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JP3478097B2 - Transport carrier for square container filling machine - Google Patents
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JP3478097B2 - Transport carrier for square container filling machine - Google Patents

Transport carrier for square container filling machine

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Publication number
JP3478097B2
JP3478097B2 JP33168097A JP33168097A JP3478097B2 JP 3478097 B2 JP3478097 B2 JP 3478097B2 JP 33168097 A JP33168097 A JP 33168097A JP 33168097 A JP33168097 A JP 33168097A JP 3478097 B2 JP3478097 B2 JP 3478097B2
Authority
JP
Japan
Prior art keywords
carrier
container
rectangular
filling machine
pair
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
Application number
JP33168097A
Other languages
Japanese (ja)
Other versions
JPH11165712A (en
Inventor
五月 河路
淳 湯澤
忠司 大杉
隆 丸山
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Toppan Inc
Original Assignee
Toppan Inc
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Toppan Inc filed Critical Toppan Inc
Priority to JP33168097A priority Critical patent/JP3478097B2/en
Publication of JPH11165712A publication Critical patent/JPH11165712A/en
Application granted granted Critical
Publication of JP3478097B2 publication Critical patent/JP3478097B2/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

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  • Supplying Of Containers To The Packaging Station (AREA)
  • Basic Packing Technique (AREA)

