DE102009001596A1 - Printing machine i.e. rotary printing machine, has selectively actuatable electrical heating appliance provided in addition to feeding station, and set of valves, pumps, and heating appliance associated with secondary circuits - Google Patents

Abstract

The machine has two secondary circuits containing fluid of a primary circuit metered via a feeding station for controlling temperature of to be temperature-controlled components. Two different printing devices (04) have thermal interactions with the respective secondary circuits different from each other for controlling the temperatures of the components. A selectively actuatable electrical heating appliance is provided in addition to the feeding station. A set of valves, pumps, and the heating appliance are associated with the secondary circuits.

Description

The The invention relates to a device for temperature control at least a component of a printing unit and a device for controlling the temperature of Components of a plurality of superimposed printing units having printing unit according to the preamble of claim 1 or 2.

By the WO 2004/054805 A1 a method and a device for controlling the temperature of a component of a printing unit is known, wherein a circulating in a fluid fluid is in thermal contact with the component to be tempered. The fluid of the circuit is in this case fed to adjust a desired fluid temperature via a primary circuit if necessary with tempered fluid. However, it may instead be provided a heating or cooling unit in the temperature control.

Also the WO 2006/072558 A1 discloses a tempering system for tempering components. In this case, provision of temperature control means of three temperature levels takes place via three supply circuits to a decentralized supply unit close to the pressure tower. As a result of these supply circuits, individual temperature control circuits for the rollers / cylinders are fed with metered-in fluid from one of the supply circuits, depending on the requirement.

The EP 0 383 295 A2 discloses a tempering of a printing unit roller, wherein at a four-way valve as a node between a primary circuit and the component tempering temperature control by appropriate inflows and outflows a desired mixing temperature for the temperature control can be produced. In the primary circuit, a heat exchanger for cooling the fluid as well as for the need of preheating a heating element is provided.

In the EP 0 886 577 B1 is also a device for controlling the temperature of a component disclosed. In one embodiment, coolant circulates continuously in a tempering through the cylinder or cylinders to be tempered and by a cooling unit in which the temperature of the coolant is controlled according to specifications from a control unit. A cylinder to be flowed through has an inlet and outlet for the coolant on the transmission side. The cooling unit may be configured to lower or raise the temperature of the coolant. In one embodiment, a temperature of one of the operating side opposite transmission-side wall of the printing unit is provided. This is done by means of circulating in a circuit gear oil, which is temperature controlled via a heat exchanger by a temperature control unit having a primary circuit.

Of the Invention is based on the object, a device for temperature control at least one component of a printing unit and a device for temperature control of components of a plurality of one above the other to provide arranged printing units having printing unit.

The The object is achieved by the features of claim 1 or 2 solved.

The particular advantages of the invention are that faster reaction times for the temperature of the to be tempered components, in particular cylinders and / or rollers are reachable.

To the one becomes considerably shorter conduction paths, and thereby less circulating tempering fluid and shorter transport times needed.

In an embodiment with arranged in the secondary circuit Heating unit can be a holding of heating fluid, its own primary heating circuit or a heating of a primary circuit omitted.

By the component near arrangement of all modules or units of the primary circuit are next to the shorter lines also lower pumping power required.

Especially an advantage is the arrangement of the aggregates of the primary circuit for the roll or cylinder temperature control on one of the Drive side opposite machine side of the printing unit (often referred to as operator side), as inflow and return regardless of the drive mimic of the cylinders / rollers can. Of particular advantage here is, or at least Essential units of the primary circuit or one of Pressure unit associated loop of the primary circuit in one Level below the main operating level and / or in one level below the foot of the printing unit, z. B. in an example coverable recess or pit, to order.

One Embodiment of the invention is in the drawings and will be described in more detail below.

