EP1393904B1 - Rotary press for applying a pattern on a web like substrate - Google Patents

Rotary press for applying a pattern on a web like substrate Download PDF

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Publication number
EP1393904B1
EP1393904B1 EP03017466A EP03017466A EP1393904B1 EP 1393904 B1 EP1393904 B1 EP 1393904B1 EP 03017466 A EP03017466 A EP 03017466A EP 03017466 A EP03017466 A EP 03017466A EP 1393904 B1 EP1393904 B1 EP 1393904B1
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EP
European Patent Office
Prior art keywords
cylinder
working cylinder
anvil
press according
heating
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EP03017466A
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German (de)
French (fr)
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EP1393904A2 (en
EP1393904A3 (en
Inventor
Georg Strasser
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Bobst Mex SA
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Bobst SA
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B30PRESSES
    • B30BPRESSES IN GENERAL
    • B30B3/00Presses characterised by the use of rotary pressing members, e.g. rollers, rings, discs
    • B30B3/02Presses characterised by the use of rotary pressing members, e.g. rollers, rings, discs co-operating with a fixed member
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B26HAND CUTTING TOOLS; CUTTING; SEVERING
    • B26DCUTTING; DETAILS COMMON TO MACHINES FOR PERFORATING, PUNCHING, CUTTING-OUT, STAMPING-OUT OR SEVERING
    • B26D7/00Details of apparatus for cutting, cutting-out, stamping-out, punching, perforating, or severing by means other than cutting
    • B26D7/26Means for mounting or adjusting the cutting member; Means for adjusting the stroke of the cutting member
    • B26D7/2628Means for adjusting the position of the cutting member
    • B26D7/265Journals, bearings or supports for positioning rollers or cylinders relatively to each other
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B26HAND CUTTING TOOLS; CUTTING; SEVERING
    • B26DCUTTING; DETAILS COMMON TO MACHINES FOR PERFORATING, PUNCHING, CUTTING-OUT, STAMPING-OUT OR SEVERING
    • B26D7/00Details of apparatus for cutting, cutting-out, stamping-out, punching, perforating, or severing by means other than cutting
    • B26D7/26Means for mounting or adjusting the cutting member; Means for adjusting the stroke of the cutting member
    • B26D7/2628Means for adjusting the position of the cutting member

Definitions

  • the present invention relates to a rotary press for depositing patterns of a material on a web substrate
  • the document US Patent 4926666 describes a device that can be used in a stamping machine of the type comprising a working roll and a counter-roll, means for driving the work roll in rotation, means for exerting a predetermined prestressing between said work roll and said counter cylinder and means for adjusting the spacing between said working cylinder and said counter cylinder.
  • EP-A-0469433 discloses a stamping device comprising a working roll and a counter-roll, means for heating the work roll and means for exerting a predetermined prestress between said work roll and said counter roll.
  • the advantage of this type of press compared to the flat stamping lies in the fact of being able to work continuously at a substantially higher speed than with the flat stamping.
  • the gases resulting from the vaporization of the wax which is between the polyester carrier strip and the metal film are more easily evacuated and the consumption of web material to be deposited can be substantially reduced.
  • this material generally consisting of a laminate consisting of four layers, a polyester support strip, a wax layer, a metal film and a glue layer, is expensive.
  • the object of the present invention is to provide a solution making it possible to contribute, at least to a certain extent, to an optimal use of the material support strip to be deposited on a strip substrate while maintaining the adjustment of the parameters of the substrate. operation of the press.
  • the present invention relates to a rotary press for depositing patterns of a material on a web substrate, as defined in claim 1.
  • the rotary press comprises a frame 1 on which is mounted a working cylinder 2, the respective ends of which are fixed to the frame 1 by fixing members 3, each provided with a clamping screw 3a.
  • a counter-cylinder 4, parallel to the working cylinder 2, is pivoted freely on a rocker 5 pivotally mounted on the frame 1 about an axis 6 parallel to the axis of the cylinders 2 and 4.
  • a jack 7 is used to press the against cylinder 4 against the cylinder working piece 2, with a predetermined prestressing force, via a lever 7a acting on the rocker 5 and able to increase the pressure exerted by the jack 7.
  • FIG. 2 shows how the pressure of the jack 7 is transmitted between the working roll 2 and the counter-roll 4. This pressure is symbolized by two arrows F 1 , F 2 .
  • the counter-cylinder 4 is pivotally mounted around two coaxial half-shafts 8 by ball bearings 9.
  • Two cylindrical rings 10 are mounted on two eccentric portions 11 of the respective half-shafts 8 by ball bearings 12.
  • the cylindrical rings 10 are in rolling contact with two cylindrical surfaces 2a integral with the working cylinder 2.
  • These cylindrical rings 10 and the cylindrical surfaces 2a, forming the contact surfaces between the working cylinder 2 and the counter-cylinder 4, allow to transmit the preload exerted by the cylinder 7 while providing a clearance 13 between the working cylinder 2 and the counter-cylinder 4 for the passage of a strip substrate 14 and one or more support strips 15 of the material of the patterns to be deposited on the substrate 14.
  • This set 13 is chosen so that the prestressing exerted and the temperature of the working roll 2 make it possible to heat-transfer the patterns of the material of the support strip 15 onto the strip substrate 14 during the passage of the plates 16 in the clearance 13 separating the two rolls 2, 4.
  • One of the cylindrical rings 10 is integral with a toothed wheel 10a which meshes with a toothed wheel 2b integral with the working roll 2.
  • the toothed wheel 10a is engaged with a drive motor (not shown) via an LM motor link.
  • each half-shaft 8 are integral with a toothed wheel 17 in engagement with an endless screw 18 integral with a conical return 19, connected to a handle (not shown) for adjusting the clearance 13; it is also possible to influence the clearance 13 only on one side of the roll 2 and to create a slightly progressive clearance 13 across the width of the strip 14.
  • This system can also be replaced by two motors each acting on a screw without end 18.
  • the rotation of the half-shafts 8 of a certain angle rotates the eccentrics 11 about the axis of the coaxial half-shafts 8, thus modifying the clearance 13 between the working roll 2 and the counter-roll 4, without modifying the value of the prestress exerted on the cylinders 2 and 4 via the cylindrical contact surfaces 2a and 10.
  • the outer layer of the support strips 15, adjacent to the substrate in strip 14 on which the patterns are deposited is formed of a thermosetting glue. This is the reason why the working cylinder 2 must comprise heating means.
  • FIG. 3 shows the interior of the working cylinder 2 which comprises a heating enclosure 20 formed by a tubular part 21 in thermal contact with the working cylinder 2.
  • This heating enclosure 20 is closed at both ends by flanges 22, whose center is secured to a pivoting cylinder 23 coaxial with the axis of the working cylinder 2.
  • One of these pivot cylinders 23 (the left one in Figure 3) is traversed by an axial conduit 24 divided into two concentric ducts 24a, 24b by a tubular wall 25a of a rotating connection 25, for connecting the heating chamber 20 to a heating oil circuit (not shown).
  • the inside of the heating chamber 20 is divided into several compartments by concentric tubular partitions 26, provided with perforations 26a to form a reciprocating flow of the heating fluid between the inlet channel 24a and the channel 24b output.
  • tubular portion 21 of the heating chamber 20 and the closing flanges 22 of the ends of these enclosures are made of different metals such as steel for the external parts such as the part external cylindrical working cylinder 2, and closing flanges 22 and aluminum for the heating chamber 20.
  • these surfaces 21a, 22a are of conical shape with a half angle ⁇ at the top of these conical contact surfaces 21a, 22a corresponding to the angle of the hypotenuse d a right-angled triangle whose other sides correspond to the longitudinal thermal expansion of a given point of one of said contact surfaces (21a, 22a) relative to the median axis M of said heating chamber 20 at a given temperature e, respectively at the radial expansion of this same point at the same temperature, so that the contact surfaces 21a, 22a remain contiguous regardless of the temperature of the cylindrical heating chamber 20.
  • the angle ⁇ is determined for each case in particular.
  • this resultant is the hypotenuse of a right triangle whose sides dr 22 and dl 22 are proportional to radial expansion, respectively longitudinal, which depend on the radial respectively longitudinal dimensions of a given point. These radial and longitudinal dimensions vary according to the coefficient of expansion of the material, but their ratio and thus the angle of the hypotenuse, is constant.
  • two O-rings 27 are disposed near the two edges of the conical contact surface 22a of the flanges of closing 22 with the adjacent conical surface 21a of the tubular portion 21 of the heating chamber 20.
  • the faces 29 not covered with images of the tool 2 may be covered with an insulating layer, promoting the passage of available heat through the plates 16 ( Figures 5, 29b).
  • a plate 16 may be inserted and fixed by suitable means 30 in a carrier tube 31 which may be slipped on the work roll 2.
  • Parts 31 and 2 can also be the same.
  • the plate 16 may be provided with blind holes 32, variable dimensions and distributions, connected or not by holes 33 promoting the escape of air during temperature changes. This will create air pockets and effective brakes to the passage of heat.
  • the images can be placed on shims 34, which will incidentally allow to set their active radius Ra in small values.
  • These shims 34 may or may not be provided with holes of new distributions and variable diameters. It can also be blind holes.
  • the images of the holes 32, 35 may be aligned or not.
  • the shim 35 may also be made of insulating material, resistant to temperature. It is also possible to envisage the use of fretted materials (pressed from powder). In summary, we can slow the passage of energy through one or more clichés compared to others.
  • Figure 5 also shows a proposed arrangement for this fixation.
  • the controlled elasticity of the workpiece 30 permits differential thermal expansions between the portions 31 and 16.
  • FIG. 6 shows that it is possible to provide fixing variants in which a change in thickness of the shim 34 does not cause angular displacement of the plate 16. This is achieved by proper orientation of the reference face 37. This orientation , parallel to the central line 38 of the plate, however, leads to additional fixation, for example screw 39.

