EP0853584B1 - Blow-moulded plastics container, in particular lightweight bottle - Google Patents

Abstract

The invention concerns a blow-moulded bottle inside which a connection (11) extends from one wall (13) to the other and prevents the walls (13) from bulging when the bottle is full. The risk of the bottle's being compressed so greatly when handled that fluid inside the bottle is unintentionally forced out and spilt is also counteracted. The connection (11) comprises two columnar recesses (19), the free ends (17) of the columns (15) being welded to one another. At the base of each column (15) undulations (25, 26, 27) are formed practically concentrically to the column (15), so providing a region (23) with increased flexibility. In this way, resilient deformation can occur in this region (23) if the bottle is dropped when full. The walls (13) can thus move inwards or outwards somewhat relative to the columns (15) without a great risk of cracking at the column base.

Description

The present invention relates to a blow molded Containers, especially light bottles, made of plastic, with at least one of a wall is facing towards opposite wall extending to pressure and / or Tensile column.

Environmental reasons have been for a long time Light plastic bottles propagated, which with a significantly lower consumption of plastic can be than the usual plastic bottles. Disadvantageous It turns out that light bottles are less dimensionally stable are. Light bottles tend to be filled bulge. There is also a filled one Bottle the risk of being squeezed so hard that liquid flows out.

To create a dimensionally stable container, the GB-A-1 007 563 proposed to use a container thermoplastic material one or more hollow columns to provide which of one or more walls in the Interior protrude so as to oppose walls of the Keep the container at a distance. There will be several Embodiments of these spacing columns suggested. For example, it is provided that of two opposite walls from columnar Protrusions protrude towards each other into the interior of the container and welded to each other where they meet are. Alternatively, a Indentation proposed, which extends from one wall up extends to the opposite wall and there with this is welded. The possibility is also mentioned at the Connection point to provide a passage, so that through the Indentation or indentation one pass from one side to the other side of the container is created.

In FR-A-2,110,369 a gasoline can is made of plastic described, in which two opposing walls through welded column-like indentations are connected. When filling the canister, they are filled with Indentations formed columns stressed and tension prevent bulging of the walls. In EP-A-0 173 194 becomes a large-volume transport and storage container proposed in which two are opposite each other Walls through a through hole designed, for example tubular opening are connected. From this it is said that on the one hand as a handle for one-handed handling and Dosing works, but on the other hand bulges the Counteracts walls, such as when filling products can be observed with a high liter weight. As an advantage stated that even larger packs or packs with thinner wall than usual can without problems with a lateral bulge are to be feared.

However, all these containers described have the disadvantage indicate that they have insufficient case values. Already a case from a relatively low height can cause a crack in the container lead so that its content can flow out. The breaking point is usually located in the area of the column base, because there is when blowing the container, which also the column is formed, the material is greatly stretched. The wall thickness is therefore relatively low, so that there is a fall the container is particularly likely to crack.

It is therefore an object of the present invention to provide a container to create the genus mentioned above, which despite low material requirement a better case value than that known container, i.e. not easy in one case Damages and leaks.

According to the invention, this is achieved in that the wall An area with increased flexibility at the foot of the column has a limited relative movement of the column with respect to allow for the wall. So it's both one Movement of the wall towards the column as well as towards possible away from the pillar. So falls as a trained filled container on the floor, so in the area with increased flexibility an elastic deformation take place, without tearing. When the bottle is deformed due to the impact, the wall can be in different positions Shifts inwards or outwards, or also Tilt, take in relation to the pillar, and then again to return to the original position. thanks to this Spring action therefore increases the risk of tearing in the area of the column base greatly reduced.

A preferred embodiment provides that the area with increased flexibility: is curled. When blowing the container the material in the area of these waves is stretched more than in the remaining area of the wall, so that an area with increased flexibility: arises. This flexibility continues due to the surface enlargement caused by the waves reinforced. The waves in the region preferably run along increased flexibility: practically concentric to the column. It This creates a resilient structure similar to one Aneroid can. This structure is therefore able to pull and To address compressive forces elastically. This also allows one bend the column sideways in any direction.

The training of the area with increased flexibility is preferably so that from the wall to the foot of the column each wave protrudes further into the interior of the container. This has advantages in terms of blowing technology. That is advantageous Pillar frustoconical. It is also possible that the pillar has several frustoconical sections. Such Shape is recommended for blow molding reasons. If it it would also be possible to use a column other than blowing to form, it proves to be advantageous to form the pillar as Invert the wall to shape the column or the Form pillars simultaneously with the blowing of the bottle.

