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JP6819072B2 - Spout plug and packaging container - Google Patents
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JP6819072B2 - Spout plug and packaging container - Google Patents

Spout plug and packaging container Download PDF

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JP6819072B2
JP6819072B2 JP2016078355A JP2016078355A JP6819072B2 JP 6819072 B2 JP6819072 B2 JP 6819072B2 JP 2016078355 A JP2016078355 A JP 2016078355A JP 2016078355 A JP2016078355 A JP 2016078355A JP 6819072 B2 JP6819072 B2 JP 6819072B2
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spout
meat stealing
packaging container
spout plug
side wall
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JP2017186071A (en
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森本 功
功 森本
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Toppan Inc
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Toppan Inc
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Description

本発明は、注出口栓及びこれを用いた包装容器に関するものである。 The present invention relates to a spout plug and a packaging container using the spout plug.

紙製の基材層と、熱可塑性樹脂によるシーラント層との間にアルミ箔、アルミ蒸着フィルム、又は無機酸化物蒸着フィルムなどのバリア性のある層を積層したシート材を箱型に折曲げ、端部を重ね合わせてシールすることにより形成される包装容器が知られている(特許文献1)。 A sheet material in which a barrier layer such as an aluminum foil, an aluminum vapor deposition film, or an inorganic oxide vapor deposition film is laminated between a paper base material layer and a sealant layer made of a thermoplastic resin is bent into a box shape. A packaging container formed by overlapping and sealing the ends is known (Patent Document 1).

このような包装容器にはさまざまな形態があるが、その1つとして、ゲーブルトップ型(切妻屋根型)の屋根板にポリエチレン等を材質としたキャップ及び注出口栓を設けて、内容液の注出を可能にした包装容器が知られている。このような、包装容器の場合、廃棄に際して、分別収集のために紙製のシート材からなる容器本体と容器本体に溶着された注出口栓とを分離することが好ましい。分離の方法として、トップシール部を開口して、ハサミ等で注出口栓の周りのシート材を切断する方法がある。しかしながら、このような包装容器は、通常、トップシール部の融着が強固であるため解体は容易ではなく、注出口栓の包装容器からの分離は行われないことが多い。 There are various forms of such a packaging container, and one of them is to provide a cap and a spout plug made of polyethylene or the like on a gable top type (gable roof type) roof plate to pour the content liquid. Packaging containers that enable delivery are known. In the case of such a packaging container, it is preferable to separate the container body made of a paper sheet material and the spout / outlet plug welded to the container body for separate collection at the time of disposal. As a method of separation, there is a method of opening the top seal portion and cutting the sheet material around the spout plug with scissors or the like. However, such a packaging container is usually not easy to disassemble because the top seal portion is strongly fused, and the spout plug is often not separated from the packaging container.

特許文献2には、環状体(フランジ部)の内周側上面に環状の薄肉部を形成した注出口栓を折り曲げ誘導ラインを形成した紙容器に取り付けた紙製包装体が開示されている。この紙製包装体によれば、折り曲げ誘導ラインに沿って紙製包装体を折り曲げることにより、環状の薄肉部が破断し、注出口栓の筒状体を紙容器から分離することができる。 Patent Document 2 discloses a paper package in which a spout plug having an annular thin portion formed on the inner peripheral upper surface of the annular body (flange portion) is attached to a paper container having a bending guide line. According to this paper package, by bending the paper package along the bending guide line, the annular thin-walled portion is broken, and the tubular body of the spout plug can be separated from the paper container.

特開2003−335362号公報Japanese Unexamined Patent Publication No. 2003-335362 特開2011−073748号公報Japanese Unexamined Patent Publication No. 2011-073748

しかしながら、特許文献2のように注出口栓に環状の薄肉部を形成すると、注出口栓のフランジ部の剛性が低下する。このため、紙容器への溶着時にフランジ部の形状が安定せずに溶着ムラが発生して、液漏れを発生するおそれがあった。また、これを防ぐために溶着を高エネルギーで行えば、超音波振動により薄肉部から注出口栓が破損するおそれがあった。 However, when an annular thin-walled portion is formed on the spout plug as in Patent Document 2, the rigidity of the flange portion of the spout plug is reduced. Therefore, when welding to a paper container, the shape of the flange portion is not stable and uneven welding may occur, which may cause liquid leakage. Further, if welding is performed with high energy to prevent this, there is a risk that the spout plug may be damaged from the thin portion due to ultrasonic vibration.

本発明はこのような課題に鑑みてなされたものであり、十分な剛性を有し、溶着時の超音波振動によっても破損することがなく、包装容器の解体に際して容易に分離が可能な注出口栓及びこれを用いた包装容器を提供することを目的とする。 The present invention has been made in view of such a problem, and has sufficient rigidity, is not damaged by ultrasonic vibration during welding, and can be easily separated when disassembling the packaging container. It is an object of the present invention to provide a stopper and a packaging container using the stopper.

上記課題を解決するための本発明の一局面は、円筒状の側壁と、側壁の下端に設けられた側壁より外周径の大きい円筒状の台座部と、台座部の下端縁から外方に延伸して設けられた円盤状のフランジ部とを有するスパウトと、スパウトの上端から取り付けられるキャップとを含み、台座部の外周面に、全周にわたる溝状の第1の肉盗み部が形成され、台座部の下端面に、第1の肉盗み部と同心円状に設けられた溝状の第2の肉盗み部が形成され、第1の肉盗み部は、第2の肉盗み部よりも台座部の外周側に形成され、第1の肉盗み部の下端は、第2の肉盗み部の上端よりも下方に位置するように形成され、第1の肉盗み部と第2の肉盗み部との間の、フランジ部の上面より上方に、フランジ部より厚みが薄い壁が形成されている、注出口栓である。 One aspect of the present invention for solving the above problems is a cylindrical side wall, a cylindrical pedestal having a larger outer peripheral diameter than the side wall provided at the lower end of the side wall, and extending outward from the lower edge of the pedestal. A groove-shaped first meat stealing portion is formed on the outer peripheral surface of the pedestal portion, including a spout having a disk-shaped flange portion provided in the above direction and a cap attached from the upper end of the spout. A groove-shaped second meat stealing portion provided concentrically with the first meat stealing portion is formed on the lower end surface of the pedestal portion, and the first meat stealing portion is a pedestal rather than the second meat stealing portion. The lower end of the first meat stealing portion is formed on the outer peripheral side of the portion so as to be located below the upper end of the second meat stealing portion , and the first meat stealing portion and the second meat stealing portion are formed. It is a spout plug with a wall thinner than the flange portion formed above the upper surface of the flange portion .

また、本発明の他の局面は、注出孔が設けられた容器本体と、注出孔に側壁が挿入され、フランジが容器本体に貼り付けられた、上述の注出口栓とを含む、包装容器である。 Another aspect of the present invention includes a container body provided with a pouring hole and the above-mentioned pouring port plug in which a side wall is inserted into the pouring hole and a flange is attached to the container body. It is a container.