Abstract

The press has a working cylinder (2) bearing embossing plates (16) of patterns of a material to be laid on a strip (14). An anvil cylinder (4) with a periphery is placed such that peripheries are in opposition and spaced apart. A prestress application assembly operates to exert a defined prestress between the two cylinders. Cone-shaped surfaces of contacts adjust a space (13) between the cylinders.

Description

La présente invention se rapporte à une presse rotative pour déposer des motifs d'un matériau sur un substrat en bandeThe present invention relates to a rotary press for depositing patterns of a material on a web substrate

Le document US-A-4926666 décrit un dispositif pouvant être utilisé dans une estampeuse du type comprenant un cylindre de travail et un contre-cylindre, des moyens d'entraînement du cylindre de travail en rotation, des moyens d'exercice d'une précontrainte déterminée entre ledit cylindre de travail et ledit contre-cylindre et des moyens de réglage de l'écartement entre ledit cylindre de travail et ledit contre-cylindre.The document US Patent 4926666 describes a device that can be used in a stamping machine of the type comprising a working roll and a counter-roll, means for driving the work roll in rotation, means for exerting a predetermined prestressing between said work roll and said counter cylinder and means for adjusting the spacing between said working cylinder and said counter cylinder.

Le document EP-A-0469433 décrit un dispositif d'estampage comprenant un cylindre de travail et un contre-cylindre, des moyens de chauffage de ce cylindre de travail et des moyens d'exercice d'une précontrainte déterminée entre ledit cylindre de travail et ledit contre-cylindre.The document EP-A-0469433 discloses a stamping device comprising a working roll and a counter-roll, means for heating the work roll and means for exerting a predetermined prestress between said work roll and said counter roll.

L'avantage de ce type de presse par rapport à l'estampage à plat réside dans le fait de pouvoir travailler en continu à vitesse sensiblement plus élevée qu'avec l'estampage à plat. Les gaz résultant de la vaporisation de la cire qui se trouve entre la bande porteuse en polyester et le film de métal s'évacuent plus facilement et la consommation de matériau en bande à déposer peut être sensiblement réduite. Or, ce matériau, constitué en général par un stratifié composé de quatre couches, une bande support de polyester, une couche de cire, un film métallique et une couche de colle, coûte cher.The advantage of this type of press compared to the flat stamping lies in the fact of being able to work continuously at a substantially higher speed than with the flat stamping. The gases resulting from the vaporization of the wax which is between the polyester carrier strip and the metal film are more easily evacuated and the consumption of web material to be deposited can be substantially reduced. However, this material, generally consisting of a laminate consisting of four layers, a polyester support strip, a wax layer, a metal film and a glue layer, is expensive.