It demonstrate:

1 a perspective view of a printing unit;

2 a schematic side view of a printing unit on the opposite side of the drive side machine;

3 a schematic plan view of a printing unit of the printing unit;

4 a schematic representation of the temperature control based on a secondary circuit;

A printing machine, z. B. web-fed rotary printing press, has one or more printing units 01 for the two-sided multicolor printing of substrates, eg. B. webs, preferably paper webs, in particular of webs of newsprint. 1 shows a perspective view of an embodiment of a printing unit 01 , in which a material web, not shown, short web, on both sides simply or in particular successively multiple, z. B. here four times, or several tracks at the same time one or more times are printable. The as a printing tower 01 - With substantially vertical web run - trained printing unit 01 has several printing units 04 , in particular a plurality of (in the present case four) vertically stacked double printing units each consisting of two co-operating printing units 04 for two-sided printing in rubber-against-rubber operation. However, it could also be basically satellite printing units to a printing tower 01 be provided stacked. The printing unit 01 has two side frames 02 ; 03 in which the cylinders and rollers of the printing unit 01 are mounted frontally. In an advantageous embodiment, the printing unit 01 in the area of their (double) pressure point (s) 05 , operational, ie designed for setup and maintenance purposes (in contrast to disassembly or disassembly), divisible. These are the printing cylinder 06 ; 07 the plurality of (four) stacked double printing rotatably mounted in or on a right and a left frame or wall portion in the manner that the two printing cylinder 06 ; 07 of a same printing unit 04 are assigned to the same frame or wall section. Preferably, the printing cylinder 06 ; 07 several, in particular all the web on the same side printing printing units 04 on the same frame or wall section of the corresponding side frame 02 ; 03 stored. The two wall sections of a side frame 02 ; 03 are together with the printed works carried by them 04 be brought into a distance to each other.

The printing unit 01 stands with their side frames 02 ; 03 on a ground plane G of the printing press, which at the same time also essentially a main operating plane G, at least for the lower printing units 04 the printing unit 01 represents. In this, z. B. also the footprint of the printing unit 01 having ground plane G are in one embodiment aggregates of a temperature control device explained in more detail below, z. B. in a correspondingly formed recess 09 , z. Eg pit 09 sunk, sunk. The aggregates of tempering are, or the pit 09 is hereby preferably on the side of a S II, z. B. drive side S II (see below) different side SI of the printing unit 01 arranged.

In the 2 schematically illustrated double printing units are each by two printing units 04 formed, each one as a transfer cylinder 06 and one as a form cylinder 07 trained cylinder 06 ; 07 , z. B. printing cylinder 06 ; 07 , as well as one inking unit each 08 exhibit. In each case between the two transfer cylinders 06 becomes in anstelllage a (double) pressure point 05 educated. The above components are only on the top double printing the 2 referred to, wherein the stacked (double) printing units 04 However, essentially - especially in the embodiment of relevant to the invention - are identical. The four cylinders 06 ; 07 The double printing units can preferably - as shown - be designed lying in print-on position with their axes of rotation in a common plane.

The printing works 04 are here preferably designed as dry offset printing units for the "dry offset" or "waterless offset printing", ie the execution of printing form and inking 08 is such that no dampening solution and thus no dampening system is provided. The cylinders 06 ; 07 Each double printing unit has at least one drive motor that is independent of other double printing units 11 rotationally driven ( 3 ). Advantageously, the two cylinders 06 ; 07 of every printing unit 04 by at least one drive motor 11 , but preferably each by its own drive motor 11 rotationally driven.

The inking unit 08 has at least one roll to be tempered 12 , z. B. inking roller 12 on. It is advantageous here as a so-called. Short inking unit 08 formed and has a roll to be tempered 12 with Haschuren or cups, z. B. an anilox roller 12 on, which relates the color of an inking device, in particular a chambered doctor blade (or even a non-illustrated compactor from an ink fountain ago) and at least one, preferably at least two, roller (s), z. B. application rollers, in particular with respect to the anilox roller 12 softer surface, to the printing forme of the forme cylinder 07 emits. The anilox roller 12 can rotationally via a drive connection from the printing cylinders 06 ; 07 be driven forth, but is preferably by its own, of the cylinders 06 ; 07 independent drive motor 13 rotationally driven. The remaining rollers are preferably driven by friction.

The drive motors 11 ; 13 at least the cylinder 06 ; 07 and preferably the rollers 12 (And possibly existing drive connections) are on one side II, z. B. drive side S II, the printing unit 01 arranged. On this page S II can also be a line of the drive motors 11 ; 13 be provided tempering cooling circuit. With separable trained printing unit 01 then at least two are the drive motors 11 ; 13 tempering cooling circuits, namely at least one per wall section provided.

