WO2015115500A1 - 服用物収容セル、ストリップ包装体、及び、服用物収容セルの製造方法 - Google Patents
服用物収容セル、ストリップ包装体、及び、服用物収容セルの製造方法 Download PDFInfo
- Publication number
- WO2015115500A1 WO2015115500A1 PCT/JP2015/052400 JP2015052400W WO2015115500A1 WO 2015115500 A1 WO2015115500 A1 WO 2015115500A1 JP 2015052400 W JP2015052400 W JP 2015052400W WO 2015115500 A1 WO2015115500 A1 WO 2015115500A1
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- WIPO (PCT)
- Prior art keywords
- interlocking piece
- sheet
- dose
- storage cell
- article
- Prior art date
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Classifications
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61J—CONTAINERS SPECIALLY ADAPTED FOR MEDICAL OR PHARMACEUTICAL PURPOSES; DEVICES OR METHODS SPECIALLY ADAPTED FOR BRINGING PHARMACEUTICAL PRODUCTS INTO PARTICULAR PHYSICAL OR ADMINISTERING FORMS; DEVICES FOR ADMINISTERING FOOD OR MEDICINES ORALLY; BABY COMFORTERS; DEVICES FOR RECEIVING SPITTLE
- A61J1/00—Containers specially adapted for medical or pharmaceutical purposes
- A61J1/03—Containers specially adapted for medical or pharmaceutical purposes for pills or tablets
- A61J1/035—Blister-type containers
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61J—CONTAINERS SPECIALLY ADAPTED FOR MEDICAL OR PHARMACEUTICAL PURPOSES; DEVICES OR METHODS SPECIALLY ADAPTED FOR BRINGING PHARMACEUTICAL PRODUCTS INTO PARTICULAR PHYSICAL OR ADMINISTERING FORMS; DEVICES FOR ADMINISTERING FOOD OR MEDICINES ORALLY; BABY COMFORTERS; DEVICES FOR RECEIVING SPITTLE
- A61J1/00—Containers specially adapted for medical or pharmaceutical purposes
- A61J1/03—Containers specially adapted for medical or pharmaceutical purposes for pills or tablets
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
- B65D75/00—Packages comprising articles or materials partially or wholly enclosed in strips, sheets, blanks, tubes, or webs of flexible sheet material, e.g. in folded wrappers
- B65D75/28—Articles or materials wholly enclosed in composite wrappers, i.e. wrappers formed by associating or interconnecting two or more sheets or blanks
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
- B65D75/00—Packages comprising articles or materials partially or wholly enclosed in strips, sheets, blanks, tubes, or webs of flexible sheet material, e.g. in folded wrappers
- B65D75/28—Articles or materials wholly enclosed in composite wrappers, i.e. wrappers formed by associating or interconnecting two or more sheets or blanks
- B65D75/30—Articles or materials enclosed between two opposed sheets or blanks having their margins united, e.g. by pressure-sensitive adhesive, crimping, heat-sealing, or welding
- B65D75/32—Articles or materials enclosed between two opposed sheets or blanks having their margins united, e.g. by pressure-sensitive adhesive, crimping, heat-sealing, or welding one or both sheets or blanks being recessed to accommodate contents
- B65D75/36—Articles or materials enclosed between two opposed sheets or blanks having their margins united, e.g. by pressure-sensitive adhesive, crimping, heat-sealing, or welding one or both sheets or blanks being recessed to accommodate contents one sheet or blank being recessed and the other formed of relatively stiff flat sheet material, e.g. blister packages, the recess or recesses being preformed
- B65D75/366—Articles or materials enclosed between two opposed sheets or blanks having their margins united, e.g. by pressure-sensitive adhesive, crimping, heat-sealing, or welding one or both sheets or blanks being recessed to accommodate contents one sheet or blank being recessed and the other formed of relatively stiff flat sheet material, e.g. blister packages, the recess or recesses being preformed and forming one compartment
Definitions
- the present invention relates to a clothes-receiving cell, a strip package, and a method for manufacturing a clothes-containing cell, and more specifically, a clothes-containing cell, a strip package, and a person who can easily open a fingertip.
- the present invention relates to a method for manufacturing a dose-receiving cell.
- Patent Document 1 discloses a solid preparation package. This comprises a storage part for storing the solid preparation and a seal part for closing the periphery of the storage part. At least one region of the seal portion is a weak seal portion that can be opened. The weak seal portion has a length that can form an opening. Through this opening, the solid preparation in the storage section can pass.
- the storage part is formed of a soft packaging material.
- the flexible packaging material allows the solid preparation in the storage unit to be pinched with fingers.
- the flexible packaging material has one or more resin layers.
- the solid preparation package disclosed in Patent Document 1 can be easily opened by those who have weak fingertips and who can use only one hand.
- Patent Document 1 The solid preparation package disclosed in Patent Document 1 has a problem that a person who has difficulty moving his fingertips cannot be easily opened.
- the technical problem of the present invention has been made to solve the above-mentioned problems, and the object thereof is to provide an article-containing cell, a strip package, and a package that can be easily opened by a person who cannot easily move his fingertips.
- An object of the present invention is to provide a method for producing a dose-receiving cell.
- a dose storage cell, a strip package, and a method for manufacturing a dose storage cell according to the present invention will be described with reference to the drawings. Note that the use of the reference numerals in the figure in this column is intended to assist understanding of the contents of the invention, and is not intended to limit the contents to the illustrated range.
- the dose storage cells 12, 14, 18, 312 and 314 include storage units 20 and 320 for storing the dose 100.
- the accommodating parts 20 and 320 have the outlets 30 and 330 of the article 100 to be taken.
- the outlets 30 and 330 are formed by overlapping sheets 60, 62, 360 and 362. Overlapping sheets 60, 62, 360, 362 are folded to close outlets 30, 330.
- the attaching strength can be reduced.
- the overlapping sheets 60, 62, 360, and 362 may not be attached. Thereby, even those who have difficulty moving their fingertips can be easily opened.
- the above-described dose storage cells 12, 14, 18, 312 and 314 include a sheet restraining portion in addition to the storage portions 20 and 320.
- seat restraint part restrains a part of sheet
- the sheet restraining portion described above has the interlocking piece 22.
- the interlocking piece 22 is provided on one of the overlapping sheets 60 and 62.
- the interlocking piece 22 has a root portion 40 and a tip portion 42.
- the root portion 40 is provided so as to continue to the edge of the outlet 30.
- the distal end portion 42 continues to the root portion 40.
- At least a part of the root portion 40 is separated from the surface of the accommodating portion 20.
- the leading end portion 42 is fixed to the accommodating portion 20 in a state where the overlapped sheets 60 and 62 are bent so as to close the outlet 30.
- At least a part of the root portion 40 of the interlocking piece 22 is separated from the surface of the accommodating portion 20.
- the distal end portion 42 of the interlocking piece 22 is stopped by the accommodating portion 20 in a state where the overlapped sheets 60 and 62 are bent so as to close the outlet 30.
- an object such as a human finger is inserted into the root portion 40 of the interlocking piece 22 away from the surface of the accommodating portion 20, the distal end portion 42 of the interlocking piece 22 can be separated from the accommodating portion 20.
- the front end portion 42 of the interlocking piece 22 is separated from the housing portion 20 and the folded and overlapped sheets 60 and 62 forming the outlet 30 are stretched, it becomes possible to take out the dose 100 from the housing portion 20 through the outlet 30.
- the movement of the interlocking piece 22 is restrained until it is separated from it.
- the movements of the overlapping sheets 60 and 62 are also restricted. Since the movement of the overlapped sheets 60 and 62 is restrained, the opening 30 is prevented from opening until the front end portion 42 of the interlocking piece 22 is separated from the accommodating portion 20.
- the overlapping sheets 60 and 62 can be unconstrained. Since the restraint is released, the outlet 30 can be opened.
- the outlet 30 can be opened. Accordingly, even those who have difficulty moving their fingertips can be easily opened.
- the sheet restraining portion described above has the interlocking piece 322.
- the interlocking piece 322 is provided on one of the overlapping sheets 360 and 362.
- the interlocking piece 322 is stopped by the accommodating portion 320 in a state where the interlocking piece 322 is bent so as to close the outlet 330 via the notch portion 340.
- the notch 340 is provided on the other side of the overlapped sheets 360 and 362.
- the overlapping sheets 60, 62, 360, 362 forming the outlets 30, 330 described above are attached to each other so as to close the outlets 30, 330.
- the folded portions 52 and 354 of the overlapping sheets 60, 62, 360, and 362 are attached to the side on which the article 100 is present or attached to each other as viewed from the regions 32 and 332 that are attached to each other. It is desirable to arrange in the areas 32 and 332.
- the bent portions 52, 354 are viewed from the regions 32, 332 attached to each other, the side where the article 100 is present, or the regions 32 attached to each other, Therefore, the outlets 30 and 330 are closed by the sheets 60, 62, 360, and 362 that are folded and overlapped with the regions 32 and 332 that are attached to each other.
- the overlapping sheets 60, 62, 360, and 362 that form the outlets 30 and 330 are attached to each other, the overlapping sheets 60 while the leading end portions 42 of the interlocking pieces 22 and 322 are fastened to the storage unit 20. , 62, 360, 362 are folded to close the outlets 30, 330, so that the outlets 30, 330 can be tightly closed.
- the overlapping sheets 60, 62, 360, and 362 are not folded so as to close the outlets 30 and 330 but are attached to each other only. Compared to the above, it is possible to reduce the bonding strength between the overlapping sheets 60, 62, 360, and 362. Since the affixing strength can be lowered, the same sealing as when the outlets 30 and 330 are sealed only by the overlapping sheets 60, 62, 360, and 362 being affixed to each other is possible. Even those who have difficulty moving their fingertips can be easily opened.
- the above-described accommodating portion 320 has a restricting portion 342 in addition to the outlet 330.
- the restriction part 342 restricts the movable range in the accommodation part 320 of the article 100.
- the restriction unit 342 restricts the movable range of the dose 100 in the accommodation unit 320, the administration item 100 is less likely to enter the interior of the accommodation unit 320 than when there is no such limitation. If it is difficult for the article 100 to enter the interior of the housing part 320, it will be easier to take out the article 100 from the container part 320 than when it is not.
- the friction coefficient of the inner side surface of the container 320 that contacts the dose 100 is lower than the friction coefficient of the outer side surface.
- the inner side surface of the accommodation unit 320 is more slippery than the outer side surface of the accommodation unit 320. Since the inner surface of the container 320 is more slippery than the outer surface, it is easier for a person who cannot apply sufficient force to the object with the fingertip than when the container 100 is not.
- the accommodating portion 320 described above has an outer edge portion 376 having a curved outline.
- the outer edge portion 376 having a curved outline is less likely to damage a human body than a portion having an acute angle and a portion having a right angle.
- the accommodating part 320 has the outer edge part 376 whose outline is curvilinear, the possibility that the outer edge part 376 of the accommodating part 320 will hurt the human body is lower than when the accommodating part 320 does not have this.
