EP1092533B1 - Modular printing system for printing sheets - Google Patents

Description

The invention relates to a modular printing press system for printing on Bow, consisting of a satellite feeder comprising a sheet feeder with a central first impression cylinder and at least four associated with it Printing devices trained first printing machine, a sheet delivery and a second impression machine comprising a second impression cylinder and from a Coupling device for coupling the printing press to one another for their inline operation, according to the preamble of claim 1.

Such printing press systems are in US 5,660,108, DE 43 03 797 A1, the DE 195 03 619 A1 and DE 197 43 770 A1.

The system described in the latter publication includes one Satellite printing unit as the first printing press and an impression unit than the second press. As shown in Figure 3 of the published patent application, is a multi-size impression cylinder unit impression cylinder as large as one Quadruple-sized impression cylinder of the satellite printing unit.

The invention is based on the object, another modular To create printing press system.

The task is performed by a printing press system with the features of Claim 1 solved.

The printing press system according to the invention is characterized in that the Circumferential length of the first impression cylinder of the first printing press and the Circumferential length of the second impression cylinder of the second printing machine to each other are different sizes.

The second impression cylinder is preferably smaller than the first impression cylinder, whose size is an integer multiple of the size of the second Back pressure cylinder. This is particularly advantageous if the second Impression cylinder less than four and z. B. two order cylinders are assigned or if only a single application cylinder is assigned to the second impression cylinder. Due to the reduced size of the second impression cylinder compared to the first Impression cylinder, the second printing press can be made very compact. The compact design of the second printing machine in turn reduces it Manufacturing costs and is for the space-saving installation of the second printing press only a smaller footprint is required.

This advantage is achieved by inventing the established design is deviated, which is taught in all of the publications mentioned above, according to which the impression cylinders of the two printing presses are equal to one another should. As the already mentioned DE 197 43 770 A1 shows, one stopped before the invention this design even when the second impression cylinder the second Printing press less than four and z. B. two printing devices were assigned.

Advantageous developments of the printing press system according to the invention are in the Subclaims and arise from the description and the drawing.

Figur 1

ein erstes modulares Druckmaschinensystem,

Figur 2

ein zweites modulares Druckmaschinensystem,

Figur 3

ein drittes modulares Druckmaschinensystem und

Figur 4

ein viertes modulares Druckmaschinensystem.

In this shows:

Figure 1

a first modular printing press system,

Figure 2

a second modular printing press system,

Figure 3

a third modular press system and

Figure 4

a fourth modular press system.

1 to 4 show a first printing press 1 which is used to form a modular printing press system 2 to 5 with a second printing press 6 - compare Figure 1 - with a second printing press 7 - compare Figure 2 - with one second printing press 8 - compare FIG. 3 - or with a second printing press 9 - compare Figure 4 - which can be optionally coupled and which one sheet feeder 10 and one Sheet delivery 11 and all others for one of the second printing press 6, 7, 8 or 9 separate operations required modules.

The first printing press 1 also includes a common impression cylinder 12 um which around four printing devices 13 to 16 are arranged, with which one on the Impression cylinder 12 sheet 17 lying one after the other with the colors black, Cyan, magenta and yellow in the offset process, preferably in dampening solution Dry offset, is printed. Each of the printing devices 13 to 16 consists of one Forme cylinder 18 and an application cylinder 19 on which a rubber blanket is stretched and which of the transfer of the respective color from the forme cylinder 18 to the sheet 17th serves. The circumference of the counter-pressure cylinder 12 equipped with four rows of grippers is four times as large as the circumference of the forme cylinder 18 and also as the circumference of the Application cylinder 19. Each forme cylinder 18 is laser-irradiated within the printing press 1, a laser emitter as one Imaging device 20 and for its coloring during printing Assigned inking unit 21. The first printing press 1 can be one from Heidelberg Druckmaschinen AG manufactured machine of the "Quickmaster DI 46-4" type.

Each of the second printing presses 6 to 9 comprises a sheet delivery 21 to 24 with one Chain gripper, is also with an extendable chassis 25 to 28 if necessary equipped and has two in strength and distance from each other with those of the first Printing machine 1 corresponding side walls, so that the second printing machine 6th to 9 can be docked to the first printing press 1 without any problems.

