JP4230278B2 - Package and fluid adhesion method - Google Patents

Description

【００４５】
実施例２４
ＣＯＰ（ゼノア１０２０Ｒ：日本ゼオン社製）２０μｍ／接着層（アドマー：三井石油化学社製）３０μｍ／ＰＰ（ＶＳＲＬＢ３４０Ｇ：チッソ社製）：エラストマー（ダイナロン：ＪＳＲ社製）＝７：３ ２５０μ／ＰＰ（ＶＳＲＬＢ３４０Ｇ：チッソ社製）５０μｍの総厚４００μｍの共押し出しシートを、使用し、縦１５ｍｍ×横２５ｍｍ×深さ５ｍｍで、底部に直径１０ｍｍ高さ４ｍｍの図６のものと類似な円錐形の突起を有する流動物収納容器をシート成型し、これに、０．０２％あるいは１％グルコン酸クロルヘキシジン溶液を１ｍｌ充填し、蓋剤として同シートを上に被せヒートシールにより密閉した。４０℃、７５％環境下で６ケ月間保管した直後での充填液の液体重量変化及び充填液中有効ヨウ素残存率を測定した。その結果を表２に示した。液体重量とグルコン酸クロルヘキシジン濃度の変化率が１０％以内で良好な結果が得られた。
【００４６】
参考例３
ＰＰ ４００μｍシートを使用し、実施例２４と同様の形状の流動物収納容器を形成、これに０．０２％あるいは１％グルコン酸クロルヘキシジン溶液を１ｍｌ充填し、蓋剤として同シートを上に被せヒートシールにより密閉し、実施例２４と同様の試験を行った。その結果を表２に示した。濃度に１０％以上の減少が確認された。
【００４７】
【表２】

【００４８】
【発明の効果】
以上述べたように、少なくとも２以上の収納室に区分された包装容器の一方に流動物を収納すると共に他方の室に固形物を収納し、その仕切を破断することによって手や指に流動物を付着させることなく固形物に消毒薬を含浸させることができるのでその操作は、極めて簡単であり、流動物を過剰に添付する必要がないので経済的である。しかも流動物を含浸させるまで外気に曝されず、又、１回で使い切るので衛生的であり、さらには、保管中は、固形物に流動物が含浸していないので固形物成分の流動物中への溶出といった懸念もない。
また、流動物を収納する流動物収納容器を使用し、該収納容器と固形物とを同一の包装容器に収納し、その仕切として破断可能とした場合も上記と同様な効果を奏すると共に、固形物が大きくなっても固形物側のフィルムの歪みの発生を防止することができ、これによって自動生産機における位置調整が容易となる等の効果を奏することができる。
更に、流動物収納容器を構成する材質として、環状ポリオレフィンを含むシートを使用した場合、流動物収納容器の厚さを薄くしてもポピドンヨード液やグルコン酸クロルヘキシジン溶液を長期間安定に保持することが可能であるため、流動収納容器の硬さを調節することが可能となる。また、ガラス転移温度の低い環状ポリオレフィンを使用することにより、厚み制御し易いフィルムやシート成型及び絞り成型が容易となる等の効果を奏する。
【００４９】
【発明の効果】
以上述べたように、少なくとも２以上の収納室に区分された包装容器の一方に流動物を収納すると共に他方の室に固形物を収納し、その仕切を破断することによって手や指に流動物を付着させることなく固形物に消毒薬を含浸させることができるのでその操作は、極めて簡単であり、流動物を過剰に添付する必要がないので経済的である。しかも流動物を含浸させるまで外気に曝されず、又、1回で使い切るので衛生的であり、さらには、保管中は、固形物に流動物が含浸していないので固形物成分の流動物中への溶出といった懸念もない。
また、流動物を収納する流動物収納容器を使用し、該収納容器と固形物とを同一の包装容器に収納し、その仕切として破断可能とした場合も上記と同様な効果を奏すると共に、固形物が大きくなっても固形物側のフィルムの歪みの発生を防止することができ、これによって自動生産機における位置調整が容易となる等の効果を奏することができる。
更に、流動物収納容器を構成する材質として、環状ポリオレフィンを含むシートを使用した場合、流動物収納容器の厚さを薄くしてもポピドンヨード液やグルコン酸クロルヘキシジン溶液を長期間安定に保持することが可能であるため、流動収納容器の硬さを調節することが可能となる。また、ガラス転移温度の低い環状ポリオレフィンを使用することにより、厚み制御し易いフィルムやシート成型及び絞り成型が容易となる等の効果を奏する。
【図面の簡単な説明】
【図１】本発明にかかる包装体の一例であって（ａ）はその平面図、（ｂ）はその側面図である。
【図２】本発明にかかる包装体の他の一例の側面図である。
【図３】本発明にかかる包装体に使用した綿棒の他の一例の側面図である。
【図４】本発明にかかる包装体に使用した仕切の他の一例であって（ａ）はその平面図、（ｂ）は該仕切を用いた場合の側面図である。
【図５】本発明にかかる包装体の他の一例の側面図である。
【図６】本発明にかかる包装体の他の一例の側面図である。
【図７】本発明にかかる包装体の他の一例の側面図であって、（ａ）はその平面図、（ｂ）はその側面図である。
【図８】本発明にかかる流動物−固形物包装体の他の一例の側面図であって、（ａ）はその平面図、（ｂ）はその側面図である。
【図９】本発明にかかる流動物−固形物包装体の他の一例の側面図であって、（ａ）はその平面図、（ｂ）はその側面図である。
【図１０】本発明にかかる流動物−固形物包装体の他の一例の側面図であって、（ａ）はその平面図、（ｂ）はその側面図である。
【図１１】本発明で使用する流動物収納容器の側面図である。
【図１２】本発明にかかる流動物収納容器−固形物包装体の一例の側面図である。
【符号の説明】
１ 容器本体 ２ 流動物 ３ 仕切 ４ 固形物 ５ 蓋体 ６ 滅菌紙 ７ 蓋体端部
８ 絞り成型した蓋体 ９ 突起部 １０ ミシン目 １１ 突起 １２ ポリプロピレンシート
１３ 切り込み（脆弱部） １４ 流動物収納容器 １５ 流動物収納容器のシート基材
１６ 綿棒[0001]
BACKGROUND OF THE INVENTION
The present invention comprises a fluid, Has gripping part and fluid impregnation part The present invention relates to a package that is stored in a packaging container in combination with a solid material, and more specifically, at least part of the packaging body has a partition that can be easily broken by an external force. Has gripping part and fluid impregnation part The present invention relates to a package containing a solid material and a method of attaching a fluid to a solid material using the package.
[0002]
[Prior art and its problems]
When liquid or powdery fluids such as cosmetics, disinfectants, cleaning fluids, pharmaceuticals, paints, adhesives, etc. are attached to solids such as cotton balls, gauze, cotton swabs, sponges, brushes, etc., the fluids are brought into contact with the solids In some cases, it is further impregnated in the interior. In such a case, the solid substance and the fluid are usually put in separate containers, and the necessary amount is taken out into another container at the time of use, but this requires troublesome operations such as container arrangement and washing. It is. Some disinfectants such as povidone iodine, chlorhexidine gluconate, isopropyl alcohol and ethanol are stored in a disposable container with the disinfectant pre-impregnated in cotton balls or gauze, but the disinfectant is added in excess. It is not economical because it must be done, and there are concerns about safety and health by opening and closing the container several times before it is used up. Many of the fluids gradually change in quality once they are opened. From such a viewpoint, in order to attach or impregnate a single-use fluid to a solid, a packaging body in which each is separated and stored in a packaging container is proposed (Patent Document 1).
However, such a package is separated and stored in a normal soft packaging bag at the heat-sealing part, and when the heat-sealing part is peeled and the storage chambers are communicated with each other, the fluid adheres to the entire solid matter. Therefore, it is necessary to store an excessive amount of fluid, which is not economical, and at the same time, there is an inconvenience in handling that the fluid easily adheres to the user's hand or finger when opened. Furthermore, there is a concern that the component contained in the solid and the component contained in the fluid may interact during long-term storage, adversely affecting the efficacy and stability of the fluid component.
