DK155156B - PROCEDURE AND APPARATUS FOR PACKAGING OF PRODUCTS THAT ARE FORMED BY PURPOSES IN A HEALTHY COVER OF A BLISTER PACKAGING - Google Patents

PROCEDURE AND APPARATUS FOR PACKAGING OF PRODUCTS THAT ARE FORMED BY PURPOSES IN A HEALTHY COVER OF A BLISTER PACKAGING Download PDF

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Publication number
DK155156B
DK155156B DK578082A DK578082A DK155156B DK 155156 B DK155156 B DK 155156B DK 578082 A DK578082 A DK 578082A DK 578082 A DK578082 A DK 578082A DK 155156 B DK155156 B DK 155156B
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Prior art keywords
tire
refrigerant
heat
cells
channel
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DK578082A
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Danish (da)
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DK155156C (en
DK578082A (en
Inventor
Lorenzo Cillario
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Ferrero Spa
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65BMACHINES, APPARATUS OR DEVICES FOR, OR METHODS OF, PACKAGING ARTICLES OR MATERIALS; UNPACKING
    • B65B63/00Auxiliary devices, not otherwise provided for, for operating on articles or materials to be packaged
    • B65B63/08Auxiliary devices, not otherwise provided for, for operating on articles or materials to be packaged for heating or cooling articles or materials to facilitate packaging

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Containers And Plastic Fillers For Packaging (AREA)
  • Auxiliary Devices For And Details Of Packaging Control (AREA)

Description

iin

DK 155156 BDK 155156 B

Opfindelsen angår en fremgangsmåde til emballering af produkter, dec formes ved ihældning i en blisterpaknings varmeformede dække, og især en fremgangsmåde af den art, hvor dækket består af et foliestykke af termoplastisk ma-ς teriale med celler, der er varmeformet og hver især er indrettet til at optage et respektivt produkt.The invention relates to a method of packaging products, which are formed by pouring into a blister pack's heat-shaped cover, and in particular to a method in which the tire consists of a thermoplastic material film with cells which are heat-shaped and each arranged to record a respective product.

Ved fremgangfemåder af denne art er der problemer med at forhindre, at produktet, der normalt er varmt så det kan ihældes, beskadiger dækkets termoplastiske materiale, der 10 er følsomt over for denne temperatur.In methods of this kind, there are problems in preventing the product, which is normally hot so it can be poured, from damaging the thermoplastic material of the tire which is sensitive to this temperature.

Derfor hældes produktet ved de kendte fremgangsmådeir i en form af et materiale, der kan modstå temperaturen, f.eks. en metalform, og anbringes derpå i cellerne i blisterpakningens dække, efter at produktet er blevet afkølet til 15 en temperatur, som dækkets termoplastiske materiale kan klare.Therefore, by the known process, the product is poured into a form which can withstand the temperature, e.g. a metal form, and then placed in the cells of the blister pack's cover after the product has been cooled to a temperature capable of withstanding the thermoplastic material of the tire.

Denne løsning er utilfredsstillende, eftersom fremstillingsprocessens hastighed reduceres, når dannelsen ved ihældning adskilles fra emballeringsprocessen.This solution is unsatisfactory since the speed of the manufacturing process is reduced when the formation by pouring is separated from the packaging process.

20 Formålet med opfindelsen er at angive en fremgangsmåde af den nævnte art, som afhjælper disse ulemper.The object of the invention is to provide a method of the aforementioned kind which alleviates these disadvantages.

Dette formål opnås ifølge opfindelsen ved f at den indledningsvis angivne fremgangsmåde udføres som anført i den kendetegnende del af krav 1, idet man herved opnår, at pro-25 duktet formes ved ihældning direkte i cellerne i pakningens dække.This object is achieved according to the invention by carrying out the method as initially set forth in the characterizing part of claim 1, thereby obtaining that the product is formed by pouring directly into the cells in the cover of the package.

Opfindelsen angår endvidere et apparat af den i indledningen til krav 4 nævnte art, og dette apparat er ejendommelig ved deti den kendetegnende del af krav 4 angivne.The invention further relates to an apparatus of the kind mentioned in the preamble of claim 4, and this apparatus is characterized by the characterizing part of claim 4.

30 Ved apparatet ifølge opfindelsen opnås det, at en strøm 2In the apparatus according to the invention, a current 2 is obtained

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af flydende kølemiddel holdes i kontakt med den ydre flade af pakningens dække, der er fremstillet ved varme-formning af et foliestykke af termoplastfolie, medens produktet hældes ind i selve dækkets celler.of liquid refrigerant is kept in contact with the outer surface of the cover of the package made by heat forming a film of thermoplastic film while pouring the product into the cells of the tire itself.

