EP1108536B1 - Lubricating system for a rotationally symmetrical part with a control mechanism in a printing machine - Google Patents

Lubricating system for a rotationally symmetrical part with a control mechanism in a printing machine Download PDF

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Publication number
EP1108536B1
EP1108536B1 EP00126833A EP00126833A EP1108536B1 EP 1108536 B1 EP1108536 B1 EP 1108536B1 EP 00126833 A EP00126833 A EP 00126833A EP 00126833 A EP00126833 A EP 00126833A EP 1108536 B1 EP1108536 B1 EP 1108536B1
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EP
European Patent Office
Prior art keywords
rotationally symmetrical
printing press
control element
component
press according
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 - Lifetime
Application number
EP00126833A
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German (de)
French (fr)
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EP1108536A1 (en
Inventor
Toni Ehrhard
Nicola Pupic
Paul-Ulrich Faust
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Manroland AG
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MAN Roland Druckmaschinen AG
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Publication of EP1108536A1 publication Critical patent/EP1108536A1/en
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B41PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
    • B41FPRINTING MACHINES OR PRESSES
    • B41F13/00Common details of rotary presses or machines
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B41PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
    • B41FPRINTING MACHINES OR PRESSES
    • B41F21/00Devices for conveying sheets through printing apparatus or machines
    • B41F21/10Combinations of transfer drums and grippers
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B41PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
    • B41PINDEXING SCHEME RELATING TO PRINTING, LINING MACHINES, TYPEWRITERS, AND TO STAMPS
    • B41P2213/00Arrangements for actuating or driving printing presses; Auxiliary devices or processes
    • B41P2213/40Auxiliary devices or processes associated with the drives
    • B41P2213/46Lubrication

