The present invention relates to a compressible plastic container of the hot filled type provided with vacuum compensation panels.
Nowadays, containers made of plastic, such as PET, have nearly entirely replaced all other container types for the disposable market. PET containers have the benefit of being very light, low-cost and manufacturable in large amounts by means of a stretching-blowing process. This process includes the formation of PET preforms by injection molding; the preforms thus obtained are subsequently heated, then elongated longitudinally and inflated in a specific molding cavity so as to make them reach the shape of the desired container. PET is a relatively expensive material, and it is thus important to develop containers which are as light as possible. The need to limit the amount of PET leads to containers the structure of which must be capable of adequately compensating for the low strength caused by the wall thinness which can be achieved by using PET. This container design problem is accentuated in containers for drinks which must be filled with a so-called hot fill process, i.e. with hot liquid. Said process implies a liquid temperature of about 85 degrees centigrade at the time of filling, i.e. a temperature sufficient for complete sterilization. Without an adequate design of the container, this could collapse or be irreparably deformed, again because of the thin walls. This type of container normally has a base and a cylindrical body, a shoulder and a neck. After filling, the bottle is closed and the cooling process of the liquid creates a negative pressure inside, which may cause a shrinkage of the bottle because of the concurrent effect of the contraction of the liquid volume and the contraction of the air volume present in the gap between the upper surface of the liquid and the inner wall of the cap. The bottle must thus be designed with a structural configuration such to be able to withstand such a shrinkage. In order to obtain a higher strength and avoid the collapsing of the bottle, bottles with cylindrical body walls containing vacuum compensation panels are generally made. The function of these panels is to yield towards the inside of the bottle, and thus accompany the decrease of volume of the cooled liquid. However, this bending causes strain spots at the edges of the panels which must be compensated by ribs generally arranged between one panel and the next, and by horizontal ribs arranged over and under the panel, which reinforce the structure and thus the rigidity of the bottle.
On the other hand, in case of bottles which are intentionally compressible so as to draw the liquid out by means of a pressure exerted by the user on the walls in radial direction, it is important not to exceed such a rigidity which could otherwise cause the breakage of the bottle by applying the squeezing force. The need to improve the stability of these bottles thus exists, in all cases without resorting to using more plastic material and guaranteeing a sufficient yielding feature to the squeezing required by the user.
It is an object of the present invention to make container for hot filling, which after the hot filling does not display an undesired squeezing and which may be compressed to draw the liquid out forcefully when the user wants to drink without this action causing permanent deformations or fracturing the container. Thus, the present invention reaches the aforedescribed object by means of a compressible container for drinks made of plastic material, e.g. PET, suitable for a hot filling process, having a longitudinal axis X and having a first length H along said longitudinal axis X, which comprises:
Advantageously, the central vacuum compensation body is delimited on the top and on the bottom by specific ribs and by an upper ring and a lower ring defining the maximum diameter of the bottle.
Furthermore, the bottom of the container is provided with two recesses, each in a position corresponding to the compensation panels which have the major side facing towards the shoulder. Advantageously, inclined columns, which connect the upper ring and the lower ring, are provided between the panels. The maximum depth of these inclined columns is comprised in the range between 2.5 mm and 5 mm, preferably the dimension of said maximum depth is between 2.8 mm and 3.2 mm.
According to an embodiment, the panels have an even surface, i.e. without any dips and protrusions, and are curved towards the longitudinal axis X. In this way, there is advantageously provided an enhanced vacuum compensation leading to a more homogeneous deformation and therefore to a uniform final shape of the bottle when cooling is accomplished.
Further features and advantages of the invention will be more apparent in light of the detailed description of a preferred, but not exclusive embodiment of a PET bottle of the type for hot filling, which may be squeezed to draw out the drink contained therein, illustrated by way of non-limiting example with the aid of the following figures:
The same reference numbers and letters in the figures refer to the same members or components.
NS/DM between 0.85 and 0.92, preferably an average between 0.88 and 0.90
NI/DM between 0.75 and 0.85, preferably an average between 0.78 and 0.82
Said H the total height of the bottle, the height h of the vacuum compensation area is preferably comprised between ½ H and ⅔ H.
The vacuum compensation area further comprises four compression panels 1 which are equal to each other and have a trapezoidal geometry with a ratio of the length of the minor base of the trapezium Lmin to that of the major base of the trapezium Lmax comprised in the range between 0.20 and 0.35, preferably between 0.28 and 0.29. The four compression panels 1 are arranged along the side walls of the central body 3.
Advantageously, the recesses 11 allow a stable positioning of the bottle on a support surface, in particular when the cooling process of the liquid creates a negative pressure inside, thus avoiding undesirable tilting of the bottle. Furthermore, by means of the recesses 11, the bottom 5 is stiffer and by means of the negative pressure, it can be deformed in a controlled manner.
Number | Date | Country | Kind |
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RM2013A000500 | Sep 2013 | IT | national |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2014/069155 | 9/9/2014 | WO | 00 |