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EP0699525B1 - Cooling system for printing machines - Google Patents

Cooling system for printing machines Download PDF

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Publication number
EP0699525B1
EP0699525B1 EP95112447A EP95112447A EP0699525B1 EP 0699525 B1 EP0699525 B1 EP 0699525B1 EP 95112447 A EP95112447 A EP 95112447A EP 95112447 A EP95112447 A EP 95112447A EP 0699525 B1 EP0699525 B1 EP 0699525B1
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EP
European Patent Office
Prior art keywords
printing press
liquid
temperature stabilizing
heat exchanger
device unit
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
EP95112447A
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German (de)
French (fr)
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EP0699525A3 (en
EP0699525A2 (en
Inventor
Dieter Frank
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Baldwin Grafotec GmbH
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Baldwin Grafotec GmbH
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Application filed by Baldwin Grafotec GmbH filed Critical Baldwin Grafotec GmbH
Publication of EP0699525A2 publication Critical patent/EP0699525A2/en
Publication of EP0699525A3 publication Critical patent/EP0699525A3/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
    • B41F13/08Cylinders
    • B41F13/22Means for cooling or heating forme or impression cylinders

Definitions

  • the invention relates to a printing press temperature control system according to the preamble of claim 1.
  • Such a printing press temperature control system is over EP 0 602 312 A1. It is especially useful for the Fountain solution offset printing and dry offset printing used. This can be sheet printing (printing of individual sheets of paper) or roll printing (printing of paper webs).
  • the sheet-fed offset printing machines are much smaller than the web offset presses stand in a pressroom and generate heat which they deliver to the pressroom.
  • the chiller is working on the principle of alternate compression and Expansion of a refrigerant in one Refrigerant circuit:
  • the refrigerant indicates its coldness the cold water or another coolant.
  • the refrigeration generator releases the heat extracted from the cold water the surrounding area.
  • the chiller hereinafter the chiller called, housed in the press room, where the Printing press is housed, however, at a distance of the printing press so that they can stand out from them do not heat each other.
  • DE-42 29 311 C1 (EP 0 586 958 A2) is one Device for cleaning dampening water Offset printing machine known.
  • the device contains a Filter chamber for the dampening water, which in the Printing unit of the printing press integrated and through a door is accessible.
  • the object of the invention is to be achieved in Press room to create more freedom and that Temperature control unit or temperature control unit from to protect mechanical damage.
  • a Refrigerator of the temperature control system outside of the Press rooms arranged to prevent undesirable heating to avoid the printing press from the cold generator, and undesirable heating of the refrigeration generator due to the heat radiated by the printing press avoid.
  • Temperature control unit are the Temperature control units in the printing press or their Add-ons integrated and still quick and easy accessible for maintenance work, for an exchange of Parts of the device or for refilling the required Liquid.
  • the printing press temperature control system shown schematically in FIG 2 is used to control the temperature of at least one press means of at least a printing unit 4 of a sheet-fed printing machine 6, especially one according to the offset printing process working sheet printing machine for printing on Sheets of paper.
  • the printing machine means can be air 8 which by a blower 10 by a first Heat exchanger 12 driven through and on the Shell surface of a cylinder 13 to be cooled Printing machine 6 is blown.
  • the cylinder 13 can for example a forme cylinder or plate cylinder Transfer cylinder such as a Blanket cylinder, or an impression cylinder.
  • the Temperature control system 2 and the printing press 6 are in a press room 14 having walls 15 and 16.
  • a Refrigerator 18 is outside the pressroom 14 arranged and cools coolant one through it passed coolant circuit 22.
  • the Coolant circuit 22 extends through the a wall 15 in the press room 14 and has one the delivery branch 24 and the printing branch 14 one also passed through the press room 14 Return branch 26 on.
  • the flow directions in Temperature control system 2 are indicated by arrows.
  • Of the first heat exchanger 12 is at one end to the Lead branch 24 and with another end to the Return branch 26 connected in terms of flow and is through which the coolant flows.
  • the first Form heat exchanger 12 and its associated fan 10 one to be cooled over the entire length of the Cylinder 14 extending blowing air cooling device, such as it is known for example from EP 0 602 312 A1.
  • the printing unit 4 contains, for example, a forme cylinder or plate cylinder 28, a blanket cylinder 29 and an impression cylinder 30.
  • a schematic shown dampening unit 32 transmits fountain solution a fountain solution 34 on the locations on the circumference of the Plate cylinder 28, which do not accept printing ink allowed to.
  • a schematically illustrated inking unit 36 transfers ink from a not shown Ink source on the ink-accepting Places on the circumference of the plate cylinder 28.
  • Figure 1 shows two device units 40 and 42, which immediately next to or below or into the printing press 6 can be placed within the printing room 14.
  • Die one or first device unit 40 contains a second one Heat exchanger 44, a reservoir 46 for Fountain water 47, a pump 48 and a valve 50.