Definitions

  • the invention relates to a Printing machine with a lubrication system and a control unit having rotationally symmetrical component according to the preamble of the main claim.
  • a lubrication system of this type is used as a lubrication device of moving machine parts, especially in printing machines, known from DD 288 792 A5.
  • the machine elements have a lubricant sensor on the machine element is arranged.
  • This lubrication system is relatively complex and only periodically transfers the lubricant to the corresponding machine element. Especially in the case of heavier loads Machine elements is in use of such Lubrication systems cannot rule out increasing wear.
  • Lubrication is preferably carried out after a lubrication schedule, whereby subjective misconduct is not is to be excluded. For example, the lubrication of Lubrication points are forgotten or it becomes an unsuitable one Lubricant used or the dosage does not correspond the given order of magnitude.
  • a rotary printing press is included Drive devices of individual assemblies and with one Central lubrication of the drive devices known.
  • the drive device is a storage container as a buffer element assigned for lubricants, the reservoir being a Opening for the metered delivery of lubricant to the drive device has and the reservoir over the Central lubrication can be refilled.
  • the invention is preferred for the drive for friction rollers in an inking unit suitable.
  • the object of the invention is a lubrication system of the type mentioned at the outset to create that Avoids disadvantages, in particular a more uniform Lubrication of the control unit of a rotationally symmetrical Component allowed and that a reduction in friction and wear allowed on the elements of the control unit.
  • the task is based on the training features of the main claim solved. Further training results from the subclaims.
  • a first advantage of the lubrication system according to the invention is reasoned that this is continuously on the controls having control unit of a rotationally symmetrical Component acts. With this permanent lubrication system manual lubrication of the control unit is preferred according to lubrication plan, lapsed and a possible subjective Misconduct is therefore excluded.
  • Another advantage is that preferably a uniform Lubricant for all control elements to be lubricated, preferably at the same time for those with circulating lubrication Bearings, the rotationally symmetrical component can be used is.
  • control elements of the control unit have a complete encapsulation. So that is in addition to the lubricant supply, noise reduction and protection against contamination can be achieved. Furthermore, with cooling this continuously effective lubrication system and a protection against corrosion on the elements of the control unit achievable, what overall to reduce friction and wear is.
  • the lubrication system according to the invention is rotationally symmetrical Component 2, which laterally in a bearing 12 in a side frame 1 is rotatably accommodated. At least one control element 3 is fixed on the side frame 1 arranged and on the side frame 1 is a first encapsulation 8 preferably arranged detachable in several parts. On rotationally symmetrical Component 2 is at least one control element on the end face 4 arranged, which is at a mating point with the control element 3 is engaged and forms a control unit 3, 4. On one end face of the control unit 3. 4 rotating component 2, a second encapsulation 9 is arranged.
  • the encapsulations 8, 9 have a sealing unit 10, 11 on which by a fixed seal 10 on the first Encapsulation 8 and one arranged on the second encapsulation 9 Seal 11, which is rotatable with the component 2, formed is.
  • the control unit 3, 4 is within one by the encapsulations 8, 9 formed free space 16, which of these encapsulations 8, 9, including the sealing unit 10, 11, is enclosed.
  • feeding and Return line 14, 15 are preferably part of central lubrication.
  • a multi-color rotary printing press has several printing units arranged in series for sheet processing.
  • each printing unit has a plate cylinder with at least one inking unit and possibly a dampening unit, a blanket cylinder and the sheet guiding cylinder as a double-sized printing cylinder (rotationally symmetrical component 2).
  • sheet guide cylinders are again arranged as double-sized transfer cylinders between the printing units, and a double-sized turning drum can also be used as sheet-guiding cylinder, for example according to the principle of trailing edge use as a single-drum turn.
  • a rotationally symmetrical component 2 designed in this way as a curved guide cylinder is in turn rotatably received in a bearing 12 in a side frame 1.
  • the rotationally symmetrical component 2 is of double size, that is to say two diametrically (by 180 ° offset) sheet holding systems 6, 7 are arranged on the circumference.
  • the double-sized sheet guide cylinder (rotationally symmetrical Component 2) designed, for example, as a turning drum, so the bow support system 6 as a pivot shaft Gripper shaft and grippers or as gripper shaft and grippers executed itself and the sheet holding system 7 is as a with an air supply coupled suction pipe executed.
  • the sheet holding systems 6, 7 are two each diametrically arranged sheet holding systems 6, 7 on component 2 educated.
  • the sheet holding systems 6, 7 are each by means of roller levers 5 and role as a control element 4 coupled and the control element 4 is spring-loaded at a mating point with that on the side frame 1 arranged control curve as control element 3 a control unit 3, 4 in engagement.
  • the rotationally symmetrical component 2 as a curved guide cylinder, especially as a turning drum, it is fixed on the side frame 1 arranged control element 3 preferably on the pin or the shoulder of the component 2 arranged in a bearing 13.
  • the control element 3 is stationary to the side frame 1 axially on the pin or shoulder displaceable, e.g. for changing the operating mode (straight printing au fine and reverse printing and vice versa).
  • the sealing system 10, 11 is designed such that the stationary seal 10 and that with the rotatable component 2 connected seal 11 touching or contactless to each other secure the free space 16.
  • a non-contact sealing system 10, 11 is preferably a labyrinth seal and as contacting sealing system 10, 11 is preferably one Slip seal can be used.
  • the feed line 14 feeds the lubricant under pressure through the bearing 12 from the outside through the side frame 1 into the free space 16. If the control element 3 is accommodated in a bearing 13, the feed line 14 preferably also feeds lubricant into the free space 16 through the bearing 13. When the lubricant is supplied through the bearings 12, 13, lubricant is simultaneously supplied to the bearing points of these bearings 12, 13 via the feed line 14. During the rotational movement of the component 2, the lubricant is thrown off by centrifugal force within the free space 16 and is collected in the lower part of the encapsulations 8, 9.
  • the return line 15 is arranged at the lowest point of the encapsulation 8 and is functionally connected to a circulation system for the lubricant.
  • At least one of the encapsulations 8, 9, preferably the encapsulation 8, is formed at least in two parts.
  • Related to the Axis of component 2 encloses a lower half-shell as a part of the lower area of the free space 16 and an upper Half shell or preferably two quarter shells enclose the overhead space 16.
  • the sealing system 10, 11 is preferably circumferentially on the Encapsulations 8.9 composed of several parts.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Rotary Presses (AREA)
  • Rolling Contact Bearings (AREA)
  • Friction Gearing (AREA)
  • General Details Of Gearings (AREA)

Abstract

A method for continuous lubrication of a print roller control system has a direct mechanical drive between a control element (3) on the fixed support (1) and meshing with a control element (4) on the rotating roller. The space (16) containing the control system is lubricated by a lubricant feed (14) through the bearings and distributed by centrifugal force. Excess lubricant drains to the bottom of the system where a drain (15) is connected to the lubricant recycling system.

