JP6072862B2 - Ink filled liquid container - Google Patents

Ink filled liquid container Download PDF

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JP6072862B2
JP6072862B2 JP2015133010A JP2015133010A JP6072862B2 JP 6072862 B2 JP6072862 B2 JP 6072862B2 JP 2015133010 A JP2015133010 A JP 2015133010A JP 2015133010 A JP2015133010 A JP 2015133010A JP 6072862 B2 JP6072862 B2 JP 6072862B2
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film
fused
ink
spout
liquid container
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JP2015166272A (en
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正孝 桜田
正孝 桜田
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Toppan Inc
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本発明は、インク、マヨネーズ、ケチャップ、ソースなどの高粘度の液体を収容し、自吸式機械にかけるための液体容器に関するものである。   The present invention relates to a liquid container for containing a high-viscosity liquid such as ink, mayonnaise, ketchup, sauce, etc., and applying it to a self-priming machine.

従来、高粘度の液体を収容し自吸式機械にかけるための液体容器としては、例えばバッグインボックス(特許文献1)がある。この液体容器は、段ボールや厚紙などで作製したほぼ四角形状又は筒形状の外箱に、内容物を排出可能又は充填及び排出ために厚肉の注出口を一側面に融着したフィルム体を収容したものであった。なお、注出口は、前もって外箱から突出させているものと、使用時に外箱の注出口部分を開口して注出口を引き出すものなどがある。この液体容器は、主としてソースや醤油、酒、現像液などの液体を収容する業務用容器として使われてきた。   Conventionally, as a liquid container for storing a highly viscous liquid and applying it to a self-priming machine, there is, for example, a bag-in-box (Patent Document 1). This liquid container accommodates a film body in which a thick spout is fused on one side to allow the contents to be discharged or to be filled and discharged in a substantially rectangular or cylindrical outer box made of cardboard or cardboard. Was. In addition, there exist a thing which makes the spout protrude from the outer box beforehand, and a thing which opens the spout part of the outer box and pulls out the spout during use. This liquid container has been mainly used as a business container for storing liquids such as sauce, soy sauce, sake, and developer.

ところで、内容物が豚カツ用ソース、謄写版やシルクスクリーン印刷用のインキ、マヨネーズなどの粘度が高い内容物では、単に重力だけでは容器の注出口から内容物を排出することが出来ないので、内容物を注出口から吸引して排出していた。   By the way, if the contents are high viscosity contents such as sauce for pork cutlet, ink for screen printing or silkscreen printing, mayonnaise, etc., the contents cannot be discharged from the spout of the container simply by gravity. Was sucked and discharged from the spout.

しかしながら、上述の従来のバッグインボックスなどの液体容器においては、図6に示すように、内容物を注出口から吸引排出すると、注出口近傍の内容物がまず排出されるが、内容物の粘度が高いので、この排出された内容物の容積分を容器のフィルム体が変形して埋め、吸引力が注出口から離れたところの内容物までは及ばないことがあった。従って、図6に示すように、容器の外箱35内に収容されたフィルム体36は、a,b,c,dの順に変形して、注出口5近傍のフィルム体の一部分が吸引されて、注出口の口元を塞いでしまう問題があり、内容物の排出効率のバラツキが大きかった。このため、フィルム体の外表面の半分ほどの外箱の内面に貼着して、排出時にフィルム体が完全に折り込まれるようにする方法が考案されたが、十分な効果が得られなかった。   However, in the above-described conventional liquid container such as a bag-in-box, as shown in FIG. 6, when the contents are sucked and discharged from the spout, the contents near the spout are first discharged, but the viscosity of the contents Therefore, the volume of the discharged contents is filled by the film body of the container being deformed, and the suction force may not reach the contents away from the spout. Therefore, as shown in FIG. 6, the film body 36 accommodated in the outer box 35 of the container is deformed in the order of a, b, c, d, and a part of the film body near the spout 5 is sucked. There was a problem that the mouth of the spout was blocked, and the content discharge efficiency varied greatly. For this reason, although the method of sticking on the inner surface of the outer box about the half of the outer surface of a film body and making a film body fold completely at the time of discharge | emission was devised, sufficient effect was not acquired.

特開平8−207939号公報JP-A-8-207939

そこで、本発明者は、容器に高粘度の内容物を充填しても、内容物の吸引排出時にフィルム体が注出口の口元を塞ぐことなく確実に内容物が排出されて、内容物の残留量が極めて少ない液体容器の開発を行った。   Therefore, even when the container is filled with high-viscosity contents, the contents are reliably discharged without blocking the mouth of the spout when the contents are sucked and discharged, and the contents remain. We developed a liquid container with a very small volume.

