JP3544706B2 - Biaxial stretch blow molded container - Google Patents

Description

[0001]
[Industrial applications]
The present invention relates to a biaxially stretched blow-molded container, and more particularly, to a wall structure of a biaxially stretched blow-molded container.
[0002]
[Prior art]
As is well known, for example, a container (hereinafter, referred to as a bottle) biaxially stretch-blown using polyethylene terephthalate (PET) has many advantages in terms of gas barrier resistance, transparency, toughness, hygiene, and the like.
[0003]
By the way, one of the bottles obtained by biaxial stretch blow molding is called a heat-resistant bottle. This heat-resistant bottle is a bottle that can be filled with contents such as juice heated for sterilization.
[0004]
However, in such a bottle, when the content charged at a high temperature cools, the inside of the bottle becomes a reduced-pressure atmosphere due to volume reduction of the content, and the bottle wall may be deformed under reduced pressure. Such deformation due to volume reduction and decompression causes a change in the appearance and shape of the entire bottle, which impairs the commercial value of the bottle.
[0005]
Therefore, as a countermeasure against the occurrence of such volume reduction and pressure reduction, a structure is employed in which only a part of the wall is deformed by volume reduction and pressure reduction to prevent deformation of the external shape of the entire bottle.
[0006]
This structure is called a decompression panel, and a structure in which a plurality of concave portions that are depressed toward the inside of the bottle is provided on the surface of the wall of the bottle is generally used. Thus, when the volume reduction and pressure reduction occur, only the concave portion is deformed by pressure reduction, thereby preventing a shape change in other portions of the bottle.
[0007]
On the other hand, some bottles obtained by the biaxial stretch blow molding have a rectangular cross-sectional shape as an example in design. The cross section in this case refers to a cross section in a direction perpendicular to the longitudinal direction of the bottle.
[0008]
A decompression panel is provided for such a bottle having a rectangular cross section. In the case of a square cross section, it is provided on all four side walls, and in the case of a rectangular cross section, a long side which is easily bent and deformed. A pressure reducing panel is formed on each of the wall surfaces.
[0009]
The decompression panels are generally formed at two locations above and below the wall of the bottle.
[0010]
Some bottles of this type have a chamfered portion formed at a position where each side intersects to connect each side. The reason for forming the chamfered portion is to ensure the strength at the corner of the bottle, that is, at the position where the sides forming the wall intersect. Therefore, the cross-sectional shape of such a bottle is an octagon.
[0011]
[Problems to be solved by the invention]
However, among the containers described above, in the case of a square cross-section, the deformation in appearance is small because the decompression deformation during the volume reduction and decompression is performed almost uniformly on the wall surface of each side. In the case of bottles having different side lengths, the wall shape of the shorter side may bulge and the external shape may change.
[0012]
That is, at the time of filling the high-temperature contents, the wall portion is easily swelled and deformed by the liquid pressure and the thermal deformation of the wall portion, and at the time of cooling thereafter, the wall portion is easily dented and deformed into the bottle by decompression. In this case, since the wide wall portion is more easily dented, the reduced pressure deforming portion is deformed, but the narrow wall portion is hardly dented and deformed. Therefore, if the swelling deformation occurs, the state is maintained as it is.
[0013]
Therefore, when the lateral ribs are formed on the narrow wall portion, the bulging deformation at the time of heat filling is prevented. However, since the reduced-pressure deformation is not expected at all in the narrow wall portion, the role of the other wall portion, particularly, the wide wall portion formed below is increased.
[0014]
By the way, if the hot filling temperature is set higher than expected, or if the external force due to the impact during transportation or the deformation due to the pressure at the time of grasping by the consumer is applied to the wide wall portion where the burden is large, the wide There has been a problem that the surface of the wall other than the depressurized deformed portion may be deformed and may not be able to return to its original state.
[0015]
Such deformation of the wall surface located between the decompression panels at the time of volume reduction and decompression was often observed particularly near the upper part of the lower decompression panel.
[0016]
The present invention has been made in view of the above-mentioned problems, and its purpose is to prevent the wall surface from swelling when, for example, heating and filling the contents, and to reduce the wall surface other than the pressure reducing panel during the volume reduction and pressure reduction. It is an object of the present invention to provide a biaxially stretched blow-molded container that can be prevented from being concavely deformed.
[0017]
[Means for Solving the Problems]
In order to achieve the above object, a first invention is as follows.