Description

Die Erfindung betrifft eine Druckmaschine mit einem Schmiersystem und einem eine Steuereinheit aufweisendes rotationssymmetrisches Bauteil nach dem Oberbegriff des Hauptanspruches.The invention relates to a Printing machine with a lubrication system and a control unit having rotationally symmetrical component according to the preamble of the main claim.

[Stand der Technik][State of the art]

Ein Schmiersystem dieser Art ist als Einrichtung zur Schmierung von bewegten Maschinenteilen, insbesondere in Druckmaschinen, aus DD 288 792 A5 bekannt. Die Maschinenelemente weisen einen Schmierstoffaufnehmer auf, welcher am Maschinenelement angeordnet ist. Am Maschinengestell ist ein Schmierstoffgeber beweglich angeordnet, welcher mit dem Schmierstoffaufnehmer auf dessen Bewegungsbahn in zeitweisen Kontakt bringbar ist. Dieses Schmiersystem ist relativ aufwendig und überträgt den Schmierstoff nur periodisch an das entsprechende Maschinenelement. Insbesondere bei höher beanspruchten Maschinenelementen ist bei Einsatz eines derartigen Schmiersystems ein zunehmender Verschleiß nicht auszuschließen.A lubrication system of this type is used as a lubrication device of moving machine parts, especially in printing machines, known from DD 288 792 A5. The machine elements have a lubricant sensor on the machine element is arranged. There is a on the machine frame Lubricator arranged movably, which with the Lubricant sensor on its trajectory at times Contact can be brought. This lubrication system is relatively complex and only periodically transfers the lubricant to the corresponding machine element. Especially in the case of heavier loads Machine elements is in use of such Lubrication systems cannot rule out increasing wear.

Weiterhin ist bekannt, dass in Druckmaschinen die bewegten Maschinenelemente bei Stillstand der Maschine von Hand abgeschmiert werden. Das Abschmieren erfolgt vorzugsweise nach einem Schmierplan, wobei ein subjektives Fehlverhalten nicht auszuschließen ist. Beispielsweise kann das Abschmieren von Schmierstellen vergessen werden oder es wird ein ungeeignetes Schmiermittel eingesetzt bzw. die Dosierung entspricht nicht dem vorgegebenen Größenordnungen.It is also known that the moving in printing machines Machine elements lubricated by hand when the machine is at a standstill become. Lubrication is preferably carried out after a lubrication schedule, whereby subjective misconduct is not is to be excluded. For example, the lubrication of Lubrication points are forgotten or it becomes an unsuitable one Lubricant used or the dosage does not correspond the given order of magnitude.

Aus DE 297 06 660 U1 ist eine Rotationsdruckmaschine mit Antriebseinrichtungen von einzelnen Baugruppen und mit einer Zentralschmierung der Antriebseinrichtungen bekannt. Der Antriebseinrichtung ist ein Vorratsbehälter als Pufferelement für Schmiermittel zugeordnet, wobei der Vorratsbehälter eine Öffnung zum dosierten Abgeben von Schmiermittel an die Antriebseinrichtung aufweist und der Vorratsbehälter über die Zentralschmierung erneut befüllbar ist. Die Erfindung ist bevorzugt für den Antrieb für Reibwalzen in einem Farbwerk geeignet.From DE 297 06 660 U1 a rotary printing press is included Drive devices of individual assemblies and with one Central lubrication of the drive devices known. The The drive device is a storage container as a buffer element assigned for lubricants, the reservoir being a Opening for the metered delivery of lubricant to the drive device has and the reservoir over the Central lubrication can be refilled. The invention is preferred for the drive for friction rollers in an inking unit suitable.

