DE3134264A1 - Device for recording the quantity of damping liquid in offset machines - Google Patents

Abstract

The invention relates to a device for recording the quantity of damping medium in offset printing machines. During the measurement, light at a particular wavelength is radiated onto the surface of the measurement location and received again at two different angles. The proportion of light received at the reflection angle is dependent on the quantity of damping medium, according to the invention the measurement being taken on a roughened surface. The proportion of light received at a different angle of about 90 DEG reacts to changes in roughness of the surface of the object measured, but not to changes in the quantity of damping medium. It is thus possible to recognise wear phenomena at an early stage without false measurements of the quantity of damping medium occurring.

Description

Device for recording the amount of fountain solution

in offset machines The invention relates to a device for measuring a dampening solution layer thickness on a dampening liquid bearing Roller or a cylinder in an offset printing machine, in which part of the under certain angle on the surface of the measuring object directed luminous flux both in the reflection angle as well as outside the reflection angle in one or more Recipients is detected.

It is known (DT-OS 2 141 247) the water layer thickness on one Object by detecting the amount of radiant energy reflected from the surface to eat. This makes use of the effect that on rough surfaces Less energy is reflected back in the reflection angle than with ideally smooth surfaces. Increasing the application of small amounts of water resembles the previously rough one Measurement surface more and more of an ideally smooth surface and this can increase reflected energy is used as a measure of the amount of water lying on the surface will.

The disadvantage of this invention, however, is that in the course of a larger print run the measuring location surface (printing plate or measuring roller) becomes smoother and then reflects more radiant energy than in the originally roughened state. This simulates a layer of water that does not actually exist is. A perfect measurement over a longer period of time is therefore not possible.

This disadvantage is solved in the present invention by that in addition to the reflected energy from the measurement site surface, radiant energy is received, which is independent of the respective water layer thickness, of the Surface roughness, however, is affected. This is achieved according to the invention The effect is that an energy portion of the at a certain angle on the measurement site surface Directed beam is received outside the reflection angle.

Is z. B. irradiated at a certain acute angle, so the amount of energy radiated at the angle of reflection serves as a measure of the water layer thickness, the outside of the reflection angle z. B. is used vertically radiated energy as a signal for possible surface wear and tear.

In an embodiment of the invention, it is also possible, in addition about the radiant energy radiated in at certain acute angles to radiate perpendicularly onto the measurement site surface and approximately perpendicularly again the remitted To receive radiation that only reacts on surfaces.

In an embodiment of the invention it is provided that the measuring range of To change the amount of water that one in the color or. Dampening system on intermediate rollers measures with different roughness. The greater the roughness, the thicker it is Layers of water can be recorded.

It is also provided that these intermediate rolls can be easily exchanged any signs of wear and tear in the surface roughness can be easily remedied.

According to a further aspect of the invention it is intended to use the device in a closed-loop control system in an offset machine.

Embodiments of the invention are explained in more detail with reference to the drawing explained.

From a surface 1 of a measuring roller in the inking or dampening system an offset machine runs along and in the wells a quantity of water 2 is located, the radiation emitted by a pulsed laser diode 3 becomes diffuse reflected. The more the wells fill with water, the more uniform and the surface 1 becomes smoother and the more radiation there is at the angle a2 = a1 is reflected in the receiver 4 and is proportional to the amount of water. Of the Receiver 5 is arranged outside the reflection angle so that the remitted Radiation is independent of the amount of water and only depends on changes in the roughness Measurement surface 1 reacts. This is achieved with an installation angle a3 of approx 900

The radiation energy received by the receivers 4,5 is in the Amplifiers 6 or 7 amplified and brought to display 8.9. The signal from amplifier 6 serves as a warning limit for signs of wear and tear on the surface and indicates when the measuring roller needs to be replaced. The signal from amplifier 7 serves as a Measure of the amount of water. The limits of resolution are reached when the Depressions in the roller surface are completely filled with water. Is that with Offset process required amount of water in such a limit area, so the Roughness of the measuring roller can be increased.

The device described provides a possibility of water layer thicknesses can be easily and reliably determined in offset machines. It has no rotating parts and is therefore almost wear-free. The main perturbing influence of the wear of the measuring site surface can be recorded and gives the printer a signal when a correct measurement is made is no longer guaranteed and when the measuring roller must be replaced. Blank page

Claims (7)

Claims 1. Device for measuring a dampening solution layer thickness on a roller carrying dampening liquid or a cylinder in an offset machine characterized in that with a roughened measuring surface of the roller or of the cylinder some of the energy radiated in at a certain angle at an angle higher Reflection, and another part is received at such an angle that is independent on the respective amount of water but dependent on the roughness of the measuring site surface is. 2. Apparatus according to claim 1, characterized in that the radiant energy which is decisive for the roughness and thus the wear and tear of the measuring location surface is received at an angle of approx. 90 °. 3 .- 'Voki-ih.n4 according to claim 1 - 2 characterized in that at Wear of the surface of the measuring roller an acoustic or optical signal appears. 4. Apparatus according to claim 1-3, characterized in that at Wear of the measuring roller this can easily be replaced. 5. Apparatus according to claim 1-4, characterized in that the Radiant energy is consumed by pulsed laser diodes or LEDs. 6. Apparatus according to claim 1-5, characterized in that about the measuring roller width several measuring devices are attached, which the dampening solution quantity distribution Acquire across the entire width of the press. 7. Apparatus according to claim 1-6, characterized in that about a control circuit regulates the amount of water.