JP2015105124A - Synthetic resin blow container - Google Patents

Synthetic resin blow container Download PDF

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JP2015105124A
JP2015105124A JP2013248528A JP2013248528A JP2015105124A JP 2015105124 A JP2015105124 A JP 2015105124A JP 2013248528 A JP2013248528 A JP 2013248528A JP 2013248528 A JP2013248528 A JP 2013248528A JP 2015105124 A JP2015105124 A JP 2015105124A
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synthetic resin
blow container
neck ring
resin blow
mouth tube
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JP6532183B2 (en
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山本 学
Manabu Yamamoto
学 山本
宮入 圭介
Keisuke Miyairi
圭介 宮入
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Yoshino Kogyosho Co Ltd
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Yoshino Kogyosho Co Ltd
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Abstract

PROBLEM TO BE SOLVED: To create a synthetic resin blow container capable of preventing the buckling deformation of a neck ring by effectively absorbing/relaxing a capping force (vertical load and shock) added to a mouth cylindrical part when capping a cap.SOLUTION: In a synthetic resin blow container provided with a circular neck ring (8) at a mouth cylindrical part (2), intermittent parts (9) are formed at a plurality of portions on the neck ring (8) and the neck ring (8) is divided into a plurality of convex ribs (8A).

Description

本発明は合成樹脂製ブロー容器に係わり、特に口筒部に設けられたネックリングの座屈変形を防止する合成樹脂製ブロー容器に関する。   The present invention relates to a synthetic resin blow container, and more particularly to a synthetic resin blow container that prevents buckling deformation of a neck ring provided in a mouth tube portion.

内容物を充填する合成樹脂製容器としては、例えば以下の特許文献1に記載されているような容器が一般的に知られている。
特許文献1に記載の容器は、溶融樹脂が円筒状の押し出されたパリソンを両側から2つの割金型で挟み込んだ状態でブローするダイレクトブロー法により成形された熱充填ボトルである。同文献の図1などの半断面図に示されるように、ダイレクトブロー法により成形される容器においては、口筒部に設けられるネックリングが中空状に成形されることがある。 As a synthetic resin container filled with the contents, for example, a container described in Patent Document 1 below is generally known.
The container described in Patent Document 1 is a hot-fill bottle formed by a direct blow method in which a molten resin is blown in a state in which a cylindrical extruded parison is sandwiched between two split molds from both sides. As shown in a half-sectional view such as FIG. 1 of the same document, in a container formed by the direct blow method, the neck ring provided in the mouth tube portion may be formed in a hollow shape.

特開2013−112413号公報JP 2013-112413 A

容器にキャップを打栓する場合において、特に高い嵌合力を得ようとする場合には打栓力を大きくする必要がある。
しかしながら、中空状に形成されたネックリングは、機械的強度が弱い状態にあるため、大きな打栓力が口筒部に作用するとネックリングが座屈変形し、キャップの取り付けが不完全になる虞がある。 When a cap is plugged into a container, it is necessary to increase the plugging force particularly when trying to obtain a high fitting force.
However, since the neck ring formed in a hollow shape is in a state where the mechanical strength is weak, the neck ring may buckle and deform when the large stoppering force acts on the mouth tube portion, and the cap attachment may be incomplete. There is.

本発明は、上記した従来技術における問題点を解消すべく、キャップを打栓する際に口筒部に加わる打栓力(垂直荷重や衝撃)を効果的に吸収緩和してネックリングの座屈変形を防止することができるようにした合成樹脂製ブロー容器を創出することを課題とする。   In order to solve the above-mentioned problems in the prior art, the present invention effectively absorbs and relaxes the plugging force (vertical load and impact) applied to the mouth tube when the cap is plugged, thereby buckling the neck ring. It is an object to create a synthetic resin blow container that can prevent deformation.

上記課題を解決するための手段のうち、本発明の主たる構成は、
口筒部に周状のネックリングを備えた合成樹脂製ブロー容器であって、
ネックリングの複数の箇所に間欠部を形成し、ネックリングを複数の凸リブに分断したことを特徴とする、と云うものである。 Of the means for solving the above problems, the main configuration of the present invention is as follows.
A synthetic resin blow container having a circumferential neck ring in the mouth tube part,
It is said that intermittent portions are formed at a plurality of portions of the neck ring, and the neck ring is divided into a plurality of convex ribs.

