| 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 | 基材ストリッピングの方法及び装置 | JP2017509622 | 2015-08-26 | JP2017526542A | 2017-09-14 | ベン−デイヴィッド,デイヴィッド; イレニ,エリ; ジマー,マイケル |
| 本明細書では、基材の一部を除去する方法及び装置が開示される。ある実施形態では、可撓性及び/又は柔軟性を有する衝撃要素が回転軸周りに回転して、基材の基材平面を横切るように周縁部を駆動し、及び/又は、基材に繰り返し衝突するように周縁部を駆動する。衝突の少なくとも一部が基材の一部を取り除くか又は基材の一部を除去する。【選択図】図2A | ||||||
| 2 | デジタル制御工程でパッケージを製造する方法及び装置 | JP2011505544 | 2009-04-24 | JP5695559B2 | 2015-04-08 | ペテルソン、ヨナス; シルヴィオ、ペトリ; ライネーネン、マルコ; レフトラ、ユハ |
| 3 | 変換機械 | JP2014541318 | 2012-11-09 | JP6077556B2 | 2017-02-08 | ペッターソン,ニクラス; オスターハウト,ライアン |
| 4 | 板状要素を処理する装置、処理ユニット、及び包装材製造機械 | JP2014527523 | 2012-08-24 | JP5894671B2 | 2016-03-30 | ルーヴェ トマ; ブードリー オリヴィエ |
| 5 | METHOD AND APPARATUS FOR SUBSTRATE STRIPPING | EP15835280 | 2015-08-26 | EP3186044A4 | 2018-05-23 | BEN-DAVID DAVID; IRENI ELI; ZIMMER MICHAEL |
| Methods and apparatus for stripping away portions of substrate are disclosed herein. In some embodiments, a flexible and/or soft impact-element(s) rotates around a rotation axis to drive a peripheral portion across a substrate plane of the substrate and/or to repeatedly collide with the substrate. At least some of the collisions are effective to partially dislodge or to strip away portion(s) of substrate. | ||||||
| 6 | Method and a machine for the manufacture of rigid packets with hinged lid | US131172 | 1998-08-07 | US6112505A | 2000-09-05 | Alessandro Minarelli; Maurizio Righi |
| Rigid packets of the type with a hinged lid are fashioned from diecut blanks presenting a central longitudinal portion flanked by two lateral portions, each consisting in a series of longitudinally disposed flaps. The method of manufacture involves directing the blanks singly and in succession between a pair of contrarotating rollers with dies shaped and positioned to engage each lateral portion; the dies are designed to modify a pair of adjoining flaps on each side, which ultimately will be bent through a right angle to form an internal layer of the relative flank face of the packet, by producing at least one bend in one flap at an end adjacent to the other flap, and forming a projection on the longer flap which in the finished packet will be breasted permanently in contact with an inner reinforcing frame. | ||||||
| 7 | Belt-driven printer-cutter machine for corrugated paperboard of varying thickness | US333413 | 1999-06-15 | US6062751A | 2000-05-16 | Theodore M. Baum |
| A disclosed embodiment of the invention is a belt-driven printer-cutter machine 10 including a roller-mounted feed/print machine section 14 and a fixed cutting machine section 16. A spline-type separable coupling 30-32 between these machine sections allows the feed/print section to be rolled on a fixed track 18 directly opposite the machine direction to separate the machine sections for maintenance, changing the printing plate 88 and cutting die 108, and to make other adjustments during machine setup. The sections may then be rolled back into engagement at the spline-type coupling to transmit power between the machine sections. The printer-cutter machine includes separate synchronous belts for the drive trains of each machine section. The machine may also include a separate synchronous belt for the fixed and adjustable rolls of each machine section. Specifically, the machine may include a dual auto-tensioned feed/print section belt 154, a fixed feed/print section belt 160, an auto-tensioned cutting section belt 230, and a fixed cutting section belt 244. Automatic belt take-up mechanisms 278, 282 driven by air cylinders 280, 284, automatically tension the synchronous belts 154, 230 driving the adjustable rolls of each machine section. This allows the nip between the upper and lower rolls of each machine section to be adjusted while maintaining constant machine speed and without affecting the proper registration between the machine sections and the leading edge of the paperboard blank. | ||||||
| 8 | Strip steel punching and indenting tool | US237231 | 1994-05-02 | US5370028A | 1994-12-06 | Wolfgang Grebe |
| A strip steel punching and indenting tool (15) and a method for preparing this type of tool wherein the tool, arranged between a ram (12) and an anvil (14) of a punching machine (10), comprises a supporting plate (16) with slots (18) extending from the lower side of the supporting plate facing the anvil (14) to its upper side facing the ram (12). Each of the slots (18) accommodates a cutter of strip steel for punching (20a, 20b) and indenting (20c), in such a way that the hardened cutting edge (22) of a cutter protrudes from the lower side of the supporting plate (16) and the rounded non-cutting backs (24) thereof face a first intermediate plate (26) of metal mounted on the upper side of the supporting plate. To be able to prepare the punching and indenting tool within a short period of time without impairing the punching performance of the punching machine, the first intermediate plate (26) is between 0.8 and 1.5 mm thick, consists of a metal with a 0.2-tensile yield strength R.sub.p0.2 of 20 to 90 N/mm.sup.2, has a tensile strength R.sub.m of 65 to 150 N/mm.sup.2 and a breaking elongation .delta. of 3 to 35%. For preparation there is mounted on the first intermediate plate (26) an elastomer plate (28) which is 0.5 to 1.5 mm thick with a hardness of 60 to 100 Shore A and which is replaced by a second metal intermediate plate during normal operation of the punching machine. | ||||||