Pour permettre de réduire la consommation de bandes de matériau à déposer de manière optimale, il faut non seulement utiliser une presse rotative équipée d'un cylindre de travail portant des clichés des motifs dudit matériau à déposer, mais il faut encore que la bande de matériau ne passe pas à travers la presse rotative selon une trajectoire traditionnelle, mais selon une trajectoire pratiquement rectiligne. En effet, avec la trajectoire traditionnelle, la bande de matériau à déposer et le substrat en bande sur lequel le motif du matériau a été déposé restent l'un contre l'autre et sont pressés contre le contre-cylindre sur un certain angle de ce contre-cylindre après être passés entre les cylindres de la presse rotative, pour augmenter le temps de contact et faciliter la fixation du motif déposé sur le substrat. Ce mode de passage traditionnel limite sensiblement la possibilité d'économie de bande de matériau à déposer, dans la mesure où le substrat et la bande de matériau doivent se déplacer ensemble.In order to reduce the consumption of strips of material to be optimally deposited, it is necessary not only to use a rotary press equipped with a working roll bearing pictures of the patterns of said material to be deposited, but it is also necessary that the strip of material does not pass through the rotary press according to a traditional trajectory, but in an almost rectilinear trajectory. Indeed, with the traditional trajectory, the strip of material to be deposited and the strip substrate on which the pattern of the material has been deposited remain against each other and are pressed against the cylinder against a certain angle of the counter-cylinder after being passed between the cylinders of the rotary press, to increase the contact time and facilitate the attachment of the pattern deposited on the substrate. This traditional way of passage substantially limits the possibility of saving material tape to deposit, insofar as the substrate and the strip of material must move together.

Or, pour permettre une économie optimale de consommation de bande support, il faut pouvoir arrêter, voire retirer une certaine longueur de la bande support entre deux dépôts de motifs sur le substrat en bande. Ceci n'est possible que si la bande support du matériau à déposer et le substrat ne sont en contact quasiment que sur une ligne correspondant aux génératrices respectives de contact entre les deux cylindres de la presse rotative ou tout au moins sur une distance longitudinale du substrat suffisamment faible pour permettre leur déplacement relatif dès qu'ils ne sont plus pincés entre les rouleaux de la presse, c'est-à-dire entre deux transferts successifs des motifs sur le substrat en bande. Ceci n'est possible que si la bande de matériau à déposer a une trajectoire pratiquement rectiligne.However, to allow optimum economy of carrier band consumption, it is necessary to stop or even remove a certain length of the support strip between two pattern deposits on the strip substrate. This is only possible if the support strip of the material to be deposited and the substrate are in contact almost only on a line corresponding to the respective generatrices of contact between the two rolls of the rotary press or at least over a longitudinal distance of the substrate low enough to allow their relative displacement as soon as they are no longer clamped between the rolls of the press, that is to say between two successive transfers of the patterns on the strip substrate. This is only possible if the strip of material to be deposited has a substantially rectilinear trajectory.

Compte tenu de ces contraintes et en particulier du temps de contact très court entre la bande support du matériau à déposer et le substrat en bande, il faut que la température moyenne du cylindre de travail de la presse rotative soit plus élevée et les écarts de températures admissibles soient plus étroits que dans l'estampage à plat, ainsi que dans le cas de la presse rotative avec passage traditionnel, dont il a été question ci-dessus.Given these constraints and in particular the very short contact time between the support strip of the material to be deposited and the strip substrate, it is necessary that the average temperature of the work roll of the rotary press is higher and the temperature differences. allowable to be narrower than in flat stamping, as well as in the case of the rotary press with traditional passage, which was discussed above.

Pour que ces tolérances très réduites puissent être satisfaites, il faut non seulement que la température soit contrôlée avec précision, mais il faut encore que la pression exercée entre les cylindres de la presse et l'écartement entre ces cylindres pour permettre le passage du substrat en bande, de la bande support du matériau du motif à déposer et du cliché soient aussi réglés avec précision, sans que le réglage de l'un influence le réglage de l'autre. Il est également important que le jeu entre les cylindres, dans lequel passent le substrat, la bande support du matériau à déposer et le ou les clichés soit constant et ne varie pas lorsque la température du cylindre de travail augmente.So that these very small tolerances can be satisfied, not only must the temperature be precisely controlled, but it is also necessary that the pressure exerted between the rolls of the press and the spacing between these cylinders to allow the passage of the substrate in band, the support strip of the material of the pattern to be deposited and the snapshot are also adjusted precisely, without the setting of one influences the setting of the other. It is also important that the clearance between the cylinders in which the substrate passes, the support band of the material to be deposited and the one or more plates is constant and does not vary as the temperature of the working cylinder increases.

Le but de la présente invention est d'apporter une solution permettant de contribuer, au moins dans une certaine mesure, à une utilisation optimale de la bande support de matériau à déposer sur un substrat en bande tout en conservant avec précision le réglage des paramètres de fonctionnement de la presse.The object of the present invention is to provide a solution making it possible to contribute, at least to a certain extent, to an optimal use of the material support strip to be deposited on a strip substrate while maintaining the adjustment of the parameters of the substrate. operation of the press.

A cet effet, la présente invention a pour objet une presse rotative pour déposer des motifs d'un matériau sur un substrat en bande, telle que définie dans la revendication 1.For this purpose, the present invention relates to a rotary press for depositing patterns of a material on a web substrate, as defined in claim 1.