上記構成では、ネックリングを長さ寸法の短い凸リブに分断することにより、分断後の個々の凸リブを潰れ難くすることを達成する。   In the above configuration, by dividing the neck ring into convex ribs having a short length, it is possible to make the individual convex ribs after the division difficult to be crushed.

また本発明の他の構成は、上記構成に、凸リブを、口筒部の下端から拡径状に形成した傾斜部と、この傾斜部の下端から口筒部の下部位置に設けられた首部の上端に向かって水平に形成された支持部と、傾斜部と支持部との間に位置する折り返し部と、凸リブの周方向の両端に形成された端壁とを有して成る傾斜断面状に形成した、との構成を加えたものである。   In addition, another configuration of the present invention includes an inclined portion in which the convex rib is formed in a diameter-expanded shape from the lower end of the mouth tube portion, and a neck portion provided at a lower position of the mouth tube portion from the lower end of the inclined portion. An inclined cross section comprising: a support portion formed horizontally toward the upper end of the first rib; a folded portion positioned between the inclined portion and the support portion; and end walls formed at both ends of the convex rib in the circumferential direction. This is a configuration in which the shape is added.

上記構成では、凸リブの座屈強度を向上させることができる。   In the said structure, the buckling strength of a convex rib can be improved.

また本発明の他の構成は、請求項2記載の構成に、折り返し部と両端壁の少なくとも一方を垂直面で形成した、との構成を加えたものである。   According to another aspect of the present invention, a configuration in which at least one of the folded portion and both end walls is formed as a vertical surface is added to the configuration according to claim 2.

上記構成では、折り返し部や両端壁が柱部として機能するため、垂直荷重や衝撃に十分に耐えうる凸リブとすることができる。   In the said structure, since a folding | turning part and both end walls function as a pillar part, it can be set as the convex rib which can fully endure a vertical load and an impact.

また本発明の他の構成は、請求項2又は3記載の構成に、凸リブを形成する傾斜部の周方向の長さ寸法と支持部の周方向の長さ寸法とを同寸法に形成した、との構成を加えたものである。   According to another aspect of the present invention, in the configuration according to claim 2 or 3, the circumferential length of the inclined portion forming the convex rib and the circumferential length of the support portion are formed to the same dimension. , And are added.

上記構成では、周方向に渡る凸リブの強度のばらつきを抑えることができる。   With the above configuration, it is possible to suppress variations in the strength of the convex ribs in the circumferential direction.

また本発明の他の構成は、上記いずれかの構成に、間欠部を、パーティングラインを挟んで線対称となる位置に配置した、との構成を加えたものである。   In addition, another configuration of the present invention is obtained by adding the configuration in which the intermittent portion is arranged at a position that is line-symmetric with respect to the parting line, in addition to any of the configurations described above.

上記構成では、成形用の金型や成形工程を複雑化することなく、成形後ボトルの型抜き作業を容易し、さらには3つ以上の割金型を必要としたり、成形工程を複雑化したりする必要がない。   In the above configuration, without complicating the molding die and the molding process, it is easy to perform the mold punching operation after molding, and more than two split molds are required, and the molding process is complicated. There is no need to do.

本発明は、上記した構成となっているので、以下に示す効果を奏する。   Since the present invention has the above-described configuration, the following effects can be obtained.

ネックリングを長さ寸法の短い凸リブに分断することにより、分断後の個々の凸リブを潰れ難くすることができる。また凸リブを傾斜断面状に形成することにより座屈強度を向上させることができる。また折り返し部や両端部を略垂直面で形成することにより、折り返し部や両端壁が柱部として機能するため、さらに座屈強度を向上させることができる。よって、口筒部へのキャップの打栓をより確実に行うことが可能となる。   By dividing the neck ring into convex ribs having a short length, the individual convex ribs after the division can be made difficult to be crushed. Further, the buckling strength can be improved by forming the convex ribs in an inclined cross section. Further, by forming the folded portion and both end portions with a substantially vertical surface, the folded portion and both end walls function as a column portion, so that the buckling strength can be further improved. Therefore, it is possible to more reliably perform the stoppering of the cap onto the mouth tube portion.