At least one rotating component 07 ; 12 , in particular a roller 12 and / or a cylinder 06 ; 07 the printing unit 01 , preferably every printing unit 04 the printing unit 01 , trained component 06 ; 07 ; 12 is formed temperable. This is the relevant roller 12 or the cylinder in question 06 ; 07 in thermal interaction with a temperature control circuit 14 ; 16 ( 4 ). This is here as a fluid leading secondary circuit 14 ; 16 formed, wherein the component 06 ; 07 ; 12 (Roller / cylinder) fluid over an inlet 17 to and over an outlet 18 is dissipated. Preferably, for each of the printing units 04 the printing unit 01 a temperature control circuit 14 for tempering a as a forme cylinder 07 trained component 07 as well as a temperature control circuit 16 for tempering a as an anilox roller 12 trained component 12 intended.

The inflow and outflow of tempering fluid at the component to be tempered 07 ; 12 takes place preferably on the drive side II opposite side I of the printing unit 01 ie on the side of the "operator side" side frame 02 , inflow 17 and outlet 18 are here indicated only by arrows and can be formed in a conventional manner as a rotary feedthroughs, in particular as coaxial with each other and the axis of rotation lying guides.

The tempering is firstly by the already mentioned above, with the component to be tempered 07 ; 12 in contact tempering circuit 14 ; 16 (as a secondary circuit 14 ; 16 ) educated. The fluid of the secondary circuit 14 ; 16 can for its temperature control as required by fluid of a primary circuit 19 via a corresponding link 20 be fed by colder fluid ( 4 ). For this purpose, the temperature control circuit 14 ; 16 at least one feed point 21 for fluid from the primary circuit 19 and a pump 22 and at least one temperature sensor S01; S02; S03; S04; S05, in particular at least one component 07 ; 12 upstream or associated temperature sensor S01; S02; S03 on. Preferably, the temperature cycle 14 ; 16 at least one temperature sensor close to the feed point S01 and a temperature sensor S02 close to the component; S03 on. The feed point near temperature sensor S01 is preferably located between feed point 21 and pump 22 , The latter is advantageously located upstream of the component to be tempered 07 ; 12 , Between feed-in point 21 and the first temperature sensor S01 can advantageously a swirling chamber 23 be provided, which due to their deviating from the supply line in its cross-section expression ensures a vortex generated by mixing. In addition, or partially instead, the said temperature sensors S01; S02; S03 can be downstream of the component 07 ; 12 in return a component near a temperature sensor S04 and / or a feed point near temperature sensor S05 be provided. The measured value of the at least one temperature sensor or a plurality of the illustrated or all illustrated temperature sensors S01; S02; S03; S04; S05 becomes one only in 4 without reference to the spatial arrangement indicated control and / or regulating device 25 fed to one between primary circuit 19 and secondary circuit 14 ; 16 arranged valve 24 , z. B. metering valve 24 , in particular a digital mixing valve, acts.

In an advantageous embodiment of the secondary circuit 14 ; 16 , in particular for one of the anilox roller 12 associated secondary circuit 16 , is in the circuit additionally one optional by the control and / or regulating device 25 activatable and / or controllable heating device 26 , z. B. an electric heater, z. B. provided as so-called. "Heating cartridge". About this heater 26 can the temperature of the circulating fluid, and thus the component to be tempered 07 ; 12 to be heated. This is particularly advantageous in the starting phase of the machine, in particular for the temperature control of the anilox roller 12 , because about the temperature of the anilox roller 12 the amount of ink to be recorded is controlled. For the tempering of the forme cylinder 07 can the heater 26 eliminated because the behavior is less sensitive to the temperature.