  • the second heat exchanger 44 includes a first Heat exchanger strand 52, which over two Pipe connections 54 and 55 of the one unit 40 in the flow branch 24 of the coolant circuit 22 is used interchangeably so that it is from the Coolant of the coolant circuit 22 is flowed through.
  • the second heat exchanger 44 contains also a second heat exchanger branch 58, which within the second heat exchanger 44 with the first Heat exchanger strand 52 is in heat exchange and over a heat exchanger feed line 60, in which the first pump 48 is located, and via a Heat exchanger return line 62 each with the Reservoir 46 is fluidly connected and with together a first temperature-controlled circuit 64 forms.
  • a first temperature-controlled circuit 64 forms on a downstream of the first pump 48 located branch from the supply line 60.
  • one Supply line 66 which contains the valve 50, which via a third pipe connection 67 one Device unit 40 with one in the fountain water tank 34 leading line section 68 connected in terms of flow is.
  • a drain line 70 of an overflow of Dampening water pan 34 is via a fourth pipe connection 72 of one device unit 40 to a second Return line 74 connected in terms of flow, which opens into the reservoir 46.
  • a second Return line 74 connected in terms of flow, which opens into the reservoir 46.
  • the flow cross section of the valve 50 can be changed to more or less fountain solution to circulate in the second circuit 76.
  • the Storage container 46 is designed such that it without Disassembly of the first pump 48 and the first Heat exchanger 44 from one device unit 40 can be removed or inserted.
  • the other or second interchangeable device unit 42 is on, under or in the printing press 6, and in designed essentially the same as one or the first Device unit 40 and is therefore the same Provide reference numbers.
  • unit 42 is not fountain solution 34, but cooling water 87, which by a Ink roller 88 is passed to it cool.
  • the first heat exchanger strand 52 of the Heat exchanger 44 in the second device unit 42 is in the Lead branch 24 of the coolant circuit 22 in Row and downstream of the first heat exchanger strand 52 of the heat exchanger 44 of the first device unit 40 in this way arranged that he after the heat exchanger 44 of the first Unit 40 of the coolant Coolant circuit 22 is flowed through.
  • the coolant of the coolant circuit 22 some heat from the fountain solution 47 of the first Unit 40 added before the cooling water 87th of the second device unit 42 cools. This will takes into account that the ink roller 88 be warmer must as the plate cylinder 28th
  • a pump 90 Upstream of the heat exchanger 44 of the two Device units 40 and 42 are in the lead branch 24 of the coolant circuit 22, a pump 90, which the coolant through the Coolant circuit 22 promotes.
  • the reservoir 46 of the two device units 40 and 42 are open at the top, so that in them Atmospheric pressure prevails.
  • Fig. 2 illustrated further embodiment of a Temperature control system according to the invention Storage container 46 of the second device unit 42 as be closed container in which the there is pressure generated by the pump 48. In this case no supply line 66 and no valve 50 are necessary, but the cooling water circuit is directly through the Ink roller 88 passed through, as Fig.2 shows.
  • the two device units 40 and 42 either both on the operator side 91 of the Printing machine 6 under their stairs 92 or on the Drive side 93 of the printing press under gallery 94 the printing press 6 are placed under which also one or more drive motors 96 for driving of the plate cylinder 28, the blanket cylinder 29 and of the impression cylinder 30.
  • the two device units 40 and 42 also for a single overall unit 40/42 be summarized. Instead of two device units 40 and 42 you only have one device 40/42.
  • the rooms under the stairs 92 and / or the gallery 94 of the Printing machine 6 can be covered by walls and with a door 98 or 99 as access to the device units 40 and 42 may be provided.
  • the device units 40 and 42 on other Place in or right next to the press 6 to be ordered. It is also possible to use one Device unit 40 on one machine side 91 or 93 and the other device unit 42 on the other To be arranged on machine side 93 or 91. Preferably be however, both device units 40 or 42 on the same Machine side arranged.
  • FIG. 4 shows a printing press 6 with four printing units 4. The two are located on each printing unit 4 Device units 40 and 42. On the Coolant circuit 22 of the refrigeration generator 20 are the device units 40 and 42 of all printing units in Flow connected in series or in parallel this other embodiment can have several Refrigerator 20 may be provided to each of the two Device units 40 and 42 or more of such Unit units 40 and 42 to cool.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Inking, Control Or Cleaning Of Printing Machines (AREA)
  • Rotary Presses (AREA)
  • Control Of Temperature (AREA)

Description

Die Erfindung betrifft ein Druckmaschinen-Temperierungssystem gemäß dem Oberbegriff von Anspruch 1.The invention relates to a printing press temperature control system according to the preamble of claim 1.

Ein solches Druckmaschinen-Temperierungssystem ist aus der EP 0 602 312 A1 bekannt. Es wird insbesondere für den Feuchtwasser-Offsetdruck und den Trocken-Offsetdruck verwendet. Dabei kann es sich um Bogen-Druck (bedrucken von einzelnen Papierbögen) oder Rollen-Druck (bedrucken von Papierbahnen) handeln.Such a printing press temperature control system is over EP 0 602 312 A1. It is especially useful for the Fountain solution offset printing and dry offset printing used. This can be sheet printing (printing of individual sheets of paper) or roll printing (printing of paper webs).