特に、内容物が熱充填されるダイレクトブロー成形容器にあっては、キャップ打栓時におけるネックリングの座屈変形を効果的に防止することができるため、打栓力を強くしてキャップの嵌合力を向上させることが可能となり、結果として高い気密性を保持することができる。   In particular, in a direct blow molded container in which the contents are hot-filled, it is possible to effectively prevent buckling deformation of the neck ring at the time of cap stoppering. The resultant force can be improved, and as a result, high airtightness can be maintained.

本発明の実施の形態としてブ合成樹脂製ブロー容器を示す斜視図である。It is a perspective view which shows the synthetic resin blow container as embodiment of this invention. 合成樹脂製ブロー容器の正面図である。It is a front view of a synthetic resin blow container. 合成樹脂製ブロー容器の平面図である。It is a top view of a synthetic resin blow container. 合成樹脂製ブロー容器の底面図である。It is a bottom view of a synthetic resin blow container. 合成樹脂製ブロー容器の口筒部近傍を拡大して示す半断面図である。It is a half sectional view which expands and shows the mouth tube part neighborhood of a synthetic resin blow container.

以下、本発明の実施の形態について図面を参照しつつ説明する。   Embodiments of the present invention will be described below with reference to the drawings.

ボトル1は、例えばポリプロピレン(PP)樹脂からなるパリソンをダイレクトブロー法により延伸した、いわゆる合成樹脂製ブロー容器である。ボトル1はその上部に口筒部2及び首部3が設けられ、この首部3の下端から拡径状に広がる肩部4と、肩部4から下方に延びる円筒状の胴部5及び底部6を有して構成されている。   The bottle 1 is a so-called synthetic resin blow container in which a parison made of, for example, polypropylene (PP) resin is stretched by a direct blow method. The bottle 1 is provided with a mouth tube portion 2 and a neck portion 3 at the upper portion thereof, and a shoulder portion 4 that expands from the lower end of the neck portion 3 and a cylindrical body portion 5 and a bottom portion 6 that extend downward from the shoulder portion 4. It is configured.

口筒部2と首部3とは共に短円筒状であり、下部側の首部3の方が上部側の口筒部2よりも大きい径寸法で形成されている。図5に示すように、口筒部2には図示しないキャップを固定保持するための掛止リング7が周設され、口筒部2と首部3との間にはネックリング8が一体に形成されている。   Both the mouth tube portion 2 and the neck portion 3 are short cylindrical, and the lower neck portion 3 is formed with a larger diameter than the upper mouth tube portion 2. As shown in FIG. 5, a hook ring 7 for fixing and holding a cap (not shown) is provided around the mouth tube portion 2, and a neck ring 8 is integrally formed between the mouth tube portion 2 and the neck portion 3. Has been.

ネックリング8の複数(本実施例では4つ)の箇所には、その一部を欠いて形成して成る間欠部9が配置されており、ネックリング8がこれら複数の間欠部9により複数(本実施例では4つ)の凸リブ8Aに分断されている(図3参照)。このように周状のネックリング8を、それよりも周方向の寸長さ法が短い凸リブ8Aに分けることにより、個々の凸リブ8Aを潰れ難くすることができる。   Intermittent portions 9 formed by lacking a part of the neck ring 8 are disposed at a plurality (four in this embodiment) of the neck ring 8. In the present embodiment, it is divided into four convex ribs 8A (see FIG. 3). Thus, by dividing the circumferential neck ring 8 into the convex ribs 8A having a shorter dimension in the circumferential direction, the individual convex ribs 8A can be made difficult to be crushed.