- the outer edge portion 376 of the storage part 320 is less likely to hurt the person's internal organs.
- the strip package 10, 310 includes a plurality of dose storage cells 12, 14, 312, 314.
- the dose storage cells 12, 14, 312, 314 are arranged to form rows 70, 72.
- the article storage cells 12, 14, 312, 314 have storage units 20, 320.
- the accommodating parts 20 and 320 accommodate the dose 100.
- the accommodating parts 20 and 320 have the outlets 30 and 330 of the article 100 to be taken.
- the outlets 30 and 330 are formed by overlapping sheets 60 and 62. Overlapping sheets 60, 62, 360, 362 are folded to close outlets 30, 330.
- Individual dose storage cells 12, 14, 312 and 314 can be easily opened even by persons who have difficulty moving their fingertips skillfully.
- the plurality of dose storage cells 12 and 14 described above are arranged to form a plurality of rows 70 and 72.
- the strip package 10 includes the inter-row bending portion 16 in addition to the plurality of rows 70 and 72.
- the inter-row bent portion 16 is provided between the rows 70 and 72.
- the dose storage cells 12 and 14 include an interlocking piece 22 in addition to the storage portion 20.
- the interlocking piece 22 is provided on one of the overlapping sheets 60 and 62.
- the interlocking piece 22 has a root portion 40 and a tip portion 42.
- the root portion 40 is provided so as to continue to the edge of the outlet 30.
- the distal end portion 42 continues to the root portion 40.
- At least a part of the root portion 40 is separated from the surface of the accommodating portion 20.
- the front end portion 42 is fastened to the accommodating portion 20 in a state where the overlapping sheets 60 and 62 are bent so as to close the outlet 30.
- the dose-receiving cell 12 constituting any one of the plurality of rows 70 overlaps any one of the other rows 72 when the inter-row folding portion 16 is bent. It is desirable that the dose-receiving cell 12 constituting any one of the plurality of rows 70 is shifted from the dose-receiving cell 14 constituting any one of the other rows 72.
- the dose storage cell 12 constituting any one of the plurality of rows 70 is shifted with respect to the dose storage cell 14 constituting any of the other rows 72, there is no shift as described above.
- the dose 100 in the dose-receiving cell 12 constituting any one of the plurality of rows 70 is shifted from the dose 100 in the dose-receiving cell 14 constituting any one of the other rows 72. It becomes easy to become.
- the strip packaging body 10 in a state where the dose storage cells 12 constituting any one of the plurality of rows 70 overlap one of the other rows 72 as compared to the case where no shift occurs. Becomes thinner. As the strip package 10 becomes thinner, the space required for storage becomes smaller.
- the above-described strip package 310 has at least one connecting portion 316 in addition to the plurality of dose storage cells 312 and 314.
- the connection part 316 is arrange
- the connection part 316 connects the clothing receiving cells 312 and 314 to each other.
- at least one of the connecting portions 316 can be bent so that the article storage cells 312 and 314 face each other.
- the method for manufacturing a dose storage cell is a method for manufacturing the dose storage cell 12, 14, 18, 312, 314.
- the dose storage cells 12, 14, 18, 312, 314 are made of sheets 110, 112, 510, 512.
- a dose 100 is stored in the dose storage cells 12, 14, 18, 312, 314.
- the manufacturing method of the article storage cell includes accommodation bonding steps S200 and S600 and bending steps S206 and S606.
- the accommodating and bonding steps S200 and S600 the article 100 is accommodated between the overlapping sheets 110, 112, 510, and 512.
- the surrounding regions 32, 34, 36, 332, 334, and 336 are bonded to form the outlets 30 and 330 of the article 100.
- the surrounding areas 32, 34, 36, 332, 334, and 336 are around the article 100 among the overlapping sheets 110, 112, 510, and 512.
- the bent portions 52 and 354 are bent.
- the bent portions 52 and 354 are predetermined portions of the overlapped sheets 110, 112, 510, and 512.
- the bent portions 52 and 354 are in the direction in which the outlets 30 and 330 are located when viewed from the article 100.
- the above-described overlapping sheets 110 and 112 include the interlocking piece forming sheet 110 and the cover forming body 112.
- the cover forming body 112 covers a part of the interlocking piece forming sheet 110.
- the folding step S206 includes the following steps.
- the process is a step in which the bent portion 52 is bent so that the interlocking piece portion 160 faces at least one of the cover forming body 112 and any part other than the interlocking piece portion 160 of the interlocking piece forming sheet 110. is there.
- the interlocking piece portion 160 is any portion of the interlocking piece forming sheet 110 that is not covered with the cover forming body 112.
- the method for manufacturing the article-receiving cell further includes a counter part storing step S208.
- the opposing part collecting step S208 any part of the interlocking piece portion 160 is stopped at the opposing part in the bending step S206.
- the folding step S606 includes the steps described below.
- the folding portion 354 is bent so that the interlocking piece portion faces one of the overlapping sheets on the other side 510 other than the interlocking piece portion through the cutout of one of the overlapping sheets 512.
- the interlocking piece portion is any portion that is not covered with one of the overlapping sheets 512 out of the other 510 of the overlapping sheets.
- the manufacturing method of the dose storage cells 312 and 314 further includes an opposing location storing step S608. In the facing location stopping step S608, the interlocking piece portion is stopped at a location facing the other side 510 of the overlapped sheet via the notch.
- FIG. 1 is a plan view showing a strip package 10 according to the present embodiment.
- the strip package 10 according to the present embodiment will be described with reference to FIG.
- the strip package 10 according to the present embodiment includes a plurality of small-sized apparel storage cells 12, a plurality of large-size apparel storage cells 14, and an inter-row bent portion 16.
- Both the small-sized item storage cell 12 and the large-sized item storage cell 14 store the item 100.
- the small-sized article storage cells 12 are arranged to form the first row 70.
- the large-sized article storage cells 14 are arranged to form the second row 72. Except for the points described below, the structure of the small article storage cell 12 and the structure of the large article storage cell 14 are the same. The point is that, as shown in FIG. 1, the length in the width direction of the first row 70 of the small article storage cell 12 is the width direction of the second row 72 of the large article storage cell 14. It is short compared to the length of.
- dose means a solid that can be taken by any human or animal.
- the size of the product 100 is not particularly limited. Therefore, the dose 100 may be a powder or a lump.
- the dose 100 may or may not be toxic to humans or animals.
- the dose may be a food such as confectionery. 1 is in the form of a well-known tablet.
- the inter-row bending portion 16 is provided between the first row 70 and the second row 72.
- the length in the width direction of the first row 70 of the small-sized item-receiving cell 12 is shorter than the length in the width direction of the second row 72 of the large-size item-containing cell 14. Therefore, in the strip package 10 according to this embodiment, the position of the inter-row bent portion 16 is deviated from the center of the strip package 10.
- the inter-row bent portion 16 is provided with a perforation. Thereby, the strip package 10 according to the present embodiment can be bent at the inter-row bent portion 16. Further, the first row 70 and the second row 72 can be easily separated.
- FIG. 2 is a plan view showing a state in which the strip package 10 according to the present embodiment is folded in half.
- the small-sized article-receiving cell 12 constituting the first row 70 has the second row 72 when the strip package 10 is bent at the inter-row bent portion 16.
- the large-size apparel storage cell 14 constituting the second row 72 is located between the two small-size apparel storage cells 12 constituting the first row 70. They are lined up to face each other. Moreover, as shown in FIG. 1 and as described above, the length in the width direction of the first row 70 of the small-sized item-receiving cell 12 is the width of the second row 72 of the large-size item-containing cell 14. Shorter than the length in the direction.
- the strip package 10 when the strip package 10 is bent at the inter-row bent portion 16, the clothes 100 and the large-size clothes accommodated in the small-size clothes-receiving cell 12 are stored. It is difficult to face the dose 100 stored in the item storage cell 14. Thereby, even if the article 100 is in the form of a tablet, the thickness of the strip package 10 that is bent at the inter-row bent portion 16 can be suppressed. When the thickness of the strip package 10 is suppressed, a space required for storage is reduced.
- FIG. 3 is a perspective view of the small-sized article storage cell 12 according to the present embodiment.
- FIG. 4 is a perspective view showing a state in which the distal end portion 42 of the interlocking piece 22 is separated from the accommodating portion 20 of the small-sized article accommodating cell 12 according to the present embodiment. In FIG. 4, a part of the small article storage cell 12 is cut away.
- the structure of the small-sized apparel storage cell 12 according to the present embodiment will be described. Note that, as described above, the structure of the small-sized article storage cell 12 and the structure of the large-sized article storage cell 14 are the same. Therefore, description of the structure of the large-sized article storage cell 14 is omitted.
- the small-sized article storage cell 12 according to the present embodiment is obtained by bonding the interlocking piece-attached sheet 60 and the cover sheet 62 to each other.
- These materials are well-known soft synthetic resins. Examples of synthetic resins are those in which polypropylene, polyvinyl alcohol, linear low density polyethylene, other low density polyethylene, nylon, polyethylene terephthalate, and at least two kinds of synthetic resins selected from the group consisting of these are laminated. .
- the small article storage cell 12 according to the present embodiment includes a storage unit 20 and an interlocking piece 22.
- the accommodating part 20 accommodates the dose 100.
- the interlocking piece 22 is provided on the interlocking piece-attached sheet 60. In the case of this embodiment, the interlocking piece 22 is integrated with the interlocking piece-attached sheet 60.
- an outlet 30 for the dose 100 is provided at one end of the container 20.
- the outlet 30 is formed by the overlapping interlocking piece-attached sheet 60 and the cover sheet 62.
- the cover sheet 62 is affixed to the interlocking piece-attached sheet 60 in the exit area 32, the end area 34, and the bottom area 36.
- the exit area 32 is an area that becomes the above-described exit 30.
- the end region 34 is a region on both sides of the storage unit 20.
- the bottom region 36 is a region corresponding to the bottom of the accommodating unit 20.
- the cover sheet 62 is affixed to the interlocking piece-attached sheet 60 in the outlet region 32, the end region 34, and the bottom region 36, whereby the inside of the housing unit 20 is sealed.
- the bonding strength between the interlocking piece-attached sheet 60 and the cover sheet 62 in the exit region 32 is significantly lower than the attachment strength between the interlocking piece-attached sheet 60 and the cover sheet 62 in the end region 34 and the bottom region 36.
- the interlocking piece-attached sheet 60 and the cover sheet 62 are easily peeled off by rubbing the interlocking piece-attached sheet 60 and the cover sheet 62 with fingers in the exit region 32.
- the shape of the outlet region 32 is a straight line.
- the interlocking piece 22 has a root portion 40 and a tip portion 42.
- the root portion 40 is provided so as to be continuous with the outlet region 32 of the interlocking piece-attached sheet 60 and the edge of the outlet 30.
- the entire root portion 40 is separated from the surface of the accommodating portion 20. That is, the root portion 40 is not bonded or adhered to the surface of the housing portion 20.