本発明によれば、十分な剛性を有し、溶着時の超音波振動によっても破損することがなく、包装容器の解体に際して容易に分離が可能な注出口栓及びこれを用いた包装容器を提供することができる。 According to the present invention, there is provided a spout plug that has sufficient rigidity, is not damaged by ultrasonic vibration during welding, and can be easily separated when disassembling the packaging container, and a packaging container using the same. can do.

本発明の第1の実施形態に係る包装容器の斜視図Perspective view of the packaging container according to the first embodiment of the present invention. 本発明の各実施形態に係る注出口栓の断面図Cross-sectional view of the spout plug according to each embodiment of the present invention 本発明の各実施形態に係る注出口栓の平面図Top view of the spout plug according to each embodiment of the present invention 本発明の各実施形態に係る注出口栓の断面図Cross-sectional view of the spout plug according to each embodiment of the present invention 本発明の第1の実施形態に係るブランクの平面図Top view of the blank according to the first embodiment of the present invention. 本発明の第1の実施形態に係る注出口栓の分離方法の一例を示す図The figure which shows an example of the separation method of the spout plug which concerns on 1st Embodiment of this invention. 本発明の第1の実施形態に係る注出口栓の分離方法の一例を示す図The figure which shows an example of the separation method of the spout plug which concerns on 1st Embodiment of this invention. 本発明の第1の実施形態に係る注出口栓の分離方法の一例を示す図The figure which shows an example of the separation method of the spout plug which concerns on 1st Embodiment of this invention. 本発明の第1の実施形態に係る注出口栓の分離方法の一例を示す図The figure which shows an example of the separation method of the spout plug which concerns on 1st Embodiment of this invention. 本発明の第2の実施形態に係る包装容器の斜視図Perspective view of the packaging container according to the second embodiment of the present invention. 本発明の第2の実施形態に係るブランクの平面図Top view of the blank according to the second embodiment of the present invention. 本発明の第2の実施形態に係る注出口栓の分離方法の一例を示す図The figure which shows an example of the separation method of the spout plug according to the 2nd Embodiment of this invention. 本発明の第2の実施形態に係る注出口栓の分離方法の一例を示す図The figure which shows an example of the separation method of the spout plug according to the 2nd Embodiment of this invention. 本発明の第2の実施形態に係る注出口栓の分離方法の一例を示す図The figure which shows an example of the separation method of the spout plug according to the 2nd Embodiment of this invention.

本発明の実施形態に係る包装容器及び注出口栓について、図を参照して説明する。なお、各実施形態において、同一または対応する構成に、同一の参照符号を付して説明を省略する。 The packaging container and the spout plug according to the embodiment of the present invention will be described with reference to the drawings. In each embodiment, the same or corresponding configurations are designated by the same reference numerals and the description thereof will be omitted.

<第1の実施形態>
(包装容器)
図1に、第1の実施形態に係る包装容器1の斜視図を示す。包装容器1は、シート材を加工したブランク110を箱型に折曲げ、端部を重ね合わせてシールして形成される容器本体100と、注出口栓2とを備える。注出口栓2は、スパウト3とキャップ4とを備える。容器本体100は、一例として、正立時に上部となる頂部101と、側面となる胴部102と、下部となる底部103とを含み、頂部101は、2つの屋根板106(106a、106b)と、屋根板106の間に折込まれる折込み板107および折返し板108とを含む。屋根板106aに、円形の注出孔114が形成される。注出口栓2は注出孔114に取付けられる。胴部102を形成する4枚の側面板111に、一例として、容器本体100を正立させた際の左右方向である幅方向に、破断強度を弱化させた脆弱部105が胴部102を一周するように形成される。
<First Embodiment>
(Packaging container)
FIG. 1 shows a perspective view of the packaging container 1 according to the first embodiment. The packaging container 1 includes a container body 100 formed by bending a blank 110 processed from a sheet material into a box shape, overlapping the ends thereof, and sealing the blank 110, and a spout plug 2. The spout plug 2 includes a spout 3 and a cap 4. As an example, the container body 100 includes a top portion 101 which is an upper portion when standing upright, a body portion 102 which is a side surface, and a bottom portion 103 which is a lower portion, and the top portion 101 includes two roof plates 106 (106a, 106b). Includes a folding plate 107 and a folding plate 108 that are folded between the roof plates 106. A circular injection hole 114 is formed in the roof plate 106a. The spout plug 2 is attached to the spout hole 114. On the four side plates 111 forming the body 102, as an example, a fragile portion 105 having weakened breaking strength goes around the body 102 in the width direction, which is the left-right direction when the container body 100 is upright. Is formed to do.

(注出口栓)
図2Aに、第1の実施形態に係るスパウト3とキャップ4とを含む注出口栓2の拡大図を含む断面図を示し、図2Bに、スパウト3を下方から見た平面図を示し、図2Cに、図2AのB−B’線で切断したスパウト3の断面図を示す。なお、注出口栓2の説明では、便宜上、図2Aの紙面上下方向を上下と定める。また、図2Aは、注出口栓2を図2Bに示すA−A’線で切断した断面である。
(Outlet plug)
FIG. 2A shows a cross-sectional view including an enlarged view of the spout plug 2 including the spout 3 and the cap 4 according to the first embodiment, and FIG. 2B shows a plan view of the spout 3 as viewed from below. 2C shows a cross-sectional view of the spout 3 cut along the BB'line of FIG. 2A. In the description of the spout plug 2, for convenience, the vertical direction of the paper surface in FIG. 2A is defined as vertical. Further, FIG. 2A is a cross section of the spout plug 2 cut along the AA'line shown in FIG. 2B.

スパウト3は、円筒状の側壁部11と、側壁部11の下端に設けられた側壁部11より外周径の大きい円筒状の台座部12と、台座部12の下端縁から外方に延伸して設けられた円盤状のフランジ部13とを備える。スパウト3は、一例として、フランジ部13の側壁部11側の面が、容器本体100の屋根板106a内面に超音波溶着されることによって取り付けられる。 The spout 3 extends outward from the cylindrical side wall portion 11, the cylindrical pedestal portion 12 having a larger outer diameter than the side wall portion 11 provided at the lower end of the side wall portion 11, and the lower end edge of the pedestal portion 12. It is provided with a disk-shaped flange portion 13 provided. As an example, the spout 3 is attached by ultrasonically welding the surface of the flange portion 13 on the side wall portion 11 side to the inner surface of the roof plate 106a of the container body 100.

