| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | PROCEDE ET STATION DE TRANSFORMATION D'UN SUPPORT PLAN | EP15808112.5 | 2015-12-03 | EP3230055A1 | 2017-10-18 | CLÉMENT, Philippe; ROBADEY, Pierre |
| A method for the conversion of a flat support (W) in a flat support (W) conversion work station (3) comprising a rotary cutting unit (9) and at least one rotary deformation unit (7, 8) positioned upstream of the rotary cutting unit (9) in the direction of travel (L) of the flat support (W) comprises the steps consisting in: - determining parameters pertaining to the conversion of the flat support (W), such as the deformation layout and the cutting layout; - selecting a sleeve (13) bearing a shaped used for the deformation, according to the deformation layout; - mounting the sleeve (13) on a mandrel (12) in the rotary deformation unit (7, 8); - selecting the cutting tools (91, 92) according to the cutting layout; - mounting the cutting tools (91, 92) in the rotary cutting unit (9); and - beginning the conversion of the flat support (W). | ||||||
| 2 | 平坦基材を変換するための方法及びステーション | JP2017529041 | 2015-12-03 | JP2017537818A | 2017-12-21 | フィリップ クレマン; ピエール ロバデイ |
| 回転式打抜ユニット(9)と、平坦基材(W)の移動方向(L)で回転式打抜ユニット(9)の上流に配置された少なくとも1つの回転式変形ユニット(7、8)とを備えた平坦基材(W)変換用ステーション(3)内で、平坦基材(W)を変換するための方法は、−平坦基材(W)の変形レイアウト及び打抜レイアウトなどの変換パラメータを決定するステップと、−変形レイアウトに応じて、変形を実行するための形態を持つスリーブ(13)を選択するステップと、−スリーブ(13)を回転式変形ユニット(7、8)内のマンドレル(12)に取り付けるステップと、−打抜レイアウトに応じて打抜工具(91、92)を選択するステップと、−打抜工具(91、92)を回転式打抜ユニット(9)内に取り付けるステップと、−平坦基材(W)の変換を開始するステップと、を含む。【選択図】図3 | ||||||
| 3 | カートンをカートントラックに供給するためのカートン供給装置及び方法 | JP2013507918 | 2011-04-26 | JP5878517B2 | 2016-03-08 | ヤン・ニルソン; クリスター・ランドグレン |
| 4 | 製函機の不良品除去装置及び製函機 | JP2010222718 | 2010-09-30 | JP5848000B2 | 2016-01-27 | 加藤 利英; 杉本 和也 |
| 5 | 係止構造、この係止構造を用いた容器、および、この容器の製函装置 | JP2014108307 | 2014-05-26 | JP2015131677A | 2015-07-23 | 牧内 隆文; 東 則嘉; 山田 晴彦; 奥田 隆宏; 黒田 採季正; 西川 洋一 |
| 【課題】組立作業性が良く、装置による自動製函も可能とする。 【解決手段】第1壁12と第2壁13の間の折曲線15上の分岐点16から第1壁12上を第3壁44側へ延びる第1傾斜線18と、分岐点16から第2壁13上を第3壁44側へ延びる第2傾斜線19と、第1傾斜線18の先端と第2傾斜線19の先端とにかけて延びる切断部24とを設け、これらの間に組立状態で第1壁12および第2壁13にかけて傾斜して延びる係止受部23を設ける。また、第2壁13の内側面に沿って配置される第3壁44に、係止受部23の切断部24側に係止する係止部48を設ける。 【選択図】図1 |
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| 6 | 편평한 지지부의 변환을 위한 방법 및 작업 스테이션 | KR1020177016873 | 2015-12-03 | KR1020170089889A | 2017-08-04 | 끌레망필리쁘; 로바드피에르 |
| 본발명은편평한지지부 (W) 의변환스테이션 (3) 에서의편평한기판 (W) 의변환방법에관한것으로, 상기스테이션 (3) 은회전커팅유닛 (9) 및상기편평한지지부 (W) 의이동방향 (L) 으로상기회전커팅유닛 (9) 의상류에위치된적어도하나의회전변형유닛 (7, 8) 을포함하고, 상기방법은 - 변형레이아웃및 커팅레이아웃과같은상기편평한기판 (W) 의변환과관련되는파라미터들을결정하는단계; - 상기변형레이아웃에따라변형을수행하기위한형태를가지는슬리브 (13) 를선택하는단계; - 상기회전변형유닛 (7, 8) 내의맨드릴 (12) 에상기슬리브 (13) 를탑재하는단계; - 상기커팅레이아웃에따라커팅공구들 (91, 92) 을선택하는단계; - 상기회전커팅유닛 (9) 에상기커팅공구들 (91, 92) 을탑재하는단계; 및 - 상기편평한지지부 (W) 의변환을개시하는단계를포함한다. | ||||||
| 7 | 折畳みステーションと折畳み箱接着機械 | JP2016567421 | 2015-04-15 | JP6197129B2 | 2017-09-13 | ヘアフルト・ベルント |
| 8 | 折畳みステーションと折畳み箱接着機械 | JP2016567421 | 2015-04-15 | JP2017518900A | 2017-07-13 | ヘアフルト・ベルント |
| 折畳みステーション及び折畳み箱接着機械。本発明は、配置ライン(3)に沿って互いに変更可能な間隔で取り付けられたk個のガイド機構(2)の少なくとも1つのグループを有する、フラットなワークピースを変形させるための折畳みステーション(1)において、ガイド機構が、比例的に作用する共通の調整装置(4)と作用結合され、この調整装置が、運転中に、ガイド機構のグループの隣接するそれぞれ2つのガイド機構の間の間隔を、配置ラインに沿って均等に変更すること、を特徴とする折畳みステーションと、折畳み箱ブランク用の搬送装置とこのような少なくとも1つの折畳みステーションとを有する折畳み箱接着機械とに関する。 | ||||||
| 9 | 折曲げ加工用ブランク材の検査方法および検査装置 | JP2014033846 | 2014-02-25 | JP5984864B2 | 2016-09-06 | トーマス ライター; ラース ツヴェアガー |
| 10 | プレート要素を折曲げる装置 | JP2011529463 | 2009-09-17 | JP5821098B2 | 2015-11-24 | クリブレッズ パスカル; ファーブル オリビエ |
| 11 | シート折り畳み装置および製函機 | JP2012034562 | 2012-02-20 | JP5773908B2 | 2015-09-02 | 名達 光洋; 波多野 治 |
| 12 | スケアリング装置及びカウンタエゼクタ並びに製函機 | JP2013235091 | 2013-11-13 | JP2015093451A | 2015-05-18 | 伊折 信耶; 波多野 治; 杉本 和也 |
| 【課題】スタックの枚数に係らず、スケアリングを適正に行なえるようにしたスケアリング装置を提供する。 【解決手段】製函機の下流部で上流側から送り出されたシート状の段ボール箱01をフロントストップ28で停止させてホッパ部H内の積重部で受けて集積しバッチとして排出するカウンタエゼクタ部に装備され、積重部が段ボール箱10の送出速度及び段ボール箱のスタック50の設定枚数に応じた滞留時間だけ積重位置に滞留する際に積重部上に積重される段ボール箱をフロントストップ28と協働してスケアリングするスケアリングプレート60Pと、スケアリングプレート60Pをフロントストップに対して離接方向に往復駆動する往復駆動装置と、を備え、往復駆動装置はスケアリングプレート60Pを往復駆動するスケアリング速度の送出速度に対する速度比率を可変に構成される。 【選択図】図1 |