[Aufgabe der Erfindung]OBJECT OF THE INVENTION

Der Erfindung liegt die Aufgabe zu Grunde, ein Schmiersystem der eingangs genannten Art zu schaffen, dass die genannten Nachteile vermeidet, das insbesondere eine gleichmäßigere Schmierung der Steuereinheit eines rotationssymmetrischen Bauteiles gestattet und das eine Reibungs- und Verschleißreduzierung an den Elementen der Steuereinheit erlaubt.The object of the invention is a lubrication system of the type mentioned at the outset to create that Avoids disadvantages, in particular a more uniform Lubrication of the control unit of a rotationally symmetrical Component allowed and that a reduction in friction and wear allowed on the elements of the control unit.

Erfindungsgemäß wird die Aufgabe durch die Ausbildungsmerkmale des Hauptanspruches gelöst. Weiterbildungen ergeben sich aus den Unteransprüchen.According to the invention, the task is based on the training features of the main claim solved. Further training results from the subclaims.

Ein erster Vorteil des erfindungsgemäßen Schmiersystems ist darin begründet, dass dieses kontinuierlich auf die Steuerelemente aufweisende Steuereinheit eines rotationssymmetrischen Bauteils einwirkt. Bei diesem Permanent-Schmiersystem ist ein manuelles Abschmieren der Steuereinheit, bevorzugt nach Schmierplan, hinfällig und ein mögliches subjektives Fehlverhalten ist damit ausgeschlossen.A first advantage of the lubrication system according to the invention is reasoned that this is continuously on the controls having control unit of a rotationally symmetrical Component acts. With this permanent lubrication system manual lubrication of the control unit is preferred according to lubrication plan, lapsed and a possible subjective Misconduct is therefore excluded.

Von Vorteil ist weiterhin, dass bevorzugt ein einheitliches Schmiermittel für alle zu schmierenden Steuerelemente, vorzugsweise gleichzeitig für die mit Umlaufschmierung versehenen Lagerungen, des rotationssymmetrischen Bauteiles einsetzbar ist.Another advantage is that preferably a uniform Lubricant for all control elements to be lubricated, preferably at the same time for those with circulating lubrication Bearings, the rotationally symmetrical component can be used is.

Vorteilhaft ist ebenso, dass die Steuerelemente der Steuereinheit eine vollständige Kapselung aufweisen. Damit ist neben der Schmiermittelversorgung eine Lärmreduzierung und ein Schutz vor Verschmutzungen erzielbar. Weiterhin ist mit diesem kontinuierlich wirksamen Schmiersystem eine Kühlung und ein Korrisionsschutz an den Elementen der Steuereinheit erzielbar, was insgesamt zur Reibungs- und Verschleißreduzierung beträgt.It is also advantageous that the control elements of the control unit have a complete encapsulation. So that is in addition to the lubricant supply, noise reduction and protection against contamination can be achieved. Furthermore, with cooling this continuously effective lubrication system and a protection against corrosion on the elements of the control unit achievable, what overall to reduce friction and wear is.

Als weitere Vorteile sind noch zu nennen, dass eine Erhöhung der Zuverlässigkeit der Steuereinheit bevorzugt durch eine kontinuierliche Schmierung dieser Kammer realisierbar ist. Ein Einsatz von verschiedensten Überwachungseinrichtungen ist überflüssig und die Wartungskosten der Schmierstellen, insbesondere gegenüber der manuellen Schmierung sind reduzierbar. Letztlich ist es vorteilhaft, das die Unfallsicherheit im Maschinenbetrieb erhöht wird und ein möglicher Kontakt des Bedruckstoffes mit Schmiermittel ausgeschlossen ist.Other benefits include an increase the reliability of the control unit preferably by continuous lubrication of this chamber is feasible. A variety of monitoring devices is used superfluous and the maintenance costs of the lubrication points, in particular compared to manual lubrication can be reduced. Ultimately, it is advantageous that the accident safety in the Machine operation is increased and a possible contact of the Substrate with lubricant is excluded.

[Beispiele][Examples]

Die Erfindung soll an einem Ausführungsbeispiel näher erläutert werden. Dabei zeigen schematisch:

Figur 1
ein rotationssymmetrisches Bauteil mit einer Steuereinheit,
Figur 2
eine Kapselung mit Dichtungssytem der Steuereinheit gem. Fig. 1.
The invention will be explained in more detail using an exemplary embodiment. The following schematically show:
Figure 1
a rotationally symmetrical component with a control unit,
Figure 2
an encapsulation with sealing system of the control unit acc. Fig. 1.