Expediently, two extend from one another opposite sides to each other in the columns Inside the bottle. Compared to bridging the distance between the walls by a single indentation formed pillar, this has the advantage that an excessive Stretching of the material in the area of the column can be avoided can.

There is no danger of bulging the filled bottle large and is only intended to squeeze the container are prevented during handling, there is none Need to use the free end of the column with the opposite wall or with the free end of the opposite column to connect. It is expedient however, the free end of the column with the opposite Wall connected, or are the free ends of the columns connected with each other. This is easy to do make sure that a corresponding Contact of the still plastic material takes place. For certain Applications it is appropriate that the pillar or pillars form a tubular passage.

Fig.1

ein erstes Ausführungsbeispiel des erfindungsgemässen Behälters,

Fig.2

einen Schnitt entlang der Linie II-II in Figur 1,

Fig.3

ein zweites Ausführungsbeispiel der erfindungsgemassen Flasche und

Fig. 4

eine Seitenansicht der Flasche, teilweise im Schnitt entlang der Linie IV-IV.

Embodiments of the invention will now be described with reference to the drawing. It shows:

Fig. 1

a first embodiment of the container according to the invention,

Fig. 2

2 shows a section along the line II-II in FIG. 1,

Fig. 3

a second embodiment of the bottle according to the invention and

Fig. 4

a side view of the bottle, partly in section along the line IV-IV.

The blow molded light bottle in Figures 1 and 2 is made made of plastic, e.g. Polyethylene or polypropylene. The invention is not limited to a particular bottle shape limited. Inside the bottle is a Connector 11, which are opposite to each other Sides of the bottle. In the shown Embodiment consists of the connector 11 in essentially of two frustoconical columns 15, the free ends 17 are connected to each other. The connection is done by welding the still hot during the blowing process Materials. The columns 15 are during the blowing process Indentations 19 of the wall 13 are formed.

It is now important that the wall is adjacent to the foot 21 the column has increased flexibility. This increased Flexibility allows a limited relative movement of the column 15 with respect to the wall 13. The area 23 with increased Flexibility is wavy. Waves 25, 26, 27 run practically concentric to the column. A structure is therefore created similar to the wall of an aneroid can. From the wall 13 ago towards the foot 21 of the column, each shaft protrudes 25,26,27 further the inside of the bottle.

Instead of the free ends 17 of the columns 15 together welded, it is also possible, for example, in a small distance apart so that the Bottle practically not or only to a small extent can be squeezed. Should, however, bulge the Bottle must be prevented, so a connection between the two Columns 15 are caused by welding or otherwise, that the columns 15 can also be subjected to tension. On Bulging of the walls 13 must be particularly large Bottles can be prevented. So measured the grip tab Figures 3 and 4, the columns 15 in particular the task Avoid bulging the filled bottle. To this end the free ends 17 of the columns 15 are together welded. Otherwise, can refer to the preceding description be referred to the bottle according to Figures 1 and 2.

Different configurations are possible without the Deviate inventive ideas. For example, that The free ends 17 of the columns 15 are welded in such a way that a through hole is created, i.e. through the two Indentations 19 a tubular passage is formed.

Claims (10)

1. Blow-moulded container, in particular a lightweight bottle, made of plastics material, comprising at least one column (15) subjectable to compressive and/or tensile stress, which extends from one side (13) towards the opposite side (13), characterized in that the side (13) adjoining the foot (21) of the column (15) comprises a region (23) of increased flexibility in order to enable a limited relative motion of the column (15) in relation to the side (13).
2. Container according to claim 1, characterized in that the region (23) of increased flexibility is corrugated.
3. Container according to claim 2, characterized in that the corrugations (25, 26, 27) of the region (23) of increased flexibility extend practically concentrically with the column (15).
4. Container according to claim 3, characterized in that from the side (13) to the foot (21) of the column (15) each corrugation (25, 26, 27) projects further into the interior of the container.
5. Container according to one of claims 1 to 4, characterized in that the column (15) is in the shape of a truncated cone.
6. Container according to claim 5, characterized in that the column (15) comprises a plurality of truncated-cone-shaped portions (16, 18).
7. Container according to one of claims 1 to 6, characterized in that the column (15) is formed by an inwardly drawn portion (19) of the side (13).
8. Container according to one of claims 1 to 7, characterized in that from two mutually opposing sides (13) columns (15) extend towards one another into the bottle interior.
9. Container according to one of claims 1 to 7, characterized in that the free end (17) of the column (15) is connected to the opposite side (13), and/or that the free ends (17) of the columns (15) are connected to one another.
10. Container according to claim 9, characterized in that the column (15) or the columns (15) form a tubular passage.

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