JP4156398B2 - Bottle with shrink label - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a bottle with a shrink label. More specifically, a bottle having a gas barrier property is used for the bottle body, and the light shielding property is improved by providing a light shielding layer together with a printing layer such as a pattern on the shrink label. Using a shrink label, and further increasing the area covered by the shrink label to improve UV and visible light shielding, prevent deterioration of the contents filled in the bottle and prevent deterioration, improve storage stability. Related to bottles with shrink labels.
[0002]
[Prior art]
Conventionally, alcoholic beverages such as beer, Japanese sake, Western liquor, soft drinks such as fruit juice and cola, various teas, tea, coffee, and milk beverages, lactic acid beverages, or edible oil, soy sauce, noodle soup, sauce, dressing, etc. Various plastic bottles are used as containers for filling, sealing, and distributing liquid materials in addition to glass bottles and cans.
Among these, especially plastic bottles are lightweight, excellent in bottle molding processability and mass productivity, are relatively inexpensive to manufacture, have transparency, have a soft appearance, and are easy to touch. In recent years, the amount of its use has increased rapidly due to its warmth.
[0003]
只 In plastic bottles, for example, when the contents are beer or various milk drinks, light shielding is required in addition to gas barrier properties such as oxygen. However, there was nothing that had both, and some measures had to be taken.
Various studies have been made on the gas barrier property. For example, there is a method of providing a gas barrier property by providing a gas barrier resin layer such as an ethylene / vinyl alcohol copolymer in an intermediate layer with a multi-layered bottle. It is taken.
With regard to the light shielding property, for example, as in the gas barrier property imparting method, the bottle has a multilayer structure, and the intermediate layer contains a light reflecting pigment and a light absorbing pigment as the light shielding resin layer. There is a blow-molded bottle provided with a layer to provide light shielding properties (for example, see Patent Document 1).
In addition, as an improvement of the light-shielding shrink label for covering the container surface of drugs, etc., on a colored film made of synthetic resin (for example, an opaque polyethylene film material colored orange), a smaller and constant size is used. Place a label (this label is composed of a first label piece and a second label piece that is detachably adjacent to the first label piece, and the first label is peelably attached). There is a label that wraps around and sticks to the entire circumference of the body of the container, and gives a description of display items and a light shielding property to the container (for example, see Patent Document 2).
[0004]
[Patent Document 1]
JP-A-5-338016 (pages 2-4, FIG. 1)
[Patent Document 2]
Japanese Patent Laid-Open No. 11-288221 (pages 2 and 3, FIGS. 1 and 2)
[0005]
[Problems to be solved by the invention]
However, in the heat-resistant light-shielding blow-molded bottle of the invention described in Patent Document 1, good light-shielding properties can be obtained, but since the light reflecting pigment and the light absorbing pigment are contained in the resin of the bottle body, it is used. When recycling later bottles, there is a problem that the method is restricted.
In addition, the “light-shielding shrink label” of the invention described in Patent Document 2 (this label is attached to the container with a removable adhesive or pressure-sensitive adhesive when attached to the container, and is described as shrinking. It seems to be a light-shielding label because it does not contain a colored film made of synthetic resin (for example, it is described as an opaque polyethylene film colored orange) as a base material to give light-shielding properties. The first label piece on which the general description necessary for the sale and use of the contents is printed and displayed, and the first label piece remains on the container surface after the first label piece is removed by opening, and the contents are identified. A second label piece is printed next to the description, including specialized information required by medical offices, etc., and a separator is used on the back of the light-shielding shrink label until use. As a light-shielding shrink label used for beverage bottles, etc., the structure is complicated and the manufacturing cost increases, and the position where this light-shielding label is applied is also shown in FIG. There is a problem that sufficient light shielding properties cannot be obtained as a whole because the shoulder portion and bottom surface of the container cannot be covered at all.
[0006]
The present invention has no such problems as described above, the bottle body has gas barrier properties, and the shrink label attached to the bottle has excellent light shielding properties, and the printing effect of a printing layer such as a pattern is good. In addition, the shrink label can be mounted so as to cover the area from the base of the mouth and neck of the bottle body to the inside of the grounding part at the bottom, which is suitable for contents that require light shielding properties as well as gas barrier properties. In addition, after the bottle is used, the bottle body and the shrink label can be easily separated, and the purpose is to provide a bottle with a shrink label with less restrictions on the recycling of the bottle with high productivity. .
[0007]
[Means for Solving the Problems]
  The above problems can be solved by the following present invention.