Die Bogen-Offsetdruckmaschinen sind wesentlich kleiner als die Rollen-Offsetdruckmaschinen.Die Druckmaschinen stehen in einem Drucksaal und erzeugen Wärme, welche sie in den Drucksaal abgeben. Der Kaltwassererzeuger arbeitet nach dem Prinzip der wechselweisen Kompression und Expansion eines Kältemittels in einem Kältemittelkreislauf.Das Kältemittel gibt seine Kälte an das Kaltwasser oder eine andere Kühlflüssigkeit ab. Der Kälteerzeuger gibt die vom Kaltwasser entnommene Wärme in die ihn umgebende Umgebung ab. Beim Bogen-Offsetdruck ist der Kaltwassererzeuger, im folgenden Kälteerzeuger genannt, im Drucksaal untergebracht, wo auch die Druckmaschine untergebracht ist, jedoch mit Abstand von der Druckmaschine, damit sie sich durch die von ihnen abgegebene Wärme nicht gegenseitig erwärmen. Die von der Druckmaschine und vom Kälteerzeuger abgegebene Wärme erwärmt jedoch den Drucksaal, was insbesondere im Sommer unangenehm ist und bei Verwendung einer Klimaanlage zu einem hohen Energieverbrauch dieser Klimaanlage führt. Beim Bogen-Offsetdruck stehen häufig viele Bogen-Offset-Druckmaschinen in einem Drucksaal. Beim Rollen-Offsetdruck steht häufig nur eine oder nur wenige Druckmaschinen im Drucksaal und der Kälteerzeuger ist außerhalb des Drucksaales angeordnet.The sheet-fed offset printing machines are much smaller than the web offset presses stand in a pressroom and generate heat which they deliver to the pressroom. The chiller is working on the principle of alternate compression and Expansion of a refrigerant in one Refrigerant circuit: The refrigerant indicates its coldness the cold water or another coolant. Of the The refrigeration generator releases the heat extracted from the cold water the surrounding area. For sheet offset printing is the chiller, hereinafter the chiller called, housed in the press room, where the Printing press is housed, however, at a distance of the printing press so that they can stand out from them do not heat each other. The of the Printing machine and heat given off by the cooling generator however, warms the pressroom, which is especially true in summer is uncomfortable and when using an air conditioner too leads to a high energy consumption of this air conditioning system. There are often many sheet-fed offset presses in sheet-fed offset printing in a press room. With web offset printing often stands only one or only a few Printing presses in the pressroom and the cold generator is arranged outside the printing room.

Ferner ist aus der DE-42 29 311 C1 (EP 0 586 958 A2) eine Vorrichtung zum Reinigen von Feuchtwasser einer Offsetdruckmaschine bekannt.Die Vorrichtung enthält eine Filterkammer für das Feuchtwasser, welche in das Druckwerk der Druckmaschine integriert und durch eine Tür zugänglich ist.Furthermore, DE-42 29 311 C1 (EP 0 586 958 A2) is one Device for cleaning dampening water Offset printing machine known. The device contains a Filter chamber for the dampening water, which in the Printing unit of the printing press integrated and through a door is accessible.

Durch die Erfindung soll die Aufgabe gelöst werden, im Drucksaal mehr Freiraum zu schaffen und die Temperiergeräteeinheit oder Tempiergeräteeinheiten von mechanischen Beschädigungen zu schützen. The object of the invention is to be achieved in Press room to create more freedom and that Temperature control unit or temperature control unit from to protect mechanical damage.

Diese Aufgabe wird gemäß der Erfindung durch die kennzeichnenden Merkmale von Anspruch 1 gelöst.This object is achieved according to the invention by the characterizing features of claim 1 solved.

In weiterer Ausbildung der Erfindung ist ein Kälteerzeuger des Temperierungssystems außerhalb des Drucksaales angeordnet, um eine unerwünschte Erwärmung der Druckmaschine durch den Kälteerzeuger zu vermeiden, und um eine unerwünschte Erwärmung des Källteerzeugers durch die von der Druckmaschine abgestrahlte Wärme zu vermeiden.In a further embodiment of the invention is a Refrigerator of the temperature control system outside of the Press rooms arranged to prevent undesirable heating to avoid the printing press from the cold generator, and undesirable heating of the refrigeration generator due to the heat radiated by the printing press avoid.

Bei allen Ausführungsformen der Erfindung ist die Temperiergeräteeinheit oder sind die Temperiergeräteeinheiten in die Druckmaschine oder deren Anbauten integriert und trotzdem schnell und leicht zugänglich für Wartungsarbeiten, für einen Austausch von Geräteteilen oder zum Nachfüllen von benötigter Flüssigkeit.In all embodiments of the invention Temperature control unit or are the Temperature control units in the printing press or their Add-ons integrated and still quick and easy accessible for maintenance work, for an exchange of Parts of the device or for refilling the required Liquid.

