DE2102319A1 - Disposable packaging made of plastic, in particular plastic bottles - Google Patents

Description

Disposable packaging made of plastic, in particular plastic bottles The invention relates to disposable plastic packaging, in particular a plastic bottle, for tightly closed packaging of items to be sterilized afterwards, z. B. milk, and a method and apparatus for compensating for one after the pressure drop set during the sterilization process in this disposable packaging.

When packing sterile items, e.g. B. sterile milk, are attached to the packaging material in addition to good handiness and stability, there are other significant requirements posed, such as 3. Odor and taste neutrality, diffusion density, light protection and mechanical strength sufficiently withstanding relatively high pressures. Although these requirements are largely met by the known glass bottles, however, besides their high weight, these also have the disadvantage that they are too fragile and as one-way packaging due to the complex manufacturing and packaging processes to are expensive. In the course of rationalization and reorganization in the packaging as in the sales or distribution practice, e.g. B. by relocating milk sales from specialty retail to self-service shops are increasing Scope of plastic containers used as disposable packaging, known in the Pressure filling process filled with the product and tightly closed in the same operation will. Although most of them are made of polyethylene Meet the above-mentioned requirements for packaging sterile items, so prepares them rational application in terms of shape, material weight and Wall thickness distribution, however, still has difficulties. This arises from the fact that under the given sterilization conditions due to the sterilization process occurring pressure difference the packaging material is temporarily stretched, and that therefore after the filling and packaging have cooled down as a result of the pressure drop the packaging is more or less deformed.

This makes the packaging unsightly and often unwieldy, in addition, their mechanical stability is weakened as a result.

The invention is based on the object of disposable packaging Plastic, in particular a plastic bottle, as well as a method and a device to create with which the packaging preferably in the known pressure filling process can be filled and firmly closed with sterile goods in one operation, and which can then be subjected to the usual sterilization process for glass containers, without losing its shape and mechanical strength after all.

This object is achieved according to the invention in that the packaging at least has a section bulged in or out of its wall, which is at least a closed turning edge and both within this edge a convex shape can be inverted into a concave shape as well as vice versa. Preferably this bending edge is shaped like a bead outwards from the wall of the packaging.

This inventive design of the packaging described above pressure differences can be compensated without deforming the packaging. Because through the arrangement of at least one convex and concave invertible, thus roughly like a membrane wall section that can be moved outwards or inwards the interior volume can be changed according to the internal pressure. this happens expediently according to a development of the invention in such a way that the packaging after the sterilization process initially a hollow shape with one of the outer shape of the Packing adapted receiving space supplied, therein at its concave-invertible Wandungsab cut briefly with a pressure medium and then to The evacuation is ejected onto the concave-invertible wall section suddenly occurring compressive force acts as far as the edge zones of the wall section such that the turning edge is pulled inwardly into a stiffening position and keeps the wall section evenly tensioned.

In the case of packaging with an approximately cylindrical side wall, such as B. has the body of a milk bottle, the side wall of the packaging advantageously at least two diametrically opposite, indented or bulged and concave-invertible sections, which are in their approximately concave position at the same time Form gripping surfaces. Preferably, however, the one or. booked out and concavely invertible portion of the wall from the head and / or the bottom of the packaging, the latter has the advantage that the stability and the side wall, which is decisive for the appearance, is not impaired is. In particular when forming the concave-invertible wall section from the head of the packaging is according to a development of the subject of the invention expediently from this wall section at least one hollow one on the outside Formed closed nipple, its outer end edge in the concave position of the invertible wall section terminates with its bending edge. This On the one hand, the nipple makes it easier to open and empty the packaging through the spout-shaped nipple, if in a known manner its outer, closed one End piece has been cut off but on the other hand interferes with the invention Training the packaging not stacking the packaging, as he after the concave inversion of the previously convex section of the head wall in one Molded recess in the head, in which it also largely protects against transport damage is protected.