  That is, the invention described in claim 1 is a bottle with a shrink label, in which a bottle body is formed by a mouth and neck portion to which a cap is attached, followed by a shoulder portion, a trunk portion and a bottom portion, and a shrink label is attached to the outside. The bottle body has gas barrier properties, and the shrink label comprises at least a heat-shrinkable film and a light-shielding layer provided on the entire surface of the heat-shrinkable film, and a printing layer such as a pattern. Formed with a composition comprisingThe light shielding layer is formed by stacking a plurality of coating layers of a coating liquid containing at least one of titanium white (titanium oxide) powder and aluminum powder as a light shielding material, or both,and,The shrink label isIt is mounted so as to cover the area from the base of the bottle neck of the bottle body to the inside of the grounding part at the bottom.The area of the non-covered portion by the shrink label on the bottom surface of the bottle body is 20 cm. ² It is said thatIt consists of a bottle with a shrink label.
[0008]
In the present invention, as the bottle body having gas barrier properties, various plastic bottles provided with gas barrier properties by various means, glass bottles, and the like can be used. The shape of the bottle is preferably a round bottle having a circular cross section, but may be a square bottle having a square cross section or other polygons.
The heat-shrinkable film used for the shrink label is not particularly limited. For example, in addition to a polyester-based heat-shrinkable film obtained by stretching a polyester-based copolymer resin, a polystyrene-based heat-shrinkable film, a polyvinyl chloride-based film Any of a heat-shrinkable film, a special polyethylene such as crosslinked polyethylene, an ethylene / vinyl acetate copolymer, or a polyolefin-based heat-shrinkable film using polypropylene or the like can be used.
[0009]
Such a heat-shrinkable film may be formed of a single layer or a heat-shrinkable film having a laminated structure formed by laminating a plurality of layers. In addition, a transversely uniaxially stretched heat-shrinkable film is usually used, but a biaxially-stretched heat-shrinkable film that balances longitudinal and transverse shrinkage can also be used as needed for use.
The heat shrinkage rate of such a heat-shrinkable film depends on the shape of the bottle body, particularly the difference between the outer periphery of the body and the neck of the neck, but the direction corresponding to the circumferential direction of the bottle [usually the width direction of the film ( (TD direction)] is preferably 55 to 80%.
In addition, the thickness of the heat-shrinkable film varies depending on the material and the size of the bottle on which the shrink label is attached, but is usually in the range of 20 to 120 μm.
[0010]
The light-shielding layer provided on the entire surface of either one of the heat-shrinkable films and the printing layer such as a pattern are usually opaque, so when provided on the outer surface of the heat-shrinkable film, A light shielding layer may be provided, and a printing layer may be provided thereon, and if necessary, an overprint layer for protecting the printing layer may be further provided thereon. Moreover, when providing in the inner surface of a heat-shrinkable film, what is necessary is just to provide a printing layer previously and to provide a light shielding layer on it. Also in this case, a slippery protective layer for protecting the light shielding layer and improving the slipperiness with the bottle surface can be provided thereon.
[0011]
The printing layer such as the pattern can be provided by a printing means such as a conventional gravure printing. The light-shielding layer is preferably provided by a printing means similar to a printing layer such as a pattern, because it can be processed in-line with the printing layer such as a pattern and is excellent in productivity. The pattern is, for example, a shrink label. Except for removing the joint portion in a strip shape, the entire surface is a simple pattern with a solid surface, and can be provided by various coating means such as roll coating.
The light-shielding layer can be usually formed by dispersing or dissolving various light-shielding substances in a binder solution to prepare a coating liquid, which is applied and dried by the printing or coating means.
Such a light shielding layer may be formed by a single layer, but a light shielding property can be further improved by stacking a plurality of layers such as two layers and three layers.
[0012]
As the light-shielding substance used for the light-shielding layer, any substance that can shield light by reflecting, diffusing, absorbing, or scattering ultraviolet rays and / or visible rays can be used.
Examples of the substance that reflects, diffuses or scatters ultraviolet rays and / or visible rays include, for example, titanium dioxide, zinc oxide, iron titanate, iron oxide, zirconium oxide, cerium oxide, magnesium oxide, silica, and alumina (particularly flat powder). , Zeolite, talc, kaolin, aluminum silicate, calcium silicate, magnesium silicate, calcium carbonate, magnesium carbonate, barium sulfate, magnesium sulfate, calcium sulfate, aluminum, copper powder, iron oxide-titanium oxide sintered product, silica -Inorganic powders such as cerium oxide-coated pigments.
[0013]
Examples of organic substances include polyamide resin, polyethylene, polypropylene, polystyrene, polymethyl methacrylate, styrene / acrylic acid copolymer, and fluororesin powder or beads.