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| 13 | TRAY FORMING APPARATUS | US13761007 | 2013-02-06 | US20130150223A1 | 2013-06-13 | Robert M. Herrin |
| A tray forming apparatus forms a blank into a tray having a double glued side wall construction for providing a desirable strength to the tray. A platen drives the blank through a forming rails which fold the blank into a partially formed tray having bottom, end and side walls, and inside corner supports formed about the platen. The platen is retracted prior to folding arms further extended portions of the partially formed tray. A compression plate and the folding arms are biased against adhesive portions of the tray for forming a fully formed tray having a double glued side wall construction. | ||||||
| 14 | Apparatus and method for forming a container having an enhanced corner support structure | US11467312 | 2006-08-25 | US07470226B1 | 2008-12-30 | Robert M Herrin |
| An apparatus automatically forms a paperboard blank into a container having a double glued side wall construction for providing an enhanced strength to the container. A platen drives the blank through mechanically powered forming rails for an initial folding of the blank into a partially formed container having a bottom, end and side walls, and inside corner supports. A compression plate and folding arms are biased against adhesive portions of the partially formed container for forming a fully formed container having a double glued side wall construction. | ||||||
| 15 | Squaring carriage with pneumatic squaring fingers | US351061 | 1999-07-09 | US6099450A | 2000-08-08 | Michael A. Schenone; Luc-Andre Neuenschwander; Kevin Marston; Daniel Cugnoni |
| The disclosed squaring device utilizes an upper squaring carriage with compression belts and pneumatically actuated squaring fingers. In one embodiment, the upper squaring carriage includes at least three compression belts. At least one of the compression belts, central to the other belts, is positioned to apply direct pressure to the glued seam after the upper panels and lower panels are aligned. As a folded box reaches the end of the folding section and enters the squaring section, the moveable belt is raised so as not to apply pressure directly to the glued seam. The drive belts on either side of the seam maintain the box in compression. As the box approaches the squaring fingers, it passes a sensor that sends a signal to a programmable logic controller. At a selected time, depending on the conveyor belt speed, the controller actuates a pneumatic piston that drives a rack and pinion mechanism to rotate the squaring fingers into position to intercept the box travel. The bottom panel arrives at the fingers first, is stopped by the fingers, and slips on the lower conveyor belt. The upper compression belts continue to drive the upper panels forward until they arc also stopped by the squaring fingers, bringing the box precisely square. The squaring fingers are then retracted, permitting the squared box to continue through the machine. In a second embodiment of the inventive device the upper squaring carriage includes two compression belts, with squaring fingers positioned outward of the belts, with respect to the center line of the conveyor. The embodiments share the feature that the belts are controlled to exert a lower pressure on the boxes during the squaring operation and a higher pressure on the boxes after they are brought into square. | ||||||
| 16 | Method and apparatus for attaching a fitment to and sterilizing a container | US552683 | 1995-11-03 | US6066081A | 2000-05-23 | Jerry G. Bachner |
| A method and apparatus for attaching a fitment to a container and for disinfecting the container prior to sealing either end of the container. The fitment is attached to the container in a novel apparatus and then the container is fed into an existing form, fill and seal machine. The apparatus also disinfects the containers while their top and bottom flaps are open to achieve better results than existing disinfecting techniques. A method of attaching a spout to a container and a method of sterilizing a container also are disclosed. | ||||||
