NL8000178A - THIN WALLED BOTTLE OF ARTIFICIAL RESIN. - Google Patents

Description

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Thin-walled resin bottle.

Summary

The invention relates to a thin-walled synthetic resin bottle with a bottom, the central part of which is formed as a frusto-conical bulge, while around this bulge remains an annular surface with which the bottle can be placed on the stand. A number of grooves are formed in the annular surface such that vertical radial walls are formed to increase the strength of the bottom wall of the bottle.

Background of the invention 1. Field of application of the invention

The present invention relates to a biaxially oriented, thin-walled synthetic resin bottle, which is suitable for filling with a carbonated drink or a chilled drink, and more particularly to a thin-walled bottle of the above-described type, the bottom of which has been strengthened.

2. Description of the prior art

Heretofore, glass bottles have usually been used as the conventional bottles to be filled with carbonated drinks and the like. Glass bottles, however, are so heavy that they cause great transportation costs and are inconvenient to handle.

In order to overcome the above drawback, attempts have been made to produce a resin bottle, the wall of which has been thinned by biaxial orientation, the jacket 20 of which is cylindrical in shape and the bottom wall of which protrudes hemispherical in downward direction. Therefore, the strength or other physical properties of the bottle can be improved due to the biaxial orientation, although the wall thickness of the bottle is small.

However, because the bottom wall of the bottle is hemispherical in downward direction. 800 0 1 78

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A * 2 in the direction of the bottle, the bottle cannot be placed stably reditcp unless the bottle is just put its bottom part in a separate foot. The drawback of this is, however, that the price of the bottle increases and the bottle gets a less favorable appearance. In addition, if the bottle is not properly positioned in the base, so that the bottle is inclined, the injection of the liquid into the bottle may not take place properly and is decentralized, so that the bottle at least partially fails .

In order to be able to put the bottle in a stable upright position, other attempts have also been made in which a number of legs are formed, which protrude from the tape edge of the bottom wall of the bottle. In these attempts, however, the lower ends of the legs became so thin that the bottle broke easily there and did not have sufficient strength at the bottom of the bottle.

The invention.

Since the present invention has as its primary object to produce a synthetic resin bottle which has a thin wall and yet has sufficient strength on the bottom part thereof.

A secondary object of the present invention is to produce a synthetic resin bottle which can be stably erect even when the bottle is empty.

A tertiary object of the present invention is to produce a synthetic resin bottle, the surface of the bottom wall of which comes into contact with the standing surface is provided with a number of vertical walls, so that the bottom wall can be elastically deformed, while the impact strength of the bottle is enlarged. .

According to the present invention, a thin-walled synthetic resin bottle is provided, of which at least the stretch wall, except the neck part thereof, is biaxially oriented, including a rattle-shaped stretch wall, the bottom part of which is curved inwards so that the smallest diameter is at the bottom end part thereof, and a bottom wall, the central part of which protrudes inwardly into the bottle and forms a truncated cone-shaped protrusion, while between the edge of the protrusion and the lower end part of the trellis-shaped part remains an annular surface, which with the standing surface in touch side, with the • • * 80 0 0 1 78

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3 note that in the bottom wall a number of radial grooves qp are substantially mutually equidistant from each other, so that vertical wall parts are formed, which depend vertically on higher wall parts, in order to increase the strength of the bottom wall.

The invention will be explained in more detail with reference to the drawing, with a few illustrative embodiments.

Fig. 1 is a partial side view and partial section of a thin-walled bottle in a first embodiment of the invention; Fig. 2 is a bottom view of the thin-walled bottle of Fig. 1; Fig. 3 corresponds to Fig. 1 and shows a thin-walled bottle in a second embodiment? FIG. 4 is similar to FIG. 2 and shows the bottom of the thin-walled bottle of FIG. 3; and FIG. 5 is a cross-sectional view of the bottom portion of a thin-walled bottle in the second embodiment, the surface of the bottoms of the bottle contacting the standing surface being limited to the outer portion thereof.

A first embodiment of the thin-walled bottle according to the invention will now be described with reference to Figures 1 and 2.