Has a chamfer at the intersection of the wide wall and the narrow wall portion, of the wall portion which is formed in cross section substantially rectangular shape, in the height direction substantially central position below the wide wall In a biaxially stretched blow-molded container provided with a reduced pressure deforming part at the time of reducing the volume,
Having a rib depressed over the narrow wall portion and the chamfer portions on both sides thereof,
The rib depth in the central region in the longitudinal direction of the rib is smaller than the rib depth in both end regions.
[0018]
In a second aspect, in the first aspect,
The ribs in the both end regions extend from the chamfered portion to a narrow wall portion.
[0019]
The third invention is
Has a chamfer at the intersection of the wide wall and the narrow wall portion, of the wall portion which is formed in cross section substantially rectangular shape, in the height direction substantially central position below the wide wall In a biaxially stretched blow-molded container provided with a depressurized deformation portion having a concave portion deformed under reduced pressure when reducing the volume,
Having a rib depressed over the narrow wall portion and the chamfer portions on both sides thereof,
A rib depth of at least a central region in the longitudinal direction of the rib is smaller than a depth of a concave portion of the reduced pressure deforming portion.
[0020]
[Action]
According to the first aspect of the present invention, when the content is heated and filled, the narrow wall portion is reinforced by ribs depressed over the chamfer portions on both sides thereof. Therefore, even if the weight of the contents, the pressure applied from the deformed wall portion, or even the thermal deformation is applied, the bulging deformation of the lower portion of the narrow wall portion is prevented.
[0021]
In particular, when the rib depth in the central region in the longitudinal direction of the rib is made shallower than the rib depth at both ends, when a pressure equal to or more than a certain reduced pressure is applied to the narrow wall portion, the pressure is reduced. It becomes possible to absorb by deformation.
[0022]
Therefore, the deformation of the wall due to the decompression deformation force is stopped in the decompression deformation portion, so that the commercial value is not impaired.
[0023]
According to the second invention, the ribs at both end regions, which are deeper than the ribs at the center region, are extended from the chamfered portions to the narrow wall portions, so that the ribs at both end regions are narrowed at the narrow wall. Reinforces both sides of the wall, reliably preventing the entire narrow wall from bulging and deforming even if the weight of the contents, the pressure applied from the deformed wall, or even thermal deformation is applied can do.
[0024]
Further, even when a reduced pressure deformation force is applied to the reduced pressure deformation portion beyond a certain reduced pressure value at the time of reducing the volume of the contents, the ribs in the narrow wall portion do not deform the chamfered portion. Only the part can be deformed under reduced pressure.
[0025]
Therefore, the deformation of the wall due to the internal pressure or the reduced pressure is stopped in the narrow wall so as not to impair the commercial value.
[0026]
In the third invention, as in the first invention, the weight of the contents and the pressure applied from the deformed wall portion are reduced by the ribs recessed over the narrow wall portion and the chamfer portions on both sides thereof. Furthermore, even if thermal deformation or the like is applied, it is possible to reliably prevent the entire narrow wall portion from expanding and deforming.
[0027]
Further, even when a decompression deformation force is applied to the decompression deformed portion beyond a certain decompression value at the time of reducing the volume of the content, the rib depth in the central portion in the longitudinal direction increases the depth of the concave portion of the decompression deformation portion. Since it is shallower than that, the rib in the central region is deformed and can absorb the reduced pressure.
[0028]
【Example】
Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings.
[0029]
1 to 3 are cross-sectional views of a biaxially stretch blow-molded container (hereinafter, referred to as a bottle) according to one embodiment of the present invention.
[0030]
The bottle 10 shown in this embodiment is made of, for example, polyethylene terephthalate (PET) by biaxial stretch blow molding, and has a lip portion 12 including an upper end side opening and a shoulder extending downward from the lip portion 12. A part 14, a bottom part 16 on the lower end side, a heel part 18 extending upward from the bottom part 16, and a body part 20 formed between the heel part 18 and the shoulder part 14 are integrally formed. Has become.
[0031]
Barrel 20 is formed in the lateral cross section rectangular shape having a pair of wide walls 22 and narrow walls 24 disposed on each opposing positions. In the body portion 20, a chamfered portion 26 is formed at the intersection of each wide wall portion 22 and each narrow wall portion 24 in the height direction. The chamfered portion 26 is formed narrower than the narrow wall portion 24, and reinforces the intersection of the wide wall portion 22 and the narrow wall portion 24. That is, in the trunk portion 20, the chamfered portion 26 is disposed at each intersection of the wide wall portion 22 and the narrow wall portion 24, and the chamfered portion 26 is narrower than the narrow wall portion 24. Therefore, four intersections of the wall portions 22 and 24 are reinforced by a chamfer 26 having higher strength than the wall portions 22 and 24.