Grâce à cette presse rotative, le réglage de la précontrainte exercée entre les cylindres de la presse, pour effectuer le dépôt de motifs sur un substrat en bande à partir du matériau porté par la bande support, est totalement indépendant du réglage du jeu entre les cylindres, en sorte que ces deux paramètres peuvent être réglés avec précision. Il est d'autant plus important que la bande support ait pratiquement une trajectoire rectiligne à travers les cylindres, réduisant au minimum le temps de contact entre les deux bandes pendant l'opération de dépôt des motifs. Or, comme on l'a expliqué précédemment, le passage rectiligne ou sensiblement rectiligne de la bande support du matériau à déposer à travers les cylindres de la presse est la condition à remplir pour permettre une modulation de la vitesse de cette bande support entre le dépôt de deux motifs successifs et ainsi une utilisation optimale de cette bande support.With this rotary press, the adjustment of the prestressing exerted between the rolls of the press, to effect the deposition of patterns on a strip substrate from the material carried by the support strip, is totally independent of the adjustment of the clearance between the rolls. , so that these two parameters can be adjusted precisely. It is all the more important that the support strip has substantially a straight path through the rolls, minimizing the contact time between the two belts during the pattern deposition operation. However, as explained above, the rectilinear or substantially rectilinear passage of the support strip of the material to be deposited through the rolls of the press is the condition to be fulfilled to allow modulation of the speed of this support strip between the deposit. two successive patterns and thus an optimal use of this support band.

D'autres particularités et avantages de la présente invention apparaîtront au cours de la description qui va suivre et qui sera faite en relation avec le dessin annexé qui illustre, schématiquement et à titre d'exemple, une forme d'exécution de la presse rotative objet de cette invention.

  • La figure 1 est une vue en élévation de cette forme d'exécution;
  • la figure 2 est une vue schématique selon la ligne A-A de la fig. 1;
  • la figure 3 est une vue partielle agrandie en coupe diamétrale du cylindre de travail vu non coupé sur la figure 2;
  • la figure 4 est une vue partielle très agrandie de la partie X de la figure 3;
  • la figure 5 représente un premier exemple de fixation d'un cliché sur le cylindre de travail et
  • la figure 6 représente un deuxième exemple de fixation d'un cliché sur le cylindre de travail.
Other features and advantages of the present invention will become apparent from the following description which will be made in connection with the accompanying drawing which illustrates, schematically and by way of example, an embodiment of the rotary press object of this invention.
  • Figure 1 is an elevational view of this embodiment;
  • Figure 2 is a schematic view along the line AA of FIG. 1;
  • Figure 3 is an enlarged partial view in diametral section of the working cylinder seen uncut in Figure 2;
  • Figure 4 is a greatly enlarged partial view of part X of Figure 3;
  • FIG. 5 represents a first example of fixing a plate on the working cylinder and
  • Figure 6 shows a second example of fixing a plate on the working cylinder.

La presse rotative selon l'invention comporte un bâti 1 sur lequel est monté un cylindre de travail 2 dont les extrémités respectives sont fixées au bâti 1 par des organes de fixation 3, munis chacun d'une vis de serrage 3a. Un contre-cylindre 4, parallèle au cylindre de travail 2, est pivoté librement sur une bascule 5 montée pivotante sur le bâti 1 autour d'un axe 6 parallèle à l'axe des cylindres 2 et 4. Un vérin 7 sert à presser le contre-cylindre 4 contre le cylindre de travail 2, avec une force de précontrainte déterminée, par l'intermédiaire d'un levier 7a agissant sur la bascule 5 et capable de démultiplier la pression exercée par le vérin 7.The rotary press according to the invention comprises a frame 1 on which is mounted a working cylinder 2, the respective ends of which are fixed to the frame 1 by fixing members 3, each provided with a clamping screw 3a. A counter-cylinder 4, parallel to the working cylinder 2, is pivoted freely on a rocker 5 pivotally mounted on the frame 1 about an axis 6 parallel to the axis of the cylinders 2 and 4. A jack 7 is used to press the against cylinder 4 against the cylinder working piece 2, with a predetermined prestressing force, via a lever 7a acting on the rocker 5 and able to increase the pressure exerted by the jack 7.

La figure 2 montre comment la pression du vérin 7 est transmise entre le cylindre de travail 2 et le contre-cylindre 4. Cette pression est symbolisée par deux flèches F1, F2. Le contre-cylindre 4 est monté pivotant autour de deux demi-arbres 8 coaxiaux par des roulements à billes 9. Deux anneaux cylindriques 10 sont montés sur deux portions excentriques 11 des demi-arbres 8 respectifs par des roulements à billes 12. Les anneaux cylindriques 10 sont en contact de roulement avec deux surfaces cylindriques 2a solidaires du cylindre de travail 2.FIG. 2 shows how the pressure of the jack 7 is transmitted between the working roll 2 and the counter-roll 4. This pressure is symbolized by two arrows F 1 , F 2 . The counter-cylinder 4 is pivotally mounted around two coaxial half-shafts 8 by ball bearings 9. Two cylindrical rings 10 are mounted on two eccentric portions 11 of the respective half-shafts 8 by ball bearings 12. The cylindrical rings 10 are in rolling contact with two cylindrical surfaces 2a integral with the working cylinder 2.

Ces anneaux cylindriques 10 et les surfaces cylindriques 2a, formant les surfaces de contact entre le cylindre de travail 2 et le contre-cylindre 4, permettent de transmettre la précontrainte exercée par le vérin 7 tout en ménageant un jeu 13 entre le cylindre de travail 2 et le contre-cylindre 4 pour le passage d'un substrat en bande 14 et d'une ou plusieurs bandes support 15 du matériau des motifs à déposer sur le substrat 14. Ce jeu 13 est choisi pour que la précontrainte exercée et la température du cylindre de travail 2 permettent de transférer à chaud les motifs du matériau de la bande support 15 sur le substrat en bande 14 lors du passage des clichés 16 dans le jeu 13 séparant les deux cylindres 2, 4.These cylindrical rings 10 and the cylindrical surfaces 2a, forming the contact surfaces between the working cylinder 2 and the counter-cylinder 4, allow to transmit the preload exerted by the cylinder 7 while providing a clearance 13 between the working cylinder 2 and the counter-cylinder 4 for the passage of a strip substrate 14 and one or more support strips 15 of the material of the patterns to be deposited on the substrate 14. This set 13 is chosen so that the prestressing exerted and the temperature of the working roll 2 make it possible to heat-transfer the patterns of the material of the support strip 15 onto the strip substrate 14 during the passage of the plates 16 in the clearance 13 separating the two rolls 2, 4.

