RU2299162C2 - Plastic bottle - Google Patents

Abstract

FIELD: mechanical engineering; containers.

SUBSTANCE: proposed bottle had body and base adjoining the body. Base of bottle has bottom with concavity pointed inside bottle, and support legs. Support legs are separated from each other by cavities made in wall of bottle. Axial extension of cavities is essentially equal to or is less than axial height of top of convexity of bottle bottom. Bottom of bottle is provided with stiffening ribs projecting from outer side of bottom of bottle.

EFFECT: provision of high stability, small thickness of bottom, small weight and low consumption of material.

6 cl, 4 dwg

Description

The invention relates to a plastic bottle according to the restrictive part of paragraph 1 of the claims.

Containers commonly used in the past made of white or colored sheet, glass, or also ceramic, are increasingly replaced by containers made of plastic. In particular, for packaging liquid substances, for example drinks, oils, dishwashing liquid, cosmetics, etc., mainly plastic containers, in particular plastic bottles, are used. Light weight and low costs play an important role in this replacement. The use of recyclable plastic materials and, on the whole, a more favorable overall energy balance in their manufacture also contribute to encouraging consumers to approve plastic containers, in particular plastic bottles.

Plastic bottles have a bottle body that is equipped with a bottle neck with an outlet. A base is adjacent to the bottle body, which for the most part has a regular, preferably round or also oval, plane of cross section. The base includes a bottle bottom that closes the bottle body, and preferably a number of support legs that are separated from each other by cavities in the bottle walls. Plastic bottles with supporting legs, compared to bottles whose base includes only the bottom of the bottle, have greater stability. The mostly flat bottom of the bottle may bulge due to the weight of the contents of the bottle. As a result, the radius of the support region decreases, and the bottle can easily tip over. The formation of support legs in the base to a certain extent strengthens the base and provides a constant radius of the support region.

Bottles known from the prior art usually have a flat bottom, in which there is a danger that it, in particular, with increased internal pressure will bend out. The support legs are separated from each other by relatively long axial cavities in the walls of the bottle, which extend to the bottom of the bottle. Part of the walls made approximately in the form of a trapezoid pass from the region of the support of the support legs at an angle to the bottom of the bottle, which is axially diverged from the region of the support. A certain amount of troughs is necessary to give the bottom of the bottle the necessary stiffness so that it cannot bulge out under the influence of the weight and internal pressure of the contents of the bottle. On the other hand, the depressions occupy a relatively large amount of space in the axial direction and reduce the available surface area for placing labels. This can be difficult, especially for plastic bottles, the height of which is set by the regulations. In addition, high support legs very often cause the consumer little confidence in the stability of the bottle.

The objective of the invention is to eliminate the disadvantages inherent in the prior art. It is necessary to create a plastic bottle, which has a sufficiently high stability, in particular resistance to tipping over. The space available for labeling needs to be optimized; in particular, even for bottles with a small height, for example in bottles with a capacity of 0.33 L with a standard height, a sufficiently large surface must be provided for applying the label. At the same time, a plastic bottle should have an appropriate appearance and inspire confidence in its stability among consumers.

The solution to this problem is that they offer a bottle that has the characteristics shown in the characterizing part of paragraph 1 of the claims. Embodiments of the invention are the subject of the dependent claims.

The invention provides a plastic bottle with a bottle body and a closing base, which includes a bottle bottom closing the bottle and supporting legs separated from each other by hollows in the bottle walls, the bottom of which has a concavity directed towards the inside of the bottle and the axial length of the hollows separating the supporting legs is substantially equal or less than the axial height of the concavity of the bottom of the bottle.

The concavity of the bottom of the bottle directed inside the bottle gives it a sufficiently high rigidity to withstand the weight of the contents of the bottle and maintain the level of internal pressure, for example, of a drink containing CO ₂ . Higher stiffness of the bottom of the bottle compared with the wall thickness also allows the hollows between the support legs to be less pronounced. In this case, a reasonable compromise between additional stiffness and the need for space is obtained if the axial length of the depressions in the walls of the bottle is equal to or less than the axial height of the top of the concavity of the bottom of the bottle. The depressions clearly take up less space than plastic bottles according to the prior art. Due to this, a large continuous surface for applying labels is available. Smaller depressions in the base, in particular in the area of support of the support legs, lead to a more favorable distribution of pressure created by the weight of the contents of the bottle, which preferably affects the stability of the plastic bottle.

In a preferred embodiment with respect to rigidity and stability, the concavity of the bottom of the bottle is formed essentially in the form of a hemisphere. Moreover, it has a radius of curvature, which is about half the radius to about twice the size of the support region of the support legs.

And besides, a plastic bottle, in principle, can have any desired cross-section. For symmetry reasons, plastic bottles are nevertheless preferred, the base of which has a section of regular shape, preferably made in the shape of a circle or also an oval cross-section. They, as a rule, possess greater stability and for the most part are also more economical to manufacture.

To establish a stable abutment surface, in principle, three abutment legs are known to be sufficient. However, it turned out to be preferable that the base had at least five support legs, which are respectively separated from each other by troughs. Depressions increase the strength of the base and increase the surface, which is affected by the weight of the contents of the bottle.