5 Opfindelsen vil blive nærmere beskrevet i det følgende un der henvisning til tegningen, hvor fig. 1 og 2 viser en blisterpakning henholdsvis fra neden og fra siden, fig. 3 er et skematisk sidebillede af et apparat ifølge op-10 findelsen, fig. 4 viser flere dele af fig. 3 mere detaljeret og i større målestok, og fig. 5 er et snit langs linien V-V i fig. 4.The invention will be further described in the following with reference to the drawings, in which: 1 and 2 show a blister pack from below and from the side respectively; Figure 3 is a schematic side view of an apparatus according to the invention; 4 shows several parts of FIG. 3 in greater detail and on a larger scale; and FIG. 5 is a section along the line V-V in FIG. 4th

I fig. 1 og 2 er en pakning af den art, som kendes under 15 navnet blisterpakning, som helhed betegnet med 1. Paknin gen 1 består af et dække 2, der er dannet ved termoform-ning af et foliestykke af termoplastfolie, f.eks. polyvi-nylchlorid (PVC). Det termoplastiske foliestykkes flade overflade er deformeret lokalt til dannelse af celler 3, 20 som hver især er indrettet til at optage et respektivt produkt, f.eks. en pastil dannet ved ihældning.In FIG. 1 and 2 is a package of the kind known as the name blister pack, generally designated 1. Package 1 consists of a cover 2 formed by thermoforming a film of thermoplastic film, e.g. polyvinyl chloride (PVC). The flat surface of the thermoplastic film piece is deformed locally to form cells 3, 20, each of which is arranged to receive a respective product, e.g. a lozenge formed by pouring.

I et typisk brugseksempel for blisterpakningen er cellerne 3 indrettet til at optage pastiller dannet ved ihæld^ ning af sorbitol. For at tillade hældning opvarmes sorbi-25 tolstoffet til en temperatur på 85 - 90°C.In a typical use case for the blister pack, cells 3 are arranged to receive lozenges formed by pouring sorbitol. To allow pouring, the sorbitol substance is heated to a temperature of 85 - 90 ° C.

Dækkets 2 polyvinylchlorid (PVC) kan normalt modstå en temperatur på ca. 70°C, men deformeres ved højere temperaturer .The tire 2 polyvinyl chloride (PVC) can normally withstand a temperature of approx. 70 ° C, but deforms at higher temperatures.

33

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Den i fig. 1 viste blisterpakning omfatter endvidere en tætningsstrimmel 4, som lukker cellerne 3.The FIG. 1, the blister pack shown further comprises a sealing strip 4 which closes cells 3.

Ved blisteremballeringsprocesser i industriel målestok dannes både dækket 2 og tætningsstrimmelen 4-normalt af folie-5 stykker af termoplastfolie, som afvikles fra tilsvarende forrådsruller.In industrial-scale blister packaging processes, both the tire 2 and the sealing strip 4 are usually formed of film-5 pieces of thermoplastic film, which are wound from corresponding stock rolls.

Emballeringsoperationens produkt er normalt også i form af en folie, som derpå afskæres og stanses til dannelse af pakninger af den i fig. 1 og 2 viste art.The product of the packaging operation is usually also in the form of a foil which is then cut and punched to form seals of the package shown in FIG. 1 and 2.

10 Pakningen 1 omfatter tre dele, hvoraf to har celler 3, medens den tredje har to flade overflader, som f.eks. kan anvendes til varebetegnelser og informationer om det emballerede produkt.The package 1 comprises three parts, two of which have cells 3, while the third has two flat surfaces, e.g. can be used for product descriptions and information about the packaged product.

I fig. 3 er der vist en forrådsrulle 10 for et første fo-15 liestykke 11 af termoplastfolie.In FIG. 3, a stock roll 10 is shown for a first foil sheet 11 of thermoplastic film.

En varmeformestation for det første foliestykke 11 af ter-plastfolie afviklet fra den første rulle 10 ar som helhed betegnet med 12,A heat forming station for the first plastic sheet 11 of terracotta film wound from the first roll 10 sheets as a whole denoted by 12,

En fyldestation som helhed betegnet med 13 er monteret mel-20 lem varmeformestationen 12 og en tætningsstation 14, som har en tilhørende anden rulle 15 til levering af et andet foliestykke 16 af termoplastfolie.A filling station as a whole denoted by 13 is mounted between the heat forming station 12 and a sealing station 14 having an associated second roll 15 for supplying a second film piece 16 of thermoplastic film.