[0014]
An ultraviolet absorber that absorbs ultraviolet rays can be further added to the light shielding layer. Usable ultraviolet absorbers include benzophenone-based, benzotriazole-based, triazine-based, oxalic acid anilide-based, and cyanoacrylate-based ultraviolet absorbers. For example, in benzophenone-based, 2-hydroxy-4-methoxybenzophenone, 2-hydroxy-4-methoxybenzophenone-5-sulfonic acid, sodium 2-hydroxy-4-methoxybenzophenone-5-sulfonate, 2,2'-dihydroxy-4,4'-dimethoxybenzophenone, 2,2'-dihydroxy -4,4'-dimethoxybenzophenone-5-sulfonic acid sodium, 2,4-dihydroxybenzophenone, 2,2 ', 4,4'-tetrahydroxybenzophenone. In the benzotriazole system, 2- (2-hydroxy -5-methylphenyl) Zotoriazoru and the like.
[0015]
Examples of substances that absorb, scatter, or diffuse ultraviolet rays and / or visible rays include carbon black, titanium dioxide, zinc oxide, iron oxide, zirconium oxide, cerium oxide, magnesium oxide, chromium oxide, alumina, zeolite, and talc. Powder of kaolin, aluminum silicate, calcium silicate, magnesium silicate, barium silicate, strontium silicate, calcium carbonate, magnesium carbonate, barium sulfate, magnesium sulfate, calcium sulfate, calcium phosphate, iron titanate, metal tungstate, or In addition to silica-cerium oxide-coated pigment and iron oxide-titanium oxide sintered powder, silica beads, nylon, plastic beads such as acrylic resin, and the like can be used.
The above light-shielding substances can be used alone or in combination of two or more. Further, as described above, a layer containing these light-shielding substances can be used. One layer may be used as the light-shielding layer, but a light-shielding layer having a more excellent light-shielding property can be obtained by stacking a plurality of layers such as two layers and three layers to form a light-shielding layer.
[0016]
By adopting such a configuration, the bottle with a shrink label described in claim 1 has a gas barrier property in the bottle body, and the shrink label to be mounted has an excellent light-shielding light-shielding layer on the entire surface thereof. It is possible to provide a printed layer such as a pattern on the outside, and the shrink label covers the area from the base of the mouth / neck of the bottle to the inside of the grounding part at the bottom. As a result, the bottles with a shrink label that is provided with excellent design and light-shielding properties, filled with contents, and sealed are displayed on a display shelf such as a supermarket or CVS for a long time. UV light and visible light can be prevented from being transmitted directly or by reflection from the vicinity of the bottom of the bottle. Such as the suppression of deterioration, it is possible to improve the storage stability of the contents.
[0017]
  Also,Claim1Invention described insoIs a coating layer of a coating liquid in which the light-shielding layer contains at least one of titanium white (titanium oxide) powder and aluminum powder, or both as a light-shielding substance.Stacking multipleFormedIs configured.
[0018]
  By adopting such a configuration,In addition to the above effects,Since the light-shielding layer can have a white or silver color tone, by providing the light-shielding layer on the back side of the print layer such as a pattern, the printing effect of the print layer can be enhanced for a wide range of designs. The design property of the bottle with a label can be further improved.
  Further, the titanium white (titanium oxide) powder and the aluminum powder have excellent performance as a white or silver colorant, and also have excellent performance as a light shielding substance.チ タ ン, Titanium white powder has an excellent ultraviolet blocking property, but has a feature that the visible light blocking property is insufficient. Aluminum powder has an excellent blocking property against both ultraviolet rays and visible light. The film layer has a feature that it is difficult to spread the entire surface uniformly, and fine gaps are easily generated between the powder particles.
  Therefore, when used for the light-shielding layer, either a method of using a mixture of the two, a method of using a plurality of the respective coating layers stacked, or a method of stacking the coating layers of the two in combination, or a combination thereof It is preferable to adopt the above method.
[0019]
  Claim2In the invention described in item 1, the transmittance of ultraviolet rays and visible rays in a wavelength range of 290 to 700 nm of the shrink label is 7% or less.DescribedConsists of bottles with shrink labels.
[0020]
  In this invention, the transmittance | permeability of the ultraviolet-ray and visible light of the said range of 290-700 nm is the value measured with the spectrophotometer [Shimadzu Corporation | KK make, UV-2400PC].
  In order to effectively improve the storage stability of the contents filled in the bottle with a shrink label, it is preferable to reduce the transmittance of ultraviolet rays and visible light in the wavelength range of 290 to 700 nm of the shrink label as small as possible. It is preferable to make it 7% or less. When the transmittance exceeds 7%, a remarkable improvement effect cannot be obtained with respect to the storage stability of the contents, which is not preferable.