Weitere Merkmale der Erfindung sind in den Unteransprüchen enthalten.Further features of the invention are in the Subclaims included.

Die Erfindung wird im folgenden mit Bezug auf die Zeichnungen anhand von mehreren Ausführungsformen als Beispiele beschrieben. In den Zeichnungen zeigen

  • Fig.1 schematisch und unmaßstäblich in Seitenansicht eine Feuchtwasser-Offset-Druckmaschine für den Bogen-Offsetdruck mit einem Temperierungssystem gemäß der Erfindung,
  • Fig.2 schematisch eine andere Variante des Temperierungssystems nach der Erfindung von Fig.1,
  • Fig.3 schematisch und unmaßstäblich eine Stirnansicht der Offset-Druckmaschine von Figur 1,
  • Fig.4 schematisch und unmaßstäblich eine Seitenansicht einer Feuchtwasser-Offset-Druckmaschine mit vier Druckwerken für den Bogen-Offsetdruck und mit einem Temperierungssystem gemäß der Erfindung entsprechend Figur 1.
    • The invention is described below with reference to the drawings using several embodiments as examples. Show in the drawings
  • 1 schematically and not to scale in side view a fountain solution offset printing machine for sheet-fed offset printing with a temperature control system according to the invention,
  • 2 schematically shows another variant of the temperature control system according to the invention from FIG. 1,
  • 3 schematically and not to scale an end view of the offset printing machine from FIG. 1,
  • 4 schematically and to scale a side view of a fountain solution offset printing machine with four printing units for sheet offset printing and with a temperature control system according to the invention corresponding to FIG. 1.

    • Das in Fig.1 schematisch dargestellte Druckmaschinen-Temperierungssystem 2 dient zur Temperierung von mindestens einem Druckmaschinenmittel von mindestens einem Druckwerk 4 einer Bogen-Druckmaschine 6, insbesondere einer nach dem Offsetdruck-Verfahren arbeitenden Bogen-Druckmaschine zum Bedrucken von Papierbögen. Das Druckmaschinenmittel kann Luft 8 sein, welche von einem Gebläse 10 durch einen ersten Wärmetauscher 12 hindurchgetrieben und auf die Mantelfläche eines zu kühlenden Zylinders 13 der Druckmaschine 6 geblasen wird. Der Zylinder 13 kann beispielsweise ein Formzylinder oder Plattenzylinder, ein Übertragungszylinder wie beispielsweise ein Gummituchzylinder, oder ein Gegendruckzylinder sein. Das Temperierungssystem 2 und die Druckmaschine 6 stehen in einem Drucksaal 14, der Wände 15 und 16 aufweist. Ein Kälteerzeuger 18 ist außerhalb des Drucksaales 14 angeordnet und kühlt Kühlflüssigkeit eines durch ihn hindurchgeführten Kühlflüssigkeitskreislaufes 22. Der Kühlflüssigkeitskreislauf 22 erstreckt sich durch die eine Wand 15 in den Drucksaal 14 und weist einen durch den Drucksaal 14 hindurchgeführten Vorlaufzweig 24 und einen ebenfalls durch den Drucksaal 14 hindurchgeführten Rücklaufzweig 26 auf. Die Strömungsrichtungen im Temperierungssystem 2 sind durch Pfeile angegeben. Der erste Wärmetauscher 12 ist mit einem Ende an den Vorlaufzweig 24 und mit einem anderen Ende an den Rücklaufzweig 26 strömungsmäßig angeschlossen und wird dadurch von der Kühlflüssigkeit durchströmt. Der erste Wärmetauscher 12 und sein zugehöriges Gebläse 10 bilden eine sich über die gesamte Länge des zu kühlenden Zylinders 14 erstreckende Blasluftkühlvorrichtung, wie sie beispielsweise aus der EP 0 602 312 A1 bekannt ist.The printing press temperature control system shown schematically in FIG 2 is used to control the temperature of at least one press means of at least a printing unit 4 of a sheet-fed printing machine 6, especially one according to the offset printing process working sheet printing machine for printing on Sheets of paper. The printing machine means can be air 8 which by a blower 10 by a first Heat exchanger 12 driven through and on the Shell surface of a cylinder 13 to be cooled Printing machine 6 is blown. The cylinder 13 can for example a forme cylinder or plate cylinder Transfer cylinder such as a Blanket cylinder, or an impression cylinder. The Temperature control system 2 and the printing press 6 are in a press room 14 having walls 15 and 16. A Refrigerator 18 is outside the pressroom 14 arranged and cools coolant one through it passed coolant circuit 22. The Coolant circuit 22 extends through the a wall 15 in the press room 14 and has one the delivery branch 24 and the printing branch 14 one also passed through the press room 14 Return branch 26 on. The flow directions in Temperature control system 2 are indicated by arrows. Of the first heat exchanger 12 is at one end to the Lead branch 24 and with another end to the Return branch 26 connected in terms of flow and is through which the coolant flows. The first Form heat exchanger 12 and its associated fan 10 one to be cooled over the entire length of the Cylinder 14 extending blowing air cooling device, such as it is known for example from EP 0 602 312 A1.