[0032]
Further, a groove 28 that is depressed inward is formed at a position above the center position in the height direction of the body portion 20. The groove 28 is provided continuously in the circumferential direction over the wide wall portion 22, the narrow wall portion 24, and the chamfered portion 26. The body portion 20 is separated from the groove portion 28 by the upper body portion. 30 and a lower trunk 32. As described above, the groove 28 is formed at an intermediate position in the vertical direction of the trunk 20, thereby reinforcing the side pressure of the trunk 20 at an intermediate position in the vertical direction of the trunk 20, and at the same time, the trunk 20 is connected to the upper trunk. By dividing the lower part 30 and the lower trunk part 32 into small units in the vertical direction, buckling deformation of the trunk part 20 is prevented.
[0033]
Further, the lower body portion 32, which receives a large amount of liquid pressure from the filled contents, has a wide wall portion 22 provided with a reduced pressure deformable portion 34 capable of being deformed under reduced pressure when reducing the volume of the contents. The portion 24 is provided with a rib 36 for preventing outward expansion when the content is heated and filled or the wide wall portion 22 is gripped.
[0034]
The decompression deforming portion 34 is formed in a vertically elongated substantially rectangular shape at the center of the lower body portion 32 of the wide wall portion 22, and inside the decompression deformation portion 34, the decompression deformation portion 34 of the wall 22 is provided. A concave portion 38 which is depressed inward from an outer surface (hereinafter, referred to as a general surface) is formed in an annularly continuous state, and a central portion surrounded by the concave portion 38 has a lower portion than the general surface of the wall portion 22. A flat portion 40 located slightly inward is formed continuously from the concave portion 38. When the volume of the content is reduced and the pressure is reduced, the flat portion 40 can be deformed in a reduced pressure inward with the outer peripheral edge of the concave portion 38 as a hinge fulcrum.
[0035]
Further, a reinforcing groove 42 extending in the lateral direction is formed at an upper position in the reduced-pressure deforming portion 34. The reinforcing groove 42 is formed in a state recessed inward and deeper than the concave portion 38 formed around the depressurized deformation portion 34 and functions as a reinforcing rib. The general surface of the wall portion 22 connected to the upper portion of the reduced pressure deforming portion 34 is prevented from being deformed due to the reduced pressure deformation of the reduced pressure deforming portion 34. Further, the reinforcing groove 42 is provided in the decompressed deformation portion 34 so as to extend from the upper end position of the concave portion 38 of the decompressed deformed portion 34 to an intermediate position of the wall portion 22 continuing thereabove. The space between the wall and the groove 28 is narrowed. Accordingly, a reinforcing rib is formed between the reinforcing groove 42 and the groove 28, and the rib effect is enhanced. Further, the general surface of the wall portion 22 connected to the upper portion of the reduced pressure deforming portion 34 is further reduced. It is possible to reliably prevent deformation due to the decompression deformation of 34. Further, a reinforcing step portion 45 is provided in a rising portion 43 between the bottom portion of the reinforcing groove 42 and the general surface located above the decompression deforming portion 34 to reinforce the rising portion 43, so that the upper end of the concave portion 38 is securely hinged. It is to be.
[0036]
The plurality of ribs 36 (five in this embodiment) are provided at predetermined intervals in the height direction of the narrow wall portion 24 over the entire area in the width direction. , The wall 24 is prevented from bulging when the content is heated and filled or when the wide wall 22 is gripped.
[0037]
Further, at both end portions of each rib 36, an extension portion 44 is provided which extends beyond the corner where the narrow wall portion 24 and the chamfered portion 26 intersect and extends over both adjacent chamfered portions 26. By extending the ribs 36 to the chamfered portions 26 on both sides, both end portions of the ribs 36 can be supported by the chamfered portions 26 which are narrower than the narrow wall portions 24 and have high bending strength. The bulging of the wall portion 24 can be reliably prevented.
[0038]
Further, the ribs 36 are formed such that the depth D2 of the ribs 36 in the central region in the longitudinal direction in the narrow wall portion 24 is smaller than the depth D1 of the extension portions 44 formed in both end regions thereof, and the ribs are deformed under reduced pressure. When a pressure reduction deformation force equal to or greater than a predetermined pressure reduction value is applied to the portion 34, the rib 36 portion of the narrow wall portion 24, which is shallower than the extension portion 44, can be deformed by pressure reduction, and The general structure of the wall portion 22 connected to the upper portion of the reduced pressure deforming portion 34 provided on the 22 is prevented from being deformed by reduced pressure.
