JP4501047B2 - Composite polyester film for container lid and cup container using the same - Google Patents

Description

【００５９】
【発明の効果】
本発明の複合ポリエステルフィルムは、中心層に空洞含有層を最外層には空洞を実質上含有しない層を含み、かつ不透明度、見かけ密度、厚みを特定化した多層の複合フィルムであるため、従来の空洞含有ポリオレフィンフィルムや空洞含有ポリエステルフィルム、さらには空洞を含有していないポリエステルフィルム等に比べ、不透明性及び加工時の張力下での熱寸法安定性に優れているため、良好な印刷効果（絵柄・文字判別性）を有する。また、表面強度に優れ、開封時にも劈壊や破れを生じないため、別のフィルムを貼り合わせる必要も無く、特性的にもコスト的にも容器蓋材として好適である。さらに、紙や金属を使用する必要が無いため、包装容器リサイクルのための回収がしやすく、金属探知機による異物検査も行なえるという利点もある。[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a film for a lid material suitable as a cup container for over-the-counter sales such as miso, cup noodles, confectionery, desserts such as yogurt, pudding, jelly, and ice cream, and potion cups such as coffee fresh. The present invention relates to a cup container using
[0002]
[Prior art]
As food cases such as miso, cup noodles, confectionery, desserts such as yogurt, pudding, jelly, ice cream, and potion cups such as coffee fresh, which are generally sold in stores at supermarkets and convenience stores, etc. Cup containers centering on plastic substrates are widely used. This cup container is composed of a container part formed from polyolefin such as polystyrene and polypropylene, polyvinyl chloride, polyethylene terephthalate, and the like, and a lid material heat-sealed on the opening side of the container.
[0003]
Conventionally, as a lid material for a cup container, a composite of a plastic film having paper as a base material and aluminum foil or aluminum deposited thereon has been generally used.
[0004]
However, in recent years, from the viewpoints of environmental protection and resource saving, the promotion of separate collection and recycling has been called out, and the Packaging Container Recycling Law has been enforced. Since then, the review of container materials has become active.
[0005]
An important characteristic required for the lid of the cup container from the viewpoint of functionality is light shielding properties, that is, opaqueness, for protecting the contents from light deterioration. There are many reasons why a plastic film in which an aluminum foil or aluminum is vapor-deposited on an opaque paper base material has been laminated and used in many cases.
[0006]
Furthermore, another reason why these are frequently used is the dead hold property when the lid is opened. The dead hold property refers to a property indicating whether or not the shape of the lid material in a state where the lid material of the cup container is opened can be maintained as it is. That is, the presence or absence of the dead hold property relates to the ease of taking out the contents when opened, for example, the ease of pouring hot water into the cup, and the like.
[0007]
For the reasons described above, composite materials made of paper and aluminum have been widely used in the past. However, as described above, since it is a composite material from the viewpoint of ease of collection for packaging container recycling, paper, There was a big problem that metal and plastic could not be disposed of separately.
[0008]
Furthermore, the metal composite material is a metal detector generally used for product safety (confirm that the contents do not contain foreign objects such as nails and needles) in addition to environmental issues. It is difficult to check foreign matter.
[0009]
In addition, the content of the contents such as miso, yogurt, ice cream, desserts such as ice confectionery is high, and for applications that are refrigerated or frozen, the use of paper as a material is likely to curl or deform due to moisture absorption. The essential problem cannot be solved. For this reason, a method of laminating a plastic film on the surface of paper has been applied. However, this method does not completely solve problems such as curling, and there is a process of laminating a film on both sides of paper. This increases costs due to the increase.
[0010]
In addition, many attempts have been made to change the lid material to a film material only. However, when a normal transparent plastic film is used as a cover material, it is difficult to see the front and back of the contents and instruction manuals, and since there is no concealment, the contents deteriorate due to ultraviolet rays etc. Prone to important problems above.
[0011]
On the other hand, in the case of a white film containing a concealing material such as titanium oxide particles in the film, since the specific gravity of the titanium oxide particles is high, if a large amount is contained in the film from the point of concealment, the cost will be greatly increased. For practical reasons, it has not been used practically.
