A packing container for liquid, especially pressurized contents

Description

[0001] The present invention relates to a packing container according to the opening part of claims 1. Such containers are usually of a non-returnable character containing liquid content especially pressurized contents. They comprise at least one plane end wall, an emptying opening incorporated in the end wall and an outer cover ship which is applied over the emptying opening to the outside of the end wall.

[0002] Such containers are described in US-A-4 397 401. However, there are high risks of unintentional ruptures. These packages generally consist of a cylindrical can body provided with a base, the upper end of the can body being dosed with the help of a substantially plane end wall which is seamed onto the cylindrical can body. The cylindrical can body generally consists of plastic or metal, e.g. iron or aluminium. Whereas the plane end wall as a rules always consists of sheet aluminium.

[0003] To make the package conveniently openable it is provided in most cases with some type of opening arrangement which on the one hand should make the package readily openable and on the other hand should allow a smooth emptying of the contents from the opened package.

[0004] A very usual opening arrangement on such known can packages has a weakened or openable part in the plane end wall which by means of a pull-ring fixed to the weakened or openable part is adapted so that it can be completely pulled off to expose an emptying opening through which the contents of the package can be made accessible. One problem, not infrequently encountered in this, intrinsically simple and in most cases well-functioning, opening arrangement is that the openable end wall has to be manufactured from a relatively soft material, preferably aluminium, which is both soft and easy to process, but which from a point of view of manufacture is a very energy-consuming and thus cost-demanding metal. For the sake of making the package more economical, therefore, it is necessary, among other things, to recover and reuse as much as possible of the aluminium content of the package used, which, however, is counteracted or seriously obstructed by the fact that the part of the end wall of the package pulled off on opening of the package, including the pull-rung, in most cases is thrown away and thus is completely lost after a single use. To the economic loss also comes that the wasted portion of the end wall represents a substantial environmental problem, since it can remain lying about in nature for a very long time before it breaks down through corrosion, and constitutes during this time, because of its sharp edges, a hazard to humans and animals.

[0005] Another opening arrangement on known can packages of the type which has been described above consists of an emptying opening incorporated in the end wall of the drum which is covered by a cover strip or similar closure device glued detachably onto the outside of the end wall. This known opening arrangement too is relatively simple and easy to manufacture and as a rule functions well, but it has the disadvantage, among other things, especially in the case of can packages for pressurized contents, that it requires environmentally doubtful and expensive glue to provide the joint between the cover strip and durability.

[0006] Finally the DE-A-34 07 899 describes a container for drinks containing CO₂ comprising a cylindrical container body and two end walls being symmetrically inserted into the open ends of said container body. While one of these end walls is inserted into and sealed onto the inside of the lower end of the container body before filling the drinks the upper end wall is used as a cover and is inserted into and sealed onto the inside of the upper edge of the container body after filling. In order to release the filling goods it is necessary to break up the sealing zone or to pierce the packaging material in order to form an emptying opening.

[0007] It is an objective of the present invention to prepare a packing container of this type which has a liquid-tight and mechanically durable joint between end wall and container body.

[0008] This invention is characterized in claim 1.

[0009] The sealing joint between the cover strip and the end wall of the package is produced by inductive heating in a manner known in itself of the metal layers incorporated in the cover strip and the end wall respectively, which has been found to bring about that the package can be closed in a rapid and simple manner and that the actual closing process can be easily monitored both with regard to heating period and temperature and that the sealing joint will be tighter and more durable than, for example, in the case of glueing.

[0010] Further preferred embodiments and advantages of the invention have been given, moreover, the characteristics specified in the following subsidiary claims.

[0011] The invention will now be described in greater detail with special reference to the attached drawing, wherein

Figure 1 shows schematically the top part of a packing container provided with an opening arrangement in accordance with the invention, and

Figure 2 shows a central section of the container according to Figure 1.

[0012] Although the invention can be applied to all packages of a can character, it is assumed in the special embodiments referred to here that the package, which has been given the general reference designation 1, is of the type which is shown in Figure 1 and which consists of an upwards tapered can body 2 provided with any kind of bottom closure and a substantially plane end wall 3 arranged at the upper open end of the can body. The end wall 3 has an emptying opening 4 incorporated beforehand which is covered on the top by means of an outer cover strip 5 applied to the outside of the end wall. The cover strip 5 comprises on the one hand a mounting part 5a, which is connected detachably to the end wall 3 over the emptying opening 4, and on the other hand a readily accessible gripping part 5b by means of which the cover strip 5 is adapted to be removed on opening of the package.