L'un des anneaux cylindriques 10 est solidaire d'une roue dentée 10a qui engrène avec une roue dentée 2b solidaire du cylindre de travail 2. La roue dentée 10a est en prise avec un moteur d'entraînement (non représenté) par l'intermédiaire d'une liaison moteur LM.One of the cylindrical rings 10 is integral with a toothed wheel 10a which meshes with a toothed wheel 2b integral with the working roll 2. The toothed wheel 10a is engaged with a drive motor (not shown) via an LM motor link.

Les extrémités externes de chaque demi-arbre 8 sont solidaires d'une roue dentée 17 en prise avec une vis sans fin 18 solidaire d'un renvoi conique 19, relié à une poignée (non représentée) permettant de régler le jeu 13; il est aussi possible d'influencer le jeu 13 que d'un côté du rouleau 2 et de créer un jeu 13 légèrement progressif à travers la largeur de la bande 14. Ce système peut aussi être remplacé par deux moteurs agissant chacun sur une vis sans fin 18. La rotation des demi-arbres 8 d'un certain angle fait tourner les excentriques 11 autour de l'axe des demi-arbres 8 coaxiaux, modifiant ainsi le jeu 13 entre le cylindre de travail 2 et le contre-cylindre 4, sans modifier la valeur de la précontrainte exercée sur les cylindres 2 et 4 par l'intermédiaire des surfaces cylindriques de contact 2a et 10.The outer ends of each half-shaft 8 are integral with a toothed wheel 17 in engagement with an endless screw 18 integral with a conical return 19, connected to a handle (not shown) for adjusting the clearance 13; it is also possible to influence the clearance 13 only on one side of the roll 2 and to create a slightly progressive clearance 13 across the width of the strip 14. This system can also be replaced by two motors each acting on a screw without end 18. The rotation of the half-shafts 8 of a certain angle rotates the eccentrics 11 about the axis of the coaxial half-shafts 8, thus modifying the clearance 13 between the working roll 2 and the counter-roll 4, without modifying the value of the prestress exerted on the cylinders 2 and 4 via the cylindrical contact surfaces 2a and 10.

Pour effectuer le dépôt et la fixation des motifs du matériau de la ou des bandes support 15, découpés et chauffés par les clichés 16 du cylindre de travail 2 sur le substrat en bande 14, la couche externe des bandes support 15, adjacente au substrat en bande 14 sur lequel les motifs sont déposés, est formée d'une colle thermodurcissable. C'est la raison pour laquelle le cylindre de travail 2 doit comporter des moyens de chauffage.For depositing and fixing the patterns of the material of the support strip or strips 15, cut and heated by the plates 16 of the working roll 2 on the strip substrate 14, the outer layer of the support strips 15, adjacent to the substrate in strip 14 on which the patterns are deposited, is formed of a thermosetting glue. This is the reason why the working cylinder 2 must comprise heating means.

La figure 3 montre l'intérieur du cylindre de travail 2 qui comporte, une enceinte de chauffage 20 formée par une partie tubulaire 21 en contact thermique avec le cylindre de travail 2. Cette enceinte de chauffage 20 est fermée à ses deux extrémités par des flasques 22, dont le centre est solidaire d'un cylindre de pivotement 23 coaxial à l'axe du cylindre de travail 2. L'un de ces cylindres de pivotement 23 (celui de gauche sur la figure 3) est traversé par un conduit axial 24 divisé en deux conduits concentriques 24a, 24b par une paroi tubulaire 25a d'un raccord tournant 25, destiné à relier l'enceinte de chauffage 20 à un circuit d'huile de chauffage (non représenté). L'intérieur de l'enceinte de chauffage 20 est divisé en plusieurs compartiments par des cloisons tubulaires 26 concentriques, munies de perforations 26a pour former un écoulement en va-et-vient du fluide de chauffage entre le canal d'entrée 24a et le canal de sortie 24b.FIG. 3 shows the interior of the working cylinder 2 which comprises a heating enclosure 20 formed by a tubular part 21 in thermal contact with the working cylinder 2. This heating enclosure 20 is closed at both ends by flanges 22, whose center is secured to a pivoting cylinder 23 coaxial with the axis of the working cylinder 2. One of these pivot cylinders 23 (the left one in Figure 3) is traversed by an axial conduit 24 divided into two concentric ducts 24a, 24b by a tubular wall 25a of a rotating connection 25, for connecting the heating chamber 20 to a heating oil circuit (not shown). The inside of the heating chamber 20 is divided into several compartments by concentric tubular partitions 26, provided with perforations 26a to form a reciprocating flow of the heating fluid between the inlet channel 24a and the channel 24b output.

Pour des raisons mécaniques et de transfert thermique, la partie tubulaire 21 de l'enceinte de chauffage 20 et les flasques de fermeture 22 des extrémités de ces enceintes sont réalisées en des métaux différents tel que l'acier pour les parties externes telles que la partie cylindrique externe du cylindre de travail 2, et les flasques de fermeture 22 et de l'aluminium pour l'enceinte de chauffage 20. Pour éviter la formation d'un espace entre les surfaces de contact 21a, 22a de ces deux pièces 21, 22, qui modifierait le réglage du jeu 13 entre les cylindres 2 et 4, ces surfaces 21a, 22a sont de forme conique avec un demi angle α au sommet de ces surfaces de contact coniques 21a, 22a correspondant à l'angle de l'hypoténuse d'un triangle rectangle dont les autres côtés correspondent à la dilatation thermique longitudinale d'un point donné d'une desdites surfaces de contact (21a, 22a) par rapport à l'axe médian M de ladite enceinte de chauffage 20 à température donnée, respectivement à la dilatation radiale de ce même point à la même température, en sorte que les surfaces de contact 21a, 22a restent jointives quelle que soit la température de l'enceinte cylindrique de chauffage 20. En faisant passer la ligne A-C de la figure 4 par le centre 28 du cylindre de travail 2, l'angle α se trouve déterminé pour chaque cas en particulier.For mechanical reasons and heat transfer, the tubular portion 21 of the heating chamber 20 and the closing flanges 22 of the ends of these enclosures are made of different metals such as steel for the external parts such as the part external cylindrical working cylinder 2, and closing flanges 22 and aluminum for the heating chamber 20. To prevent the formation of a space between the contact surfaces 21a, 22a of these two parts 21, 22 , which would modify the adjustment of the clearance 13 between the cylinders 2 and 4, these surfaces 21a, 22a are of conical shape with a half angle α at the top of these conical contact surfaces 21a, 22a corresponding to the angle of the hypotenuse d a right-angled triangle whose other sides correspond to the longitudinal thermal expansion of a given point of one of said contact surfaces (21a, 22a) relative to the median axis M of said heating chamber 20 at a given temperature e, respectively at the radial expansion of this same point at the same temperature, so that the contact surfaces 21a, 22a remain contiguous regardless of the temperature of the cylindrical heating chamber 20. In FIG. passing the line AC of Figure 4 by the center 28 of the working cylinder 2, the angle α is determined for each case in particular.