より詳しく説明すると、図5に示すように、凸リブ8Aは、口筒部2の下端から拡径状に形成した傾斜部8aと、この傾斜部8aの下端から首部3の上端に向かって水平に形成された支持部8cと、傾斜部8aと支持部8cとの間に位置する折り返し部8bと、凸リブ8Aの周方向の両端に形成された端壁8dとを有して成る傾斜断面状に形成されている。このように凸リブ8Aは、傾斜部8aと支持部8cとの間に中空部8eを有する構成となるが、折り返し部8bと両端の端壁(両端壁)8dとを垂直荷重や衝撃に対抗する略垂直な面で形成して柱部として機能させることにより座屈強度を高めることができる。   More specifically, as shown in FIG. 5, the convex rib 8 </ b> A has an inclined portion 8 a formed in a diameter-expanded shape from the lower end of the mouth tube portion 2, and extends horizontally from the lower end of the inclined portion 8 a toward the upper end of the neck portion 3. A tilted cross section comprising: a support portion 8c formed on the upper surface; a folded portion 8b positioned between the inclined portion 8a and the support portion 8c; and end walls 8d formed at both ends in the circumferential direction of the convex rib 8A. It is formed in a shape. Thus, the convex rib 8A has a structure having the hollow portion 8e between the inclined portion 8a and the support portion 8c, but the folded portion 8b and the end walls (both end walls) 8d are opposed to vertical loads and impacts. The buckling strength can be increased by forming a substantially vertical surface and functioning as a column portion.

また図5に示すように間欠部9の断面は傾斜面状であるが、間欠部9を正面から見た形状は、口筒部2の下端と連設する上側を頂点とし、首部3の上端と連設する下側を底辺とする略二等辺三角形状である。他方、凸リブ8Aは、口筒部2下端と連設する傾斜部8a側の周方向の長さ寸法L1と、首部3の上端に連設する支持部8c側の周方向の長さ寸法L2とは同寸法(L1=L2)に形成されている。このように、凸リブ8Aの上端と下端の周方向の長さ寸法を一致させることにより、周方向の全体に渡って凸リブ8Aの強度がばらつくことを防止することが可能となっている。   Further, as shown in FIG. 5, the cross section of the intermittent portion 9 is inclined, but the shape of the intermittent portion 9 viewed from the front is an apex at the upper side connected to the lower end of the mouth tube portion 2 and the upper end of the neck portion 3. Are isosceles triangles with the bottom side as the bottom side. On the other hand, the convex rib 8A has a circumferential length L1 on the inclined portion 8a side connected to the lower end of the mouth tube portion 2, and a circumferential length L2 on the support portion 8c side connected to the upper end of the neck portion 3. Are formed in the same dimension (L1 = L2). In this way, by matching the circumferential lengths of the upper end and the lower end of the convex rib 8A, it is possible to prevent the strength of the convex rib 8A from varying over the entire circumferential direction.

さらに複数の間欠部9は、パーティングラインPLを挟んで線対称となる位置で且つパーティングラインPL上を除いた位置に配置しており、パリソンを両側から2つの割金型で挟み込んでダイレクトブロー成形した後の型抜き作業を容易とすることが可能となっている。また成形用の割金型の数を3つ以上にしたり、成形工程を複雑化したりすることなく、ボトル1を容易に成形することができる。   Furthermore, the plurality of intermittent portions 9 are arranged at positions that are line-symmetric with respect to the parting line PL and at positions other than on the parting line PL, and the parison is sandwiched between two split molds from both sides. It is possible to facilitate the die cutting work after blow molding. Further, the bottle 1 can be easily molded without increasing the number of molds for molding to 3 or more or complicating the molding process.

上記構成からなるボトル1にキャップを打栓する工程は、内容物を充填した後のボトル1のネックリング8の支持部8cの下に、支持台としてのネックサポート20を設置した状態で行われる。キャップが打栓されると、キャップの内面に形成されている掛止突起(いずれも図せず)と口筒部2側の掛止リング7とが掛合(アンダーカット結合)し、キャップが口筒部2に強固に固定されて高い気密性を保持することが可能となっている。   The step of plugging the cap into the bottle 1 having the above-described configuration is performed in a state in which the neck support 20 as a support base is installed under the support portion 8c of the neck ring 8 of the bottle 1 after filling the contents. . When the cap is struck, the latching protrusions (not shown) formed on the inner surface of the cap and the latching ring 7 on the side of the mouth tube portion 2 are engaged (undercut coupling), and the cap is opened. It is possible to maintain high airtightness by being firmly fixed to the tube portion 2.