  And in order to make the transmittance | permeability of the ultraviolet-ray and visible ray of the wavelength range of 290-700 nm of the said shrink label 7% or less, for example, the content rate of the said light-shielding substance contained in the coating liquid of a light shielding layer is raised. And it can achieve by forming the film thickness of a light shielding layer thickly in the range of 3-20 micrometers, More preferably in the range of 8-15 micrometers.
  When the thickness of the light shielding layer is less than 3 μm, it is difficult to make the transmittance of the ultraviolet rays and visible rays 7% or less, which is not preferable. In addition, when the thickness of the light shielding layer exceeds 20 μm, sufficient light shielding properties for reducing the transmittance of ultraviolet rays and visible light to 7% or less have already been obtained. This is not preferable because it prevents the contraction.
  Therefore, by adopting the configuration as described above, the claim 1Described inIn addition to the effects of the invention, it is possible to suppress UV rays and visible rays in the wavelength range of 290 to 700 nm from entering the shrink-labeled bottle at a low level, thereby further reducing the influence of light on the contents filled in the bottle. It is possible to improve the storage stability of the contents more reliably and effectively.
[0021]
  Also,Claim1Invention described insoThe area of the non-covered portion by the shrink label on the bottom surface of the bottle with the shrink label is 20 cm.²Less thanIs configured to be.
[0022]
  In the present invention, in order to improve the light-shielding property of the bottle and minimize the influence of light on the contents, the transmittance of ultraviolet rays and visible light of the shrink label attached to the bottle is 7% or less, more preferably 1 %, And the area of the non-covered portion of the bottle by the shrink label is preferably as small as possible.
  For example, it is possible to cover the entire surface of the bottle by using a method in which the shrink label is divided and attached to the upper part, middle part and bottom part of the bottle, but there is also an increase in manufacturing cost and appearance problems. Yes, not always a good idea.
  Therefore, in order to improve the light-shielding property of the bottle and improve the shelf life of the contents while maintaining economic efficiency, a one-piece light-shielding shrink label is formed, and the base of the bottle neck and neck is grounded from the bottom to the bottom. It is mounted so as to cover the area up to the inside of the part, and the area of the non-covered part by the shrink label on the bottom surface of the bottle is 20 cm.²In order to achieve this, in the case of a bottle having a general shape, for example, a light-shrinkable shrink label is produced using a heat-shrinkable film having a heat shrinkage rate of 60 to 80%. Is sufficiently feasible.
  AboveBy adopting such a configuration,The invention according to claim 1 described aboveIn addition to the effects, the light transmitted from the periphery of the bottom of the bottle by reflection or the like can be further reduced, and the storage stability of the contents can be further improved.
[0023]
  Claim3The bottle body of the bottle with the shrink label is formed of a resin mainly composed of polyethylene terephthalate or other polyester resin, and the gas barrier property of the bottle body is a multilayer molding, 2. It is provided by means of blend molding, vapor deposition or coating means of two or more kinds of synthetic resins, or a means combining two or more kinds.Or 2It consists of a bottle with a shrink label described in 1.
[0024]
In the case of multilayer molding, the means for imparting gas barrier properties to the bottle body is, for example, an saponified ethylene-vinyl acetate copolymer (hereinafter abbreviated as EVOH) or MXD6 (polymetaxylylene adipamide) in the intermediate layer or the like. The structure which laminated | stacked gas barrier resin layers, such as these, can be taken.
When the means for imparting gas barrier properties is blend molding of two or more synthetic resins, for example, polyethylene terephthalate (hereinafter abbreviated as PET) is blended with a gas barrier resin such as MXD6 to shape the bottle body. By doing so, gas barrier property can be improved. In addition to the gas barrier resin, the oxygen barrier property can be improved by blending an oxygen absorbent with PET.
[0025]
In the case where the means for imparting the gas barrier property is a vapor deposition means, the gas barrier property can be imparted by depositing a metal such as aluminum to a thickness of about 200 to 1000 mm by vacuum deposition or the like. For example, silica, alumina, oxidation, etc. A transparent gas barrier layer is formed by depositing an inorganic oxide such as zinc or amorphous carbon to a thickness of about 200 to 1000 mm by a CVD method or a PVD method such as vacuum deposition, ion plating, or sputtering. It can also be provided.
[0026]
When using a coating means, a gas barrier is formed by coating a thermosetting cross-linked coating film of an aromatic polyepoxy compound and polyhydric amine obtained by reacting meta-xylenediamine and epichlorohydrin, polyvinylidene chloride, EVOH, or the like. Can be improved. When EVOH is coated, gas barrier properties are reduced due to moisture absorption. Therefore, it is preferable to coat a moisture-proof resin such as a polyolefin-based resin thereon.