En effet, si on examine, en se référant à la figure 4 ce qui se passe lors d'une élévation de température ΔT, en observant deux points adjacents, l'un situé sur la surface conique 22a du flasque 22, l'autre sur la surface conique 21a de la partie tubulaire 21 qui sont, à la température T tous deux confondus en C sur le diagramme explicatif de la figure 4, on constate qu'à la température T+ΔT, le point situé sur la surface conique 22a du flasque 22 s'est déplacé en B qui est la résultante de la dilatation radiale dr22 de ce point et de sa dilatation longitudinale dl22 par rapport à l'axe médian M de l'enceinte de chauffage 20.Indeed, if we examine, with reference to Figure 4 what happens during a temperature rise ΔT, observing two adjacent points, one located on the conical surface 22a of the flange 22, the other on the conical surface 21a of the tubular part 21 which are, at the temperature T, both of which coincide at C on the explanatory diagram of FIG. 4, it can be seen that at the temperature T + ΔT, the point situated on the conical surface 22a of the flange 22 has moved to B which is the result of the radial expansion dr 22 of this point and its longitudinal expansion dl 22 relative to the median axis M of the heating chamber 20.

En fait, cette résultante est l'hypoténuse d'un triangle rectangle dont les côtés dr22 et dl22 sont proportionnels aux dilatations radiales, respectivement longitudinales, qui dépendent des dimensions radiales respectivement longitudinales d'un point donné. Ces dimensions radiales et longitudinales varient en fonction du coefficient de dilatation du matériau, mais leur rapport et donc l'angle de l'hypoténuse, est constant. C'est ainsi que le même point adjacent pris sur la surface conique 21a de la partie tubulaire 21 de l'enceinte de chauffage 20, au même point C de la figure 4, à la température T, se retrouve au point A à la température T+ΔT et que ce point A se trouve sur l'hypoténuse d'un triangle rectangle dont les autres côtés correspondent à la dilatation radiale dr21, respectivement à la dilatation longitudinale dl21 de la partie tubulaire 21 à ce point C. Or, le rapport entre ces côtés dr21 et dl21 reste le même qu'entre les côtés dr22 et dl22 correspondant à la dilatation sur la surface conique 22a du flasque de fermeture 22, en sorte que l'angle α de l'hypoténuse est le même. Donc, avec ces surfaces de contact coniques 21a, 22a, aucun jeu ne se forme suite aux variations de température, même si les coefficients de dilatation sont différents pour les deux matériaux et la surface externe du cylindre de travail 2 reste immobile par rapport à son axe de rotation, puisque aucun jeu ne s'est formé entre ces surfaces coniques 21a, 22a, en sorte que le jeu 13 entre ce cylindre de travail 2 et le contre-cylindre 4 reste constant. Dans ces conditions, même si ce jeu 13 a été réglé alors que la presse était froide, il reste le même lorsque le cylindre de travail 2 est chaud.In fact, this resultant is the hypotenuse of a right triangle whose sides dr 22 and dl 22 are proportional to radial expansion, respectively longitudinal, which depend on the radial respectively longitudinal dimensions of a given point. These radial and longitudinal dimensions vary according to the coefficient of expansion of the material, but their ratio and thus the angle of the hypotenuse, is constant. Thus, the same adjacent point taken on the conical surface 21a of the tubular part 21 of the heating chamber 20, at the same point C of FIG. 4, at the temperature T, is found at point A at the temperature T + ΔT and that this point A is on the hypotenuse of a right triangle whose other sides correspond to the radial expansion dr 21 , respectively to the longitudinal expansion dl 21 of the tubular portion 21 at this point C. However, the ratio between these sides dr 21 and dl 21 remains the same as between the sides dr 22 and dl 22 corresponding to the expansion on the conical surface 22a of the closure flange 22, so that the angle α of the hypotenuse is the same. Thus, with these conical contact surfaces 21a, 22a, no play is formed as a result of temperature variations, even if the expansion coefficients are different for the two materials and the outer surface of the working cylinder 2 remains stationary relative to its axis of rotation, since no clearance has formed between these conical surfaces 21a, 22a, so that the clearance 13 between the working cylinder 2 and the counter-cylinder 4 remains constant. Under these conditions, even if this game 13 was set while the press was cold, it remains the same when the working cylinder 2 is hot.

Avantageusement, deux joints O-ring 27 sont disposés à proximité des deux bords de la surface de contact conique 22a des flasques de fermeture 22 avec la surface conique adjacente 21a de la partie tubulaire 21 de l'enceinte de chauffage 20.Advantageously, two O-rings 27 are disposed near the two edges of the conical contact surface 22a of the flanges of closing 22 with the adjacent conical surface 21a of the tubular portion 21 of the heating chamber 20.

