FR3012115A1 - CONTAINER WITH AN EVOLUTIVE SECTION BETWEEN A SQUARE CONTOUR AND A RECTANGULAR CONTOUR - Google Patents

Abstract

A plastic container (1) comprising a body (2) extending along a main axis (X), a shoulder (3) extending in the extension of the body (2) from an upper side, and a bottom (5) which extends in the extension of the body (2) of a lower side, the body comprising having, in cross section near the shoulder (3) as close to the bottom (5), a square outline and, in cross section in a median area of the body (2), a rectangular outline.

Description

The invention relates to the field of containers made of thermoplastic material such as PET, and more particularly, although not exclusively, the containers, such as bottles, which can be hot-filled. . A container is generally manufactured by blow molding or stretch blow molding of an injected preform, which is first heated on the run in a furnace equipped with radiant heating elements, then introduced hot into a mold provided with a cavity defining the counterweight. -print of the container. As an indication, the temperature of the liquid during a hot filling frequently exceeds 60 ° C, and commonly reaches 90 ° C to 95 ° C (ie a temperature above the glass transition temperature of PET). An ordinary container has an insufficient mechanical strength which, during hot filling, would result in significant deformations resulting from the thermal shock that accompanies such a filling. In addition, during the subsequent cooling of the contents, the container would deform further, due to the internal depression accompanying the decrease in temperature. Also the containers for hot filling (called HR, acronym for the term "heat resistant") benefit from a suitable manufacturing and special structural provisions making them less sensitive to deformations and allowing them to maintain their shape for a long time. General. The container is generally provided with deformable zones with controlled deformation. Thus, it is known to provide the container body panels which, during filling, will bulge under the combined effect of temperature and hydrostatic pressure, and which, when the liquid will cool, go to the reverse, retract to accompany the reduction of the volume of liquid. Containers with an approximately square cross-section are thus known, provided with panels connected by slightly curved facets, arranged at the four corners of the square, and intended to deform by flattening to absorb the accompanying depression. content, cf. eg. US Pat. No. 7,699,183 (COCA COLA). If, in theory, the deformation of the container is controlled, it is found in practice that this is not the case. Indeed, the container tends to deform in a global manner, flattening from its initially square shape to a diamond shape in which the angles between the panels are no longer right. This results in a lack of rigidity of the container when taken in hand. This defect tends to worsen with the decrease in the amount of material used (which is the current general trend among container manufacturers, mainly for reasons of cost and evolution of anti-pollution standards). It is further noted that this deformation is all the greater in mid-height of the body.

Various solutions exist to remedy this problem. A first, obvious solution is to increase the thickness of the container. A second solution is to provide the container with a belt, cf. eg. European Patent Application EP 2 473 413 (SIDEL 20 PARTICIPATIONS). But these solutions both require an additional material for the manufacture of the container, which is contrary to current specifications, which require on the contrary a decrease in the amount of material used. A first objective is to provide a container with a better resistance to deformation, in particular due to a depression accompanying the cooling of the contents when it was introduced hot. A second objective is to provide a solution that allows the container to retain its general shape when subjected to an internal vacuum. A third objective is to provide a square section container that does not tend to adopt a diamond shape when subjected to an internal depression. In order to achieve at least one, and preferably all, of these lenses, there is provided a plastic container, comprising a body which extends along a main axis, a shoulder, a shoulder, and a shoulder. Version: TQD which extends in the extension of the body of an upper side, and a bottom which extends in the extension of the body of a lower side, the body including four faces, namely a first pair of faces which , in cross section, are parallel to each other, and a second pair of faces which, in cross-section, are parallel to each other and perpendicular to the faces of the first pair, the faces of the first pair being spaced apart, in cross section in the vicinity of the shoulder as in the vicinity of the bottom, a distance D and the faces of the second pair being spaced, in cross section near the shoulder as in the vicinity of the bottom, a distance D ', this container etan such that values of D and D 'are substantially equal, that is to say that they verify the following relation: D 0.95 <-D <1.05 in cross section in a median zone of the body, the faces of the first pair are separated by a first distance D1 and the faces of the second pair are separated by a second distance D2 different from D1. It results from this form a better resistance of the container to the deformations, in particular during an internal depression accompanying the cooling of the contents. Various additional features may be provided, alone or in combination: the distances D1 and D2 are in a ratio between 0.85 and 0.95; the distances D1 and D2 are in a ratio of approximately 0.93; at least one of the distances D1 and D2 is less than the distance D; the distances D1 and D2 are both less than the distance D; the body comprises facets in bevels connecting the faces; in cross-section near the shoulder as in the vicinity of the bottom, the facets form with the faces an angle of about 45 °; S001 B120 EN - PMB13044 Version: TQD in cross-section in said middle zone of the body, the facets form with the faces of the first pair an angle strictly less than 45 °; in cross-section in said middle zone of the body, the facets form with the faces of the first pair an angle of between 37 ° and 43 °; in cross-section in said middle zone of the body, the facets form with the faces of the first pair an angle of approximately 40 °.