[0039]
In addition, the depth D2 of the rib portion 36 in the narrow wall portion 24 is formed to be smaller than the depth D3 of the concave portion 38 in the reduced pressure deforming portion 34 provided in the wide wall portion 22, and is fixed to the reduced pressure deforming portion 34. Is provided on the wide wall portion 22 so that the rib portion 36 of the narrow wall portion 24 which is shallower than the concave portion 38 can be easily decompressed and deformed when a decompression deformation force greater than the decompression value is applied. The wall 22 connected to the upper part of the reduced pressure deforming portion 34 is prevented from being deformed under reduced pressure.
[0040]
Further, the wide wall portion 22 and the narrow wall portion 24 of the upper body portion 30 are provided with decompression deformable portions 46 and 48, respectively, which can be decompressed and deformed when reducing the volume of the contents. In the wide wall portion 22, the reduced pressure deforming portion 46 is formed large, and in the narrow wall portion 24, the reduced pressure deforming portion 48 is formed relatively small. Further, in the upper body portion 30, the area is smaller than that of the lower body portion 32, and the strength of the wide wall portion 22 and the narrow wall portion 24 is high, so that the decompression deformation portions 46, 48 have the concave portions 50, 52 and It is composed of only the flat portions 54 and 56, has no reinforcing groove, and has no rib provided on the narrow wall portion 24.
[0041]
Since the present embodiment is configured as described above, when the contents are heated and filled, a liquid pressure is applied to the body 20, and a pressure in the bulging direction is applied to the body 20, especially the lower body 32. Even in this case, since the narrow wall portion 24 of the lower body portion 32 is reinforced by the ribs 36, the swelling state is prevented. Particularly, since the ribs 36 are in a state where both ends are extended to and supported by the chamfered portion 26 having high strength, the bulging of the wall portion 24 is reliably prevented.
[0042]
Further, even if the internal pressure is increased by gripping the wide wall portion 22 of the body portion 20, the presence of the rib 36 ensures that the narrow wall portion 24 is prevented from bulging. Become.
[0043]
Further, even when the volume of the heat-filled contents is reduced in pressure, the reduced pressure deforming portions 46 and 48 of the upper body 30 and the reduced pressure deforming portion 34 provided on the wide wall 22 of the lower body 32 are decompressed. It deforms and responds to volume reduction of the contents.
[0044]
In this case, with the decompression deformation of the decompression deformation portion 34 in the lower body portion 32 during decompression, the general surface of the wall portion 22 connected to the upper portion of the decompression deformation portion 34 is easily deformed. The depth D2 of the rib 36 is smaller than the depth D1 of the extension portion 44 formed at both ends, and the depth D2 of the rib 36 in the narrow wall portion 24 is equal to the width D2 of the wide wall portion 22. Is formed to be shallower than the depth D3 of the concave portion 38 in the reduced pressure deforming portion 34 provided when the pressure reducing deforming force is applied to the reduced pressure deforming portion 34 at a predetermined pressure value or more. Is reliably deformed under reduced pressure, so that the reduced pressure deformation of the general surface of the wall portion 22 connected to the upper portion of the reduced pressure deforming portion 34 provided on the wide wall portion 22 is prevented.
[0045]
Further, the deformation of the general surface is more reliably prevented by reinforcing the reinforcing groove 42 provided in the upper part inside the reduced-pressure deforming portion 34. In particular, the reinforcing groove 42 is recessed inward more deeply than the concave portion 38 formed in the reduced pressure deforming portion 34 and extends above the reduced pressure deforming portion 34 as described above, so that the groove portion formed in the body 20 is formed. Since the interval between the general surface of the wall portion 22 between the groove 28 and the reinforcing groove 34 is reduced and functions as a reinforcing rib, the deformation of the general surface is more reliably prevented.
[0046]
The present invention is not limited to the above embodiments, and various modifications can be made within the scope of the present invention.
[0047]
For example, in the above embodiment, no rib is formed on the upper body, but a label or the like is often affixed on the upper body, and a portion such as a chamfered portion which does not affect the attachment of the label or the like is provided. It is possible to form ribs.
[0048]
Further, in the present embodiment, the depth D2 of the rib 36 in the narrow wall portion 24 is formed to be smaller than the depth D1 of the extension portions 44 formed at both ends, and the narrow wall portion 24 is formed. Is formed to be shallower than the depth D3 of the concave portion 38 in the reduced pressure deforming portion 34 provided in the wide wall portion 22, but the relationship of this depth is narrower. It is also possible to have only one of the relationship between the rib portion in the wall portion and the concave portion or the extension portion.