[Patent Document 1]
JP-A-6-219473
[0003]
[Problems to be solved by the invention]
Therefore, the present inventor attaches an amount of fluid that can be used up by opening once without attaching an excessive amount of fluid, and attaches it to the surface of a solid material during use, and in some cases further impregnates. The present invention has been completed as a result of various studies to provide an easy-to-use packaging body that is inexpensive and economical, and at the same time, does not adhere to the user. The purpose is to have fluid in each chamber of the packaging container divided into at least two chambers. Has gripping part and fluid impregnation part Store solids and contact them when in use to make fluids solid Only the fluid impregnation part Provided is a package that can be used by impregnating or adhering to a surface and a method for attaching the same.
[0004]
[Means for Solving the Problems]
The gist of the invention of the present application is: Has gripping part and fluid impregnation part A solid object with a wall partition Ensure that the fluid only faces the fluid-impregnated part Separately, the package is stored in the same packaging container, and the partition is fixed to the inner wall of the packaging container and is broken by an external force applied to the packaging container. Fluid should be impregnated or adhered only to the fluid-impregnated part of solid matter It is a packaging body characterized by being capable of.
That is, the invention of the present application Has gripping part and fluid impregnation part A solid material (hereinafter sometimes simply referred to as a solid material) is stored in a separate chamber with a partition, and the fluid is sealed in the fluid storage chamber, Has gripping part and fluid impregnation part Place solids in the solids storage room The fluid impregnated part should be spaced apart from the fluid storage chamber. The partition that separates the two by the external pressure applied to the packaging container at the time of use Fluid impregnated part only And a package comprising a packaging container and a stored material that can be impregnated or coated on the surface thereof, and an adhesion method using the same.
The fluid may be directly filled into the fluid storage chamber, or the fluid may be filled into a fluid storage container and stored in the fluid storage chamber.
[0005]
The fluid storage chamber and / or the solid storage chamber is preferably drawn.
In particular, the fluid storage chamber is preferably drawn from the viewpoint of storing the fluid in a concentrated manner.
When a large solid is stored in the solid storage chamber, it becomes difficult to seal a sheet or film around the solid (hereinafter referred to as a sheet) due to wrinkles or distortion when the solid becomes large. The sheet is preferably drawn.
By the way, when both the sheet in the fluid storage chamber and the sheet surrounding the solid material are drawn, it is difficult to reliably fix and adjust the fixing position when the partition is fixed to the inner wall of the packaging container by the automatic production machine. It may not be possible to ensure the sealed state of the animal. In such a case, it is possible to improve productivity by using a fluid storage container in which a fluid is sealed and filled in advance and storing the fluid storage container and the solid in a packaging container.
In this case, a container formed by drawing a sheet containing a cyclic polyolefin can be used as the fluid container. When such a sheet is used, it is preferable to laminate a sealant, because usually a container of a cyclic polyolefin having poor sealability can be easily sealed. In addition, by storing this fluid container in a packaging container, when the fluid container is sealed with a lid, it is easy to ensure a sealed state even if the sealing strength is low. Even if it is not particularly excellent, it can be used. It is preferable to use a container formed by drawing a sheet containing a cyclic polyolefin because the preservability of the medicine filled in the container is good.
[0006]
DETAILED DESCRIPTION OF THE INVENTION
The present invention will be described in detail below.
The packaging container used in the present invention is a synthetic resin bag, tray, molded container or the like. Paper or aluminum foil or the like may be used in part. These packaging containers are preferably easy peeled or notched to facilitate opening.
The material which comprises the packaging container of this invention can use the material which usually comprises such a packaging container. For example, a single layer sheet or a laminate sheet of polyolefin such as polyethylene or polypropylene, or an unstretched or stretched sheet such as polyester or polyamide, an aluminum foil, a silica vapor deposition layer, an alumina vapor deposition layer, an ethylene-vinyl alcohol copolymer or a polychlorination It is a laminated material in which barrier layers such as vinylidene and cyclic polyolefin are laminated, and these sheets are used as packaging bags, or the required recesses are formed by using, for example, vacuum molding, pressure molding or injection molding using the above-mentioned resin. It has a molded packaging container. In particular, a drug such as povidone iodine or chlorhexidine gluconate can be prevented from lowering its efficacy by being stored in a packaging container using a sheet containing cyclic polyolefin.
[0007]
The fluid storage chamber is preferably made of a material that does not volatilize the fluid. For example, when stored for one month in an environment of 40 ° C. and 75% Rh, the weight change of the contents is within 10%. What can be suppressed is preferable. Specifically, polypropylene, high density polyethylene, linear low density polyethylene, low density polyethylene, polyvinylidene chloride (PVDC), polyester, polyamide, cyclic polyolefin, ethylene vinyl acetate, polystyrene, polycarbonate, paper, aluminum foil, aluminum or A sheet in which alumina or silica is deposited or a laminate sheet thereof is used. And there is no restriction | limiting in particular as a fluid accommodated in a fluid accommodation chamber, As well as a liquid, paste, powder, a granule, and gas etc. may be sufficient as the case. Among them, the package of the present invention is suitably applied, for example, disinfectant such as povidone iodine, isopropanol, ethanol and chlorhexidine gluconate, lotion, hair color, eye color, emulsion, nail polish and light removal Cosmetics such as liquids, cleaning liquids for ear cleaning and oral cleaning, industrial chemicals such as paints and adhesives, pharmaceuticals applied to teeth and the like.
[0008]
Moreover, when using a fluid storage container, the fluid storage container is preferably a sheet containing a cyclic polyolefin.
Here, the fluid container is a sheet containing cyclic polyolefin means a sheet in which cyclic polyolefin is blended at least in part, a sheet made of cyclic polyolefin, a sheet made of resin mixed with cyclic polyolefin, or cyclic It means a multilayer sheet in which a resin layer mixed with a polyolefin layer or a cyclic polyolefin is laminated with another resin layer.
And it is preferable to be comprised with what was made into the sheet | seat containing polyolefin (COP) obtained by ring-opening-polymerizing norbonene among cyclic polyolefin.
In particular, the COP is preferably a grade having a low glass transition temperature (desirably 110 ° C. or less) because of excellent moldability. In addition, since a sheet containing COP is inferior in heat sealability, it is preferable to laminate a seal layer. By making a multilayer sheet in which a polyolefin resin such as polyethylene or polypropylene is laminated as a sealant, the heat sealability is dramatically increased. I can do it. A fluid storage container using a sheet containing COP is excellent in long-term stability because it has a small permeation of the active ingredients of the contents, solvent or moisture in the outside air, and preferably has a layer made of COP of 20 to 100 μm. . A multilayer sheet in which a sealing layer is laminated on such a sheet made of COP can have a total thickness of 200 to 700 μm suitable for sheet molding, a povidone iodine solution having an effective iodine concentration of 1000 mg / l or more, and 0.01% Disinfecting liquids such as the above chlorhexidine gluconate solution can be stored for a long time. Further, COP having a low glass transition temperature is excellent in flexibility and has good film forming properties and drawability. When deep drawing is performed, the thickness of the corner portion of the container is reduced. Therefore, when a deep drawing shape is required, it is necessary to set the thickness in consideration of this point. In this case, the thinner the disinfectant solution is, and the smaller the filling amount, the greater the fluctuations in the water content and active ingredients of the disinfectant solution. Therefore, it is necessary to set the COP layer thickness and the total sheet thickness thicker. . The resin used for the sealing layer is not particularly limited as long as it has heat sealing properties, and examples thereof include polyolefins, polyamides, and polyesters. Preferably, a hard resin such as high-density polyethylene or polypropylene, low-density polyethylene or linear low-density polyethylene, or a soft resin obtained by adding a thermoplastic elastomer or the like to the resin can be exemplified. By selecting one kind or two or more kinds from these resins, it is possible to adjust the hardness suitable for sheet molding within a range of the total thickness of the sheet of 200 to 700 μm.