Description

【発明の詳細な説明】 【0001】 【発明の属する技術分野】本発明は、紙製角筒状の液体
包装容器を製函して液体内容物を充填する紙製角筒容器
充填機において角筒容器を搬送する角筒容器充填機用キ
ャリアに関する。 【0002】 【従来の技術】一般に紙製角筒容器の充填機は、図5
(a)の側面図及び図5(b)の平面図に示すように、
容器成形部40と、該容器成形部40と接続して設けら
れたチャンバー50(カバー体)内には、四角形状の角
筒容器1を1個ずつホールドするキャリア板51aが一
定間隔で取り付けてある一対の対向するエンドレスチェ
ーン52、52からなる搬送機構53、および前記チェ
ーン52の対向間に沿って下部に水平に底部ガイド54
が設けられている。なお、無菌充填機のチャンバー50
の場合は陽圧状態の無菌エアーが供給される無菌チャン
バー50となっている。 【0003】前記成形部40は、折り畳まれた偏平形状
の四角形状の角筒容器1を多数枚集積して前方に1枚ず
つフィードするカートンマガジン部41と、角筒容器1
を偏平形状から立体形状の角筒容器1に立ち起こす立ち
起こし部42と、立ち起こした角筒容器1を装填支持し
て容器底部をシール成形するマンドレルアーム45を回
転中心部44に放射状に有して回転するマンドレル部4
3を備えている。 【0004】チャンバー50には、ジュース、牛乳、酒
等の内容物を角筒容器1に頂部開口部より充填する充填
部58と、該容器1の頂部開口部を加熱する加熱部59
と、この加熱した開口部を圧着して密封する密封部60
と、充填密封された角筒容器1を搬出する搬出部62か
らなっている。 【0005】また、例えば無菌チャンバー50の場合
は、搬入部61から搬入された前記容器1の外部を殺菌
する外部殺菌部55と、該容器1内部を殺菌する内部殺
菌部56と、容器1内部の殺菌液を乾燥すると共に加熱
殺菌する乾燥部57と、ジュース、牛乳、酒等の内容物
を容器1に頂部開口部より充填する充填部58と、容器
1の頂部開口部を加熱する加熱部59と、この加熱した
開口部を圧着して密封する密封部60と、充填密封容器
Cを搬出する搬出部62からなっている。そして無菌エ
ア送風部63は搬入部61の反対側に設けられている。 【0006】 【発明が解決しようとする課題】図6の拡大平面図に示
すように、搬送機構53は、各々キャリア板51aがそ
の基端部にて両端部のモーター駆動スプロケット52
a、52bに巻回して互いに逆方向に回転送行する一対
の対向するそれぞれエンドレスチェーン52、52に等
間隔で一体的に取り付けられており、搬送キャリア51
は、それぞれエンドレスチェーン52、52の対向間に
おいて互いに対向する一対のキャリア板51a、51a
により構成され、角筒容器1は、そのエンドレスチェー
ン52、52に取り付けられた各々キャリア板51a、
51aに挟まれて直線的に前方に順次搬送されるように
なっている。 【0007】このような従来の搬送キャリア51は、容
器1の角寸サイズが変わる度にその容器外形角寸に適合
したサイズに調整する必要があり、従来の搬送キャリア
51のサイズ調整に当たっては、図6に示すように、各
々エンドレスチェーン52、52の対向間において、そ
の各々チェーン52、52に取り付けられて対向する一
対のキャリア板51a、51aの離間距離aと、一対の
対向するエンドレスチェーン52、52の離間距離Dと
を移動調整することによって、容器外形角寸a×bに適
合したサイズに調整するようにしており、キャリア板5
1aの離間距離aにおいてはエンドレスチェーン52に
取り付けられた個々のキャリア板51aの取り付けネジ
の弛めや締め付け作業や、エンドレスチェーン52に対
する個々のキャリア板51aの正確な位置決め作業にか
なりの時間と手間を必要としていた。 【0008】本発明は、搬送キャリアのサイズ変更作業
において、容器外形角寸サイズに適合した搬送キャリア
サイズに容易に設定変更できるようにすることにある。 【0009】 【課題を解決するための手段】本発明は、互いに逆回転
送行する一対の各々エンドレスチェーン12にそれぞれ
等間隔に複数のキャリア部22が取り付けられ、その各
々エンドレスチェーン12の離間対向送行間に正対する
一対の前記キャリア部22、22により構成される搬送
キャリア11により角筒容器1の前後及び左右の角隅側
部をホールドして順次搬送する角筒容器充填機用搬送キ
ャリアにおいて、各々エンドレスチェーン12に取り付
けた前記キャリア部22は離間対向送行方向の前後に取
り付けた一対の対向する段状ホルダー板23、23によ
り構成され、該各々段状ホルダー板23の対向内面に階
段状の段差部24が設けられていることを特徴とする角
筒容器充填機用搬送キャリアである。 【0010】 【発明の実施の形態】本発明の角筒容器充填機用搬送キ
ャリアの実施の形態を、以下に詳細に説明すれば、図1
は、本発明の角筒容器充填機用搬送キャリア11を取り
付けた角筒容器搬送機構13の平面図であり、複数個の
キャリア部22が、モーターにより駆動するスプロケッ
ト12a、12bに巻回して互いに逆方向に回転送行す
る一対の距離Dにて離間対向するそれぞれエンドレスチ
ェーン12、12に等間隔に一体的に取り付けられてい
る。 【0011】角筒容器充填機用の搬送キャリア11は、
対向送行する前記エンドレスチェーン12、12の離間
対向送行間において、互いに正対する複数対の前記キャ
リア部22、22により構成される。 【0012】各々エンドレスチェーン12に取り付けら
れたそれぞれキャリア部22は、エンドレスチェーン1
2、12の離間対向送行方向の前後に距離aにて離間対
向して取り付けられた一対の段状ホルダー板23、23
により構成される。 【0013】前記離間対向する各々エンドレスチェーン
12、12に取り付けた前記キャリア部22、22は、
その離間対向送行間において各々一対ずつ順次互いに距
離bにて正対して送行移動するとともに、その対向送行
間に1個ずつ順次導入される角筒容器1を挟持して対向
送行方向に搬送する。なお、図中、14は角筒容器1の
底部を下方よりスライド可能に支持するステーである。 【0014】前記一対の互いに正対したキャリア部2
2、22は、角筒容器1のチェーン側に対向する両側面
の角隅部と該角筒容器1の対向送行方向に対して前後に
対向する両側面の角隅部との四角隅部を、そのキャリア
部22の各々段状ホルダー板23の対向内面に備える階
段状の段差部24のいずれか同一段部の直角内角部によ
ってホールドするように保持してその角筒容器1を前方
に搬送する。 【0015】前記正対する各々キャリア部22、22の
離間送行方向前後に離間対向する各々一対の段状ホルダ
ー板23、23は、エンドレスチェーン12に等間隔に
取り付けた支持板25にネジ27により締め付け固定さ
れ、該各々ホルダー板23、23の離間対向距離aは、
ネジ27を弛めて支持板25の長孔25aに沿って前後
方向に移動調整することにより適宜に変更できるように
なっている。 【0016】図3は、エンドレスチェーン12に取り付
けられた正対するキャリア部22、22の部分拡大平面
図であり、エンドレスチェーン12は、2枚のリンクプ
レート12aに2本の円筒状のブッシュピン12bを圧
入し、そのブッシュピン12bの外周に自由回転状態に
ローラ12cを取り付けたローラリンク(インナーリン
ク)と、該ローラリンクの外面に対向する2枚のリンク
プレート12dに2本のピン12eをブッシュピン12
bに整合して圧入したピンリンク(アウターリンク)と
を交互に組み合わせて無端状にしたものである。 【0017】上記キャリア部22のホルダー板23は、
所定ピッチ毎の各々ピンリンクに取り付け固定されたブ
ラケット21に接続する前記支持板25に取り付け支持
されている。 【0018】本発明の角筒容器充填機用搬送キャリア1
1の使用方法を図4(a)〜(c)に示す搬送キャリア
11の部分平面図に従って説明する。 【0019】図4(a)に示すように、搬送キャリア1
1により搬送する角筒容器1の角寸サイズが大きい場合
は、角筒容器1の四つの角隅部を保持する各々段状ホル
ダー板23の各段部24のうち、支持板25側に最も近
接した対向離間距離b=b1にて対向するそれぞれ段部
24を角筒容器1の四つの角隅部の保持に使用するもの
である。 【0020】その場合、同図4(a)の各々支持板2
5、25に取り付けられた互いに離間対向するそれぞれ
一対の段状ホルダー板23、23を締め付け固定してい
るネジ27を弛めて矢印方向に移動させ、それぞれ離間
対向する該一対の段状ホルダー板23、23をそのネジ
27が長孔25a内の外端部になるように位置決めして
対向離間距離aをa=a1 に拡張変更し、その後にネジ
27を締め付けてそれぞれ該段状ホルダー板23、23
を支持板25に固定する。なお、平行に離間対向するエ
ンドレスチェーン12、12の離間距離は一定距離Dを