In another embodiment, the bottom of the bottle is provided with stiffeners. The stiffeners further increase the rigidity of the bottom of the bottle, which is concave into the bottle. Due to this, the bottom of the bottle can be made with a smaller wall thickness. This has advantages in terms of the weight of the plastic bottle and, due to the lower material requirements, also helps to reduce manufacturing costs. Preferably, stiffeners are provided in the region of the support legs. In this case, each supporting leg has at least one stiffening rib which extends from the supporting surface of the supporting leg essentially radially in the direction of the apex of the concavity of the bottom of the bottle. Since the stiffeners preferably protrude outward from the outer surface of the bottom wall of the bottle, they do not cause a loss in filling volume.

A plastic bottle according to the invention can be made by all methods used. Especially preferred for economic reasons and because of the good ability to control the parameters of the bottle, a production method with serial technology is an extrusion method with stretching and blowing, or in English: Injection Stretch Blow Molding, ISBM.

Other advantages and features of the invention result from the following description of embodiments obtained by drawing the product. In the drawings, in a schematic representation, is shown:

figure 1 is a side view of a plastic bottle according to the invention,

figure 2 is a side view of the base of the plastic bottle,

figure 3 is a view of the base according to one variant embodiment of the invention and

figure 4 - image of the section along the section line IV-IV of figure 3.

Figures 1 and 2 show a bottle made according to the invention in a general view (Fig. 1) and in a detailed image (Fig. 2). The bottle in FIG. 1 is generally indicated by 1. It consists of a thermoplastic plastic and can preferably be made by a drawing method, in particular by drawing and blowing extrusion (ISBM). As plastics, all thermoplastic plastics, such as polyethylene terephthalate (PET) used for known manufacturing methods, can be considered.

The plastic bottle 1 has a bottle body 2, which is equipped with a bottle neck 3 with an outlet 4. On the bottle neck 3, for example, an external thread 5 is provided which allows the bottle 1 to be closed with a screw plug. Typically, the base 6 of the bottle is adjacent to the cylindrical body 2 of the bottle, which most often has a correct, preferably circular, cross-section. The base 6 includes a bottle bottom 7, which closes the bottle body 2, and a number of supporting legs 8, which are separated from each other by cavities 9 in the bottle wall. In this regard, the plastic bottle 1 corresponds to bottles of this type known in the art.

In contrast to the products according to the prior art, in the plastic bottles made in accordance with the invention, the bottom 7 of the bottle is concave inside the bottle. This is seen, in particular, in the section according to figure 4. The concavity of the bottom 7 of the bottle is made essentially in the form of a hemisphere. The concavity has a radius of curvature r, which can be approximately half to about twice the radius s of the support region of the support legs 8. In the present embodiment, the radius of curvature curvature r is approximately 1.2 times larger than the radius s of the support region. The radius of the support region in this case refers to the contact line of the support legs 8 farthest from the axis of the bottle with the surface on which the bottle is mounted. The cavities 9 in the walls of the bottle have an axial length l, which is equal to or less than the height h of the concavity of the bottom 7 of the bottle.

According to the embodiment shown in FIG. 3, the base 6 of the plastic bottle has six support legs 8, which are separated from each other by the same troughs 9. As is known, three support legs 8 are already sufficient to make the installation of the bottle possible. For stability reasons, it is still preferable to have at least five support legs 8. Each support leg 8 has a stiffener 10 that extends from the support region of the support leg 8 substantially radially in the direction of the concavity of the bottom of the bottle 7. The stiffening ribs 10 further increase the rigidity of the bottom 7 of the bottle concave inwardly. The stiffening ribs 10 protrude from the outside of the bottom of the bottle 7. The depressions 9 have a width in the region of the support of the support legs 8, which, for example, is equal to or less than the width of the support legs 8 in this region. The troughs 9 of the present embodiment have a length t measured from the region of the support of the support legs 8, which is about a third of the length of the bottom of the bottle 7 in the radial direction.

Claims (6)

1. A plastic bottle comprising a bottle body (2) and an adjacent base (6), which includes a closure bottle (1) a bottom (7) with a concave directed inside the bottle and support legs (8) that are separated from each other hollows made in the wall of the bottle (9), the axial length (1) of which is substantially equal to or less than the axial height (h) of the concavity of the bottom (7) of the bottle, the bottom (7) of the bottle equipped with stiffeners (10) protrude from the outside of the bottom (7) of the bottle. 2. A plastic bottle according to claim 1, in which the concavity of the bottom (7) of the bottle is made essentially in the form of a hemisphere and has a radius (r) of curvature, which is about half to about twice the radius (s) of the support region of the support legs ( 8). 3. A plastic bottle according to claim 1 or 2, in which the base (6) has a regular, preferably circular, cross section. 4. A plastic bottle according to claim 1, in which the base (6) has at least five support legs (8). 5. A plastic bottle according to claim 1, in which each supporting leg (8) has at least one stiffening rib (10) that extends from the region of the support of the supporting leg (8), essentially radially in the direction of the apex of the bottom concavity (7) ) bottles. 6. The plastic bottle according to claim 1, which is made by extrusion with stretching and inflating.

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