[0012]
Therefore, it has been studied to apply a white polyolefin-based film, generally called synthetic paper, having an appearance close to paper quality and containing cavities inside the cover material. However, in this case, the above-mentioned problem due to moisture in the paper is solved, but since the base material contains cavities, when the cover material is peeled off from the container, it is torn near the film surface layer of the cover material. As a result, it breaks down and cannot be used practically as it is.
[0013]
Therefore, it is also considered to reinforce the film surface layer of the lid by laminating a transparent plastic film substantially free of voids, such as a biaxially stretched polyethylene terephthalate (hereinafter abbreviated as PET) film, on the surface of the void-containing film. ing. However, in this case, the cost required for the film to be bonded and the laminating process are required, which is not preferable because the cost greatly increases.
[0014]
In addition, when using the white polyolefin-based film, for example, a polypropylene-based void-containing film, as a cover material, because the heat resistance of polypropylene is insufficient, a sealant material for printing or heat sealing is laminated on the film surface. Thermal dimensional change increases. For this reason, there is a problem that the laminate product is easily curled, as well as a cost increase due to a decrease in product yield and a deterioration in productivity.
[0015]
[Problems to be solved by the invention]
In view of the above-described conventional problems, the present invention does not require the use of a material that requires separation, such as paper or metal, and has opacity (light blocking property), surface strength, dead hold property, and heat resistance during processing. It is intended to provide a composite polyester film that is suitable for use as a container lid material, and a cup container that has excellent printing characteristics (pattern / character discrimination) and that does not break when the lid material is opened. .
[0016]
[Means for Solving the Problems]
This invention was made | formed in view of the above situations, Comprising: The composite polyester film for container lid materials which could solve said subject, and a cup container using the same are as follows. .
[0017]
That is, the first invention of the present invention is a composite polyester film comprising two or more layers including at least an A layer and a B layer, wherein the composite polyester film is a polyester film layer (B Layer) and a thermoplastic resin layer (A layer) that is adjacent to the B layer and does not substantially contain voids in the outermost layer, and has an opacity of 0.3 or more and an apparent density of 1.3 g / cm ³ or less, and wherein the thickness of Ri der least 25 [mu] m, and at least the one side printing layer, providing a heat sealing layer comprising a further heat-adhesive resin layer on the a layer side surface of the outermost layer of the composite polyester film It is the composite polyester film for container lid materials.
[0019]
2nd invention is a cup container characterized by the opening part of the cup container which consists of a plastic material being closed with the composite polyester film for container lid materials as described in 1st invention.
[0020]
DETAILED DESCRIPTION OF THE INVENTION
The composite polyester film used for the container lid film of the present invention has fine cavities formed by orienting a polymer mixture in which a polyester and an incompatible thermoplastic resin are mixed with polyester at least uniaxially. A thermoplastic resin substantially free of voids by a so-called coextrusion method in which a layer (A) made of a thermoplastic resin substantially free of an incompatible resin is simultaneously provided on at least one surface of the polyester layer (B) contained. It is obtained by laminating the layer (A). In particular, a void-containing polyester film laminate in which the void content contained from the surface to 3 μm is 8% by volume or less and the average void content of the entire film is 10% by volume to 50% by volume is preferably used.
[0021]
Furthermore, the layer (A) made of a thermoplastic resin substantially free of voids is preferably a polyester resin, and more preferably a PET resin. The thickness of the A layer is preferably 3 μm or more, particularly preferably 5 μm or more. When the thickness of the A layer is less than 3 μm, it is not possible to sufficiently prevent the breakage that occurs when the cover material is peeled off. On the other hand, the upper limit of the thickness of the A layer is not particularly limited, but the paper quality effect by the void-containing polyester film layer (B layer), the suitability for secondary processing such as printing, the cushioning property affecting the texture, and the density of the entire film. Therefore, it is not practical to set the thickness to 10 μm or more.
[0022]
In addition, when the void content included from the film surface to 3 μm exceeds 8% by volume, it is not preferable because the film surface easily breaks when the cover material is peeled off.
[0023]
For example, the polyester resin constituting the B layer of the present invention and a polymer mixture obtained by mixing an incompatible thermoplastic resin with the polyester resin are, for example, 1) extruded after being mixed with chips of each resin, melt-kneaded in an extruder 2) A method in which both resins are kneaded in advance by a kneader and melt-extruded from an extruder and solidified. 3) Incompatible thermoplastic resin is added to the polyester resin in the polyester resin polymerization step. It can also be obtained by a method of melting and extruding chips obtained by stirring and dispersing and solidifying.