保持した状態としておく。 【0021】搬送キャリア11によって搬送する上記角
筒容器1は、その平面視において必ずしも正方形でなく
てもよいが、例えば、図示するように角筒容器1の角寸
形状(平面視の形状)が正方形の場合は、前記対向離間
距離a1 と対向離間距離b1との関係を、a1 =b1
設定するものである。 【0022】他方、角筒容器1の角寸サイズが中程度の
大きさの場合は、図4(b)のように、角筒容器1の四
つの角隅部を保持する各々段状ホルダー板23の各段部
24のうち、対向離間距離b=b2 にて対向するそれぞ
れ中段にある段部24を角筒容器1の四つの角隅部の保
持に使用するものである。 【0023】その場合、同図4(b)の各々支持板2
5、25に取り付けられた互いに離間対向するそれぞれ
一対の段状ホルダー板23、23を締め付け固定してい
るネジ27を弛めて矢印方向に縮小移動させ、それぞれ
離間対向する該一対の段状ホルダー板23、23をその
ネジ27が長孔25a内の中程になるように位置決めし
て対向離間距離aをa=a2 に縮小変更し、その後にネ
ジ27を締め付けてそれぞれ該段状ホルダー板23、2
3を支持板25に固定する。なお、前記同様に平行に離
間対向するエンドレスチェーン12、12の離間距離は
一定距離Dを保持した状態としておく。 【0024】搬送キャリア11によって搬送する上記角
筒容器1は、その平面視において必ずしも正方形でなく
てもよいが、例えば、図示するように角筒容器1の角寸
形状(平面視の形状)が正方形の場合は、前記対向離間
距離a2 と対向離間距離b2との関係を、a2 =b2
設定するものである。 【0025】また他方、角筒容器1の角寸サイズが小さ
いサイズの場合は、図4(c)のように、角筒容器1の
四つの角隅部を保持する各々段状ホルダー板23の各段
部24のうち、支持板25側より最も離反して対向離間
距離b=b3 にて対向するそれぞれ段部24を角筒容器
1の四つの角隅部の保持に使用するものである。 【0026】その場合、同図4(c)の各々支持板2
5、25に取り付けられた互いに離間対向するそれぞれ
一対の段状ホルダー板23、23を締め付け固定してい
るネジ27を弛めて、さらに矢印方向に縮小移動させ、
それぞれ離間対向する該一対の段状ホルダー板23、2
3をそのネジ27が長孔25a内の内端部になるように
位置決めして対向離間距離aをa=a3 に縮小変更し、
その後にネジ27を締め付けてそれぞれ該段状ホルダー
板23、23を支持板25に固定する。なお、平行に離
間対向するエンドレスチェーン12、12の離間距離は
前記同様に一定距離Dを保持した状態としておく。 【0027】搬送キャリア11によって搬送する上記角
筒容器1は、その平面視において必ずしも正方形でなく
てもよいが、例えば、図示するように角筒容器1の角寸
形状(平面視の形状)が正方形の場合は、前記対向離間
距離a3 と対向離間距離b3との関係を、a3 =b3
設定するものである。 【0028】 【発明の効果】本発明の角筒容器充填機用搬送キャリア
は、充填機を用いて充填処理する角筒容器の角寸が変更
される際に行う搬送キャリアのサイズ変更作業におい
て、容器外形角寸サイズに適合した搬送キャリアサイズ
に容易に少ない労力によって設定変更できる効果があ
る。
Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a paper square cylinder container filling machine for filling a liquid content by forming a paper square cylindrical liquid packaging container. The present invention relates to a carrier for a rectangular cylinder container filling machine that transports a cylindrical container. 2. Description of the Related Art Generally, a filling machine for a rectangular paper container is shown in FIG.
As shown in the side view of (a) and the plan view of FIG.
In the container forming part 40 and a chamber 50 (cover body) provided to be connected to the container forming part 40, carrier plates 51a for holding the square rectangular containers 1 one by one are attached at regular intervals. A transport mechanism 53 composed of a pair of opposed endless chains 52, 52, and a bottom guide
Is provided. The chamber 50 of the aseptic filling machine
In this case, the aseptic chamber 50 is supplied with aseptic air in a positive pressure state. [0003] The forming section 40 is composed of a carton magazine section 41 for accumulating a large number of folded flat rectangular prismatic containers 1 and feeding them forward one by one;
An upright portion 42 that rises from the flat shape to the three-dimensional shape of the rectangular cylindrical container 1, and a mandrel arm 45 that loads and supports the raised rectangular cylindrical container 1 to seal and form the container bottom are radially provided at the rotation center portion 44. Rotating mandrel 4
3 is provided. The chamber 50 has a filling section 58 for filling contents such as juice, milk, and sake into the rectangular cylindrical container 1 from the top opening, and a heating section 59 for heating the top opening of the container 1.
And a sealing portion 60 for compressing and sealing the heated opening.
And an unloading section 62 for unloading the filled and sealed rectangular cylindrical container 1. For example, in the case of the aseptic chamber 50, an external sterilizing section 55 for sterilizing the outside of the container 1 carried in from the carrying-in section 61, an internal sterilizing section 56 for sterilizing the inside of the container 1, and an inside of the container 1 A drying unit 57 for drying and sterilizing the germicidal solution and a filling unit 58 for filling the container 1 with contents such as juice, milk, and sake from the top opening, and a heating unit for heating the top opening of the container 1 59, a sealing section 60 for compressing and sealing the heated opening, and an unloading section 62 for unloading the filled sealed container C. The aseptic air blowing section 63 is provided on the opposite side of the loading section 61. As shown in an enlarged plan view of FIG. 6, the transport mechanism 53 has a carrier plate 51a having motor-driven sprockets 52 at both ends at its base end.