En samlestation for det færdige produkt er som helhed betegnet med 17 og omfatter en rulle 18, på hvilken folie-25 stykkerne 11, 16 vikles, efter at de har passeret tætningsstationen 14.A collection station for the finished product is generally designated 17 and comprises a roll 18 on which the film 25 pieces 11, 16 are wound after passing the sealing station 14.

Som det fremgår af fig. 4, omfatter'fyIdestationen 13 en kanal 13a, der strækker sig i retningen for forskydningen 4As shown in FIG. 4, the feed station 13 comprises a channel 13a extending in the direction of the displacement 4

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af det første foliestykke 11 af termoplast mellem formesta-tionen 12 og tætningsstationen 14.of the first thermoplastic film sheet 11 between the forming station 12 and the sealing station 14.

Kanalen 13a har en dybde, der er større end dybden af de i det første foliestykke 11 dannede celler. Kanalen 13a 5 har en indløbsende 13b for det første, termoformede foliestykke. Kanalen 13a har endvidere langsgående ribber 13c og ligger under, nær indløbsenden 13b, en station til afgivelse af afmålte mængder af det produkt, der skal emballeres .Channel 13a has a depth greater than the depth of the cells formed in the first sheet of film 11. The duct 13a 5 has an inlet end 13b for the first thermoformed film piece. The duct 13a further has longitudinal ribs 13c and lies below, near the inlet end 13b, a station for dispensing measured quantities of the product to be packaged.

10 En pumpe 13f, der forsyner kanalen 13a med et flydende kø- . lemiddel, er forbundet med kanalen 13a ved hjælp af et rør 13e. Pumpens 13f tilgangsside er forbundet med et køleorgati 13g, som forsynes med kølemidlet, der afgives fra kanalen 13a gennem en åbning 13h i kanalens 13a bund nær tætnings-15 stationen 14.10 A pump 13f which supplies the conduit 13a with a liquid line. means, is connected to the channel 13a by means of a tube 13e. The inlet side of the pump 13f is connected to a cooling body 13g which is provided with the coolant delivered from the duct 13a through an opening 13h in the bottom of the duct 13a near the sealing station 14.

I endepartiet mellem åbningen 13h og tætningsstationen 14 er der i kanalens 13a bund udformet et antal udluftningshuller 13i, som er forbundet med en sugepumpe 131.In the end portion between the opening 13h and the sealing station 14, a plurality of vent holes 13i are formed at the bottom of the duct 13a which is connected to a suction pump 131.

Ved brug af apparatet ifølge opfindelsen leveres det første 20 foliestykke 11 af termoplast fra den første rulle 10 til varmeformestationen 12, hvor foliestykkets 11 flade overflade deformeres lokalt til dannelse af langsgående rækker af celler af den art, der er vist ved 3 i fig. 1 og 2.Using the apparatus of the invention, the first 20 sheet of thermoplastic film 11 is supplied from the first roll 10 to the heat forming station 12, where the flat surface of the sheet 11 is locally deformed to form longitudinal rows of cells of the kind shown at 3 in FIG. 1 and 2.

Nedstrøms for varmeformestationen 12 passerer det varmefor-25 mede første foliestykke 11 langs kanalen 13a, så at kanalens sidevægge støtter foliestykkets 11 længdekanter under foliestykkets passage langs kanalen 13a.Downstream of the heat forming station 12, the heat-formed first foil 11 passes along the duct 13a so that the side walls of the duct support the longitudinal edges of the foil 11 during the passage of the foil along the duct 13a.

I den viste udførelsesform er apparatet ifølge opfindelsen indrettet til at emballere produkter, der er formet ved 30 ihældning i en blisterpakning, som har fire par celle- 5In the embodiment shown, the apparatus according to the invention is arranged to package products formed by pouring into a blister pack having four pairs of cells.

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rækker 3, der er adskilte ved hjælp af mellemliggende flade partier af det varmeformede foliestykke 11.rows 3 spaced apart by intermediate flat portions of the heat-formed foil 11.

Som vist i fig. 5 støtter de langsgående ribber 13c, der rager frem fra kanalens 13a bund, disse mellempartier af 5 det termoformede foliestykke 11.As shown in FIG. 5, the longitudinal ribs 13c projecting from the bottom of the channel 13a support these intermediate portions of the thermoformed foil 11.