- the distal end portion 42 is provided so as to continue to the root portion 40. Thereby, the interlocking piece 22 moves as the interlocking piece-attached sheet 60 and the cover sheet 62 are bent and stretched.
- the tip 42 is thinner than the root 40.
- the distal end portion 42 has a distal end adhesive portion 50.
- the material of the interlocking piece-attached sheet 60 and the cover sheet 62 is a known soft synthetic resin.
- the interlocking-attached sheet 60 and the cover sheet 62 can be bent.
- the small-sized article storage cell 12 is bent at a bent portion 52.
- the bent portion 52 is disposed on the side where the article 100 is present as viewed from the exit region 32.
- the outlet 30 is closed by this bending and bonding of the outlet region 32.
- the tip bonding portion 50 of the interlocking piece 22 is bonded to the surface of the housing portion 20.
- portions other than the tip adhesive portion 50 in the tip portion 42 are not bonded to the surface of the housing portion 20. Therefore, in the case of this embodiment, parts other than the front-end
- the manufacturing method of the strip package 10 concerning this embodiment is demonstrated.
- the strip package 10 according to the present embodiment includes a plurality of small-sized items-receiving cells 12. Therefore, the manufacturing method of the strip packaging body 10 according to the present embodiment is also a manufacturing method of the small-sized article storage cell 12 and the large-sized article storage cell 14.
- FIG. 5 is a diagram showing the steps of the method for manufacturing the strip package 10 according to the present embodiment.
- the manufacturing method of the strip package 10 according to the present embodiment includes an accommodation adhesion step S200, a perforation forming step S202, an interlocking piece forming step S204, a bending step S206, And an opposite location collecting step S208.
- an accommodation adhesion step S200 a perforation forming step S202
- an interlocking piece forming step S204 a bending step S206
- an opposite location collecting step S208 an opposite location collecting step S208.
- the dose 100 is accommodated between the interlocking piece forming sheet 110 and the cover forming body 112.
- the interlocking piece forming sheet 110 is a material of the interlocking strip-attached sheet 60.
- the cover forming body 112 is a material for the cover sheet 62. Therefore, the interlocking piece forming sheet 110 and the cover forming body 112 are materials for the article storage cells 12 and 14.
- the material of the interlocking piece forming sheet 110 and the material of the cover forming body 112 are the soft synthetic resin described above.
- an area between the interlocking piece forming sheet 110 and the cover forming body 112 and surrounding the article 100 is bonded so as to form the outlet 30 of the article 100.
- the accommodation adhesion process S200 includes a dose arrangement process S220, a cover process S222, and a surrounding adhesion process S224.
- the article 100 is arranged on the surface of the interlocking piece forming sheet 110 placed on a table (not shown).
- the robot 120 described below arranges the dose 100.
- the robot 120 includes a suction portion 130 for holding the article 100 and a moving portion 132 for moving the suction portion to an arbitrary position on the surface of the interlocking piece forming sheet 110. Since such robot 120 is well-known, detailed description thereof will not be repeated here.
- FIG. 6 is a conceptual diagram showing a situation in which the dose 100 is arranged by the robot 120 in the dose arrangement step S220. In the case of the present embodiment, by arranging the articles 100, two straight rows of the articles 100 are formed.
- a device different from the robot 120 described above covers the dose 100 with the two cover forming bodies 112. That is, a part of the interlocking piece forming sheet 110 is covered with the cover forming body 112 together with the articles 100 arranged on the surface of the interlocking piece forming sheet 110. Since an apparatus for placing another object on top of an object is well known, a detailed description of that apparatus will not be repeated here.
- the two cover forming bodies 112 cover the article 100 and a part of the interlocking piece forming sheet 110, respectively.
- the portion of the end of the interlocking piece forming sheet 110 that is not covered with the cover forming body 112 becomes the interlocking piece portion 160.
- the cover forming body 112 is a material of the cover sheet 62.
- FIG. 7 is a conceptual diagram showing the structure of the cover forming body 112 according to the present embodiment.
- the cover forming body 112 is obtained by providing an adhesive layer 142 on the surface of the sheet to be the base layer 140.
- the base layer 140 covers a part of the interlocking piece forming sheet 110 together with the clothes 100.
- the material of the base layer 140 is a soft synthetic resin. Examples of synthetic resins are low density polyethylene, nylon, and polyethylene terephthalate.
- the adhesive layer 142 melts when heated. When the adhesive layer 142 is once melted and solidified again, the base layer 140 and the interlocking piece forming sheet 110 are adhered to each other.
- the adhesive layer 142 has a weak adhesion region 150 and a strong adhesion region 152.
- the bond strength of the weak bond region 150 is significantly lower than the bond strength of the strong bond region 152.
- the region bonded by the weak bonding region 150 becomes the outlet region 32.
- the region bonded by the strong bonding region 152 becomes the end region 34 and the bottom region 36.
- the surrounding adhesion step S224 an area corresponding to the periphery of the article 100 is adhered between the interlocking piece forming sheet 110 and the cover forming body 112.
- the areas corresponding to the outlet area 32, the end area 34, and the bottom area 36 described above are bonded.
- the region bonded in this step is generically referred to as “surrounding region”.
- the surrounding adhesion step S224 includes a strong adhesion step S230 and a weak adhesion step S232.
- the region other than the predetermined region is adhered among the surrounding regions.
- the above-mentioned “predetermined region” is in the direction in which the interlocking piece portion 160 is present when viewed from the article 100.
- the predetermined area is a part of the surrounding area.
- the predetermined area has a width through which the article 100 can pass.
- the predetermined area is an area corresponding to the exit area 32 described above. That is, what is heated in the strong adhesion step S230 is a region corresponding to the end region 34 and the bottom region 36 described above in the surrounding region.
- a region other than the predetermined region in the surrounding region is bonded by a device (not shown) described below.
- the apparatus includes a heat generating part and a pressing part.
- the heat generating part releases sufficient heat to melt the strong adhesion region 152 of the adhesive layer 142.
- the shape of the predetermined surface of the heat generating portion is the same as the shape of the end region 34 and the bottom region 36 shown in FIG.
- the pressing portion presses a predetermined surface of the heat generating portion against a portion of the base layer 140 of the cover forming body 112 where the strong adhesion region 152 is provided. Thereby, the heat generated by the heat generating portion is transmitted to the strong adhesion region 152 of the adhesive layer 142 through the base layer 140 of the cover forming body 112. When heat is transmitted to the strong adhesion region 152, the strong adhesion region 152 melts.
- the pressing portion separates the heat generating portion from the cover forming body 112.
- the strong adhesion region 152 is solidified again.
- the strong adhesion region 152 adheres the base layer 140 and the interlocking piece forming sheet 110.
- portions corresponding to the end region 34 and the bottom region 36 are bonded.
- the strong adhesion step S230 is performed subsequent to the cover step S222.
- the strong adhesion process S230 is performed at the place where the cover process S222 is performed.
- the interlocking piece forming sheet 110 and the cover forming body 112 are displaced from each other during the period from when the article 100 is covered until the interlocking piece forming sheet 110 and the cover forming body 112 are fixed to each other. Risk can be reduced.
- the above-described predetermined area of the surrounding area is heated. That is, a region corresponding to the outlet region 32 in the surrounding region is heated.
- the predetermined region is heated by an apparatus (not shown) similar to the one heated between the interlocking piece forming sheet 110 and the cover forming body 112 in the strong adhesion step S230.
- the pressing portion of the device presses a predetermined surface of the heat generating portion of the device against a portion of the base layer 140 of the cover forming body 112 where the weak adhesion region 150 is provided. Thereby, the heat generated by the heat generating portion is transmitted to the weakly bonded region 150 of the adhesive layer 142 via the base layer 140 of the cover forming body 112.
- the weak adhesion region 150 melts. After the weak adhesion region 150 is melted, the pressing portion separates the heat generating portion from the cover forming body 112. When the heat generating portion is separated from the cover forming body 112, the weak adhesion region 150 is solidified again. At that time, the weak adhesion region 150 adheres the base layer 140 and the interlocking piece forming sheet 110. As a result, the area corresponding to the exit area 32 is bonded. The region corresponding to the outlet region 32 is bonded so that the breaking strength is weaker than the region bonded in the strong bonding step S230.
- a predetermined region of the surrounding regions is bonded so that the breaking strength is weaker than the region bonded in the strong bonding step S230.
- the surrounding area is bonded to form the outlet 30 of the article 100.
- the predetermined area is the outlet 30 of the article 100.
- the predetermined region is bonded so that the breaking strength is weaker than the remaining portion of the surrounding region.
- a well-known perforation forming device (not shown) forms perforations on the interlocking piece forming sheet 110 and the cover forming body 112. As a result, a perforation is formed at a location that becomes the boundary 80 between the two small-sized items-accommodating cells 12. A perforation is formed at a location that becomes the boundary portion 82 of the two large-sized article-receiving cells 14. A perforation is also formed at a location that becomes the inter-row bent portion 16.
- FIG. 8 is a conceptual diagram showing a state in which these perforations are formed in the perforation forming step S202.
- a well-known cutting device (not shown) cuts out a place described next.
- the location is a location that becomes the boundary portion 80 of the two small-sized items-receiving cells 12 in the interlocking piece forming sheet 110 and the cover forming body 112, and the boundary portion 82 of the two large-size items-containing cells 14 It is a place.
- the interlocking piece portion 160 of the interlocking piece forming sheet 110 is cut out. Thereby, the external shape of the interlocking piece 22 is formed.
- FIG. 9 is a plan view of the interlocking piece forming sheet 110 and the cover forming body 112 after the outer shape of the interlocking piece 22 is formed in the interlocking piece forming step S204.
- a known robot having a structure similar to that of a human hand bends the interlocking piece forming sheet 110 and the cover forming body 112.
- the part to be bent is a part corresponding to the bent part 52 described above. That is, the part bent in this step is a predetermined part in the direction in which the interlocking piece portion 160 is located as viewed from the clothing 100 in the region where the cover forming body 112 overlaps the interlocking piece forming sheet 110. . Accordingly, the portion of the interlocking piece forming sheet 110 on the side opposite to the interlocking piece portion 160 when viewed from the cover forming body 112 and the cover forming body 112 face the interlocking piece portion 160. A portion corresponding to the tip portion 42 of the interlocking piece 22 in the interlocking piece portion 160 is opposed to a region in the vicinity of the inter-row bent portion 16 in the interlocking piece forming sheet 110.
- the location corresponding to the distal end portion 42 of the interlocking piece 22 in the interlocking piece portion 160 is adhered to the location described below.
- the location is a location where the location corresponding to the distal end portion 42 of the interlocking piece 22 in the interlocking piece portion 160 is opposed in the bending step S206.
- the bonding is performed by a robot (not shown) described below.
- the robot includes a heating element, an interlocking piece pressing unit, and a heating element pressing unit.
- the heating element releases sufficient heat to melt the portion of the interlocking piece portion 160 that corresponds to the distal end portion 42 of the interlocking piece 22.
- the interlocking piece pressing portion presses the portion to the opposite portion in the bending step S206.