[0024]
A coloring agent, a light fastness agent, a fluorescent agent, an antistatic agent, and the like can be added to the polymer mixture depending on the application. The resulting polymer mixture can be further stretched between rolls with different speeds (roll stretching), stretched by gripping with a clip (tenter stretching), or stretched by air pressure (inflation stretching). The orientation treatment is performed in at least one axial direction by the above. By performing the orientation treatment, separation occurs at the interface between the polyester and the polyester and the incompatible void-generating agent, and the void is developed.
[0025]
Therefore, the content of the thermoplastic resin that is incompatible with the polyester resin to be mixed with the polyester resin varies depending on the desired amount of cavities, but should be 3 to 40% by weight based on the entire polymer mixture. Is preferred. If it is less than 3% by weight, there is a limit to increasing the amount of cavities generated, and it is difficult to obtain the desired flexibility, lightness, and drawability. On the other hand, when it exceeds 40% by weight, the heat resistance and strength of the polyester film tend to be remarkably impaired.
[0026]
The conditions for orienting the polymer mixture are closely related to the formation of cavities. That is, as a condition for achieving the object of the present invention, a sequential biaxial stretching method that is most commonly performed as a method for producing a biaxially stretched film is given as an example. In the case of the sequential biaxial stretching method in which an unstretched sheet of the polymer mixture is roll-stretched in the longitudinal direction and then tenter-stretched in the width direction, the following conditions are employed. In roll stretching, in order to generate many cavities, the temperature is preferably Tg to Tg + 30 ° C. of the polyester, and the stretching ratio is preferably 1.2 to 5 times. In the tenter stretching, in order to form a stable film without breaking, it is preferable that the stretching temperature is 80 to 140 ° C. and the stretching ratio is 1.2 to 5 times. The void-containing polyester film that has been stretch-oriented can be improved in dimensional stability at a high temperature when subjected to heat setting at 130 ° C. or higher, preferably 180 ° C. or higher. Furthermore, relaxation treatment may be used in combination in the vertical direction and the horizontal direction.
[0027]
In the present invention, a so-called composite film in which a surface layer (A layer) and a center layer (B layer) are laminated must be used. The method is not particularly limited. However, in consideration of productivity, the lamination by the so-called co-extrusion method, in which the raw material of the surface layer and the central layer is extruded from separate extruders and led to one die to obtain an unstretched sheet, is oriented at least uniaxially. preferable.
[0028]
The void-containing polyester film thus obtained has a void content of 8% by volume or less contained in a layer from the surface to a depth of 3 μm and an average void content of the entire film of 10% by volume or more. preferable. When the void content of the surface layer from the surface to a depth of 3 μm is more than 8% by volume, it is difficult to obtain a material having excellent surface strength, and the layers are easily broken as described above. The void content of the surface layer from the surface to a depth of 3 μm is particularly preferably 4% by volume or less. Further, even when the void content is 8% by volume or less, even when the thickness of the surface layer portion is thinner than 3 μm, a material having excellent surface strength cannot be obtained. Therefore, it is most preferable that the surface layer of the A layer having a smaller void content than the central portion has a thickness of 3 μm or more and the void content in the A layer of the surface layer is 4% by volume or less.
[0029]
Furthermore, the composite polyester film as a whole preferably has an average void content of 10% by volume or more. When the average void content is less than 10% by volume, the flexibility unique to the void-containing polyester film is insufficient, and the texture and cushioning properties are also insufficient, which is not preferable.
[0030]
The composite polyester film of the present invention needs to have an opacity of 0.3 or more, an apparent density of 1.3 g / cm ³ or less, and a thickness of 25 μm or more.
[0031]
When the opacity of the composite polyester film is less than 0.3, when used as a lid for cup containers, it is difficult to distinguish between the printed contents of the front and back, and the design effect as a lid is poor and the contents of the cup container It is not preferable because the protective property against ultraviolet deterioration of an object, that is, the light blocking property is poor. The opacity of the film is preferably 0.6 or more.
