JP6094169B2 - Liquid paper container - Google Patents

Description

  The present invention relates to a liquid paper container.

  Liquid paper containers used for liquid contents of foods and non-foods are widely used for liquid drinks such as fruit juice drinks, juices, teas, coffees, milk drinks, soups, and alcoholic beverages such as sake and shochu. This liquid paper container is made of a laminated material in which a sealant layer made of thermoplastic resin is provided on the paper layer and the inner surface of the paper layer, and an aluminum foil, an aluminum vapor deposition film, or an inorganic oxide vapor deposition is provided between the paper layer and the sealant layer. There is a film provided with a barrier layer such as a film (for example, Patent Document 1).

  In recent years, empty containers have been dismantled at the time of disposal by separating and collecting empty containers after use and reducing the volume of waste due to environmental conservation problems. In addition, there is a gable roof-shaped roof plate with a stopper, but since the stopper is firmly welded, in order to separate this stopper, the top seal part is opened, scissors, etc. It was difficult except to cut around the plug and separate it.

  However, the above-described conventional liquid paper container has a strong seal by heat-sealing the top seal part when disassembling the used empty container, so the container is disassembled by opening the top seal part by hand. There were things that were difficult.

  This is because the top seal portion of the liquid paper container seals in a state where the folded laminate is in contact with it, so that a gap is likely to occur. A good polyethylene resin is used, and it is sealed at a high temperature and a strong pressure so as to fill a gap and completely seal it.

  This is because the sealing strength is increased. If the sealing temperature is lowered or the pressure is weakened in order to weaken the sealing strength, there is a risk that sealing will be incomplete and liquid leakage will occur.

  Therefore, instead of opening the top seal part, scissors are cut from the opening part of the plug, and the empty container is disassembled, but it is extremely difficult to cut the hard plug with the scissors. There is a method that is not suitable for those who are weak.

  On the other hand, in milk such as chilled circulation, a mouth plug is not provided, but in order to open the top seal part, a substance having a function of reducing the sealing effect is applied to the top seal part, and a weakened seal part is provided. It has become common to make it easy to peel off (for example, Patent Document 2).

  Such a method is also used for disassembling an empty container for a liquid paper container used for contents expected to be stored for a long period of time (Patent Document 3).

  Known documents are shown below.

JP 2003-335362 A Japanese Patent Publication No. 6-41300 Japanese Patent Laid-Open No. 10-278928

  However, it is a means for applying a substance having a function of reducing the sealing effect as in patent documents, and it is not stable to weaken the sealing by heat sealing of the top seal part, and liquid paper used for contents stored for a long time In a container, anxiety remains in the sealing performance, and it is difficult to easily open the top seal portion with human hands only by this means, and further improvement is desired.

  The present invention has been made in view of the above problems, and has a stable sealing property that does not cause anxiety in sealing at the time of box making. It is an object of the present invention to provide a liquid paper container that can be opened and can be easily disassembled, reduced in volume, and discarded.

The invention of claim 1 of the present invention is a liquid paper obtained by boxing a laminate in which at least an outer thermoplastic resin layer is formed as an outermost layer, an inner thermoplastic resin layer is formed as an innermost layer, and a paper layer is laminated in the middle. A container,
The inner thermoplastic resin layer has a polyethylene resin layer, an easy peel resin layer obtained by blending polyethylene with a thermoplastic elastomer in a blending ratio of 5 to 50% by weight, and a polyethylene resin layer on the wetted surface side. A liquid paper container having a multilayer structure.

The invention according to claim 2 of the present invention is characterized in that the thermoplastic elastomer is a modified ethylene / α-olefin copolymer, polybutene-1, polymethyl-1-pentene, polyhexene 1, polyoctene 1, styrene / isoprene copolymer, styrene / isoprene copolymer, isobutylene copolymers, and their hydrogenated products, or polystyrene, a liquid paper container according to claim 1, characterized in der Rukoto least one or more of the cyclic olefin copolymer.

The invention of claim 3 of the present invention, the easy-peel resin layer is a liquid paper container according to claim 1 or 2 thermoplastic elastomer is characterized that you have become dispersed island structure in polyethylene .

Liquid paper container of the present invention, the inner thermoplastic resin layer, and the port Riechiren resin layer, and the easy peel resin layer obtained by blending a thermoplastic elastomer Po Riechiren, since they have a polyethylene resin layer on the sealing surface, When making a box, it has a stable sealing without worrying about sealing performance. When discarding empty containers after use, the top seal can be easily opened by hand, and it can be easily disassembled to reduce the volume. Can be discarded.

  Further, in a liquid paper container to which a cap is attached, if the cap is an internal plug that is sealed and attached to the inside of the container, the inner sheet of the thermoplastic resin layer having the easy peel resin layer is used. Since it is a seal, it can be removed.