[0049]
Further, it is also possible to extend the extension portion 44 while keeping the depth of the rib portion 36 in the narrow wall portion 24.
[0050]
【The invention's effect】
As described above, in the first invention, the state in which the narrow wall portion is reinforced by the ribs recessed over the narrow wall portion and the chamfer portions adjacent to the narrow wall portion when the content is heated and filled. Therefore, even if the weight of the contents, the pressure applied from the deformed wall portion, or even the thermal deformation is applied, there is an effect that the bulging deformation on the lower side of the narrow wall portion is prevented.
[0051]
In particular, when the rib depth in the central region in the longitudinal direction of the rib is made shallower than the rib depth at both ends, when a pressure equal to or more than a certain reduced pressure is applied to the narrow wall portion, the pressure is reduced. It becomes possible to absorb by deformation.
[0052]
Therefore, there is an effect that the deformation of the wall portion due to the decompression deformation force is stopped in the decompression deformation portion so that the commercial value is not impaired.
[0053]
According to the second aspect, the ribs at both end regions, which are deeper than the ribs at the center region, are extended from the chamfered portions to the narrow wall portions, so that the ribs at both end regions are narrowed at the narrow wall portions. Reinforced on both sides, and even if the weight of the contents, the pressure applied from the deformed wall, or even thermal deformation is applied, the entire narrow wall is reliably prevented from bulging and deforming. There is an effect that can be.
[0054]
Further, even when a reduced pressure deformation force is applied to the reduced pressure deformation portion beyond a certain reduced pressure value at the time of reducing the volume of the contents, the ribs in the narrow wall portion do not deform the chamfered portion. There is an effect that only the portion can be deformed under reduced pressure.
[0055]
Therefore, there is an effect that deformation due to internal pressure or reduced pressure of the wall portion is stopped in the narrow wall portion so as not to impair the commercial value.
[0056]
According to the third invention, similarly to the first invention, the weight of the contents, the pressure applied from the deformed wall, and the pressure applied from the deformed wall are reduced by the ribs recessed over the narrow wall and the chamfers on both sides thereof. Has the effect that even if thermal deformation or the like is applied, the entire narrow wall portion can be reliably prevented from bulging and deforming.
[0057]
Further, even when a decompression deformation force is applied to the decompression deformed portion beyond a certain decompression value at the time of reducing the volume of the content, the rib depth in the central portion in the longitudinal direction increases the depth of the concave portion of the decompression deformation portion. Since it is shallower than that, the ribs in the central region are deformed and there is an effect that the reduced pressure can be absorbed.
[Brief description of the drawings]
FIG. 1 is a front view of a biaxially stretch blow-molded container according to one embodiment of the present invention, as viewed from a wide wall side.
FIG. 2 is a partially broken front view as viewed from a narrow wall side in FIG. 1;
FIG. 3 is a sectional view taken along the line III-III in FIG. 1;
[Explanation of symbols]
10 Bottle 20 Body 22 Wide Wall 24 Narrow Wall 26 Chamfer 28 Groove 30 Upper Body 32 Lower Body 34 Decompression Deformation Section 36 Rib 38 Recess 42 Reinforcement Groove 44 Extension

Claims (3)

Has a chamfer at the intersection of the wide wall and the narrow wall portion, of the wall portion which is formed in cross section substantially rectangular shape, in the height direction substantially central position below the wide wall In a biaxially stretched blow-molded container provided with a reduced pressure deforming part at the time of reducing the volume,
Having a rib depressed over the narrow wall portion and the chamfer portions on both sides thereof,
A biaxially stretch blow-molded container, characterized in that the rib depth in the central region in the longitudinal direction of the rib is smaller than the rib depth in both end regions. In claim 1,
The biaxially stretched blow-molded container, wherein the ribs at both end regions extend from the chamfered portion to a narrow wall portion. Has a chamfer at the intersection of the wide wall and the narrow wall portion, of the wall portion which is formed in cross section substantially rectangular shape, in the height direction substantially central position below the wide wall In a biaxially stretched blow-molded container provided with a depressurized deformation portion having a concave portion deformed under reduced pressure when reducing the volume,
Having a rib depressed over the narrow wall portion and the chamfer portions on both sides thereof,
A biaxially stretch blow-molded container, wherein a depth of a rib in at least a central region in a longitudinal direction of the rib is smaller than a depth of a concave portion of the depressurized deformation portion.

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