a and 52b, which are integrally attached at equal intervals to a pair of opposed endless chains 52, 52 which transfer in opposite directions.
Is a pair of carrier plates 51a, 51a facing each other between the facing endless chains 52, 52, respectively.
The rectangular cylindrical container 1 has carrier plates 51a, attached to its endless chains 52, 52, respectively.
The paper is conveyed linearly forward one after another by being sandwiched by 51a. [0007] Each time the square size of the container 1 changes, such a conventional transport carrier 51 needs to be adjusted to a size suitable for the external dimensions of the container. In adjusting the size of the conventional transport carrier 51, As shown in FIG. 6, between the opposing endless chains 52, 52, the distance a between a pair of carrier plates 51 a, 51 a attached to and facing the respective chains 52, 52, and the pair of endless chains 52 , 52 by moving and adjusting the separation distance D so as to adjust the size to conform to the outer dimensions a × b of the container.
At the separation distance a of 1a, it takes a considerable amount of time and effort to loosen and tighten the mounting screws of the individual carrier plates 51a attached to the endless chain 52 and to accurately position the individual carrier plates 51a with respect to the endless chain 52. Needed. SUMMARY OF THE INVENTION It is an object of the present invention to make it possible to easily change the setting of the size of a transport carrier to a size suitable for the outer size of the container in the operation of changing the size of the transport carrier. According to the present invention, a plurality of carrier portions 22 are mounted at equal intervals on a pair of endless chains 12 which transfer data in opposite directions, respectively. A transport carrier for a rectangular cylinder container filling machine which sequentially transports while holding the front and rear and left and right corners of the rectangular cylindrical container 1 by the transport carrier 11 constituted by the pair of the carrier portions 22 and 22 facing each other between the rows, Each of the carrier portions 22 attached to the endless chain 12 is constituted by a pair of opposing stepped holder plates 23, 23 attached to the front and rear in the separated opposing transport direction. This is a transport carrier for a rectangular cylindrical container filling machine, wherein a step portion 24 is provided. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of a transport carrier for a rectangular cylindrical container filling machine according to the present invention will be described in detail below with reference to FIG.
FIG. 1 is a plan view of a rectangular container transport mechanism 13 to which a transport container 11 for a rectangular container filling machine of the present invention is attached. A plurality of carrier parts 22 are wound around sprockets 12a and 12b driven by motors, and They are integrally mounted at equal intervals on the endless chains 12, 12 facing each other at a distance D at a pair of distances D which are transferred in the opposite direction. The transport carrier 11 for the rectangular container filling machine comprises:
The space between the endless chains 12, 12, which are opposed to each other, is constituted by a plurality of pairs of the carrier parts 22, 22 facing each other. Each of the carrier portions 22 attached to the endless chain 12 is provided with an endless chain 1.