側壁部11の外周面には、上端側から、キャップ4の内ネジ23と螺合する外ネジ14と、円周方向にわたり突出した凸部15とが設けられている。側壁部11の内周面に、上端側と下端側とを閉塞する円板状の隔壁17が、隔壁17外周縁の板厚を薄くして形成したハーフカット18を介して設けられる。隔壁17に、支柱19を介してプルリング20が設けられている。 On the outer peripheral surface of the side wall portion 11, an outer screw 14 screwed with the inner screw 23 of the cap 4 and a convex portion 15 protruding in the circumferential direction are provided from the upper end side. A disc-shaped partition wall 17 that closes the upper end side and the lower end side is provided on the inner peripheral surface of the side wall portion 11 via a half cut 18 formed by reducing the thickness of the outer peripheral edge of the partition wall 17. A pull ring 20 is provided on the partition wall 17 via a support column 19.

台座部12の外周面に、全周にわたる溝状の第1の肉盗み部16が形成されている。また、台座部12の下端面に、第1の肉盗み部16と同心円状に設けられた溝状の第2の肉盗み部24が形成されている。図2Aに示すように、第1の肉盗み部16は、第2の肉盗み部24よりも台座部12の外周側に形成され、第1の肉盗み部16の下端は、第2の肉盗み部24の上端よりも下方に位置するように形成される。第1の肉盗み部16と第2の肉盗み部24とは壁29により隔てられている。 A groove-shaped first meat stealing portion 16 is formed on the outer peripheral surface of the pedestal portion 12. Further, on the lower end surface of the pedestal portion 12, a groove-shaped second meat stealing portion 24 provided concentrically with the first meat stealing portion 16 is formed. As shown in FIG. 2A, the first meat stealing portion 16 is formed on the outer peripheral side of the pedestal portion 12 with respect to the second meat stealing portion 24, and the lower end of the first meat stealing portion 16 is the second meat. It is formed so as to be located below the upper end of the stealing portion 24. The first meat stealing section 16 and the second meat stealing section 24 are separated by a wall 29.

第2の肉盗み部24の断面形状は、例えば、図2Aに示すように、超音波振動に対する耐性が強い、天面が丸みをおびた逆U字型(ドーム状)に形成できる。第2の肉盗み部24が、超音波振動の隔壁17への伝播を抑制(分散)することで、隔壁17のハーフカット18にクラックが生じることを防ぐことができる。図2Bに示すように、第2の肉盗み部24に、リブ25が並んで設けられている。リブ25により、超音波振動のエネルギーが一定程度吸収、分散されるため、フランジ部13や第2の肉盗み部24近傍において共振動が抑制され、エネルギーの集中ムラがなくなる。この結果、フランジ部13や側壁部11が波を打ったように変形することを抑制できる。 As shown in FIG. 2A, for example, the cross-sectional shape of the second meat stealing portion 24 can be formed into an inverted U-shape (dome shape) having a rounded top surface and having strong resistance to ultrasonic vibration. By suppressing (dispersing) the propagation of ultrasonic vibrations to the partition wall 17, the second meat stealing portion 24 can prevent cracks from occurring in the half cut 18 of the partition wall 17. As shown in FIG. 2B, ribs 25 are provided side by side on the second meat stealing portion 24. Since the energy of the ultrasonic vibration is absorbed and dispersed to a certain extent by the rib 25, the co-vibration is suppressed in the vicinity of the flange portion 13 and the second meat stealing portion 24, and the energy concentration unevenness is eliminated. As a result, it is possible to prevent the flange portion 13 and the side wall portion 11 from being deformed in a wavy manner.

図2Aに示すように、側壁部11の下方に肉厚を大きく形成した凸部15を設けて、キャップ4がスパウト3に螺着された状態で、凸部15がキャップ4の周壁22内側に嵌入するように形成されている。このように凸部15を形成することで、図2Aの拡大図に示すように、キャップ4をスパウト3に螺着した状態で、凸部15は周壁22の内周面に対向する。なお、本明細書中において、「螺合」とは、キャップ4の内ネジ23とスパウト3の外ネジ14どうしをかみ合わせて、これらを相対的に円周方向に回転させることで両者を嵌合することをいう。また、「キャップ4がスパウト3に螺着された状態」とは、キャップ4とスパウト3との嵌合が進行、完了した状態のことをいう。 As shown in FIG. 2A, a convex portion 15 having a large wall thickness is provided below the side wall portion 11, and the convex portion 15 is inside the peripheral wall 22 of the cap 4 in a state where the cap 4 is screwed to the spout 3. It is formed to fit. By forming the convex portion 15 in this way, as shown in the enlarged view of FIG. 2A, the convex portion 15 faces the inner peripheral surface of the peripheral wall 22 in a state where the cap 4 is screwed to the spout 3. In addition, in this specification, "screw" means that the internal screw 23 of the cap 4 and the external screw 14 of the spout 3 are engaged with each other and these are relatively rotated in the circumferential direction to fit the two. To do. Further, the "state in which the cap 4 is screwed to the spout 3" means a state in which the fitting between the cap 4 and the spout 3 is progressed and completed.

図2Cに示すように、第1の肉盗み部16の内部に、一例として、第1のリブ27と第2のリブ28とが円周等分8箇所にわたって形成されている。第1のリブ27は、スパウト3の上面視において、金型の合わせ目方向に沿って形成されている。また、第2のリブ28は、スパウト3の上面視において、金型の抜き方向に沿って形成されている。第1のリブ27と第2のリブ28の数及び形状は、これに限定されず、第1の肉盗み部16及び台座部12の強度に応じて適宜設定可能である。 As shown in FIG. 2C, inside the first meat stealing portion 16, as an example, the first rib 27 and the second rib 28 are formed over eight locations evenly divided into circumferences. The first rib 27 is formed along the seam direction of the mold in the top view of the spout 3. Further, the second rib 28 is formed along the die cutting direction in the top view of the spout 3. The number and shape of the first rib 27 and the second rib 28 are not limited to this, and can be appropriately set according to the strength of the first meat stealing portion 16 and the pedestal portion 12.

図2Bに示すように、リブ25の円周方向外方に、肉厚をリブ25より小さくしたリブである薄厚部26が設けられている。リブ25、薄厚部26の形状を適宜設定することで、側壁部11及び台座部12の強度や剛性を適宜調整可能である。例えば、図2Aに示すように、薄厚部26上端の台座部12下端からの高さを、壁29の上端から下端までの間に設定することで、注出口栓2の分離の際に壁29に生じる破断をスムーズに薄厚部26に伝えることができるため、後述するスパウト3の破断が容易になる。 As shown in FIG. 2B, a thin portion 26 which is a rib having a wall thickness smaller than that of the rib 25 is provided on the outer side of the rib 25 in the circumferential direction. By appropriately setting the shapes of the rib 25 and the thin portion 26, the strength and rigidity of the side wall portion 11 and the pedestal portion 12 can be appropriately adjusted. For example, as shown in FIG. 2A, by setting the height of the upper end of the thin portion 26 from the lower end of the pedestal portion 12 between the upper end and the lower end of the wall 29, the wall 29 is separated when the spout plug 2 is separated. Since the breakage that occurs in the above can be smoothly transmitted to the thin portion 26, the breakage of the spout 3 described later becomes easy.