Any one kind of such gas barrier property improving means may be used, but the gas barrier property can be further improved by combining two or more means.
[0027]
  By adopting the configuration as described above, the claim 1 is used.Or 2In addition to the effects of the invention described in the above, the bottle body is formed of a resin mainly composed of PET, which is excellent in rigidity and other mechanical strength, or other polyester-based resin, and with respect to gas barrier properties, Since more excellent gas barrier properties can be imparted, the preservability of the filled contents can be further improved.
  The means for imparting gas barrier properties as described above is not limited to the resin of which the bottle body is the main component of the polyester-based resin. For example, the main component is a polyolefin-based resin such as high-density polyethylene or polypropylene. Even in the case of the resin, it can be similarly applied, so that excellent gas barrier properties can be imparted to bottles molded using these resins.
[0028]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings.
However, the present invention is not limited to the following drawings unless it exceeds the gist.
1 to 4 are schematic partial cross-sectional views each showing a configuration of an example of a light-shielding shrink label used for a bottle with a shrink label according to the present invention.
Moreover, FIG. 5 is a front view which shows the structure of an example of the bottle main body used for the bottle with a shrink label of this invention.
FIG. 6 is a longitudinal sectional view showing a configuration of an embodiment of a bottle with a shrink label according to the present invention, and shows a configuration when a light-shielding shrink label is attached to the bottle body having the configuration shown in FIG. FIG.
[0029]
The light-shrinkable shrink label 100 shown in FIG. 1 is provided with a printing layer 2 such as a pattern on the inner surface (lower surface in the drawing) of the heat-shrinkable film 1 by gravure printing, The light shielding layer 3 is provided on the entire surface.
When the light-shielding shrink label 100 having such a configuration is attached to a bottle, the edge portions on both sides are usually bonded to each other using a solvent or the like in an envelope-attached form to form a cylindrical body, and then the bottle. It is placed at a predetermined position and is heat-shrinked and attached. Therefore, it is preferable to form the printed layer 2 and the light shielding layer 3 in a pattern in which one end edge portion that becomes a joint portion when the light-shielding shrink label 100 is bonded in a cylindrical shape is removed in a strip shape. This also applies to the light-shielding shrink labels 200 to 400 shown in FIGS.
[0030]
The light-shrinkable shrink label 200 shown in FIG. 2 is provided with a printing layer 2 such as a pattern on the inner surface (lower surface in the drawing) of the heat-shrinkable film 1 by gravure printing or the like, On top of this, the light shielding layer is divided into two layers, a light shielding layer 3a and a light shielding layer 3b, and laminated on the entire surface.
[0031]
The light-shielding shrink label 300 shown in FIG. 3 is provided with a printing layer 2 such as a pattern on the inner surface (lower surface in the drawing) of the heat shrinkable film 1 by gravure printing, etc. On top of that, the light shielding layer is divided into three layers of a light shielding layer 3a, a light shielding layer 3b, and a light shielding layer 3c and laminated on the entire surface.
[0032]
In addition, the light-shielding shrink label 400 shown in FIG. 4 has two light-shielding layers on the outer surface (upper surface in the figure) of the heat-shrinkable film 1, and the light-shielding layer 3b and the light-shielding layer 3a are formed in this manner. The print layer 2 such as a pattern is provided on the entire surface in the order, and the overprint layer 4 for protecting the print layer 2 such as the pattern is provided thereon.
[0033]
Such a configuration shows an example of a configuration in which the printing layer 2 such as a pattern of the light-shielding shrink label 200 having the configuration shown in FIG. The light-shielding shrink labels 100 and 300 having the configuration shown in FIG. 3 can also be configured by changing the printing layer 2 such as a pattern into a surface printing format by the same method.
Further, as another configuration example in the case where the printing layer 2 such as a pattern is provided by changing to the surface printing format, for example, in the configuration of the light-shielding shrink label 400 shown in FIG. The surface (the upper surface in the figure) is provided with only a printed layer 2 such as a pattern and an overprint layer 4 thereon, and the light shielding layer 3a and the light shielding layer 3b are the inner surfaces of the heat-shrinkable film 1. It can also be provided on the (lower surface in the figure).
[0034]
In the configuration of the light-shielding shrink labels 100 to 400 shown in FIGS. 1 to 4, the light-shielding layers 3 and 3 a provided in contact with the back surface of the print layer 2 such as a pattern are designed for the design of the print layer 2 such as a pattern. However, in general, in order to enhance the printing effect, a white to silver color is preferable. Therefore, it is preferable to use a white pigment such as titanium white or a silver light-shielding material such as aluminum powder as the light-shielding material used in the light-shielding layers 3 and 3a. These single or mixed light-shielding materials are used. It is preferable.
