CA2547280C - Synthetic resin container - Google Patents

Abstract

A synthetic resin container having an improved strength without requiring use of increased resin amount has a container body with a plurality of sectioned recesses (3). In the disclosed invention, a label (4) is arranged on the container body (1) for improving the rigidity of the container by surrounding the container body.

Description

SYNTHETIC RESIN CONTAFNER
TECHNICAL FIELD
[0001] The present invention relates to a container made of synthetic resin, such as polyethylene terephthalate (PEI'), polypropylene (PP), polyethylene (PE) or the like, and aims at further improvement of the strength (rigidity) of the container without increasing a use amount of the resin, while simplifying the classification works upon waste disposal.
BACKGROUND ART

[0002] Synthetic resin containers as represented by PET bottles are recently used widely, as container for beverages, seasonings, liquors, detergents, medicaments, or the like, since they are light in weight and easy to handle, they allow transparency to be preserved, they exhibit excellent appearance comparable to that of glass container, and they are less costly.

[0003] This type of containers encounters difficulty in reuse or disposal, and it would be desirable to reduce the amount of waste by decreasing, as far as possible, the amount of resin used to produce one bottle. On the other hand, however, if the amount of resin used for a container is simply reduced, the containers tend to be readily deformed due to the reduced rigidity of the container, per se, to thereby degrade the commercial value.

[0004] Thus, it has been a conventional practice to provide improved shape and appearance of the container and form the contained body with recesses of various configuration, to thereby preserve the rigidity of the container while reducing the use amount of resin (cf. JP 06-127542A).

[0005] Furthermore, in connection with disposal of used containers as waste, from the viewpoint of promoting recycling, there have been proposed containers wherein labels can be readily separated from the container body so as to allow a classified waste disposal, by the provision of separation assisting means, such as tabs, notches or perforations (cf.
1P2002-120848,).
DISCLOSURE OF TILE INVENTION

[0006] It is an object of the present invention to provide a novel synthetic resin container having improved strength and rigidity without requiring increase in the resin amount used, while allowing classification works for waste disposal to be eliminated.

[0007] To this end, according to the present invention, there is provided a synthetic resin container comprising a container body, said container body having a main body portion formed with a plurality of sectioned recesses, said container further comprising:

04866(1/9) a label arranged at said main body portion of the container body and surrounding the main body portion, for providing an improved rigidity of the container.

[0008] It is preferred that the label is immovably arranged through an adhesive layer.

[0009] The label may be one of a heat-shrinkable label and a stretch label, which is tightly in close contact with the container body.

[0010] The label may comprise a tack label.

[0011] The label may comprise an essentially same type of material as the container, so as to eliminate burdensome classification works.

[0012] According to the present invention, since either the label itself, or the label in combination with the adhesive layer, functions as reinforcement for the container, the strength of the contained can be further improved without increasing the amount of resin.
Thus, the arrangement according to the present invention is particularly useful for resource savings.

[0013] Generally, in a contents filling line, the container after having been filled with the contents is subjected to a shower treatment process for the purpose of cooling or sterilization by heating. Therefore, it is preferred from sanitary viewpoint to apply the label to the container before the shower treatment process, in order to prevent entry of water into the recesses and thereby avoid formation of wrinkles.

[0014] Furthermore, according to the present invention, when a heat shrinkable label is used, the expansion force of the container occurring during the hot filling or heat sterilization is resisted by the shrinking force of the label to suppress deformation of the container. Besides, the closed spaces between the label and the recesses function as beat insulating layers so that the container can be readily grasped even when the contents are maintained at high temperature.

[0015] Moreover, according to the present invention, when the label is comprised of an essentially same type of material as the container, it is possible to eliminate burdensome classification works upon waste disposal.
BRIEF DESCRIPTION OF THE DRAWINGS

[0016] FIG 1 is a. front view of a container according to one embodiment of the present invention;
FIG 2 is a sectional view taken along the line L-L in FIG 1;
FIG 3 is a perspective view of a container according to another embodiment of the present invention;