第1の肉盗み部16の上下方向における幅Aは、フランジ部13の板厚より大きいことが望ましく、例えば、0.60mm以上が好ましい。図2Aに示すように、第1の肉盗み部16の上下方向における幅を外方に向かって拡がるように形成してもよく、この場合は、幅Aが最も小さくなる場所、すなわち第1の肉盗み部16の最内方における幅を0.60mm以上とすればよい。幅Aをフランジ部13の板厚より大きくすることにより、例えばパーツフィーダーの様に大量のスパウト3がランダムな姿勢で収納される場合に、スパウト3のフランジ部13が他のスパウト3の第1の肉盗み部16に嵌り込み、スパウト3の供給が滞ることを防止できる。 The width A of the first meat stealing portion 16 in the vertical direction is preferably larger than the plate thickness of the flange portion 13, and is preferably 0.60 mm or more, for example. As shown in FIG. 2A, the width of the first meat stealing portion 16 in the vertical direction may be formed so as to expand outward. In this case, the place where the width A is the smallest, that is, the first The innermost width of the meat stealing portion 16 may be 0.60 mm or more. By making the width A larger than the plate thickness of the flange portion 13, when a large amount of spouts 3 are stored in random postures such as a parts feeder, the flange portion 13 of the spout 3 becomes the first of the other spouts 3. It is possible to prevent the supply of the spout 3 from being interrupted by fitting into the meat stealing portion 16.

また、幅Aを外方に向かって拡がるように形成した場合には、スパウト3を容器本体100に取付けた際に、注出孔114の内周面が壁29に当接しない状態で、屋根板106aが第1の肉盗み部16の上下の壁面の間で挟持されるように設定してもよい。第1の肉盗み部16及び注出孔114をこのように設定することで、スパウト3の取付け時に、スパウト3が注出孔114内において偏心すると、第1の肉盗み部16の上下の壁面と屋根板106aとが接するため、スパウト3の注出孔114内における動きは規制される。したがって、超音波溶着等の振動の発生する方法を用いる場合でも、スパウト3が注出孔114内において偏心した状態で取付けられることを防止できる。 Further, when the width A is formed so as to expand outward, when the spout 3 is attached to the container body 100, the roof is in a state where the inner peripheral surface of the injection hole 114 does not abut on the wall 29. The plate 106a may be set to be sandwiched between the upper and lower wall surfaces of the first meat stealing portion 16. By setting the first meat stealing portion 16 and the pouring hole 114 in this way, when the spout 3 is eccentric in the pouring hole 114 when the spout 3 is attached, the upper and lower wall surfaces of the first meat stealing portion 16 are set. Since the roof plate 106a is in contact with the roof plate 106a, the movement of the spout 3 in the injection hole 114 is restricted. Therefore, even when a method that generates vibration such as ultrasonic welding is used, it is possible to prevent the spout 3 from being attached in the injection hole 114 in an eccentric state.

壁29の肉厚Bは、0.20mm以上1.00mm以下がよく、特に0.20mm以上0.60mm以下が好ましい。肉厚Bを0.20mm以上にすることで、製造工程におけるピンホールの発生を防ぐことができ、1.00mm以下とすることでスパウト3の分離に必要な荷重が大きくなり過ぎることを防止できる。 The wall thickness B of the wall 29 is preferably 0.20 mm or more and 1.00 mm or less, and particularly preferably 0.20 mm or more and 0.60 mm or less. By setting the wall thickness B to 0.20 mm or more, it is possible to prevent the occurrence of pinholes in the manufacturing process, and by setting the wall thickness B to 1.00 mm or less, it is possible to prevent the load required for separating the spout 3 from becoming too large. ..

薄厚部26の円周方向における肉厚Cと第1のリブ27及び第2のリブ28の幅Dとは0.20mm以下が好ましい。肉厚C及び幅Dが0.20mmを超えると、当該箇所の強度が大きくなり過ぎ、注出口栓2の分離が困難になるためである。 The wall thickness C of the thin portion 26 in the circumferential direction and the width D of the first rib 27 and the second rib 28 are preferably 0.20 mm or less. This is because if the wall thickness C and the width D exceed 0.20 mm, the strength of the portion becomes too large and it becomes difficult to separate the spout plug 2.

キャップ4は、円形状の天板21と、天板21の外周縁から垂設された円筒形状の周壁22と、周壁22の内面に形成され、スパウト3の外ネジ14と螺合される内ネジ23とを備える。 The cap 4 is formed on the circular top plate 21, the cylindrical peripheral wall 22 suspended from the outer peripheral edge of the top plate 21, and the inner surface of the peripheral wall 22, and is screwed with the outer screw 14 of the spout 3. It is provided with a screw 23.

スパウト3の材質には、低密度ポリエチレン樹脂等を用いることができ、キャップ4の材質には、低密度ポリエチレン樹脂と比較して剛性の高いポリプロピレン樹脂や高密度ポリエチレン樹脂を用いることができる。スパウト3に用いる材質の曲げ弾性率は100MPa以上180MPa以下がよく、特に120MPa以上155MPa以下が好ましい。スパウト3及びキャップ4は、例えば一体成形により製造することができる。 A low-density polyethylene resin or the like can be used as the material of the spout 3, and a polypropylene resin or a high-density polyethylene resin having higher rigidity than the low-density polyethylene resin can be used as the material of the cap 4. The flexural modulus of the material used for the spout 3 is preferably 100 MPa or more and 180 MPa or less, and particularly preferably 120 MPa or more and 155 MPa or less. The spout 3 and the cap 4 can be manufactured, for example, by integral molding.

(ブランク)
図3に、第1の実施形態に係る容器本体100の素材となるブランクの一例であるブランク110の平面図を示す。ブランク110は、頂部101を構成する屋根板106a、106b、折込み板107および折返し板108と、胴部102を構成する4つの側面板111と、底部103を構成する底面板112と、端部に形成されたシール部113とを有する。ブランク110を図3に示す一点鎖線にしたがって折曲げ、シール部113を、これと反対側の端部にシールすることでブランク110が箱型に形成される。屋根板106aの中央付近に、注出口栓2を挿入して固定する注出孔114が形成されている。側面板111に、容器本体100を正立させた際の左右方向である幅方向にわたって略全周に線状の脆弱部105が形成される。
(blank)
FIG. 3 shows a plan view of a blank 110 which is an example of a blank which is a material of the container body 100 according to the first embodiment. The blank 110 includes roof plates 106a and 106b, folding plates 107 and folding plates 108 forming the top 101, four side plates 111 forming the body 102, bottom plates 112 forming the bottom 103, and ends. It has a formed seal portion 113. The blank 110 is formed into a box shape by bending the blank 110 according to the alternate long and short dash line shown in FIG. 3 and sealing the seal portion 113 at the end portion on the opposite side thereof. A pouring hole 114 for inserting and fixing the spout plug 2 is formed near the center of the roof plate 106a. A linear fragile portion 105 is formed on the side plate 111 substantially all around the width direction, which is the left-right direction when the container body 100 is erected.