Moreover, the partition that divides the inside of the packaging container into the fluid storage chamber and the solid storage chamber is broken by applying an external force from the side where the solid is disposed or the fluid storage chamber, and flows into the solid. The animal is attached to or impregnated, and when a fluid storage container is used, the partition separating the solid storage chamber is a part of the wall constituting the fluid storage container, The applied portion of the fluid impregnates the fluid-impregnated portion of the solid and breaks it, causing the fluid to adhere to or impregnate the solid. Such a breakable sheet is not particularly limited, and specific examples include synthetic resin films such as polypropylene, polyethylene, and ethylene vinyl acetate, aluminum foil, paper, and synthetic paper. The synthetic resin film may contain a different substance for the purpose of making the film brittle. Examples of such a substance include inorganic fillers such as talc and calcium carbonate, and these may be contained. For example, there is an embrittled polypropylene sheet manufactured by BP Chemical Co., which contains a polypropylene sheet and an inorganic filler.
[0009]
Solids used in the present invention Is cotton Sticks, sponges, brushes, etc. may be used, especially those having a gripping part such as a cotton swab or brush, by placing a fluid impregnated part (cotton or wool part) on the partition and pressing this part, Since it has rigidity, it is preferable that the partition can be easily broken by holding and pressing, and further, the fluid is immersed only in the portion impregnated with the fluid and does not adhere to the gripping portion.
The outer dimensions of the packaging container vary depending on the target product and application, and are not particularly limited. For example, from the viewpoint of handleability, the length is about 30 to 300 mm, the width is about 15 to 70 mm, and about 1 to 3 in the case of a cotton swab. Degree It is preferable to have a space that can be stored. Further, the storage chamber for storing the fluid is preferably one that can store an amount that can be used up once, and is usually 5 to 40 mm in length, 5 to 40 mm in width, and 4 to 10 mm in depth. Is preferably stored in an amount of about 0.5 to 5 ml. In addition, when using a fluid storage container, the fluid storage container is preferably one that can store an amount that can be used up at one time, as in the storage chamber that stores the fluid. It is preferably 5 to 40 mm × width 5 to 40 mm × depth 4 to 10 mm, and about 0.5 to 5 ml of fluid is stored.
[0010]
The packaging container of the present invention is Has gripping part and fluid impregnation part Solids are fluid storage chamber or fluid storage container Only to confront It is arranged with a partition, and when used, the partition is broken to impregnate the solid fluid only Since the fluid is impregnated or adhered to the surface, it is preferable that the partition is easily broken. As a method for facilitating breakage, in addition to filling the above-mentioned filler, it is preferable to apply means such as inserting non-penetrating holes or linear half cuts into a part or all of the partition.
Moreover, in this invention, a protrusion may be provided in a part of the fluid container or the fluid container and the partition may be broken by this.
Further, when the solid material has a gripping portion having rigidity such as a cotton swab or a brush, even if a notch is provided at a position away from the fluid filling chamber of the container, the fluid impregnated portion is formed by lifting the gripping portion. It is preferable because it can be easily impregnated with the fluid by breaking through the partition, and the packaging container can be cut out from the notch and the solid matter with the gripping portion can be easily taken out.
When the fluid to be filled is a medicine, disinfectant, cosmetic, etc., the solid is preferably kept in a sterilized state, and sterilization treatment includes ethylene oxide gas sterilization, autoclave sterilization, or radiation sterilization. Can be adopted.
[0011]
In the packaging body of the present invention, the periphery of the packaging container is sealed by heat sealing or the like, but the fluid storage chamber partition or the fluid storage container partition is broken and the solid is impregnated or coated on the surface. In consideration of taking out, it is preferable that part or all of the peripheral heat seal part is an easy peel. As such a seal strength, a seal strength applied to a normal easy peel, that is, a seal strength measured based on Z-0238 is about 1 to 25 N / 15 mm. If the seal strength is set low, it is easy to take out the contents, but there is a case where the contents are inadvertently peeled off due to an impact during transportation of the product. As a method for performing an easy peel seal, in addition to adjusting the use of an easy peel film and the sealing conditions, for example, as described in Patent Document 2, an unsealed portion is provided at one end of the seal portion, and this is peeled off. There is a method of peeling as a starting part.
[Patent Document 2]
JP 2000-335574 A
[0012]
The advantages of using the packaging container and the adjustment method of the present invention are summarized as follows.
Since it can be used without excessively setting the fluid filling amount, it is economical. Since the fluid and the solid are stored in separate rooms, there is no fear of elution of the solid component into the fluid due to the long-term impregnation, so that the fluid can be stably maintained for a long time. It can be used for various sterilization operations, and can be impregnated with a fluid in a solid material without opening, so it is safe and hygienic. A solid matter having a gripping portion is convenient because a fluid can be impregnated or attached to a surface in a necessary portion without wetting the gripping portion. Moreover, it is the form which can be easily manufactured with an automatic production machine.
[0013]
Next, exemplary embodiments of the package of the present invention will be illustrated with reference to the drawings. First, the case where the fluid is directly filled in the fluid storage chamber of the packaging container will be described.
FIGS. 1A and 1B are explanatory diagrams when a cotton swab is used as a solid material, where FIG. 1A is a plan view and FIG. 1B is a side view. In FIG. 1, the container body is provided with a recess (fluid storage chamber) in which a fluid can be stored by drawing a part of a polyolefin sheet 1 such as polypropylene or high density polyethylene (HDPE), and the fluid 2 is stored in the recess. . The aluminum foil 3 is placed so as to cover the fluid storage chamber, and is sealed so as to be an easy peel. Since the aluminum foil 3 serves as a partition between the two chambers, the aluminum foil 3 only needs to be large enough to seal the fluid. Next, a cotton swab is placed on the partition so that the cotton portion comes, and an easy peel laminate film 5 is placed on the cotton swab, and a sheet made of the HDPE sheet 1 and the aluminum foil 3 and the laminate film 5 are placed on the container. Seal. If the sealing part is sealed by heat sealing while leaving the unfused part 7 at a part of the end of the laminate film 5, it is preferable as a trigger at the start of peeling. Alternatively, an opening may be provided in a part of the laminate film 5 and the sterilized paper 6 may be attached. If necessary, the inside of the cotton swab side may be sterilized by EOG (ethylene oxide gas) sterilization or AC (autoclave) sterilization. Further, it may be sterilized by radiation, and in this case, it is not necessary to attach an opening or sterilized paper 6. In use, the aluminum foil can be easily broken by pushing the portion of the cotton swab 4 so that the fluid 2 can be immersed in the cotton. Next, since the aluminum foil 3 and the laminate film 5 are weakly sealed, by pulling the unfused portion 7 at the end of the laminate film 5, it can be peeled open and the cotton swab can be taken out. By these operations, the disinfectant and the swab do not touch the outside air until just before use, which is very hygienic and can be used by immersing the disinfectant only in the necessary parts during use. It is. In addition to disinfectants, it is also useful for coatings that require hygiene.
[0014]
FIG. 3 is a side view when a cotton swab is used as a solid. Instead of the HDPE sheet as the container body, a polycarbonate 1 injection-molded into a shape in which a recess is provided in part is used, and a perforation 10 is put in this. Moreover, what provided the projection part 9 in the part of the cover body 8 which draw-molded the polyolefin sheet instead of the laminate film as the cover body of the packaging container was used. Thereby, the aluminum foil sheet 3 can be easily broken. Also, by pressing the cotton part of the swab with one hand and folding the swab side with the other hand, the aluminum foil can be broken more easily, and the polycarbonate sheet is easily cut by bending. Since the sheet has perforations, the perforations of the sheet are cut and the swab chamber is opened, so that the swab impregnated with the disinfectant can be taken out immediately.
[0015]
FIG. 4 is a side view of a cotton swab provided with protrusions 11. By disposing this cotton swab, the partition can be easily broken.
FIG. 5 is a view of the lid for the fluid storage chamber, and a half-cut notch 13 is made in a part of the polypropylene sheet 12 and can be easily broken by pressing by using it as a partition.
FIG. 6 is a side view of a fluid storage chamber provided with a protrusion 11 on the bottom, and when used, the partition can be broken by pressing from the fluid side to impregnate the cotton part of the cotton swab with the fluid. it can.