また、近年、量産する製品は、生産だけでなく、その廃棄をも含めて検討する必要が出てきている。特に、プラスチック容器は、その内容物の保護性及び便利性に優れるが故に広く使用されてきたが、内容物を排出後の空容器が廃棄処理しにくいと言う問題があった。それは、(1)容量が大きく、嵩張り、輸送や保管のコストが高くなる。(2)埋没廃棄しても微生物に分解されずに、いつまでも同じ形状や大きさで残る。(3)焼却処理すると、燃焼カロリーが大きいので炉を痛めやすい。などの社会的な問題があった。これらの問題の解決も併せて考慮して液体容器の開発を行った。   In recent years, it has become necessary to consider not only production but also disposal of products to be mass-produced. In particular, plastic containers have been widely used because they are excellent in the protection and convenience of their contents, but there is a problem that empty containers after the contents are discharged are difficult to dispose of. It is (1) large in capacity, bulky, and high in transportation and storage costs. (2) Even if it is buried and discarded, it remains indefinitely in the same shape and size without being decomposed into microorganisms. (3) Incineration tends to damage the furnace because of the large amount of calories burned. There were social problems such as. The liquid container was developed in consideration of the solution of these problems.

本発明は、高粘度の内容物を吸引排出しても内容物の排出効率が良好であり、輸送や保管のコストが安く、廃棄処理がし易い液体容器を提供するものである。   The present invention provides a liquid container that is excellent in the efficiency of discharging the contents even if the high-viscosity contents are sucked and discharged, has low transportation and storage costs, and is easy to dispose of.

すなわち、本発明は、一側面に注出口が融着されて高粘度の液体の内容物であるインキを排出可能にした、内容物吸引機に設置して用いるインキ充填液体容器において、前記液体容器が、側面形成用のフィルムAと、該側面の上方または下方に水平面を形成するフィルムBとからなり、該側面形成用のフィルムAは、注出口が融着された表片と、該表片と対向する裏片との二面とを有し、前記フィルムAの表片と裏片の間に前記フィルムBが、前記フィルムBの対向するように配置した上下の辺を前記フィルムAの上辺または下辺とに位置を合わせた状態で挿入されており、高粘度の液体である前記インキを収容できるように、前記フィルムAの周囲と前記フィルムBの周囲とが帯状の融着部で融着されており、かつ、前記フィルムAの上辺または下辺から帯状の傾斜融着部で前記フィルムAと前記フィルムBとが融着されており、前記注出口は容器外側に頸部を有し、前記頸部に前記液体容器を支える鍔が設けられ、容器内側にリブによる凹凸が設けられ、前記注出口が前記フィルムAの表片に融着されたインキ充填液体容器であって、インキを充填後、前記鍔の容器側の前記頸部に前記内容物吸引機の位置決め板をかけて、前記注出口の内側壁に前記内容物吸引機のノズルを押し当てて内容物を吸引排出することにより、インキの残存量が16%以下となり、かつ、前記フィルムBの一部に補強材が重ねられていることを特徴とするインキ充填液体容器である。 That is, the present invention relates to an ink-filled liquid container that is installed in a content suction machine and has a spout fused to one side surface so that ink that is a high-viscosity liquid content can be discharged. Comprises a film A for forming a side surface and a film B for forming a horizontal plane above or below the side surface. The film A for forming the side surface includes a surface piece having a spout fused thereto, and the surface piece. The upper and lower sides of the film A are arranged so that the film B faces the film B between the front and back pieces of the film A. Alternatively, it is inserted in a state aligned with the lower side, and the periphery of the film A and the periphery of the film B are fused at a band-shaped fused portion so that the ink that is a highly viscous liquid can be accommodated. And the upper side of the film A Alternatively, the film A and the film B are fused at a belt-like inclined fusion part from the lower side, the spout has a neck part on the outer side of the container, and a heel supporting the liquid container is provided on the neck part. An ink-filled liquid container provided with ribs on the inside of the container, and the spout is fused to the surface piece of the film A, and after filling with ink, the neck on the container side of the bag By applying the positioning plate of the content suction machine to the inner wall of the spout and pressing the nozzle of the content suction machine to suck and discharge the content, the residual amount of ink becomes 16% or less, In addition, the ink filling liquid container is characterized in that a reinforcing material is superimposed on a part of the film B.

