This invention relates to a synthetic resin bottle of a configuration that the bottle can be deformed to reduce its volume easily and then is restored to its original shape for use as a bottle.
Synthetic resin bottles are in wide use as the containers for various liquid contents. These bottles are molded by using blow molding or biaxial-drawing, blow-molding means.
This synthetic resin bottle has an advantage of lightweight. On the other hand, because of bulkiness and large space of occupancy, a problem of high storage and transportation costs are caused during the process in which bottles are molded by the bottle manufacturers, delivered to product manufacturers, and filled with liquids. Handling of bulky bottles is also troublesome.
After use, the used bottles are usually flattened with hands or feet to reduce the volume of the bottle and to facilitate waste disposal. The bottles had a problem in that everyone cannot always flatten bottles easily and steadily.
Utility model laid open No. 1985-75212 describes a technique aimed at easily flattening bottles at the time of waste disposal.
The synthetic resin bottle described in this utility model is provided with a pair of ribs at the axisymmetric positions on the body. In addition to these ribs, arc ribs are also provided on the shoulder and at the lower end of the body. When the bottle is put to waste disposal, the portion surrounded by the ribs is pressed to let the body cave in and deform so that volume reduction can be achieved.
However, in this conventional art, the concaved portion ranges from the shoulder to the lower end of the body, with neck and bottom retaining the original shapes. Because of this limitation, the bottle had trouble in that the entire bottle cannot be pressed flat and deformed. Since these ribs are aimed at flattening the bottle at the time of waste disposal, it was almost impossible to restore the original shape of the bottle once the bottle has been forced to cave in.
This invention has thus been made to solve the problems of the above-described conventional art. The technical problem of this invention is to deform the bottle easily in a volume-reducing manner until the bottle is fully flat and then to be able to restore the original shape as a bottle from the flat or concaved state. Thus, an object of this invention is to make bottle handling easy and efficient during the process from molding to the filling of bottles with contents and at the time of bottle disposal as waste,and the reduction of the cost.
The means of carrying out the invention of claim 1 to solve the above-described technical problems exists in the configuration comprising:
Owing to the above configuration of claim 1, the bottle molded by the bottle manufacturer is reversed from the line of turn by pressing the less rigid reversible section inward and concaving this section toward the inside of the shell section to reduce the volume of the bottle.
Commercial product manufacturers should be able to reverse the concaved reversible section again outward, by using air pressure and the like, to restore the original shape. The restored bottle can then be filled with a liquid content to complete a commercial product. Or the manufacturers can fill the concaved bottle directly with a liquid content. In that case, the liquid filling force acts on the concaved reversible section to turn the section outward. The liquid filling operation is continued until the bottle is full and ready for merchandising.
When the bottle is used and discarded as waste, the reversible section is again concaved to reduce the volume, and the flattened bottle is disposed of as waste.
The means of carrying out the invention of claim 2 exists in the configuration that in the invention of claim 1, a line of turn is formed at the position dividing the plan-view shapes of the shoulder, the body, and the bottom into two equal, right and left, parts; that the shell section comprises a major-diameter portion, which is a half on one side of this line of turn, where the plan view of the body roughly forms an arc-like convex surface having a larger diameter; and that the reversible section comprises a minor-diameter portion, which is the remaining half on the other side of this line of turn, where the plan view of the body roughly forms an arc-like convex surface having a smaller diameter.
Because of the above configuration according to claim 2, the reversible section protruding in an arc-like convex surface can be deformed inward and concaved into the inside of the shell section protruding likewise in an arc-like convex surface but having a larger diameter than the reversible section. Thus, it is possible to flatten the bottle in a certain shape. Since the flat bottles can be easily piled up, the bottles before use can be stored and transported, or the bottles after use can be handled for waste disposal, more efficiently and at a lower cost than the bottles retaining the original shape.
The means of carrying out the invention of claim 3 exists in the configuration that in the invention of claim 2, the neck is disposed so as to stand on the shoulder at the upper end of the shell section.
Because, in the above configuration according to claim 3, the neck is disposed on the shell section side, the entire bottle can be flattened without crushing the neck. Therefore, it is possible to concave and deform easily the halves of the shoulder, the body, and the bottom, or almost a half of the bottle.
The means of carrying out the invention of claim 4 exists in the configuration that, in the invention of claim 2, the neck is disposed to stand in the center of the shoulder and that a line of turn is formed at the position dividing the plan-view shapes of the shoulder, the body, and the bottom axisymmetrically into two equal, right and left, parts.
Because, in the above configuration according to claim 4, a shell section and a reversible section are formed also at the neck, the entire bottle can be fully flattened to reduce the volume, over all the height from neck to bottom.