[0016]
FIG. 7 is a side view when a sponge is used as a solid material. Instead of the HDPE sheet, a sheet with a recess that can store a fluid by drawing a part of A-PET is used. The fluid storage chamber is filled with an oral cleaning solution, and the solid storage chamber is gripped. A sponge having a part was stored. By pressing the sponge part, the aluminum foil can be easily broken, so that the oral cleaning liquid can be immersed in the sponge. At this time, there is little scattering of the oral cleaning liquid, and the fluid is unlikely to adhere to the grip portion. Therefore, it is convenient if the user grasps and holds the grip portion when taking it out, because it does not cause troublesomeness to get his hands dirty. Furthermore, since the sponge and the gripping part are bonded with an adhesive, if the sponge is stored in a state in which the oral cleaning liquid is impregnated in advance, the adhesive component is eluted, and there is a concern that the oral cleaning liquid may be adversely affected. The package is suitable without such a twist. In addition, it is also useful for cosmetics that are impregnated into a solid material, such as those that need to be stored separately from a solid material and a fluid until just before use due to problems such as long-term stability.
[0017]
FIG. 8 is an explanatory view when rubber spatula is used as a solid material. A dry laminate sheet of polyamide / aluminum foil / linear low density polyethylene was used, the fluid 2 was filled with an adhesive, and the solid 4 was stored with a rubber spatula. Thus, the performance of the adhesive is maintained for a long period of time, and when used, the adhesive is applied to the spatula by breaking the partition, which is convenient.
[0018]
Next, the case where the fluid is filled in the fluid storage container and stored in the packaging container main body will be described.
FIG. 12 is a side view of the fluid storage container, and FIG. 13 is a side view of the packaging container storing the fluid storage container. In FIG. 12, a recess that can accommodate the fluid 2 is formed by drawing a sheet base material 15 such as COP, polypropylene, or high density polyethylene (HDPE), and the fluid 2 is accommodated therein. An aluminum foil serving as the lid / partition 3 is placed on this and sealed by heat sealing to obtain a fluid container 14.
[0019]
Then, as shown in FIG. 13, a recess and a fluid storage chamber that can store solids are formed by drawing a sheet base material such as polypropylene, linear low density polyethylene (LLDPE), or low density polyethylene (LDPE). The provided container body 1 is prepared, and the fluid storage container 14 is placed in the fluid storage chamber. The cotton swab 4 is arranged so that the cotton portion of the cotton swab 4 comes on the partition 3 of the fluid storage container 14, and the lid 5 of the packaging container is covered and heat sealed. The fluid storage container 14 and the container main body 1 are configured such that when a part or the entire surface of the sheet base material 15 of the fluid storage container 14 is fixed to the container main body 1 by heat sealing or an adhesive, the fluid storage container 14 is transported or stored. 14 is preferable because it does not move. An easy peel laminate film lid 5 is placed on the container body 1 and sealed by heat sealing. It is preferable to leave a non-fused part in a part of the end 7 of the lid 5 and seal it by heat sealing, as a trigger at the start of peeling. In use, the partition can be easily broken by pushing the cotton part of the swab, so that the fluid 2 can be immersed in the cotton. Since the polyolefin sheet of the container body 1 and the laminate film of the lid 5 are sealed so as to be peelable, by pulling from the unfused portion of the end portion 7 of the lid 5, the peeling and opening can be performed, and the cotton swab can be taken out. it can. By these operations, the disinfectant and the swab are not exposed to the open air until just before use, so it is very hygienic and can be used by immersing the disinfectant only in the necessary parts during use. It is. In addition to the disinfectant, it is also effective for coatings that require hygiene. In addition, by using the fluid container, manufacturing with an automatic production machine is facilitated, and productivity can be increased.
[0020]
Also in the embodiment of FIG. 13, sterilized paper may be attached to the lid 5, and the lid 5 may be sterilized paper.
When a protrusion similar to that shown in FIG. 6 is provided at the bottom of the fluid storage container 14, the partition is broken by pressing from the fluid storage container side during use, and the cotton part of the cotton swab is impregnated with the fluid. Can do.
Further, as an improved example of the package of FIG. 7, as the fluid storage container 14, a sheet provided with a recess capable of storing a fluid by drawing a part of A-PET is used. In the fluid storage container 14, The oral cleaning liquid is filled, and the solid material accommodates a sponge having a gripping portion as shown in FIG. 7, and the aluminum foil can be easily broken by pushing the sponge portion. Accordingly, the oral cleaning liquid can be immersed in the sponge while avoiding the scattering of the oral cleaning liquid and the adhesion of the fluid to the gripping portion. If you take it out by grabbing the grip, you won't get bothered with your hands. Furthermore, since the sponge and the gripping part are bonded with an adhesive and stored in a state in which the sponge is impregnated with the oral cleaning liquid in advance, the adhesive component is eluted and there is a concern that the oral cleaning liquid may be adversely affected. This packaging container is useful without such concerns. In addition, it is also useful for cosmetics that are impregnated into a solid material, such as cosmetics that need to be stored separately from the solid material and the fluid until just before use due to problems such as long-term stability.
Further, as an improved example of the package of FIG. 8, a sheet provided with a recess capable of storing a fluid by drawing a part of a dry laminate sheet of polyamide / aluminum foil / linear low density polyethylene as the fluid container 14 If the adhesive is filled as a fluid and a rubber spatula is contained in the solid, the adhesive will retain its performance for a long time, and when used, it will adhere to the spatula by breaking the partition. It is convenient because the agent is applied and can be used easily.
[0021]
[Examples and Reference Examples]
Hereinafter, the present invention will be described more specifically with reference to the drawings as examples.
Example 1
Using the packaging container shown in FIG. 1, a disinfectant kit as an example of the fluid-solid packaging body of the present invention was prepared. A portion of a HDPE sheet 30 mm wide x 180 mm long x 800 μm thick is formed by drawing to form a 15 mm × 20 mm × 6 mm recess (fluid storage chamber) to form a container body 1, and a fluid 2 with a disinfectant ( 10% popidone iodine solution (1.5 ml) was stored. 17 μm hard aluminum coated with a sealant on both sides of an outer dimension of 30 mm × 180 mm was used as the partition 3, the entire container body 1 was covered with the partition 3, and the four sides around the fluid storage chamber (recess) were heat sealed. A cotton swab having a cotton part diameter of 12 mm and a length of 150 mm as a solid material 4 is placed on the partition 3, and a cover made of a laminate film of PET (polyethylene terephthalate) 12 μm / alumina-deposited PET 12 μm / PE-based easy peel 40 μm from above the cotton swab. The body 5 was put on, the four sides of the container body 1, the lid 5 and the partition 3 were heat-sealed, and the cotton swabs arranged on the partition 3 were sealed to prepare a package (disinfectant kit). In addition, an opening is provided in a part of the lid body 5 and sterilized paper 6 is pasted so that the inside of the cotton swab side can be sterilized with EOG (ethylene oxide gas) or AC (autoclave) if necessary. . In use, the partition 3 can be easily broken by pushing the cotton 4 portion of the cotton swab, whereby the fluid 2 can be immersed in the cotton. Next, since the aluminum foil 3 and the lid 5 are easy peel seals, the aluminum foil 3 and the lid 5 are peeled and opened by pulling from the end 7 (preliminarily provided with an unsealed portion), and the cotton swab is taken out. be able to. The disinfectant kit of the present invention is very hygienic because it does not touch the outside until just before use by these operations, and it can be used by immersing the disinfectant only in the necessary part at the time of use. Convenient to.
FIG. 2 shows a case where a cotton ball is used as the solid material 4, and the manufacturing method is the same as that in the case of a cotton swab. In use, the partition can be easily broken by pressing the cotton ball from the lid 5, and the same result as in the case of the cotton swab can be obtained.
[0022]
Example 2
The container body 1 is formed in the same manner as in Example 1, and the fluid is a disinfectant (0.02% chlorhexidine gluconate solution), and the partition 3 is a 17 μm hard aluminum coated with a sealing agent on one side having an outer dimension of 24 mm × 29 mm. Using foil, only the fluid storage chamber was sealed in advance by heat sealing, and then the container body 1 was sealed using the same lid 5 as in Example 1. Moreover, the fluid-solid packaging body was produced similarly to Example 1 except having used the cotton swab which has a projection part as shown in FIG.
In use, the partition 3 can be easily broken by the protrusion 11 provided on the swab by pressing from the swab side, whereby the fluid 2 can be immersed in the cotton part of the swab, and then from the container body 1 The lid 5 was peeled off and the cotton swab could be taken out.
