CS241352B1 - Plastic foil liquid closure for vessels with edge shaping - Google Patents

Description

The invention is. refers to a liquid seal of plastic film for containers with edge profiling. .

Liquid closures of plastic are known in the art, as described, for example, in a magazine. Z-Konstruktion, 28. (1976), 7, 257. These are closures for sealing bottles or tubes with a front seal which achieve a multiplication of the closing force by means of a knee lever, single or double wedge and thread. The production of these closures is particularly complicated and costly if they are intended primarily for frequent rotation of seals and opening operations.

One further technical solution results from DE-PS No. 2,512,882, which utilizes the shrinkage effect of the plastic film rolled over the edge of the container during heating to achieve its tightness. Because when bending the foil overhangs. wrinkles or wrinkles are formed over the lip of the flap that cannot be removed by shrinking, and the closure is limited to lids with short edges.

In extending this consideration to closures of other materials, the known crown caps with cork inserts and, in the case of milk bottles, the usual aluminum foil caps are mentioned. These closures have the disadvantage that they cannot seal anymore after opening.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a liquid closure of the kind described in the introduction, which seals even after several openings, while being simple and cheap to manufacture.

SUMMARY OF THE INVENTION The object of the present invention is to provide a liquid closure according to the invention in which the plastic foil is smoothly adjacent to the container edge region of the container, and the plastic foil edge is protruding on all sides below the container edge region.

According to further embodiments of the invention, the plastic film has a particularly square form and can consist of two to three layers one above the other.

The new or higher effect achieved by the invention can be seen in the following: · '·

There is no need to pre-manufacture closures, for example by injection molding, which is a prerequisite for most known manufacturing methods.

The production of closures and container closures takes place in one operation.

There are no special requirements for the applicable plastics material. Some production methods are based on the use of a bi-directional plastic film, the so-called shrink film, which is expensive to manufacture. Thermoplastic films such as vinyl chloride (PVCJ or polyethylene (PE)) are used.

The required bottling capacities in the industry, for example 50,000 bottles per hour, are achieved effortlessly, since the time required for the closing process at the conclusion of the invention is only about 10 ms or 0.01 s.

In contrast to the known liquid closures which are placed on the container opening and only then become sealed by heat supply, the necessary heating time being detrimental to the machine's high performance and the hardly preventable heating of the closed container is detrimental to many container fillings local and time separation between heating the plastic foil and closing the container.

Also, deviations in the opening of the containers from the usual dimensions have a much lesser effect on the liquid closure according to the invention than in the known embodiments. The mouth of the container is used to form the closure, whereby each container receives its own customized closure.

Finally, in the formation of the liquid closure, such phenomena as film stripping and / or germ closure due to heating above 100 [deg.] C. immediately before the closure of the container, and thus its good sealing even in the case of considerable tolerances in its dimensions; In contrast to metal closures, the liquid closures of the present invention do not interfere with surfaces with chemical factors.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an enlarged sectional view of a simple cap of a conventional milk bottle; FIG. 2 is a top view of a cap; FIG. 3 shows a cross-section of a multilayer film cap; a conventional milk bottle, which can be pulled under the second edge profile of the container on a separate pram.

The edge profile 1 of the milk bottle is wrapped on its sealing surfaces with a sealing foil 2, its edge 3 protruding from the neck of the milk bottle. The blank of the closure film 2 can have any shape. FIG. 2 shows, for example, a square shape. The closure of the multilayer film according to FIG. above atmospheric pressure.

The liquid closure according to the invention of closure film 2 is formed as follows:

In order to close the container, a circular surface in the middle of the flat sealing film 2 is heated. The diameter of this heated circular surface is smaller than the outer diameter of the edge profile 1 of the container. The sealing foil 2 is then stretched with the aid of a special punch over the edge profile 1 of the container and is irreversibly stretched in the heated circular region. This closes the container. At the boundary to the heated area, the unheated edge 3 of the sealing film 2 is stretched and expanded for a short time when it is stretched or closed. Upon reaching the appropriate draw depth, the unheated edge 3 of the sealing film 2 snaps under the edge profile 1 of the container, i.e., it is re-deformed. Due to its restoring force, the unheated edge 3 of the adjacent heated region of the sealing film 2 is pressed against the edge of the container and any possible unevenness on the container is sealed by the pressure. This ensures a sufficient sealing effect inside the sealing zone.

In the experiments, beverage bottles formed with a crown cap opening were closed with 1 mm thick polyvinyl chloride (PVC) films. In the bottles, the internal pressure was then increased up to 20 bar without breaking the closure. Experiments have further shown that by intentionally varying the size of the heated surface, the lift pressure, i.e. the pressure at which the cap is released from the bottle, as well as the behavior of the aperture can be influenced. For rigid polyvinyl chloride (PVCj) foils with a thickness of only 0.5 mm, the lifting pressure is about 0.5 MPa. Such a foil is suitable, for example, for beer bottle closures.

The molding tools for the liquid closure are both the punch and the edge profile 1 of the container.

In connection with the possibility of arranging two or more films on top of one another and their joint stretching after heating over the edge profile 1 of the container, the following combination is also possible:

One left and thick foil takes care of the stability and strength of the liquid seal, while the other, thin foil, chosen according to the container charge, does not affect the charge.

Cartridges that are subject to food laws or medicines are subject to particularly high requirements, and the permissible films are generally relatively expensive. The technically sophisticated boundary is given by three foils, the inner foil taking into account the influences of the container filling, the middle foil guarantees the strength of the closure and the outer foil suffices to withstand special outside influences.

The liquid closure according to the invention is applicable to so-called still fluids, pastes and the like, as well as to containers having a low overpressure content.

Claims (3)

SUBJECT Liquid foil closure for edge profiled containers, characterized in that the plastic foil (2) is permanently stretched above the seal. the edge profile (1) of the container edge smoothly adjacent to it, the edge (3) of the plastic film (2) being protruding on all sides under the sealing region of the edge profile (1) of the container. OF THE INVENTION Liquid closure according to Claim 1, characterized in that the plastic film (2) is preferably of square form. Liquid closure according to Claims 1 and 2, characterized in that the plastic film (2) consists of two to three layers one above the other.