    Das Druckwerk 4 enthält beispielsweise einen Formzylinder oder Plattenzylinder 28, einen Gummituchzylinder 29 und einen Gegendruckzylinder 30. Ein schematisch dargestelltes Feuchtwerk 32 überträgt Feuchtwasser aus einer Feuchtwasserwanne 34 auf die Stellen am Umfang des Plattenzylinders 28, welche keine Druckfarbe annehmen dürfen. Ein schematisch dargestelltes Farbwerk 36 überträgt Druckfarbe von einer nicht dargestellten Druckfarbenquelle auf die Druckffarben-akzeptierenden Stellen am Umfang des Plattenzylinders 28.The printing unit 4 contains, for example, a forme cylinder or plate cylinder 28, a blanket cylinder 29 and an impression cylinder 30. A schematic shown dampening unit 32 transmits fountain solution a fountain solution 34 on the locations on the circumference of the Plate cylinder 28, which do not accept printing ink allowed to. A schematically illustrated inking unit 36 transfers ink from a not shown Ink source on the ink-accepting Places on the circumference of the plate cylinder 28.

    Hieraus ist ersichtlich, daß der von der Kaltluftblasvorrichtung 10,12 gekühlte Zylinder 14 einer der Zylinder 28,29 und 30 des Druckwerkes 4 sein kann und in Fig.1 nur zur Vereinfachung der Darstellung getrennt gezeichnet ist.From this it can be seen that the Cold air blowing device 10, 12 cooled cylinders 14 one the cylinder 28, 29 and 30 of the printing unit 4 can be and only separated in Fig. 1 to simplify the illustration is drawn.

    Figur 1 zeigt zwei Geräteeinheiten 40 und 42, welche unmittelbar neben oder unter oder in die Druckmaschine 6 gestellt werden können innerhalb des Drucksaales 14. Die eine oder erste Geräteeinheit 40 enthält einen zweiten Wärmetauscher 44, einen Vorratsbehälter 46 für Feuchtwasser 47, eine Pumpe 48 und ein Ventil 50. Der zweite Wärmetauscher 44 enthält einen ersten Wärmetauscherstrang 52, welcher über zwei Rohrleitungsanschlüsse 54 und 55 der einen Geräteeinheit 40 in den Vorlaufzweig 24 des Kühlflüssigkeitskreislaufes 22 derart austauschbar eingesetzt ist, daß er von der Kühlflüssigkeit des Kühlflüssigkeitskreislaufes 22 durchströmt wird. Der zweite Wärmetauscher 44 enthält außerderm einen zweiten Wärmetauscherstrang 58, welcher innerhalb des zweiten Wärmetauschers 44 mit dem ersten Wärmetauscherstrang 52 in Wärmeaustausch steht und über eine Wärmetauschervorlaufleitung 60, in welcher sich die erste Pumpe 48 befindet, und über eine Wärmetauscherrücklaufleitung 62 je mit dem Vorratsbehälter 46 strömungsmäßig verbunden ist und mit diesem zusammen einen ersten temperierten Kreislauf 64 bildet. An einer stromabwärts der ersten Pumpe 48 gelegenen Stelle zweigt von der Vorlaufleitung 60 eine Zufuhrleitung 66, welche das Ventil 50 enthält, ab, welche über einen dritten Rohranschluß 67 der einen Geräteeinheit 40 mit einem in die Feuchtwasserwanne 34 führenden Leitungsabschnitt 68 strömungsmäßig verbunden ist. Eine Ablaufleitung 70 eines Überlaufes der Feuchtwasserwanne 34 ist über einen vierten Rohranschluß 72 der einen Geräteeinheit 40 an eine zweite Rücklaufleitung 74 strömungsmäßig angeschlossen, welche in den Vorratsbehälter 46 mündet. Dadurch bilden die Vorlaufleitung 60 mit der Pumpe 48, die Zufuhrleitung 66 mit dem Leitungsabschnitt 68, die Feuchtwasserwanne 34 mit der Ablaufleitung 70 und die zweite Rücklaufleitung 74 zusammen einen zweiten Kreislauf 76 für temperiertes Feuchtwasser 47. Der Strömungsquerschnitt des Ventils 50 kann verändert werden, um mehr oder weniger Feuchtwasser im zweiten Kreislauf 76 zirkulieren zu lassen. Der Vorratsbehälter 46 ist derart ausgebildet, daß er ohne Demontage der ersten Pumpe 48 und des ersten Wärmtetauschers 44 aus der einen Geräteeinheit 40 herausgenommen oder eingesetzt werden kann.Figure 1 shows two device units 40 and 42, which immediately next to or below or into the printing press 6 can be placed within the printing room 14. Die one or first device unit 40 contains a second one Heat exchanger 44, a reservoir 46 for Fountain water 47, a pump 48 and a valve 50. The second heat exchanger 44 includes a first Heat exchanger strand 52, which over two Pipe connections 54 and 55 of the one unit 40 in the flow branch 24 of the coolant circuit 22 is used interchangeably so that it is from the Coolant of the coolant circuit 22 is flowed through. The second heat exchanger 44 contains also a second heat exchanger branch 58, which within the second heat exchanger 44 with the first Heat exchanger strand 52 is in heat exchange and over a heat exchanger feed line 60, in which the first pump 48 is located, and via a Heat exchanger return line 62 each with the Reservoir 46 is fluidly connected and with together a first temperature-controlled circuit 64 forms. On a downstream of the first pump 48 located branch from the supply line 60 one Supply line 66, which contains the valve 50, which via a third pipe connection 67 one Device unit 40 with one in the fountain water tank 34 leading line section 68 connected in terms of flow is. A drain line 70 of an overflow of Dampening water pan 34 is via a fourth pipe connection 72 of one device unit 40 to a second Return line 74 connected in terms of flow, which opens into the reservoir 46. Thereby form the Flow line 60 with the pump 48, the supply line 66 with the line section 68, the fountain solution tank 34 with the drain line 70 and the second return line 74 together a second circuit 76 for tempered Fountain water 47. The flow cross section of the valve 50 can be changed to more or less fountain solution to circulate in the second circuit 76. Of the Storage container 46 is designed such that it without Disassembly of the first pump 48 and the first Heat exchanger 44 from one device unit 40 can be removed or inserted.