[0023]
Example 3
Instead of the HDPE sheet in Example 1, a main body container 1 is made of a polycarbonate injection molded sheet of 20 mm × 110 mm × 500 μm provided with a perforation 10 and a recess of 6 mm × 10 mm × 6 mm as opening assisting means. Housed 0.5 ml of 70% ethanol solution. A talc-containing polypropylene sheet having an outer dimension of 20 mm × 25 mm was used as the partition 3 to cover the fluid storage chamber, and a cotton swab 4 having a cotton part diameter of 5 mm and a length of 80 mm was disposed thereon. On the other hand, a polypropylene sheet of 20 mm × 110 mm × 300 μm is drawn as the lid 8 so that the inner dimension of the molded part is 10 mm × 100 mm × 10 mm, and a projection as shown in FIG. 9, a cotton swab was covered with this, and the fluid-solid packaging body was produced by sealing. The protrusion 9 makes it easier to break the lid 5.
In use, the cotton swab part is urged downward by pressing the cotton part of the cotton swab with one hand and folding the end of the container body 1 upward with the other hand. Thus, the partition 3 can be broken more easily, and when the container main body 1 is bent, the container main body is also broken from the perforated portion 10 and the cotton swab can be taken out and used.
[0024]
Example 4
A fluid storage chamber was formed in the same manner as in Example 1 using a polypropylene sheet instead of HDPE, and 1.5 ml of 70% ethanol solution was stored as fluid 2. A polypropylene sheet having an outer dimension of 30 mm × 180 mm provided with a half-cut incision (fragile part) 13 as the partition 3 is used to cover the fluid storage chamber (see FIG. 5), on which a cotton part has a diameter of 12 mm and a length of 150 mm. Then, it was covered with a laminate film of polyamide 25 μm / aluminum foil 40 μm / polypropylene 30 μm drawn to 20 mm × 160 mm × 15 mm as a lid 5 from above, and a fluid-solid packaging body was produced. The partition can be broken by pressing from the laminate film side.
In addition, as shown in FIG. 5, even if a normal polypropylene sheet is used as a partition by providing a weak part such as a cut portion of a half cut in the partition, it can be easily broken by pressing.
[0025]
Example 5
A fluid storage chamber was formed in the same manner as in Example 1 by using a polystyrene sheet instead of the HDPE sheet in Example 1. When the container main body 1 was created, a projection 11 shown in FIG. 6 was provided at the bottom of the fluid storage chamber, and a perforation 10 serving as an opening assisting unit was provided. The fluid 2 was filled with a light removing solution. Moreover, it was the same as that of Example 1 except having used the laminated film of PET12micrometer / polystyrene-type easy peel film 40micrometer as the cover body 5. As shown in FIG. At the time of use, by pressing from the side of the light removal liquid, the protrusion at the bottom can break through the partition 3 and impregnate the cotton swab with the light removal liquid.
[0026]
Example 6
FIG. 7 is a side view of an oral cleaning kit (packaging body) which is an example of the fluid-solid packaging body of the present invention. A portion of an A-PET sheet 40 mm wide x 220 mm long x 400 μm thick is provided with a 20 mm × 30 mm × 8 mm recess (fluid storage chamber) by drawing to form a container body 1, and a fluid 2 as an oral cavity. A cleaning solution (3 ml of mint water) was stored. As the partition 3, a 17 μm hard aluminum foil with a sealing agent applied to one side having an outer size of 30 mm × 40 mm was used, and only the fluid storage chamber was sealed in advance by heat sealing. A stick with a sponge at the tip (sponge part diameter 18 mm and length 190 mm) is placed on the partition 3 as a solid substance 4, and PET (polyethylene terephthalate) 12 μm / polyester-based easy peel seal layer 40 μm from the top of the solid substance 4 The lid 5 made of the laminated film having the structure was put on, and the solid body 4 arranged on the partition 3 was sealed by heat-sealing the container body 1 and the lid 5 to prepare an oral cleaning kit. In use, the partition 3 can be easily broken by pushing the sponge portion of the solid material 4, whereby the fluid 2 can be immersed in the sponge. Next, since the container main body 1 and the lid 5 are weakly sealed, they are peeled open by pulling from the end 7 of the lid 5 (an unsealed portion is provided in advance), and the cotton swab is taken out. Can do. The disinfectant kit of the present invention is hygienic by these operations, and since the fluid does not impregnate the solid material until immediately before use, the adhesive component that connects the sponge and the plastic rod is used in the oral cavity. There is no concern of leaching into the cleaning solution.
[0027]
Example 7
A fluid-solid packaging body similar to that of Example 1 was formed except that a container body 1 was formed by using a coextruded laminated sheet of LLDPE 500 μm / cyclic polyolefin 50 μm instead of the HDPE sheet in Example 1.
[0028]
Example 8
FIG. 8 is a diagram of an adhesive kit which is an example of the fluid-solid packaging body of the present invention. A 10 mm x 10 mm x 8 mm recess (fluid storage chamber) is formed by drawing a part of a laminate film having a width of 20 mm x length of 100 mm polyamide 25 μm / aluminum foil 40 μm / LLDPE 40 μm to form a container body 1, As an animal 2, an adhesive (one liquid type 0.5 ml) was stored. As the partition 3, a 17 μm hard aluminum foil having a sealing agent applied to both sides of an outer dimension of 20 mm × 20 mm was used, and only the fluid storage chamber was sealed in advance by heat sealing. A rubber spatula (a spatula part having a diameter of 10 mm and a length of 90 mm) is placed on the partition 3 as a solid material 4, and PET (polyethylene terephthalate) 12 μm / aluminum-deposited PET 12 μm / PE-based easy peel seal layer 40 μm from above the solid material 4. A cover 5 made of a laminate film was put on, and the solid body 4 placed on the partition 3 was sealed by heat-sealing the container body 1, the partition 3, and the cover 5 to prepare an adhesive kit. During use, the partition 3 can be easily broken by pushing the spatula portion of the solid material 4, whereby the adhesive can be applied to the surface of the spatula. Next, since the container main body 1 and the lid body 5 are weakly sealed, the container body 1 and the lid body 5 are peeled and opened by pulling from the end portion 7 (an unsealed portion is provided in advance), and the rubber spatula is taken out. Can do. The adhesive kit of the present invention is easy to use by these operations and can maintain the performance of the adhesive until just before use.
[0029]
Example 9
FIG. 9 is an explanatory diagram of a hair color kit which is an example of the fluid-solid packaging body of the present invention. A recess (fluid storage chamber) of 30 mm x 60 mm x 15 mm is provided by drawing a part of an HDPE sheet 50 mm wide x 300 mm long x 800 μm thick to form a container body 1, and a cosmetic (hair) The color liquid (10 ml) was stored. As the partition 3, a 17 μm hard aluminum foil having a sealing agent applied to both sides of an outer dimension of 50 mm × 80 mm was used, and only the fluid storage chamber was sealed in advance by heat sealing. A hair color brush (length 250 mm and maximum width 40 mm) is placed on the partition 3 as a solid 4, and a laminate film of PET (polyethylene terephthalate) 12 μm / PE-based easy peel seal layer 40 μm from the top of the solid 4. A lid 5 composed of the above was put on, and the solid body 4 arranged on the partition 3 was sealed by heat-sealing the container body 1, the partition 3, and the lid 5 to prepare a hair color kit. In use, the partition 3 can be easily broken by pushing the brush portion of the solid material 4, whereby the hair color liquid can be applied to the surface of the brush. Next, since the container main body 1 and the lid 5 are weakly sealed, they are peeled and opened by pulling from the end 7 of the lid 5 (an unsealed portion is provided in advance), and the hair color brush Can be taken out. The hair color kit of the present invention can be carried, is easy to operate, and is convenient because the hair color liquid does not get on the hand when used.