The means of carrying out the invention of claim 5 exists in the configuration that, in the invention of claim 1, a pair of lines of turn is formed at roughly symmetrical positions in the plan view of the shoulder, the body, and the bottom; that among the sections divided by these two lines of turn, the shell section is the central portion where side walls of the body face each other; and that the reversible sections are the two portions disposed on both sides of the shell section, with each reversible section having an arc-like convex surface protruding outward in the plan view of the body.
In the configuration according to claim 5, the bottle can be deformed and concaved into the inside of the shell section located in the center, by pressing both reversible sections inward to reverse these section resiliently. As a result, both reversible sections are concaved and accommodated inside the shell section, where the plan-view shape of the entire body including the bottom roughly forms a rectangle. Thus, it becomes possible to flatten the bottle to an extent enough to reduce its volume.
The bottle according to claim 5 excels at bottle handling because the bottle stands fully on its own due to the shell section in the center.
The means of carrying out the invention of claim 6 exists in the configuration that, in the invention of claim 1, 2, 3, 4, or 5, the bottle is molded from a relatively soft synthetic resin so as to have a thin wall and that on at least either one of the inner surface or the outer surface of the shell section, the most part of at least the body surface is laminated with another layer.
In the above configuration according to claim 6, the laminated bottle wall is given higher rigidity than the non-laminated wall portion, where the bottle is molded to have a thin wall. Since there is no need to change the wall thickness of the bottle itself, the bottles can be easily manufactured by means of an ordinary blow molding method, while securing high productivity.
The means of carrying out the invention of claim 7 exists in the configuration that, in the invention according to claim 6, a relatively thick, hard label is laminated over the outer surface of the body.
In the above configuration according to claim 7, a label is laminated over the entire outer surface of at least the body portion in one section of the bottle divided by the line of turn. This label enables the shell section to be formed easily at a low cost. High decorative effect and high display effect can be obtained since it is possible for the label to have a wide display area.
In addition, the rigidity of the shell section is fully enhanced, and the bottle shows high shape-holding power. Because of these features, the bottle shape becomes stabilized and constant when the bottle is deformed for volume reduction and when it is restored to the original shape. The bottle can be allowed to have thin walls with no difficulty, by making the label serve as a structural material.
The means of carrying out the invention of claim 8 exists in the configuration that, in the invention of claim 1, 2, 3, 4, or 5, the shell section of the bottle is molded so as to have an ordinary thick wall, with the reversible section being molded so as to have a relatively thin wall.
In the above configuration according to claim 8, the shell section and the reversible section can be formed simultaneously with the molding of the bottle. Depending on the parts of the bottle, the wall thickness ratio of the shell section to the reversible section is changed so that the rigidity of both sections may be adjusted finely and precisely. Thus, it becomes quite easy to reverse the reversible section of the entire bottle toward the shell section and in turn to restore the original bottle shape.
The means of carrying out the invention of claim 9 exists in the configuration that, in the invention of claim 1, 2, 3, 4, 5, 6, 7, or 8, the line of turn comprises a sloped step.
In the above configuration according to claim 9, the line of turn has a sloped step structure, which makes it easy to reverse and deform the reversible section and makes it much easier for the reversible section to be concaved and then restored to its original shape. Since the reversible section is deformed and reversed without causing permanent deformation, no outer appearance is damaged by reversible deformation.
The means of carrying out the invention of claim 10 exists in the configuration that, in the invention of claim 1, 2, 3, 4, 5, 6, 7, or 8, the line of turn comprises a shallow V-shape groove.
In the above configuration according to claim 10, the reversible section can be reversed quite easily and precisely.
This invention is further described as to its preferred embodiments, now referring to the drawings.
A line of turn 5 in the shape of a sloped step is disposed at the positions on the long axis, i.e., at the axisymmetrical positions of the bottle 1, around the entire circumference in the vertical direction of the bottle 1, including the shoulder 2, the body 3, and the bottom 4.
A major-diameter portion 6 occupies a half of the bottle 1 as divided by this line of turn 5 (the left side in
The minor-diameter portion 9 occupies the other half of the bottle 1 as divided by the line of turn 5 (the right side in
Therefore, this reversible section 10 is resiliently reversed simply by pressing it inward, with the line of turn 5 serving as the fulcrum. The reversible section 10 is entirely concaved into the inside of the shell section 8, as shown by a chain double-dashed line in
Because of relatively high rigidity, the shell section 8 has also a good buckling strength and the hardness enough to be able to grab the bottle. Therefore, the bottle can be held and handled in the same way as ordinary bottles. The bottle of this invention has no disadvantage of conventional volume-reducing bottles, which are too soft to hold the bottle firmly with a hand.