- the heating element pressing portion presses the heating element to a location corresponding to the tip end portion 42 of the interlocking piece 22 in the interlocking piece portion 160.
- the location where the melted portion corresponds to the tip portion 42 of the interlocking piece 22 and the interlocking piece forming sheet 110 are bonded.
- the interlocking piece forming sheet 110 and the cover forming body 112 are cut into a predetermined length. Thereby, the strip package 10 is completed.
- the usage method of the strip package 10 and the small-sized article accommodation cell 12 concerning this embodiment is demonstrated.
- the usage method of the large garment storage cell 14 is the same as the usage method of the small garment storage cell 12. Therefore, description of the usage method of the large sized thing accommodation cell 14 is abbreviate
- the strip package 10 is stored in a state of being bent at the inter-row bent portion 16.
- the small-sized apparel containing cells 12 constituting the first row 70 are arranged so as to face each other between the two large-sized apparel containing cells 14 constituting the second row 72.
- the large-sized item storage cells 14 constituting the second row 72 are arranged to face each other between the two small-size item accommodation cells 12 constituting the first row 70.
- the user cuts out any one of the small article-containing cells 12 from the strip package 10.
- the form of the cut-out small article storage cell 12 is as shown in FIG.
- the small article storage cell 12 is cut off, the user inserts his / her thumb between the interlocking piece 22 and the storage unit 20.
- the tip adhesive portion 50 is peeled off from the surface of the accommodating portion 20.
- the small-sized article-receiving cell 12 changes from the state shown in FIG. 3 to the state shown in FIG.
- the interlocking piece-attached sheet 60 and the cover sheet 62 receive forces in opposite directions.
- the interlocking piece-attached sheet 60 and the cover sheet 62 receive a shearing force.
- the interlocking piece-attached sheet 60 and the cover sheet 62 are easily peeled off at the outlet region 32.
- the outlet 30 opens.
- the user takes out the article 100 and takes the article 100.
- the small-sized article storage cell 12 and the large-sized article storage cell 14 insert a thumb between the interlocking piece 22 and the storage portion 20, and the interlocking-attached sheet 60 and the cover sheet 62. And can be opened by rubbing.
- the interlocking piece-attached sheet 60 and the cover sheet 62 are folded at a folding point 52 on the side where the article 100 is present as viewed from the exit area 32 (front side from the exit area 32 when viewed from the center of the housing portion 20). ing. Since the outlet 30 is closed by this bending, the pasting strength in the outlet region 32 may be very weak. Since it may be very weak, even a person with weak fingertip force and a person who can use only one hand can easily open the small-sized article storage cell 12 and the large-sized article storage cell 14 according to this embodiment.
- the interlocking piece-attached sheet 60 and the cover sheet 62 are attached to each other in the exit region 32. Since they are pasted, the overlapping sheets (sheet 60 with interlocking piece 60 and cover sheet 62) are folded at the folding portion 52 while the front end portion 42 of the interlocking piece 22 is stuck to the surface of the accommodating portion 20. Combined with this, the outlet 30 can be closed tightly. Moreover, the shape of the outlet region 32 is a straight line. That is, the shape of the area
- the shape of the exit region 32 is a straight line, the possibility that the force for peeling the exit region 32 is concentrated somewhere in the region is lower than when any part of the exit region 32 is bent. Since the possibility that the force concentrates somewhere in the outlet region 32 while the outlet 30 is closed is reduced, the sticking strength in the outlet region 32 can be reduced as compared with the case where the possibility is not lowered. It becomes. In other words, the outlet is closed by the sheet folded and the area pasted to each other, and the possibility that the force concentrates somewhere in the area is reduced. It is possible to reduce the bonding strength between the overlapping sheets. As a result, a person who can seal and can easily move a fingertip can be easily opened.
- the strip package 10 according to the present embodiment is folded at the inter-row bending portion 16, so that the large-sized clothes constituting the other row are arranged between the two small-sized clothes-receiving cells 12 constituting the certain row.
- the object storage cell 14 will face.
- the strip packaging body 10 bent at the inter-row bending portion 16 is not bulky as compared with the case where the article 100 is packaged by a known packaging film. If the strip package 10 is not bulky, the space required for storage is reduced.
- the dose storage cell 12 constituting any one of the plurality of rows 70 described above constitutes one of the other rows 72 and is adjacent to the two dose receipt cells 14, 14 are arranged so as to face each other.
- the article 100 accommodated in the former article storage cell 12 is The latter can be fitted between the two doses of the dose-receiving cells 14, 14.
- the former the article storage cell 12 that is the former, overlaps any one of the other columns 72. If the article 100 accommodated in the former article storage cell 12 fits between the two articles 100 accommodated in the latter two article storage cells 14, 14, the former is compared with the former case.
- the strip package 10 in a state in which a certain article storage cell 12 overlaps any one of the other rows 72 does not become bulky. If the strip package 10 is not bulky, the space required for storage is reduced.
- FIG. 10 is a plan view showing the strip package 310 according to the present embodiment. Based on FIG. 10, the strip package 310 according to the present embodiment will be described.
- the strip package 310 according to the present embodiment includes a plurality of first dose storage cells 312, a plurality of second dose storage cells 314, and a connecting portion 316.
- the first dose storage cell 312 and the second dose storage cell 314 store the dose 100. As is apparent from FIG. 10, the first dose receiving cells 312 and the second dose receiving cells 314 are alternately arranged to form a row.
- connection part 316 is a linear area
- FIG. The connecting portion 316 is provided with a perforation. Thereby, the 1st medication storage cell 312 and the 2nd medication storage cell 314 can be separated easily.
- FIG. 11 is a perspective view of the first dose storage cell 312 according to the present embodiment. In FIG. 11, a part of the first dose storage cell 312 is cut away. Based on FIG. 11, the structure of the 1st medication receiving cell 312 concerning this embodiment is demonstrated.
- the first dose-receiving cell 312 is obtained by laminating an interlocking piece-attached sheet 360 and a cover sheet 362 to each other.
- the first dose storage cell 312 according to this embodiment includes a storage part 320, an interlocking piece 322, and a label part 324.
- the accommodating part 320 accommodates the dose 100.
- the interlocking piece 322 projects from one end of the housing part 320.
- the label part 324 projects from the other end of the accommodating part 320.
- the cover sheet 362 is bonded to the interlocking piece-attached sheet 360 in the end region 334 and the bottom region 336.
- the accommodating part 320 is formed.
- the end region 334 is a region corresponding to both sides of the storage unit 320.
- the bottom region 336 is a region corresponding to the bottom of the accommodating unit 320.
- the width s of the end region 334 in FIG. 11, the length of the end region 334 in the direction orthogonal to the direction of the adhesive region 332 viewed from the article 100
- the width t in FIG. 11, the length of the bottom region 336 in the direction of the adhesive region 332 as viewed from the article 100) is 3.0 mm.
- the width of the end region 334 and the width of the bottom region 336 are preferably narrow. However, it is more preferable that the width of the end region 334 and the width of the bottom region 336 are 2.0 mm or more and 3.0 mm. This is because even a general-purpose machine can form these widths with high accuracy. Since the cover sheet 362 is bonded to the interlocking piece-attached sheet 360 in the end region 334 and the bottom region 336, the dose 100 is sandwiched between the interlocking piece-attached sheet 360 and the cover sheet 362.
- the storage unit 320 includes a restriction unit 342.
- the restriction part 342 restricts the movable range in the accommodation part 320 of the article 100.
- the limiting unit 342 is realized by bonding the interlocking piece-attached sheet 360 and the cover sheet 362 to each other.
- information is displayed in the label portion 324.
- Examples of the information include the types of items 100 to be taken.
- An outer edge portion 376 having a curved outline is provided at the corner of the label portion 324.
- the outer edge portion 376 is provided at the corner of the label portion 324 when the person accidentally swallows the first dose storage cell 312 compared to the case where the corner has a right angle or an acute angle. This is because it is difficult to damage the internal organs.
- the corner of the interlocking piece 332 or the interlocking piece 332 is bent to close the outlet 330 in a state where the interlocking piece 332 is bonded to the outer edge adhesive portion 350 (the outer edge adhesive portion 350 will be described later) through the notch. It is desirable to provide an outer edge portion having a curved outline also at the corner of the bent portion 354 of the accommodating portion 320 in the state.
- an outlet 330 of the dose 100 is provided at one end of the accommodating portion 320.
- the cover sheet 362 is bonded to the interlocking piece-attached sheet 360 in the bonding region 332.
- region 332 to the bending location 354 is the exit sheet
- FIG. A region from the adhesive region 332 to the bent portion 354 in the cover sheet 362 is an outlet sheet portion of the cover sheet 362. Since the cover sheet 362 is bonded to the interlocking piece-attached sheet 360 in the bonding region 332, the end region 334, and the bottom region 336, the inside of the storage unit 320 is sealed.
- the adhesive strength between the interlocking piece-attached sheet 360 and the cover sheet 362 in the adhesive region 332 is significantly lower than the adhesive strength between the interlocking piece-attached sheet 360 and the cover sheet 362 in the end region 334 and the bottom region 336.
- the interlocking piece-attached sheet 360 and the cover sheet 362 can be easily separated by rubbing the interlocking piece-attached sheet 360 and the cover sheet 362 with the palm in the adhesion region 332.
- the shape of the adhesion region 332 is a straight line.
- the interlocking piece 322 is formed by a part of the interlocking-attached sheet 360. As a result, the interlocking piece 322 moves as the interlocking piece-attached sheet 360 and the cover sheet 362 are bent and stretched. In the case of the present embodiment, the interlocking piece 322 has an outer edge adhesive portion 350 and a knob portion 352.
- the first dose storage cell 312 is bent during distribution and storage.
- a portion to be bent is a bent portion 354 shown in FIG.
- the bent portion 354 is disposed on the side of the article 100 and the bottom region 336 when viewed from the adhesion region 332.
- the outlet 330 is closed by this bending and bonding of the adhesive region 332.
- the outer edge adhesive portion 350 of the interlocking piece 322 is bonded to a portion of the interlocking piece-attached sheet 360 that constitutes the accommodating portion 320 via the cutout portion 340 of the cover sheet 362.
- sealant layers described later are opposed to each other and can be reliably bonded. Accordingly, the interlocking piece 322 restrains a part of the sheets so as to maintain a state where the interlocking piece-attached sheet 360 and the cover sheet 362 are folded so as to be closed.
- the knob portion 352 is disposed at the distal end portion of the interlocking piece 322.
- the knob portion 352 may be pinched by a human finger when the outer edge adhesive portion 350 is peeled off.
- FIG. 12 is a cross-sectional view of the interlocking piece-attached sheet 360 according to the present embodiment. Based on FIG. 12, the structure of the interlocking
- the interlocking piece-attached sheet 360 according to this embodiment includes a primary barrier layer 380, a sealant layer 382, an adhesive layer 384, a secondary barrier layer 386, and a surface layer 388.
- the primary barrier layer 380 is a layer that absorbs oxygen inside the housing part 320.