[0035]
Further, as in the case of the light-shielding shrink label 100 shown in FIG. 1, the light-shielding layer 3 is provided as a single layer, as well as the light-shielding shrink labels 200 to 400 shown in FIGS. Even in the case of forming two or three layers, in order to improve the light shielding property of the entire light shielding layer, each light shielding layer contains the light shielding substance in a high concentration as long as the coating film can be formed. It is preferable.
For example, in the white ink used for normal gravure printing, titanium white is added in a range of 25 to 35 parts by mass with respect to 10 parts by mass of the binder resin. It is possible to increase the content of titanium white up to a range of 35 to 55 parts by mass with respect to 10 parts by mass of the resin of the binder, thereby reducing the wavelength of the light-shielding shrink label in the range of 290 to 700 nm. The transmittance of ultraviolet rays and visible rays can be more reliably reduced to 7% or less.
Similarly, in the silver ink used for normal gravure printing, the aluminum powder is added in the range of 5 to 10 parts by mass with respect to 10 parts by mass of the resin of the binder. It is possible to increase the content of the powder to 10 to 20 parts by mass with respect to 10 parts by mass of the resin of the binder, thereby adding a light-shielding shrink label with a wavelength of 290 to 700 nm. The transmittance of ultraviolet rays and visible rays in the range can be more reliably reduced to 7% or less.
[0036]
Further, the light shielding layer is made of the light shielding layers 3a, 3b, or the light shielding layers 3a, 3b, 3c as shown in FIGS. As described above, the light shielding layer 3a provided in contact with the back surface of the print layer 2 such as a pattern is preferably a white or silver color, but other light shielding layers 3b, 3c are used. Even if it is a color other than white or silver, it does not impair the printing effect of the printing layer 2 such as a pattern so much, and a colored light-shielding substance can be used for the light-shielding layers 3b and 3c. And it is also easy to reduce the transmittance | permeability of the ultraviolet-ray and visible light of the said wavelength range to 1% or less by it, and can improve the light-shielding property of the light-shielding shrink labels 200-400 remarkably.
[0037]
Next, FIG. 5 is a front view showing a configuration of an example of a bottle body used for the bottle with a shrink label of the present invention.
FIG. 6 is a longitudinal sectional view showing the configuration of an embodiment of the bottle with shrink labels of the present invention, and shows the configuration of an embodiment in which a light-shielding shrink label is attached to the bottle body shown in FIG. It is a longitudinal cross-sectional view.
The bottle main body B shown in FIG. 5 has a shape that is usually produced by plastic stretch blow molding or the like, and is formed from the top by the mouth-and-neck part 10, the shoulder part 11, the trunk part 12, and the bottom part 13 that follows. An example of a round bottle having a circular cross section is shown. And the screw | thread 17 is provided in the upper outer periphery of the mouth-and-neck part 10, and the latching | locking part 18 and the support ring 19 are provided in order under it, and it is below on the outer periphery of the bottom face 14 of the bottom part 13 below. A convex ring-shaped grounding portion 15 is provided, and a multi-stage concave portion 16 is provided inside the grounding portion 15.
Although not shown in the drawing, the wall surface of the body portion 12 may be provided with longitudinal and lateral groove-shaped ribs, a decompression absorbing wall plate portion, and the like in order to stabilize the shape of the bottle. it can.
[0038]
Further, in the bottle with a shrink label shown in FIG. 6, a light-shielding shrink label L is placed on the outer peripheral surface of the bottle body B shown in FIG. It is configured to be mounted so as to cover the region from the bottom to the inside of the grounding portion 15 below the bottom portion 13.
As the light-shielding shrink label L, for example, the light-shielding shrink labels 100 to 400 having the configuration shown in FIGS. 1 to 4 can be used.
In order to attach the light-shielding shrink label L so as to cover the region of the bottle main body B, the cylindrical light-shielding shrink label L is lower than the lower end of the bottle main body B, particularly in the lower part of the bottle. For this purpose, the heat-shrinking device needs to be placed in a state protruding from the lower side. In the case of a round bottle, a device that can be heat-shrinked while rotating the bottle while lying down can be used.
[0039]
【Example】
Hereinafter, the present invention will be described more specifically with reference to examples and comparative examples.