A pair of stepped holder plates 23, 23 mounted opposite to each other at a distance a in the front and rear direction of the separated opposing transport direction of 2, 12
It consists of. The carrier parts 22, 22 attached to the endless chains 12, 12 facing each other are separated from each other.
A pair of the cylinders 1 is sequentially conveyed at a distance b between the separated opposing transports, and the rectangular cylindrical containers 1 sequentially introduced one by one between the opposing transports are nipped and conveyed in the opposing transport direction. In the drawing, reference numeral 14 denotes a stay for supporting the bottom of the rectangular cylindrical container 1 so as to be slidable from below. The pair of carrier parts 2 facing each other.
Reference numerals 2 and 22 denote square corners of corners of both sides of the rectangular container 1 facing the chain side and corners of both sides facing the front and rear with respect to the facing transport direction of the rectangular container 1. The rectangular cylindrical container 1 is conveyed forward by holding it so as to be held by any one of the stepped step portions 24 provided on the opposing inner surfaces of the stepped holder plate 23 of the carrier portion 22 at the same stepped inner corner. I do. A pair of stepped holder plates 23, 23, which are opposed to each other in the forward and backward directions of the carrier portions 22, 22, which are opposed to each other, are fastened by screws 27 to support plates 25, which are attached to the endless chain 12 at equal intervals. Fixed, and the facing distance a of each of the holder plates 23, 23 is
By loosening the screw 27 and adjusting the movement of the support plate 25 in the front-rear direction along the long hole 25a, the change can be made appropriately. FIG. 3 is a partially enlarged plan view of the facing carrier portions 22 and 22 attached to the endless chain 12. The endless chain 12 includes two cylindrical bush pins 12b on two link plates 12a. A roller link (inner link) in which a roller 12c is attached to the outer periphery of the bush pin 12b in a freely rotating state, and two pins 12e are bushed to two link plates 12d facing the outer surface of the roller link. Pin 12
Pin links (outer links) press-fitted in alignment with b are alternately combined to form an endless shape. The holder plate 23 of the carrier part 22 is
It is attached to and supported by the support plate 25 connected to the bracket 21 attached to and fixed to each pin link at a predetermined pitch. The carrier 1 for a rectangular container filling machine according to the present invention.
1 will be described with reference to partial plan views of the transport carrier 11 shown in FIGS. As shown in FIG. 4A, the carrier 1
When the rectangular size of the rectangular container 1 to be conveyed by the step 1 is large, of the step portions 24 of the step-like holder plates 23 holding the four corners of the rectangular container 1 The step portions 24 facing each other at the close facing separation distance b = b 1 are used for holding four corners of the rectangular cylindrical container 1. In this case, each support plate 2 shown in FIG.
A pair of stepped holder plates 23, 23 attached to and separated from each other are loosened by loosening a screw 27 for tightening and fixing the pair of stepped holder plates 23, 23, and moved in the direction of the arrow, so that the pair of stepped holder plates, which are separated from each other, are opposed to each other. the opposing distance a expanded changed to a = a 1 and positioned such that the outer end portion in the screw 27 is long hole 25a to 23, then respectively tightening the screw 27 into the stepped shape holder plate 23, 23