The second printing machines 6 and 7 are designed and included as coating machines one impression cylinder 29 and 30 with grippers and one application cylinder 31 and 32. A roller is applied to the application cylinder 31 for supplying the paint Metering roller 33 together with a scooping the paint from a tub 34 Dip roller 35 a metering device 36 for generating a over the printing width uniform film of paint. The second printing press 7 also has one such zone-less metering device 37, which in anilox construction from one on the Order cylinder 32 rolling anilox roller 38 and one on this as a doctor blade adjacent doctor 39 exists. The circumferential length of each cylinder 29 to 32 and the Anilox roller 38 corresponds to that of the forme cylinder 18. On each of the application cylinders 31 and 32 can optionally be a rubber blanket 40 for painting the sheet 17 over the entire surface or a flexographic printing plate 41 for spot varnishes. In the latter The case is the application cylinder 31 and 32 a forme cylinder. Of course, instead of the varnish also prints a special color with every second printing machine 6 and 7 become.

The second printing machine 8 is a slightly modified single-color printing machine of the type "Printmaster QM 46-1" and the second printing press 9 one slightly modified two-color press "Printmaster QM 46-2", the are manufactured by Heidelberger Druckmaschinen AG. The above Machine types can also form the basis for the second printing machines 6 and 7, the modifications to be made would be somewhat more extensive.

Each of the second printing presses 8 and 9 consists of an order cylinder 42 and 43, which, as a blanket cylinder, the color of at least one Printing form cylinders 44, 45 and 46 on the impression cylinders 47 and 48 overlying sheet 17 transfers in the offset process. The job cylinder 43 works as a collecting cylinder with the two printing form cylinders 45 and 46 together by the rotating application cylinders 43 from the printing form cylinders 45 rolling on it and 46 take over a spot color in succession and then both spot colors applies to sheet 17 all at once. Each printing form cylinder 44 to 46 is his Moisturizing a dampening unit 49 to 51 and for inking it as a lifter inking unit trained inking 42 to 54 assigned. The respective dampening unit 49 to 51 can a second printing machine 8 and 9 operating in the dry offset process is eliminated. Each printing form cylinder 44 to 46 can be laser radiation within the second printing machine 8 and 9 imaging a laser emitter as one Imaging device 55 to 57 can be assigned. The printing form cylinder 46, the Inking unit 54, possibly the dampening unit 51 and, if appropriate, the Imaging device 57 are between the side walls of the printing press 9 separate side plates that correspond to them in spacing and thickness stored and together form a structural unit in the form of a pressure module 58, which on the Sidewalls can be put on.

Except for the printing module 58, the second printing presses 8 and 9 are in relation to one another identical. By omitting the printing module 58, the second printing press 9 can be closed a single-color printing machine can be converted, which of the shown in Figure 3 equivalent. By adding the printing module 58, the second printing machine 8 can be closed a two-color printing machine can be converted, which of those shown in Figure 4 equivalent. Through this modular system, the manufacturer's manufacturing costs be kept low.

Both in the second printing press 8 and in the second printing press 9 can Provide the sheet 17 with sheet from during the continuous machine run Sheets of variable impressions, e.g. B. consecutive numbering or coding Impression unit 59 can be integrated with a stamp shaft 60, as is the case with the example of second printing machine 8 is shown.

In each of the second printing presses 8 and 9 mentioned for drying the Sheet 17 before it is displayed by the sheet delivery 21 or 23 instead of the Imprinting unit 59, a dryer 61 can also be integrated, as shown in the example of the second Printing machine 9 is shown.

In the sheet delivery 21 to 24 of the second printing press 6 to 9 can also Dryer 62 to 65 can be integrated between the two strands of the chain gripper respective sheet boom 21 to 24 is arranged. The dryer 62 to 65 is that assigned lower strand, which calls for the sheets 17 and from which the sheets 17 can be dropped on a sheet stack of the respective sheet delivery 21 to 24. The Dryer 62 to 65 acts on the freshly printed in the second printing press 6 to 9 Front of the sheet 17, while this is from the chain gripper on dryer 62 to 65 is transported past.