本発明の液体容器は、粘度の高い内容物に使用するものであり、内容物の自動充填機や自動吸引機に使用でき、内容物を吸引排出するときに、注出口が容器を形成するフィルム体で塞がれることがなく、内容物の排出状態が良好であり、排出残量が少ない。   The liquid container of the present invention is used for high-viscosity contents, and can be used for an automatic filling machine or automatic suction machine for contents. When the contents are sucked and discharged, a film in which a spout forms a container It is not blocked by the body, the contents are well discharged, and the remaining amount of discharge is small.

また、本発明の液体容器の空容器は、平らな形状にすることができ、内容物充填前及び内容物排出後の容器の保管や輸送に場所を取らないので、保管費用や輸送費用が安価である。   In addition, the empty container of the liquid container of the present invention can be flattened and saves space for storage and transportation because it does not take up space for storage and transportation of the container before filling the contents and after discharging the contents. It is.

本発明の一実施形態の液体容器の内容物を充填したときの外観を示す説明図である。It is explanatory drawing which shows an external appearance when the content of the liquid container of one Embodiment of this invention is filled. 本発明の一実施形態の液体容器の融着部を示す説明図であり、(a)は、融着するときの表面で、(b)は、その裏面である。It is explanatory drawing which shows the melt | fusion part of the liquid container of one Embodiment of this invention, (a) is the surface when fuse | melting, (b) is the back surface. 本発明の液体容器の作製における融着時のフィルムの重ね合わせ状態を示す説明図である。It is explanatory drawing which shows the lamination | stacking state of the film at the time of melt | fusion in preparation of the liquid container of this invention. 本発明の他の一実施形態の液体容器の融着部を示す説明図であり、(a)は、融着するときの表面で、(b)は、その裏面である。It is explanatory drawing which shows the melt | fusion part of the liquid container of other one Embodiment of this invention, (a) is the surface at the time of melt | fusion, (b) is the back surface. 本発明の液体容器の内容物の排出に伴う形状の変化を示す平面図であり、(a)は、内容物を排出前の容器であり、(b)は、内容物を排出後の容器である。It is a top view which shows the change of the shape accompanying discharge | emission of the contents of the liquid container of this invention, (a) is a container before discharging | emitting a content, (b) is a container after discharging | emitting a content. is there. 従来のバッグインボックスにおける外箱内に収容されたフィルム体の内容物排出に伴う形状の変化を示す説明図である。It is explanatory drawing which shows the change of the shape accompanying the discharge of the contents of the film body accommodated in the outer case in the conventional bag-in-box.

本発明の実施形態の液体容器について、次に、図を用いて詳細に説明する。
本発明の一実施形態の液体容器は、図1に示すように、四側面1,2,3,4を例えばポリアミド/エチレン・ビニルアルコール共重合体/ポリエチレン構成などの積層フィルムであるフィルムAで作製するものであり、内容物を注入又は排出するための別体の注出口5を、所定の位置に孔を明けて突出させて融着するものである。
Next, the liquid container according to the embodiment of the present invention will be described in detail with reference to the drawings.
As shown in FIG. 1, a liquid container according to an embodiment of the present invention is a film A that is a laminated film of four side surfaces 1, 2, 3, 4 such as polyamide / ethylene / vinyl alcohol copolymer / polyethylene. A separate spout 5 for injecting or discharging the contents is made by opening a hole at a predetermined position and fused.