| 9 | Drive line brake assembly for scoring/slotting apparatus | US018859 | 1993-02-17 | US5344377A | 1994-09-06 | William R. Meeks |
| Multiple-station article processing apparatus (10) is provided which includes an adjustable processing station (14), a drive train (20), and a selectively operable drive train brake assembly (22) operable during adjustment of station (14). The preferred apparatus (10) is designed for fabrication of box blanks, and to this end includes an infeed assembly (12) for sequentially feeding paperboard sheets into the downstream scoring/slotting station where the sheets are scored and slotted to yield finished box blanks. During makeready adjustments when the position of the knives (66, 68) of the station (14) are changed, the braking assembly (22) is actuated to prevent unintended rotation of the drive train (20), which can result in changing the properly timed relationship of the stations within apparatus (10). The braking assembly (22) preferably includes a drum (80) secured to line shaft (74) of drive train (20), with a pair of pivotally mounted brake arms (88, 90) adjacent the drum (80); a piston and cylinder assembly (98) interconnects the outer ends of the arms (88, 90), and is actuated to move the arms (88, 90) into braking engagement with drum (80) during makeready adjustments. | ||||||
| 10 | Slotter wheel mechanism having dynamically retractable slotter blades | US118317 | 1993-09-09 | US5327804A | 1994-07-12 | David E. Creaden |
| An improved slotter wheel mechanism (30) designed for use in the formation of box blanks is provided which includes a rotatable wheel assembly (32) supporting one or more slotter blades (34); the blades (34) are coupled to the wheel by means (36) permitting shifting of the blades (34) during rotation of the wheel assembly (32) between an extended slotting position and a retracted blank-clearing position. In one embodiment, a slotter wheel (222) is equipped with a plurality of spiders (232) operatively secured to corresponding blade holders (246). As the wheel (222) rotates, the spiders (232) encounter strategically located members (294, 294a, 296 and 296a) serving to successively rotate the spiders (232), thus moving the blade holders (246) and blades (256). | ||||||
| 11 | Slitting corrugated paperboard boxes | US763331 | 1991-09-20 | US5158522A | 1992-10-27 | James A. Cummings; Richard F. Paulson |
| Knocked down boxes made of corrugated paperboard are slit longitudinally in an on-line process directly downstream from the folder/gluer in which the boxes are formed. The boxes are first reoriented 90.degree. in a horizontal plane from the positions in which they are formed in the folder/gluer to a reoriented position for movement in a direction transverse to the box fold lines, the boxes are formed into a shingle in the direction of movement, and the shingle is conveyed in that direction into an alignment station. In the alignment station, the lateral edges of the boxes in the shingle are aligned vertically, while the shingle moves through the alignment station, by shifting the boxes transversely to the direction of movement. The aligned shingle is moved into a rotary slitting blade positioned above the shingle and having a cutting edge which extends downwardly below the underside of the shingle where it is received in a slot in a shingle support positioned below and on opposite sides of the blade immediately adjacent the slit edges of the shingle. | ||||||
| 12 | Precrush tool for corrugated board slotter head | US462175 | 1990-01-08 | US5002524A | 1991-03-26 | George R. Mills |
| A precrush tool immediately precedes a slotting blade in a slotting tool assembly. The slotting blade is mounted in the same way as a conventional slotting blade with the exception that the top is profiled to give gradual crushing during rotation. The tool's area gets successively larger to the point that the top land equals the width of the slotter blade and its O.D. when mounted is effectively the pitch circle of the tool assembly. This design allows for the air to be removed from the board gradually and produces a sharp clean cut by the slotter. | ||||||
| 13 | Adjustable mounting for embossing die elements | US113482 | 1987-10-28 | US4850950A | 1989-07-25 | George L. Holliday |
| An adjustable mounting block assembly, particularly for embossing die elements used with cutting, scoring and/or punching dies, having a block adjustably mounted within a frame. The perimeter of the block is spaced from the frame, and adjustable opposed spacers extend between the block and the frame so as to adjust the position of the block within the frame. | ||||||
| 14 | Sheet imprinting apparatus | US62110 | 1987-06-12 | US4822325A | 1989-04-18 | Franz Vossen |