Example 1
A bottle with a shrink label having a structure as shown in FIG. 6 is manufactured. The bottle body B has a capacity of 500 ml, an EVOH layer is used as an intermediate layer, and a polyester resin layer is laminated on both sides to form a gas barrier property. Polyester-based multi-layer stretch blow-molded round bottles with a cross-section are used, and the light-shielding shrink label L has a pattern by gravure printing on the inner surface of a polyester shrink film having a thickness of 60 μm. A three-layer structure formed by solid printing the two high-concentration white inks and one high-concentration silver ink as the light-shielding layer on the print layer (5 colors), etc., with a total thickness of 10 μm The light-shielding shrink label L produced by attaching the light-shielding layer to a cylindrical shape is used, and the shrink label L is attached to the neck 1 of the bottle body B. 7 (in this case, directly below the support ring 19) to cover the area from the bottom 13 to the inside of the grounding portion 15, and the uncovered portion by the shrink label L on the bottom of the bottle is shown in FIG. As shown in (b), the bottom surface is regarded as a flat bottom surface and becomes a substantially circular shape with a diameter of 25 mm, and the area is about 4.9 cm.²The shrink label L was attached so that the bottle with the shrink label of Example 1 was produced.
[0040]
In addition, the transmittance | permeability of the ultraviolet-ray and visible light of the wavelength range of 290-700 nm of the said light-shielding shrink label L is a spectrophotometer [Shimadzu Co., Ltd. product, UV-2400PC] As a result, the transmittance was zero in the wavelength range of 290 to 400 nm, and the transmittance was about 1% even in the wavelength range of 400 to 700 nm.
The light-shielding shrink label L is attached to the bottle after the bottle body B is filled with a commercial can beer as the contents and sealed with a cap.
[0041]
(Example 2)
In the configuration of the bottle with the shrink label of Example 1, the mounting range of the light-shielding shrink label L attached to the bottle body B is set from the base of the bottle neck 10, that is, directly below the support ring 19. In the region from the bottom 13 to the inside of the grounding portion 15, the non-covered portion by the shrink label L on the bottom of the bottle is regarded as a flat bottom as shown in FIG. It becomes a substantially circular shape of 37 mm and its area is approximately 10.7 cm.²A bottle with a shrink label of Example 2 was produced in the same manner as in Example 1 except that the bottle was changed to be.
[0042]
(Example 3)
In the configuration of the bottle with the shrink label of Example 1, the mounting range of the light-shielding shrink label L attached to the bottle body B is set from the base of the bottle neck 10, that is, directly below the support ring 19. In the region extending from the bottom 13 to the inside of the grounding portion 15, the non-covered portion by the shrink label L on the bottom surface of the bottle is regarded as a flat bottom surface as shown in FIG. It becomes a substantially circular shape of 50 mm, and its area is approximately 19.6 cm.²The bottle with the shrink label of Example 3 was produced in the same manner as in Example 1 except that the bottles were changed to be.
[0043]
(Comparative Example 1)
In the configuration of the bottle with the shrink label of Example 1, the mounting range of the light-shielding shrink label L attached to the bottle body B is set from the base of the bottle neck 10, that is, directly below the support ring 19. A region extending to the vicinity of the lower end of the side periphery of the bottom portion 13, the non-covering portion by the shrink label L on the bottom surface of the bottle is regarded as a flat bottom surface, becomes a circle having a diameter of approximately 62 mm, and has an area of approximately 30. 2cm²A bottle with a shrink label of Comparative Example 1 was produced in the same manner as in Example 1 except that the bottle was changed to be.
The mounting range of the light-shielding shrink label L is usually a range equivalent to that called a full shrink label.
[0044]
The bottles with shrink labels of Examples 1 to 3 and Comparative Example 1 produced as described above were subjected to 28 days under the following storage conditions as an accelerated test for comparative evaluation of the effect of improving the storage stability of the contents due to the light shielding properties. The storage condition is tested until the deterioration state of the contents (beer) is measured every 7 days with a color computer (Suga Test Instruments Co., Ltd., SM color computer, C light source, 2 ° field of view). The change in ΔE * value was summarized in the graph of FIG.
At the same time as the above color difference measurement, changes in odor and taste were also examined by a sensory test. In addition, in order to show the example in the case of complete light-shielding, the test sample was tested by adding canned beer as a reference example.
(Conditions for storage test)
Each sample was stored at a storage temperature of 3 ° C. with a fluorescent lamp at an average illuminance of 1800 Lx and irradiated directly from the bottom of the bottle for up to 28 days.
[0045]
〔Evaluation results〕
As is apparent from the graph of ΔE * values shown in FIG. 8, the beer filled in the bottle with the shrink label of Comparative Example 1 has a high ΔE * value of 2.7 after 7 days and 3.8 after 28 days. The beer filled in the bottles with shrink labels of Examples 1 to 3 had a ΔE * value of 0.4 to 1.5 after 7 days and 1 even after 28 days. It was relatively low, 2 to 2.5, color deterioration was small, and storage stability was good.