04866(2/9) FIC; 4 is a sectional view showing one example of a region B in FIG 2;
FIG 5 is a sectional view showing another example of the region B in FIG 2;
FIG 6 is an enlarged sectional view of the label;
FIG 7 is a view showing the label that has been deformed into a cylindrical shape;
FIG 8a is a side view of a container suitable for applying a non-adhesive type label, and FIGS 8b is a sectional view taken along the line I-I in FIG 8a; and FIG 9 is a view showing the method for testing the rigidity of the container body.
BEST MODE FOR CARRYING OUFIU MENTION
IO [0017] The present invention will be described below with reference to the drawings.
FIGS. 1 and 2 illustrate the synthetic resin container according to the present invention, which is in the form of a bottle-type container, by way of example, wherein FIG;1 is the front view and FIG 2 is a sectional view along line L-L in FIGS 1.
[0018] Reference numeral 1 in FTC! 1 denotes a container body having an inner space to be filled with contents, 2 a mouth portion connected integrally to the container body 1, and 3 a plurality of sectioned recesses provided for the main body portion of the container body 1. These sectioned recesses 3 serve as pressure reduction absorption walls for preventing deformation due to a pressure drop within the container; which arises, for example, upon cooling of the contents filled under hot temperature. Here, the term "main body portion" refers to an entire peripheral wall of the container body 1, excluding the mouth'portion 2 and the bottom portion la of the container body 1.
[0019] Reference numeral 4 denotes a label, which covers the sectioned recesses 3 and defines closed spaces (air layers) A together with the main body portion of the container body 1. The label 4 is made of an essentially same type of material as the container, and is adhered to the main body portion of the container body 1 through an adhesive layer 4a, The label made of essentially the same type of material as the container, as used herein, means that the material forming at least the base material layer is essentially of the same type as the major material of the container.
[0020] When the label 4 is adhered to the main body portion of the container body 1 through the adhesive layer 4a, air layers isolated from ambient air are formed in the sectioned recesses 3, which serve as reinforcements for the container for providing a higher rigidity, and also as cushion materials for absorbing impacts from outside.
[0021] With reference to FIGS.1 and 2, the label 4 has been described as being adhered 04866(3/9) to the main body portion of the container body 1 except the sectioned recesses 3.
However, according to the present invention, the label 4 may be adhered to the main body portion along the entire periphery at the upper end region or the lower end region of the label 4. Alternatively, or additionally, the label may be adhered to the main body portion of the container body 1 along several regions extending in the longitudinal direction of the container body. These measures also provide improved rigidity of the container. The arrangement for the adhesive layer 4a of the label 4 is not particularly limited; hence, the adhesive layer 4a may be provided on the entire back surface of the label 4, or only at the required regions thereof: FIG. 3 shows another embodiment of the present invention in which the label is adhered to the main body portion of the container body 1 at its upper and lower end regions, and also along several longitudinal regions of the main body portion of the container body 1.
[0022] Region B in FIG 2 is shown in an enlarged scale in FIG 4. It can be seen that the label 4 is adhered to the container body 1 through the adhesive layer 4a (heat-sensitive adhesive agent, etc.), and has a two-layered basic structure. However, as shown in FIG 5, the label 4 may be of a laminated structure comprising a base layer 4b, which consists of essentially the same type of material as the container body 1, and a barrier layer 4c that is laminated on the base layer 4b. Although not shown in the drawings, the label 4 may further comprise a printed layer between the base layer 4b and the barrier layer 4c.
[0023] FIG 6 is an enlarged view showing the label (heat-shrinkable label) which can be suitably applied to the container according to the present invention, wherein the label is shown as being in the form of a sheet. Here, a sheet-lice ilia forming the base layer 4b has a surface which is applied with a heat-sensitive adhesive agent except along its one edge, so as to form the adhesive layer 4a. A cylindrical label 4 is formed by rolling up the sheet-lie film and joining the leading and trailing ends with each other by the adhesive agent 5, and has a laminated structure comprised, as seen from the inner side, of the adhesive layer 4a (heat-sensitive adhesive agent), the base layer 4b, the adhesive layer 4a (heat-sensitive adhesive agent)/adhesive agent 5, and the base layer 4b, so as to positively prevent gas transmission through the joined portion, and also to provide an improved strength.
[0024] Other than a heat-shrinkable label, the label 4 may comprise a stretch label wherein a stretch lax is formed into a cylindrical shape. As for the heat-shrinkable label, in particular, it is preferred to use a resin that is essentially of the same type as the 04866(4/9) eaao t y,s b o wonaft ftt nt 't30 n7bo y1i required upon dkpW of he t*sd cwuW% ad to saw type of resin exhibits the sa le ftdt*q m i which isdu easy totx zoo.
100251 D i f11~a1 ~ { C. 11 !$L
s adhedve layer), which is bta tt kw d$L coo piwilt d e made. bodypoibon of bod~ri M ownMl _ttud is dEmdthtwt ils~raaa groove portion 6 bpt o+vided txn pack she;, 3.e., rslde Lad 6a lowddr of 1 st> cadre cS3, since theptevlsiionofsurbao bnrgtoavepofts sazve ctoin twe the WADOSS Of ft MUM