Ved hældestationen 13d hældes afmålte mængder af produktet, der skal emballeres, ind i hver celle 3 i dækket 2, der er dannet ved varme formningen af det første foliestykke 11 af termoplast, medens selve dækket er neddykket i et bad af 10 flydende kølemiddel, som findes i kanalen 13a.At pouring station 13d, metered quantities of the product to be packaged are poured into each cell 3 of the tire 2 formed by heat forming the first thermoplastic film sheet 11, while the tire itself is immersed in a bath of 10 liquid refrigerant which is found in channel 13a.

Hver celles 3 ydre flade er således i kontakt med kølemidlet, som holdes ved en konstant temperatur under det niveau, hvor der opstår skadevirkninger, såsom deformation af selve dækket.Thus, the outer surface of each cell 3 is in contact with the refrigerant which is kept at a constant temperature below the level at which damage effects occur, such as deformation of the tire itself.

15 Pumpen 13f forsyner kanalen 13a med lavtemperaturkølemiddel fra køleorganet 13g.Pump 13f supplies duct 13a with low temperature refrigerant from cooling means 13g.

Dækket holdes under sin bevægelse mod tætningsstationen 14 langs kanalen 13a neddykket i kølemiddelbadet, så at cellernes 3 ydre flader holdes i kontakt med kølemidlet, ind-20 til produktet i dem har størknet.During its movement, the tire is held against the sealing station 14 along the duct 13a immersed in the refrigerant bath so that the outer surfaces of the cells 3 are kept in contact with the refrigerant until the product in them has solidified.

Ved åbningen 13h afgives kølemidlet fra kanalen 13a og ledes til køleorganet 13g, så at der dannes et lukket kredsløb for kølemidlet, og kanalen 13a udgør således en del af dettes kredsløb. Cirkulationen af kølemidlet i kanalen 13a 25 lettes ved bevægelsen af det første foliestykke 11, hvis celler 3 rager ind i kanalen og virker som blade, der skubber kølemidlet fra indløbsenden 13b mod åbningen 13h.At the opening 13h, the refrigerant is discharged from the duct 13a and passed to the cooling means 13g to form a closed circuit for the refrigerant, and the duct 13a thus forms part of its circuit. The circulation of the refrigerant in the duct 13a 25 is facilitated by the movement of the first foil piece 11, whose cells 3 project into the duct and act as leaves pushing the refrigerant from the inlet end 13b towards the opening 13h.

Det ses af fig. 5, hvordan det varmeformede foliestykkes 11 længdekanter holdes i glidende kontakt med kanalens 13a 6It can be seen from FIG. 5 how the longitudinal edges of the heat-formed film piece 11 are kept in sliding contact with the channel 13a 6

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sidevægge, så at kølemidlet forhindres i at forlade selve kanalen.side walls so that the refrigerant is prevented from leaving the duct itself.

Nedstrøms for afgangsåbningen 13h fortsætter det varmedan-nede foliestykke 11 langs kanalen 13a mod tætningsstatio-5 nen 14, indtil det når åbningerne 13i, gennem hvilke kølemiddeldråber, der klæber til det varmedannede foliestykkes overflade, fjernes af sugepumpen 13 1.Downstream of the outlet opening 13h, the heat-formed foil 11 continues along the duct 13a toward the sealing station 14 until it reaches the openings 13i through which coolant droplets adhering to the surface of the hot-formed foil are removed by the suction pump 13 1.

Ved tætningsstationen 14 påføres det andet foliestykke 16 af termoplast, som leveres af den anden rulle 15, og varme-10 forsegles på det første varmedannede foliestykke 11 til lukning af åbningerne i cellerne 3, som indeholder de ihæl-dede produkter.Ved samlestationen 17 vikles det emballerede produkt i en strimmel op på samlerullen 18, fortrinsvis efter det har undergået en indledningsvis afskæring og/el-15 ler stanseoperation til adskillelse af cellerækkepartier- ne i produktet, der forlader tætningsstationen 14, og til efterfølgende langsgående inddeling af strimlerne, der er op-viklet på rullen 18, så at der dannes pakninger af den i fig. 1 og 2 viste art.At the sealing station 14, the second film piece 16 is applied by thermoplastic supplied by the second roll 15 and heat-10 is sealed on the first heat-formed film piece 11 to close the openings in the cells 3 containing the poured products. the packaged product in a strip onto the collector roll 18, preferably after having undergone an initial cut and / or punch operation to separate the cell row portions of the product leaving the sealing station 14, and for subsequent longitudinal division of the strips that are wound on the roller 18 so as to form gaskets of the one shown in FIG. 1 and 2.