フィルムAは、ドライラミネーション、ウエットラミネーション、エクストルージョンラミネーションなどのラミネート加工法で作製されるものであるが、上述の構成の他に、ポリアミド/変性ポリエチレン/ポリエチレン構成、エチレン・酢酸ビニル共重合体鹸化物/変性ポリエチレン/ポリエチレン構成、ポリアミド/エチレン・酢酸ビニル共重合体鹸化物/変性ポリエチレン/ポリエチレン構成、2軸延伸ポリエチレンテレフタレート/ポリアミド/変性ポリエチレン/ポリエチレン構成、2軸延伸ポリエチレンテレフタレート/エチレン・酢酸ビニル共重合体鹸化物/変性ポリエチレン/ポリエチレン構成、2軸延伸ポリエチレンテレフタレート/ポリアミド/エチレン・酢酸ビニル共重合体鹸化物/変性ポリエチレン構成、2軸延伸ポリプロピレン/ポリアミド/変性ポリエチレン/ポリエチレン構成などの積層フィルムを使用することができる。なお、変性ポリエチレンは、無水マレイン酸変性ポリエチレンなどである。   Film A is produced by a laminating method such as dry lamination, wet lamination, and extrusion lamination. In addition to the above-described structure, the film A is a polyamide / modified polyethylene / polyethylene structure, an ethylene / vinyl acetate copolymer saponification. Product / modified polyethylene / polyethylene composition, polyamide / ethylene / vinyl acetate copolymer saponified product / modified polyethylene / polyethylene composition, biaxially oriented polyethylene terephthalate / polyamide / modified polyethylene / polyethylene composition, biaxially oriented polyethylene terephthalate / ethylene / vinyl acetate Copolymer saponified product / modified polyethylene / polyethylene composition, biaxially stretched polyethylene terephthalate / polyamide / ethylene / vinyl acetate copolymer saponified product / modified polyethylene composition, biaxial elongation Laminated films such as polypropylene / polyamide / modified polyethylene / polyethylene structure can be used. The modified polyethylene is maleic anhydride-modified polyethylene.

また、別体の注出口は、通常、ポリエチレンなどを射出成形品を用いるが、特にバリア性が必要な場合には、サンドイッチ成形の多層射出成形品を使用してもよい。注出口には、内容物の充填又は吸引排出するときに容器を支えるための鍔を頸部の所定位置に設けるが、この鍔の形状は、円形、六角形、五角形、四角形など任意の必要な形状をとることができる。   The separate spout is usually made of an injection-molded product made of polyethylene or the like, but a sandwich-molded multilayer injection-molded product may be used particularly when barrier properties are required. The spout is provided with a heel at a predetermined position on the neck to support the container when filling or aspirating the contents. The shape of this heel can be any required shape such as a circle, hexagon, pentagon, or rectangle. Can take shape.

前述の四側面の上方及び下方に図1に示す水平面6,7を形成する二面は、例えば2軸延伸ポリエチレンテレフタレート/ポリアミド/エチレン・酢酸ビニル共重合体鹸化物変性ポリエチレン/ポリエチレン構成などの積層フィルムであるフィルムBで作製するものであるが、このフィルムBは、油脂や水分などに対しバリア性を有し、容器での外側表面は融着しにくい材質で作製するものである。   The two surfaces forming the horizontal planes 6 and 7 shown in FIG. 1 above and below the four side surfaces described above are laminated layers such as a biaxially oriented polyethylene terephthalate / polyamide / ethylene / vinyl acetate copolymer saponified modified polyethylene / polyethylene structure, for example. The film B is made of a material that has barrier properties against oils and fats, moisture, and the like, and the outer surface of the container is made of a material that is difficult to fuse.

フィルムBは、上述の構成の他に、2軸延伸ポリエチレンテレフタレート/ポリアミド/変性ポリエチレン/ポリエチレン構成、2軸延伸ポリエチレンテレフタレート/エチレン・酢酸ビニル共重合体鹸化物/変性ポリエチレン/ポリエチレン構成、2軸延伸ポリエチレンテレフタレート/ポリアミド/エチレン・酢酸ビニル共重合体鹸化物/変性ポリエチレン構成、2軸延伸ポリプロピレン/ポリアミド/変性ポリエチレン/ポリエチレン構成などの積層フィルムを使用することができる。フィルムBは、フィルムAより剛性が低い方がよい。それは、柔らかくすることによって、内容物が注出されるときに、フィルムAよりも先に内側に入り込むことによって、折り畳み易くするためである。剛性を低くするには、剛性を有するバリア層、すなわち、エチレン・酢酸ビニル共重合体鹸化物やポリアミドの層を薄くすることや、2軸延伸ポリエチレンテレフタレート層を薄くするものである。また、フィルムの総厚を薄くすることによって剛性を低くしてもよい。   In addition to the above-described configuration, the film B has a biaxially stretched polyethylene terephthalate / polyamide / modified polyethylene / polyethylene configuration, a biaxially stretched polyethylene terephthalate / ethylene-vinyl acetate copolymer saponified product, a modified polyethylene / polyethylene configuration, and a biaxial stretch. A laminated film of polyethylene terephthalate / polyamide / ethylene / vinyl acetate copolymer saponified product / modified polyethylene configuration, biaxially oriented polypropylene / polyamide / modified polyethylene / polyethylene configuration, or the like can be used. The film B should have a lower rigidity than the film A. The reason for this is to make it easy to fold by making it softer and entering the inside before the film A when the contents are poured out. In order to lower the rigidity, the barrier layer having rigidity, that is, the saponified ethylene / vinyl acetate copolymer or polyamide layer is thinned, and the biaxially stretched polyethylene terephthalate layer is thinned. Further, the rigidity may be lowered by reducing the total thickness of the film.