Preferably, in the top-side closing of the packaging, concave-invertible wall section and / or the wall of the nipple a predetermined breaking groove molded. This allows the packaging to be used for the consumption of the product itself with deep embedding of the molded or molded opening means without additional Cutting tool by tearing out a section directly from the head-side Packaging wall or its nipple or

slightly opened by twisting off this nipple or part of it will. Although opening means can already be torn out from predetermined breaking points are known, is by the invention Arrangement still that The advantage is that they are completely sunk in all transport routes of the packaging lie. This is particularly in connection with the known packaging Nipples that protrude significantly from the packaging wall are of great advantage.

After further training it is booked in or out and a concavely invertible portion of the wall within its bounding bend edge at least one further, stepwise stepped off in relation to this outer bending edge and symmetrically extending bending edge formed. This is a far-reaching one Adjustment of the extent of the concave inversion of the previously convex wall section to the pressure drop that occurs after the sterilization process. This embodiment particularly favors the design according to the invention of the bottom of a bottle-shaped packaging, as it is always uniform Bending edge and thus a perfect, right-angled standing area in the bottom of the bottle is achieved.

On different embodiments of a device for implementation the pressure equalization on the packaging designed according to the invention is in the received the description below.

In the drawing, the subject matter of the invention is shown in various exemplary embodiments shown. The figures show: FIG. 1 a side view of a plastic bottle trained disposable packaging according to a first embodiment with four from the side wall outwardly bulging, concavely invertible wall sections; Fig. Figure 2 is a side view of the bottle of Figure 1 with concavely inverted wall sections; partially broken; Fig. 3 is a sectional view of a plastic bottle according to a second embodiment with a convexly bulged bottom; Fig. 4 a sectional view of the bottle according to FIG. 3, with a concavely inverted bottom; Fig. 5 shows a sectional illustration of the fraction shown in the circular line V of FIG. 3, on a larger scale; Fig. 6 is a sectional view of the in the circular line VI of Fig. 4 shown fragmentary, on a larger scale; Fig. 7 is a sectional view a plastic bottle according to a third embodiment with a convex bulged head; FIG. 8 shows a sectional view of the bottle according to FIG. 7, with concavely inverted head; 9 shows a sectional view of the head part of the plastic bottle 7 and 8, on a larger scale; Fig. 10 is a sectional view of a modified head part of the plastic bottle according to FIGS. 7 and 8; Fig. 11 a Sectional view of a plastic bottle according to a fourth embodiment with a stepped bottom bulging outwards; Fig. 12 a sectional view of the bottle according to Figure 11, with a concavely inverted bottom; 13 shows a longitudinal section through an inverting device with a hollow shape for receiving a plastic bottle according to FIGS. 1 and 2 and with a partially aborted device for mechanical concave inversion of the after outwardly bulged sidewall sections; 14 shows a longitudinal section through a hollow shape shown abrohhen for receiving a bottle according to FIGS. 3 and 4, with a device shown only in the essential parts for hydraulic or pneumatic inversion of a convexly bulged floor; Fig. 15 a cross section through a hollow shape for receiving a bottle according to FIG. 11 and 12, with a device for mechanical concave inversion of one to the outside bulged bottle bottom, with a push-in piston shown in its rest position; and FIG. 16 shows a cross section through the hollow mold according to FIG. 15, with in its working position shown push-in piston.

The first embodiment shown in Figs. 1 and 2, Plastic bottle 20 designed as a disposable packaging is known per se Pressure filling process in one operation from a plasticized polyethylene hose shaped, filled with milk to be sterilized and sealed airtight.

From the cylindrical side wall of the bottle body are after Fig. 1 shows four wall sections evenly distributed over the circumference of the bottle 21 bulging outwards, each of two self-contained, to each other stepped stepped bent edges 22 and 23 are delimited. These booked out Wall sections 21 remain during the subsequent sterilization process within a sterilization tower known per se and therefore not explained in more detail Outstandingly preserved from the bottle body. During the sterilization process occurring pressure difference between the bottle interior and the bottle environment cause a stretching of the plastic material and thus the volume of the bottle. After the cooling phase, there is consequently a negative pressure in the interior of the bottle, which is booked out by a subsequent pressing in in the sense of a concave inversion of the eten wall sections of the bottle is compensated (Fig. 2).