2020

Claims (6)

1. Fremgangsmåde til emballering af produkter, som formes ved ihældning i en blisterpa'knings varmeformede dække, som består af en folie af et termoplastisk materiale med celler, som er varmeformet og hver især er indrettet til at 5 optage et respektivt produkt, kendetegnet ved, at en afmålt mængde af et smeltet produkt hældes i hver celle i dækket samtidigt med, at dækket afkøles af en strøm af flydende kølemiddel i kontakt med dækkets ydre flade.A method of packaging products which are formed by pouring into the heat-shaped cover of a blister pack, which consists of a film of a thermoplastic material with cells which are heat-shaped and each adapted to receive a respective product, characterized by that a metered amount of a molten product is poured into each cell of the tire at the same time as the tire is cooled by a flow of liquid refrigerant in contact with the tire's outer surface. 2. Fremgangsmåde ifølge krav 1, kendetegnet ved, 10 at der tilvejebringes et bad af flydende kølemiddel, at dækket neddykkes i badet, så at størstedelen af dækkets ydre flade er i kontakt med badet, at dækket og kølemidlet bevæges i forhold til hinanden, at en afmålt mængde smeltet produkt hældes ind i hver celle i dækket, og at dækket hol-15 des i kontakt med kølemidlet, indtil produktet er størknet.Method according to claim 1, characterized in that a liquid coolant bath is provided, that the tire is submerged in the bath, so that most of the outer surface of the tire is in contact with the bath, that the tire and refrigerant are moved relative to one another. a metered amount of molten product is poured into each cell of the tire and the tire is kept in contact with the refrigerant until the product is solidified. 3. Fremgangsmåde ifølge krav 2, kendetegnet ved, at dækket indeholdende det størknede produkt fjernes fra badet, og at restkølemidlet fjernes fra dækkets ydre flade.Method according to claim 2, characterized in that the tire containing the solidified product is removed from the bath and the residual refrigerant is removed from the outer surface of the tire. 4. Apparat til emballering af produkter, der er formet ved 20 ihældning i en blisterpakning, som består af en folie af et termoplastisk materiale med celler, der er dannet ved varme og hver især er indrettet til at optage et respektivt produkt, hvilket apparat omfatter en første rulle (10) til levering af et første foliestykke (11) af termoplastfolie, en 25 station (12) til varmeformning af det første foliestykke (11) af termoplastfolie afviklet af forrådsrullen (10), hvor langsgående rækker af celler (3) er dannet ved lokal deformering af det første foliestykkes (11) plane overflade, en fyldestation (13), hvor produkterne indføres i cel-30 lerne (3), en anden rulle (15) til levering af et andet termoplastisk foliestykke (16), og en lukkestation (14), DK 155156 B hvor det andet foliestykke (16) afviklet fra den anden rulle (15) påføres det første foliestykke (11), kendetegnet ved, at apparatet omfatter en kanal (13a), som strækker sig i retning af forskydningen 5 af det første foliestykke (11) mellem formestationen (12) og lukkestationen (14) og har en dybde, der er større end dybden af cellerne (3), samt har en indløbsende (13b) for det første varmeformede foliestykke (11), idet kanalens (13a) sidevægge støtter det første foliestykkes (11) langs-10 gående kanter under dettes bevægelse mellem de to stationer (12, 14) med cellerne (3) i kanalen (13a); organer (I3e, 13f) til levering af et flydende kølemiddel til kanalen ved indløbsenden (13b) for det første, foruddannede foliestykke (11); 15 et organ (13h) til afgivelse af kølfemidlet fra en afgivelseszone i kanalen (13a) nær lukkestationen (14); et organ (13g) til afkøling af det fra kanalen (13a) afgivne kølemiddel og til transport af dette til tilførselsorganerne (13e, 13f), hvorved kølemidlet løber gennem et luk-20 ket kredsløb, hvoraf kanalen (13a) udgør en del; og en station (13d) til ihældning af afmålte mængder af smeltet produkt i cellerne (3) i det første varmeformede foliestykke (11), som ligger over kanalen (13a) nær indløbsenden (13b).An apparatus for packaging products formed by pouring it into a blister pack consisting of a film of a thermoplastic material having cells formed by heat and each adapted to receive a respective product, the apparatus comprising a first roll (10) for supplying a first film piece (11) of thermoplastic film, a station (12) for heat forming the first film piece (11) of thermoplastic film wound by the stock roll (10), wherein longitudinal rows of cells (3) is formed by local deformation of the flat surface of the first film piece (11), a filling station (13), where the products are introduced into the cells (3), a second roller (15) for supplying a second thermoplastic film piece (16), and a closing station (14), wherein the second foil piece (16) unwound from the second roll (15) is applied to the first foil piece (11), characterized in that the apparatus comprises a channel (13a) extending in the direction of the offset 5 of the first foil piece (11) between the forming station (12) and the closing station (14) and has a depth greater than the depth of the cells (3), and has an inlet end (13b) for the first heat-formed film piece (11), the channel (13a) side walls support the longitudinal edges of the first film piece (11) during its movement between the two stations (12, 14) with the cells (3) in the channel (13a); means (13e, 13f) for supplying a liquid refrigerant to the duct at the inlet end (13b) of the first pre-formed foil piece (11); 15 means (13h) for delivering the wake agent from a delivery zone in the channel (13a) near the closing station (14); a means (13g) for cooling the refrigerant delivered from the channel (13a) and for transporting it to the supply means (13e, 13f), the refrigerant running through a closed circuit of which the channel (13a) forms a part; and a station (13d) for pouring metered amounts of molten product into the cells (3) of the first heat-formed film piece (11) which is above the channel (13a) near the inlet end (13b). 5. Apparat ifølge krav 4, kendetegnet ved, at kanalens (13a) bund har et antal åbninger (13i) nedstrøms for afgivelseszonen for kølemidlet, og at der findes suge-organer (13 1) til at suge dråber af kølemidlet, der klæber til det første varmeformede foliestykkes (11) væg, gen-30 nem åbningerne (13i).Apparatus according to claim 4, characterized in that the bottom of the duct (13a) has a plurality of openings (13i) downstream of the dispensing zone of the refrigerant and that suction means (13 1) exist for sucking drops of the refrigerant adhering to the refrigerant. the wall of the first heat-formed foil piece (11), through the openings (13i). 6. Apparat ifølge krav 4, kendetegnet ved, at kanalen har et antal langsgående ribber (13c), som støtter det første, varmeformede foliestykkes (11) midterpartier.Apparatus according to claim 4, characterized in that the channel has a plurality of longitudinal ribs (13c) which support the middle portions of the first heat-formed foil piece (11).
DK578082A 1981-12-30 1982-12-29 PROCEDURE AND APPARATUS FOR PACKAGING OF PRODUCTS FORMED BY PURPOSES IN A HEALTHY COVER OF A BLISTER PACKAGING DK155156C (en)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
IT68720/81A IT1145646B (en) 1981-12-30 1981-12-30 PROCESS AND MACHINE FOR PACKAGING PRODUCTS FORMED BY CASTING IN THE THERMOFORMED ENCLOSURE OF A BLISTER TYPE PACKAGE
IT6872081 1981-12-30