四側面を形成するフィルムAの内面に、上方及び下方の二面を形成するフィルムBを、それぞれ融着する面が外側になるように折り曲げて挿入し、この状態で四側面のフィルムAの周囲をヒートシール法で通常約220℃で熱融着する。この融着は、図2(a)及び(b)に示すように、融着部8,9はフィルムA同士が融着しているが、その他の融着部10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25では、フィルムAとフィルムBとが融着している。これらの部分は、図3に示すように、フィルムA/フィルムB/フィルムA/フィルムBと重ねた状態で熱融着されるが、フィルムBの外側表面同士は融着しないため、フィルムA/フィルムBとフィルムA/フィルムBとが融着する。注出口は、前もってフィルムAの所定位置に熱融着して突設して置くことが作業上で好ましい。なお、プラスチックフィルムを重ね合わせて熱融着し、そのまま直方体状の容器を製造する方法は、従来、知られていないものである。   The film B that forms the upper and lower surfaces is inserted into the inner surface of the film A that forms the four side surfaces while being folded so that the surfaces to be fused are on the outer side. Is usually heat-sealed at about 220 ° C. by a heat seal method. In this fusion, as shown in FIGS. 2A and 2B, the fusion parts 8 and 9 are fused to each other, but the other fusion parts 10, 11, 12, 13, In 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, and 25, film A and film B are fused. As shown in FIG. 3, these portions are heat-sealed in a state of being overlapped with film A / film B / film A / film B, but the outer surfaces of the film B are not fused with each other. Film B and film A / film B are fused. It is preferable from the viewpoint of work that the spout is placed in a predetermined position on the film A by heat-sealing in advance. Heretofore, a method of manufacturing a rectangular parallelepiped container as it is by laminating plastic films and heat-sealing them is not conventionally known.

また、図4(a)及び(b)に示すように、フィルムA同士の融着部8,9と、フィルムAとフィルムBとの融着部14,15,16,17,18,19,20,21,22,23,24,25との境界部分から、45度の角度で更に融着部26,27,28,29,30,31,32,33を設けることによって、より形状がはっきりして、膨らませたときに、直方体形状になりやすく、また、内容物が排出しにくい部分に入り込みにくくなる。   Also, as shown in FIGS. 4A and 4B, the fused portions 8 and 9 between the films A and the fused portions 14, 15, 16, 17, 18, 19, between the films A and B, By providing further fused portions 26, 27, 28, 29, 30, 31, 32, 33 at an angle of 45 degrees from the boundary with 20, 21, 22, 23, 24, 25, the shape is clearer. Thus, when it is inflated, it tends to be a rectangular parallelepiped shape, and it is difficult to enter the portion where the contents are difficult to be discharged.

内容物を充填した本発明の液体容器から内容物を吸引排出するには、注出口に設けた鍔の容器側にある頸部に、内容物吸引機の位置決め板をかけ、吸引ノズルを挿入し、吸引ノズル側面に設けたゴム製のOリングによって注出口の内側壁に押し当てて機密性を確保するか、又は孔明き壁にノズルを押し当てて外気を吸引することを防ぎながら内容物を吸引排出する。   To suck and discharge the contents from the liquid container of the present invention filled with the contents, put the positioning plate of the contents suction machine on the neck on the container side of the bag provided at the spout and insert the suction nozzle. The rubber O-ring provided on the side of the suction nozzle is pressed against the inner wall of the spout to ensure confidentiality, or the nozzle is pressed against the perforated wall to prevent the outside air from being sucked. Remove by suction.