[0032]
When the apparent density of the composite polyester film exceeds 1.3 g / cm ³ , cushioning properties and paper texture are poor, and processing characteristics such as punching properties are deteriorated, which is not preferable. The apparent density is preferably 0.8 to 1.2 g / cm ³ .
[0033]
When the film thickness of the composite polyester film is less than 25 μm, the waist and strength as a lid material are insufficient, so that it cannot be put into practical use. The film thickness is preferably 50 μm or more, particularly preferably 75 μm or more. The upper limit of the film thickness is not particularly limited, but about 250 μm is practical from the viewpoints of handleability and cost.
[0034]
In the film lid of the present invention, it is necessary to laminate a thermoplastic resin A layer substantially free of cavities on at least one side of the polyester B layer containing fine cavities. Either a two-layer structure or a three-layer structure of A / B / A may be used. In the case of a three-layer structure, the outer layer A may have the same type of resin composition or different types as required, as long as the object of the present invention is satisfied. In addition, the A layer is not necessarily one layer. Of course, in some cases, the A layer resin which does not substantially contain a cavity may be stacked on the A layer to form a layer structure of three or more layers. In order to impart slipperiness, adhesiveness, printability, concealability, antistatic properties and other functionalities to the surface layer resin to be combined, various additives such as surfactants, inorganic / Of course, various organic particles, wax, thermoplastic resin as the third component, etc. may be added. Furthermore, if necessary, various additional functional improvements such as improvement of printability on the surface of the layer A, improvement of adhesion with the heat-adhesive resin, addition of antistatic property, and addition of antifouling property and glazing. Therefore, various resins and treatment agents can be coated.
[0035]
The composite polyester film obtained as described above is particularly suitable as a lid for cup containers. When the composite polyester film is used as a lid for a cup container, it needs to be closed by adhering the dome opening and the lid to enclose the contents of the cup container.
[0036]
As a method of bonding the two, a heat bonding method called heat sealing is usually used in an automatic container wrapping machine or the like. Specifically, it is bonded by laminating a heat-meltable resin on the lid material side and heating the contact surface with the molding container. Examples of such heat-adhesive resins include polyethylene, polypropylene, and other olefinic resins such as homopolymers or copolymers, mixtures, polyvinyl acetate, ethylene vinyl acetate copolymers, vinyl chloride / vinyl acetate copolymers, chlorides, and the like. Various vinyl polymers such as vinyl / vinylidene chloride copolymer, acrylate ester / vinyl chloride copolymer, etc., and urethane copolymers,
A polyester-based copolymer or the like is appropriately selected according to use conditions.
[0037]
As a method of laminating such a heat-adhesive resin on the composite polyester film for lids, 1) extrusion coating method or extrusion lamination in which the heat-adhesive resin is extruded onto the composite polyester film for lids by a melt extruder. A known method such as a method or 2) a method of applying a heat-adhesive resin in a molten state at a high temperature by a method such as a die coating method or a gravure roll coating method can be arbitrarily applied.
[0038]
The thickness of the heat-adhesive resin layer varies depending on the purpose, such as the required properties such as adhesive strength depending on the type, size, weight, etc. of the contents to be packaged in the cup container. Although selected, the thickness of the heat-adhesive resin layer is usually about 5 to 80 μm.
[0039]
For example, in the case where the container contents are relatively heavy, such as miso, a high sealing strength between the lid / container is often required. It is laminated with a thickness of about 60 μm.
[0040]
When the content is relatively light like a snack confectionery, a hot melt resin made of an ethylene-vinyl acetate copolymer is applied by about 30 μm by a gravure coating method.
[0041]
Usually, the lid for a cup container is printed on the surface of the lid for the purpose of describing the contents or for the design effect. As the printing method, any method can be adopted from offset printing, gravure printing, screen printing and the like depending on the thickness, size, continuous or sheet-fed, etc., but continuous gravure printing is most commonly used. In general, after printing on the composite polyester film for a lid, the thermal adhesive resin is laminated on the opposite surface. Therefore, the method of continuously laminating the heat-adhesive resin layer after gravure printing is the most efficient and advantageous in terms of cost.