Is fixed to the support plate 25. The distance between the endless chains 12, 12 facing each other in parallel and separated from each other is set to a state in which a constant distance D is maintained. The rectangular container 1 transported by the transport carrier 11 is not necessarily square in plan view. For example, as shown in the figure, the rectangular shape of the rectangular container 1 (shape in plan view) is for square, the relationship between the opposing distance a 1 and the opposing distance b 1, is to set a 1 = b 1. On the other hand, when the square size of the rectangular container 1 is a medium size, as shown in FIG. 4B, each stepped holder plate for holding the four corners of the rectangular container 1 is provided. Among the 23 step portions 24, the step portions 24 located at the middle stages facing each other at the facing separation distance b = b 2 are used for holding the four corners of the rectangular cylindrical container 1. In this case, each support plate 2 shown in FIG.
A pair of stepped holders, which are fixed to the pair of stepped holders 23, 23, which are fixed to the pair of stepped holders 23, 23, respectively, are loosened by loosening the screws 27, which are fixed to each other, in the direction of the arrow. the opposing distance a reduced change in a = a 2 and positioning the plate 23, 23 as the screw 27 is in the middle in the long hole 25a, then each tightening the screw 27 into the stepped shape holder plate 23, 2
3 is fixed to the support plate 25. The distance between the endless chains 12, 12 facing each other in parallel in the same manner as described above is kept at a constant distance D. The rectangular container 1 to be transported by the transport carrier 11 is not necessarily square in plan view. For example, the rectangular shape of the rectangular container 1 (shape in plan view) is as shown in the figure. for square, the relationship between the opposing distance a 2 and the opposing distance b 2, is to set a 2 = b 2. On the other hand, in the case where the square size of the rectangular cylindrical container 1 is small, as shown in FIG. 4 (c), each of the stepped holder plates 23 holding the four corners of the rectangular cylindrical container 1 has Of the step portions 24, the step portions 24 which are most separated from the support plate 25 side and face each other at the opposing separation distance b = b 3 are used for holding four corners of the rectangular cylindrical container 1. . In this case, each support plate 2 shown in FIG.
Loosen the screws 27 that fasten and fix the pair of stepped holder plates 23, 23 attached to and separated from each other, which are attached to 5 and 25, and further reduce and move in the direction of the arrow,
The pair of stepped holder plates 23,
3 and positioned so that the screw 27 is an inner end portion of the long hole 25a of the opposing distance a reduced change in a = a 3,
Thereafter, the screws 27 are tightened to fix the stepped holder plates 23 to the support plate 25, respectively. The distance between the endless chains 12, 12 facing each other in parallel and spaced apart from each other is maintained at a constant distance D as described above. The rectangular container 1 transported by the transport carrier 11 is not necessarily square in plan view. For example, the rectangular shape of the rectangular container 1 (shape in plan view) is as shown in the figure. for square, the relationship between the opposing distance a 3 and the opposing distance b 3, is to set a 3 = b 3. The transfer carrier for a rectangular container filling machine of the present invention can be used in a work for changing the size of the transfer carrier performed when the square size of the rectangular container to be filled using the filling machine is changed. There is an effect that the setting can be easily changed with a small amount of labor to a transport carrier size suitable for the container outer size.