- the primary barrier layer 380 is also a layer that prevents intrusion of oxygen and water vapor from the outside of the accommodating portion 320 into the inside.
- the material of the primary barrier layer 380 is a fluororesin.
- the primary barrier layer 380 is disposed on the inner peripheral surface of the housing part 320.
- the primary barrier layer 380 contacts the article 100. That is, the primary barrier layer 380 becomes an inner layer of the accommodation sheet portion.
- the sealant layer 382 is a layer that makes the inside of the accommodating portion 320 airtight.
- the sealant layer 382 is also a layer that melts when the interlocking piece-attached sheet 360 and the cover sheet 362 adhere to each other.
- the material of the sealant layer 382 is polyethylene.
- the adhesive layer 384 is a layer that adheres the sealant layer 382 and the secondary barrier layer 386. In the case of this embodiment, the material of the adhesive layer 384 is also polyethylene.
- the secondary barrier layer 386 is a layer that prevents intrusion of oxygen and water vapor from the outside of the housing portion 320 into the inside.
- the material of the secondary barrier layer 386 is alumina.
- the surface layer 388 is a layer that protects the secondary barrier layer 386.
- the material of the surface layer 388 is polyethylene terephthalate.
- the surface layer 388 is disposed on the outer peripheral surface of the accommodating portion 320. That is, the surface layer 388 becomes an outer layer of the accommodation sheet portion.
- the material of the interlocking cantilever sheet 360 satisfies the following requirements.
- the first requirement is that the water vapor transmission rate is 1.0 g / square meter ⁇ day or less. It is more desirable if the water vapor transmission rate is 0.5 g / square meter ⁇ day or less.
- the second requirement is that the oxygen permeability is 600 nanocubic meters / square meter ⁇ day ⁇ atm (0.6 cc / square meter ⁇ day ⁇ atm) or less. It is more desirable if the oxygen permeability is 300 nanocubic meters / square meter ⁇ day ⁇ atm (0.3 cc / square meter ⁇ day ⁇ atm) or less.
- the third requirement is that the static friction coefficient of the surface facing the inside of the housing part 320 is smaller than the static friction coefficient of the surface exposed to the outside of the housing part 320.
- the coefficient of static friction of the surface facing the inner side of the housing part 320 is preferably 0.5 or less. It is more desirable if it is 0.2 or less.
- the fourth requirement is that the Young's modulus is 200 MPa or more and 1000 MPa or less. It is more desirable that the Young's modulus is 400 MPa or more and 600 MPa or less.
- the fourth requirement is that when the interlocking piece-attached sheet 360 and the cover sheet 362 are bonded to each other, the water vapor permeability at the bonded portion and the oxygen permeability at the bonded portion are the material of the interlocking-attached sheet 360 itself. It is a requirement that it is equal to or less than that of.
- the sixth requirement is that the interlocking piece-attached sheet 360 and the cover sheet 362 adhered to each other can be easily peeled by a human hand.
- the material of the cover sheet 362 is the same as the material of the interlocking attached sheet 360. Therefore, description of the material of the cover sheet 362 in this embodiment is omitted.
- the structure of the second dose storage cell 314 is the same as that of the first dose storage cell 312 except for the following two points.
- the first point is that the position of the cutout portion 340 when viewed from the position where the article 100 is disposed is opposite to the first article containing cell 312.
- the second point is that the position of the outer edge adhesive portion 350 seen from the position where the article 100 is arranged is also on the opposite side to the first article containing cell 312. Therefore, the description of the structure of the second dose storage cell 314 is omitted.
- FIG. 13 is a conceptual diagram showing a configuration of a strip package manufacturing system 400 according to the present embodiment. Based on FIG. 13, the structure of the strip packaging body manufacturing system 400 concerning this embodiment is demonstrated.
- the strip package manufacturing system 400 includes a first material sheet drawing device 410, a first guide roller 412, a second material sheet drawing device 414, a second guide roller 416, and a notch forming roller unit. 418, tablet supply unit 420, vertical bonding roller unit 422, horizontal bonding roller unit 424, perforation forming roller unit 426, heating device 428, bending guide unit 430, press roller unit 432, and opposite locations
- An adhesive roller portion 434 and a cutting roller portion 436 are provided.
- the first material sheet pulling device 410 is a device for pulling out one end of the interlocking piece forming sheet 510 wound in a cylindrical shape.
- the drawn interlocking piece forming sheet 510 passes under the tablet supply unit 420 via the first guide roller 412.
- the interlocking piece forming sheet 510 that has entered under the tablet supply unit 420 hangs down due to its own weight.
- the second material sheet pulling device 414 is a device that pulls out one end of the cover forming body 512 wound in a cylindrical shape.
- the drawn cover forming body 512 enters under the tablet supply unit 420 via the second guide roller 416.
- the cover forming body 512 that has entered under the tablet supply unit 420 also hangs down due to its own weight. As the tablet supply unit 420 enters below, the cover forming body 512 faces the interlocking piece forming sheet 510.
- the notch forming roller portion 418 forms a notch in the cover forming body 512.
- the notch forming roller portion 418 includes a receiving roller and a pressing roller.
- the receiving roller supports the cover forming body 512.
- the pressing roller presses the cover forming body 512 against the receiving roller. At that time, the pressing roller forms a cutout in a region corresponding to the cutout portion 340 of the cover sheet 362 in the cover forming body 512.
- the pressing roller has a protrusion (not shown). By pressing the area where the protrusion corresponds to the notch 340, it is possible to form a notch in the area.
- the tablet supply unit 420 drops the tablet between the interlocking piece forming sheet 510 pulled out by the first material sheet pulling device 410 and the cover forming body 512 pulled out by the second material sheet pulling device 414. In the case of this embodiment, this tablet is the dose 100 in this embodiment.
- the interlocking piece forming sheet 510 and the cover forming body 512 from which the tablets have been dropped enter the longitudinal adhesive roller portion 422 along with further drawing by the first material sheet drawing device 410 and the second material sheet drawing device 414. .
- the vertical adhesion roller portion 422 adheres the interlocking piece forming sheet 510 and the cover forming body 512.
- the longitudinal adhesion roller unit 422 includes a receiving roller, a first pressing roller, a second pressing roller, a first heater, a second heater, and a cooling unit.
- the receiving roller supports the interlocking piece forming sheet 510 and the cover forming body 512.
- the first pressing roller receives the interlocking piece forming sheet 510 and the cover forming body 512 and presses them against the roller. At that time, the first pressing roller transfers heat to the interlocking piece forming sheet 510 and the cover forming body 512.
- the interlocking piece forming sheet 510 to which heat is transmitted and the cover forming body 512 to which heat is transmitted are melted.
- the first pressing roller has a protrusion (not shown). By pressing the region where the protrusion corresponds to the bottom region 336, heat can be transmitted to the region.
- the first heater supplies heat to the first pressing roller.
- the second pressing roller simultaneously presses the interlocking piece forming sheet 510 and the cover forming body 512 against the roller simultaneously with the first pressing roller. At this time, the second pressing roller transfers heat to the interlocking piece forming sheet 510 and the cover forming body 512 in the same manner as the first pressing roller. Similar to the first pressure roller, the second pressure roller has a protrusion (not shown). By pressing the area where the protrusion corresponds to the bonding area 332, heat can be transmitted to the area. The second heater supplies heat to the second pressing roller.
- the cooling unit cools the first pressing roller and the second pressing roller as soon as the adhesion between the interlocking piece forming sheet 510 and the cover forming body 512 is completed.
- the interlocking piece forming sheet 510 to which the cover forming body 512 is bonded by the vertical bonding roller unit 422 is further perforated by the first material sheet pulling device 410 and the second material sheet pulling device 414, and the perforation forming roller unit 426. Enter inside.
- the lateral adhesive roller portion 424 also bonds the interlocking piece forming sheet 510 and the cover forming body 512.
- the lateral adhesion roller unit 424 includes a receiving roller, a pressing roller, a heater, and a cooling unit.
- the receiving roller supports the interlocking piece forming sheet 510 and the cover forming body 512.
- the pressing roller receives the interlocking piece forming sheet 510 and the cover forming body 512 and presses them against the roller. At that time, the pressing roller transfers heat to the interlocking piece forming sheet 510 and the cover forming body 512.
- the interlocking piece forming sheet 510 to which heat is transmitted and the cover forming body 512 to which heat is transmitted are melted. By melting, they are bonded together.
- the pressing roller has a protrusion (not shown). By pressing the region where the protrusion corresponds to the end region 334, heat can be transmitted to the region.
- the heater supplies heat to the pressing roller.
- the cooling unit cools the pressing roller as soon as the adhesion between the interlocking piece forming sheet 510 and the cover forming body 512 is completed.
- the interlocking piece forming sheet 510 to which the region corresponding to the end region 334 is bonded by the lateral bonding roller unit 424 is further perforated by the first material sheet pulling device 410 and the second material sheet pulling device 414. Enter the part 426.
- the perforation forming roller portion 426 forms a perforation in a region corresponding to the connecting portion 316 of the interlocking piece forming sheet 510 and the cover forming body 512 adhered to each other.
- the perforation forming roller portion 426 forms a notch at the end of the perforation.
- the perforation forming roller portion 426 includes a receiving roller and a pressing roller.
- the receiving roller supports the interlocking piece forming sheet 510 and the cover forming body 512.
- the pressing roller receives the interlocking piece forming sheet 510 and the cover forming body 512 and presses them against the roller. At that time, the pressing roller forms perforations in the interlocking piece forming sheet 510 and the cover forming body 512.
- the pressing roller has a protrusion (not shown). By pressing the region where the protrusions correspond to the connecting portion 316, a perforation and a notch at the end can be formed in the region.
- the interlocking piece forming sheet 510 and the cover forming body 512 in which the perforations are formed enter the heating device 428 as the first material sheet pulling device 410 and the second material sheet pulling device 414 are further pulled out.
- the heating device 428 heats the area corresponding to the exit sheet portion of the first dose storage cell 312 and the second dose storage cell 314 of the interlocking piece forming sheet 510 and the cover forming body 512.
- the heating device 428 has a pair of infrared heaters. These infrared heaters are pressed against the areas corresponding to the exit sheet portions of the first dose storage cell 312 and the second dose storage cell 314. Thereby, the area
- the interlocking piece forming sheet 510 and the cover forming body 512 in which the area corresponding to the outlet sheet portion is heated are further bent by the first material sheet pulling device 410 and the second material sheet pulling device 414, and the bending guide portion 430 is thus drawn. Pass through.
- the bending guide portion 430 guides the interlocking piece forming sheet 510 and the cover forming body 512 so that the interlocking piece forming sheet 510 and the cover forming body 512 are bent at a position corresponding to the bending portion 354 of the clothes-receiving cell 12. To do.
- the bending guide portion 430 is provided with a surface on which the interlocking piece forming sheet 510 and the cover forming body 512 come into contact with each other while passing through the bending guide portion 430. .
