DE9320409U1 - Device for preventing printing unit damage in the event of web break - Google Patents

Description

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Description

Device for preventing printing unit damage in the event of web breakage

The invention relates to a device for preventing damage to printing units in the event of a web break, in accordance with the generic term of claim I.

DE 39 39 226 A1 discloses a web break switch for a web-fed rotary printing machine with a scanning device consisting of a light barrier and a deflection device, which is arranged before or after a drying device in order to avoid a so-called winder in the event of a web break, in which the paper web winds up around a cylinder of the printing unit.

The disadvantage of arranging scanning devices in the immediate vicinity of the printing unit is that functioning problems can occur due to the deposit of ink abrasion or paper dust on the scanning devices. In addition, if a web break occurs within the drying device, e.g. in the middle of the drying device, a catching device or similar is only triggered by the paper web monitoring device when one of the two paper web ends has left the dryer, so that a

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delayed shutdown of the printing press.

The invention is based on the object of creating a device for preventing printing unit damage in the event of a web break, which occurs in particular within a drying device.

The solution to the problem is achieved according to the inventive features of the characterizing part of the “-ifrispruch 1”.

The invention achieves the following advantages in particular: By arranging a scanning device inside the drying device, if a paper web tear occurs within the drying section, a signal is immediately triggered to wind up the torn paper web and the printing machine is switched off, so that damage to the printing unit by paper winders is excluded. Excessive deposits of ink abrasion on the scanning device are avoided.

The invention is described in more detail below using two exemplary embodiments. The accompanying drawings show

Fig. 1 is a schematic side view of a web-fed rotary printing machine with dryer and a device according to the invention,

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Fig. 2 schematic representation of the beam paths of a scanning device according to Fig. 1,

Fig. 3 an evaluation circuit.

Fig. 4 is a representation of a second embodiment.

Only the last printing unit 1 of a web-fed rotary printing machine is shown, which consists of two blanket cylinders 2, 3, to each of which a plate cylinder 4, 6 can be attached. A paper web 7 is guided between the two blanket cylinders 2, 3. After leaving the last printing unit 1, the paper web 7 passes through a known paper web catching device 8, which can, for example, consist of two spaced-apart catching rollers 9, 11, between which the paper web 7 is guided through without contact during normal operation. The paper web catching device 8 is activated by a triggering device

12 is activated so that the torn paper web 7 is rolled up so that it cannot create a winder in the last printing unit 1. The paper web 7 then passes through a known drying device 13, which is followed by a cooling device 14 consisting of cooling rollers 16, 17, 18, 19. Approximately in the middle third of the total length of the drying device

13, an opto-electrical scanning device 21 is arranged for detecting the position of the paper web 7.

Scanning device 21 detects the path of the paper web 7 that deviates from the horizontal in a measuring range hl, h2. A deviation of the paper web 7 by an amount in the measuring range hl, h2 from the horizontal is determined by a light beam 22 emitted by the scanning device 21, as well as its remission beam 23 on the paper web 7, which will be explained in more detail later. If the paper web 7 breaks, it initially moves through the measuring range hl, h2. By means of an evaluation circuit 24 shown in Fig. 3, if a preset amount within the range hl, h2 is exceeded, which is stored as a target value in a computer 26, e.g. B. of the machine control station and is compared with the actual value determined by the evaluation circuit 24, a pulse is given to trigger the triggering device 12 arranged in the running direction of the paper web 7 behind the printing unit 1. At the same time, the printing unit 1 is switched off, so that in the event of a tear in the paper web 7, the severed end of the paper web is wound up by the catch rollers 9, 11 and is not drawn into the printing unit 1 as a result of the adhesive effect of the printing ink. The scanning device 21 as well as the evaluation circuit 24, the computer 26, the triggering device 12 for the catch rollers 9, 11 are connected to one another by lines 28, 29, 31.

The scanning device 21 arranged in the drying device 13 above the paper web 7 is in a

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Housing 32 and consists of a transmitter 33 and a receiver 34. The scanning device 21 is connected to the evaluation circuit 24 via the line 28. An analog voltage is measured at the measuring point M against earth potential and compared with the preset target value, whereby the analog voltage is proportional to the distance of the paper web 7 from the receiver 34. The transmitter 3 3 is located above the paper web 7 to be scanned, which is moving in the direction of production, at an angle α of 40° to 130°. The scanning device 21 is constructed according to the principle of the triangulation method. The basis of this method is the fact that a measuring spot 36 is projected onto the paper web 7.

This is done by means of the transmitter 33, which can be designed as a laser diode. The light beam 22 pulsed by the transmitter 33 penetrates a collecting lens 37 arranged between the transmitter 33 and the measuring spot 36, which prevents the light beam 22 from expanding too much. A beam 22 arranged at an angle &bgr;
ζ. The receiving optics, which are arranged at an angle of 40° to 130° to the horizontal, ie the paper web 7, and are designed as an objective 37, project the light spot 36 formed on the paper web 7.0 onto the receiver 34 by means of a reflection beam 23. The receiver 34 is designed as a PSD element, ie Position Sensitive Diodes. A PSD element is a photo receiver 34 which is independent of the intensity distribution

