DE3607968A1 - Device for recognising multiple sheets and for monitoring the layer thickness - Google Patents

Abstract

The invention relates to a device for recognising multiple sheets and for monitoring the layer thickness in treatment and processing machines. The aim of the invention is to provide a device which, with low switching expenditure, increases the sensitivity and reliability of evaluation and reduces susceptibility to disturbances. The object of the invention consists in designing the device so as to prevent the evaluation errors caused by external influences, such as mechanical shocks, vibrations and temperature changes, so that the evaluation device carries out the control function itself and the manufacturing expenditure is minimised. The object is achieved in that a device which initiates a plurality of measurements within a measurement cycle is arranged downstream of the pulse generator in the evaluation device, and the output of this former device is connected to a time evaluation circuit whose output is connected to an output circuit via a device which carries out a statistical evaluation of the measured values gained within one measurement cycle, and in that a circuit arrangement which carries out the function check of the overall device is arranged downstream of the device which serves to initiate a plurality of measurements within one measurement cycle and is arranged upstream of the output circuit. <IMAGE>

Description

Device for the detection of multiple sheets and for layer

thickness monitoring The invention relates to a device for detection of multiple sheets and for layer thickness monitoring in processing machines, especially for multiple sheet control in sheet-fed printing machines.

According to DD-PS 135.817, a capacitive control and evaluation device is known on printing machines for checking missing and / or multiple sheets, in a pulse generator a comparison circuit consisting of a first RC element with a measuring capacitor and a second RC element with a comparison capacitor is arranged downstream. By a following comparator circuit are the signal propagation times of the pulse voltage compared. There is a phase evaluation and then there are evaluation circuits arranged for missing and multiple sheets. They are used to prepare the signals in such a way that that a corresponding machine control can be carried out.

The use of this device brings about an increase in the accuracy of missing and / or multiple sheet checks on sheet-fed printing machines; what is achievable with this device is the low level of reliability due to the use of analog assemblies within the Suswert device. There is also an undesirable susceptibility to interference due to mechanical vibrations, shocks and fluctuations in the temperature of the sensor.

It is the object of the invention to provide a device that at the sensitivity and reliability of the evaluation with little circuit complexity increased and the susceptibility to interference reduced.

The technical object of the invention is the device to be designed in such a way that the evaluation errors due to external influences, such as mechanical Shocks, vibrations and changes in temperature are reduced, the evaluation device performs control functions itself and the manufacturing effort is minimized.

The object is achieved in that the evaluation device A device which effects a plurality of measurements within a measurement cycle is pulsed downstream and the output of this device with a time evaluation circuit is connected, the output of which has a statistical evaluation of the within A device taking measured values obtained in a measuring cycle and having an output circuit is connected and that the triggering of several measurements within one measuring cycle Serving facility carries out a functional check of the entire facility Circuit arrangement downstream and the output circuit is upstream.

It is advantageous for a low circuit complexity if the Time evaluation circuit consists of two monostable eultivibrators, one of which is assigned to the transducer and rather to the reference transducer.

The device is favorable for a low cost of components in that the statistical evaluation of the measured values obtained within a measuring cycle consists of a pulse counter The device taking measured values consists of a single-chip computer.

The device according to the invention ensures that the influences mechanical vibrations and temperature fluctuations are prevented as well as the susceptibility to interference is reduced by functional self-control.

The invention is intended below using an exemplary embodiment are explained in more detail. In the drawing, the block diagram of the invention Solution shown.

A pulse train is generated by the pulse generator 1, each of which Impulse triggers a measurement. The number of measurements to be made per measuring cycle is determined Measurements by the clock generator 2. The clock generator 2, designed as a pulse counter, counts the pulses and ends the measuring cycle when the specified number of Measurements. This is achieved by the fact that the pulse code generator 2 next to the Triggering of the two monostable multivibrators 5, 6 (triggering several measurements within a measuring cycle) also get to the counter module 8, which at the beginning of a new measuring cycle is brought into its starting position.