For transporting sheets from the first printing press 1 into the respective second Printing presses 6 to 9 are between the sheet delivery 11 of the first printing press 1 and the second impression cylinder 29, 30, 47 or 48 of the second printing press 6 to 9 a feed device 66 to 69 and a modular transport device 70 to 73 Installed. Each of the transport devices 70 described in detail below to 73 may be installed in place of any other of the transport devices 70 to 73. For example, the transport device 70 can also be used instead of the transport device 71 be integrated into the printing press system 3. The feeders are 66 to 69 identical to each other.

Each transport device 70 to 73 is the first impression cylinder 12 and the respective second impression cylinder 29, 30, 47 or 48 for sheet transport from the first Impression cylinder 12 to the second impression cylinder 29, 30, 47 or 48 intermediate and for transporting the sheet 17 along a linear Transport paths 74 to 77 formed.

A the first printing press 1 and in particular the rotation of the first Counter-pressure cylinder 12 and the circulation of the sheet delivery 11 driving electromotive drive 118, a the second printing press 6 to 9 and in particular the Rotation of the second counter-pressure cylinder 29, 30, 47 or 48 driving drive 119 and one that drives the transport device 70 to 73 and in particular the circulation thereof Electromotive drive 120 are with an electronic control device 121 and via these with each other in terms of control technology for synchronization of the drives 118 to 120 linked, as shown in the example of the printing press system 3. To also in Accidents and z. B. to prevent the control device 121 from failing Gripper bridges 89 and 90 of the transport device 71 with the cantilever gripper bridges collide is a positive positive control in the form of a Transport device 71 with gear 122 connecting the sheet delivery 11 provided, which is assigned to the sheet delivery 11 and z. B. coaxial to Sprocket 116 arranged gear and its associated with the transport device 71 and Z. B. arranged coaxially to the sprocket 87 gear increased tooth play to each other and only come into tooth flank contact in the event of an accident.

The transport device 70 to 73 is a non-impact printer 78 to 81 and this in Following a sheet transport direction assigned a dryer 123 to 126. The non-impact printer 78 to 81 printed and the dryer 123 to 126 dries the sheet 17 while this from the transport device 70 to 73 along the transport path 74 to 77 am Non-impact printer 78 to 81 and the dryer 123 to 126 is transported past. The Non-impact printer 78 to 81 is preferably an ink jet printer, from the nozzles of Piezo pumps paint droplets are ejected.

Each of the dryers 61 to 65 and 123 to 126 can be an IR (infrared radiation) dryer, a UV (ultraviolet radiation) dryer and in particular a so-called UV excimer dryer be who works without ozone formation and with his monochromatic UV lamps at 308 or 222 nanometers light wavelength no heat radiation emitted. Such a UV excimer dryer is e.g. B. from the magazine "Druckwelt", March 1999 edition known and was z. B. from the Saxon Institute of Printing Industry (SID), Leipzig based on Bluelight modules with mercury-free UV lamps developed by Heraeus, Kleinostheim.

The driers 123 to 126 are for the quick and essentially before Printing or painting the sheet 17 in the second printing machine 6 to 9 Completed drying of the ink jet ink printed by the non-impact printer 78 to 81 provided, which can also be a UV-curable paint. The dryers are 61 to 65 for drying the entire sheet 17 before it is displayed in the sheet delivery 21 provided to 24.

Instead of the ink jet printer, in some cases a laser printer can also be used as the non-impact printer 81 to 84 can be provided, the dryer 123 to 126 being omitted.

The advantage of the non-impact printer 81 to 84 over a mechanical that switchable impression mechanism, such as. B. the impression mechanism 59, is that by means of the non-impact printer 81 to 84 also addressing, personalization and practically all conceivable motifs can be printed on the sheet 17, whereby during the continuous run of the press system 2 to 5 the type and Order of motifs can be updated. In the impression mechanism 59 are the kind that Number and order of motifs shown here, e.g. B. consecutive numbers, Codings and the like can be through the training and clocking in the impression mechanism 59 predetermined stamps or numbering wheels, which can only be replaced when the machine is at a standstill.

The transport device 70 is designed as an electromagnetic linear drive or Linear motor formed from stators 82 and 83 and at least one rotor 84 and 85, the runner 84 and 85 for carrying the sheets 17 with at least is equipped with a bow holding element, not shown, and the stators 82 and 83 are arranged along the transport path 74 of the sheets 17 and to produce a electromagnetic traveling field for propelling the rotor 84 and 85 are formed.