Due to the possibility of initial heating, the anilox roller can 12 thus already brought to the required operating temperature without frictional heat generated by the operation. If the temperature rises later during the operation of the printing press, then the heater 26 deactivated, and the temperature by supplying as required cooling fluid from the colder primary circuit 19 be tempered. Preferably, the control of the heater takes place 26 also via the above-mentioned control and / or regulating device 25 , The temperature control on the secondary circuit 14 ; 16 is done, for example, as follows: The control and / or regulating device 25 be B. from one of a higher-level machine control or a control center implemented logic - the printing process related data, in particular an indication of the target and / or actual speed v and / or data supplied to the color type used. On the basis of these data, suitable storage and / or computing means make a suitable desired temperature (possibly only maximum temperature) for the component to be tempered 07 ; 12 determined. The means for determining the desired temperature need not structurally in a same objective control and / or regulating device 25 be accommodated, but can also be provided in the control room itself or a machine control. In this case, the target temperatures of the above-mentioned control and / or regulating device 25 transmitted as a target specification in terms of data technology. A single or multi-loop control of the control and / or regulating device 25 acts by comparing one or more of the actual temperatures (at S01, etc.) with the relevant setpoint according to their implemented logic on the valve 24 , and if applicable, and on the heater, if necessary 26 to set the target temperature on the component 07 ; 12 or at least reach the relevant temperature measuring point.

As stated above, in the respective secondary circuits 14 ; 16 colder fluid from a primary circuit 19 metered. This primary circuit 19 can in the simplest case (in 4 shown in dashed lines) only one of the secondary circuits 14 ; 16 a printing tower 01 associated circuit with a pump 27 ; 28 and a refrigeration unit 33 ' as well as a withdrawal point and a return point for each secondary circuit to be supplied 14 ; 16 be. But he can also - as here present - a parent circuit 29 having a plurality of parallel primary circuit branches 35 , z. B. one for each tempered pressure unit 01 or printing tower 01 , feeds.

The primary circuit 19 (or with several connected printing units 01 a branch of the primary circuit 19 ) has at least one pump 27 ; 28 and a cooling unit 33 for providing a cooled under ambient temperature cooling fluid (eg., A chiller, possibly with a reservoir) and a flow line 31 ; 34 and a return line 32 ; 36 on. In the present case, the flow line is 31 . 34 from a line section of the supply line 31 the parent circuit 29 up to a sampling point 37 and a pipe section of the flow line 34 of the relevant primary circuit branch 35 together. Accordingly, the return line is set 32 . 36 from a line section of the return line 32 the parent circuit 29 up to a return point 38 and a pipe section of the return line 36 of the relevant primary circuit branch 35 together. The flow and return lines 34 ; 36 run in the printing unit 01 preferably substantially vertically as riser and downcomers.

Preferably in the embodiment with a parent circuit 29 has both this parent circuit 29 as well as the primary circuit branches 35 a pump 27 ; 28 on. This can be ensured that the respective primary circuit branches 35 despite possibly different effective line resistances can be operated in each case with a suitable pressure.

In addition to this own pump 27 indicates the primary circuit branch 35 z. B. also a pressure equalization vessel 42 on. The primary circuit branch 35 can be between a last sampling point 44 and one of the first return points 46 a valve 39 , z. B. have a throttle valve to a pressure differential between flow line 34 and return line 36 to generate and / or even with no or slight removal of fluid in the connected secondary circuits 14 ; 16 a minimum circulation of fluid in the primary circuit branch 35 to ensure.

Likewise, the parent circuit 29 between the last sampling point 37 and the first return point 38 a valve 41 , z. B. a throttle valve, have to a pressure gradient between flow line 31 and return line 32 to produce and / or even with no or small withdrawal into the primary circulation branches 35 a minimum circulation of fluid in the parent circuit 29 to ensure.

In the present embodiment are for the printing unit 01 several secondary circuits 14 ; 16 with the appropriate units, in particular at least one temperature sensor S01-S05, a pump 22 , the dosing valve 24 and possibly a Heinzeinrichtung 26 , z. B. heating unit 26 , intended. Advantageously, the printing unit 01 Close to the pressure, in particular one above the other, several, aggregates of the secondary circuits 14 ; 16 having assemblies 43 assigned (see 1 to 3 ). These assemblies 43 each have the metering valves 24 on. Preferably, the assemblies are 43 at about the same level as the printing units 04 that through this assembly 43 to be tempered components 07 ; 12 contain. The assemblies 43 are preferably the front side of the printing unit 01 (ie on a front side of the machine cylinder 06 ; 07 ) z. B. on the side frame 02 ; 03 or a frame part connected to the latter, in particular within a frontal, z. As supply lines and possibly ancillary units, space 10 , also as end-face control cabinet 10 (eg, supply and / or switchgear and containing mechanical) referred arranged. This is z. B. by the side frame 02 on the one hand, and one with the side frame 02 a room 10 enclosing cladding is formed by possibly side walls and a closable front. These in the side frame 02 integrated arrangement of the modules 43 enables the printing system near arrangement of each secondary circuit 14 ; 16 , especially the printing-near feed point 21 , which causes a considerably shorter reaction time.