[0030]
Example 10
FIG. 10 is an explanatory diagram of a cosmetic kit as an example of the fluid-solid packaging body of the present invention. A portion of an A-PET sheet 30 mm wide x 110 mm long x 400 μm thick is provided with a recess (fluid storage chamber) of 20 mm × 30 mm × 6 mm by drawing to form a container body 1, which is a cosmetic product as a fluid 2 (Light removal solution 1.5 ml) was stored. A 17 μm hard aluminum foil having a sealant applied to both sides of an outer dimension of 30 × 40 mm was used as the partition 3 and only the fluid storage chamber was sealed in advance by heat sealing. A stick with a sponge (length 80 mm and maximum width 6 mm) is placed on the partition 3 as a solid material 4, and a PET (polyethylene terephthalate) 12 μm / PE-based easy peel seal layer 40 μm laminated film from above the solid material 4. The lid 5 is covered, and the solid body 4 disposed on the partition 3 is sealed by heat-sealing the container body 1, the partition 3, and the lid 5 to prepare a cosmetic kit. During use, the partition 3 can be easily broken by pushing the sponge portion of the solid material 4, whereby the light removing liquid can be applied to the surface of the sponge. Next, since the container body 1 and the lid body 5 are weakly sealed, the container body 1 and the lid body 5 are peeled and unsealed by pulling from the end 7 of the lid body 5 (an unsealed portion is provided in advance). It can be taken out. The cosmetic kit of the present invention is portable, easy to operate and convenient.
[0031]
Example 11
FIG. 11 is an explanatory diagram of a cosmetic kit as an example of the solid-fluid package of the present invention. A cosmetic product (5 ml of skin lotion) was stored as a fluid 2 in a recess (fluid storage chamber) of an A-PET sheet formed in the same manner as in Example 9. In addition, a sponge (diameter 60 mm, thickness 5 mm) was placed on the partition 3 as the solid material 4. In use, the partition part 3 can be easily broken by pushing the sponge part of the solid material 4, whereby the surface of the sponge part can be impregnated with lotion. Next, since the container body 1 and the lid body 5 are weakly sealed, the container body 1 and the lid body 5 are peeled and opened by pulling from the end 7 of the lid body 5 (an unsealed portion is provided in advance). It can be taken out. The cosmetic sponge of the present invention is portable and easy to operate, and it is convenient because the lotion does not get on the hands when used.
[0032]
Example 12
FIG. 12 is an explanatory diagram of a fluid container used in the present invention. A HDPE sheet with a width of 20 mm x length of 30 mm x thickness of 500 μm is provided with a recess of 15 x 20 x 6 mm by drawing to form a fluid container 14, and as a fluid 2, disinfectant (10% povidone iodine solution 1.5 ml) Paid. For this, 17 μm hard aluminum coated with a sealing agent on one side having an outer dimension of 20 × 30 mm was used as the partition 3, the fluid container 14 was covered with the partition 3, and the four sides were heat-sealed. This fluid storage container stores an LLDPE sheet having a width of 30 mm, a length of 180 mm, and a thickness of 200 μm in a container body 1 formed by drawing (maximum drawing depth of 18 mm) as shown in FIG. The container body 1 was sealed and fixed by heat sealing. A cotton swab having a cotton part diameter of 12 mm and a length of 150 mm is housed as a solid on the partition 3, and a lid made of a laminate film composed of PET (polyethylene terephthalate) 12 μm / PE 20 μm / PE-based easy peel 40 μm on the container body 1. 5, and four sides of the container body 4 and the lid 5 were heat-sealed and sealed to prepare a disinfectant kit. In use, the partition 3 can be easily broken by pushing the cotton part of the cotton swab so that the fluid 2 can be immersed in the cotton. Next, since the container main body 1 and the lid 5 are weakly sealed, they are peeled open by pulling from the end 7 of the lid 5 (an unsealed portion is provided in advance), and the cotton swab is taken out. Can do. The disinfectant kit of the present invention is very hygienic because it does not touch the outside until just before use by these operations, and it can be used by immersing the disinfectant only in the necessary part at the time of use. Convenient to. This shape is also convenient because it can be easily manufactured by an automatic production machine.
[0033]
Further, sterilized paper was used instead of the laminate film of the lid 5 in FIG. 13 so that the inside of the cotton swab side could be sterilized with EOG (ethylene oxide gas) or AC (autoclave) as necessary.
Example 13
The same procedure as in Example 12 was performed except that a disinfectant (0.02% chlorhexidine gluconate solution) was used for the fluid.
Example 14
A polypropylene sheet was used in place of the HDPE sheet in Example 12, and 1.5 ml of 70% ethanol solution was stored as fluid 2. The lid 5 was covered with PET 12 μm × / PE 20 μm / polypropylene easy peel film 30 μm. The rest was performed in the same manner as in Example 12.
Example 15
Using a light removal liquid as fluid 2. After the protrusion was given to the deep drawing of the fluid container, the same operation as in Example 12 was performed. In use, by pressing from the side of the light removal liquid, the protrusion at the bottom breaks through the partition 3 and the cotton swab is impregnated with the light removal liquid.
[0034]
Example 16
An example of the fluid storage container-solid packaging body of the present invention is a kit for oral cleaning. In FIG. 7, the package is the same as that in FIG. 7 except that a fluid storage container storing the fluid 2 is used instead of storing the fluid 2 directly in the recess of the container body. An A / PET sheet 30 mm wide x 40 mm long x 400 μm thick is deep-drawn into a 20 x 30 x 8 mm recess to form a fluid container 14, which contains oral cleansing fluid (3 ml of mint water) as fluid 2 did. A fluid storage container was sealed by heat sealing using a 17 μm hard aluminum foil with a sealant applied to one side with an outer dimension of 30 × 40 mm as the partition 3. This fluid storage container stores an LLDPE sheet having a width of 40 mm, a length of 220 mm, and a thickness of 200 μm in a container body 1 formed by drawing (maximum drawing depth of 26 mm), and the fluid storage container 14 and the container body 1 are adhesive. Fixed by. On the partition 3, a stick with a sponge at the tip as a solid 4 (sponge part diameter 18mm and length 190mm) is placed on the container body 1 PET (polyethylene terephthalate) 12μm / polyester-based easy peel film 40μm configuration The lid body 5 made of the laminate film was covered, and the container body 1 and the lid body 5 were heat sealed and sealed to prepare a disinfectant kit. In use, the partition 3 can be easily broken by pushing the sponge portion of the solid material 4, whereby the fluid 2 can be immersed in the sponge. Next, since the container main body 1 and the lid 5 are weakly sealed, they are peeled open by pulling from the end 7 of the lid 5 (an unsealed portion is provided in advance), and the cotton swab is taken out. Can do. The disinfectant kit of the present invention is hygienic by these operations, and since the fluid does not impregnate the solid material until just before use, the adhesive component that connects the sponge and the plastic rod is used in the oral cavity. There is no concern of leaching into the cleaning solution.
[0035]
Example 17
An example of the fluid storage container-solid packaging body of the present invention is an adhesive kit. 8 is a package similar to that shown in FIG. 8 except that the fluid storage container 14 storing the fluid 2 is used instead of storing the fluid 2 directly in the recess of the container. A part of a laminate sheet having a width of 16 mm × length of 16 mm LLDPE 40 μm / aluminum foil 40 μm / LLDPE 40 μm is provided with a 10 × 10 × 8 mm recess (fluid storage chamber) by drawing to form a fluid storage container 14. An adhesive (0.5 ml of one liquid type) was stored as fluid 2. A fluid storage container 14 was sealed by heat sealing using a 17 μm hard aluminum foil with a sealing agent applied to one side of an outer dimension of 16 × 16 mm as the partition 3. This fluid storage container stores a LLDPE sheet having a width of 24 mm, a length of 110 mm, and a thickness of 150 μm in a container body 1 formed by drawing (maximum squeezing depth of 18 mm) as shown in the figure. Were fixed by heat sealing. A rubber spatula (a spatula diameter of 10 mm and a length of 90 mm) is placed on the partition 3 as a solid material 4, and a laminate of PET (polyethylene terephthalate) 12 μm / aluminum-deposited PET 12 μm / PE-based easy peel film 40 μm on the container body 1. A lid 5 made of a film was covered, and the container body 1 and the lid 5 were sealed by heat sealing to produce an adhesive kit. During use, the partition 3 can be easily broken by pushing the spatula portion of the solid material 4, whereby the adhesive can be applied to the surface of the spatula. Next, since the container main body 1 and the lid body 5 are weakly sealed, the container body 1 and the lid body 5 are peeled and opened by pulling from the end portion 7 (an unsealed portion is provided in advance), and the rubber spatula is taken out. Can do. The adhesive kit of the present invention is easy to use by these operations, and can maintain the performance of the adhesive until just before use.