    Die andere oder zweite austauschbare Geräteeinheit 42 ist an, unter oder in die Druckmaschine 6 stellbar,und im wesentlichen gleich ausgebildet wie die eine oder erste Geräteeinheit 40 und ist deshalb mit den gleichen Bezugszahlen versehen. Im Vorratsbehälter 46 der zweiten Geräteeinheit 42 befindet sich jedoch nicht Feuchtwasser 34, sondern Kühlwasser 87, welches durch eine Farbverreiberwalze 88 hindurchgeleitet wird, um sie zu kühlen. Der erste Wärmetauscherstrang 52 des Wärmetauschers 44 in der zweiten Geräteeinheit 42 ist im Vorlaufzweig 24 des Kühlflüssigkeitskreislaufes 22 in Reihe und stromabwärts vom ersten Wärmetauscherstrang 52 des Wärmetauschers 44 der ersten Geräteeinheit 40 derart angeordnet, daß er nach dem Wärmetauscher 44 der ersten Geräteeinheit 40 von der Kühlflüssigkeit des Kühlflüssigkeitskreislaufes 22 durchströmt wird. Dadurch hat die Kühlflüssigkeit des Kühlflüssigkeitskreislaufes 22 bereits etwas Wärme vom Feuchtwasser 47 der ersten Geräteeinheit 40 aufgenommen, bevor sie das Kühlwasser 87 der zweiten Geräteeinheit 42 kühlt. Dadurch wird berücksichtigt, daß die Farbverreiberwalze 88 wärmer sein muß als der Plattenzylinder 28.The other or second interchangeable device unit 42 is on, under or in the printing press 6, and in designed essentially the same as one or the first Device unit 40 and is therefore the same Provide reference numbers. In the reservoir 46 of the second However, unit 42 is not fountain solution 34, but cooling water 87, which by a Ink roller 88 is passed to it cool. The first heat exchanger strand 52 of the Heat exchanger 44 in the second device unit 42 is in the Lead branch 24 of the coolant circuit 22 in Row and downstream of the first heat exchanger strand 52 of the heat exchanger 44 of the first device unit 40 in this way arranged that he after the heat exchanger 44 of the first Unit 40 of the coolant Coolant circuit 22 is flowed through. Thereby has the coolant of the coolant circuit 22 some heat from the fountain solution 47 of the first Unit 40 added before the cooling water 87th of the second device unit 42 cools. This will takes into account that the ink roller 88 be warmer must as the plate cylinder 28th

    Stromaufwärts der Wärmetauscher 44 der beiden Geräteeinheiten 40 und 42 befindet sich im Vorlaufzweig 24 des Kühlflüssigkeitskreislaufes 22 eine Pumpe 90, welche die Kühlflüssigkeit durch den Kühlflüssigkeitskreislauf 22 fördert. Upstream of the heat exchanger 44 of the two Device units 40 and 42 are in the lead branch 24 of the coolant circuit 22, a pump 90, which the coolant through the Coolant circuit 22 promotes.

    Die Vorratsbehälter 46 der beiden Geräteeinheiten 40 und 42 sind jeweils oben offen, so daß in ihnen Atmosphärendruck herrscht.Gemäß der in Fig.2 dargestellten weiteren Ausführungsform eines Temperierungssystems nach der Erfindung kann der Vorratsbehälter 46 der zweiten Geräteeinheit 42 als geschlossener Behälter ausgebildet sein, in welchem der von der Pumpe 48 erzeugte Druck herrscht. In diesem Falle ist keine Zufuhrleitung 66 und kein Ventil 50 nötig, sondern der Kühlwasserkreislauf ist direkt durch die Farbverreiberwalze 88 hindurchgeführt, wie dies Fig.2 zeigt.The reservoir 46 of the two device units 40 and 42 are open at the top, so that in them Atmospheric pressure prevails. According to the in Fig. 2 illustrated further embodiment of a Temperature control system according to the invention Storage container 46 of the second device unit 42 as be closed container in which the there is pressure generated by the pump 48. In this case no supply line 66 and no valve 50 are necessary, but the cooling water circuit is directly through the Ink roller 88 passed through, as Fig.2 shows.

