DE3316477A1 - Device for the operational measurement of the layer thickness of the damping solution on the printing plate in the printing unit of a rotary offset printing machine - Google Patents

Abstract

For the operational measurement of the layer thickness of the damping solution on the printing plate in the printing unit of a rotary offset printing machine, in which measurement is performed by means of infrared beams of specific wavelength which are radiated onto a measuring spot on the printing plate, reflected therefrom, and pass through a window, covered by a pane (13) transparent to radiation, in an end wall opposite the printing plate, a blast air duct (14) is provided which has an exit nozzle opening (15) which opens at a rim of the pane (13) and from which a laminar air jet is emitted which is parallel to the surface of the pane. Located opposite the exit of the nozzle opening (15) at the opposite second rim of the pane (13) is an entry opening (16) which is adjoined in the device by a blast air discharge channel (17) with a low flow resistance. <IMAGE>

Description

Device for operational measurement of the layer thickness of the dampening solution on the printing plate, in the printing unit of a rotary

Offset printing machine

The invention relates to a device for industrial measurement the layer thickness of the moist means on the printing plate / te in the printing unit of a rotary offset printing machine by means of radiated onto a measurement spot on the printing plate and from this remitted IR light rays, which by a covered with a radiation-permeable pane Pass through the window in an end wall of the device opposite the pressure plate.

It is, for example, from the German patent specifications 1 303 819, 2 412 1-94 and 2 412 234 known the thickness of the dampening solution to measure on the printing plate with the help of light rays in the infrared light range. These Measurement is based on the absorption capacity of the dampening solution (Water) at certain wavelengths, so that the degree of absorption provides a measure of the coating thickness, through which the radiation has passed derived can be. It goes without saying that it cannot be allowed to be in the beam path of the measuring beam In addition to the layer to be measured, there are other layers of the dampening solution, as this results in strong falsification of the measured values appear. So it cannot be allowed that the dampening solution is on the radiation output -Inlet window of the just above the plate cylinder arranged device closing disc.

Hm ΓΊιΊ ι ndunq I shall do.shr.-i Ib the object of the fj.nq.incf to make "geririnnte device so that the disc surface of the optical window of the instrument of FeuchtmiLtel i paper dust from Bestaubunqs-I) U (I (U- as well as, from paint splashes, which could also falsify the measurement result, care must be taken, however, that the measures taken to keep the window clear do not affect the measured object itself, namely down to 1 μ extremely thin dampening agent layer on the printing plate surface is introduced.

This task is solved with the help of the characteristic Features of the main claim.

It is / was in transmission meters for measuring turbidity in the atmosphere 'for various applications üblicli, the optical window of such devices with the help an air flow to keep dirt and rainwater free, but these devices are known Measures to solve the place "in accordance with the task desweqoh unusable because they work with air currents that concentrically around the optical window and perpendicular are aligned to this. With such an arrangement would be the sensitive one in the present field of application Damp (. Agent layer on the printing plate has changed significantly., if not eliminated at all, so that no useful measurement result would be obtained.

Basically, by the measures according to the invention Blown air flow guided over the pane surface of the optical window as weakly as possible be because of the small distance of the measuring device above the printing plate on the dampening solution layer on this to take no influence, and furthermore if possible

laminar across the disc surface and into the dor the outlet nozzle opening of the blowing air supply Channel opposite inlet opening if possible Enter eddy-free, whereby it is important that the flow resistance of the blown air outflow channel as well as possible is small in order not to jam at its inlet opening and thus a reaction on the measurement spot on df-r To let arise pressure plate. In this way, with a very low overpressure when feeding the BlasJuf.t and without negative pressure in the blow air outflow channel 1 get along. The latter would be disproportionate require high technical effort.

Various advantageous measures for the development of the features according to the invention according to the main claim ■ are characterized in more detail by the features of the subclaims, their details and advantages from the description an embodiment become clear, which in the drawing in a plan view of a one-sided opened device is shown on an enlarged scale.