It is explanatory drawing which showed typically the laminated body used for 1st Embodiment of the liquid paper container of this invention with the cross section. (A) It is explanatory drawing which showed typically the reference example of the inner side thermoplastic resin layer of the laminated body used for 1st Embodiment of the liquid paper container of this invention in the cross section. (B) (C) It is explanatory drawing which showed typically the example of the inner side thermoplastic resin layer of the laminated body used for 1st Embodiment of the liquid paper container of this invention in the cross section. It is explanatory drawing which showed typically an example of the shape of the liquid paper container of this invention. It is explanatory drawing which showed typically the blank of an example of the shape of the liquid paper container of this invention. It is explanatory drawing which showed typically the other example of the shape of the liquid paper container of this invention. (A) The top portion is a flat roof type liquid paper container. (B) The top is a one-roof type liquid paper container. It is explanatory drawing which showed typically a mode that the top seal part of an example of the liquid paper container of this invention was opened. It is explanatory drawing which showed typically the part of the stopper which the example of the liquid paper container of this invention was attached in the cross section.

<First Embodiment>
Hereinafter, a first embodiment for carrying out the present invention will be described.
FIG. 1 is an explanatory view schematically showing a cross section of a laminate used in the first embodiment of the liquid paper container of the present invention, and FIG. 2A is a first embodiment of the liquid paper container of the present invention. It is explanatory drawing which showed typically the reference example of the inner side thermoplastic resin layer of the laminated body used for a cross section, (B) (C) is the laminated body used for 1st Embodiment of the liquid paper container of this invention. It is explanatory drawing which showed typically the example of the inner side thermoplastic resin layer in the cross section.

  As shown in FIG. 1, the laminated body 100 used in the liquid paper container of the first embodiment includes an outer thermoplastic resin layer 1, a paper layer 2, an adhesive resin layer 3, a barrier layer 4, and the like from the outer surface side of the liquid paper container. An adhesive layer 5 and an inner thermoplastic resin layer 6 are sequentially laminated. Moreover, you may provide a printing layer in the outer surface of the outer side thermoplastic resin layer 1 as needed.

  For the outer thermoplastic resin layer 1 constituting the laminate 100 used in the liquid paper container of the first embodiment, a thermoplastic resin such as low density polyethylene or linear low density polyethylene is preferably used. You may add various additives, such as antioxidant, a tackifier, a filler, and various fillers, to these thermoplastic resins as needed. However, the thermoplastic resin of the outer thermoplastic resin layer 1 is preferably a resin that can be heat-sealed with the inner thermoplastic resin layer 6 described later.

As the paper layer 2, a paperboard such as milk carton base paper is usually used. The basis weight and density are appropriately selected depending on the capacity and design of the container. Usually, paper having a basis weight of 200 to 500 g / m ² and a density of 0.6 to 1.1 g / cm ³ is preferably used.

  The adhesive resin layer 3 is a layer made of a thermoplastic resin such as a polyethylene resin. The thickness is usually in the range of 10 μm to 60 μm. If it is less than 10 μm, sufficient adhesive strength cannot be obtained.

  Specifically, ethylene-based resins such as low-density polyethylene and linear low-density polyethylene, polypropylene, and ethylene / α, β-unsaturated carboxylic acids such as ethylene / acrylic acid copolymers and ethylene / methacrylic acid copolymers. Acid copolymers, esterified products of ethylene / α, β unsaturated carboxylic acid copolymers such as ethylene / methyl acrylate, ethylene / ethyl acrylate, ethylene / methyl methacrylate, ethylene / ethyl methacrylate, Ionic cross-linked products of ethylene / α, β unsaturated carboxylic acid copolymer cross-linked with sodium ion or zinc ion, such as ethylene / maleic anhydride graft copolymer or ethylene / ethyl acrylate / maleic anhydride Anhydride-modified polyolefins such as terpolymers, ethylene glycy Epoxy compound-modified polyolefins, such as methacrylate copolymers, single resin selected from ethylene-vinyl acetate copolymer, or provided by such a mixture of two or more selected from these.

As the barrier layer 4, a laminated film in which an aluminum foil is laminated on a base film, or a vapor deposited film in which a metal such as aluminum or tin, or a metal oxide such as silica or alumina is vapor-deposited on the base film is used.

  As the base film used for the barrier layer 4, a resin film such as polyethylene terephthalate, nylon, or polypropylene is used. In particular, a polyethylene terephthalate resin film is preferably used. In addition, a biaxially stretched resin film is preferably used because it has less expansion and contraction during bonding and vapor deposition.

  The thickness of the aluminum foil is preferably 5 to 15 μm, and the thickness of the vapor deposition layer is preferably 5 to 100 nm. In addition, a substrate film having a thickness of 6 to 25 μm is preferably used. When laminated, the aluminum foil or the vapor deposition layer may be on the adhesive resin layer 3 side or on the opposite side.

  The adhesive layer 5 may be an extruded resin layer or a laminating adhesive. As the extrusion resin, a thermoplastic resin such as a polyethylene resin can be used as in the case of the adhesive resin layer 3. The thickness is usually in the range of 5 μm to 20 μm. In addition, as a laminating adhesive, a urethane two-component curable dry laminating adhesive (including a solvent-free adhesive) can be used. The dry coating amount is preferably 0.5 to 5.0 μm.

  The inner thermoplastic resin layer 6 has an easy peel resin layer 6a in which a thermoplastic elastomer is blended with polyethylene, and a polyethylene resin layer 6b on the liquid contact surface side that comes into contact with the liquid of the contents as the inner surface of the container.