    Gemäß Fig.3 können die beiden Geräteeinheiten 40 und 42 entweder beide auf der Bedienungsseite 91 der Druckmaschine 6 unter ihre Treppe 92 oder auf der Antriebsseite 93 der Druckmaschine unter die Galerie 94 der Druckmaschine 6 gestellt werden, unter welcher sich auch einer oder mehrere Antriebsmotoren 96 zum Antrieb des Plattenzylinders 28, des Gummituchzylinders 29 und des Gegendruckzylinders 30 befinden. Wie in Fig.3 unter der Galerie 94 der Druckmaschine 6 schematisch dargestellt, können die beiden Geräteeinheiten 40 und 42 auch zu einer einzigen Gesamteinheit 40/42 zusammengefasst sein. Statt zwei Geräteeinheiten 40 und 42 hat man dann nur ein einziges Gerät 40/42. Die Räume unter der Treppe 92 und/oder der Galerie 94 der Druckmaschine 6 können durch Wände verkleidet und mit einer Tür 98 oder 99 als Zugang zu den Geräteeinheiten 40 und 42 versehen sein. In abgewandelter Ausführungsform können die Geräteeinheiten 40 und 42 auch an anderer Stelle in oder direkt neben der Druckmaschine 6 angeordnet werden. Auch ist es möglich, die eine Geräteeinheit 40 auf der einen Maschinenseite 91 oder 93 und die andere Geräteeinheit 42 auf der anderen Maschinenseite 93 oder 91 anzuordnen. Vorzugsweise werden jedoch beide Geräteeinheiten 40 oder 42 auf der gleichen Maschinenseite angeordnet.3, the two device units 40 and 42 either both on the operator side 91 of the Printing machine 6 under their stairs 92 or on the Drive side 93 of the printing press under gallery 94 the printing press 6 are placed under which also one or more drive motors 96 for driving of the plate cylinder 28, the blanket cylinder 29 and of the impression cylinder 30. As in Fig.3 under the gallery 94 of the printing press 6 schematically shown, the two device units 40 and 42 also for a single overall unit 40/42 be summarized. Instead of two device units 40 and 42 you only have one device 40/42. The rooms under the stairs 92 and / or the gallery 94 of the Printing machine 6 can be covered by walls and with a door 98 or 99 as access to the device units 40 and 42 may be provided. In a modified embodiment can the device units 40 and 42 on other Place in or right next to the press 6 to be ordered. It is also possible to use one Device unit 40 on one machine side 91 or 93 and the other device unit 42 on the other To be arranged on machine side 93 or 91. Preferably be however, both device units 40 or 42 on the same Machine side arranged.

    Fig.4 zeigt eine Druckmaschine 6 mit vier Druckwerken 4.An jedem Druckwerk 4 befinden sich die beiden Geräteeinheiten 40 und 42. An den Kühlflüssigkeitskreislauf 22 des Kälteerzeugers 20 sind die Geräteeinheiten 40 und 42 von allen Druckwerken in Reihe oder parallel strömungsmäßig angeschlossen.In dieser anderen Ausführungsform können mehrere Kälteerzeuger 20 vorgesehen sein, um jeweils die beiden Geräteeinheiten 40 und 42 oder mehrere solcher Geräteeinheiten 40 und 42 zu kühlen.4 shows a printing press 6 with four printing units 4. The two are located on each printing unit 4 Device units 40 and 42. On the Coolant circuit 22 of the refrigeration generator 20 are the device units 40 and 42 of all printing units in Flow connected in series or in parallel this other embodiment can have several Refrigerator 20 may be provided to each of the two Device units 40 and 42 or more of such Unit units 40 and 42 to cool.

    Claims (4)