The thin-walled resin bottle 1 is manufactured by injection molding a parison of synthetic resin, after which the parison is subjected to the blow molding process for the biaxial orientation. A saturated polyester resin is desirable as the synthetic resin to feed the bottle, but a synthetic resin such as polypropylene or vinyl chloride can also be used. The neck part 2 of the thin-walled bottle 1 is the same as the neck part of the parison, which is not biaxially oriented. On the other hand, the tranrel-shaped counter wall 3 and the bottom wall 4 of the thin-walled bottle 1, which project downwards from the neck part 2, are biaxially oriented and have a larger diameter.

The grain-shaped counter wall 3 has a round cross-section and the lower part thereof is curved inwardly, so that the smallest diameter is at the lower end thereof. On the other hand, the central part of the bottom wall 4 protrudes inwards from 800 0 1 78 * 4, 9 and does not have a frusto-conical protrusion 5, which however is not as high as the total height of the bottle.

An annular surface 7 with which the bottle can be placed on the standing surface is formed between the lower end part of the trairontoniform peripheral wall and the edge of the circumferential wall 6 of the frusto-conical projection 5. The annular surface 7 is provided with a plurality of grooves 8 projecting substantially equidistant from one another in the radial direction of the central portion of the bottom of the bottle. Each groove 8 has a higher horizontal wall portion 8a, which is about half the height of the frusto-conical protuberance 5 from the bottom. On both sides of the higher wall part 8a of each groove 8, a pair of vertical wall parts 8b are formed, which project vertically downwards, so that when the bottle falls, the shock or impact can be absorbed by the elasticity of the vertical wall parts 8b.

Furthermore, a number of radial ribs of a thickened cross-section can be formed in the annular surface 7 of the bottom of the bottle, so that the bottom can be further reinforced.

that the grooves 8 are equal in the radial direction at equal ε 'positions in the annular surface var. the bottom of the bottle, a large number of vertical walls are formed at the different grooves, so that the drop strength or impact or impact strength of the bottle can be increased. Moreover, because the vertical walls are elastically flexible and have a shock absorbing effect, the bottle can be put straight on a standing surface without any damage. Moreover, since the higher wall parts 8a are located at about half the height of the frusto-conical protuberance 5, the capacity of the bottle is not considerably reduced. Since not only the depth of the grooves 8, but also the height 30 of the frusto-conical protuberance 5 can be limited to a small size, the thickness of the bottoms of the bottle can be prevented from becoming extremely small, so that the drop strength of the bottle can be enlarged.

Because the rattling-shaped part of the bottle has partly been given a cylindrical shape and is partly edged inwardly at its lower part, the bottle according to the invention can

80 0 0 1 78 5 withstand internal pressures even when the bottle is used as a container for high pressure beverage storage. Moreover, since the central part of the bottom of the bottle protrudes inwardly into the bottle and forms a frusto-conical creep 5, the bottom of the bottle stands only with the annular upper falcon 7 on the outer circumference of the standing surface, so that the bottle is stable. upright when the bottle is emptied or filled with a liquid. Even when the internal pressure in the bottle is increased, the bottom of the frusto-conical protuberance is pressed 5 cm layer against the elasticity of the conically widening part, so that the volume of the bottle increases and thus the internal pressure in the bottle lower so that the resistance to internal pressure of the bottle as a whole increases. The bottle thereby remains in a stable upright position, since no influence is exerted on the surface of the bottom of the bottle which comes into contact with the standing surface when the frusto-conical protrusion 5 becomes larger or deformed.

