container wall 1 is formed. Moisture in the internal space S is absorbed by the planar moisture absorber 60 through the holes 61 at a plurality of locations. Therefore, the internal space S and the contents are kept in a dry state, and the contents are prevented from getting wet.

  Further, the contents only come into contact with the inner surface of the wall portion 12 of the container main body 10 and the inner surface of the wall portion 52 of the lid 50, and the planar moisture absorber is confined in the bottom wall portion 13 of the container main body 10. 60 is not touched. Therefore, even if the contents are oral products such as pharmaceuticals and foods, a situation in which silica gel powder as a hygroscopic component contained in the planar hygroscopic body 60 adheres to the contents and enters the mouth cannot occur. .

  In the hygroscopic container shown in FIG. 1 or 2, the disk-shaped planar hygroscopic body 60 is confined in the bottom wall portion 13 of the container main body 10, and through the holes 61 opened at a plurality of locations on the bottom wall portion 13. Although the surface of the planar hygroscopic body 60 faces the internal space S, confinement points of the planar hygroscopic body 60 with respect to the container wall 1 such as the inner surface of the wall portion 12 of the container main body 10 and the wall portion 52 of the lid body 50 are: It is not limited to the example shown in FIG. 1 or FIG. Further, the size and shape of the planar moisture absorber 60 are not limited to the example shown in FIG. 1 or FIG. Further, the number of holes 61 formed in the container wall 1 and the arrangement pattern thereof are not limited to the example shown in FIG. 1 or FIG.

  The shape of the planar moisture absorbent body 60 includes various shapes such as a disk shape, a flat or curved plate shape, a curved plate shape, and a cylindrical shape, but powder particles are excluded from the shape of the planar moisture absorbent body 60. Is done. This is because the granular shape is not essentially planar, and the configuration in which the granular hygroscopic material is confined in the container wall is the content of the dry resin described in Patent Document 1 described at the beginning. This is because the structure and the gauge of the vessel are united.

  FIG. 3 shows a main part of another embodiment of the hygroscopic container. In this embodiment, a cylindrical planar moisture absorbent body 60 is confined in the barrel portion 14 of the wall portion 12 of the container body 10, and more specifically, a plurality of locations on the trunk portion 14, more specifically, planar moisture absorption in the trunk portion 14. Small circular holes 61 are opened at a plurality of positions overlapping the inside of the body 60. According to this embodiment, the internal space S faces the surface of the planar hygroscopic body 60 through the hole portions 61 provided at a plurality of locations of the body portion 14. In other words, a plurality of locations on the surface of the planar moisture absorber 60 are exposed to the internal space S through the hole 61. In this embodiment, although the shape of the planar hygroscopic body 60 is cylindrical, this point is obtained by dividing the rectangular planar hygroscopic body 60 into a plurality of strips in the circumferential direction. The cylinders 14 may be confined in a cylindrical shape.

  FIG. 3 shows an embodiment in which a cylindrical planar hygroscopic body 60 is confined in the body portion 14 of the wall portion 12 of the container body 10, and further, the bottom of the cup-shaped wall portion 12 of the container body 10 is further illustrated. A cup-shaped planar hygroscopic body 60 is confined over substantially the entire surface including the wall portion 13 and the trunk portion 14, and a plurality of portions overlapping the inner sides of the planar hygroscopic body 60 in the bottom wall portion 13 and the trunk portion 14. You may open the small circular hole 61 in the location. In this case, the internal space S faces the surface of the planar hygroscopic body 60 through a plurality of hole portions 61. In other words, a plurality of locations on the surface of the planar moisture absorber 60 are exposed to the internal space S through the hole 61. In this embodiment, the shape of the planar moisture absorbent body 60 is a cup shape. However, this is because a plurality of plate-like or disc-shaped planar moisture absorbent bodies 60 are arranged in a cup shape and confined in the body portion 14. Also good.

  3 and the embodiments described above, the entrance / exit 11 of the container body 10 is sealed by a lid (not shown) attached to the container body 10, and the internal space S formed by the container wall 1. Is absorbed by the planar moisture absorber 60 through the holes 61 at a plurality of locations, so that the internal space S and the contents are kept dry to prevent the contents from getting wet. 10 is only in contact with the inner surface of the wall portion 12 and the inner surface of the wall portion 52 of the lid 50, and is in contact with the planar hygroscopic body 60 exhibiting hygroscopicity confined in the bottom wall portion 13 of the container body 10. This is the same as the embodiment described with reference to FIGS. 1 and 2.

  FIG. 4 is a plan view showing a hygroscopic container opened according to still another embodiment, and FIG. 5 is a side view showing the hygroscopic container closed. In the hygroscopic container of this embodiment, the wall portion 12 on the container body 10 side and the wall portion 52 on the lid body 50 side formed in a dish shape are disposed at one place in the circumferential direction via the resin hinge portion 15. And can be opened and closed. Small circular holes 61 are formed at a plurality of portions overlapping the inside of the disk-shaped planar moisture absorber 60. Also in this embodiment, when the resin hinge portion 15 is bent and the entrance / exit 11 of the container body 10 is sealed with the lid 50 as shown in FIG. 5, the interior formed by the container wall 1 (the wall portions 12 and 52 described above) is formed. Since the moisture in the space S is absorbed by the planar hygroscopic body 60 through the plurality of hole portions 61, the internal space S and the contents are kept in a dry state, and the contents are prevented from getting wet. Further, the contents only contact the inner surface of the wall portion 12 of the container body 10 and the inner surface of the wall portion 52 of the lid body 50, and exhibit a hygroscopic property confined in the bottom wall portion 13 of the container body 10. It does not come into contact with the planar hygroscopic body 60. Further, this hygroscopic container has an advantage that the lid 50 is not separated from the container body 10 and lost. Therefore, it can be said that it is useful for carrying a tablet-type medicine or food.