Das erfindungsgemäße Schmiersystem ist einem rotationssymmetrischen Bauteil 2, welches seitlich in je einem Lager 12 in einem Seitengestell 1 rotierbar aufgenommen ist, zugeordnet. Am Seitengestell 1 ist ortfest wenigstens ein Steuerelement 3 angeordnet und am Seitengestell 1 ist eine erste Kapselung 8 bevorzugt mehrteilig lösbar angeordnet. Am rotationssymmetrischen Bauteil 2 ist stirnseitig wenigstens ein Steuerelement 4 angeordnet, welches an einer Paarungsstelle mit dem Steuerelement 3 in Eingriff ist und eine Steuereinheit 3, 4 bildet. An einer der Steuereinheit 3,4 zugeordneten Stirnseite des rotierenden Bauteils 2 ist eine zweite Kapselung 9 angeordnet. Die Kapselungen 8, 9 weisen eine Dichtungseinheit 10, 11 auf, welche durch eine ortsfeste Dichtung 10 an der ersten Kapselung 8 und eine an der zweiten Kapselung 9 angeordneten Dichtung 11, welche mit dem Bauteil 2 rotierbar ist, gebildet ist.The lubrication system according to the invention is rotationally symmetrical Component 2, which laterally in a bearing 12 in a side frame 1 is rotatably accommodated. At least one control element 3 is fixed on the side frame 1 arranged and on the side frame 1 is a first encapsulation 8 preferably arranged detachable in several parts. On rotationally symmetrical Component 2 is at least one control element on the end face 4 arranged, which is at a mating point with the control element 3 is engaged and forms a control unit 3, 4. On one end face of the control unit 3. 4 rotating component 2, a second encapsulation 9 is arranged. The encapsulations 8, 9 have a sealing unit 10, 11 on which by a fixed seal 10 on the first Encapsulation 8 and one arranged on the second encapsulation 9 Seal 11, which is rotatable with the component 2, formed is.

Die Steuereinheit 3, 4 ist innerhalb eines durch die Kapselungen 8, 9 gebildeten Freiraums 16 angeordnet, welcher von diesen Kapselungen 8, 9, einschließlich der Dichtungseinheit 10, 11, umschlossen ist. In diesen Freiraum 16 mündet eine Zuführleitung 14 für das Schmiermittel und an den Kapselungen 8, 9, bevorzugt der ortsfesten, ersten Kapselung 8, ist eine Rücklaufleitung 15 für das Schmiermittel angeordnet. Zuführund Rücklaufleitung 14, 15 sind bevorzugt Teil einer Zentralschmierung.The control unit 3, 4 is within one by the encapsulations 8, 9 formed free space 16, which of these encapsulations 8, 9, including the sealing unit 10, 11, is enclosed. One opens into this free space 16 Feed line 14 for the lubricant and on the encapsulations 8, 9, preferably the stationary, first encapsulation 8, is one Return line 15 arranged for the lubricant. feeding and Return line 14, 15 are preferably part of central lubrication.