The a ac cog to the pmt in lion can be prrdscedby'a co ti mal process, sad ub rmc3l ormjc t a Eby a ata es n an L'ET,PP 1E or the llrc Hvwerrr.4 the pacts mvmtioa is not limbed to these reds, Lad the Asp oftitecc sectrybe sufta* aa s c4 wf e, carpsbapcoramydbar sbapa IS {Einbodhncnt 1) 7! bn oade r to deatasastt c>'nun oeaa Hof thepa roatimv iop,tbeeebaf+e bcmpradxd saes of wAWwof say Oh*WZS
a lrpe*rnacaattsttWSRLaab asd w im PIG 1. l xhouqk bas a 0f 500 miters a dis firmed with secdoned recesses In themalubodypoilln. Tl sample coataiaeaswerepmdaccd by biaxial wok-A blow nwi ft.p vows nabag21grans oPETresia a a w~ edw eaLbelo ytlCMCa e kind of resin as the ctanta narq.e, a he at k label applied w fRi a heat e or adhesiveagentdiett elve 1,aidaoottatLralvetypebeat od e label dear the pramnpia 2, both hacvhig a baw lays r P 'sDd thief of41) Lm}: Mier Wa Labelbas been apps to the c otamc t lsbd la sbeen to by steam. l me t sasyp c t e hael¾liung stc+dog ,lye ngidky ofthe nnq bodypo and the fgkhty I been mvesdg*d: 'tire data obtaLed byanchb ve sa an d ma bie.2 be with do ddakc a xefroewe (oonbolexabmple) which is not pin vid. w>tb tl+e label.
1002 Lin Table), the terns "saW reds to an empty c rnot.d tle with a;
ethe tezm "fu)t ees to atao er lcdwith bot_wate rat 85" C, then air 45 seooe h in in ovat ned state and for nod= 5 ntit 15 saga in an up t We bdorekbasbcwI9 moft o4$M tsn+) [0029] Furthermore, the term "buckling strength. (N)" refers to the load upon occurrence of buckling of the container when the container in upright state is compressed from its upper side (mouth portion side) toward the bottom side by using a disc of 100 mm in diameter, which is moved at a speed of 50 mnVrnin, with an air vent placed between the disc and the mouth portion in the case of the empty bottle. The term "body portion rigidity (mm)" refers to the displacement of the bottle when the contained maintained at 5 C for 24 hours was placed in an overturned state with one of its columnar portions (projections between the sectioned recesses) oriented upwards as the upper surface, and a square rod of a width 10 mm x 10 mm and a length of 150 mm was arranged in parallel with an axis that connects the mouth portion side and the bottom portion side (with one end of the rod spaced from the bottom of the container by 20 mm, as shown in FIG 9), before a vertical load of 58.8 N (6 kgt) was applied through the rod to the container from the upper surface side toward the lower surface side. Furthermore, the term "columnar rigidity (N)" refers to the load upon occurrence of buckling of the container when the container was placed in an overturned state with one of its coluranar portions oriented upwards as the upper surface, and a cylindrical rod of a diameter 20 mm and a length of 100 mm was arranged at right angles to the axis that connects the mouth portion side and the bottom portion side so as to vertically compress the center region of the columnar portion. The data obtained are shown in Table 1 as indices with reference to the data of the control example indicated as 100.
[0030]
Table 1 Examples Inventive Inventive Control Measurements Example 1 Example 2 Example Buckling Empty 130 112 100 strength Full 117 109 100 Body portion Empty 124 108 100 rigidity Full 120 107 100 Columuar -Empty 137 ill 100 rigidity Full 132 113 100 [0031] It can be understood from Table 1 that the inventive example 2 in which the main body portion of the container body is applied with anon-adhesive type label provided improved buckling strength, body portion rigidity and columnar rigidity, as compared to the control example. Moreover, the inventive example 1 in which a heat shrinkable label 04866 (6/9) is applied by adhesion provides further improved buckling strength, body portion rigidity and columnar rigidity, even when compared to the inventive example I.
[00321 Incidentally, the data obtained for the inventive examples I and 2 are with respect to the so-called pre-label type bottles in which an empty bottle is applied with a label before the filling of the contents. However, it has been confirmed that similar results are obtained with respect to the so-called after-label type bottles in which a label is applied to the container after the filling of the contents.
INDUSTRIALAPPLI
[00331 It will be appreciated from the foregoing description that the present invention provides a contained made an amount of resin, which has been reduced as far as possible, yet preserving a required rigidity.

04866 (7/9)

Claims (8)

1. A synthetic resin container comprising a container body, said container body having a main body portion formed with a plurality of sectioned recesses, said container further comprising:
a label arranged at said main body portion of the container body and surrounding the main body portion, for providing an improved rigidity of the container, wherein said label and said container body each comprise polyethylene terephthalate (PET) resin, and wherein said label is permanently affixed through an adhesive layer.

2. The container according to claim 1, wherein said label is one of a heat-shrinkable label and a stretch label, which is tightly in close contact with the container body.

3. The container according to claim 1 or 2, wherein said label is a tack label.

4. The container according to any one of claims 1 to 3 further comprising closed air layers provided between said plurality of sectioned recesses and said label.

5. The container according to claim 4 wherein said closed air layers form a cushion structure that absorbs impacts from outside of the container.

6. The container according to any one of claims 1 to 5 wherein the label is adhered at upper and lower end regions of the label along a longitudinal axis of the container.

7. The container according to any one of claims 1 to 5 further comprising annular groove portions extending about a longitudinal axis of the container on opposite sides of said plurality of sectioned recesses, the annular groove portions being covered by the label.

8. The container according to claim 7 wherein said label is a heat-shrinkable label with a heat-sensitive adhesive agent.