ブランク110には、紙基材層、バリア層等を積層した公知のシート材を用いることができる。脆弱部105は、例えばブランク110の紙基材層及び/またはバリア層に所定深さで形成された溝状の傷加工部により構成される。傷加工部は、包装容器1の強度を確保できる範囲の深さで形成することができる。傷加工部の形成方法には、例えば刃型を用いた半抜き加工や全抜き加工、レーザー光加工等を用いることができる。脆弱部105は、包装容器1の強度確保のためミシン目状に形成しても良いし、直線状に形成してもよい。 For the blank 110, a known sheet material in which a paper base material layer, a barrier layer, or the like is laminated can be used. The fragile portion 105 is composed of, for example, a groove-shaped scratched portion formed at a predetermined depth in the paper base material layer and / or the barrier layer of the blank 110. The scratched portion can be formed to a depth within a range in which the strength of the packaging container 1 can be ensured. As a method for forming the scratched portion, for example, half punching using a blade mold, full punching, laser light processing, or the like can be used. The fragile portion 105 may be formed in a perforated shape or in a straight line in order to secure the strength of the packaging container 1.

ブランク110及び容器本体100はこの形態に限定されない。容器本体100の形態は、ブランクを箱型に折曲げて端部を重ね合わせてシールすることにより形成できれば、直方体形状のブリックタイプ、四面体形状のテトラパック型等の任意の形態を採用でき、これに合わせてブランクの形態も任意の形態を採用できる。また、脆弱部105は形成しなくてもよい。 The blank 110 and the container body 100 are not limited to this form. As long as the container body 100 can be formed by bending a blank into a box shape and overlapping and sealing the ends, any form such as a rectangular parallelepiped brick type or a tetrahedral tetrapak type can be adopted. In accordance with this, any form can be adopted as the blank form. Further, the fragile portion 105 does not have to be formed.

(分離方法)
以下では、第1の実施形態に係る包装容器1に設けた注出口栓2の分離方法の一例である分離方法を説明する。図4A〜4Dに、注出口栓2の分離方法に係る各工程及び分離の際の容器本体100と注出口栓2との部分拡大断面図を示す。
(Separation method)
Hereinafter, the separation method, which is an example of the separation method of the spout plug 2 provided in the packaging container 1 according to the first embodiment, will be described. 4A to 4D show partially enlarged cross-sectional views of the container body 100 and the spout plug 2 at the time of each step and separation of the spout plug 2 separation method.

図4Aに、包装容器1を押し潰す工程を示す。本工程において、包装容器1の使用者は、屋根板106の下方に延びる、対向する2つの側面板111を互いに接する方向に押し込むことで、胴部102を押し潰す。押し潰される側面板111に接する2つの側面板111及び折返し板108は、包装容器1の内部方向に折り畳まれる。 FIG. 4A shows a process of crushing the packaging container 1. In this step, the user of the packaging container 1 crushes the body portion 102 by pushing the two facing side plates 111 extending below the roof plate 106 in the direction in which they are in contact with each other. The two side plate 111 and the folded plate 108 in contact with the side plate 111 to be crushed are folded in the internal direction of the packaging container 1.

図4Bに、脆弱部105に沿って、注出口栓2を含む屋根板106を包装容器1から分離する工程を示す。本工程において、使用者は、図4Bの左に示すように、側面板111の一部を脆弱部105に沿って引裂く。この結果、包装容器1は、図4Bの右に示すように、胴部102の上部及び屋根板106と胴部102の下部とが別々に分離された状態になる。 FIG. 4B shows a step of separating the roof plate 106 including the spout plug 2 from the packaging container 1 along the fragile portion 105. In this step, the user tears a part of the side plate 111 along the fragile portion 105 as shown on the left side of FIG. 4B. As a result, as shown on the right side of FIG. 4B, the packaging container 1 is in a state in which the upper portion of the body portion 102 and the roof plate 106 and the lower portion of the body portion 102 are separately separated.

図4Cに、分離した屋根板106を折曲げる工程を示す。本工程において、使用者は、図4Cに示すように、屋根部106を、容器本体100を正立させた際の左右中央付近で折曲げる。このとき、屋根板106にできる折れ線は、注出孔114を通過する。この結果、注出孔114に取り付けられているスパウトのフランジ部13の一部も屋根板106と同じ方向に向かって折曲がるように荷重が加わる。なお、屋根板106を折曲げる位置は、形成される折れ線が注出孔114を通過することができればどこでもよいが、屋根板106の左右中央付近では、包装容器1の内部方向に左右から折り畳まれた折返し板108が屋根板106と重ならないため、他の位置よりも容易に折曲げることができる。 FIG. 4C shows a process of bending the separated roof plate 106. In this step, as shown in FIG. 4C, the user bends the roof portion 106 near the center of the left and right when the container body 100 is upright. At this time, the polygonal line formed on the roof plate 106 passes through the injection hole 114. As a result, a load is applied so that a part of the flange portion 13 of the spout attached to the injection hole 114 is also bent in the same direction as the roof plate 106. The roof plate 106 may be bent at any position as long as the formed polygonal line can pass through the injection hole 114, but the roof plate 106 is folded from the left and right in the inner direction of the packaging container 1 near the center of the left and right sides of the roof plate 106. Since the folded-back plate 108 does not overlap with the roof plate 106, it can be bent more easily than other positions.

図4Cに示すように、フランジ部13が折曲げられることで、スパウト3の側壁部11も屋根板106が折曲げられる方向に広がるように変形しようとする。しかしながら、側壁部11には、凸部15が形成されているため、側壁部11が変形を始めるとすぐに、凸部15がキャップ4の周壁22に当接する。この結果、屋根板106の変形にともなう側壁部11の変形は、剛性の高い材質からなるキャップ4の周壁22により規制される。 As shown in FIG. 4C, when the flange portion 13 is bent, the side wall portion 11 of the spout 3 also tries to be deformed so as to expand in the bending direction of the roof plate 106. However, since the side wall portion 11 is formed with the convex portion 15, the convex portion 15 comes into contact with the peripheral wall 22 of the cap 4 as soon as the side wall portion 11 starts to be deformed. As a result, the deformation of the side wall portion 11 accompanying the deformation of the roof plate 106 is regulated by the peripheral wall 22 of the cap 4 made of a highly rigid material.