A second embodiment of the thin-walled plastic bottle according to the invention will now be described with reference to Figures 3 and 4. This second embodiment of the thin-walled plastic bottle according to the invention is similar to the above-described embodiment of the bottle, in which the bottom part of the trans-thermic part 3 of the bottle is curved inwards and wherein the bottom wall 4 is provided with the frusto-conical shape. indentation 5, which protrudes into the bottle. Also, the annular surface 7, which serves as the standing surface for the bottle, is formed between the edge of the circumferential wall 6 of the frusto-conical projection 5 and the lower end part of the drum-shaped part 3. In the timed embodiment of the thin-walled plastic 30 bottle according to the invention it is noted that the radial width of the annular surface 7 is made larger than that in the above-described embodiment of the bottle. It is also noted that the grooves 8 are formed in the annular surface 7 such that they extend radially from the center of the bottom wall 4, but that the higher wall portions 8a, which form the horizontal bottoms of the grooves 8, are provided cp substantially the same 800 0 1 78 ί) level as the bottom of the frusto-conical protuberance 5. In this way, the second embodiment of the bottle is different from the above-described embodiment, in that the height or level of the higher lying wall parts above the bottom has been made larger. In other words, the depth of the grooves 8 is greater than that in the above-described embodiment of the bottle.

Since in the second embodiment of the bottle according to the invention the grooves 8 are made deeper than in the above-described first embodiment of the bottle, so that their vertical wall parts have a greater width, the internal pressure in the bottle, which is truncated on the conical part 5 is applied, distributed and absorbed by the above-mentioned vertical wall parts 8b. This can prevent the frusto-conical protuberance 5 from being deformed locally, which would reduce the strength of the bottle and distort the surface of the bottom of the bottle, causing the position of the bottle to be unstable upright. turn into.

Moreover, because the widths of the vertical wall parts 8b and of the annular surface 7 are larger than those in the first embodiment described above, the drop strength of the bottle is further improved.

Now, with reference to Fig. 5, a modification of the second embodiment of the thin-walled plastic bottle according to the invention will be described, wherein the contours of the bottom part of the bottle have been slightly changed. According to this modification, the diameter at the lower end of the tran-shaped part 3 of the bottle is made of a smaller diameter, so that a converging tapered wall part 3a is formed, while the remaining part remains inwardly clamped in a similar manner as in the second embodiment. from the bottle. Also, the central part of the bottom wall 4 is provided with a frusto-conical projection 5 and a number of radial grooves 8 are provided in the annular surface 7 around the frusto-conical projection 5. It is noted that the outer circumference of the annular surface 7 is inclined 35 extends downwardly from the inner circumference, so that only the outer circumference of the annular surface 7 is in contact with 80 0 0 1 78. * * s, 7 the standing surface of the bottle, so that the part of the bottom of the bottle which contacts the standing surface is radially outward.

In the modified embodiment according to Fig. 5 the bottle thereon only stands on the outer circumference of its bottom on the standing surface, so that its position is further stabilized upright. This stabilization can be further improved by the radial extension of the annular surface. This is possible, so that the traumel-shaped part of the circumferential wall of the bottle at its lower end 10 changes from the inwardly curved part to the converging tapered part.

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Claims (5)

1. Thin-walled resin bottle / at least the peripheral wall, except the neck part thereof, is biaxially oriented, comprising a drum-shaped tape wall, the bottom part of which is edged inwardly, so that the smallest diameter is at the bottom end thereof, and a bottom wall , the central portion of which protrudes inwardly into the bottle and forms a frusto-conical protrusion, while between the edge of the indentation and the lower end of the truncated part, a ring-shaped surface remains with which the bottle can be heated on a standing surface characterized in that a number of radial grooves are substantially equally spaced in the bottom wall, so that vertical wall parts are formed which depend vertically on higher wall parts, in order to increase the strength of the bottom wall. Durable resin bottle according to claim 1, characterized in that the higher wall parts of the grooves are substantially the same level as the bottom of the truncated cone-shaped recess. Durable plastic bottle according to claim 2, characterized in that the lower end part of the rattling part has a smaller diameter and has a tapered converging shape, so that the outer circumference of the annular surface of the bodar wall slopes downwards from the inner circumference. can elongate to form a radially extended surface which contacts the standing surface. 4. Thin-walled synthetic resin bottle according to claim 1, characterized in that the higher wall parts of the grooves are located at substantially half the height of the truncated cone-shaped bulge from the bottom. 5. Thin-walled synthetic resin bottle, substantially as described in the description and / or shown in the drawing. 80 0 0 1 78