| Apparatus for imprinting or impressing a sheet of material such as cardboard intended to be made into a die for making a folding box or case, comprises a stamping plate for carrying the sheet and co-operable with a tool. The stamping plate lies on a table plate of a frame structure which has holders for releasably carrying a form which extends parallel to the table plate, and at least one bridge assembly which extends movably above the table plate. A carriage is carried on the bridge assembly and moves transversely with respect to the direction of travel thereof. The carriage carries at least one vertically movable pressure member directed towards the table plate. | ||||||
| 15 | Punching devices | US935408 | 1986-11-26 | US4763551A | 1988-08-16 | Albert Halff; Manfred Vossen |
| A punching device for automatic punching machines for the punching of paper, cardboard and the like, comprising: a driving mechanism for a top shoe; such as a rocking lever drive, elliptical cam drive, or wedge-form transmission; a stationary bottom shoe supporting a counter-punch; a movable top shoe supporting punch knives; and a gripper bar arrangement for intermittent forwarding through the punching device of sheets to be punched wherein the drive mechanism for the top shoe is located between the top shoe and a yoke which is connected with the bottom shoe through prestressed tie rods. | ||||||
| 16 | Packing container blank and container made therefrom | US815756 | 1986-01-02 | US4655386A | 1987-04-07 | Alf Billberg |
| Packing container blanks for gable-top packages are cut out of a material web which, up to now, has caused an appreciable amount of waste material, since the edges of the blanks are irregular and cannot be "dovetailed" into one another. A packing container blank is provided with partly straight, parallel lateral edges (11,12), and partly transverse edges (11,12) which are indented according to a regular pattern which is repeated over the width of the blank. As a result of the indentations, the edges of the blanks too can be formed without wastage. | ||||||
| 17 | Punching devices | US322541 | 1981-11-18 | US4485708A | 1984-12-04 | Albert Halff; Manfred Vossen |
| A punching device for automatic punching machines for the punching of paper, cardboard and the like, comprising: impulsion means for a top shoe; such as an eccentric cam drive; a stationary bottom shoe supporting a counterpunch; a movable top shoe supporting punch knives; and a gripper bar arrangement for intermittent forwarding through the punching device of sheets to be punched wherein the impulsion means for the top shoe is located between the top shoe and a yoke which is connected with the bottom shoe through prestressed tie rods. | ||||||
| 18 | Machine for the production of packaging wrappers | US973664 | 1978-12-27 | US4268261A | 1981-05-19 | Karl-Heinz Kohmann; Wolfgang Heiber |
| Disclosed is an apparatus and method for the continuous production of packaging wrappers from cut blanks of flat material. A flap-like portion of the blank material is abraded in a particular fashion to produce an area which upon folding and gluing provides a bonded joint having a thickness in the area of the bonding essentially equal to the thickness of the flat material of the wrapper. The packaging wrapper produced possesses an interior surface completely void of protrusions or uneven areas and an overall wrapper of even thickness throughout. | ||||||
| 19 | Process and apparatus for blanking cardboard and the like | US485776 | 1974-07-05 | US4050362A | 1977-09-27 | Friedrich Schroter |
| A process and apparatus for cutting, creasing and/or embossing sheets of cardboard, paper of similar material is disclosed. The apparatus includes a tool plate or die having steps therein in the form of parting steps and ribs and/or grooves to form creases. A resilient elastic member is employed to press the cardboard web down against the various steps in the tool plate. The size and configuration of the steps and the tool plate causes severing or cutting of the cardboard or creasing or embossing. Apparatus for use with rotational as well as planar or reciprocating blanking machines and a variety of different tool plate constructions are disclosed. The process includes resilient urging of the sheet against the die piece with the elastic member causing deformation of the sheet to conform to the tool plate. | ||||||
| 20 | Apparatus having dual slotter shafts | US675369 | 1976-04-09 | US4003300A | 1977-01-18 | William Grobman |
| Apparatus such as a paperboard printer slotter is provided with dual slotter shafts each having a device to quickly reposition a slotter knife by moving the same in a circumferential direction with respect to an annular head which supports the same. During such positioning of the slotter knife, it is held stationary while the annular support head is rotated. This slotter knife is releasably mounted on its head and a means is provided to selectively release the lock when it is desired to reposition the knife. The knives on one slotter shaft cut a slot on the leading edge of a first blank and the trailing edge of a following blank. The knives on the other slotter shaft cut the slot on the trailing edge of the first blank and the leading edge of the following blank. | ||||||
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