屋根板106をさらに折曲げることによってフランジ部13をさらに折曲げると、壁29が側壁11の中心に向かって湾曲し、壁29に大きな応力が発生する。屋根板106の変形がさらに進み壁29にはたらく応力が一定値を超えると、壁29の少なくとも一部に破断が生じる。破断が生じた後に、さらに屋根板106を折曲げ続ければ、破断は壁29に沿って円周方向に進む。 When the flange portion 13 is further bent by further bending the roof plate 106, the wall 29 is curved toward the center of the side wall 11, and a large stress is generated on the wall 29. When the deformation of the roof plate 106 further progresses and the stress acting on the wall 29 exceeds a certain value, at least a part of the wall 29 is broken. If the roof plate 106 is further bent after the fracture occurs, the fracture proceeds in the circumferential direction along the wall 29.

図4Dに、注出口栓2を包装容器1から分離する工程を示す。前工程で壁29に、少なくとも部分的に破断が生じているため、使用者はこれを起点としてわずかな力でスパウト3を切断し、注出口栓2を包装容器1から分離することができる。 FIG. 4D shows a step of separating the spout plug 2 from the packaging container 1. Since the wall 29 is at least partially broken in the previous step, the user can cut the spout 3 with a slight force from this as a starting point and separate the spout plug 2 from the packaging container 1.

<第2の実施形態>
(包装容器)
図5に、第2の実施形態に係る包装容器5を示す。包装容器5は、シート材を加工したブランク210を箱型に折曲げ、端部を重ね合わせてシールして形成される容器本体200と、注出口栓2とを備える。包装容器1と包装容器5との相違点は、脆弱部105の形成位置である。容器本体200の屋根板106、折込み板107および折返し板108に、容器本体200の頂部101を一周するように脆弱部105が形成される。
<Second embodiment>
(Packaging container)
FIG. 5 shows the packaging container 5 according to the second embodiment. The packaging container 5 includes a container main body 200 formed by bending a blank 210 processed from a sheet material into a box shape and sealing the ends by overlapping the ends, and a spout plug 2. The difference between the packaging container 1 and the packaging container 5 is the formation position of the fragile portion 105. A fragile portion 105 is formed on the roof plate 106, the folding plate 107, and the folding plate 108 of the container body 200 so as to go around the top 101 of the container body 200.

図6に、第2の実施形態に係る容器本体200の素材となるブランクの一例であるブランク210の平面図を示す。ブランク110とブランク210との相違点は、脆弱部105の形成位置である。ブランク210の脆弱部105は、容器本体200を正立させた際の左右方向である幅方向にわたって、屋根板106、折込み板107および折返し板108を一周するように形成される。脆弱部105の一部は、注出孔114によって分断されている。すなわち、容器本体200を脆弱部105に沿って折曲げることによってできる折れ線は、注出孔114を通過する。脆弱部105は、その一部が注出孔114によって分断されていれば、容器本体200の上下方向等任意の方向にわたって形成してもよい。 FIG. 6 shows a plan view of a blank 210, which is an example of a blank used as a material for the container body 200 according to the second embodiment. The difference between the blank 110 and the blank 210 is the formation position of the fragile portion 105. The fragile portion 105 of the blank 210 is formed so as to go around the roof plate 106, the folding plate 107, and the folding plate 108 in the width direction which is the left-right direction when the container body 200 is upright. A part of the fragile portion 105 is divided by the injection hole 114. That is, the polygonal line formed by bending the container body 200 along the fragile portion 105 passes through the injection hole 114. The fragile portion 105 may be formed in any direction such as the vertical direction of the container body 200 as long as a part thereof is divided by the injection hole 114.

(分離方法)
以下では、第2の実施形態に係る包装容器5に設けた注出口栓2の分離方法の一例である分離方法を説明する。図7A〜7Cに、注出口栓2の分離方法に係る各工程及び分離の際の容器本体200と注出口栓2との部分拡大断面図を示す。
(Separation method)
Hereinafter, the separation method, which is an example of the separation method of the spout plug 2 provided in the packaging container 5 according to the second embodiment, will be described. 7A to 7C show partially enlarged cross-sectional views of the container body 200 and the spout plug 2 at the time of each step and separation of the spout plug 2 separation method.

図7Aに、包装容器5を押し潰す工程を示す。本工程において、包装容器5の使用者は、屋根板106の下方に延びる、対向する2つの側面板111を互いに接する方向に押し込むことで、胴部102を押し潰す。押し潰される側面板111に接する2つの側面板111及び折返し板108は、包装容器5の内部方向に折り畳まれる。 FIG. 7A shows a step of crushing the packaging container 5. In this step, the user of the packaging container 5 crushes the body portion 102 by pushing the two facing side plates 111 extending below the roof plate 106 in the direction in which they are in contact with each other. The two side plate 111 and the folded plate 108 in contact with the side plate 111 to be crushed are folded in the internal direction of the packaging container 5.

図7Bに、包装容器5を脆弱部105に沿って折曲げる工程を示す。本工程において、使用者は、図7Bの左に示すように、屋根部106を脆弱部105に沿って折曲げる。このとき、屋根板106にできる折れ線は、注出孔114を通過する。この結果、注出孔114に取り付けられているスパウトのフランジ部13の一部も屋根板106と同じ方向に向かって折曲がるように荷重が加わる。 FIG. 7B shows a step of bending the packaging container 5 along the fragile portion 105. In this step, the user bends the roof portion 106 along the fragile portion 105 as shown on the left side of FIG. 7B. At this time, the polygonal line formed on the roof plate 106 passes through the injection hole 114. As a result, a load is applied so that a part of the flange portion 13 of the spout attached to the injection hole 114 is also bent in the same direction as the roof plate 106.

この後、図7Bの左に示すように、フランジ部13が折曲げられ、壁29の少なくとも一部に破断が生じる。この工程は、第1の実施形態に係る分離方法と同様であるため、説明は省略する。 After that, as shown on the left side of FIG. 7B, the flange portion 13 is bent, and at least a part of the wall 29 is broken. Since this step is the same as the separation method according to the first embodiment, the description thereof will be omitted.

図7Cに、注出口栓2を包装容器5から分離する工程を示す。前工程で壁29に少なくとも部分的に破断が生じているため、使用者はこれを起点としてわずかな力でスパウト3を切断し、注出口栓2を包装容器5から分離することができる。 FIG. 7C shows a step of separating the spout plug 2 from the packaging container 5. Since the wall 29 is at least partially broken in the previous step, the user can cut the spout 3 with a slight force from this as a starting point and separate the spout plug 2 from the packaging container 5.

以上の各実施形態において、剛性の高い材質からなるキャップ4を螺着した状態のまま屋根板106を折曲げた場合に、凸部15を周壁22に当接させて側壁部11の変形をキャップ4により規制することができる。この結果、壁29を湾曲させて、当該箇所に効率的に応力を集中させることができる。このため、包装容器1の使用者は、注出口栓2を容易に分離することができる。 In each of the above embodiments, when the roof plate 106 is bent while the cap 4 made of a highly rigid material is screwed, the convex portion 15 is brought into contact with the peripheral wall 22 to cap the deformation of the side wall portion 11. It can be regulated by 4. As a result, the wall 29 can be curved to efficiently concentrate stress on the portion. Therefore, the user of the packaging container 1 can easily separate the spout plug 2.