The device of which only the printing cylinder is shown in the drawing facing front section is shown, has in the plane of the drawing perpendicular dimension, which in the Use is directed in the circumferential direction of the plate cylinder, because of the space available on printing machines only a small extent. In the housing 11 of the device there is an apparatus 12 for generating infrared light rays certain wavelength, which is not explained in detail, and the pulsed IR rays through a front window opening of the Housing 11 set disc 13 emits on a (not shown) measuring spot on the printing plate. Of this-

MrH Γ lock remitted radiation is caused by another The area of the disk 13 is taken up again in the housing 11 and over mirror surfaces or the like. Dolektoreinrichtung supplied for evaluation. The housing 11 contains a device extending to the front end Riasluftkanal 14 constant cross-section, his Direction towards the front end of the device in a gentle curve changes so that the out of the outlet nozzle opening do.s duct 14 blowing air flowing out parallel to the pane surface and flows in a substantially laminar manner. One side of the outlet nozzle opening 15 is flush with it dfT surface of the disc 13, while the channel is against the outlet opening 15 on its the disk surface opposite side tapers at an acute angle of about 5 °. It gets that way at only a slight overpressure in the blown air duct 14

a sufficiently strong, the surface

dot disk 13, laminar air flow overflowing and hardly influenced by the rotation of the piston cylinder or h.i 1 t on, the possibly rising from the plate surface Keeps dampening solution or ink droplets from the disc 13.

Oer nozzle outlet opening 15 opposite there is a querschni t Lsgrößere inlet opening 16 of a Blasluftabströmkanals 17 which also attaches flush to the surface of the disc 13 and a sharp boundary edge 18 on the side facing away from the wafer surface has. The entire blown air flow emerging from the outlet nozzle opening 15 is taken up in this way by the opening 16 of the discharge channel 17, so that the very thin dampening solution layer on the printing plate is not affected.

Mji a qrwisrirri distance behind dor Erntrit tsof f nunq 1 u in front of φ. oßoi ι the cross section of the blown air outflow channel 17 to a multiple, whereby the desired low flow resistance is achieved, can be vrmioden through the backwater.

Preliminary searches have shown that with the invention Design of the front of the device that the window in the CJoriit vct sch I ioßendo disk 13 over long Bottrieb.szo i. ι free of dampening solution droplets that would falsify the measurement result and paint droplets can be held. A possibly penetrating the blown air screen and on the Fountain solution droplet reaching the surface of the pane is blown away or evaporated by the air flow within a very short time, so that afterwards again perfect measurement results can be obtained.

-6-

- blank page -

Claims (1)

DiFi-ING HORST MÜNLKET-L "- .." -... ^: " ^: .. ^: - .. ^: PAT EN TANWÄLtJ iLf & dpSWfil PATENT ATTORNEY BOZZARISSTRASSE 7 ■ ^ O ΐυ'ίί / 8000 MUNICH 90 TELEPHONE (089) 64 0148 P8143 / G8153 Dipl -Ing. H. Münkol - Bozzarisstrasse 7 8000 Munich 90 UNr 10fi? 91 cjrapho metronic measuring and
Regr-ltechnik GmbH + Co. KG Munich Device for operational measurement of the layer thickness of the dampening solution on the printing plate in the printing unit of a rotary Offset printing machine PATENT CLAIMS Iy device for operational measurement of the layer thickness of the Fountain solution on the printing plate in the printing unit of a rotation:, - Of f se (-.- Printing machine by means of a measuring spot on the printing plate and infrared light rays remitted by this, which pass through a with a radiation-permeable Window covered window pass through in an end wall opposite the pressure plate, marked through a blown air duct (14) with one one edge of the pane (13) of the window opens out on its outer surface, one parallel to the pane surface, outlet nozzle opening (15) emitting laminar air jet and one of the outlet nozzle opening (15) with an inlet opening (16) on the opposite second edge of the disc (13) opposite blown air outflow channel (17) with low Flow resistance. 2. Device according to claim 1, characterized in that that in each case a limitation of the outlet nozzle opening (15) and the inlet opening (16) with the surface of the disc (13) is flush. 7th ! Gorät according to claim 1 or 2, characterized GEK ο π π ζ (> ι. R h η ο t, that the blast air channel (14) against its triggering ri t tsöf fnung (15) back to its the Scheibeniibi-r f I rirlio qeqenüberl overlapping page with acute angle "or / younger q t. ■ 4th Gorät according to claim 3, characterized in that that the cross section of the blown air duct (14) before the taper is constant over a longer distance. 5. Apparatus according to claim 3 odor 4, characterized geke η η ζ ei c h η et that the acute angle is about 5 °. 6. Gorät according to one of claims 1 to 5, characterized characterized in that the cross section of the Eint ri I: tsöf l nunq (16) of the blown air outflow channel (17) Mohr frichos of the cross section of the outlet opening (15) bot protrudes. 7. Apparatus according to claim 6, characterized in that that the cross section of the Blasluftabströmkanals (17) at a distance behind its inlet opening (16) to a multiple of the cross-section of the entrance opening it expands. H. Gorät according to any one of the preceding claims, Qek ο η η ζ η et verifiable by a sharp boundary edge (18) of the tin surface of the disc facing away from the wall E ι ntrittsöf f voltage (16) of Blasluf tabströmkanals BATH ORIGINAL