そして、吸引ノズルにより容器の内容物を排出して行くと、注出口が内容物吸引機の位置決め板及びその周りの壁によって口部を融着している側面1が動かないので、平面図の図5(a)及び(b)に示すように、薄肉で剛性が低いフィルムBの上下の二水平面6,7(7は、下面であため図示せず)が注出口5側に吸引され、それに伴って、側面1と対象の位置にある側面3が次第に側面1に向かって移動してくる。注出口は、通常、肉厚が0.6〜2.0mm厚、好ましくは0.8〜3.0mm厚のポリエチレン製で側面1の所定位置に固定されており、容器が折り畳まれたときに、注出口に接する部分のフィルムBの内面に、一面に融着層をもつフィルムを融着して置くと、注出口がフィルムBに接触しても、剛性を有するので、注出口の容器内側の形状をリブなどで凹凸を付けることにより、完全に注出口を塞ぐことがなく、最後まで確実に内容物を吸引排出することができる。また、容器外側に、粘着層をもつ剛性を有するフィルムや紙などを貼り付けてもよい。   And when the contents of the container are discharged by the suction nozzle, the side surface 1 where the spout is fused to the mouth by the positioning plate of the contents suction machine and the surrounding wall does not move. As shown in FIGS. 5 (a) and 5 (b), the upper and lower two horizontal planes 6 and 7 (7 is not shown because it is a lower surface) of the thin and low rigidity film B are sucked to the spout 5 side, Accordingly, the side surface 1 and the side surface 3 at the target position gradually move toward the side surface 1. The spout is usually made of polyethylene having a wall thickness of 0.6 to 2.0 mm, preferably 0.8 to 3.0 mm, and is fixed at a predetermined position on the side surface 1. When the container is folded, When a film having a fusion layer on one side is fused and placed on the inner surface of the film B at the portion in contact with the spout, the spout has rigidity even if it comes into contact with the film B. By making the shape of the surface uneven with ribs or the like, the contents can be reliably sucked and discharged to the end without completely closing the spout. Further, a rigid film or paper having an adhesive layer may be attached to the outside of the container.

本発明の液体容器は、主として、粘度の高い液体、例えばインキ、チョコレート、マヨネーズ、ケチャップ、液体洗剤、衣料柔軟剤、ペンキ、接着剤、蜂蜜などに使用する容器であり、基本的には、容器から内容物を機械的に吸引排出するものを対象とする。   The liquid container of the present invention is a container mainly used for high-viscosity liquids such as ink, chocolate, mayonnaise, ketchup, liquid detergent, clothing softener, paint, adhesive, honey, etc. It is intended for those that mechanically aspirate and discharge the contents.

また、本発明の液体容器は、注出口以外の部分を平らにして、体積を小さくすることができる。内容物の充填前は、容器を平らな形状にして保管や輸送ができるので、保管費用や輸送費用が安価である。従って、充填工場に専用の容器製造工場を設置する必要がなく、イニシャルコストを小さくできる。   Moreover, the liquid container of this invention can make parts other than a spout flat, and can make a volume small. Before the contents are filled, the container can be stored and transported in a flat shape, so that the storage cost and the transport cost are low. Therefore, it is not necessary to install a dedicated container manufacturing factory in the filling factory, and the initial cost can be reduced.

また、本発明の液体容器は、内容物が吸引排出されて折り畳まれたときに、注出口が当たるフィルムBの部分に図1に示す補強材34を重ねて置くと、部分的に剛性が高められ、注出口をフィルムBが塞がないようになり、内容物の排出が安定する。フィルムBに重ねる補強材は、フィルム、厚紙などでよく、また、補強材は、フィルムBの内側又は外側に融着や接着などの手段で貼着すればよい。   Further, the liquid container of the present invention is partially rigid when the reinforcing material 34 shown in FIG. 1 is placed on the portion of the film B where the spout hits when the contents are sucked out and folded. As a result, the film B does not block the spout and the discharge of the contents is stabilized. The reinforcing material to be superimposed on the film B may be a film, cardboard, etc., and the reinforcing material may be attached to the inside or outside of the film B by means such as fusion or adhesion.

図4に示す融着部26,27,28,29,30,31,32,33は、その他の融着部とは45度の角度で傾いて融着している。この融着部は、その他の融着部とは異なって、一見どうしても融着しなければならない部分ではないが、この融着部がないと、この融着部位置の外側に内容物が入って形状がゆがみ、また内容物の排出性が悪くなる恐れがある。この45度傾けた融着部があると、内容物の充填時にスムーズに容器が直方体状の箱型に立ち上がり、内容物の排出時にはフィルムBがフィルムAより先に折り畳まれ易くなる。この45度傾けた融着部によって、内容物が充填されない部分を切断してしまっても勿論構わない。   The fused portions 26, 27, 28, 29, 30, 31, 32, and 33 shown in FIG. 4 are fused at an angle of 45 degrees with respect to the other fused portions. Unlike the other fused parts, this fused part is not a part that must be fused at first glance. However, if this fused part is not present, the contents enter the outside of the fused part. The shape may be distorted and the discharge of the contents may be impaired. When there is a fusion part inclined 45 degrees, the container rises smoothly into a rectangular parallelepiped box shape when the contents are filled, and the film B is easily folded before the film A when the contents are discharged. Of course, it is possible to cut the portion that is not filled with the contents by the fusion part inclined 45 degrees.