また、スパウト3の側壁部11に凸部15を設けることで、側壁部11の下端の肉厚を一部厚く形成することができる。このため、側壁部11は十分な剛性を有することができ、溶着時の超音波振動でハーフカット18が破損することを防止できる。また、螺着時の側壁部11の倒れ込み量を減らせるため、オーバーランの発生も防止できる。ここで、オーバーランとは、螺着後のキャップ4に対して過剰なトルクを加えた際に、側壁部11がスパウト3の内方に倒れ込み、キャップ4の内ネジ12が側壁部11の外ネジ14を乗り越えることをいう。 Further, by providing the convex portion 15 on the side wall portion 11 of the spout 3, the wall thickness of the lower end of the side wall portion 11 can be partially thickened. Therefore, the side wall portion 11 can have sufficient rigidity, and it is possible to prevent the half cut 18 from being damaged by ultrasonic vibration during welding. Further, since the amount of collapse of the side wall portion 11 at the time of screwing can be reduced, the occurrence of overrun can be prevented. Here, overrun means that when an excessive torque is applied to the cap 4 after screwing, the side wall portion 11 collapses inward of the spout 3, and the internal screw 12 of the cap 4 is outside the side wall portion 11. It means getting over the screw 14.

また、第1の肉盗み部16を溶着時の超音波振動の伝達経路となるフランジ部13から外れた台座部12に形成したため、フランジ部13に薄肉部を形成する場合と比べて溶着ムラを発生し難くすることができる。 Further, since the first meat stealing portion 16 is formed on the pedestal portion 12 which is separated from the flange portion 13 which is the transmission path of ultrasonic vibration during welding, welding unevenness is caused as compared with the case where the thin-walled portion is formed on the flange portion 13. It can be made less likely to occur.

実施例1〜3に係る注出口栓を作成し、それぞれを85mm角で容量2リットルの紙基材を含むブランクを用いたゲーブルトップ型の容器本体100に溶着した後、注出口栓の解体性評価、オーバーラントルクの測定、落下破壊試験、寸法測定を行った。各キャップの材質はポリプロピレンとし、各スパウトの材質は低密度ポリエチレンとした。また、キャップ周壁の最大外周径を、キャップ下端部において24.7mmとした。 The spout plugs according to Examples 1 to 3 are prepared, and each of them is welded to a gable-top type container body 100 using a blank containing a paper substrate having a capacity of 2 liters in an 85 mm square, and then the spout plug is dismantleable. Evaluation, overrun torque measurement, drop fracture test, and dimension measurement were performed. The material of each cap was polypropylene, and the material of each spout was low-density polyethylene. The maximum outer diameter of the peripheral wall of the cap was set to 24.7 mm at the lower end of the cap.

(実施例1)
実施例1として、第1の肉盗み部16にリブを設けない注出口栓1を容器本体100に溶着した包装容器を作成した。溶着条件は、溶着エネルギー:113J、振幅:83%、振動数:30kHz、溶着時間:0.22秒以下とした。
(Example 1)
As the first embodiment, a packaging container was prepared in which a spout plug 1 having no rib provided in the first meat stealing portion 16 was welded to the container body 100. The welding conditions were welding energy: 113J, amplitude: 83%, frequency: 30kHz, welding time: 0.22 seconds or less.

(実施例2)
実施例2として、第1の肉盗み部16にリブ27、28を設けた注出口栓1を容器本体100に溶着した包装容器1を作成した。溶着条件は、実施例1と同じとした。
(Example 2)
As the second embodiment, a packaging container 1 in which a spout plug 1 having ribs 27 and 28 provided in the first meat stealing portion 16 was welded to the container body 100 was prepared. The welding conditions were the same as in Example 1.

(実施例3)
実施例3として、第1の肉盗み部16にリブ27、28を設けた注出口栓1を容器本体100に溶着した包装容器1を作成した。溶着条件は、溶着エネルギー:130J、振幅:89%、振動数:30kHz、溶着時間:0.22秒以下とした。
(Example 3)
As the third embodiment, a packaging container 1 in which a spout plug 1 having ribs 27 and 28 provided in the first meat stealing portion 16 was welded to the container body 100 was prepared. The welding conditions were welding energy: 130 J, amplitude: 89%, frequency: 30 kHz, welding time: 0.22 seconds or less.

(分離性評価)
実施例1〜3に係る包装容器を各10個準備して、上述の第1の実施形態に係る分離方法により、注出口栓を包装容器から容易に分離できるかどうかの評価を行った。
(Separability evaluation)
Ten packaging containers according to Examples 1 to 3 were prepared, and it was evaluated whether or not the spout plug could be easily separated from the packaging container by the separation method according to the first embodiment described above.

(オーバーラントルクの測定)
各スパウトにキャップ4を螺合させて、オーバーランが発生する際のトルクを測定した。
(Measurement of overrun torque)
The cap 4 was screwed into each spout, and the torque when the overrun occurred was measured.

(落下破壊試験1)
包装容器の頂部を下方に向けて、800mmの高さからコンクリート面に最大3回落下させて、注出口栓が破損して内容液が漏れだすかどうかを評価した。
(Drop destruction test 1)
The top of the packaging container was turned downward and dropped from a height of 800 mm onto the concrete surface up to three times to evaluate whether the spout plug was damaged and the content liquid leaked out.

(落下破壊試験2)
注出口栓114の形成された屋根板106に接する側面板111を下方に向け、800mmの高さからコンクリート面に最大3回落下させて、注出口栓が破損して内容液が漏れだすかどうかを評価した。
(Drop destruction test 2)
Whether or not the spout plug is damaged and the content liquid leaks out by dropping the side plate 111 in contact with the roof plate 106 on which the spout plug 114 is formed downward from a height of 800 mm onto the concrete surface up to three times. Was evaluated.

各評価結果を表1に示す。 The results of each evaluation are shown in Table 1.

Figure 0006819072
Figure 0006819072

分離性評価では、リブ27、28を設けた実施例2、3の分離に要する荷重が実施例1と比較してわずかに大きかったものの、実施例1〜3に係る注出口栓は、容易に包装容器から分離できることが確認できた。 In the separability evaluation, although the load required for the separation of Examples 2 and 3 provided with the ribs 27 and 28 was slightly larger than that of Example 1, the spout plug according to Examples 1 to 3 was easily provided. It was confirmed that it could be separated from the packaging container.