- the interlocking piece forming sheet 510 and the cover forming body 512 pass through the bending guide part 430 while the interlocking piece forming sheet 510 and the cover forming body 512 are in contact with the surfaces thereof, so that the interlocking piece forming sheet 510 and the cover forming body 512 are It is bent at a position corresponding to the bent position 354.
- the interlocking piece forming sheet 510 and the cover forming body 512 bent at that portion enter the press roller portion 432 as the first material sheet pulling device 410 and the second material sheet pulling device 414 are further pulled out. .
- the press roller unit 432 forms a crease at a location corresponding to the folding location 354 of the first dose storage cell 312 and the second dose storage cell 314.
- the interlocking piece forming sheet 510 and the cover forming body 512 in which the folds are formed enter the facing portion adhesive roller portion 434.
- the facing portion adhesive roller portion 434 is connected to a portion of the interlocking piece forming sheet 510 constituting the housing portion 320 and the interlocking piece forming sheet 510 via a portion corresponding to the cutout portion 340 of the cover sheet 362 in the cover forming body 512. Of these, the portion corresponding to the outer edge bonding portion 350 is bonded.
- the interlocking piece forming sheet 510 and the cover forming body 512 to which they are adhered enter the cutting roller portion 436 as the first material sheet pulling device 410 and the second material sheet pulling device 414 are further pulled out.
- the cutting roller unit 436 cuts the interlocking piece forming sheet 510 and the cover forming body 512 to a predetermined length.
- the configuration of the cutting roller unit 436 is the same as that of the perforation forming roller unit 426. Therefore, the description regarding the structure of the cutting roller part 436 is not repeated.
- the interlocking piece forming sheet 510 and the cover forming body 512 cut by the cutting roller portion 436 become the strip package 310 according to this embodiment.
- FIG. 14 is a diagram showing the steps of the method for manufacturing the strip package 310 according to the present embodiment.
- the strip package 310 is manufactured by the strip package manufacturing system 400 described above.
- the manufacturing method of the strip package 310 concerning this embodiment is demonstrated.
- the strip package 310 according to the present embodiment includes a plurality of first dose storage cells 312 and a plurality of second dose storage cells 314. Therefore, the manufacturing method of the strip package 310 according to the present embodiment is also a manufacturing method of the first dose receiving cell 312 and the second dose receiving cell 314.
- the manufacturing method of the strip package 310 includes an accommodation adhesion step S600, a perforation forming step S602, a softening step S604, a bending step S606, and a counter part closing step S608.
- an accommodation adhesion step S600 a perforation forming step S602, a softening step S604, a bending step S606, and a counter part closing step S608.
- the dose 100 is accommodated between the interlocking piece forming sheet 510 and the cover forming body 512.
- the interlocking piece forming sheet 510 is a material of the interlocking piece-attached sheet 360.
- the cover forming body 512 is a material for the cover sheet 362. Therefore, the interlocking piece forming sheet 510 and the cover forming body 512 are materials of the first dose receiving cell 312 and the second dose receiving cell 314.
- the housing adhesion step S600 an area corresponding to the periphery of the article 100 is adhered between the interlocking piece forming sheet 510 and the cover forming body 512. Thereby, the outlet 330 is formed.
- the accommodation adhesion process S600 includes a notch formation process S620, a cover process S622, a pre-supply adhesion process S624, a dose supply process S626, and a post-supply adhesion process S628.
- the second material sheet drawing device 414 pulls out one end of the cover forming body 512 wound in a cylindrical shape.
- the notch forming roller portion 418 forms a notch in the cover forming body 512 drawn out by the second material sheet drawing device 414.
- the cover forming body 512 in which the cutout is formed enters under the tablet supply unit 420 via the second guide roller 416.
- the first material sheet pulling device 410 pulls out one end of the interlocking piece forming sheet 510.
- the drawn interlocking piece forming sheet 510 passes under the tablet supply unit 420 via the first guide roller 412.
- the interlocking piece forming sheet 510 that has entered under the tablet supply unit 420 faces the cover forming body 512 that has entered under the tablet supply unit 420 with a slight deviation.
- the cover forming body 512 covers a part of the interlocking piece forming sheet 510.
- the interlocking piece forming sheet 510 covers a part of the cover forming body 512.
- a portion of the end of the interlocking piece forming sheet 510 that is not covered with the cover forming body 512 is referred to as a “material end”.
- the vertical bonding roller portion 422 bonds the region corresponding to the bottom region 336 and the region corresponding to the bonding region 332 between the interlocking piece forming sheet 510 and the cover forming body 512.
- the heat transmitted from the first pressing roller and the second pressing roller of the longitudinal adhesive roller portion 422 is transferred to the sealant layer 382 through the surface layer 388 of the cover forming body 512.
- the sealant layer 382 melts. After the sealant layer 382 is melted, the first pressing roller and the second pressing roller are separated from the cover forming body 512.
- the sealant layer 382 is solidified again. At that time, the sealant layer 382 adheres the cover forming body 512 and the interlocking piece forming sheet 510. As a result, the region corresponding to the bottom region 336 and the region corresponding to the bonding region 332 are bonded.
- the temperature of the first pressing roller of the longitudinal adhesion roller portion 422 is different from the temperature of the second pressing roller. Thereby, the adhesive strength of the region corresponding to the bottom region 336 and the adhesive strength of the region corresponding to the adhesive region 332 are different.
- the tablet supply unit 420 drops the tablet between the interlocking piece forming sheet 510 and the cover forming body 512. Thereby, the tablet fits between the region corresponding to the bottom region 336 and the region corresponding to the adhesion region 332.
- the lateral bonding roller portion 424 bonds a region corresponding to the periphery of the article 100 between the interlocking piece forming sheet 510 and the cover forming body 512.
- the region corresponding to the end region 334 described above is bonded.
- the pressing roller of the lateral adhesive roller portion 424 transfers heat to the interlocking piece forming sheet 510 and the cover forming body 512.
- the heat transmitted by the pressing roller is transmitted to the sealant layer 382 through the surface layer 388 of the cover forming body 512.
- the sealant layer 382 melts. After the sealant layer 382 is melted, the pressing roller is separated from the cover forming body 512.
- the sealant layer 382 is solidified again. At that time, the sealant layer 382 adheres the cover forming body 512 and the interlocking piece forming sheet 510. As a result, the region corresponding to the end region 334 is bonded.
- the perforation forming roller portion 426 forms perforations and notches in the interlocking piece forming sheet 510 and the cover forming body 512.
- a perforation is formed at a location that becomes the connecting portion 316 between the first dose storage cell 312 and the second dose storage cell 314.
- a notch is formed at the end of the perforation.
- One of the notches becomes an outer edge portion 376 at the corner of the label portion 324.
- the heating device 428 heats an area corresponding to the exit sheet portion between the interlocking piece-attached sheet 360 and the cover sheet 362. Thereby, the heat transmitted by the heating device 428 is transmitted to the region. When heat is transmitted to the area, the area becomes soft.
- the bending guide portion 430 guides the interlocking piece-attached sheet 360 and the cover sheet 362 so that the interlocking piece-attached sheet 360 and the cover sheet 362 are bent at a position corresponding to the bending portion 354.
- the press roller portion 432 forms a crease at a location corresponding to the folding location 354.
- the counter part adhesive roller part 434 adheres a part of the interlocking piece forming sheet 510 constituting the housing part 320 and a part corresponding to the outer edge adhesive part 350 of the interlocking piece forming sheet 510. . These portions are bonded via a portion corresponding to the cutout portion 340 of the cover sheet 362 in the cover forming body 512. After these portions are bonded, the cutting roller unit 436 cuts the interlocking piece forming sheet 510 and the cover forming body 512 to a predetermined length. Thereby, the strip package 310 is completed.
- the strip package 310 is stored in a state of being bent at any of the connecting portions 316.
- the user cuts out any one of the first dose storage cell 312 and the second dose storage cell 314 from the strip package 310.
- the user inserts his / her thumb between the interlocking piece 322 and the accommodating part 320.
- the outer edge bonding portion 350 is peeled off from the bonded position.
- the outer edge adhesive portion 350 When the outer edge adhesive portion 350 is peeled off, the user rubs the surface of the accommodating portion 320 with a palm or the like. As a result, the interlocking piece-attached sheet 360 and the cover sheet 362 receive forces in opposite directions. When the force is received, the interlocking piece-attached sheet 360 and the cover sheet 362 receive a shearing force. Then, as described above, the interlocking piece-attached sheet 360 and the cover sheet 362 are easily peeled off in the adhesion region 332. When peeled off, the outlet 330 opens. When the outlet 330 is opened, the user pushes the edge of the article 100 through the container 320.
- the static friction coefficient inside the storage part 320 is smaller than the static friction coefficient outside the storage part 320. Therefore, the article 100 is smoothly pushed toward the outlet 330. Thereafter, the user presses the dose 100. As a result, the dose 100 comes out of the container 320 via the outlet 330. The user takes the dose 100 from the container 320.
- the user may pinch and pull the knob portion 352 when peeling the outer edge adhesive portion 350.
- the outlet 330 of the storage portion 320 is blocked by the adhesive region 332 and the bent portion 354. Since the outlet 330 is blocked by the bent portion 354 in addition to the bonding region 332, the bonding strength of the bonding region 332 can be reduced as compared with the case where the outlet 330 is blocked only by the bonding region 332. Since the outlet 330 is blocked by the bent portion 354 in addition to the adhesive region 332, the pair of outlet sheets is not bent at the bent portion 354 and the outlet 330 is blocked only by the adhesive region 332. Compared to the first dose storage cell 312 and the second dose storage cell 314, the size is reduced. As a result, it is possible to provide the first dose storage cell 312 and the second dose storage cell 314 that allow the dose 100 to be easily taken out and to be downsized.
- the static friction coefficient of the surface layer 388 is larger than the static friction coefficient of the primary barrier layer 380.
- the primary barrier layer 380 of the first dose storage cell 312 and the second dose storage cell 314 according to the present embodiment is made of a fluororesin. Therefore, compared with the case where the other synthetic resin is a raw material, degradation by a chemical reaction with the article 100 is less likely to occur.
- an outer edge portion 376 having a curved outline is provided at a corner of the accommodating portion 320.
- the outer edge portion 376 having a curved outline is less likely to damage a human body than an acute angle portion and a right angle portion.
- the corner of the interlocking piece 332 or the interlocking piece 332 is bent to close the outlet 330 in a state where the interlocking piece 332 is bonded to the outer edge adhesive portion 350 (the outer edge adhesive portion 350 will be described later) through the notch. It is desirable to provide an outer edge portion having a curved outline also at the corner of the bent portion 354 of the accommodating portion 320 in the state. Thereby, the possibility that the outer edge portion injures the human internal organs is reduced.
- the thumb is inserted between the interlocking piece 322 and the storage portion 320, and the interlocking piece-attached sheet 360 and the cover sheet 362 are provided. Can be opened by rubbing.
- the interlocking piece-attached sheet 360 and the cover sheet 362 are bent at a bending portion 354. Since the outlet 330 is closed by this bending, the affixing strength in the adhesion region 332 may be very weak. Since it may be very weak, even a person with weak fingertips can easily open the dose storage cell 12 according to the present embodiment.