[0036]
Example 18
A hair color kit is an example of the fluid container-solids package of the present invention. In FIG. 11, the packaging body is the same as that in FIG. 11 except that a fluid storage container storing the fluid 2 is used instead of storing the fluid 2 directly in the recess of the container. Polypropylene 200 μm wide × 70 mm long / adhesive layer 25 μm / cyclic polyolefin 50 μm / adhesive layer 25 μm / polypropylene 200 μm A multilayer coextruded sheet is deep-drawn into a 30 × 60 × 15 mm recess to form a fluid container 14. Cosmetic product (hair color solution 10 ml) was stored as fluid 2. This fluid storage container accommodates a polypropylene sheet having a width of 80 mm, a length of 300 mm, and a thickness of 400 μm in a container body 1 formed by drawing (maximum squeezing depth 55 mm) as shown in the figure, and the fluid storage container 14 and the container body 1 Were fixed by heat sealing. A fluid storage container was sealed by heat sealing using a 17 μm hard aluminum foil having a sealing agent applied to one side having an outer dimension of 40 × 70 mm as the partition 3. A hair color comb (250 mm in length and maximum width 40 mm) is placed on the partition 3 as a solid material 4, and a PET (polyethylene terephthalate) 12 μm / polypropylene-based easy peel film 40 μm laminated film from above the solid material 4. The cover body 5 is covered, and the container body 1 and the cover body 5 are heat-sealed and sealed to prepare a hair color kit. In use, the partition 3 can be easily broken by pushing the comb portion of the solid material 4, whereby the hair color liquid can be applied to the surface of the comb. Next, since the container body 1 and the lid body 5 are weakly sealed, they are peeled and opened by pulling from the end portion 7 (an unsealed portion is provided in advance) of the lid body 5 and the hair color comb. Can be taken out. The hair color kit of the present invention can be carried, is easy to operate, and is convenient because the hair color liquid does not get on the hand when used.
[0037]
Example 19
A cosmetic kit is an example of the fluid container-solid packaging body of the present invention. In FIG. 10, it is the same packaging body as FIG. 10 except having used the fluid storage container which accommodated the fluid 2 instead of accommodating the fluid 2 directly in the recessed part of a container. An A-PET sheet 30 mm wide x 40 mm long x 400 μm thick is formed into a 20 x 30 x 6 mm concavity to form a fluid container 14, which is used as fluid 2 for cosmetics (light-removing solution 1.5 ml). Stowed. The fluid storage container 14 was sealed by heat sealing using a 17 μm hard aluminum foil with a sealing agent applied to both sides of an outer dimension of 30 × 40 mm as the partition 3 also serving as a lid. This fluid storage container stores a LLDPE sheet having a width of 40 mm, a length of 110 mm, and a thickness of 150 μm in a container body 1 formed by drawing (maximum squeezing depth 12 mm) as shown in the figure. Were fixed with an adhesive. A stick with a sponge (length 80 mm and maximum width 6 mm) is arranged on the partition 3 as a solid material 6, and is composed of a laminate film of PET (polyethylene terephthalate) 12 μm / PE-based easy peel film 40 μm from the top of the container body 1. The cover 5 was put on, and the container body 1 and the cover 5 were heat-sealed and sealed to prepare a cosmetic kit. During use, the partition 3 can be easily broken by pushing the sponge portion of the solid material 6, and thus the light removing liquid can be applied to the surface of the sponge. Next, since the container body 1 and the lid body 5 are weakly sealed, the container body 1 and the lid body 5 are peeled and unsealed by pulling from the end 7 of the lid body 5 (an unsealed portion is provided in advance). It can be taken out. The cosmetic kit of the present invention is portable, easy to operate and convenient.
[0038]
Example 20
It is a cosmetic kit which is an example of the solid-fluid package of the present invention. Cosmetic product (5 ml of skin lotion) was stored as fluid 2 in a recess (fluid storage chamber) of an A-PET sheet formed in the same manner as in Example 19. Moreover, it carried out similarly to Example 19 except having arrange | positioned sponge (diameter 60mm thickness 5mm) as the solid substance 4 on the partition 3. FIG.
[0039]
Next, as a fluid container, a film or sheet containing cyclic polyolefin was used, and the storage stability when filled with a disinfectant composed of a popidone iodine solution or a chlorhexidine gluconate solution was examined.
Example 21
COP (Zenoa 750R: manufactured by Nippon Zeon Co., Ltd.) 100 μm / HDPE (Hi-Zex 5000SF: manufactured by Sumitomo Mitsui Polyolefin Co., Ltd.) 100 μm / LLDPE (MORETECH 3500Z: manufactured by Idemitsu Petrochemical Co., Ltd.) 30 μm of a co-extruded sheet having a total thickness of 230 μm was used. A fluid storage container 30 mm × 30 mm wide × 10 mm deep and deeply drawn into a conical protruding shape similar to that of FIG. 6 having a diameter of 10 mm and a height of 8 mm is formed at the bottom, and 10% popidone iodine is formed on this container. The solution was filled with 5 ml, covered with the same sheet as a lid, and sealed by heat sealing.
The liquid weight change of the filling liquid and the effective iodine residual ratio in the filling liquid were measured immediately after storage for 6 months in an environment of 40 ° C. and 75%. The results are shown in Table 1. Good results were obtained when the liquid weight and effective iodine change rate were within 10%. Further, when the container was sealed with aluminum foil and the bottom was pressed, the container was deformed and the protrusions could break through the aluminum foil.
[0040]
Example 22
COP (Zenoa 750R: manufactured by Nippon Zeon Co., Ltd.) 50 μm / LLDPE (Moertech 3500Z: manufactured by Idemitsu Petrochemical Co., Ltd.): α-olefin copolymer (Tuffmer: manufactured by Mitsui Petrochemical Co., Ltd.) = 8: 2 600 μm / LLDPE (Moertech 3500Z: Idemitsu Petrochemical) Using a co-extruded sheet of 50 μm with a total thickness of 700 μm, a conical protruding ridge similar to that of FIG. 6 having a length of 25 mm × width of 25 mm × depth of 20 mm and a diameter of 15 mm and a height of 18 mm. The fluid container was drawn and filled with 5 ml of a 10% popidone iodine solution or 1% popidone iodine solution, covered with the same sheet as a lid, and sealed by heat sealing.
The liquid weight change of the filling liquid and the effective iodine residual ratio in the filling liquid were measured immediately after storage for 6 months in an environment of 40 ° C. and 75%. The results are shown in Table 1. Good results were obtained when the liquid weight and effective iodine change rate were within 10%. Further, when the container was sealed with aluminum foil and the bottom was pressed, the container was deformed and the protrusions could break through the aluminum foil.
[0041]
Example 23
COP (Zenoa 750R: manufactured by Nippon Zeon Co., Ltd.) 20 μm / adhesion layer (Admer: manufactured by Mitsui Petrochemical Co., Ltd.) 30 μm / PP (VSRLB340G: manufactured by Chisso Corporation): Elastomer (Dynalon: manufactured by JSR) = 7: 3 250 μ / PP ( VSRLB340G (manufactured by Chisso Corporation) Using a co-extruded sheet of 50 μm and a total thickness of 400 μm, a conical protrusion similar to that of FIG. 6 having a length of 15 mm × width of 25 mm × depth of 5 mm, a diameter of 10 mm and a height of 4 mm The fluid storage container was drawn and filled with 1 ml of 10% popidone iodine solution or 1% popidone iodine solution, and the sheet was put on top as a lid and sealed by heat sealing. The liquid weight change of the filling liquid and the effective iodine residual ratio in the filling liquid were measured immediately after storage for 6 months in an environment of 40 ° C. and 75%. The results are shown in Table 1. Good results were obtained when the liquid weight and effective iodine change rate were within 10%. Further, when the container was sealed with aluminum foil and the bottom was pressed, the container was deformed and the protrusions could break through the aluminum foil.