[0042]
In addition, from the viewpoint of content protection, when characteristics such as oxygen barrier properties are required, for example, a metal foil such as aluminum or a plastic film on which a metal or inorganic oxide is deposited is bonded by a dry laminating method or the like. Is preferred. However, from the viewpoint of foreign matter inspection with a metal detector for container recycling and safety as described above, inorganic oxides such as silicon oxide, alumina, or composite oxides thereof are more than metal foil and metal vapor deposition film. A vapor-deposited composite polyester film is most preferably used.
[0043]
In the case of using such a deposited film by laminating, it is generally the most preferable embodiment to have a configuration in which the film is laminated between the composite polyester film for a lid material and a heat-adhesive resin layer.
[0044]
【Example】
EXAMPLES Hereinafter, although an Example demonstrates this invention in detail, naturally this invention is not limited to embodiment described in an Example. Moreover, the various evaluation items in an Example and a comparative example were performed with the following method.
[0045]
(1) Polyester raw material (or polyester film) is dissolved in a mixed solvent of 60% by weight of intrinsic viscosity phenol and 40% by weight of tetrachloroethane, and the solid content is substantially filtered with a glass filter, and then at 30 ° C. It was measured.
[0046]
(2) The apparent density film is accurately cut into a 10 cm × 10 cm square, and its thickness is measured at 50 points to obtain an average thickness t (μm). Next, the weight of the sample was measured to 0.1 mg and set to W (g), and the value calculated by the following formula was set as the apparent density.
Apparent density (g / cm ³ ) = (W / t) × 100
[0047]
(3) Opacity Macbeth densitometer TR-972 type was used, and the optical density of the film by transmission under a G filter was measured.
[0048]
(4) Thermal dimensional change rate under tension Assuming temperature and tension during printing and hot melt processing, the film is subjected to heat treatment at 80 ° C. and 120 ° C. for 30 minutes by applying a tension of 20 kgf / m width, and the film before and after heat treatment The dimensional change rate in the length direction was measured. The display was obtained by the following formula, assuming that the elongation (the length after the heat treatment was longer than that before the heat treatment) was + and the shrinkage (the same length was shortened) was-.
Dimensional change rate during heating (%) = (length after treatment / length before treatment) × 100
[0049]
(5) As a model for evaluating thermal adhesion between an openable container and a lid film, the thermal adhesive resin layer surfaces of various films for lid materials produced in Examples and Comparative Examples were applied to an unstretched PET sheet having a thickness of 200 μm. The samples were stacked and heat-sealed at 120 ° C. (hot plate surface temperature) for 2 seconds to obtain a sample for evaluation of openability. Subsequently, when the lid material film thermally bonded to the container was peeled off at high speed by hand, the following three stages were evaluated according to the state of occurrence of breakage and tearing of the lid material.
○: The cover material is broken and peels clean without tearing Δ: The cover material is partially broken ×: The cover material is not completely peeled off and is torn [0050]
(6) Printing effect Character printing with gravure ink was performed on one side of the film for a lid material, and pattern printing was further performed on the opposite side, and the character discrimination property when watermarked on a fluorescent screen was visually determined.
○: Characters and designs can be clearly discriminated from each other. Δ: Characters can be discriminated, but some characters and designs seem to overlap. ×: Characters and designs overlap, making it difficult to distinguish front and back prints.
Example 1
As a raw material of the B layer, 80% by weight of PET resin having an intrinsic viscosity of 0.62 dl / g, 15% by weight of polystyrene resin having a melt flow index of 2.0 g / 10 min, and 5% by weight of anatase type titanium dioxide having an average particle size of 0.3 μm As a raw material for layer A, 95% by weight of PET resin and 5% by weight of rutile titanium dioxide having an average particle size of 0.3 μm were melt-extruded at 290 ° C. from a T-die with a separate twin screw extruder, Thus, an unstretched sheet having a thickness configuration of each layer of A / B / A = 50/730/50 (unit: μm) and a thickness of 830 μm was obtained. Next, the unstretched sheet was stretched 3.5 times in the longitudinal direction at 83 ° C. with a roll stretching machine, continuously stretched 3.4 times in the transverse direction at 130 ° C. with a tenter, and relaxed by 4% at 235 ° C. Heat treatment was performed to obtain a biaxially stretched composite polyester film containing a large number of cavities inside.