Die Erfindung soll an Hand des rotationssymmetrischen Bauteils 2, welches bevorzugt als Bogenführungszylinder in einer Druckmaschine angeordnet ist, weiter beschrieben werden. Eine Mehrfarbenrotationsdruckmaschine weist mehrere in Reihenbauweise angeordnete Druckwerke für die Bogenverarbeitung auf. Jedes Druckwerk weist in bekannter Weise einen Plattenzylinder mit zumindest einem Farbwerk und gegebenenfalls einem Feuchtwerk, einen Gummituchzylinder und den Bogenführungszylinder als doppelt großen Druckzylinder (rotationssymmetrisches Bauteil 2) auf. Für den Bogentransport in Förderrichtung sind zwischen den Druckwerken wieder Bogenführungszylinder als doppelt große Transferzylinder angeordnet, wobei auch eine doppelt große Wendetrommel als Bogenführungszylinder, zum Beispiel nach dem Prinzip der Hinterkantenwendung als Eintrommelwendung, einsetzbar ist.
Ein derartig als Bogenführungszylinder ausgebildetes rotationssymmetrisches Bauteil 2 ist wiederum in je einem Lager 12 in einem Seitengestell 1 rotierbar aufgenommen. Mit Bezug auf einen einfach großen Platten-Platten-/Gummituchzylinder ist das rotationssymmetrische Bauteil 2 doppelt groß ausgebildet, das heißt am Umfang sind zwei diametral (um 180° versetzt) angeordnete Bogenhaltesysteme 6, 7 angeordnet.The invention will be further described on the basis of the rotationally symmetrical component 2, which is preferably arranged as a sheet guiding cylinder in a printing press. A multi-color rotary printing press has several printing units arranged in series for sheet processing. In a known manner, each printing unit has a plate cylinder with at least one inking unit and possibly a dampening unit, a blanket cylinder and the sheet guiding cylinder as a double-sized printing cylinder (rotationally symmetrical component 2). For sheet transport in the conveying direction, sheet guide cylinders are again arranged as double-sized transfer cylinders between the printing units, and a double-sized turning drum can also be used as sheet-guiding cylinder, for example according to the principle of trailing edge use as a single-drum turn.
A rotationally symmetrical component 2 designed in this way as a curved guide cylinder is in turn rotatably received in a bearing 12 in a side frame 1. With respect to a single-sized plate-plate / blanket cylinder, the rotationally symmetrical component 2 is of double size, that is to say two diametrically (by 180 ° offset) sheet holding systems 6, 7 are arranged on the circumference.

Ist der doppelt große Bogenführungszylinder (rotationssymmetrisches Bauteil 2) beispielsweise als Wendetrommel ausgebildet, so ist das Bogenhaltesystem 6 als Schwenkwelle mit Greiferwelle und Greifern oder als Greiferwelle und Greifern selbst ausgeführt und das Bogenhaltesystem 7 ist als ein mit einer Luftversorgung gekoppeltes Saugerrohr ausgeführt. Hierbei sind die Bogenhaltesysteme 6, 7 als jeweils zwei diametral angeordnete Bogenhaltesysteme 6, 7 am Bauteil 2 ausgebildet.Is the double-sized sheet guide cylinder (rotationally symmetrical Component 2) designed, for example, as a turning drum, so the bow support system 6 as a pivot shaft Gripper shaft and grippers or as gripper shaft and grippers executed itself and the sheet holding system 7 is as a with an air supply coupled suction pipe executed. Here, the sheet holding systems 6, 7 are two each diametrically arranged sheet holding systems 6, 7 on component 2 educated.

Die Bogenhaltesysteme 6, 7 sind jeweils mittels Rollenhebel 5 und Rolle als Steuerelement 4 gekoppelt und das Steuerelement 4 ist an einer Paarungsstelle federbelastet mit der am Seitengestell 1 angeordneten Steuerkurve als Steuerelement 3 einer Steuereinheit 3, 4 in Eingriff. Bei Ausbildung des rotationssymmetrischen Bauteiles 2 als Bogenführungszylinder, insbesondere als Wendetrommel, ist das ortsfest am Seitengestell 1 angeordnete Steuerelement 3 bevorzugt auf dem Zapfen oder der Schulter des Bauteiles 2 in einem Lager 13 angeordnet. In dieser Ausbildung ist das Steuerelement 3 ortsfest zum Seitengestell 1 axial auf dem Zapfen oder der Schulter verschiebbar, z.B. für die Betriebsartumstellung (Schöndruck au Schön- und Widerdruck und umgekehrt). The sheet holding systems 6, 7 are each by means of roller levers 5 and role as a control element 4 coupled and the control element 4 is spring-loaded at a mating point with that on the side frame 1 arranged control curve as control element 3 a control unit 3, 4 in engagement. When training the rotationally symmetrical component 2 as a curved guide cylinder, especially as a turning drum, it is fixed on the side frame 1 arranged control element 3 preferably on the pin or the shoulder of the component 2 arranged in a bearing 13. In this embodiment, the control element 3 is stationary to the side frame 1 axially on the pin or shoulder displaceable, e.g. for changing the operating mode (straight printing au fine and reverse printing and vice versa).