    1. Printing press temperature stabilizing system having at least one temperature stabilizing device unit (40, 42) for a printing press, in particular for an offset printing press, which is situated in a printroom, the temperature stabilizing device unit having the following features: connection means (54, 55, 67, 72,) for external liquid lines (24, 26, 68, 70, 88), at least one heat exchanger (44) for the exchange of heat between a cooling liquid of a cold producer (20), which is disposed outside of the temperature stabilizing device unit and cools the cooling liquid and is detachably connected by the connection means (54, 55), and at least one printing press liquid (47, 87) which is to be cooled, at least one storage tank (46) for each printing press liquid (47, 87), at least one pump (48) for each printing press liquid (47, 87) for conveying said printing press liquid in each case in a separate liquid circuit (64, 76), which in each case comprises at least the storage tank (46) and the heat exchanger (44) of said printing press liquid and a printing press part (34, 88), which is disposed outside of the temperature stabilizing device unit (40, 42) and is detachably connected by the connection means (67, 72);
      characterized in that the temperature stabilizing device unit (40, 42) is removably housed in the printing press (6) or under a catwalk (92, 94) surrounding said printing press.
    2. Printing press temperature stabilizing system according to claim 1,
      characterized in that the temperature stabilizing device unit (40, 42) or the temperature stabilizing device units (40, 42) is or are disposed behind a door (98, 99), and that the door (98, 99) is larger than the respective temperature stabilizing device unit (40, 42) so that the latter may, without being dismantled, be moved through the door.
    3. Printing press temperature stabilizing system according to claim 1 or 2,
      characterized in that the printing press liquid of the one liquid circuit (64, 76 in 40) is fountain solution (47) for dampening areas of the plate cylinder (28) which are not to take ink, that the printing press liquid of a second of the separate liquid circuits (74, 76 in 42) is cooling water for stabilizing the temperature of a rotational body, in particular of an ink distributing roller (88) of an inking unit (36) of the printing press (6), and that the heat exchangers (44) associated with the two liquid circuits are serially disposed relative to one another in such a way that the heat exchanger (44) for the cooling liquid (87) is disposed downstream of the heat exchanger (44) for the fountain solution (47) in the cooling liquid circuit of the external cold producer (20) and is therefore swept only after the heat exchanger (44) for the fountain solution (47) by the cooling liquid.
    4. Printing press temperature stabilizing system according to one of claims 1 to 3,
      characterized in that the cold producer (20) is situated outside of the printroom (14) and the cooling liquid cooled by said cold producer circulates in a cooling liquid circuit (22) which extends through one wall (15) of the printroom (14).
    EP95112447A 1994-08-19 1995-08-08 Cooling system for printing machines Expired - Lifetime EP0699525B1 (en)

    Applications Claiming Priority (2)

    Application Number Priority Date Filing Date Title
    DE9413438U DE9413438U1 (en) 1994-08-19 1994-08-19 Press temperature control system
    DE9413438U 1994-08-19

    Publications (3)

    Publication Number Publication Date
    EP0699525A2 EP0699525A2 (en) 1996-03-06
    EP0699525A3 EP0699525A3 (en) 1996-10-23
    EP0699525B1 true EP0699525B1 (en) 1998-06-17

    Family

    ID=6912628

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    Application Number Title Priority Date Filing Date
    EP95112447A Expired - Lifetime EP0699525B1 (en) 1994-08-19 1995-08-08 Cooling system for printing machines

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    EP (1) EP0699525B1 (en)
    DE (2) DE9413438U1 (en)

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    DE10355909A1 (en) * 2003-11-29 2005-06-30 Baldwin Germany Gmbh Printing machine cleaning device

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    DE19511086A1 (en) * 1995-03-25 1996-09-26 Schwaebische Huettenwerke Gmbh Steam heated roll for paper machine press or finishing section
    DE19516113A1 (en) * 1995-05-05 1996-11-07 Baldwin Gegenheimer Gmbh Press temperature control device
    DE10008210B4 (en) * 2000-02-23 2006-03-23 Man Roland Druckmaschinen Ag Oil tempering device for a printing unit
    DE102006028292A1 (en) 2006-03-24 2007-09-27 Kohnert, Bärbel Method for temperature control of inking groups and dampening solutions of offset printing press, involves cooling part of heat transfer medium to temperature below set temperature of dampening solution in dampening system
    DE102006042091B4 (en) * 2006-09-07 2008-04-30 Technotrans Ag System for dampening solution preparation for offset printing

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    DE1953590C3 (en) * 1969-10-24 1983-02-10 Leo P.H. Dipl.Rer.Pol. 7000 Stuttgart Keller Process for influencing the planographic printing process and planographic printing machine for this purpose
    CH655690B (en) * 1982-05-19 1986-05-15
    GB2207636B (en) * 1987-08-04 1991-08-14 Seiichi Kurosawa Thermoregulator
    DE9101888U1 (en) * 1990-07-04 1991-05-08 Technotrans Böhnensieker GmbH, 4414 Sassenberg Device for providing process water for printing machines
    DE4202544A1 (en) 1992-01-30 1993-08-05 Baldwin Gegenheimer Gmbh PRINT PLATE TEMPERATURE SYSTEM FOR A PRINTING MACHINE
    JPH0664936A (en) 1992-08-21 1994-03-08 Asahi Glass Co Ltd Production of glass capable of sharply cutting ultraviolet ray
    DE4229311C1 (en) 1992-09-02 1994-03-10 Heidelberger Druckmasch Ag Device for cleaning the fountain solution

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    * Cited by examiner, † Cited by third party
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    DE10355909A1 (en) * 2003-11-29 2005-06-30 Baldwin Germany Gmbh Printing machine cleaning device

    Also Published As

    Publication number Publication date
    DE9413438U1 (en) 1995-06-22
    DE59502569D1 (en) 1998-07-23
    EP0699525A3 (en) 1996-10-23
    EP0699525A2 (en) 1996-03-06

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