また、融着部14,15,16,17は、この部分のフィルムBの一部を切り欠いて孔を明けるか、幅を小さくするなどの対応で、注出口側と、この反対面側のフィルムA同士を融着すると、容器の形状が保ち易くなる。   Further, the fused portions 14, 15, 16, and 17 are formed on the spout side and on the opposite surface side by cutting out a part of the film B in this portion to make a hole or reducing the width. When the films A are fused, the shape of the container is easily maintained.

まず、フィルムAとしてポリアミド/エチレン・ビニルアルコール共重合体/ポリエチレン構成で200μm厚の積層フィルムをドライラミネーションで作製し、また、フィルムBとして2軸延伸ポリエチレンテレフタレート/ポリアミド/エチレン・酢酸ビニル共重合体鹸化物変性ポリエチレン/ポリエチレン構成で200μm厚の積層フィルムをドライラミネーションで作製し、これら積層フィルムをそれぞれ角状の所定の形状に切断した。次に、これらのフィルムA及びフィルムBを用いて、フィルムBをそれぞれ融着する面が外側になるように折り曲げて、注出口を所定位置に突設し二枚重ねのフィルムAの間の上方及び下方から挿入し、この状態で、図2(a)及び(b)に示すように、周囲の融着部8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25をヒートシールシール法で220℃の融着条件で熱融着して、本実施例1の容量が600mlの液体容器を作製した。なお、注出口を除く容器の外形寸法は、縦80mm、横100mm、高さ80mmであった。   First, a laminated film having a thickness of 200 μm with a polyamide / ethylene / vinyl alcohol copolymer / polyethylene structure was prepared as a film A by dry lamination, and a biaxially stretched polyethylene terephthalate / polyamide / ethylene / vinyl acetate copolymer was formed as a film B. Laminated films having a thickness of 200 μm were prepared by dry lamination with a saponified modified polyethylene / polyethylene structure, and these laminated films were each cut into a predetermined square shape. Next, using these films A and B, the film B is folded so that the surfaces to be fused are on the outside, and the spout is provided at a predetermined position so that the upper and lower portions between the two stacked films A are above and below. In this state, as shown in FIGS. 2 (a) and 2 (b), the surrounding fused portions 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19 , 20, 21, 22, 23, 24, and 25 were heat-sealed by a heat seal seal method at a temperature of 220 ° C. to produce a liquid container having a capacity of 600 ml of Example 1. The external dimensions of the container excluding the spout were 80 mm long, 100 mm wide, and 80 mm high.

フィルムBの厚みが130μmで、融着部を、図4(a)及び(b)に示すように、45度の角度の融着部26,27,28,29,30,31,32,33を更に設けた以外は、実施例1と同様に作製して、本実施例2の液体容器を作製した。   As shown in FIGS. 4A and 4B, the thickness of the film B is 130 μm, and the fused portions are fused portions 26, 27, 28, 29, 30, 31, 32, 33 of 45 degrees as shown in FIGS. The liquid container of Example 2 was produced in the same manner as in Example 1 except that was further provided.

実施例2の液体容器の注出口の対向部分のフィルムBの内面に、図1に示すように、補強材34として所定形状のフィルムBを融着して、本実施例3の液体容器を作製した。
<評 価>
As shown in FIG. 1, a film B having a predetermined shape is fused as a reinforcing material 34 to the inner surface of the film B opposite to the spout of the liquid container of Example 2 to produce the liquid container of Example 3. did.
<Evaluation>

上述の実施例1、実施例2及び実施例3の液体容器に、それぞれ高粘度のシルクスクリーン用インキを充填し、自動吸引機により内容物を吸引排出させた。そのときの3回測定における内容物の残存量は、実施例1の容器では、100ml(16%)、50ml(8%)、70ml(12%)であり、実施例2の容器では、50ml(8%)、7ml(1.2%)、60ml(10%)であり、そして、実施例3の容器では、10ml(1.7%)、12ml(2%)、8ml(1.3%)であった。   The liquid containers of Example 1, Example 2 and Example 3 were filled with high-viscosity silk screen ink, and the contents were sucked and discharged by an automatic suction machine. The remaining contents in the three measurements at that time are 100 ml (16%), 50 ml (8%), and 70 ml (12%) in the container of Example 1, and 50 ml ( 8 ml), 7 ml (1.2%), 60 ml (10%), and in the container of Example 3, 10 ml (1.7%), 12 ml (2%), 8 ml (1.3%) Met.