  The easy peel resin of the easy peel resin layer 6a is a mixed resin of the first component polyethylene and the second component thermoplastic elastomer, and has a sea-island structure in which the thermoplastic elastomer is dispersed in the polyethylene.

  As the polyethylene, low density polyethylene, linear low density polyethylene, medium density polyethylene, high density polyethylene and the like can be used. Moreover, the compounding quantity of a thermoplastic elastomer is 5 to 50 weight% with respect to easy peel resin.

  If it is less than 5% by weight, the sealing strength becomes strong and the easy peel property cannot be obtained. On the other hand, if it exceeds 50% by weight, a good sea-island structure cannot be obtained, and stable easy peel properties cannot be obtained.

  The thermoplastic elastomer includes modified ethylene / α-olefin copolymer, polybutene-1, polymethyl-1-pentene, polyhexene 1, polyoctene 1, styrene / isoprene copolymer, styrene / isobutylene copolymer, and hydrogenation thereof. Or at least one of polystyrene and cyclic olefin copolymer.

As the polyethylene resin layer 6b, low-density polyethylene, linear low-density polyethylene, medium-density polyethylene, high-density polyethylene, and the like can be used in the same manner as the polyethylene used for the easy peel resin layer 6a. Particularly preferably, linear low-density polyethylene having a density of 0.925 g / cm ³ or less and MI of 4 or more can be suitably used.

  The layer structure of the inner thermoplastic resin layer 6 may be a two-layer structure of an easy peel resin layer 6a and a polyethylene resin layer 6b on the liquid contact surface side as shown in FIG. Further, as shown in FIG. 2B, another polyethylene resin layer 6c may be provided on the side of the adhesive layer 5 of the easy peel resin layer 6a to form a three-layer structure.

  Furthermore, as shown in FIG. 2 (C), another polyethylene resin layer 6c and an easy peel resin layer 6a are repeatedly provided alternately, and a multilayer structure in which the polyethylene resin layer 6b is provided on the liquid contact surface side. good. In short, it is only necessary to have the easy peel resin layer 6a and the polyethylene resin layer 6b on the liquid contact surface side that becomes the inner surface of the container and contacts the liquid of the contents.

  Thus, since the layer structure of the inner side thermoplastic resin layer 6 is the structure which provided the polyethylene resin layer 6b on the liquid-contacting surface side, when sealing the top seal part etc. of a liquid paper container, the surface of the polyethylene resin layer 6b Therefore, stable sealing can be performed without worrying about sealing performance.

  Further, since the easy peel resin layer 6a is provided, when the empty container after use is discarded, the top seal portion can be easily opened by hand, and can be easily disassembled, reduced in volume and discarded.

  As thickness of the inner side thermoplastic resin layer 6, 30-100 micrometers is preferable. Of these, the thickness of the easy peel resin layer 6a is preferably 5 μm or more. The inner thermoplastic resin layer 6 can be formed by a T-die casting method or an inflation method.

  The printing layer provided on the outer surface of the outer thermoplastic resin layer 1 as necessary is a layer containing a pattern, product information, and the like that can be applied by a method such as gravure printing or offset printing using a known ink. In order to improve the adhesion of the ink, usually, an easy adhesion treatment such as a corona treatment is performed on the outer surface of the outer thermoplastic resin layer 1.

  The laminated body 100 used for the liquid paper container according to the first embodiment has been described above. However, the laminated body 100 used for the liquid paper container according to the present invention is required as a liquid paper container in consideration of the use as the liquid paper container. For the purpose of improving the rigidity, durability and the like, a configuration in which another layer is interposed in the above configuration may be used.

  Hereinafter, the manufacturing method of the laminated body 100 used for the liquid paper container of 1st Embodiment is demonstrated.

  First, the barrier layer 4 and the inner side thermoplastic resin layer 6 are laminated | stacked through the contact bonding layer 5, and an interior film is created.

  The paper layer 2 is prepared, the adhesive resin layer 3 is provided by extruding from one side of the paper layer 2 from the T die, and the surface provided with the barrier layer 4 of the interior film is pressure-bonded to the molten resin surface of the adhesive resin layer 3, Then, the outer thermoplastic resin layer 1 is provided on the opposite surface of the paper layer 2 by extruding it from the T-die to produce the laminate 100 used for the liquid paper container of the first embodiment.

  In order to strengthen the adhesion between the barrier layer 4 and the adhesive resin layer 3, corona treatment, ozone treatment, anchor agent application, or the like may be performed.

  When a printing layer is provided on the outer surface of the outer thermoplastic resin layer 1, a corona treatment is performed on the outer thermoplastic resin layer 1 surface. The corona treatment is preferably performed immediately after the outer thermoplastic resin layer 1 is provided by being extruded from the T die. Then, a printing layer can be provided in the corona treatment surface of the outer side thermoplastic resin layer 1 with a printing machine.

The shape of the liquid paper container of the present invention will be described below.
FIG. 3 is an explanatory view schematically showing an example of the shape of the liquid paper container of the present invention.
FIG. 4 is an explanatory view schematically showing a blank as an example of the shape of the liquid paper container of the present invention.