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along its longitudinal axis 38 depending on the position of the paper web 7.0, 7.1, 7.2 in the measuring range h1, h2, supplies analog current signals II, 12 (Fig. 2 and 3). The ratio of the amount of the two output currents Il,12 is inversely proportional to distances a, b, which are imaged on the longitudinal axis 38 of the receiver 34 by the remission of measuring spots 36, 39, 41 on the paper webs 7.0, 7.1, 7.2 in the measuring range hl, h2. A remission beam 42 is emitted from the measuring spot 39 on the paper web 7 in position 7.1 and a remission beam 43 is emitted from the measuring spot 41 on the paper web 7 in position 7.2 at an angle β or β. to the paper web 7 in position 7.1, 7.2 is sent to the receiver 34. The sum Σ of the currents II, 12 corresponds to a total current 10. As already mentioned, the receiver 34 measures the distance to the web 7 in position 7.0; 7.1; 7.2 and supplies an analog voltage which is proportional to the distance of the respective measuring spot 36, 39, 41. This analog signal is fed to the computer 26. The computer 26 uses this to determine the distance of the paper web 7. In the event of a position deviation of the paper web 7 from a preset target value in the measurement range hl, h2, the triggering device 12 for the catch rollers 9, 11 is actuated and the printing unit 1 is stopped. The target value can be sent to the computer 26, e.g. B. can be entered using a known keyboard. Fig. 3 shows an evaluation circuit 24 for the current signals II, 12 generated by the receiver 34.

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The currents II, 12 are fed to a summing element 44 and simultaneously to a difference forming element 46 arranged parallel to this summing element 44. Both elements 44, 46 are connected to one another via a divisor element 47. The divisor element

47 divides the sum of the currents 11+12 by the difference of the currents Il - 12. The resulting value is fed to a subsequent, non-linear amplifier

48. After the amplifier 48, a comparison voltage is tapped at the measuring point M against earth potential and fed to the computer 26, which, after exceeding a preset value, leads to a machine stop of the printing unit 1 or to the actuation of the catch rollers 9, 11 and the paper web separating device 27.

It is also possible to arrange a scanning device 21 in the drying device 13, below and above the paper web 7, and thus to detect a positional deviation of the paper web 7 from both sides. It would also be possible to design the scanning devices 21 using an infrared rangefinder.

In a second embodiment according to Fig. 4, the presence of a paper web 7 in the drying device 13 is determined by means of a scanning device 49, which consists of a transmitter 51 arranged below the paper web 7 and a receiver 52 arranged above the paper web 7. The

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Transmitter 51 is connected to a voltage U and emits light rays 53, which reach receiver 52 only in the case of the absence of a paper web 7, e.g. in the event of a paper web tear in the drying device 13.

In this case, the receiver 52 sends a pulse to the computer 26 via an amplifier 54, which in turn actuates the triggering device 12 of the paper web catching device 8. It is expedient to arrange both the transmitter 51 and the receiver 52 outside the drying device 13, i.e. on the housing of the same, in order to avoid a greater heat effect on both parts 51, 52. In addition, the scanning device 49 should be arranged slightly outside the center of the oven, viewed in the direction of production, in order to also detect paper webs 7 that, for example, are only half the width of the paper web and are only moved on this half of the oven. Alternatively, a second scanning device 49 can of course also be provided on the other half of the oven. The transmitter 51 triggers an optical or acoustic signal when its transmission capability falls below a preset value. On the other hand, the receiver 52 triggers a separate optical or acoustic signal if its reception ability is impaired, for example by dust. It is also possible to arrange the transmitter 51 above the paper web 7 and the receiver 52 below the paper web 7.

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Parts list

1 printing unit

2 blanket cylinders (1)

3 blanket cylinders (1)

4 Plate cylinder (1) 5

6 plate cylinders (1)

7 Paper web

0.O Paper web position

7.1 Paper web position

7 . 2 Paper web layer

8 Paper web catching device

9 Catch roller (8) 10

11 Catch roller (8)

12 Release device

13 Drying device

14 Cooling device 15

16 Cooling roller (14)

17 Cooling roller (14)

18 Cooling roller (14)

19 Cooling roller (14) 20

21 Scanning device

22 Light beam

23 Remission beam

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24 Evaluation circuit

26 computers

28 Management

29 Line 30

31 Line

32 Housing (21)

33 channels

34 Recipients 35

36 measuring spot (7)

37 Lens

38 Longitudinal axis (34)

39 Measuring spot (7, 1) 40

41 Measuring spot (7, 2)

42 Remission beam (39)

43 Remission beam· (41)

44 Summing element 45

46 Difference forming element

47 Divisor element

48 amplifiers

49 Scanning device (51, 52) 50

51 channels (49)

5 2 Recipients (49)

53 Beam of light

54 Amplifiers

a Route (38) b Route (38) hl Measuring range h2 Measuring range IO Total current The Electricity (34) 12 Electricity (34) M Measuring point U Tension &agr; Angle (33, 7) ß ₀ Angle 7.0; 23 U Angle 7.1; 42 ß ₂ Angle 7.2; 43 Z
&Sgr; total

Claims (5)

·· a ·· »mti, ..'ap;l.i89de »agisprüche 1. Device for preventing printing mechanism damage when paper webs break in rotary printing machines with a paper web drying device (13), in which a photoelectric scanning device (21, 49) signals a web break and activates a paper web catching device (8), characterized in that at least one scanning device (21; 49) for determining the position (7.0, 7.1, 7.2) or the presence of the paper web (7) is arranged within the paper web drying device (13), which is connected to the paper web catching device (8). 2. Device according to claim 1, characterized in that the scanning device (21; 49) is designed as an opto-electrical scanning device. 3. Device according to claim 1, characterized in that the scanning device (21) is designed as an infrared rangefinder. 4. Device according to claims 1 to 3, characterized in that the scanning device (21) is connected to a computer (26) via an evaluation circuit (24). 5. Establishment according to the -^atrarrtehsprüche I and 2, ..1993-04-13 characterized in that the scanning device (49) is connected to a computer (26) via an amplifier (54).