| 17 | Device for processing a blank transported along a conveyor path at a predetermined conveying speed | US836846 | 1997-05-02 | US5997459A | 1999-12-07 | Karl Heinz Kruger; Manfred Pszak |
| The present invention relates to a folding machine for folding the side flaps flanking the middle section of a foldable cardboard blank. For this purpose in the frontal area of the folding machine auxiliary folding devices are arranged. In addition turning belts for the inward tilting of the side flaps can be arranged, which are provided with projections insuring that the side flaps are swung parallelly to their folding grooves. | ||||||
| 18 | Rotary object feeder | US828589 | 1997-03-31 | US5997458A | 1999-12-07 | Peter Guttinger; Tony Spadafora; Michael Elent |
| The present invention is directed to a rotary object feeder, which feeds objects from a by rotating the objects from a pick-up location to a drop-off location. The object is picked-up by at least one pick-up member having a suction cup. Suction at the suction cup is controlled by a vacuum generator proximate the suction cup. Additionally, a control valve is interconnected to a programmable controller that controls the presence or absence of suction at the suction cup. The controller may be dynamically programmed for flexibly adjusting the pick-up and drop-off locations for objects. The controller may further advance the turn-off position of vacuum at the suction cup, in order to implement a speed compensation system to accurately deliver objects to the drop-off location. The invention is particular well suited for use as a rotary carton feeder. | ||||||
| 19 | Parallelepiped carton forming machine | US941741 | 1997-10-01 | US5957825A | 1999-09-28 | Augusto Marchetti |
| A forming machine including a load and feed chute for a set of die-cut cardboard pieces folded in a flat shape and laid on the chute perpendicular to the chute plane and parallel one after another, from which die-cut cardboard pieces are picked one by one and partially opened by a set of depression suckers that moves in a horizontal direction between a first position near the exit of the chute and suitable for the engagement of the suckers with one of the two coplanar adjacent sides of the nearest die-cut cardboard and a second position suitable for moving the engaged side of the sucker away from the opposite side of the die-cut cardboard with simultaneous rotation of the other two sides of the die-cut cardboard. The machine provides for squaring elements to complete and to square the partially open die-cut cardboard. A first flap closing device forms the closing fold of first bottom flaps connected with the other two sides of the die-cut cardboard and a second flap closing device forms the closing fold of second bottom flaps connected with the side engaged by the suckers and the opposite side of the die-cut cardboard. | ||||||
| 20 | Machine for transferring and erecting cardboard package blanks | US667089 | 1996-06-20 | US5813965A | 1998-09-29 | William R. Mitchell; Thomas E. Brooker |
| The machine includes a vacuum head which is mounted to rotate on the outer end of an elongated arm adapted to be pivoted upwardly and downwardly about a fixed pivot by a servo drive. As the arm pivots, the vacuum head picks either a carton blank or a tray blank out of a magazine and transfers the blank toward a conveyor. During the pivoting, the vacuum head is turned relative to the arm and, when the blank is a carton blank, the turning motion brings the blank into engagement with a fixed plow which erects the blank. During final downward movement of the arm, the vacuum head is held parallel to the conveyor and moves toward the conveyor with a vertical plunging motion. When the blank is a tray blank, such vertical plunging causes the blank to be erected by flights on the conveyor as the blank is loaded between the flights. | ||||||
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