The transport device 71 is designed as a chain gripper that consists of one by two there is an articulated chain 88 with shafts provided with sprockets 86 and 87, to which at least one gripper bridge 89 and 90 carrying the bow 17 is fastened.

The transport device 72 is a suction belt rotating around two shafts 91 and 92, the consists of an air-permeable material or is provided with air openings and which to hold the sheet 17 on the suction belt one of the sheets 17 through the Pneumatic suction device 93 sucking through the suction belt is assigned.

The transport device 73 is a rotating around two shafts 94 and 95 Conveyor belt, which has at least one gripper 96 and 97 for holding the Sheet 17, which on the side to be printed by the non-impact printer 84 of the held sheet 17 rests and due to its ultra-flat training at The sheet 17 is transported past the non-impact printer 84 without collision by one of the Non-impact printer 84 and the sheet 17 formed narrow gap 98 is feasible. Everyone to clamp the sheet movable relative to a gripper pad and the sheet Pliers grippers 96 and 97 which are clamped between themselves and the gripper support are less than 1.0 mm, especially less than 0.5 mm, strong and is therefore hardly in the direction of Non-impact printer 84 before.

Each gripper bar 89 and 90 of the transport device 71 and each runner 84 and 85 of the transport device 70 can be used with such an ultra-flat tong gripper 99 to 102 be equipped as a bow holding element.

The feed device 66 to 69 takes over the sheet 17 from the respective one Transport device 71 to 73, which in turn the sheet 17 from the sheet delivery takes over, as a revolving around sprockets 116 and 117 and with no closer claw gripper bridges provided chain gripper is formed. The the Sheet transfer to the second impression cylinder 29, 30, 47 or 48 serving and as a feed device designed as a feed drum is at least one Actuator 103 to 105 assigned.

To simplify the following explanations are used for sensors, electronic Control devices and the control devices, which in all Printing press systems 2 to 5 are identical in construction and function, in Figures 1 to 4 same reference numerals used.

The first impression cylinder 12 is one of these for checking the position transported sheet 17 at least one sensor 106 to 108 and the feed device 66 to 69 is to control the position of the feeder 66 to 69 to the second Impression cylinder 29, 30, 47 or 48 sheet 17 to be transferred at least one further sensor 109 to 110 assigned. The at least one sensor 107 and 108 and the at least one further sensor 109 and 110 are used to check the position of a leading edge arranged of the sheet and via an electronic control device 112 with the Adjustment of the circumferential register of the feed device 66 to 69 serving Actuator 103 linked. Is the first to check the circumferential register Impression cylinder 12 and the feed device 66 to 69 each only one Assigned to sensors 107 and 109, this sits in the area of the middle of the format width the leading edge of sheet 17 passing sensor 107 and 109.

The sensors 107 and 108 are preferably in the axial direction of the first Counter-pressure cylinders 12 are offset from one another and form a first pair of sensors and sensors 109 and 110 are also in the axial direction of feeder 66 to 69 offset from each other and form a second pair of sensors. The When arranged in pairs, sensors 107 to 110 are not in the range of Center of the sheet but adjustable depending on the format, close to the side of the sheet arranged so that the sensors 107 and 109 the leading edge close to one Side edge of the sheet and sensors 108 and 110 close to the leading edge grasp the other side edge of the sheet. The sensor pairs can not only be used for Control of the circumferential register but alternatively or additionally to control of the diagonal or diagonal register can be used. In this case, each of the four Sensors 107 to 110 via the electronic control device 112 with the adjustment of the diagonal register of the feed device 66 to 69 serving actuator 104 and with simultaneous control of the circumferential register additionally with the adjusting device 103 connected.

Furthermore, an incremental encoder 113 for detecting the machine angle is the first Printing machine 1 - d. H. the rotational angle position of the rotating first Counter pressure cylinder 12 - with the electronic control device 112 and via this linked to sensors 107 to 110.

The control device 112 sets deviations between the register or register values the sensor pair 107 and 108 or the single sensor 107 to the sensor pair 109 and 110 or the single sensor 109, the controller 112 controls the Actuating device 103 in such a way that the circumferential register of the feeding device 66 to 69 according to a register-containing setting in the circumferential direction of the Feeder 66 to 69 is shifted. If the control device 112 determines that the Control values of the sensor pair 109 and 110 from the control values of the Sensor pairs 107 and 108 differ, the control device 112 controls the Actuating device 104 in such a way that the diagonal register of the feeding device 66 to 69 adjusted by changing their inclined or parallel position becomes.