[0052]
The thickness of the obtained biaxially stretched composite polyester film was 75 μm, and the thickness of each layer was B / A / B = 4.5 / 66 / 4.5 (unit: μm). The overall average void content of the obtained composite film was 21% by volume. Further, there was a portion with few cavities from the surface layer to a depth of about 5 μm. The resulting void-containing composite polyester film had an opacity of 0.72 and an apparent density of 1.10 g / cm ³ .
[0053]
After performing corona discharge treatment on both surfaces of the surface of this composite polyester film, gravure ink (Toyo Ink Mfg. Co., Ltd., PANN color) is used, and on one side the pattern / characters / barcode are printed at a speed of 40 m / min. Gravure printed. Next, a heat-melting polyethylene heat-adhesive resin is laminated on the surface opposite to the printed surface by an extrusion method so as to have a thickness of 40 μm (35 g / m ² ), and a heat-adhesive lid material film A sample was obtained. The obtained results are shown in Table 1.
[0054]
Example 2
The total thickness of the unstretched sheet is 1100 μm, the total thickness of the film after biaxial stretching and heat treatment in the longitudinal and transverse directions is 100 μm, and the thickness configuration of each layer is A / B / A = 5/90/5 (unit : Μm) A heat-adhesive lid material film sample was obtained in the same manner as in Example 1 except that each condition was adjusted to be. The opacity of the void-containing composite polyester film before printing and application of the heat-adhesive resin was 0.97, and the apparent density was 1.11 g / cm ³ . The obtained results are shown in Table 1.
[0055]
Comparative Example 1
Except that only the raw material of layer B was extruded from one type of extruder into a T-die to obtain a single layer sheet, and the thickness after stretching was adjusted to be a single layer void-containing polyester film of 75 μm. In the same manner as in No. 1, a heat-adhesive lid material film sample was obtained. The average void content of the void-containing polyester film before printing and application of the heat-adhesive resin was 23% by volume, the opacity was 0.73, and the apparent density was 1.08 g / cm ³ . The obtained results are shown in Table 1.
[0056]
Comparative Example 2
A heat-adhesive lid material film sample in the same manner as in Example 1 except that a void-containing polyolefin-based film (manufactured by Oji Oil Chemical Co., Ltd., Yupo) having a thickness of 80 μm was used as the lid film. Got. The opacity of the void-containing film before printing and application of the heat-adhesive resin was 0.71, and the apparent density was 0.70 g / cm ³ . The obtained results are shown in Table 1.
[0057]
Comparative Example 3
A thermoadhesive lid material in the same manner as in Example 1 except that a transparent biaxially stretched PET film (E5100, manufactured by Toyobo Co., Ltd.) that does not contain a cavity having a thickness of 75 μm was used as the lid film. A film sample was obtained. The opacity of the film before printing and application of the heat-adhesive resin was 0.04, and the apparent density was 1.40 g / cm ³ . The obtained results are shown in Table 1.
[0058]
[Table 1]

[0059]
【The invention's effect】
The composite polyester film of the present invention is a multilayer composite film that includes a void-containing layer in the center layer and a layer that does not substantially contain voids in the outermost layer, and is a multilayer composite film in which opacity, apparent density, and thickness are specified. Compared to the void-containing polyolefin film, void-containing polyester film, and polyester film that does not contain voids, it has excellent opacity and thermal dimensional stability under tension during processing. (Picture / character discrimination). Moreover, since it is excellent in surface strength and does not break or tear even when opened, it is not necessary to attach another film, and is suitable as a container lid material in terms of characteristics and cost. Furthermore, since there is no need to use paper or metal, there is an advantage that it is easy to collect for recycling the packaging container and foreign matter inspection can be performed by a metal detector.

Claims (2)

A composite polyester film composed of two or more layers including at least an A layer and a B layer,
The composite polyester film includes a polyester-based film layer (B layer) containing fine cavities and a thermoplastic resin layer (A layer) adjacent to the B layer and substantially free of cavities in the outermost layer,
And opacity not less than 0.3, apparent density 1.3 g / cm ³ or less state, and are the 25μm or more thick,
A composite polyester film for container lids, wherein a printed layer is provided on at least one surface of the composite polyester film, and a heat seal layer comprising a heat-adhesive resin layer is provided on the outermost layer A side surface. . An opening of a cup container made of a plastic material is closed with the composite polyester film for container lid material according to claim 1 .