Preferably, the secondary circuits 14 ; 16 arranged on the drive side S II opposite end face.

Per screen roller 12 the printing unit 01 is preferably a secondary circuit 16 with the appropriate units (at least one temperature sensor S01-S05, one pump 22 , in the case of the anilox roller 12 is in the secondary circuit 16 preferably in addition a heating unit 26 ) intended. These secondary circuits 16 are then in an advantageous embodiment as shown in FIG 1 and the schematic representation in FIG 2 in the individual modules 43 housed close to the printing works.

In principle, form cylinders to be tempered can be used 07 different printing units 04 through a common secondary circuit 14 be supplied. It is advantageous, however, if each form cylinder 07 through its own secondary circuit 14 is temperature controlled.

In the event that the form cylinder 07 and the anilox rolls 12 all printing works 04 the printing unit 01 each have their own temperature, are one of the number of printing units 04 corresponding number (here eight) of the forme cylinders 07 associated secondary circuits 14 and one of the number of printing units 04 corresponding number (here eight) of the anilox rollers 12 associated secondary circuits 16 intended. The aggregates of the same printing unit 04 relevant secondary circuits 14 ; 16 can in this case preferably in the manner of an assembly 43 be educated. This can then be in accordance with the number of printing units 04 corresponding number in substantially the same embodiment in the printing unit 01 or on the front side, in particular one above the other at different heights, be arranged. In principle, aggregates of several, in particular adjacent, printing units 04 relevant secondary circuits 14 ; 16 in the manner of an assembly 43 be educated. For example, the aggregates of two secondary circuits 16 of anilox rolls 12 and the aggregates of a secondary circuit 14 for two forme cylinders 07 or two secondary circuits 14 two form cylinder 07 in the manner of an assembly 43 several times, z. B. a total of four times (each side two superimposed) in the printing unit 01 or the lateral enclosure to be arranged.

An embodiment is advantageous, in particular for the case of a separable pressure unit 01 , in which for the left printing units 04 a left primary circulation branch 35 and for the right-hand printing units 04 a right primary circuit branch 35 each with the corresponding flow or return lines 34 ; 36 is provided. On the line between the riser and downpipes of the movable part of a separable pressure unit 01 and the respective removal or return point 37 ; 38 from the parent circuit 29 are then preferably flexible pipe sections, z. B. hose pieces provided.

As already mentioned above, it is advantageous if a specific printing unit 01 assigned aggregates of the primary circuit 19 - z. B. the pump (s) 27 and possibly provided pressure equalization vessels 42 - In a plane below the ground plane G, ie below the main operating plane G, and / or in a plane below the foot of the printing unit 01 , z. B. in the example coverable depression 09 , to be ordered. In the case of a table-mounted, so on a gallery level established printing unit 01 , is the depression 09 for example, also designed as below the level or step level of the operator in the foot frame or arranged as a gallery frame recess. Is the depression 09 or pit 09 - As advantageous - optionally designed coverable, it is accessible, but spatially not disturbing for the operation of the machine from the front side. Even with the measure of sunk arranged aggregates the line lengths are shortened, while the frontal accessibility is guaranteed to the instrument room.

For several printing units 01 thus have in this embodiment, all printing units 01 the frontal, in particular coverable recess 09 on. In this depression 09 are the fluid in the respective primary circuit branch 35 pumping pumps 27 , as well as advantageous the connection points (removal and return points 37 ; 38 ) between higher-level primary circuit 29 and the corresponding primary circuit branch 35 (the relevant printing unit 01 ), easily accessible when needed.