Un aspect important est de réaliser un transfert de chaleur (puissance thermique) correct à travers les clichés 16 du cylindre 2. Notons les faits suivants: La seule façon d'influencer le transfert d'énergie à travers le cliché par milliseconde est d'augmenter la température et/ou le débit du fluide livré par les moyens de chauffage. Selon le motif du cliché, il se peut que des températures différentes soient souhaitables. Ensuite, la température représentative de 220°C va provoquer un rayonnement important en pure perte, chauffer les alentours, c'est donc un phénomène non désiré.An important aspect is to achieve a correct heat transfer (thermal power) through the 16 shots of the cylinder 2. Note the following facts: The only way to influence the transfer of energy through the cliché per millisecond is to increase the temperature and / or the flow rate of the fluid delivered by the heating means. Depending on the pattern of the shot, different temperatures may be desirable. Then, the representative temperature of 220 ° C will cause significant radiation loss, heat the surroundings, so this is an unwanted phenomenon.

Pour améliorer la situation, diverses mesures sont proposées. Les faces 29 non couvertes de clichés de l'outil 2 peuvent être couvertes avec une couche isolante, favorisant le passage de la chaleur disponible à travers les clichés 16 (figures 5, 29b). Pour gérer le passage de chaleur sélectivement à travers chaque cliché 16, les mesures suivantes vont être utilisées toutes ou en partie (cf figure 5): un cliché 16 peut être inséré et fixé par des moyens adéquats 30 dans un tube porteur 31 qui peut être glissé sur le cylindre de travail 2. Les pièces 31 et 2 peuvent aussi être la même. Le cliché 16 peut être muni de trous borgnes 32, de dimensions et répartitions variables, reliés ou non par des perçages 33 favorisant l'échappement d'air lors de changements de température. Ceci va créer des poches d'air et des freins efficaces au passage de chaleur. Les clichés peuvent être posés sur des cales 34, ce qui va accessoirement permettre de régler leur rayon actif Ra dans des petites valeurs. Ces cales 34 peuvent être munies ou non de trous de nouveau de répartitions et diamètres variables. Il peut également s'agir de trous borgnes. Les images des trous 32, 35 peuvent être alignées ou non. La cale 35 peut être aussi faite en matière isolante, résistante à la température. On peut également envisager l'utilisation de matériaux frettés (pressés à partir de poudre). En résumé, on peut freiner le passage d'énergie à travers un ou plusieurs clichés par rapport aux autres.To improve the situation, various measures are proposed. The faces 29 not covered with images of the tool 2 may be covered with an insulating layer, promoting the passage of available heat through the plates 16 (Figures 5, 29b). To manage the passage of heat selectively through each plate 16, the following measurements will be used in whole or in part (see FIG. 5): a plate 16 may be inserted and fixed by suitable means 30 in a carrier tube 31 which may be slipped on the work roll 2. Parts 31 and 2 can also be the same. The plate 16 may be provided with blind holes 32, variable dimensions and distributions, connected or not by holes 33 promoting the escape of air during temperature changes. This will create air pockets and effective brakes to the passage of heat. The images can be placed on shims 34, which will incidentally allow to set their active radius Ra in small values. These shims 34 may or may not be provided with holes of new distributions and variable diameters. It can also be blind holes. The images of the holes 32, 35 may be aligned or not. The shim 35 may also be made of insulating material, resistant to temperature. It is also possible to envisage the use of fretted materials (pressed from powder). In summary, we can slow the passage of energy through one or more clichés compared to others.

Une autre difficulté réside dans le fait que les clichés 16 sont souvent faits en laiton, le tube 31 en acier. La fixation doit donc être capable de tenir les dilatations différentielles.Another difficulty lies in the fact that the plates 16 are often made of brass, the tube 31 made of steel. The fixation must therefore be capable of holding the differential expansions.

Figure 5 montre aussi un arrangement proposé pour cette fixation. Une cale 30, en matière isolante ou non, permet de coincer le cliché 16 positivement contre l'épaule gauche 36, assurant son repositionnement exact en cas de retouches. L'élasticité contrôlée de la pièce 30 permet les dilatations thermiques différentielles entre les parties 31 et 16.Figure 5 also shows a proposed arrangement for this fixation. A spacer 30, made of insulating material or not, makes it possible to wedge the plate 16 positively against the left shoulder 36, ensuring its exact repositioning in case of alterations. The controlled elasticity of the workpiece 30 permits differential thermal expansions between the portions 31 and 16.

La figure 6 montre qu'il est possible de prévoir des variantes de fixation où un changement d'épaisseur de la cale 34 ne provoque pas de déplacement angulaire du cliché 16. Ceci est obtenu par orientation adéquate de la face de référence 37. Cette orientation, parallèle à la ligne centrale 38 du cliché, entraîne toutefois un complément de fixation, par exemple vis 39.FIG. 6 shows that it is possible to provide fixing variants in which a change in thickness of the shim 34 does not cause angular displacement of the plate 16. This is achieved by proper orientation of the reference face 37. This orientation , parallel to the central line 38 of the plate, however, leads to additional fixation, for example screw 39.

Claims (10)