[0013] As is evident more clearly from Figure 2, the cover strip 5 is manufactured from a laminated material comprising a central layer of material strong in tension, e.g. iron, and outer coatings 7 and 8 of weldable plastic, e.g. polyester (preferably polyethylene terephthalate). Figure 2 further illustrates that the end wall 3 too is manufactured from a material comprising a central metallic layer 9 with an outer coating 10 of weldable plastics, e.g. polyester (preferably polyethylene terephthalate). The end wall 3 has a downwards directed edge portion 3a serving as a fastening means which extends unbroken around the whole periphery of the end wall and which, at least partially, is inserted in, and is fastened to, the inside of the can body 2 along a liquid-tight and mechanically durable sealing joint around the whole thus inserted part of the edge portion 10 of the end wall.

[0014] As pointed out earlier, it is important that the joint between the outer cover strip 5 and the end wall 3, on the one side, should be sufficiently strong to be able to withstand the internal pressure of the package, which in the case of contents such as beer, refreshing beverages and similar carbonated drinks may go up to approx. 7 bar, but that the joint, on the other side, should not be so strong that, on opening of the package, an intentional pulling off of the cover strip is made impossible or is made unnecessarily difficult. In accordance with the invention a desirable optimum joint is obtained in that the cover strip 5 and the end wall 3 are connected with one another along a sealing joint formed by surface fusion between the plastic coatings 8 and 10 respectively facing one another, and it has been found in particular that a sealing joint which functions well and is easily controllable can be obtained if the cover strip 5 and the end wall 3 are joined to one another by inductive heating of metal layers 6 and 9 incorporated in the cover strip 5 and the end wall 3 respectively. Such an inductive heat sealing is both rapid and simple and can be carried out with the help of existing conventional equipment. The method, among other things, has the further advantage that it can be easily monitored both with regard to heating period and to temperature, so that a mechanically durable sealing joint which is liquid-tight but easily breakable is obtained around the whole emptying opening 4.

[0015] The can body 2, which is of the conical shape indicated in Figures 1 and 2, is also manufactured appropriately from a material comprising a thin inner metal layer 11 and at least one outer coating 12 of weldable plastic, preferably polyethylene terephthalate, facing towards the inside of the package, as a result of which the joint between the inserted part of the edge portion 10 of the end wall 3 and the inner plastic coating 12 of the container body 2 can also be achieved by inductive heating in a manner known in itself.

[0016] The example of an embodiment of the invention described here is intended solely to illustrate a particularly suitable embodiment, and it is possible, of course, within the scope of the concept of the invention as set out in the claims to realize a number of modifications, both with regard to the composition, and to the general design, of the packing container without departing, for this reason from the actual idea of the invention.

Claims

1. Packaging container comprising a container body (2), at least one end wall (3), an emptying opening (4) in said end wall (3), and an outer cover strip (5) applied over said emptying opening (4) to the outside of said end wall (3), wherein said cover strip (5) as well as said end wall (3) consist of a material comprising a metal layer (6, 9) and at least one outer coating (8, 10) of weldable plastic material and wherein said cover strip (5) is connected to said end wall (3) along a sealing joint around the whole emptying opening (4) which is liquid-tight but can be broken up, formed by surface fusion of plastic material,
characterized in that
said end wall (3) comprises a downwardly directed conical edge portion (3a) which serves as a fastening means for fastening said end wall (3) to said container body (2) and which is at least partially inserted into, and its outer plastic coating (10) being liquid-tightly and mechanically durably sealed to, the inside of said container body (2), that said container body (2) is conically shaped wherein said end wall (3) is sealed to the inside of the upper open end of the upwardly tapering conical container body (2), and that said sealing joint around said emptying opening (4) is formed by the outer plastic coating (8, 10) of said cover strip (5) and of said end wall (3).

2. A packing container in accordance with claim 1,
characterized in that
the metal layer (9) of the end wall consists of iron.

3. A packing container in accordance with anyone of the preceding claims,
characterized in that
that the metal layer (6) of the cover strip consists of iron.

4. A packing container in accordance with anyone of the preceding claims,
characterized in that
the said plastic coatings are constituted of a polyester, preferably polyethylene terephthalate.