The "architecture" of the tempering is thus effective, space-saving and extremely responsive trained by a parent circuit 29 (Mainly predominantly horizontally between the printing towers 01 running) leads to a cooled below the ambient temperature fluid at the respective printing towers 01 each fluid from the parent circuit 29 taken and in a (substantially vertically through the or at the printing towers 01 extending) primary circuit branch 35 revolving, taking out points 44 from the primary circuit branch 35 for the secondary circuits to be tempered 14 ; 16 as well as their essential aggregates (eg pump 22 and metering valve 24 ) as close to the component as possible, ie in the printing tower 01 distributed at different heights, are arranged.

01

Printing unit printing tower

02

side frame

03

side frame

04

printing unit

05

(Double) Druckstelle

06

Printing cylinders, Cylinder, transfer cylinder

07

Printing cylinders, Cylinder, forme cylinder, component

08

Inking, Short inking

09

Deepening, pit

10

Room, switch cabinet

11

drive motor

12

Roller, Inking roller, anilox roller, component

13

drive motor

14

temperature control, Secondary circuit

15

-

16

temperature control, Secondary circuit

17

inflow

18

outlet

19

Primary circuit ( 29 . 35 )

20

link

21

feed point

22

pump

23

swirl

24

Valve, metering valve

25

Tax- and / or control device

26

heater heater

27

pump

28

pump

29

Circulation, superior

30

-

31

supply line

32

Return line

33

refrigeration unit

34

supply line

35

Primary circuit branch

36

Return line

37

sampling point

38

return point

39

Valve

40

-

41

Valve

42

The pressure equalizing vessel

43

module

44

Sampling point ( 34 )

45

-

46

Return point ( 36 )

33 '

refrigeration unit

G

Ground plane Main operating level

v

Should- and / or is speed

S01

temperature sensor

S02

temperature sensor

S03

temperature sensor

S04

temperature sensor

S05

temperature sensor

S I

page

S II

Page, driving side

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• WO 2004/054805 A1 [0002]
• WO 2006/072558 A1 [0003]
• EP 0383295 A2 [0004]
• EP 0886577 B1 [0005]

Claims (21)