また、オーバーラントルクの測定では、リブ27、28を設けない実施例1のオーバーラントルクが実施例2、3と比較してわずかに小さかったものの、実施例1〜3に係る注出口栓は十分なオーバーラントルクを確保でき、オーバーランが発生し難いことが確認できた。 Further, in the measurement of the overrun torque, although the overrun torque of Example 1 without the ribs 27 and 28 was slightly smaller than that of Examples 2 and 3, the spout plugs according to Examples 1 to 3 were It was confirmed that sufficient overrun torque could be secured and overrun was unlikely to occur.

また、落下破壊試験では、実施例1に係る注出口栓は、落下試験1、2のどちらも、2回目の落下まで破損は生じなかった。また、実施例2、3に係る注出口栓は、落下試験1、2のどちらも、3回目の落下まで破損が生じなかった。このことから、実施例1〜3に係る注出口栓が十分な強度を備え、特に、リブ27、28を形成することでその効果が顕著であることが確認できた。 Further, in the drop fracture test, the spout plug according to Example 1 was not damaged until the second drop in both the drop tests 1 and 2. Further, the spout plugs according to Examples 2 and 3 were not damaged until the third drop in both the drop tests 1 and 2. From this, it was confirmed that the spout plugs according to Examples 1 to 3 had sufficient strength, and that the effect was particularly remarkable by forming the ribs 27 and 28.

また、溶着後の注出口栓のフランジ部13の底面から天板21の上面までの高さを測定するとともに、溶着により第1の肉盗み部16に変形が生じていないかを目視で確認した。寸法測定では、実施例1〜3に係る注出口栓のいずれも、規格(18.5mm以下)を満たす高さであった。また、実施例1〜3に係る注出口栓のいずれも、第1の肉盗み部16に変形は確認されなかった。このことから、第1の肉盗み部16を形成した注出口栓を溶着しても、大きな変形は生じないことが確認された。 In addition, the height from the bottom surface of the flange portion 13 of the spout plug after welding to the top surface of the top plate 21 was measured, and it was visually confirmed whether or not the first meat stealing portion 16 was deformed by welding. .. In the dimensional measurement, all of the spout plugs according to Examples 1 to 3 had a height satisfying the standard (18.5 mm or less). In addition, no deformation was confirmed in the first meat stealing portion 16 in any of the spout plugs according to Examples 1 to 3. From this, it was confirmed that even if the spout / outlet plug forming the first meat stealing portion 16 is welded, no significant deformation occurs.

以上説明したように、本発明によれば、十分な剛性を有し、溶着時の超音波振動によっても破損することがなく、包装容器の解体に際して容易に分離が可能な注出口栓及びこれを用いた包装容器を提供することができる。 As described above, according to the present invention, there is a spout plug that has sufficient rigidity, is not damaged by ultrasonic vibration during welding, and can be easily separated when disassembling the packaging container. The used packaging container can be provided.

本発明は、液体等を収容する紙製包装容器等に有用である。 The present invention is useful for paper packaging containers and the like that contain liquids and the like.

1、5 包装容器
2 注出口栓
3 スパウト
4 キャップ
11 側壁部
12 台座部
13 フランジ部
14 外ネジ
15 凸部
16 第1の肉盗み部
17 隔壁
18 ハーフカット
19 支柱
20 プルリング
21 天板
22 周壁
23 内ネジ
24 第2の肉盗み部
25 リブ(第2の肉盗み部)
26 リブ薄厚部
27 第1のリブ
28 第2のリブ
29 壁
100、200 容器本体
101 頂部
102 胴部
103 底部
105 脆弱部
106a、106b 屋根板
107 折込み板
108 折返し板
110、210 ブランク
114 注出孔
1, 5 Packaging container 2 Outlet plug 3 Spout 4 Cap 11 Side wall 12 Pedestal 13 Flange 14 External screw 15 Convex 16 First meat steal 17 Septum 18 Half cut 19 Strut 20 Pull ring 21 Top plate 22 Peripheral wall 23 Internal screw 24 2nd meat stealing part 25 Rib (2nd meat stealing part)
26 Rib thin part 27 1st rib 28 2nd rib 29 Wall 100, 200 Container body 101 Top 102 Body 103 Bottom 105 Fragile part 106a, 106b Roof plate 107 Folded plate 108 Folded plate 110, 210 Blank 114 Injection hole

Claims (4)

円筒状の側壁と、前記側壁の下端に設けられた前記側壁より外周径の大きい円筒状の台座部と、前記台座部の下端縁から外方に延伸して設けられた円盤状のフランジ部とを有するスパウトと、
前記スパウトの上端から取り付けられるキャップとを含み、
前記台座部の外周面に、全周にわたる溝状の第1の肉盗み部が形成され、
前記台座部の下端面に、前記第1の肉盗み部と同心円状に設けられた溝状の第2の肉盗み部が形成され、
前記第1の肉盗み部は、前記第2の肉盗み部よりも前記台座部の外周側に形成され、
前記第1の肉盗み部の下端は、前記第2の肉盗み部の上端よりも下方に位置するように形成され
前記第1の肉盗み部と前記第2の肉盗み部との間の、前記フランジ部の上面より上方に、前記フランジ部より厚みが薄い壁が形成されている、注出口栓。
A cylindrical side wall, a cylindrical pedestal portion having a larger outer diameter than the side wall provided at the lower end of the side wall, and a disk-shaped flange portion provided extending outward from the lower end edge of the pedestal portion. With a spout that has
Including a cap attached from the top of the spout
A groove-shaped first meat stealing portion is formed on the outer peripheral surface of the pedestal portion over the entire circumference.
A groove-shaped second meat stealing portion provided concentrically with the first meat stealing portion is formed on the lower end surface of the pedestal portion.
The first meat stealing portion is formed on the outer peripheral side of the pedestal portion with respect to the second meat stealing portion.
The lower end of the first meat stealing portion is formed so as to be located below the upper end of the second meat stealing portion .
A spout plug in which a wall thinner than the flange portion is formed above the upper surface of the flange portion between the first meat stealing portion and the second meat stealing portion .
前記第1の肉盗み部に、リブが形成されている、請求項1に記載の注出口栓。 The spout plug according to claim 1, wherein ribs are formed on the first meat stealing portion. 前記第1の肉盗み部の上下方向における幅が、前記フランジ部の板厚よりも大きい、請求項1または2に記載の注出口栓。 The spout plug according to claim 1 or 2, wherein the width of the first meat stealing portion in the vertical direction is larger than the plate thickness of the flange portion. 注出孔が設けられた容器本体と、
前記注出孔に前記側壁が挿入され、前記フランジが前記容器本体に貼り付けられた、請求項1〜3のいずれかに記載の注出口栓とを含む、包装容器。
A container body with a pouring hole and
A packaging container comprising the spout plug according to any one of claims 1 to 3, wherein the side wall is inserted into the spout hole and the flange is attached to the container body.
JP2016078355A 2016-04-08 2016-04-08 Spout plug and packaging container Expired - Fee Related JP6819072B2 (en)

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