The sensors 106 and 111 are used to check the position of a side edge of the sheet 17 arranged and via the electronic control device 112 with the adjustment of the Linked side register of the actuator 105 serving feeder. The Sensor 106 measures the position of the sheet 17 on the first impression cylinder 12 in the latter Axial direction and signals the measured position to the control device 112. Der Sensor 111 also measures the lateral position of the sheet 17 on the feed device 66 to 69 and in turn signals the measured position to the control device 112, which if the value measured by sensor 111 differs from sensor 106 measured value that of the adjustment of the side register of the feed device 66 to 69 Serving actuator 105 controls such that an axial displacement of the Feeder 66 to 69 whose side register is adjusted.

The adjustment of the feeder to correct the circumference, diagonal or Side register only takes place after the rear edge of the feed device 66 to 69, sheets moved the non-impact printer 81 to 84 when they were relocated has passed and this sheet is no longer printed by the non-impact printer 81 to 84 becomes.

Thus, the distortion of the non-impact printer 81 to 84 on the sheet printed image due to premature displacement of the sheet relative to the still printing non-impact printer 81 to 84 by the feeder 66 securely avoided.

Each of the sensors 106 to 111 is an optical sensor in the form of a so-called CCD (Charge coupled device) line.

Instead of directly checking the position of the front or side edge of the sheet the respective sensor 106 to 111 can in the first printing press 1 with the Order cylinder 19 pass marks, z. B. Registration marks, on the edge of the sheet lying sheet-free sheet edges are printed, the position of the respective Sensor 106 to 111 is detected, which indirectly controls the position of the sheet edge becomes.

After the register corrections described above have been made, the Feeding device 66 to 69 the register on the first impression cylinder 12 printed sheet 17, its register by the sheet transfer from Sheet delivery 11 to the transport device 70 to 73 at a separation point 115 at times was lost, again in register with the second impression cylinder 29, 30, 47 or 48.

Due to a possible wear and a necessary game one Coupling device 114, it is not excluded that the respective second Printing machine 6 to 9 each time the first printing machine 1 is coupled to the latter another dimension is slightly offset. This offset occurs at the separation point 115 noticeable on which the respective transport device 70 to 73 the sheet 17 from Sheet delivery 11 takes over and on the second printing machine 6 to 9 of the first Printing machine 1 can be separated. In other words, he passes Sheet delivery 11 the sheets 17 more or less depending on the size of the offset in register with the respective transport device 70 to 73.

The possibly inaccurate transfer register between the first printing press 1 and the second printing press 6 to 9 is advantageously by a corresponding Relocation of the feed device 66 to 69 compensated so that the sheet 17 of the Feeding device 66 to 69 again fits the respective second one Back pressure cylinder 29, 39, 47 or 48 is passed.