In Fig. 13 is an embodiment of a device for aforementioned concave inversion of the booked wall sections 21 of the plastic bottle 20 shown in FIGS. 1 and 2. The cooled after the sterilization process, Bottle containing sterile milk is inserted into an open hollow mold 24, the Receiving space 25 in the lower area of the bottle bottom and in the upper area of the shoulder and neck shape of the bottle is adapted. In the middle area, the hollow shape has in its Sidewall openings 26 which, when the bottle is inserted, are at the level of the latter, are bulged out Wall sections 21 are arranged and the entry of four push-in pistons Allow 27 from an adjacent chamber 28 into the receiving space.

These push-in pistons 27 are cross-shaped around the hollow shape 24 hereabouts arranged and by a known, not explained in detail drive device Movable via piston rods in the radial direction to the inserted plastic bottle 20.

The pistons have a profile piece on their surface facing the bottle 29 get put on, that is in the working position of the piston, when it hits the stop of the piston edge 27 a against the side wall of the hollow mold 24 to the correct Concave inversion of the bottle wall sections 21 sufficient amount in the Receiving space 25 of the hollow mold 24 enters.

After inserting the bottles from the sterilization tower All four push-in pistons 27 are mechanically and pneumatically into the hollow form or hydraulically operated drive means simultaneously from their, in FIG. 13 shown rest position briefly moved against the bottle, the profile pieces 29 the piston removes the bottle wall sections 21 from the outwardly bulged Invert the position of FIG. 1 inwards into the approximately concave position according to FIG. 2. By the resulting reduction in volume is the result of that in the interior of the bottle the negative pressure prevailing in the sterilization process is compensated; and yourself a possibly generated by the concave inversion of the bottle wall sections 21 slight overpressure in the interior of the bottle cannot reshape the wall sections> because the layers surrounding them are now transformed into a stiffening layer inwards Turning edges 22 and 23 stably oppose this possible overpressure. the Bending edges hold the wall sections until the contents of the bottle are used up each flexible like a membrane that compensates for the later temperature differences tense. By roughening their outer surface, these wall sections Well be made handy.

The illustrated in Figs. 3 and 4 as a second embodiment Plastic bottle 30 corresponds essentially to the bottle described above 20 and differs only in that it only has one, from the bottom of the bottle Has wall section 31 convexly bulging outwards. From the cylindrical The wall of the bottle body is circular on the outer edge of the base, like a hollow one Bending edge 32 formed outwardly formed by annular bead, which the bulged Bottom of the bottle delimited and at the same time as the bottom edge of the bottle body forms the base after the concave inversion.

Because the aim is to fill the bottles as full as possible around the air remaining in the bottle neck during the sterilization process Keeping partial pressure as low as possible will in many cases only be a moderate one The bulge in the bottom of the bottle is sufficient, roughly as shown in FIGS. 3 and 4 is.

After the sterilization process, the Filled bottles in rows in a broken line shown in Fig. 14, divisible Hollow shape 33 introduced, the several, correspondingly arranged in series receiving spaces 34 has. A main line 35 each emanates into their bottom sections Pressure medium supply channel 36. The bottom surfaces of the receiving spaces and thus also the pressure medium supply channels are loose with a partition serving as a partition applied rubber sheet 37 covered, which is only in the edge zones of the receiving spaces is set in the hollow mold. After closing the mold 33 is of a known and therefore not shown source from through the main line 35 and the Supply channels 36 with an adapted pressure or a liquid Gaseous pressure medium briefly under the flexible sections of the rubber sheet, which are located under the bottle bottoms, pressed, whereby the film sections together with the bottle bottoms from their original convex position to the in 14, the concave position shown by dash-dotted lines can be inverted. In Fig. 5 and FIG. 6 shows, on an enlarged scale, the position of the turning edge 32 in front of and shown after the concave inversion. It is made clear here that the turning edge has an open, resilient shape before the inversion of FIG. 5, while it then with a concave-inverted bottom according to FIG. 6 in a closed and the Bottom of the bottle has been pulled evenly stiffening layer.