[0042]
Reference example 1
Using a LLDPE 700 μm sheet, a fluid storage container having the same shape as in Example 22 was formed, and the same test as in Example 22 was performed. The results are shown in Table 1. The residual ratio of the liquid weight and the change rate of iodine as an effective element were 10% or more, the stability could not be maintained, and the fluid storage container was somewhat hard.
[0043]
Reference example 2
A HDPE 400 μm sheet was used to form a fluid container having the same shape as in Example 23, and the same test as in Example 23 was performed. The results are shown in Table 1. The stability could not be maintained at a low concentration, and no deformation occurred even when the bottom part was pushed.
[0044]
[Table 1]

[0045]
Example 24
COP (Zenoa 1020R: manufactured by Zeon Corporation) 20 μm / adhesion layer (Admer: Mitsui Petrochemical Co., Ltd.) 30 μm / PP (VSRLB340G: manufactured by Chisso Corporation): Elastomer (Dynalon: manufactured by JSR Corporation) = 7: 3 250 μ / PP ( VSRLB340G (manufactured by Chisso Corp.) using a co-extruded sheet of 50 μm and a total thickness of 400 μm, 15 mm long × 25 mm wide × 5 mm deep, with a conical protrusion similar to that of FIG. A fluid storage container having the above was formed into a sheet, filled with 1 ml of 0.02% or 1% chlorhexidine gluconate solution, covered with the same sheet as a lid, and sealed by heat sealing. The liquid weight change of the filling liquid and the effective iodine residual ratio in the filling liquid were measured immediately after storage for 6 months in an environment of 40 ° C. and 75%. The results are shown in Table 2. Good results were obtained when the rate of change in liquid weight and chlorhexidine gluconate concentration was within 10%.
[0046]
Reference example 3
A PP 400 μm sheet is used to form a fluid storage container having the same shape as in Example 24. This is filled with 1 ml of 0.02% or 1% chlorhexidine gluconate solution and covered with the same sheet as a lid and heated. Sealed with a seal and the same test as in Example 24 was performed. The results are shown in Table 2. A decrease of 10% or more was confirmed in the concentration.
[0047]
[Table 2]

[0048]
【The invention's effect】
As described above, the fluid is stored in one of the packaging containers divided into at least two storage chambers, the solid material is stored in the other chamber, and the partition is broken so that the fluid is placed in the hand or finger. Since the solid material can be impregnated with the disinfectant without adhering, the operation is very simple, and it is economical because it is not necessary to attach an excessive amount of fluid. In addition, it is not exposed to the outside air until it is impregnated with the fluid, and is hygienic because it is used up once. Further, during storage, since the fluid is not impregnated with the solid, it is contained in the fluid of the solid component. There is no concern about elution.
In addition, when a fluid storage container for storing fluid is used, the storage container and the solid material are stored in the same packaging container, and the partition can be ruptured. Even if the product becomes large, it is possible to prevent the occurrence of distortion of the film on the solid material side, and thereby it is possible to achieve effects such as easy position adjustment in an automatic production machine.
Furthermore, when a sheet containing cyclic polyolefin is used as the material constituting the fluid storage container, the popidone iodine solution and the chlorhexidine gluconate solution can be stably maintained for a long time even if the thickness of the fluid storage container is reduced. Since it is possible, it becomes possible to adjust the hardness of a fluid storage container. In addition, by using a cyclic polyolefin having a low glass transition temperature, there are effects such as easy film thickness control, sheet molding, and drawing molding.
[0049]
【The invention's effect】
As described above, the fluid is stored in one of the packaging containers divided into at least two storage chambers, the solid material is stored in the other chamber, and the partition is broken so that the fluid is placed in the hand or finger. Since the solid material can be impregnated with the disinfectant without adhering, the operation is very simple, and it is economical because it is not necessary to attach an excessive amount of fluid. In addition, it is not exposed to the outside air until it is impregnated with the fluid, and is hygienic because it is used up once, and further, during storage, the fluid is not impregnated with the fluid, so the solid component is in the fluid. There is no concern about elution.
In addition, when a fluid storage container for storing fluid is used, the storage container and the solid material are stored in the same packaging container, and the partition can be ruptured. Even if the product becomes large, it is possible to prevent the occurrence of distortion of the film on the solid material side, and thereby it is possible to achieve effects such as easy position adjustment in an automatic production machine.
Furthermore, when a sheet containing cyclic polyolefin is used as the material constituting the fluid storage container, the popidone iodine solution and the chlorhexidine gluconate solution can be stably maintained for a long time even if the thickness of the fluid storage container is reduced. Since it is possible, it becomes possible to adjust the hardness of a fluid storage container. In addition, by using a cyclic polyolefin having a low glass transition temperature, there are effects such as easy film thickness control, sheet molding, and drawing molding.
[Brief description of the drawings]
FIG. 1 is an example of a package according to the present invention, in which (a) is a plan view thereof and (b) is a side view thereof.
[Figure 2 It is a side view of another example of a package according to the present invention.
[Figure 3 It is a side view of another example of a cotton swab used in the package according to the present invention.
[Figure 4 Another example of the partition used in the package according to the present invention, (a) is a plan view thereof, and (b) is a side view when the partition is used.
[Figure 5 It is a side view of another example of a package according to the present invention.
[Figure 6 It is a side view of another example of a package according to the present invention.
[Figure 7 It is a side view of another example of the package according to the present invention, in which (a) is a plan view thereof and (b) is a side view thereof.
[Figure 8 FIG. 11 is a side view of another example of the fluid-solid package according to the present invention, wherein (a) is a plan view thereof and (b) is a side view thereof.
[Figure 9 FIG. 11 is a side view of another example of the fluid-solid package according to the present invention, wherein (a) is a plan view thereof and (b) is a side view thereof.
[Figure 10 FIG. 11 is a side view of another example of the fluid-solid package according to the present invention, wherein (a) is a plan view thereof and (b) is a side view thereof.
[Figure 11 It is a side view of a fluid container used in the present invention.
[Figure 12 FIG. 10 is a side view of an example of a fluid container-solid packaging according to the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Container body 2 Fluid 3 Partition 4 Solid 5 Lid 6 Sterile paper 7 Lid end
8 Drawing-molded lid 9 Protrusion 10 Perforation 11 Protrusion 12 Polypropylene sheet
13 Incision (fragile part) 14 Fluid storage container 15 Sheet substrate of fluid storage container
16 Cotton swab

Claims (9)

A packaging body in which a fluid and a solid material having a gripping portion and a fluid impregnation portion are stored in the same packaging container, with a partition made up of walls separated from each other so that the fluid faces only the fluid impregnation portion The partition is fixed to the inner wall of the packaging container and is broken by an external force applied to the packaging container, so that the fluid can be impregnated or attached only to the fluid-impregnated portion of the solid material. A package characterized by being. A packaging body in which a fluid and a solid material having a gripping portion and a fluid impregnation portion are stored in the same packaging container, with a partition made up of walls separated from each other so that the fluid faces only the fluid impregnation portion The partition is a wall of a fluid storage container in which a fluid is stored, and the fluid is impregnated only in a solid fluid impregnation portion by being broken by an external force applied to the packaging container. Or a package characterized in that it can be attached .   The package according to claim 2, wherein the fluid container is a container manufactured by drawing a sheet containing a cyclic polyolefin. The package according to any one of claims 1 to 3 , wherein a fragile portion is provided in the partition. The package according to any one of claims 1 to 4 , wherein the solid substance having the fluid and the gripping part and the fluid impregnated part is maintained in a sterilized state. The package according to any one of claims 1 to 5 , wherein at least a part of the packaging container is drawn. The package according to any one of claims 1 to 6 , wherein the fluid is any one of cosmetics, cleaning liquids, pharmaceuticals, paints, and adhesives. The package according to any one of claims 1 to 7 , wherein the fluid is a disinfectant containing at least one kind of medicine selected from the group consisting of povidone iodine, isopropanol, ethanol, and chlorhexidine gluconate. A deposition method for fluids which only fluids to fluids impregnation of solids using a package according to claim 1-8, wherein is impregnated or deposited, the added force from the outside of the package A method for attaching a fluid, comprising a step of breaking a partition.

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