Other objects and advantages of the invention will become apparent in the light of the description of an embodiment, given hereinafter with reference to the accompanying drawings, in which: FIG. 1 is a realistic front view showing a container of material plastic; - Figure 2 is a side view of the container of Figure 1, rotated 90 ° with respect to this figure; Figure 3 is a cross section of the container of Figure 1, taken indifferently along the plane or plane Ill'-III '; Figure 4 is a cross section of the container of Figure 1, taken along the plane IV-IV. In Figures 1 and 2 is shown a container 1 (in this case a bottle) of plastic such as PET. In the illustrated example, the container has a capacity of 0.5 I, but this capacity could be of any suitable or known value, be it lower (typically 0.33 I or 0.25 I). ) or higher (typically 1.5 I, or 2 I). The container 1 comprises several parts, namely a body 2, a shoulder 3 which extends in the extension of the body 2 from an upper end thereof, a neck 4 which overcomes the shoulder 3, and a bottom 5 which extends in the extension of the body 2 from a lower end thereof. The body 2, which forms the major part of the volume of the container 1, extends along a main axis X approximately connecting the geometric center of the neck 4 and that of the bottom 5. Assuming that the container 1 is intended to be laid flat on a horizontal plane, the X axis of the container defines a vertical direction, any plane orthogonal to the X axis. SQ: B120 FR - PMB13044 Version: TQD is described as transverse and any direction perpendicular to the X axis is qualified as radial. The shoulder 3 completes the volume of the container 1 and forms a substantially conical junction between the body 2 and the neck 4. The bottom 5 transversely closes the body 2 downwards. This container 1, obtained by blowing, or preferably by stretching, from a blank (that is to say a preform or an intermediate container having undergone a first non-definitive blowing) is particularly intended to be hot filled. , the temperature of the filling liquid up to 95 ° C, a temperature that may be greater than the glass transition temperature of the container 1, depending on its material (remember that the glass transition temperature of the PET is about 80 ° C). According to a preferred embodiment illustrated in Figures 1 and 2, the body 2 is symmetrical with respect to a median plane P located substantially midway from the ends of the body 2. In this embodiment, the body 2 has, at the level of the median plane P, a belt 6 where the body 2 is bent, that is to say that its transverse dimensions are reduced.