The one shown in FIGS. 7 to 9 as a third embodiment Plastic bottle 40 differs from the bottle 30 described above in FIG 3 and 4 only in that ae bulges outward from the bottle head Has wall section 41. This wall section is circular Bending edge 42 delimits and has an outwardly shaped one in its center Nipple 43. This nipple is hollow and only closed on its outside. He has two diametrically arranged, wing-shaped grip tabs on its outside 44 and below an annular predetermined breaking groove 45. This allows the outer, closed Part of the nipple is easily removed by twisting it off, thus opening the bottle be e.g. B. for inserting a drinking straw. Fig. 8 shows the sunk position the opening means described above with the wall section concavely inverted in the bottle head 41, the recess formed in this way, the nipple and its grip tabs completely take up.

The nipple 43 shown in FIGS. 7 to 9 can of course also used alone, i.e. without the wing-shaped handle tabs 44 will, by z. B. broken out by bending from the wall portion 41 or its end piece is removed with a cutting tool.

FIG. 10 shows an essentially with the packaging of FIG.

7 to 9 corresponding embodiment with a modified nipple 46. This nipple 46 of FIG. 10 has approximately the elongated shape of a cross-section Birtnensilhouette with two, spaced next to each other and only on the outside closed cavities 47 and 48, of which one cavity 47 is a relative large and on the other hand the other cavity 48 has a relatively small diameter. In the outer wall of the nipple a predetermined breaking groove 49 is formed, which on a longitudinally extending bevel cutting plane. When opening the bottle through the consumer is pulled by the nipple until it partially breaks out Area of the small cavity 48, creating a passage for the outside air becomes free, the top wall 41 slightly when entering the interior of the bottle can be pulled out of the concave position into the convex position. With a further tear movement The upper part of the nipple is completely removed, with the larger cavity as well 47 becomes free for the product to pass through. This larger nipple cavity 47 serves as a pouring spout when emptying the bottle, while through the aforementioned smaller cavity 48 the outside air can enter the bottle interior.

The plastic bottles shown in FIGS. 7 to 10 are obtained their concave inversion in a device essentially similar to that described so far Inverting devices corresponds and only the inverted bottle position must be adapted within the cavity. Since such an adjustment is only constructive Requires measures, is not discussed in detail.

The illustrated in FIGS. 11 and 12 as a fourth embodiment Plastic bottle 50 differs from the bottle 30 described above in FIG Fig. 3 and 4 only in that the bottom bulged and concave-invertible Wandungsab section 51 within the bend edge surrounding the outer edge of the bottle body 52 more, closed in a circle and symmetrically step-shaped to one another Has offset turning edges 53 and 54. As already mentioned in the introduction, This means that it is possible to adapt to a large extent both during the concave inversion as well as the z, B.

pressures occurring due to temperature differences in the interior of the bottle and pressure drops are given, which thus the bottle outer wall in its shape and cannot impair their stability. These bottles 50 are after the sterilization process in rows in a hollow mold 55 with several side by side arranged receiving spaces 56 introduced, shown in FIGS. 15 and 16 in cross section is shown. Below the bottle bottoms are in the hollow mold in the same row arrangement each a cylindrical chamber 57 with a push-in piston guided against the bottom of the bottle 58, the short-term with known and therefore not explained in detail drive means is movable against the bottle bottom.

In FIG. 15 the hollow form with a push-in piston is in the rest position shown immediately after inserting the bottles and closing the hollow mold, while FIG. 16 shows the same hollow shape with the same piston in the working position shows. In the latter working position, the one placed on this piston protrudes Profile piece 59 through a chamber 57 with the bottle receiving space connecting Opening 60 through into the bottle receiving space and has the previously bulged outward Bottle bottom 51 concavely inverted around the outer bending edge 52.

The invention is of course not limited to those described above Embodiments are limited, but can also be many other forms the packaging are treated in the same way. The concave-invertible Wandungsab sections combined be molded, such. B. both in the head as well in the bottom of a plastic bottle.