  In the liquid paper container 101 of this example, a laminated body used for the liquid paper container of the present invention such as the laminated body 100 is punched at the same time as pressing the crease, and the liquid paper container of this example as shown in FIG. A blank 102 for 101 is created. The blank paper 102 is bent along a crease, assembled, and necessary portions are heated and fused, whereby the liquid paper container 101 of this example is manufactured.

  As shown in FIG. 3, the liquid paper container 101 of the present example is a rectangular tube in which four face plates of a back plate 24 and a left side plate 21 are sequentially provided on the opposite sides of the front plate 22 and the right side plate 23. A trunk portion 20, a gable roof-shaped top portion 10 having an inclined upper surface formed at an opening end portion above the trunk portion 20, and a bottom portion 30 formed at an opening end portion below the trunk portion 20. ing.

  The top portion 10 is provided with a pair of roof plates 11 and 11 connected above the front plate 22 and the back plate 24, respectively, and above the left side plate 21 and the right side plate 23, a triangle connected to each other. Folding pieces 12 and 12 having a shape are provided, and are connected to the folding pieces 12 and 12, and a pair of folded pieces 13, 13, 13, and 13 connected to the roof plate 11 and 11 are provided. .

  The folded pieces 12, 12 are folded inward, and the pair of folded pieces 13, 13, 13, 13 are folded outward at the boundary with the folded pieces 12, 12, and the folded pieces 13, 13, 13, The roof plates 11, 11 provided continuously with 13 are inclined, and the back surfaces of the folded pieces 13, 13, 13, 13 are opposed to the back surfaces of the inclined roof plates 11, 11.

  A top seal portion 14 is formed and closed above the roof plates 11, 11 and the folded pieces 13, 13, 13, 13. In addition, a plug 15 is provided on the roof plate 11 above the front plate 22 so that the contents can be poured out.

  FIG. 4 is an explanatory view schematically showing a blank used in an example of the liquid paper container of the present invention. In addition, the notation with a dashed-dotted line shows a crease in the figure.

  As shown in FIG. 4, the blank 102 of the liquid paper container 101 is sequentially provided with four rectangular face plates including a left side plate 21, a front plate 22, a right side plate 23, and a back plate 24 that form the body 20. A sticking plate 25 is provided on the left edge of the left side plate 21. The sticking plate 25 extends from the top 10 to the bottom 3 respectively.

  A rectangular roof plate 11, 11 is connected to the top portion 10 above the trunk portion 20 above the front plate 22 and the back plate 24, respectively. A plug hole 16 is provided in communication with the plug 15 for pouring out the contents.

  Above the left side plate 21 and the right side plate 23, triangular folding pieces 12, 12 are connected in series. The length from the left side plate 21 and the right side plate 23 to the triangle apex of the folded pieces 12 and 12 is longer than half of the width of the front plate 22 and the back plate 24, and the roof plates 11 and 11 are flat when folded. Instead, it is formed to be an inclined gable roof.

  Folding pieces 13, 13, 13, 13 are connected to two sides on the triangular folding pieces 12, 12, and the folding pieces 13, 13, 13, 13 are respectively attached to the roof plates 11, 11. To connect to. Further, a top seal portion 14 is provided above the roof plates 11, 11 and the folded pieces 13, 13, 13, 13.

The height of the top seal portion 14 above the roof plates 11, 11 is the folded pieces 13, 13, 13.
, 13 is formed higher than the height of the top seal portion 14, and when the box is made, the top seal portions 14 above the roof plates 11, 11 are directly sealed with each other at the high portion. Yes.

  The bottom portion 3 below the trunk portion 20 has a shape similar to that of the top portion 10, and bottom plates 31 and 31 are provided below the front plate 22 and the back plate 24, respectively, and the left side plate 21 and the right side plate 23. The triangular bottom folding pieces 32 and 32 are connected to each other downward with the apex of the triangle facing downward.

  The length from the left side plate 21 and the right side plate 23 to the apex of the inverted triangles of the bottom folded pieces 32 and 32 is substantially equal to half of the width of the front plate 22 and the back plate 24, and the bottom plates 31 and 31 when folded. Is formed to be substantially flat.

  Bottom folding pieces 33, 33, 33, 33 are connected to two lower sides of the triangular bottom folding pieces 32, 32, and the bottom folding pieces 33, 33, 33, 33 are respectively connected to the bottom plate 31. 31 or the sticking plate 25. Further, a bottom seal portion 34 is provided below the bottom plates 31, 31 and the bottom folded pieces 33, 33, 33, 33.

  In order to form the liquid paper container 101 using the blank 102, the boundary between the left side plate 21 and the front plate 22 and the boundary between the right side plate 23 and the back plate 24 are folded in a mountain. At this time, the boundary at the top 10 and the bottom 3 on the extension of the boundary is also folded at the same time.

  Then, the front side of the sticking plate 25 is sealed to the back side of the top portion 10 and the bottom portion 3 positioned above and below the back plate 24 and the back plate 24. In addition, it is desirable to protect the end face of the sticking plate 25 in advance so that the paper layer 2 does not touch the contents.