The belt 6 divides the body 2 into an upper section 7, which extends between the belt 6 and the shoulder 3, and a lower section 8, symmetrical with the section 7 greater than the median plane P, and which extends between the belt 6 and the bottom 5. The body has, in its upper section 7 as in its lower section 8, four faces which extend substantially vertically from the shoulder 3 (respectively bottom 5) to the belt 6 , namely: a first pair of side faces 9 which, in cross section, are parallel to each other, a second pair of side faces 10 which, in cross section, are parallel to each other and perpendicular to the faces 9 of the first pair . As shown in FIG. 3, in cross section in the vicinity of the shoulder (section plane of FIG. 1) as in the vicinity of the bottom (section plane III-III 'of FIG. 1), the faces 9 of the first pair are separated by a distance D, and the faces 10 of the second pair are separated by a distance D 'equal to or substantially equal to the distance D between the faces 9 of the second pair. first pair, the expression "equal or substantially equal" meaning that the difference between the distances D and D 'is strictly less than 5%. In other words: D '= D with: D 0.95 <- D <1.05 The faces 9 of the first pair preferably have the same width, denoted L1. The faces 10 of the second pair also preferably have the same width, denoted L2. The widths L1 and L2 are advantageously equal to or substantially equal (in the sense indicated above): L1 = L2 with: L1 0.95 <-L2 <1.05 In cross-section around the shoulder 3 as in the vicinity of the bottom 5, the side faces 9, 10 are thus inscribed in a square (or almost square) outline of side D. By misnomer, we equate a square with a rectangle whose sides D, D 'are equal to or substantially equal to meaning as above, thus allowing a variation of 5%. On the other hand, in cross-section in a median zone of the body 2 (in this case in the vicinity of the belt 6), the faces 9 of the first pair are separated by a distance D1, whereas the faces 10 of the second pair are separated by a distance D2 different from D1, the term "different" meaning that the difference between D1 and D2 is greater than or equal to 5%. As the container 1 can admit rotational symmetry of a quarter turn around its main axis X, it can arbitrarily be decreed that D2 is strictly greater than D1: D2> D1 in the sense that: D1 D2 <- 0 95 The ratio between D1 and D2, however, does not exceed 15%. In this case, the distances D1 and D2 are in a ratio such that: S001 B120 FR - PMB13044 Version: TQD D1 0.85 <- D2 <0.95 In the example illustrated, this ratio is approximately 0.93: D1 D2 - "3 In other words, in cross section in the aforementioned median zone, the faces 9, 10 are inscribed in a rectangle contour whose sides have for respective lengths D1 and D2, the term" rectangle "meaning, by opposite to the square defined above, that the ratio between its sides is greater than or equal to 5% .In cross-section in this same median zone, the faces 9 of the first pair advantageously have the same length L1 '. Preferably, the faces 10 of the second pair have the same length L2 ', at least one of the distances D1 and D2 is preferably smaller than the distance D, and preferably the distances D1 and D2 are smaller than the distance D, so that, as illustrated in Figure 4, the rectangle in the which is inscribed the body 2 in cross section in the vicinity of the neck 4 as close to the bottom 5 is strictly included in the square in which the body 2 is located in cross section in the vicinity of the neck 4 as close to the bottom 5 ( dashed in Figure 3). As can be seen in FIGS. 1 and 2, the distances between the faces 9, 10 parallel two by two vary continuously along the axis X of the body 2, respectively by the value D (which can be considered as maximum when the plane of the considered section is as close as possible to the upper end or, conversely, lower body 2) to the value D1, and the value D to the value D2.

In other words, the width of the body 2, measured transversely, gradually decreases - not abruptly from the ends of the body 2 to its central zone. According to a preferred embodiment, the body 2 further comprises facets 11 bevels connecting the faces 9, 10.

As can be seen in FIG. 3, in cross-section in the vicinity of the shoulder (in the plane as in the vicinity of the bottom (in the plane III-III '), the facets 11 preferably form with the faces 9, 10 An angle A of about 45 ° S001 B120 EN - PMB13044 Version: TQD On the other hand, this angle is not constant along the axis X of the container 1. Indeed, in cross-section in said middle zone of the body 2 , the facets 11 form with the faces 9 of the first pair a first angle Al strictly less than 45 °, while inversely the facets 11 form with the faces 10 of the second pair an angle A2 strictly greater than 45 °, complementary to the angle A1: A1 + A2 = 90 ° According to a particular preferred embodiment, the angle A1 is between about 37 ° (in which case the angle A2 is about 53 °) and about 43 ° (in which case the angle angle A2 is about 47 °), preferably the angle Al is about 40 ° (the angle A2 is then 50 about) As is seen in Figures 3 and 4, the facets 11 give the body 2 a substantially octagonal cross section.