- the interlocking piece-attached sheet 360 and the cover sheet 362 are attached to each other in the adhesion region 332.
- the overlapped sheets (the interlocking piece-attached sheet 360 and the cover sheet 362) are bent at the bending portion 354.
- the exit 330 can be tightly closed.
- the shape of the bonding region 332 is a straight line, the possibility that the force for peeling the bonding region 332 is concentrated somewhere in the region is lower than when any portion of the bonding region 332 is bent. Since the possibility that the force 330 is concentrated somewhere in the bonding region 332 is reduced while the outlet 330 is closed, the sticking strength in the bonding region 332 can be reduced as compared with the case where the possibility is not lowered. It becomes.
- the shape of the exit region 32 is not limited to a straight line in the small-sized item-receiving cell 12, the large-sized item-containing cell 14, and the item-containing cell 18.
- any part of the exit region 32 may be bent.
- the exit region 32 may not be bonded.
- the shape of the interlocking piece 22 is not limited to that described above.
- the tip end portion 42 may be equal to or thicker than the root portion 40.
- the interlocking piece 22 may have a shape like a part on which a thing is placed on a known spoon.
- the materials of the interlocking cantilevered sheet 60 and the cover sheet 62 may be those obtained by performing some surface treatment on a known soft synthetic resin sheet.
- the surface treatment may consist of a plurality of layers. Concavities and convexities may be provided at locations corresponding to the inner peripheral surface of the housing portion. Thereby, it becomes possible to arbitrarily set the ease with which the article 100 is put out.
- the strip package 10 need not have perforations.
- the small article storage cell 12 and the large article storage cell 14 are cut off by an arbitrary instrument such as scissors.
- the number of rows of the article storage cells provided in the strip package 10 is not particularly limited.
- the column may be one column or three or more columns. Therefore, the number of rows of the dose 100 formed in the dose arrangement step S220 is not particularly limited.
- the place where the small article storage cell 12 and the large article storage cell 14 are folded is not limited to the folding part 52 described above.
- the location may be a location in the exit area 32. The same applies to the first dose storage cell 312 and the second dose storage cell 314.
- the structure of the cover forming body 112 is not limited to that described above.
- the adhesive layer may be provided on the entire surface of the base layer 140. In this case, due to the difference between the pressing time of the heat generating portion in the strong bonding step S230 and the pressing time of the heat generating portion in the weak bonding step S232, the bonding strength in the outlet region 32 and the bonding in the end region 34 and the bottom region 36. A difference from the strength may be realized.
- a part of the root portion 40 may be bonded to the surface of the accommodating portion 20.
- a part of the root portion 40 may adhere to the surface of the accommodating portion 20. That is, at least a part of the root portion 40 only needs to be separated from the surface of the housing portion 20.
- the size of the tip adhesive portion 50 is not particularly limited. That is, the area of the region bonded to the surface of the housing portion 20 in the tip portion 42 is not particularly limited.
- the method of fastening the tip end portion 42 of the interlocking piece 22 with respect to the accommodating portion 20 is not limited to adhesion.
- the distal end portion 42 of the interlocking piece 22 may be adhered to the surface of the housing portion 20.
- the distal end portion 42 of the interlocking piece 22 may be fastened to the surface of the housing portion 20 by a known member for attaching a certain object to another object.
- the distal end portion 42 of the interlocking piece 22 may be inserted into a cut provided in advance in the housing portion 20.
- the position and size of the cut are not particularly limited.
- the cut is preferably provided in the end region 34 or the bottom region 36. This is because communication between the space in which the article 100 is accommodated in the accommodating portion 20 and the space around the accommodating portion 20 can be prevented.
- the dose storage cell according to the present invention may include a sheet restraining portion different from that described above. That is, the concrete form of what restrains a part of those sheets so that the above-described sheets are bent so as to close the outlets 30 and 330 is not limited to the interlocking pieces 22 and 322 described above.
- seat restraint part means what restrains a part of the overlapping sheet
- the sheet restraining portion may or may not be integrated with those sheets.
- the configuration of the sheet restraining portion is not particularly limited. You may consist only of the interlocking piece mentioned above, and may have an interlocking piece and another thing.
- the sheet restraining portion may be different from the interlocking piece. A specific example of such a sheet sheet restraining portion is an adhesive tape.
- the dose-receiving cell according to the present invention may include a restricting portion different from that described above. That is, the specific form of what limits the movable range in the accommodating part 320 of the article 100 is not limited to what was mentioned above.
- the dose storage cell according to the present invention is not limited to the one in which the storage portion is formed by bonding two sheets.
- the accommodating part may be formed by a single sheet folded in a valley.
- FIG. 15 is a plan view of a strip package 90 according to a modification of the above-described embodiment.
- the strip package 90 according to this modification includes a plurality of article storage cells 18 and inter-row bent portions 16.
- the dose storage cell 18 stores the dose 100.
- the structure of the article storage cell 18 is the same as the structure of the small article storage cell 12 described above, except for the differences described below. The difference is that the shape of the interlocking piece 24 is different, and the cover forming body 220 covers the entire inter-row bent portion 16. As is apparent from FIG. 15, some of the dose storage cells 18 are arranged to form the first row 74. The other article storage cells 18 are arranged to form the second row 76. The inter-row bent portion 16 is provided between the first row 74 and the second row 76. The strip package 90 according to this modification can be bent at the inter-row bent portion 16.
- the article-receiving cell 18 constituting the first row 74 has the second row 76 when the strip package 90 is bent at the inter-row bent portion 16. They are lined up so as to oppose the configured article storage cells 18.
- the clothing storage cells 18 constituting the second row 76 are arranged to face the clothing storage cells 18 constituting the first row 74 when the strip package 90 is folded at the inter-row bending portion 16. .
- the specific configuration of the apparatus for realizing each process is not limited to the above-described one. Each of these steps may be performed by a person.
- the interlocking piece forming step S204 may be performed before the cover step S222 (for example, immediately before the dose arranging step S220).
- a location that becomes the boundary portion 80 of the two small-sized items-receiving cells 12 and a location that becomes the boundary portion 82 of the two large-size items-receiving cells 14 may be cut out.
- the cover forming body 112 is not cut out.
- the part to be folded in the folding step S206 is a part as close as possible to the end of the cover forming body 112 in the interlocking piece forming sheet 110.
- the interlocking piece forming step S204 When the interlocking piece forming step S204 is performed immediately before the dose arranging step S220, the interlocking piece 22 can be formed without being affected by the arrangement of the dose 100.
- the interlocking piece forming step S204 may be performed after the weak adhesion step S232 and before the bending step S206. The interlocking piece forming step S204 may not be performed.
- the article 100 is accommodated between the interlocking piece forming sheet 110 and the cover forming body 112, and the surrounding area is bonded so as to form the outlet 30 of the article 100.
- the specific procedure is not limited to that described above.
- the article 100 may be inserted between the interlocking piece forming sheet 110 and the cover forming body 112 after the areas corresponding to the end area 34 and the bottom area 36 in the surrounding area are bonded.
- the article 100 may be arranged on the surface of the interlocking piece forming sheet 110, and a specific tool for that is not particularly limited.
- the strong adhesion step S230 and the weak adhesion step S232 may be performed simultaneously. These may be performed sequentially. In other words, the strong adhesion step S230 and the weak adhesion step S232 are only desirable in the peripheral adhesion step S224. Moreover, it is only desirable that the strong adhesion process S230 is performed at a place where the cover process S222 is performed subsequent to the cover process S222. The perforation forming step S202 may be performed after the weak adhesion step S232.
- the dose storage cell according to the present invention may be manufactured one by one.
- an article, an interlocking piece forming sheet having a size corresponding to one article containing cell, and a cover forming body having a size corresponding to one article containing cell may be used as materials.
- the number of doses entering one storage section is not limited to one.
- the number may be plural.
- a plurality of tablets to be taken at one time may be put in one container.
- an X-ray opaque portion may be provided at any location.
- the form of the X-ray opaque part is not particularly limited.
- the shape may be a line.
- the X-ray opaque part can be formed by adhering a material containing barium or performing such printing. By providing the X-ray opaque portion, the location of the dose storage cell can be easily detected even if it is swallowed by mistake.