LIST OF REFERENCE NUMBERS

1

first printing press

2

modular printing press system

3

modular printing press system

4

modular printing press system

5

modular printing press system

6

second printing press

7

second printing press

8th

second printing press

9

second printing press

10

sheet feeder

11

sheet delivery

12

Impression cylinder

13

print Setup

14

print Setup

15

print Setup

16

print Setup

17

arc

18

form cylinder

19

application cylinder

20

imaging

21

sheet delivery

22

sheet delivery

23

sheet delivery

24

sheet delivery

25

chassis

26

chassis

27

chassis

28

chassis

29

Impression cylinder

30

Impression cylinder

31

application cylinder

32

application cylinder

33

metering

34

tub

35

dipping roller

36

metering

37

metering

38

anilox roller

39

doctor

40

blanket

41

flexographic printing

42

application cylinder

43

application cylinder

44

Plate cylinder

45

Plate cylinder

46

Plate cylinder

47

Impression cylinder

48

Impression cylinder

49

dampening

50

dampening

51

dampening

52

inking

53

inking

54

inking

55

imaging

56

imaging

57

imaging

58

print module

59

imprinter

60

stamp wave

61

dryer

62

dryer

63

dryer

64

dryer

65

dryer

66

feeding

67

feeding

68

feeding

69

feeding

70

transport means

71

transport means

72

transport means

73

transport means

74

transport path

75

transport path

76

transport path

77

transport path

78

Non-impact printer

79

Non-impact printer

80

Non-impact printer

81

Non-impact printer

82

stator

83

stator

84

runner

85

runner

86

Sprocket

87

Sprocket

88

Chain

89

gripper

90

gripper

91

wave

92

wave

93

suction

94

wave

95

wave

96

Clip-on chuck

97

Clip-on chuck

98

gap

99

Clip-on chuck

100

Clip-on chuck

101

Clip-on chuck

102

Clip-on chuck

103

setting device

104

setting device

105

setting device

106

sensor

107

sensor

108

sensor

109

sensor

110

sensor

111

sensor

112

control device

113

incremental

114

coupling device

115

separation point

116

Sprocket

117

Sprocket

118

drive

119

drive

120

drive

121

control device

122

transmission

123

dryer

124

dryer

125

dryer

126

dryer

Claims (10)

1. Modular printing machine system (2; 3; 4; 5) for printing on sheets (17), the system consisting of a first printing machine (1) of satellite construction, the first printing machine (1) comprising a sheet feeder (10) and a central first impression cylinder (12) that is assigned at least four printing devices (13, 14, 15, 16), a second printing machine (6; 7; 8; 9) comprising a sheet delivery (21; 22; 23; 24) and a second impression cylinder (29; 30; 47; 48), as well as a coupling device (114) for coupling the printing machines with each other for in-line operation,
   characterized in that the impression cylinders (12 and 29; 30; 47; 48) are of different sizes with respect to each other.
2. Modular printing machine system according to claim 1,
   characterized in that the circumferential length of the first impression cylinder (12) is exactly for times as large as the circumferential length of the second impression cylinder (29; 30; 47; 48).
3. Modular printing machine system according to claim 1 or 2,
   characterized in that the second printing machine (6; 7; 8; 9) comprises a single applicator cylinder (31; 32; 42; 43) arranged to apply ink or varnish to the sheets (17) carried by the second impression cylinder (29; 30; 47; 48).
4. Modular printing machine system according to one of claims 1 to 3,
   characterized in that the second printing machine (9) comprises a first form cylinder (45), a second form cylinder (46), and an applicator cylinder (43) arranged to transfer ink or varnish from the two form cylinders (45, 46) to the sheets (17).
5. Modular printing machine system according to one of claims 1 to 4,
   characterized in that the second printing machine (6; 7) comprises at least one zone-free metering device (36; 37) to meter the ink or varnish and that the metering device (36; 37) consists of a screen roller (38) and a doctor blade (39) engaging said screen roller (38) or of a trough (34), a dip roller (35) arranged in said trough (35), and a metering roller (33) engaging said dip roller (35).
6. Modular printing machine system according to one of claims 1 to 5,
   characterized in that to transfer a sheet (17) to the second impression cylinder (29; 30; 47; 48), a feeding device (66; 67; 68; 69) is provided and that for the purpose of register correction, said feeding device (66; 67; 68; 69) is assigned at least one adjusting device (103, 104, 105), which is connected to at least one sensor (106, 107, 108) in terms of control technology, said sensor (106, 107, 108) being assigned to the first impression cylinder (12) to monitor the position of the sheet (17) carried by said first impression cylinder (12).
7. Modular printing machine system according to one of claims 1 to 6,
   characterized in that a non-impact printer (78, 79, 80, 81) for printing the sheets (17) inline is integrated into the printing machine system, and that the non-impact printer (78, 79, 80, 81) is an ink-jet printer.
8. Modular printing machine system according to one of claims 1 to 7,
   characterized in that a transport device (70, 71, 72, 73) for transporting the sheets (17) is arranged between the two impression cylinders (12, 29; 30; 47; 48) and that the transport device (70, 71, 72, 73) is designed as an electromagnetic linear drive or a transport belt.
9. Modular printing machine system according to claim 8,
   characterized in that the transport device (72) comprises a suction device (93).
10. Modular printing machine system according to one of claims 8 or 9,
    characterized in that to hold the sheet (17), the transport device (70, 71, 73) comprises at least one tongs-type gripper (96 to 102) resting on that side of the sheet (17) that is to be printed and having a thickness of less than 1.0 mm and in particular of less than 0.5 mm.

Images