Das Dichtsystem 10, 11 ist dabei derart ausgebildet, dass die ortsfeste Dichtung 10 und die mit dem rotierbaren Bauteil 2 verbundene Dichtung 11 berührend oder berührungslos zueinander den Freiraum 16 absichern. Als berührungsloses Dichtungssystem 10, 11 ist bevorzugt eine Labyrinthdichtung und als berührendes Dichtungssystem 10, 11 ist bevorzugt eine Schleifdichtung einsetzbar.The sealing system 10, 11 is designed such that the stationary seal 10 and that with the rotatable component 2 connected seal 11 touching or contactless to each other secure the free space 16. As a non-contact sealing system 10, 11 is preferably a labyrinth seal and as contacting sealing system 10, 11 is preferably one Slip seal can be used.

In einer bevorzugten Ausbildung speist die Zuführleitung 14 das Schmiermittel unter Druck durch das Lager 12 von außen durch das Seitengestell 1 in den Freiraum 16 ein. Ist das Steuerelement 3 in einem Lager 13 aufgenommen, so speist die Zuführleitung 14 bevorzugt zusätzlich durch das Lager 13 Schmiermittel in den Freiraum 16 ein. Bei Zuführung des Schmiermittels durch die Lager 12, 13 wird über die Zuführleitung 14 gleichzeitig Schmiermittel an die Lagerstellen dieser Lager 12, 13 zugeführt. Während der Rotationsbewegung des Bauteiles 2 wird das Schmiermittel durch Fliehkraft innerhalb des Freiraumes 16 abgeschleudert und wird im unteren Teil der Kapselungen 8, 9 aufgefangen.
Die Rücklaufleitung 15 ist am tiefsten Punkt der Kapselung 8 angeordnet und ist mit einem Umlaufsystem für das Schmiermittel in Funktionsverbindung.In a preferred embodiment, the feed line 14 feeds the lubricant under pressure through the bearing 12 from the outside through the side frame 1 into the free space 16. If the control element 3 is accommodated in a bearing 13, the feed line 14 preferably also feeds lubricant into the free space 16 through the bearing 13. When the lubricant is supplied through the bearings 12, 13, lubricant is simultaneously supplied to the bearing points of these bearings 12, 13 via the feed line 14. During the rotational movement of the component 2, the lubricant is thrown off by centrifugal force within the free space 16 and is collected in the lower part of the encapsulations 8, 9.
The return line 15 is arranged at the lowest point of the encapsulation 8 and is functionally connected to a circulation system for the lubricant.

Wenigstens eine der Kapselungen 8, 9, bevorzugt die Kapselung 8, ist zumindest zweiteilig ausgebildet. Bezogen auf die Achse des Bauteiles 2 umschließt eine untere Halbschale als ein Teil den unteren Bereich des Freiraumes 16 und eine obere Halbschale oder bevorzugt zwei Viertelschalen umschließen den obenliegenden Freiraum 16.At least one of the encapsulations 8, 9, preferably the encapsulation 8, is formed at least in two parts. Related to the Axis of component 2 encloses a lower half-shell as a part of the lower area of the free space 16 and an upper Half shell or preferably two quarter shells enclose the overhead space 16.

Das Dichtungssystem 10, 11 ist bevorzugt umfangsseitig an den Kapselungen 8,9 mehrteilig zusammengesetzt. The sealing system 10, 11 is preferably circumferentially on the Encapsulations 8.9 composed of several parts.

[Bezugszeichenliste][REFERENCE LIST]

1 -1 -
Seitengestellside frame
2 -2 -
rotationssymmetrisches Bauteilrotationally symmetrical component
3 -3 -
Steuerelementcontrol
4 -4 -
Steuerelementcontrol
5 -5 -
Rollenhebelroller lever
6 -6 -
BogenhaltesystemSheet holding system
7 -7 -
BogenhaltesystemSheet holding system
8 -8th -
erste Kapselungfirst encapsulation
9 -9 -
zweite Kapselungsecond encapsulation
10 -10 -
ortsfeste Dichtungstationary seal
11 -11 -
Dichtungpoetry
12 -12 -
Lagercamp
13 -13 -
Lagercamp
14 -14 -
Zuführleitungfeed
15 -15 -
RücklaufleitungReturn line
16 -16 -
Freiraumfree space

Claims (8)