  End face protection methods include the skive hemming method in which the inner layer thermoplastic resin layer is left, the outer layer side such as paperboard is scraped, and the remaining inner layer thermoplastic resin layer side is folded back to the outer layer side, or edge pro tape is used. Any method such as a method of sticking so that the end face is covered may be used.

  When the sticking plate 25 is sealed, the boundary between the front plate 22 and the right side plate 23 and the extended linear boundary are folded in a mountain, and the sticking plate 25 and the left side plate 21 attached to the back plate 24 The boundary between the two and the extended linear boundary are folded in a mountain to form a square cylindrical body 20 composed of four face plates of a left side plate 21, a front plate 22, a right side plate 23, and a back plate 24.

  Next, the bottom 3 is formed. First, the bottom folded pieces 32, 32 are folded inward at the boundary between the left side plate 21 and the right side plate 23, and the bottom folded pieces 33, 33, 33, 33 are folded outward at the boundary with the bottom folded pieces 32, 32, 31 and 31 are folded at the boundary between the front plate 22 and the back plate 24 so that the back surfaces of the bottom folded pieces 33, 33, 33 and 33 are in contact with the back surfaces of the bottom plates 31 and 31, respectively. The part 34 is sealed to form the bottom 3.

  A stopper 15 is welded to the stopper hole 16 of the liquid paper container 101 in which the body portion 20 and the bottom portion 3 are formed, and the contents are filled. Subsequently, the folded pieces 12 and 12 are folded inward at the boundary between the left side plate 21 and the right side plate 23, and the folded pieces 13, 13, 13 and 13 are folded outward at the boundary with the folded pieces 12 and 12. 11 is folded at the boundary between the front plate 22 and the back plate 24 so that the back surfaces of the folded pieces 13, 13, 13, 13 are in contact with the back surfaces of the roof plates 11, 11, respectively. 14 is sealed to form the top portion 10, and the liquid paper container 101 of this example having a gable roof type top portion as shown in FIG.

  In the box making for forming the liquid paper container 101, since the liquid contact surface side of the inner thermoplastic resin layer 6 is the polyethylene resin layer 6b, the seal of the sticking plate 25, the bottom seal portion 34, and the top seal portion When sealing 14, stable sealing without worrying about sealing performance can be performed.

  FIG. 5A shows another example of the shape of the liquid paper container of the present invention, which is a flat roof type liquid paper container having a flat top. In this liquid paper container, the length from the left side plate 21 and the right side plate 23 to the apex of the triangles of the folded pieces 12 and 12 is half of the lateral width of the front plate 22 and the back plate 24 in the same manner as the bottom 30. The roof plates 11 and 11 are formed to be substantially flat when folded.

  FIG. 5B is another example of the shape of the liquid paper container of the present invention, and is a one-roof type liquid paper container whose top is inclined only on one side and flat on the opposite side. The upper sides of the left side plate 21 and the right side plate 23 are obliquely formed so as to be lowered forward so that the roof plate 11 on the front plate 22 side is lowered forward and the roof plate 11 of the back plate 24 is flat. The liquid paper container in which the top seal portion 14 is tilted to the back plate 24 side. These flat roof type liquid paper container and single roof type liquid paper container can be made in the same manner as the wife roof type liquid paper container 101.

  The empty container of the liquid paper container 101 with no contents is disassembled by opening the top seal portion 14 in order to reduce the volume of waste or to separate and collect the waste. The method for opening and disassembling the top seal portion 14 will be described below.

  FIG. 6 is an explanatory view schematically showing a state in which a top seal portion of an example of the liquid paper container of the present invention is opened in a plan view.

  6A, first, the left and right folded pieces 13, 13 above the left side plate 21 or the right side plate 23 of the liquid sheet container 101 are opened, and the left and right folded pieces 13, The top seal part 14 above 13 and the upper part of the top seal part 14 above the roof plates 11 and 11 are peeled off.

  Subsequently, the folded pieces 13 and 13 above the remaining left side plate 21 or right side plate 23 are opened. Thereby, as shown in FIG. 6B, the top seal portion 14 above the roof plate 11 and the top seal portion 14 above the folded pieces 13 and 13 connected to the folding piece 12 are sealed. Thus, the top seal portion 14 opens in an X shape.

  At this time, since the inner thermoplastic resin layer 6 has the easy peel resin layer 6a, the upper portion of the top seal portion 14 where the inner thermoplastic resin layers 6 are sealed is a force necessary for peeling off. Can be reduced by hand.

  Next, hold the X-shaped lower right side of the X-shaped lower side of the X-shaped lower plate by holding the roof plate 11 above the back plate 24 corresponding to the upper left of the X-shaped in FIG. The inner thermoplastic resin layer 6 has an easy peel resin layer 6a when the other side is sandwiched between the roof plate 11 above the front plate 22 and the folded piece 13 above the right side plate 23. Therefore, it can open easily and the seal part which goes to the lower left from the X shape upper right of the top seal part 14 peels like FIG.6 (C).

  Further, the roof above the back plate 24 that is held by one hand with the roof plate 11 above the front plate 22 hitting the lower left of the X shape and the folded piece 13 above the left side plate 21 sandwiched by the upper right. If the other hand holds and pulls the plate 11 and the folded piece 13 above the right side plate 23, the inner thermoplastic resin layer 6 has the easy peel resin layer 6a, so that it can be opened similarly. As shown in FIG. 6D, the X-shaped seal portion of the top seal portion 14 from the upper left to the lower right is peeled off. As described above, the top seal portion 14 can be opened.