  1. Rotary press to lay patterns of a material on a strip substrate (14), comprising a working cylinder (2) holding embossing dies (16) of patterns of said material to be laid and an anvil cylinder (4), means (2b, 10a, LM) for driving the working cylinder (2) into rotation, means for heating and monitoring temperature (20) of this working cylinder, means (7, 7a, 2a, 10) for exerting a defined prestressing between said working cylinder (2) and said anvil cylinder (4), free rolling means (9) between said anvil cylinder (4) and its pivoting shaft (8), and means (10, 11, 17, 18, 19) for adjusting the spacing (13) between said working cylinder (2) and said anvil cylinder (4) being independent from said means (7, 7a, 2a, 10) for exerting said defined prestressing.
  2. Press according to claim 1, in which the pivoting axis of said working cylinder (2) and said anvil cylinder (4) are linked, respectively with a frame (1) and with a rocking member (5) whose pivoting axis to said frame (1) is parallel to the one of said cylinder and anvil cylinder (2, 4), and in which a jack (7) exerts said prestressing on said rocking member (5) via a lever (7a).
  3. Press according to claim 1, in which said spacing (13) between the working cylinder (2) and the anvil cylinder (4) is determined by at least one cylindrical part (2a) linked with said working cylinder (2) in contact with at least one cylindrical part (10), being independent from said anvil cylinder (4) and mounted pivoting on a portion (11) of the pivoting shaft (8) of this anvil cylinder (4), eccentric to the rotation axis of said anvil cylinder (4), means (17, 18) being provided for adjusting the angular position of said eccentric portion (11) of the pivoting shaft (8), as a function to desired spacing (13) between said working cylinder (2) and said anvil cylinder (4).
  4. Press according to claim 3, in which said working cylinder (2) comprises two cylindrical parts (2a) located on either side of this working cylinder near to its ends, respectively in contact with two cylindrical parts (10), being independent from said anvil-cylinder (4) and mounted pivoting respectively on two eccentric portions (11) of the pivoting shaft (8) of this anvil cylinder (4), located on either side of this anvil-cylinder (4), each of said eccentric portions (11) of said pivoting shaft (8) being associated with independent means (17, 18) for adjusting their angular positions.
  5. Press according to one of the preceding claims, in which said heating means comprises a cylindrical enclosure (20) in thermal contact with the external tubular wall of said working cylinder (2), concentric tubular partitions (26) provided with communication openings (26a) dividing said enclosure (20) into a central chamber surrounded with concentric annular chambers, two flanges (22) closing the respective ends of said annular chambers, feeding lines (24a), respectively axial exhaust lines (24b), connecting said enclosure (20) to a source of heating fluid, cone-shaped contact surfaces (21a, 22a) between said respective flanges (22) and the cylindrical wall (21) of said heating enclosure (20), the half angle at the top (α) of these cone-shaped contact surfaces (21a, 22a) corresponding to the hypotenuse angle of a right-angle triangle whose other sides correspond to the longitudinal thermal expansion (dl21, dl22) of a given point of one of said contact surfaces (21a, 22a) with respect to the median axis (M) of said heating enclosure (20) at a given temperature, respectively to the radial expansion (dr21, dr22) of this same point at the same temperature, so as to maintain said contact surfaces (21a, 22a) joined whatever temperature in said heating enclosure (20).
  6. Press according to claim 5, in which the wall of said heating enclosure (20) and said flanges (22) are made of materials with respective different expansion coefficient.
  7. Press according to one of the preceding claims, where the energy transfer is slowed down in useless zones located between embossing dies (16) by isolating elements (29b).
  8. Press according to one of the preceding claims, in which the heat transfer through the embossing dies can be slowed down by appropriate holes, structures and machining inside the embossing dies, or by blocks under the embossing dies, isolating or not, provided with blind or through holes or not, said blocks being also provided as hoops or compounds, of sandwich type
  9. Press according to claim 8, in which the blocks have a spring function so as to compensate possible errors of out-of-round of the stamping tool.
  10. Press according to one of the preceding claims, in which the embossing dies are fastened by blocks in profile shape along the tool generating lines, these profiles having at least one sloped face positioning with accuracy the embossing die and in a reproducible manner not only in radial but also angularly against a reference face of the holding tool (36), these profiles can be made of elastic material, isolating or not, they can be of an entire or partial length of a tool generating line.
EP03017466A 2002-08-19 2003-08-01 Rotary press for applying a pattern on a web like substrate Expired - Lifetime EP1393904B1 (en)

Applications Claiming Priority (2)

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CH14192002 2002-08-19
CH14192002 2002-08-19

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EP1393904A2 EP1393904A2 (en) 2004-03-03
EP1393904A3 EP1393904A3 (en) 2004-12-15
EP1393904B1 true EP1393904B1 (en) 2007-06-20

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EP (1) EP1393904B1 (en)
JP (1) JP2004074286A (en)
KR (1) KR100567610B1 (en)
CN (1) CN1485203A (en)
AT (1) ATE365106T1 (en)
AU (1) AU2003234750A1 (en)
BR (1) BR0303107A (en)
CA (1) CA2437521A1 (en)
DE (1) DE60314479T2 (en)
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DE102005054766A1 (en) * 2005-11-17 2007-05-31 Gs-Engineering Gmbh Printing device or stamping press, has two cylinders whereby working cylinder has central drilling for inserting bearing shaft which with stationary heating element is formed as heating device
DE102007060581A1 (en) * 2007-12-13 2009-06-18 Heidelberger Druckmaschinen Ag Rotary embosser
EP2275259A1 (en) * 2009-07-14 2011-01-19 Pantec GS Systems AG Press or embossing unit and work cylinder therefor
US9452627B2 (en) 2011-09-30 2016-09-27 Canadian Bank Note Company, Limited Tactile feature tool
CN103350431B (en) * 2013-07-24 2015-01-21 无锡商业职业技术学院 Thin-plate blanking device
WO2016070053A1 (en) * 2014-10-31 2016-05-06 Roto-Die Company, Inc. Anvil roll and internal and external adjustment mechanisms therefor
JP6296308B1 (en) * 2016-09-26 2018-03-20 ツジカワ株式会社 Roll device
KR102282474B1 (en) * 2017-06-15 2021-07-27 한화에어로스페이스 주식회사 Fixing device for securing thin-walled component
KR102256475B1 (en) * 2017-06-15 2021-05-26 한화에어로스페이스 주식회사 Manufacturing method of elastic member
DE102018127669A1 (en) * 2018-11-06 2020-05-07 Windmöller & Hölscher Kg Process for changing the production of a flat film machine from an input product to a subsequent product
CN109848294A (en) * 2019-04-10 2019-06-07 涿州皓原箔业有限公司 A kind of embossing folding all-in-one machine
CN113002158B (en) * 2021-02-26 2022-08-26 重庆市金利药包材料有限公司 Drying device for packaging bag printing

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KR100567610B1 (en) 2006-04-04
CA2437521A1 (en) 2004-02-19
AU2003234750A1 (en) 2004-03-11
KR20040016802A (en) 2004-02-25
JP2004074286A (en) 2004-03-11
BR0303107A (en) 2004-08-24
EP1393904A2 (en) 2004-03-03
DE60314479T2 (en) 2008-02-21
DE60314479D1 (en) 2007-08-02
US6907821B2 (en) 2005-06-21
EP1393904A3 (en) 2004-12-15
ATE365106T1 (en) 2007-07-15
TWI225447B (en) 2004-12-21
CN1485203A (en) 2004-03-31
US20040035305A1 (en) 2004-02-26
TW200404679A (en) 2004-04-01

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