ここで、打栓力はキャップを介して口筒部2に鉛直方向から作用する。この際、ネックリング8を構成する凸リブ8Aの支持部8cがネックサポート20に弾圧して支える。そして、打栓力は凸リブ8Aの両端の端壁8d及び折り返し部8bにも作用することになるが、略垂直な面で構成される両端壁8d及び折り返し部8bが柱部として機能しこの打栓力に対抗し得るため、凸リブ8Aの座屈変形を効果的に防止する。また打栓力は傾斜面状の間欠部9にも作用するが、傾斜面には平行成分と垂直成分に分かれて作用することから間欠部9に実質的に作用する力が小さくなって凸リブ8Aの座屈変形を阻止する。   Here, the plugging force acts on the mouth tube part 2 from the vertical direction through the cap. At this time, the support portion 8 c of the convex rib 8 </ b> A constituting the neck ring 8 is supported and supported by the neck support 20. The plugging force also acts on the end walls 8d and the folded portions 8b at both ends of the convex rib 8A. However, the both end walls 8d and the folded portions 8b configured by substantially vertical surfaces function as column portions. Since it can counter the striking force, the buckling deformation of the convex rib 8A is effectively prevented. Further, the plugging force also acts on the inclined surface-like intermittent portion 9, but the force acting on the intermittent portion 9 is reduced because the inclined surface is divided into a parallel component and a vertical component. 8A buckling deformation is prevented.

このように、本発明では、周状のネックリング8の複数の箇所に間欠部9を形成して凸リブ8Aに分断することにより、口筒部2に加わる打栓力(垂直荷重や衝撃)を効果的に吸収緩和することができ、これによりネックリング8を構成する凸リブ8Aの座屈変形を防止することが可能となっている。よって、打栓工程において、キャップを口筒部2に確実に取り付けることができる。   Thus, in the present invention, the plugging force (vertical load or impact) applied to the mouth tube portion 2 by forming the intermittent portions 9 at a plurality of locations on the circumferential neck ring 8 and dividing the portions into the convex ribs 8A. Thus, the buckling deformation of the convex rib 8A constituting the neck ring 8 can be prevented. Therefore, the cap can be reliably attached to the mouthpiece portion 2 in the plugging step.

以上、実施例に沿って本発明の構成とその作用効果について説明したが、本発明の実施の形態は上記実施例に限定されるものではない。   As mentioned above, although the structure of this invention and its effect were demonstrated along the Example, embodiment of this invention is not limited to the said Example.

また上記実施例では、口筒部2と首部3の径寸法が異なる構成を示して説明したが、本発明はこれに限定されるものではなく、口筒部2と首部3とが同寸法からなる構成であってもよい。   Moreover, in the said Example, although the diameter dimension of the mouth tube part 2 and the neck part 3 was shown and demonstrated, this invention is not limited to this, The mouth tube part 2 and the neck part 3 are from the same dimension. The structure which becomes may be sufficient.

さらに上記実施例では、折り返し部8bと凸リブ8Aの両端壁8dの双方を略垂直な面で形成した構成を示して説明したが、本発明はこれに限定されるものではなく、いずれか一方を略垂直な面とする構成とすることもできる。ただし、折り返し部8bと両端壁8dの双方を略垂直な面とした方がより座屈強度を高めることができる点で好ましい。   Furthermore, in the said Example, although the structure which formed both the folding | returning part 8b and the both end walls 8d of the convex rib 8A with the substantially perpendicular | vertical surface was shown and demonstrated, this invention is not limited to this, Either one It can also be set as the structure made into a substantially perpendicular | vertical surface. However, it is preferable that both the folded portion 8b and the both end walls 8d have substantially vertical surfaces because the buckling strength can be further increased.