Also, in the sensory test of smell and taste, the beer filled in the bottle with the shrink label of Comparative Example 1 felt a different smell after 14 days, but the beer filled in the bottle with the shrink label of Examples 1 to 3 Then, even after 28 days, there was almost no change in odor and taste.
[0046]
【The invention's effect】
As described above in detail, according to the present invention, the bottle with a shrink label has a gas barrier property and the shrink label attached to the outside of the bottle has an excellent light shielding property. The printing effect of the printed layer such as the pattern printed on the shrink label is also good, and the shrink label is mounted so as to cover the area from the base of the mouth and neck of the bottle body to the inside of the grounding part at the bottom It can be suitably used for contents that require light shielding properties as well as gas barrier properties. In addition, after the bottle is used, the bottle body and the shrink label can be easily separated, limiting the recycling of the bottle. There is an effect that it is possible to provide a bottle with a shrink label with little productivity with high productivity.
[Brief description of the drawings]
FIG. 1 is a schematic partial cross-sectional view showing a configuration of a first example of a light-shielding shrink label used in a bottle with a shrink label of the present invention.
FIG. 2 is a schematic partial cross-sectional view showing a configuration of a second example of a light-shielding shrink label used in a bottle with a shrink label according to the present invention.
FIG. 3 is a schematic partial cross-sectional view showing a configuration of a third example of the light-shielding shrink label used in the bottle with the shrink label of the present invention.
FIG. 4 is a schematic partial cross-sectional view showing a configuration of a fourth example of a light-shielding shrink label used in a bottle with a shrink label according to the present invention.
FIG. 5 is a front view showing a configuration of an example of a bottle body used in the bottle with a shrink label according to the present invention.
FIG. 6 is a longitudinal sectional view showing a configuration of an embodiment of a bottle with a shrink label according to the present invention.
FIG. 7 is a view for explaining the covering state of the bottom surface of the bottle with the light-shielding shrink label in the bottle with the shrink label of the present invention. The figure which shows an example when the area of an uncovered part is small, (B) is a figure which shows the example when the area of an uncovered part is an intermediate grade, (C) shows the example when the area of an uncovered part is large FIG.
The dimensions shown in the figure (D₁, D₂) Is a numerical value in the case of a round bottle by stretch blow molding of a normal plastic having a capacity of 500 ml, (A) corresponds to Example 1, (B) corresponds to Example 2, and (C) is It is a numerical value corresponding to Example 3.
FIG. 8 is a graph showing storage test results of contents by light irradiation of bottles with beer-packed shrink labels produced in Examples and Comparative Examples.
[Explanation of symbols]
1 Heat shrinkable film
2 Printing layers such as designs
3, 3a, 3b, 3c shading layer
4 Overprint layer
10 mouth and neck
11 Shoulder
12 Torso
13 Bottom
14 Bottom
15 Grounding part
16 recess
17 Screw
18 Locking ring
19 Support ring
21 Bottom circumference
22 Inside line of grounding section
23 Covering part with light-shielding shrink label
24 Edge of light-shielding shrink label
25 Uncovered part
D₁  Bottom outer diameter
D₂  Uncovered part diameter
B Bottle body
L Light-shielding shrink label
100, 200, 300, 400 Light-shielding shrink label

Claims (3)

In the bottle with the shrink label, in which the bottle body is formed by the mouth and neck part to which the cap is attached, and the shoulder part, the trunk part, and the bottom part that follow, and the shrink label is attached to the outside.
The bottle main body has gas barrier properties, and the shrink label includes at least a heat-shrinkable film, a light-shielding layer provided on the entire surface of one of the heat-shrinkable films, and a printing layer such as a pattern. Formed with
The light-shielding layer is formed by stacking a plurality of coating layers of a coating liquid containing at least one of titanium white (titanium oxide) and aluminum powder as a light-shielding substance, or both,
Further, the shrink label is disposed in a state of protruding below the lower end of the bottle body at the lower part of the bottle body and thermally contracted, so that the base part of the bottom of the bottle body is grounded from the base of the mouth and neck of the bottle body. It is mounted so as to cover the area leading to the inside,
Furthermore, the area of the non-coating part by the shrink label on the bottom surface of the bottle main body is 20 cm ² or less.   The bottle with a shrink label according to claim 1, wherein the transmittance of ultraviolet rays and visible rays in a wavelength range of 290 to 700 nm of the shrink label is 7% or less.   The bottle body of the bottle with the shrink label is formed of polyethylene terephthalate or other polyester-based resin as a main component, and the gas barrier property of the bottle body is multilayer molding, two or more kinds of synthetic resins. The bottle with a shrink label according to claim 1 or 2, wherein the bottle is provided by any one of blend molding, vapor deposition, or coating means, or a combination of two or more.

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