It is preferred that the reversible section 10 has a wall thickness ⅔ or less of the shell section 8.
The bottle 1 is molded by blow molding a suitable, relatively soft synthetic resin to give a thin wall thickness on the whole and to have a roughly elliptic shape in its entire plan view.
A hard, relatively thick label 7a of a paper material is attached to nearly all the outer surface of the body 3 in the major-diameter portion 6 by means of insert molding or lamination. This major-diameter portion 6 is used as the shell section 8 having relatively high rigidity; the thin minor-diameter portion 9 is used as the reversible section 10.
This reversible section 10 is resiliently reversed simply by pressing it inward, with the line of turn 5 serving as the fulcrum. The reversible section 10 is entirely concaved into the inside of the shell section 8, as shown by a chain double-dashed line in
Because of relatively high rigidity, the shell section 8 has also a good buckling strength and the hardness enough to be able to grab the bottle. Therefore, the bottle can be held and handled in the same way as ordinary bottles. The bottle of this invention has no disadvantage of conventional volume-reducing bottles, which are too soft to hold the bottle firmly with a hand.
If a thick, hard paper material is used as the label 7a, the bottle 1 is able to maintain its own shape stably, and further thin wall can be promoted for the bottle 1. Depending on how much wall thickness can be reduced, easy bottle handling can be achieved for waste disposal.
Furthermore, the entire outer surface of the major-diameter portion 6 is laminated with an outer layer 7b by means of insert molding or co-extrusion. This outer layer 7b is made of a relatively hard synthetic resin material, such as high-density polyethylene, so that the major-diameter portion 6 can be sufficiently used as the shell section 8 having high rigidity.
Like the 1st and 2nd embodiments, the reversible section 10 in the 3rd embodiment is resiliently reversed simply by pressing it inward, and is entirely concaved into the inside of the shell section 8, as shown by a chain double-dashed line in
Because of the lamination with a relatively hard synthetic resin material, such as high-density polyethylene, the shell section 8 has high rigidity and also a good buckling strength and the hardness enough to be able to grab the bottle. Therefore, the bottle can be held and handled in the same way as ordinary bottles. The bottle of this invention has no disadvantage of conventional volume-reducing bottles, which are too soft to hold the bottle firmly with a hand, and shows a stable “seating” function due to its high rigidity. If necessary, legs may be disposed under the bottom.
As in the 1st embodiment, the major-diameter portion 6 of the bottle 1 in the 5th embodiment comprises a half section on one side of the line of turn 5 (the left side in
The bottle 1 is formed so that the plan view shows a roughly elliptic shape. The line of turn 5 is a sloped step built on the neck 11, the shoulder 2, the body 3, and the bottom 4, extending along the entire vertical circumference at the axisymmetrical positions on the long axis of a hypothetical plane, i.e., at the positions where two roughly arc sections with different diameters are abutted to each other.
Therefore, the reversible section 10 is resiliently reversed by pressing it inward, and is concaved into the inside of the shell section 8 (See the chain two-dash line in
Once the bottle in this embodiment has been filled with a certain amount of liquid content, a sealing sheet, such as a laminate sheet, is adhered to the upper part of the neck 11 to seal the opening until the bottle is used.
The shoulder 2 allows the neck 11 to stand thereon, has a roughly rectangular shape on the plan view, and is disposed on the upper part of the body 3. The bottom 4 has also a roughly rectangular shape, and is disposed on the lower part of the body 3, as if the bottom 4 is an extension of the flat central wall 15 of the body 3. In the central frame, the bottle 1 has a configuration that, except for the neck 11, flat walls surround the central portion along the nearly entire vertical circumference.
The shoulder 2, the bottom 4, and the central walls 15 of the body 3 are molded to have an ordinary thick wall so that the shell section 8 with high rigidity is formed. A pair of right and left hog-backed walls is connected to the shoulder 2 and the bottom 4 through the tapered walls 17 and 18, respectively. Each hog-backed wall 16 protrudes outward for a maximum length corresponding to about a half of the central wall width, and has a relatively thin wall thickness. The tapered walls 17, 18 also have a thin wall thickness, and together with the hog-backed walls 16, constitute the reversible sections 10.
The lines of turn 5 in the shape of a shallow V groove for wall bending are formed on the surface along the border between the shell section 8 and both reversible sections 10.