  1. Printing press having a lubrication system and a rotationally symmetrical component having a control unit, the said component being rotationally held in each case in a bearing (12) in a side frame (1),
    characterized in that on the side frame (1), at least a first control element (3) and a first enclosure (8) are detachably arranged in a fixed location,
    in that at one end of the rotationally symmetrical component (2) there is arranged at least a second control element (4) which, in engagement with the first control element (3), forms the control unit (3, 4),
    in that at this end of the rotationally symmetrical component (2) there is arranged a second enclosure (9),
    in that, by means of a sealing unit (10, 11), the enclosures (8, 9) are arranged to enclose a free space (16) that accommodates the control unit (3, 4), and
    in that a feed line (14) for a lubricant opens into this free space (16), and a return line (15) is arranged on the enclosure (8, 9).
  2. Printing press according to Claim 1, characterized in that the feed line (14) opens into the free space (16), guided from outside at least through one bearing (12) of the component (2).
  3. Printing press according to at least Claim 1, characterized in that at least one of the enclosures (8, 9) is formed in several parts.
  4. Printing press according to at least Claim 1, characterized in that the sealing unit (10, 11) is designed to make contact or not to make contact.
  5. Printing press according to Claim 1 and at least 4, characterized in that the sealing unit (10, 11) is formed from a fixed seal (10) and a seal (11) arranged on the rotatable component (2).
  6. Printing press according to at least Claim 1, characterized in that the rotationally symmetrical component (2) is a sheet-carrying cylinder.
  7. Printing press according to at least Claim 1, characterized in that the control element (3) is a control cam and the control element (4) is a roller.
  8. Printing press according to at least Claim 1 and 6, characterized in that the control element (4) is coupled by a roller lever (5) to a sheet holding system (6, 7).
EP00126833A 1999-12-14 2000-12-07 Lubricating system for a rotationally symmetrical part with a control mechanism in a printing machine Expired - Lifetime EP1108536B1 (en)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
DE19960162A DE19960162A1 (en) 1999-12-14 1999-12-14 Lubrication system for a rotationally symmetrical component having a control unit in a printing press
DE19960162 1999-12-14

Publications (2)

Publication Number Publication Date
EP1108536A1 EP1108536A1 (en) 2001-06-20
EP1108536B1 true EP1108536B1 (en) 2003-09-17

Family

ID=7932554

Family Applications (1)

Application Number Title Priority Date Filing Date
EP00126833A Expired - Lifetime EP1108536B1 (en) 1999-12-14 2000-12-07 Lubricating system for a rotationally symmetrical part with a control mechanism in a printing machine

Country Status (3)

Country Link
EP (1) EP1108536B1 (en)
AT (1) ATE249928T1 (en)
DE (2) DE19960162A1 (en)

Families Citing this family (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN117685346B (en) * 2024-02-04 2024-04-09 成都理工大学 Automatic lubricating device for gear rack system

Family Cites Families (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DD288792A5 (en) * 1989-11-03 1991-04-11 Veb Polygraph Druckmaschinenwerk Planeta,De LUBRICATION DEVICE
DE4143003A1 (en) * 1991-12-24 1993-07-01 Hobema Maschf Hermann Device for cross folding of length of paper, tissue, non-woven materials, etc - has guide point for control lever on cam plate, behind folding blade
DE19531840B4 (en) * 1994-03-01 2005-10-06 Heidelberger Druckmaschinen Ag Stiffening system for rotary printing-press frame - comprises cross-member passing through printing cylinder and bearings between sidewalls
DE19539502A1 (en) * 1995-10-24 1997-05-15 Koenig & Bauer Albert Ag Bearing of a distribution cylinder of a rotary printing press
DE29706660U1 (en) * 1997-04-14 1997-06-05 Heidelberger Druckmaschinen Ag, 69115 Heidelberg Rotary printing press
DE19812440B4 (en) * 1998-03-21 2005-12-29 Koenig & Bauer Ag Method and device for lubricant supply for oscillating systems in sheet guiding cylinders

Also Published As

Publication number Publication date
DE19960162A1 (en) 2001-06-21
DE50003713D1 (en) 2003-10-23
ATE249928T1 (en) 2003-10-15
EP1108536A1 (en) 2001-06-20

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