上述の本発明の3実施例の液体容器は、従来の液体容器と較べると内容物の残存率が小さく、特に実施例3の液体容器の排出状態が再現性よく安定していた。   The above-described liquid container of the third embodiment of the present invention has a low content remaining rate as compared with the conventional liquid container, and the discharge state of the liquid container of the third embodiment is particularly stable with good reproducibility.

本発明は、インク、マヨネーズ、ケチャップ、ソースなどの高粘度の液体を収容し、自吸式機械にかけるための液体容器に利用可能である。   INDUSTRIAL APPLICABILITY The present invention can be used for a liquid container for containing a high viscosity liquid such as ink, mayonnaise, ketchup, sauce, etc. and applying it to a self-priming machine.

1,2,3,4…側面 5…注出口 6,7…水平面 8,9…融着部
10,11,12,13,14,15,16,17,18.19…融着部
20,21,22,23,24,25,26,27,28,29…融着部
30,31,32,33……融着部 34…補強材 35…外箱
36…フィルム体
1, 2, 3, 4 ... side surface 5 ... spout 6, 7 ... horizontal plane 8, 9 ... fused portion 10, 11, 12, 13, 14, 15, 16, 17, 18.19 ... fused portion 20, 21, 22, 23, 24, 25, 26, 27, 28, 29 ... fused parts 30, 31, 32, 33 ... fused parts 34 ... reinforcing material 35 ... outer box
36 ... Film body

Claims (1)

一側面に注出口が融着されて高粘度の液体の内容物であるインキを排出可能にした、内容物吸引機に設置して用いるインキ充填液体容器において、前記液体容器が、側面形成用のフィルムAと、該側面の上方または下方に水平面を形成するフィルムBとからなり、該側面形成用のフィルムAは、注出口が融着された表片と、該表片と対向する裏片との二面とを有し、前記フィルムAの表片と裏片の間に前記フィルムBが、前記フィルムBの対向するように配置した上下の辺を前記フィルムAの上辺または下辺とに位置を合わせた状態で挿入されており、高粘度の液体である前記インキを収容できるように、前記フィルムAの周囲と前記フィルムBの周囲とが帯状の融着部で融着されており、かつ、前記フィルムAの上辺または下辺から帯状の傾斜融着部で前記フィルムAと前記フィルムBとが融着されており、前記注出口は容器外側に頸部を有し、前記頸部に前記液体容器を支える鍔が設けられ、容器内側にリブによる凹凸が設けられ、前記注出口が前記フィルムAの表片に融着されたインキ充填液体容器であって、インキを充填後、前記鍔の容器側の前記頸部に前記内容物吸引機の位置決め板をかけて、前記注出口の内側壁に前記内容物吸引機のノズルを押し当てて内容物を吸引排出することにより、インキの残存量が16%以下となり、かつ、前記フィルムBの一部に補強材が重ねられていることを特徴とするインキ充填液体容器。 In an ink-filled liquid container that is installed in a content suction machine and that is capable of discharging ink , which is a high-viscosity liquid content, fused on one side surface, the liquid container is used for side surface formation. The film A and the film B that forms a horizontal plane above or below the side surface, the film A for forming the side surface includes a front piece to which the spout is fused, and a back piece that faces the front piece The upper and lower sides of the film A arranged between the front and back pieces of the film A so as to face each other are positioned on the upper side or the lower side of the film A. The periphery of the film A and the periphery of the film B are fused with a band-shaped fusion part so that the ink which is inserted in a combined state and can accommodate the ink which is a highly viscous liquid, and From the upper side or the lower side of the film A, The film A and the film B are fused at an oblique fusion part, the spout has a neck part on the outside of the container, and a heel for supporting the liquid container is provided on the neck part. An ink-filled liquid container provided with irregularities by ribs, and the spout is fused to the surface piece of the film A, and after filling with ink, the contents suction device is placed on the neck on the container side of the bag The remaining amount of the ink is 16% or less, and the film B is pressed against the inner wall of the spout by pressing the nozzle of the content suction machine and sucking out the content. An ink-filled liquid container characterized in that a reinforcing material is partially overlapped .
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