また上記実施例では、4つの間欠部9により4つの凸リブ8Aに分断した例を示して説明したが、間欠部9及び凸リブ8Aの数は4つに限定されるものではなく、2つ以上有する構成であればよい。   In the above-described embodiment, an example in which the four intermittent portions 9 are divided into four convex ribs 8A has been described. However, the number of the intermittent portions 9 and the convex ribs 8A is not limited to four. What is necessary is just the structure which has the above.

本発明は、キャップをボトルの口筒部に打栓により取り付けるブロー容器の分野における用途展開をさらに広い領域で図ることができる。   INDUSTRIAL APPLICABILITY The present invention can be used in a wider area in the field of blow containers in which a cap is attached to a bottle barrel by plugging.

1 : ボトル(ブロー容器)
2 : 口筒部
3 : 首部
4 : 肩部
5 : 胴部
6 : 底部
7 : 掛止リング
8 : ネックリング
8A : 凸リブ
8a : 傾斜部
8b : 折り返し部
8c : 支持部
8d : 端壁
8e : 中空部
9 : 間欠部
20 : ネックサポート(支持台)
1: Bottle (blow container)
2: neck portion 3: neck portion 4: shoulder portion 5: trunk portion 6: bottom portion 7: hook ring 8: neck ring 8A: convex rib 8a: inclined portion 8b: folded portion 8c: support portion 8d: end wall 8e: Hollow part 9: Intermittent part 20: Neck support (support stand)

Claims (5)

口筒部(2)に周状のネックリング(8)を備えた合成樹脂製ブロー容器であって、
前記ネックリング(8)の複数の箇所に間欠部(9)を形成し、前記ネックリング(8)を複数の凸リブ(8A)に分断したことを特徴とする合成樹脂製ブロー容器。 It is a synthetic resin blow container provided with a circumferential neck ring (8) in the mouth tube part (2),
A synthetic resin blow container, wherein intermittent portions (9) are formed at a plurality of portions of the neck ring (8), and the neck ring (8) is divided into a plurality of convex ribs (8A). 凸リブ(8A)を、口筒部(2)の下端から拡径状に形成した傾斜部(8a)と、該傾斜部(8a)の下端から前記口筒部(2)の下部位置に設けられた首部(3)の上端に向かって水平に形成された支持部(8c)と、前記傾斜部(8a)と前記支持部(8c)との間に位置する折り返し部(8b)と、前記凸リブ(8A)の周方向の両端に形成された端壁(8d)とを有して成る傾斜断面状に形成した請求項1記載の合成樹脂製ブロー容器。   A convex rib (8A) is provided at an inclined portion (8a) having an enlarged diameter from the lower end of the mouth tube portion (2), and at a lower position of the mouth tube portion (2) from the lower end of the inclined portion (8a). A support part (8c) formed horizontally toward the upper end of the neck part (3) formed, a folded part (8b) positioned between the inclined part (8a) and the support part (8c), The synthetic resin blow container according to claim 1, which is formed in an inclined cross section having end walls (8d) formed at both ends in the circumferential direction of the convex rib (8A). 折り返し部(8b)と両端壁(8d)の少なくとも一方を垂直面で形成した請求項2記載の合成樹脂製ブロー容器。   The synthetic resin blow container according to claim 2, wherein at least one of the folded portion (8b) and both end walls (8d) is formed as a vertical surface. 凸リブ(8A)を形成する傾斜部(8a)の周方向の長さ寸法(L1)と支持部(8c)の周方向の長さ寸法(L2)とを同寸法に形成した請求項2又は3記載の合成樹脂製ブロー容器。   The circumferential dimension (L1) of the inclined part (8a) forming the convex rib (8A) and the circumferential dimension (L2) of the supporting part (8c) are formed in the same dimension. 3. A synthetic resin blow container according to 3. 間欠部(9)を、パーティングライン(PL)を挟んで線対称となる位置に配置した請求項1乃至4のいずれか一項に記載の合成樹脂製ブロー容器。   The synthetic resin blow container according to any one of claims 1 to 4, wherein the intermittent portion (9) is arranged at a line-symmetrical position across the parting line (PL).
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