Device for tempering at least one component ( 07 ; 12 ) of a printing unit ( 01 ), wherein the component ( 07 ; 12 ) for its temperature control via an inflow ( 17 ) with fluid of a secondary circuit ( 14 ; 16 ) is in thermal interaction, and wherein the secondary circuit ( 14 ; 16 ) for its temperature control via a feed point ( 21 ) Fluid of a primary circuit ( 19 ; 29 . 35 ) is metered, characterized in that the inflow ( 17 ) to the component ( 07 ; 12 ) on the drive side (S II) of the component ( 07 ; 12 ) opposite end face is provided. Device for tempering components ( 07 ; 12 ) of a plurality of printing units arranged one above the other ( 04 ) having printing unit ( 01 ), whereby at least two different printing units ( 04 ) associated with tempering components ( 07 ; 12 ) for their temperature control with two different secondary circuits ( 14 ; 16 ) are in thermal interaction with the secondary circuits ( 14 ; 16 ) at least one pump ( 22 ), and wherein the respective secondary circuit ( 14 ; 16 ) for its temperature control via a valve ( 24 ) at a feed-in point ( 21 ) of the secondary circuit ( 14 ; 16 ) Fluid of a primary circuit ( 19 ; 29 . 35 ) is metered, characterized in that at least the two different secondary circuits ( 14 ; 16 ) associated valves ( 24 ) and / or pumps ( 22 ) and / or feed points ( 21 ) are arranged on a front side of the machine at different levels from each other. Device according to claim 2, characterized in that the valve ( 24 ), the pump ( 22 ) and the feed point ( 21 ) Components of an assembly ( 43 ). Apparatus according to claim 1 or 2, characterized in that for each of the printing units ( 04 ) of the printing unit ( 01 ) at least one secondary circuit ( 14 ; 16 ) is provided. Apparatus according to claim 1 or 2, characterized in that each of the printing units ( 04 ) of the printing unit ( 01 ), in particular on the drive side (S II) opposite machine side, an assembly ( 43 ), which at least the valve ( 24 ), the pump ( 22 ) and the feed point ( 21 ) of a secondary circuit ( 14 ; 16 ) having. Apparatus according to claim 2 or 5, characterized in that the secondary circuits ( 14 ; 16 ) associated valves ( 24 ) and / or pumps ( 22 ) and / or feed points ( 21 ) in a front-side control cabinet ( 10 ) are arranged. Apparatus according to claim 2, characterized in that the two secondary circuits ( 14 ; 16 ) over the valves ( 24 ) with a same, substantially vertically extending flow line ( 34 ) of the primary circuit ( 19 ) are connected. Apparatus according to claim 1 or 2, characterized in that the end face of the printing unit ( 01 ) a recess ( 09 ) in one the printing unit ( 01 ) supporting ground plane (G) is provided, in which at least one pump ( 27 ) of the primary circuit ( 19 ), in particular a pump ( 27 ) one of the printing units ( 01 ) associated primary circuit branch ( 35 ) is arranged. Apparatus according to claim 4, characterized in that for each of the printing units ( 04 ) of the printing unit ( 01 ) a secondary circuit ( 14 ) for temperature control of a forme cylinder ( 07 ) formed component ( 07 ) as well as a secondary circuit ( 16 ) for tempering a as an anilox roller ( 12 ) formed component ( 12 ) is provided. Device according to claim 9, characterized in that the valves ( 24 ), The pumps ( 22 ) and the feed-in points ( 21 ) of the two a same printing unit ( 04 ) associated secondary circuits ( 14 ; 16 ) Components of an assembly ( 43 ). Apparatus according to claim 2, characterized in that an inflow to the component ( 07 ; 12 ) on the drive side (S II) of the component ( 07 ; 12 ) opposite end face is provided. Apparatus according to claim 1 or 2, characterized in that in addition to the feed point ( 21 ) in the secondary circuit ( 14 ; 16 ) an optionally activatable heating device ( 26 ) is provided. Device according to claim 1, characterized in that the printing unit ( 01 ) several superimposed printing units ( 04 ) having. Apparatus according to claim 2 or 13, characterized in that on or next to the side frame ( 02 ) at least one flow line and one return line ( 34 ; 36 ) of the primary circuit ( 19 . 35 ), in particular substantially vertically, up to the height of a branch for the secondary circuit ( 14 ; 16 ) of the uppermost printing unit ( 04 ). Device according to claim 2 or 13, characterized in that the printing unit ( 01 ) than in the area of its pressure points ( 05 ) divisible printing unit ( 01 ) is formed with mutually variable wall sections. Apparatus according to claim 15, characterized ge indicates that each of the two parts of the separable printing unit ( 01 ) a flow line and a return line ( 34 ; 36 ) of the primary circuit ( 19 . 35 ) assigned. Apparatus according to claim 1 or 2, characterized in that a plurality of horizontally spaced printing units ( 01 ) are provided whose secondary circuits ( 14 ; 16 ) for their supply with a common primary circuit ( 19 ; 29 . 35 ) are connected. Apparatus according to claim 17, characterized in that each printing unit ( 01 ) at least one primary circuit branch ( 35 ) associated with a common, primary primary circuit ( 29 ) are connected. Device according to claim 1, 2 or 11, characterized in that the printing unit ( 01 ) Printing units ( 04 ) with respective printing cylinder ( 06 ; 07 ), wherein, in particular as forme cylinder ( 07 ) and transfer cylinders ( 06 ), printing cylinder ( 06 ; 07 ) of the printing unit ( 04 ) by at least one of other mechanical printing units ( 04 ) independent drive motor ( 11 ) are rotationally driven. Apparatus according to claim 1 or 2, characterized in that the printing units ( 04 ) of the printing unit ( 01 ) are designed as dry offset printing units. Apparatus according to claim 1 or 2, characterized in that storage and / or computing means, in particular in a control and / or control device ( 25 ) or a machine control or a control station, are provided, by means of which a temperature setpoint for the component to be tempered ( 07 ; 12 ) or the circulating fluid can be determined as a function of a machine speed and / or data on the color type used.