In the exemplary embodiment, the monostable multivibrator 5 is connected to the prepared input and the monostable multivibrator 6 to the clock input of the Counter module 8 switched. Deliver with every trigger by the clock 2 the monostable multivibrators 5, 6 at their outputs iron pulse, their length difference the difference in capacity, caused by different material thicknesses in Measuring capacitor 3 and comparison capacitor 4 is equivalent.

Only when the pulse of the monostable multivibrator 5 is longer than that of the monostable llultivibrator does its trailing edge act as a counting pulse for the counting module 8. Depending on how many error signals are required within a measuring cycle should be in order to trigger a machine control, a signal must be taken from the corresponding output of the counter module 8. If the reference time is changed by influencing the inner switching threshold of the monostable multivibrator 6 by means of the potentiometer 7, this causes a presetting of the difference in material thicknesses leading to the error statement. The pulse (error signal) coming from the counter module 8 is stored in a memory module 9 and used via the output circuit 10 for machine control or display. This output circuit can, for example, represent a control circuit for a BED display that is known to anyone skilled in the art.

The statistical evaluation can advantageously be carried out using a single-chip computer perform, especially due to its high clock frequency, all can be slowed down Parameter changes, such as temperature response of switching thresholds in the counting frequency, Temperature dependency of mechanical quantities, air and paper humidity as well as tolerance fluctuations the paper thickness within the batch.

In order to increase the reliability of the device, the circuit has an assembly for self-control of functionality. During the measure "O" a short low pulse is generated by the low-high edge at output IlOlt of counter module 8 derived. This pulse sets the monostable multivibrator triggered about 2 s earlier 6 back early. A high level therefore occurs only briefly at its output e up, This level means "double arc". The simulated "double arc" event therefore, if it is functioning properly, the output of the counter module 8 must be in the Switch the 'tHigh' state.

at the beginning of the next cycle, the low / high edge at the cycle input of a counting and storage module 11, the state of the named output is queried and in the number and o memory module 11 accepted. Became no (Simulated) "double arc" event detected because the circuit under test works incorrectly, a low signal is transferred to the counter and memory module and thus a "double sheet" signal is passed to the output circuit 10.

After this signal has been forwarded to the output circuit 10 the counter and memory module 11 is reset again via the reset branch 12.

Since the switching threshold of the monostable multivibrator 6 and thus the presetting is done by means of the potentiometer 7, is a remote control possible without interference. Contribution capacities and radiation from interference fields have no influence on the comparison circuit.

Reference numeral 1 pulse generator 2 clock generator 3 measuring capacitor 4 comparison capacitor 5 monostable multivibrator 6 monostable multivibrator 7 potentiometer 8 counter module 9 Memory module 10 Output circuit 11 Counting and memory module 12 Reset branch - Blank page -

Claims (4)

Claim C 1. Device for the detection of multiple sheets and for layer thickness monitoring with a pulse generator and a downstream one Comparison circuit, consisting of a first RC element with a capacitive measurement recording device and a second RC element with a comparison capacitor and a downstream one Evaluation device, characterized in that in the evaluation device the Pulse generator (i) a device effecting several measurements within one measuring cycle downstream and the output of this device with a time evaluation circuit is connected, the output of which has a statistical evaluation of the within A device taking measured values obtained in a measuring cycle and having an output circuit (10) is connected and that the triggering of several measurements within one The device serving the measuring cycle is a full capacity control of the entire device downstream circuit arrangement and upstream of the output circuit (10) is. 2. Device according to claim 1, characterized in that the time evaluation circuit consists of two monostable multivibrators (5, 6), one of which is the transducer and one is assigned to the Reierenzwertgeber. 3. Device according to claim 1, characterized in that the one statistical evaluation of the measured values obtained within a measuring cycle Device consists of a pulse counter. 4. Device according to claim 1, characterized in that the one statistical evaluation of the measured values obtained within a measuring cycle Facility consists of a single-chip computer.