It is also within the scope of the invention to include the packaging their manufacture, e.g. already in the injection or blow mold, with one off the wall out inwardly, consequently already when filling into the interior of the bottle to provide drawn-in wall section, as shown, for example, in Figs. 2, 4, 8 and 12 is shown. This embodiment can with suitable material and even if the wall thickness of the packaging is correspondingly small have the advantage that the devices shown in FIGS. 13 to 16 for the concave inversion and the associated work step can be saved, because the wall section drawn into the interior of the bottle from the start pressed outwards during the sterilization process when the internal pressure rises and when it cools down, it is pulled inwards again by the pressure drop, without to change the packaging in its remaining form significantly, for the production of well-stable, and especially of bottle-shaped ones that are concave-inverted at the bottom Have packaging made of polyethylene or similar plastic in the blow molding process However, the embodiments described above and shown in the drawings of the invention shown to be particularly useful.

Claims (10)

Claims fF 1. Disposable plastic packaging, especially plastic bottles, for tightly closed packaging of items to be sterilized afterwards, z. 3. Milk, characterized in that the packaging (20,30,40, 50) at least has a section (21, 31, 41, 51) bulging in or out of its wall, which is bounded by at least one closed turning edge (22, 32, 42, 52) and within this edge both from a convex shape to a concave shape as well is inversely invertible. 2. Disposable packaging according to claim 1, characterized in that the Bending edge (22,32,42,52) bead-like outwards from the wall of the packaging (20,30,40, 50) is shaped out. 3. Disposable packaging according to claims 1 or 2, with an approximately cylindrical extending side wall, characterized in that the side wall of the packaging (20) at least two sith diametrically opposite, indented or bulged and Has concave-invertible sections (21), which in their approximately concave position at the same time Form gripping surfaces. 4. Disposable packaging according to one of claims 1 to 3, characterized in that that the one or. bulged and concave-invertible section (31, 41, 51) of the Wall formed from the head and / or the bottom of the packaging (30, 40, 0) ' is. 5. Disposable packaging according to one of claims 1 to 4, characterized in that that from the concave invertible which closes the packaging (40) at the head end Wall section (41) at least one hollow, closed on the outside Nipple (43,46) is formed, the outer end edge of which is in the concave position of the invertible wall section terminates with its bending edge (42). 6. Disposable packaging according to one of claims 1 to 5, characterized in that that in the concave-invertible wall section closing the packaging at the top (41) and / or the wall of the nipple (43, 46) has a predetermined breaking groove (45, 49) formed therein is. 7. Disposable packaging according to claim 6, characterized in that the by the predetermined breaking groove (45,49) delimited, twistable or tearable part of the concave-invertible Wall section (41) or the nipple r (43,46) with a protruding on the outside Grip tabs (44) is provided, the outer edge of which is in the concave position of the invertible Wall section terminates with its bending edge (42). 8. Packaging according to one of claims 1 to 7, characterized in that that in the one or. bulged and concave-invertible section (21,51) of the Wall within its bounding bend edge (22,52) at least one further, opposite this outer bend, stepped and symmetrical extending bending edge (23 or 53 and 54) is formed. 9. Procedure to compensate for one after the sterilization process set pressure drop in the disposable packaging that firmly encloses sterile items according to claims 1 to 8, characterized in that the packaging according to the Sterilization process first of all a hollow shape with one of the outer shape of the packaging adapted receiving space supplied, therein on their concavely invertible Wandungsab cut briefly pressurized and then transported away is ejected. 10. Apparatus for performing the method according to claim 9, characterized characterized in that a divisible, preferably with several adjacent Receiving spaces (25, 34, 56) provided hollow shape (24, 33, 5 5) at least one against the concavely invertible wall sections (21, 31, 41, 51) of the enclosed Packaging (20, 30, 40, 50) directed through an opening with the receiving space connected pressure medium chamber (28, 35, 57), from which a pressure medium, e.g. Water, air or piston (27, 58), optionally with the interposition of a yielding partition; z. B. rubber sheet (37), briefly in the receiving rooms is movable.