When both reversible sections 10 are pressed inward, they are resiliently reversed from the respective lines of turn 5 and are concaved into the inside of the shell section 8 for volume reduction (See the chain two-dash line in
The reversible sections 10 of the bottle in this embodiment are concaved and stored inside of the central shell section 8 of a rectangular shape in its plan view, which includes the body 3 and the bottom 4. Therefore, it becomes possible for the bottle 1 to be fully concaved for volume reduction. As described above, the central shell section 8 has a configuration that flat walls surround the central portion along the nearly entire vertical circumference. Even in the volume-reduced state, the bottle 1 of this embodiment can fully stand on its own and has good handling ability.
In the 5th and 6th embodiments, the portion used as the shell section 8 and the portion or portions used as the reversible section or sections 10 are formed so as to have different wall thicknesses at the time of molding. However, even with these bottles, the entire bottle 1 can be molded to have a thin wall thickness. Then, a label is attached, or an outer or inner layer is laminated, to form the shell section 8, as distinguished from the reversible section or sections 10, as shown in the 2nd, 3rd, and 4th embodiments.
This invention having the foregoing configurations has the following effects.
In the invention of claim 1, about a half each of the shoulder, the body, and the bottom on one side of the bottle molded by the container manufacturer can be concaved into the inside of the shell section, and the entire bottle can be fully flattened for volume reduction, by reversing the reversible section inward.
When bottles are handled in the fully flattened, volume-reduced state, the space of occupancy can be greatly decreased. This lowers the costs of storage and transportation, and makes bottle handling easy and efficient, during the processes followed until bottles are filled with liquid content.
After the reversible section has been restored to the original shape and the bottle has been used as a container, the reversible section is again concaved into the inside of the shell section, and the bottle is fully flattened, with volume reduced, and is put to waste disposal. Anyone should be able to fully flatten the bottle after use and dispose of the bottle as waste easily and efficiently.
In the invention of claim 2, the reversible section protrudes in a semi-arc shape as seen in the plan view. This reversible section can be deformed and concaved into the inside of the shell section, which also protrudes in a semi-arc shape, but at a larger diameter than the reversible section. Since the entire bottle can be flattened in a certain shape, and since the flat bottles can be piled up, the storage and transportation of unused bottles and the disposal of used bottles can be efficiently carried out at a lower cost than usual.
In the invention of claim 3, the neck is disposed on the shell section side. This makes it possible for the entire bottle to be flattened without crushing up the neck. Because of this configuration, it has become possible to deform and concave approximately a half of the entire bottle, including the shoulder, the body, and the bottom.
In the invention of claim 4, the neck has also the shell section and the reversible section of its own. In such a configuration, it is possible to make the entire bottle sufficiently flat over all the height from neck to bottom.
In the invention of claim 5, two lines of turn are provided, and the right and left reversible sections are concaved into the inside of the central shell section. Both reversible sections are concaved and stored in the inside of the central shell section of a rectangular shape in its plan view, which includes the bottom. Therefore, it becomes possible for the bottle to be fully concaved for volume reduction. Even in the volume-reduced state, the bottle can fully stand on its own and has good handling ability.
In the invention of claim 6, the laminated bottle wall has higher rigidity than the non-laminated wall, namely, the wall portion of the bottle that has been molded to have usual thin walls. Since there is no need of changing the wall thickness of the bottle itself for both sections, bottles can be easily molded by an ordinary blow molding method while maintaining high productivity.
In the invention of claim 7, a label attached to the outer surface of the body is used to form the shell section. In this case, the shell section can be formed easily and at a low cost. Furthermore, since a wide area can be secured for the label display, high decorative and display effects can be obtained.
In addition, the rigidity of the shell section is fully enhanced, and the bottle shows high shape-holding power. Because of these features, the bottle shape becomes stabilized and constant when the bottle is deformed for volume reduction and also when it is restored to the original shape. The bottle can be allowed to have thin walls with no difficulty, by making the label serve as a structural material.
In the invention of claim 8, both of the shell section and the reversible section can be formed simultaneously at the time when the bottle is molded. Depending on the portions of the bottle, the ratio of wall thickness between the shell section and the reversible section can be changed to make fine adjustments to the rigidity of both sections. As a result, the reversible section can be concaved into the inside of the shell section and restored to the original shape quite easily.
In the invention of claim 9, the line of turn comprises a sloped step. This line makes it quite easy to reverse and deform the reversible section, which can be smoothly concaved and then restored to its original shape. Since the reversible section is concavely reversed with no permanent deformation, there is no damage to the outer appearance caused by deformation.
In the invention of claim 10, the line of turn comprises a shallow V-shaped groove. Because of this configuration, reversible sections can be easily and precisely reversed and deformed into and out of the shell section.
Filing Document | Filing Date | Country | Kind |
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PCT/JP02/08669 | 8/28/2002 | WO |