  FIG. 7 is an explanatory view schematically showing a section of a stopper plug attached to an example of the liquid paper container of the present invention.

  The liquid paper container 101 having the top seal portion 14 opened is still attached with the stopper 15 as shown in FIG. The spout 15 includes a cap 17 and a spout 18, and a flange portion 19 that extends flatly on the outer side is integrally provided at the lower end of the spout 18. The spout 18 is molded of polyethylene, and the inner thermoplastic resin layer 6. And can be welded. The cap 17 and the spout 18 are inserted into the plug hole 16 of the liquid paper container 101 from the inside, and the upper surface of the flange portion 19 is the innermost thermoplastic resin layer 6 of the laminated body 100 constituting the liquid paper container 101. It is welded.

  Since the inner thermoplastic resin layer 6 has the easy peel resin layer 6a and is welded to the polyethylene spout, the flange portion 19 is peeled off from the inner thermoplastic resin layer 6, and the plug 15 is removed from the liquid paper container. 101 can be peeled off.

  In this manner, the top seal portion 14 of the liquid paper container 101 can be opened and the spout 15 can be peeled off from the liquid paper container 101. Therefore, the plug 15 can be separated and discarded. Further, since the top seal portion 14 is opened, the volume can be reduced by opening and flattening, and the empty liquid paper container 101 can be discarded.

  Although the gable roof type liquid paper container 101 has been described above, the above-described flat roof type liquid paper container and single roof type liquid paper container can be similarly opened and disassembled.

  Specific examples of the present invention will be described below.

<Example 1>
The inner layer film was prepared by laminating the vapor-deposited surface of the alumina-deposited polyethylene terephthalate film 12 μm of the barrier layer 4 and the inner thermoplastic resin layer 6 by sandwich lamination through the molten resin obtained by extruding the low-density polyethylene of the adhesive layer 5.

The inner thermoplastic resin layer 6 is composed of 20 μm of linear low density polyethylene having a polyethylene layer 6c density of 0.911 g / cm ³ and MI of 14 on the laminate surface side, and the first layer has a density of 0.1 in the intermediate layer. 20 μm easy peel resin layer 6a in which 911 g / cm ³ , MI of 14 linear low density polyethylene and second component polybutene-1 are mixed so that the blending amount is 30% by weight, and liquid contact A three-layer structure of 20 μm of linear low density polyethylene having a density of 0.904 g / cm ³ of polyethylene layer 6b and MI of 8 on the surface side was used.

A paperboard (basis weight 380 g / m ² ) is prepared as the paper layer 2, and a low-density polyethylene of the adhesive resin layer 3 is extruded from a T-die on one side of the paper layer 2 so as to have a thickness of 30 μm. The polyethylene terephthalate surface of 4 is pressed and laminated on the molten resin surface of the adhesive resin layer 3, and then the low-density polyethylene of the outer thermoplastic resin layer 1 is extruded from the T die to the opposite surface of the paper layer 2 to a thickness of 18 μm. 1 to produce a laminate 100 used for a liquid paper container as shown in FIG.

Further, when the outer thermoplastic resin layer 1 was laminated, the outer surface of the outer thermoplastic resin layer 1 was subjected to corona treatment immediately after the lamination. And the printing layer used as a pattern was provided in the corona treatment surface of the outer side thermoplastic resin layer 1 with the printing machine.

  The laminated body 100 was made into a blank as shown in FIG. 4, boxed, and the liquid paper container of Example 1 as shown in FIG. 3 was prepared, as shown in FIG. .

<Example 2>
As the inner thermoplastic resin layer 6, except that a three-layer configuration in which the thickness of the intermediate easy peel resin layer 6 a is 30 μm and the thickness of the polyethylene layer 6 b on the liquid contact surface side is 10 μm is used. Similarly, a liquid paper container of Example 2 was prepared.

<Example 3>
As the inner thermoplastic resin layer 6, except that a three-layer configuration in which the thickness of the easy peel resin layer 6 a of the intermediate layer is 35 μm and the thickness of the polyethylene layer 6 b on the liquid contact side is 5 μm is used. Similarly, a liquid paper container of Example 3 was prepared.

<Example 4>
As the inner thermoplastic resin layer 6, the first component has a density of 0.911 g / cm ³ in the intermediate layer, MI has a linear low density polyethylene of 14 and the second component polybutene-1 has a blending amount of 10 wt. % In the same manner as in Example 1 except that a 30 μm easy-peel resin layer 6a mixed so as to be in the form of 3% and a linear low-density polyethylene 10 μm of polyethylene layer 6b on the liquid contact side is used. A liquid paper container of Example 4 was prepared.

<Example 5>
As the inner thermoplastic resin layer 6, the intermediate component has a first component density of 0.911 g / cm ³ , MI of 14 linear low density polyethylene and the second component polybutene-1 is blended in an amount of 20 wt. % In the same manner as in Example 1 except that a 30 μm easy-peel resin layer 6a mixed so as to be in the form of 3% and a linear low-density polyethylene 10 μm of polyethylene layer 6b on the liquid contact side is used. A liquid paper container of Example 4 was prepared.
A liquid paper container of Example 5 was produced in the same manner as in Example 1 except that the thickness of the layer 6a was 30 μm.