【図面の簡単な説明】 【図1】本発明の角筒容器充填機用搬送キャリアを説明
する角筒容器の搬送機構の平面図。 【図2】本発明の角筒容器充填機用搬送キャリアの部分
斜視図。 【図3】本発明の角筒容器充填機用搬送キャリアの部分
平面図。 【図4】(a)は本発明の角筒容器充填機用搬送キャリ
アの角寸サイズを拡張変更する場合の平面図、(b)は
本発明の角筒容器充填機用搬送キャリアの角寸サイズを
中程度に縮小変更する場合の平面図、(c)は本発明の
角筒容器充填機用搬送キャリアの角寸サイズをさらに縮
小変更する場合の平面図。 【図5】(a)は一般的な角筒容器製函充填機の側面
図、(b)はその平面図。 【図6】一般的な角筒容器製函充填機の搬送キャリアを
説明する角筒容器の搬送機構の平面図。 【符号の説明】 1…角筒容器 11…搬送キャリア 12…エンドレスチェーン 12
a…リンクプレート 12b…ブッシュピン 12c…ローラ 12d…リン
クプレート 12e…ピン 13…搬送機構 14…底部支持用のステー 21…ブラケット 22…キャリア部 23…段状ホル
ダー板 24…段部 25…支持板
BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a plan view of a transport mechanism for a rectangular cylindrical container illustrating a transport carrier for a rectangular cylindrical container filling machine of the present invention. FIG. 2 is a partial perspective view of a transport carrier for a rectangular cylindrical container filling machine according to the present invention. FIG. 3 is a partial plan view of a transport carrier for a rectangular cylindrical container filling machine according to the present invention. FIG. 4 (a) is a plan view showing a case where the square size of the transport carrier for a rectangular tube container filling machine of the present invention is extended and changed, and FIG. FIG. 3C is a plan view when the size is reduced to a medium size, and FIG. 4C is a plan view when the square size of the transport carrier for the rectangular container filling machine of the present invention is further reduced and changed. FIG. 5 (a) is a side view of a general box filling machine for making a rectangular tube, and FIG. 5 (b) is a plan view thereof. FIG. 6 is a plan view of a transfer mechanism for a rectangular cylindrical container illustrating a transport carrier of a general rectangular cylindrical container making and filling machine. [Description of Signs] 1 ... Square tube container 11 ... Transport carrier 12 ... Endless chain 12
a ... Link plate 12b ... Bushing pin 12c ... Roller 12d ... Link plate 12e ... Pin 13 ... Transport mechanism 14 ... Stay 21 for bottom support 21 ... Bracket 22 ... Carrier part 23 ... Stepped holder plate 24 ... Step part 25 ... Support plate