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Publication Number Publication Date
DK578082A DK578082A (en) 1983-07-01
DK155156B true DK155156B (en) 1989-02-20
DK155156C DK155156C (en) 1989-07-10

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DK578082A DK155156C (en) 1981-12-30 1982-12-29 PROCEDURE AND APPARATUS FOR PACKAGING OF PRODUCTS FORMED BY PURPOSES IN A HEALTHY COVER OF A BLISTER PACKAGING

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EP (1) EP0083323B1 (en)
DE (1) DE3273966D1 (en)
DK (1) DK155156C (en)
IE (1) IE54070B1 (en)
IT (1) IT1145646B (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104136323A (en) * 2012-02-28 2014-11-05 宝洁公司 Method for forming packages

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CN104136323A (en) * 2012-02-28 2014-11-05 宝洁公司 Method for forming packages
CN104136323B (en) * 2012-02-28 2016-03-30 宝洁公司 For the formation of the method for packaging

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IT1145646B (en) 1986-11-05
EP0083323A3 (en) 1984-04-04
DK155156C (en) 1989-07-10
IT8168720A0 (en) 1981-12-30
EP0083323B1 (en) 1986-10-29
EP0083323A2 (en) 1983-07-06
DK578082A (en) 1983-07-01
IE823079L (en) 1983-06-30
IE54070B1 (en) 1989-06-07
DE3273966D1 (en) 1986-12-04

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