<Example 6>
As the inner thermoplastic resin layer 6, the first component has a density of 0.911 g / cm ³ in the intermediate layer, MI has a linear low density polyethylene of 14 and the second component polybutene-1 has a blending amount of 40 wt. % In the same manner as in Example 1 except that a 30 μm easy-peel resin layer 6a mixed so as to be in the form of 3% and a linear low-density polyethylene 10 μm of polyethylene layer 6b on the liquid contact side is used. A liquid paper container of Example 6 was prepared.

<Example 7>
As the inner thermoplastic resin layer 6, the first component has a density of 0.911 g / cm ³ in the intermediate layer, MI has a linear low density polyethylene of 14 and the second component polybutene-1 has a blending amount of 30 wt. 30 μm easy-peel resin layer 6a mixed so as to be 10%, and the density of 0.98 g / cm ³ of polyethylene layer 6b on the wetted surface side and 10 μm of linear low-density polyethylene having MI of 3.5 A liquid paper container of Example 7 was prepared in the same manner as Example 1 except that a three-layer configuration was used.

<Example 8>
As the inner thermoplastic resin layer 6, the first component has a density of 0.911 g / cm ³ in the intermediate layer, MI has a linear low density polyethylene of 14 and the second component polybutene-1 has a blending amount of 40 wt. 30 μm easy-peel resin layer 6a mixed so as to be 10%, and the density of 0.98 g / cm ³ of polyethylene layer 6b on the wetted surface side and 10 μm of linear low-density polyethylene having MI of 3.5 A liquid paper container of Example 8 was prepared in the same manner as Example 1 except that a three-layer configuration was used.

<Example 9>
As the inner thermoplastic resin layer 6, the first component has a density of 0.911 g / cm ³ in the intermediate layer, MI has a linear low density polyethylene of 14 and the second component polybutene-1 has a blending amount of 30 wt. 20 μm of the easy peel resin layer 6a mixed so as to be 20%, and the density of the polyethylene layer 6b on the liquid contact surface side is 0.908 g / cm ³ and the linear low density polyethylene 20 μm with MI of 3.5 is 20 μm. A liquid paper container of Example 9 was produced in the same manner as Example 1 except that a three-layer configuration was used.

< Reference Example 1 >
As the inner thermoplastic resin layer 6, the first component has a density of 0.911 g / cm ³ on the laminate surface side, MI is 14 and the second component polybutene-1 is blended in a blending amount of 30. The 20 μm easy peel resin layer 6 a mixed so as to be in weight%, and the same 20 μm easy peel resin layer 6 a are stacked on the intermediate layer, and the density of the polyethylene layer 6 b on the wetted surface side is 0.904 g. / Cm ³ and a linear low density polyethylene of 20 μm with MI of 8 are laminated to use the inner thermoplastic resin layer 6 having a three-layer structure of an easy peel resin layer 6a, an easy peel resin layer 6a, and a polyethylene layer 6b. A liquid paper container of Reference Example 1 was prepared in the same manner as Example 1 except for the above.

<Example 10 >
As the inner thermoplastic resin layer 6, linear low density polyethylene having a density of 0.904 g / cm ³ and MI of 8 is used for the other polyethylene layer 6 c and the polyethylene layer 6 b, and the easy peel resin layer 6 a is used. Using a mixed resin in which the density of the first component is 0.911 g / cm ³ , and the polybutene-1 of the second component is mixed with a linear low density polyethylene having an MI of 14 so that the blending amount is 30% by weight. The inner thermoplastic resin layer 6 has a five-layer structure including a 10 μm polyethylene layer 6c, a 15 μm easy peel resin layer 6a, a 10 μm polyethylene layer 6c, a 15 μm easy peel resin layer 6a, and a 10 μm polyethylene layer 6b. A liquid paper container of Example 10 was prepared in the same manner as Example 1 except that was used.

<Example 11 >
As the inner thermoplastic resin layer 6, the blending amount of the second component polybutene-1 is 30% by weight in the low density polyethylene having the density of the first component of 0.916 g / cm ³ and the MI of 35 in the intermediate layer. A 30 μm easy-peel resin layer 6a mixed in this manner, and a three-layer structure of a linear low-density polyethylene 10 μm having a density of 0.904 g / cm ³ and a MI 8 of polyethylene layer 6b on the liquid contact side. A liquid paper container of Example 11 was made in the same manner as Example 1 except that.

<Example 12 >
As the inner thermoplastic resin layer 6, the blending amount of the second component polybutene-1 is 30% by weight in the low density polyethylene having the density of the first component of 0.916 g / cm ³ and the MI of 25 in the intermediate layer. A 30 μm easy-peel resin layer 6a mixed in this manner, and a three-layer structure of a linear low-density polyethylene 10 μm having a density of 0.904 g / cm ³ and a MI 8 of polyethylene layer 6b on the liquid contact side. A liquid paper container of Example 12 was made in the same manner as Example 1 except that.