However, by abuse of language, it may be described as square this section, given the significantly smaller width of the facets 11 before that of the faces 9, 10. The evolution of a substantially square section (near the ends of the body 2) at a substantially rectangular section (in a median zone of the body 2) avoids diamond deformation of the body 2 when the latter is subjected to an internal depression. Indeed, the rectangular section of the body 2 in the median zone tends, under the effect of a depression in the container 1, to flatten further by decreasing the distance D1 and joint increase of the distance D2, without significant alteration. from the perpendicularity of the faces 9 to the faces 10. The dashed section of the body 2 has been shown in broken lines in FIG. 4. This controlled deformation is favored by the facets 11, the angle Al of which tends to close while the on the other hand, the angle A2 tends to open, as illustrated by the broken line in FIG. 4. This controlled deformation makes it possible to maintain the rigidity of the container 1, in particular when it is taken in hand, and also to preserve it. aesthetic, the flattening of the body 2 in the middle zone remaining imperceptible to the consumer.

As can be seen in FIGS. 1 and 2, deformable panels 12 may be included in the faces 9, 10, so that they can absorb some of the deformations due to pressure variations in the container 1. In addition, stiffeners 13 may also be provided, especially on the facets 11 to limit the deformations thereof and thus promote the controlled deformation of the rectangular section of the body 2 in the central zone, as disclosed above. S001 B120 FR - PMB13044 Version: TQD

Claims (10)

REVENDICATIONS1. A plastic container (1) comprising a body (2) extending along a main axis (X), a shoulder (3) extending in the extension of the body (2) from an upper side, and a bottom (5) which extends in the extension of the body (2) of a lower side, the body comprising four faces (9, 10), namely a first pair of faces (9) which, in cross-section, are parallel to each other, and a second pair of faces (10) which, in cross section, are parallel to each other and perpendicular to the faces (9) of the first pair, the faces (9) of the first pair being separated, in section transverse in the vicinity of the shoulder (3) as in the vicinity of the bottom (5), a distance D and the faces (10) of the second pair being spaced, in cross section in the vicinity of the shoulder (3) as in the vicinity of the bottom (5), a distance D equal to or substantially equal to the distance D, the values of D and D 'being such that: D' 0.95 <-D <1.05 this container (1) being characterized in that, in cross section in a central zone of the body (2), the faces (9) of the first pair are separated by a first distance D1 and the faces of the second pair (10) are spaced a second distance D2 different from the distance Dl. 2. Container (1) according to claim 1, characterized in that the distances D1 and D2 are in a ratio between 0.85 and 0.95. 3. Container (1) according to claim 2, characterized in that the distances D1 and D2 are in a ratio of about 0.93. 4. Container (1) according to one of the preceding claims, characterized in that at least one of the distances D1 and D2 is less than the distance D. 5. Container (1) according to claim 4, characterized in that the distances D1 and D2 are both less than the distance D. 6. Container (1) according to one of the preceding claims, characterized in that the body comprises facets (11) beveled connecting the faces (9, 10). 7. Container (1) according to claim 6, characterized in that, in cross section in the vicinity of the shoulder (3) as in S001 B120 FR - PMB13044 Version: TQVoying background (5), the facets (11) form with the faces an angle of about 45 °. Container (1) according to claim 6 or claim 7, characterized in that, in cross section in said middle zone of the body (2), the facets (11) form with the faces (9) of the first pair a angle strictly less than 45 °. 9. Container (1) according to claim 8, characterized in that, in cross section in said middle zone of the body (2), the facets (11) form with the faces (9) of the first pair an angle between 37 ° and 43 °. Container (1) according to claim 9, characterized in that, in cross-section in said middle zone of the body (2), the facets (11) form with the faces (9) of the first pair an angle of 40 ° about. S001 B120 FR - PMB13044 Version: TQD