Ansprüche

1. Verpackungsbehälter mit einem Behälterkörper (2), mindestens einer Endwand (3), einer Gießöffnung (4) in der Endwand (3) und einem äußeren Verschlußstreifen (5), der über der Gießöffnung (4) an der Außenseite der Endwand (3) angebracht ist, wobei der Verschlußstreifen (5) sowie die Endwand (3) aus einem Material bestehen, das eine Metallschicht (6, 9) und mindestens einen äußeren Überzug (8, 10) von schweißfähigem Kunststoff aufweist, und wobei der Verschlußstreifen (5) mit der Endwand (3) um die gesamte Gießöffnung (4) herum entlang einer Schweißverbindung verbunden ist, die flüssigkeitsdicht, aber aufbrechbar ist und durch Oberflächenverschmelzung von Kunststoffmaterial gebildet ist,
dadurch gekennzeichnet, daß
die Endwand (3) einen nach unten gerichteten konischen Randbereich (3a) aufweist, der als Befestigungsmittel zum Befestigen der Endwand (3) an dem Behälterkörper dient und mindestens teilweise in das Innere des Behälterkörpers (2) eingesetzt ist, und dessen äußerer Kunststoffüberzug (10) flüssigkeitsdicht und mechanisch beständig mit der Innenseite des Behälterkörpers (2) verschweißt ist, daß der Behälterkörper (2) konisch geformt ist, wobei die Endwand (3) mit der Innenseite des oberen offenen Endes des nach oben verjüngten konischen Behäterkörpers (2) versiegelt ist, und daß die Schweißverbindung um die Gießöffnung (4) herum durch den äußeren Kunststoffüberzug (8, 10) des Verschlußstreifens (5) und der Endwand (3) gebildet ist.

2. Verpackungsbehälter nach Anspruch 1,
dadurch gekennzeichnet, daß
die Metallschicht (9) der Endwand aus Eisen besteht.

3. Verpackungsbehälter nach einem der vorhergehenden Ansprüche,
dadurch gekennzeichnet, daß
die Metallschicht (6) des Verschlußstreifens aus Eisen besteht.

4. Verpackungsbehälter nach einem der vorhergehenden Ansprüche,
dadurch gekennzeichnet, daß
die Kunststoffüberzüge aus einem Polyester, bevorzugt Polyethylenterephthalat, gebildet sind.

Revendications

1. Récipient d'emballage comprenant un corps de récipient (2), au moins une paroi d'extrémité (3), un orifice de vidage (4) prévu dans ladite paroi d'extrémité (3), et une bande de couverture extérieure (5) appliquée sur ledit orifice de vidage (4) du côté extérieur de ladite paroi d'extrémité (3), dans lequel ladite bande de couverture (5) et ladite paroi d'extrémité (3) sont en une matière comprenant une couche de métal (6, 9) et au moins un revêtement extérieur (8, 10) de matière plastique soudable, et dans lequel ladite bande de couverture (5) est reliée à ladite paroi d'extrémité (3) le long d'une jonction étanche, autour de tout l'orifice de vidage (4), qui est étanche aux liquides mais peut être cassée , cette jonction étant formée par fusion de surface de la matière plastique, caractérisé en ce que
   ladite paroi d'extrémité (3) comprend un rebord conique dirigé vers le bas (3a) qui sert de moyen de fixation pour fixer ladite paroi d'extrémité (3) audit corps de récipient (2) et qui est au moins partiellement inséré dans, et dont le revêtement de matière plastique extérieur (10) est soudé de façon étanche aux liquides et scellé de façon mécaniquement durable à l'intérieur de ce corps, et en ce que ledit corps de récipient (2) a une forme conique, ladite paroi d'extrémité (3) étant scellée à l'intérieur de l'extrémité supérieure ouverte du corps de récipient conique à section décroissante vers le haut (2), et en ce que ladite jonction de scellement autour de ladite ouverture de vidage (4) est formée par ledit revêtement de matière plastique extérieur (8, 10) de ladite bande de couverture (5) et de ladite paroi d'extrémité (3).

2. Récipient de conditionnement selon la revendication 1 caractérisé en ce que
la couche métallique (9) de la paroi d'extremité est constituée de fer.

3. Récipient de conditionnement selon l'une quelconque des revendications précédentes,
caractérisé en ce que la couche métallique (6) du ruban de couverture est constituée de fer.

4. Récipient de conditionnement selon l'une quelconque des revendications précédentes,
caractérisé en ce que
lesdits revêtements de matière plastique sont constitués d'un polyester, de préférence le téréphtalate de polyéthylène.

Drawing