<Example 13 >
As the inner thermoplastic resin layer 6, the blending amount of the second component polybutene-1 is 30% by weight in the low density polyethylene having the density of the first component of 0.916 g / cm ³ and the MI of 15 in the intermediate layer. A 30 μm easy-peel resin layer 6a mixed in this manner, and a three-layer structure of a linear low-density polyethylene 10 μm having a density of 0.904 g / cm ³ and a MI 8 of polyethylene layer 6b on the liquid contact side. A liquid paper container of Example 13 was made in the same manner as Example 1 except that.

  Below, the comparative example of this invention is demonstrated.

<Comparative Example 1>
A liquid paper container of Comparative Example 1 was prepared in the same manner as in Example 1 except that the blend amount of the second component polybutene-1 of the easy peel resin layer 6a of the inner thermoplastic resin layer 6 was changed to 4% by weight. .

<Comparative example 2>
Comparative Example 2 was performed in the same manner as in Example 1 except that 60 μm of a single-layer linear low density polyethylene having a density of 0.908 g / cm ³ and an MI of 3.5 was used as the inner thermoplastic resin layer. A liquid paper container was created.

<Test method>
About the Example and the comparative example, it tested by the following method and compared and evaluated.

<Opening strength>
As shown in FIG. 6B, the liquid paper containers of the example and the comparative example are each opened with the top seal portion 14 in an X-shape, and the two opposite X-shaped ends are held by two grips of the tensile tester. The relative movement speed between the grips was pulled at 300 mm / min, and the strength (unit: N) was defined as the opening strength. The results are summarized in Table 1.

<Peeling surface>
In the opening strength test, the peeled surfaces of the opened liquid paper containers of Examples and Comparative Examples were observed. The results are summarized in Table 1.

<Opening sensory evaluation>
The top seal portions 14 of the liquid paper containers of the example and the comparative example are respectively arranged in the order of FIGS. 6 (B), 6 (C), and 6 (D) according to the opening method of the top seal portion 14 described above. It was opened by hand and the ease of opening was judged by sensuality. The case where it was easy to open was evaluated as ◯, the case where opening was difficult was evaluated as X, and the case where opening was difficult but the opening was difficult was evaluated as Δ. The results are summarized in Table 1.

以下に、実施例及び参考例と比較例との比較結果について説明する。

Below, the comparison result of an Example and a reference example and a comparative example is demonstrated.

<Comparison result>
The liquid paper containers of Examples 1 to 13 and Reference Example 1 each had an opening strength of 40 N or less, and the peeling surface was agglomerated peeling of the inner thermoplastic resin layer 6. Moreover, the opening sensory evaluation was (circle) and it was able to open easily.

  On the other hand, the liquid paper container of Comparative Example 1 had an opening strength of 40 N, and the peeling surface was a paper scum (delamination) of the paper layer 2. The opening sensory evaluation was between Δ and ×, and although opening was made, it was difficult to open. Further, the liquid paper container of Comparative Example 2 had an opening strength of 80 N, and the release surface was a paper scum of the paper layer 2. The opening sensory evaluation was x, and opening was difficult. When the opening strength is 40 N or more, it is considered that the opening cannot be easily performed.

DESCRIPTION OF SYMBOLS 100 ... Laminated body 101 ... Liquid paper container 102 ... Blank 1 ... Outer thermoplastic resin layer 2 ... Paper layer 3 ... Adhesive resin layer 4 ... Barrier layer 5 ... Adhesive layer 6 ... inner thermoplastic resin layer 6a ... easy peel resin layer 6b ... polyethylene layer 10 ... top 11, 11, roof plate 12, 12 ... folded pieces 13, 13, 13, 13 ... Folding piece 14 ... Top seal part 15 ... Mouth plug 16 ... Mouth hole 17 ... Cap 18 ... Spout 19 ... Flange part 20 ... Body 21 ... left side plate 22 ... front plate 23 ... right side plate 24 ... back plate 25 ... sticking plate 30 ... bottom 31, 31 ... bottom plates 32, 32 ... bottom Folding pieces 33, 33, 33, 33 ... bottom folding piece 34 ... bottom seal part

Claims (3)

At least, a liquid paper container formed by boxing a laminate in which an outer thermoplastic resin layer as an outermost layer, an inner thermoplastic resin layer as an innermost layer, and a paper layer in the middle are laminated,
The inner thermoplastic resin layer has a polyethylene resin layer, an easy peel resin layer obtained by blending polyethylene with a thermoplastic elastomer in a blending ratio of 5 to 50% by weight, and a polyethylene resin layer on the wetted surface side. A liquid paper container having a multilayer structure. The thermoplastic elastomer is a modified ethylene / α-olefin copolymer, polybutene-1, polymethyl-1-pentene, polyhexene 1, polyoctene 1, styrene / isoprene copolymer, styrene / isobutylene copolymer, and hydrogenation thereof. things, or polystyrene, liquid paper container according to claim 1, characterized in der Rukoto least one or more of the cyclic olefin copolymer. The easy peel resin layer, a liquid paper container according to claim 1 or 2 thermoplastic elastomer in polyethylene is characterized that you have become dispersed sea-island structure.

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