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Abstract
Description
以下、本発明の第1実施形態を図面に基づき説明する。以下の説明では、同一の部品には同一の符号を付してある。それらの名称及び機能も同一である。したがって、それらについての詳細な説明は繰返さない。
図1は、本実施形態にかかるストリップ包装体10を示す平面図である。図1を参照しつつ、本実施形態にかかるストリップ包装体10を説明する。本実施形態にかかるストリップ包装体10は、複数の小型服用物収容セル12と複数の大型服用物収容セル14と列間折曲部16とを備える。
以下、本実施形態にかかるストリップ包装体10の製造方法が説明される。上述されているように、本実施形態にかかるストリップ包装体10は複数の小型服用物収容セル12を備える。従って、本実施形態にかかるストリップ包装体10の製造方法は、小型服用物収容セル12と大型服用物収容セル14との製造方法でもある。
以下、本実施形態にかかるストリップ包装体10及び小型服用物収容セル12の使用方法を説明する。なお、大型服用物収容セル14の使用方法は小型服用物収容セル12の使用方法と同様である。したがって、大型服用物収容セル14の使用方法の説明は省略される。保管時、ストリップ包装体10は、列間折曲部16で折曲げられた状態で保管されている。この間、第1列70を構成する小型服用物収容セル12は、第2列72を構成する2つの大型服用物収容セル14の間に対向するよう並んでいる。第2列72を構成する大型服用物収容セル14は、第1列70を構成する2つの小型服用物収容セル12の間に対向するよう並んでいる。服用物100を服用時、使用者は、ストリップ包装体10から小型服用物収容セル12のうち任意の1つを切り取る。切り取られた小型服用物収容セル12の形態は図3に示すような形態である。小型服用物収容セル12が切り取られると、使用者は、連動片22と収容部20との間に自らの親指を差し込む。親指が差込まれると、先端接着部50は収容部20の表面からはがれる。先端接着部50がはがれると、小型服用物収容セル12は、図3に示した状態から、図4に示した状態となる。その後、使用者は、親指と人差し指とで、収容部20の表面をこすりあわせる。これにより、連動片付シート60とカバーシート62とは、互いに逆方向へ力を受けることとなる。力を受けると、連動片付シート60とカバーシート62とがせん断力を受ける。すると上述したように、連動片付シート60とカバーシート62とは、出口領域32において、容易にはがれる。はがれると、出口30が開く。出口30が開くと、使用者は服用物100を取出しその服用物100を服用する。
以上のようにして、本実施形態にかかる小型服用物収容セル12及び大型服用物収容セル14は、連動片22と収容部20との間に親指を差し込み、連動片付シート60とカバーシート62とをこすり合せるという操作で開封することができる。連動片付シート60とカバーシート62とは出口領域32から見て服用物100の存在する側(収容部20の中央付近から見て出口領域32より手前側)にある折曲げ箇所52で折り曲げられている。この折曲げにより出口30が閉じているので、出口領域32における貼り付け強度はごく弱いものであってもよい。ごく弱いものであってもよいので、指先の力が弱い者及び片手しか使えない者でも本実施形態にかかる小型服用物収容セル12及び大型服用物収容セル14を容易に開封できる。
[構造の説明]
図10は、本実施形態にかかるストリップ包装体310を示す平面図である。図10に基づいて、本実施形態にかかるストリップ包装体310が説明される。本実施形態にかかるストリップ包装体310は、複数の第1服用物収容セル312と複数の第2服用物収容セル314と連結部316とを備える。
図13は、本実施形態にかかるストリップ包装体製造システム400の構成を示す概念図である。図13に基づいて、本実施形態にかかるストリップ包装体製造システム400の構成が説明される。
図14は、本実施形態にかかるストリップ包装体310の製造方法の工程を示す図である。本実施形態の場合、ストリップ包装体310は上述されたストリップ包装体製造システム400によって製造される。以下、図13と図14とに基づいて、本実施形態にかかるストリップ包装体310の製造方法が説明される。上述されているように、本実施形態にかかるストリップ包装体310は複数の第1服用物収容セル312と複数の第2服用物収容セル314とを備える。従って、本実施形態にかかるストリップ包装体310の製造方法は、第1服用物収容セル312と第2服用物収容セル314との製造方法でもある。
以下、本実施形態にかかるストリップ包装体310並びに第1服用物収容セル312および第2服用物収容セル314の使用方法を説明する。保管時、ストリップ包装体310は、連結部316のいずれかで折曲げられた状態で保管されている。服用物100を服用時、使用者は、ストリップ包装体310から第1服用物収容セル312および第2服用物収容セル314のうち任意の1つを切り取る。それが切り取られると、使用者は、連動片322と収容部320との間に自らの親指を差し込む。親指が差込まれると、外縁接着部350は接着されていた箇所からはがれる。外縁接着部350がはがれると、使用者は、手のひらなどで、収容部320の表面をこすりあわせる。これにより、連動片付シート360とカバーシート362とは、互いに逆方向へ力を受けることとなる。力を受けると、連動片付シート360とカバーシート362とがせん断力を受ける。すると上述したように、連動片付シート360とカバーシート362とは、接着領域332において、容易にはがれる。はがれると、出口330が開く。出口330が開くと、使用者は収容部320を介して服用物100の縁を押す。本実施形態にかかる服用物収容セル12において、収容部320の内側の静摩擦係数は収容部320の外側の静摩擦係数より小さい。したがって、服用物100はスムーズに出口330の方へ押される。その後も使用者は服用物100を押す。その結果、服用物100は出口330を経て収容部320から出る。使用者は収容部320から出た服用物100を服用する。
本実施形態にかかる第1服用物収容セル312および第2服用物収容セル314において、収容部320の出口330は接着領域332と折曲げ箇所354とによって塞がれている。接着領域332に加え折曲げ箇所354によって出口330が塞がれているので、接着領域332のみによって出口330が塞がれている場合に比べ、接着領域332の接着強度を低くすることができる。接着領域332に加え折曲げ箇所354によって出口330が塞がれているので、出口シート部の対が折曲げ箇所354において折り曲げられておらず接着領域332のみによって出口330が塞がれている場合に比べ、第1服用物収容セル312および第2服用物収容セル314は小型化する。その結果、服用物100が取り出し易く、かつ、小型化が可能な、第1服用物収容セル312および第2服用物収容セル314を提供することができる。
上述したストリップ包装体10,310と小型服用物収容セル12と大型服用物収容セル14と第1服用物収容セル312と第2服用物収容セル314とは、本発明の技術的思想を具体化するために例示したものである。これは、本発明の技術的思想の範囲内において種々の変更を加え得るものである。
12 :小型服用物収容セル
14 :大型服用物収容セル
16 :列間折曲部
18 :服用物収容セル
20,320 :収容部
22,24,322:連動片
30,330 :出口
32 :出口領域
34,334 :端部領域
36,336 :底部領域
40 :付根部
42 :先端部
50 :先端接着部
52,354 :折曲げ箇所
60,360 :連動片付シート
62,362 :カバーシート
70,74 :第1列
72,76 :第2列
80,82 :境界部
100 :服用物
110 :連動片形成用シート
112,220 :カバー形成体
120 :ロボット
130 :吸着部
132 :移動部
140 :基層
142 :接着層
150 :弱接着領域
152 :強接着領域
160 :連動片部分
312 :第1服用物収容セル
314 :第2服用物収容セル
316 :連結部
324 :ラベル部
332 :接着領域
340 :切り欠き部分
342 :制限部
350 :外縁接着部
352 :ツマミ部
376 :外縁部分
380 :一次バリア層
382 :シーラント層
384 :接着層
386 :二次バリア層
388 :表面層
400 :ストリップ包装体製造システム
410 :第1材料シート引出装置
412 :第1ガイドローラ
414 :第2材料シート引出装置
416 :第2ガイドローラ
418 :切り欠き形成ローラ部
420 :錠剤供給部
422 :縦接着ローラ部
424 :横接着ローラ部
426 :ミシン目形成ローラ部
428 :加熱装置
430 :折り曲げガイド部
432 :プレスローラ部
434 :対向箇所接着ローラ部
436 :裁断ローラ部
510 :連動片形成用シート
512 :カバー形成体
Claims (13)
- 服用物を収容する収容部を備える服用物収容セルであって、
前記収容部が前記服用物の出口を有しており、
前記出口は、重なったシートによって形成され、
前記重なったシートが前記出口を閉じるよう折り曲げられており、
前記服用物収容セルは、前記収容部に加え、前記出口を閉じるよう折り曲げられている状態を維持するように前記重なったシートの一部を拘束するシート拘束部をさらに備えることを特徴とする服用物収容セル。 - 前記シート拘束部は、前記重なったシートの一方に設けられる連動片を有しており、
前記連動片が、
前記出口の縁に連なるように設けられる付根部と、
前記付根部に連なるように設けられる先端部とを有しており、
前記付根部の少なくとも一部は、前記収容部の表面から離れており、
前記先端部は、前記重なったシートが前記出口を閉じるよう折り曲げられている状態で前記収容部にとめられることを特徴とする請求項1に記載の服用物収容セル。 - 前記シート拘束部は、前記重なったシートの一方に設けられる連動片を有しており、
前記連動片は、前記重なったシートの他方に設けられる切り欠き部分を介して前記収容部にとめられることを特徴とする請求項1に記載の服用物収容セル。 - 前記出口を形成する前記重なったシートが前記出口を塞ぐよう互いに貼り付けられており、
前記重なったシートのうち折り曲げられる箇所が、前記互いに貼り付けられている領域から見て前記服用物の存在する側又は前記互いに貼り付けられている領域に配置されることを特徴とする請求項1に記載の服用物収容セル。 - 前記収容部が、前記出口に加え、前記服用物の前記収容部内における可動範囲を制限する制限部を有することを特徴とする請求項1に記載の服用物収容セル。
- 前記収容部の前記服用物と接する内側面の摩擦係数が外側面の摩擦係数より低いことを特徴とする請求項1に記載の服用物収容セル。
- 前記収容部が、前記出口に加え、輪郭が曲線状である外縁部分を有することを特徴とする請求項1に記載の服用物収容セル。
- 列を構成するよう並ぶ複数の服用物収容セルを備えるストリップ包装体であって、
前記服用物収容セルは服用物を収容する収容部を有しており、
前記収容部が前記服用物の出口を有しており、
前記出口は、重なったシートによって形成され、
前記重なったシートが前記出口を閉じるよう折り曲げられていることを特徴とするストリップ包装体。 - 前記複数の服用物収容セルが複数の前記列を構成するよう並び、
前記ストリップ包装体が、前記複数の列に加え、前記列の間に設けられる列間折曲部を備え、
前記服用物収容セルは、前記収容部に加え、前記重なったシートの一方に設けられる連動片を備えており、
前記連動片が、
前記出口の縁に連なるように設けられる付根部と、
前記付根部に連なるように設けられる先端部とを有しており、
前記付根部の少なくとも一部は、前記収容部の表面から離れており、
前記先端部は、前記重なったシートが前記出口を閉じるよう折り曲げられている状態で前記収容部にとめられており、
前記複数の列のいずれかを構成する前記服用物収容セルは、前記列間折曲部が折れ曲がると他の前記列のいずれかに重なり、かつ、前記他の列のいずれかを構成する前記服用物収容セルに対してずれた状態となることを特徴とする請求項8に記載のストリップ包装体。 - 前記ストリップ包装体は、前記複数の服用物収容セルに加え、前記複数の服用物収容セルの間に配置され、前記服用物収容セル同士を連結する少なくとも一箇所の連結部を有しており、
前記少なくとも一箇所の連結部のいずれかが、前記服用物収容セル同士が対向するよう折り曲げ可能であることを特徴とする請求項8に記載のストリップ包装体。 - シートを材料としており服用物が収容されている服用物収容セルの製造方法であって、
重なった前記シートの間に服用物が収容され前記重なったシートのうち前記服用物の周囲にあたる周囲領域が前記服用物の出口を形成するように接着される収容接着工程と、
前記重なったシートの所定の箇所であり前記服用物から見て前記出口のある方向にある折曲げ箇所が折曲げられる折曲げ工程とを備えることを特徴とする服用物収容セルの製造方法。 - 前記重なったシートが、
連動片形成用シートと、
前記連動片形成用シートの一部を覆うカバー形成体とを有しており、
前記折曲げ工程が、前記連動片形成用シートのうち前記カバー形成体に覆われていないいずれかの部分である連動片部分が前記連動片形成用シートのうち前記連動片部分以外のいずれかの部分と前記カバー形成体とのうち少なくとも一方に対向するよう前記折り曲げ箇所が折り曲げられる工程を有しており、
前記連動片部分のうちいずれかの箇所が前記折曲げ工程において対向した箇所にとめられる対向箇所どめ工程をさらに備えることを特徴とする請求項11に記載の服用物収容セルの製造方法。 - 前記重なったシートの一方に切り欠きが形成されており、
前記折曲げ工程は、前記重なったシートの他方のうち前記重なったシートの一方に覆われていないいずれかの部分である連動片部分が、前記重なったシートの一方の前記切り欠きを介して前記重なったシートの他方のうち前記連動片部分以外のいずれかの箇所に対向するよう、前記折り曲げ箇所が折り曲げられる工程を有しており、
前記連動片部分が前記重なったシートの他方のうち前記切り欠きを介して対向する前記箇所にとめられる対向箇所どめ工程をさらに備えることを特徴とする請求項11に記載の服用物収容セルの製造方法。
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JP2015510221A JP5809380B1 (ja) | 2014-01-29 | 2015-01-28 | 服用物収容セル、ストリップ包装体、及び、服用物収容セルの製造方法 |
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US9775776B2 (en) | 2017-10-03 |
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