  6-7 is explanatory drawing which showed the various form of the planar moisture absorption body 60 confine | sealed in the container wall 1. FIG.

  The example of FIG. 6 shows a form similar to that described with reference to FIGS. 2 to 3, and a plate-like planar moisture absorber 60 is confined in the container wall 1, and the container wall 1 are provided with small circular hole portions 61 at a plurality of portions overlapping the inside of the planar moisture absorbent body 60, and the surface of the planar moisture absorbent body 60 faces the internal space S through these hole portions 61. Yes.

  In the example of FIG. 7, a plurality of planar hygroscopic bodies 60 are confined in the container wall 1, and small circular hole portions 61 are formed at a plurality of portions of the container wall 1 that overlap with the inside of the planar hygroscopic body 60. Is established, and the surface of the planar hygroscopic body 60 faces the internal space S through these holes 61.

  6 and 7, the moisture in the internal space S formed by the container wall 1 is absorbed by the planar hygroscopic body 60 through the plurality of hole portions 61 regardless of the configuration described with reference to FIGS. Therefore, the internal space S and the contents are kept dry, and the contents are prevented from getting wet. Further, the contents only contact the inner surface of the wall portion 12 of the container body 10 and the inner surface of the wall portion 52 of the lid body 50, and exhibit a hygroscopic property confined in the bottom wall portion 13 of the container body 10. It does not come into contact with the planar hygroscopic body 60.

  The planar hygroscopic body 60 employed in the hygroscopic container according to the present invention kneads a resin as a base material and a desiccant exhibiting hygroscopicity as a functional component using a single screw or a twin screw. It is possible to obtain the kneaded material that has undergone such a kneading step by molding it into a sheet shape or plate shape with a mold. In particular, a planar hygroscopic material obtained by sufficiently kneading a mixture of polypropylene resin and silica gel powder at a predetermined blending ratio using a biaxial screw and molding the kneaded product into a planar shape with a mold. No. 60 is difficult for the silica gel powder to bleed out on the surface of the polypropylene resin layer. Therefore, in the hygroscopic container using such a planar moisture absorbent body 60, the silica gel powder, which is a functional component of the planar moisture absorbent body 60, does not spill into the internal space S through the hole 61 of the container wall 1. As a result, it can be said that the silica gel powder spilled into the internal space does not adhere to the contents, and safety is improved accordingly.

  As the resin used for forming the container wall 1, it is desirable to use a resin in which the base resin of the planar moisture absorbent body 60 is compatible. If the resin used to mold the container wall 1 and the base resin of the planar hygroscopic body 60 are compatible, the container wall 1 and the planar hygroscopic body 60 can be formed by a two-color injection molding method. This is because it is beneficial for simultaneous molding at low cost. In this two-color molding method, for example, a molding material for the planar moisture absorbent body 60 is injected into a mold, and then a resin as a molding material for the container wall 1 is injected over the molding material. It is a method of releasing.

  1 to 8, the same or corresponding parts are denoted by the same reference numerals for convenience of explanation.

It is a top view of the principal part of the hygroscopic container which concerns on embodiment of this invention. It is sectional drawing of the part which follows the II-II line | wire of FIG. It is the longitudinal cross-sectional view which showed the principal part of other embodiment of the moisture absorption body container. It is the top view which opened and showed the hygroscopic container concerning other embodiments. It is the side view which closed and showed the hygroscopic container of FIG. It is explanatory drawing which showed the form of the planar moisture absorption body confine | sealed in the container wall. It is explanatory drawing which showed the other form of the planar hygroscopic body enclosed by the container wall. It is explanatory drawing of the size thru | or shape of a hole.

Explanation of symbols

DESCRIPTION OF SYMBOLS S Internal space 1 Container wall 10 Container main body 11 Entrance / exit of contents 12 Wall part on the container main body 15 Resin hinge part 50 Lid body 52 Lid side wall part 60 Planar moisture absorption body 61 Hole

Claims (5)

  A container wall made of a resin molded body that forms a sealed internal space for containing the contents, a planar moisture absorber that exhibits moisture absorption confined in the inner layer of the container wall, and a plurality of locations on the container wall A hole portion that is opened and allows the internal space to face the surface of the planar hygroscopic body, and prevents the contents from entering and contacting the planar hygroscopic body. A hygroscopic container characterized by being formed into a size or shape that can be formed.   The hygroscopic container according to claim 1, wherein the planar hygroscopic body has a desiccant exhibiting hygroscopicity as a functional component dispersed in a resin layer as a base material.   The planar hygroscopic body is obtained by molding a kneaded product of the base material and the desiccant into a planar shape, and the resin as the base material contained in the planar hygroscopic body is a polyolefin resin such as a polypropylene resin. The hygroscopic container according to claim 2, wherein the desiccant as the functional component is silica gel powder.   The container wall is divided into a container body-side wall portion that forms a space for storing contents, and a lid-side wall portion that seals the entrance of the contents provided in the container body, The planar hygroscopic body is confined in the inner layer portion on either one of the wall portion on the container main body side or the wall portion on the lid body side or on both inner layer portions. The hygroscopic container described in the item.   The wall portion on the container body side and the wall portion on the lid body side are connected to each other in a circumferential direction through a resin hinge portion so as to be openable and closable. The hygroscopic container according to claim 4, wherein the hygroscopic container is confined in the wall of the container.

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