───────────────────────────────────────────────────── フロントページの続き (56)参考文献 特開 平5−24621(JP,A) 特開 平6−239301(JP,A) 実開 平1−97569(JP,U) 実公 昭49−14861(JP,Y1) (58)調査した分野(Int.Cl.7,DB名) B65B 3/04 B65B 43/00 - 43/62 B65B 57/00 B65G 17/26 ──────────────────────────────────────────────────続 き Continuation of the front page (56) References JP-A-5-24621 (JP, A) JP-A-6-239301 (JP, A) JP-A-1-97569 (JP, U) 14861 (JP, Y1) (58) Fields investigated (Int. Cl. 7 , DB name) B65B 3/04 B65B 43/00-43/62 B65B 57/00 B65G 17/26

Claims (1)

(57)【特許請求の範囲】 【請求項1】互いに逆回転送行する一対の各々エンドレ
スチェーン12にそれぞれ等間隔に複数のキャリア部2
2が取り付けられ、その各々エンドレスチェーン12の
離間対向送行間に正対する一対の前記キャリア部22、
22により構成される搬送キャリア11により角筒容器
1の前後及び左右の角隅側部をホールドして順次搬送す
る角筒容器充填機用搬送キャリアにおいて、各々エンド
レスチェーン12に取り付けた前記キャリア部22は離
間対向送行方向の前後に取り付けた一対の対向する段状
ホルダー板23、23により構成され、該各々段状ホル
ダー板23の対向内面に階段状の段差部24が設けられ
ていることを特徴とする角筒容器充填機用搬送キャリ
ア。
(57) [Claim 1] A plurality of carrier parts 2 are provided at equal intervals on a pair of endless chains 12 which transfer data in opposite directions.
A pair of the carrier portions 22, each of which is directly opposed to the space between the endless chain 12 and the separated and opposed transport,
In the transfer carrier for a rectangular container filling machine which sequentially holds and transports the front and rear and right and left corners of the rectangular container 1 by the transfer carrier 11 constituted by the carrier member 22, the carrier portions 22 attached to the endless chain 12 respectively. Is constituted by a pair of opposing stepped holder plates 23 attached to the front and back in the separated opposing transport direction, and a stepped step portion 24 is provided on the opposing inner surface of each stepped holder plate 23. A transport carrier for a rectangular tube container filling machine.
JP33168097A 1997-12-02 1997-12-02 Transport carrier for square container filling machine Expired - Fee Related JP3478097B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP33168097A JP3478097B2 (en) 1997-12-02 1997-12-02 Transport carrier for square container filling machine

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP33168097A JP3478097B2 (en) 1997-12-02 1997-12-02 Transport carrier for square container filling machine

Publications (2)

Publication Number Publication Date
JPH11165712A JPH11165712A (en) 1999-06-22
JP3478097B2 true JP3478097B2 (en) 2003-12-10

Family

ID=18246387

Family Applications (1)

Application Number Title Priority Date Filing Date
JP33168097A Expired - Fee Related JP3478097B2 (en) 1997-12-02 1997-12-02 Transport carrier for square container filling machine

Country Status (1)

Country Link
JP (1) JP3478097B2 (en)

Families Citing this family (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP4556338B2 (en) * 2001-03-28 2010-10-06 凸版印刷株式会社 Mandrel device for different dimensions
JP4162974B2 (en) * 2002-11-01 2008-10-08 四国化工機株式会社 Square cylindrical container conveyor
JP4381005B2 (en) * 2003-03-05 2009-12-09 四国化工機株式会社 Container transfer conveyor device
JP4816865B2 (en) * 2005-01-27 2011-11-16 凸版印刷株式会社 Container transport device in paper liquid packaging container box filling machine
DE102017114760A1 (en) * 2017-07-03 2019-01-03 Sig Technology Ag Cell Traverse with insert elements for a filling machine
DE102020109978A1 (en) 2020-04-09 2021-12-02 Sig Technology Ag Cell traverse for a transport device of a filling machine for filling composite packs as well as cell chain, use of a cell traverse and filling machine
CN112938876A (en) * 2021-01-29 2021-06-11 福建麦沃特信息科技有限公司 Device for liquid filling

Also Published As

Publication number Publication date
JPH11165712A (en) 1999-06-22

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