NO814160L - PROCEDURE FOR CONTROL OF SEGREGATION AND ERROR POINTS IN APPLICATION OF LEAF SHAPED GOODS - Google Patents

Description

Procedure for checking the segregation and fault locations

when supplying sheet-shaped goods

In connection with the segregation of sheet-shaped goods for further processing using machines, e.g. document sorting or mail handling, it is known to use photoelectric sensors or detectors. With such light counters, the blemish-free paper transport is monitored, as the presence and supply of just one leaf or sheet is checked at a specific time.

To check the presence of a leaf or sheet, a transillumination counter is usually used which via suitable control devices, e.g. cam switches, are switched on for a certain period of time. To check the segregation, the reduction in light intensity is measured at a further transillumination counter.

In this connection, the switching threshold is determined via a potentiometer. In the case of leaf-shaped goods with concentrated pressure, no switching threshold can be set, so to speak, with the help of the devices used.

The present invention is based on the task of providing a method which clears the aforementioned disadvantage out of the way, and which only requires a measuring device.

This task is solved according to the invention as stated in the characterizing part of the attached main claim. Further advantageous embodiments are defined in the sub-claims.

The invention will be described in more detail below with reference to the drawing which shows a schematic diagram.

In the method according to the invention for monitoring

of the segregation and fault locations, only one pair of probes 10, 11 is used, which performs the control of both the segregation and the fault locations. The probe pair 10, 11 is connected to an analog/digital converter 21 and a microprocessor 22. In this connection, the reaction sensitivity of the probes 10, 11 is automatically adapted to the respective conditions with the help of the microprocessor 22. Thus, e.g. at any change of the sheet-shaped goods 30 the pair of probes 10, 11 adjusted to the thickness of the

first leaf in a stack. This adaptation is possible in connection with arbitrarily thick leaf-shaped goods 30, as the damping resp. the reduction or the thickness change between the probes 10, 11 during the passage of a blade is all taken into account. This also provides a check for partial total damping. Photoelectric sensors are used as probes 10, 11. Capacitive or magnetic probes can also be used to measure the thickness of the leaf-shaped material 30.

The probes 10, 11 are preferably operated on a pulse basis, as a better effect is then achieved. In this connection, the microprocessor 22 is used as a clock generator, which controls the synchronization of the scanning clock.

The described embodiment can be easily expanded by the addition of further pairs of probes, as no further building elements are needed in addition to the probes. All that is needed is new addressing for the microprocessor. Such extensions allow e.g. the monitoring of inadmissible displacement during the prescribed parallel guidance of the leaf-shaped goods.

By adding a timer 41, which is connected to the transport drive 40 for the leaf-shaped goods 30, it is possible via the microprocessor to achieve a speed-independent synchronization of several stations.

Claims (7)

1. Method for checking the segregation and defect locations when supplying sheet-shaped goods to machines for further processing, characterized in that the segregation as well as defect location control is carried out using a pair of probes (10, 11), as the grinding ability resp. the thickness of the sheet-shaped material (30) is measured, the result is converted in an analog/digital converter (21) and supplied to a microprocessor (22) for processing, that the thickness of the sheet passing the probes (10, 11) is measured and stored in the microprocessor (22) as a reference value for the following leaf-shaped goods (30), and that the microprocessor (22) controls the synchronization for the probe's (10, 11) scanning rate. 2.. Method as stated in claim 1, characterized in that photoelectric sensors are used as probes (10, 11). 3. Method as stated in claim 1, characterized in that magnetic probes (10, 11) are used to measure the thickness of the leaf-shaped goods (30). 4. Method as stated in claim 1, characterized in that capacitive probes (10, 11) are used to measure the thickness of the leaf-shaped goods (30). 5. Method as stated in claim 1, characterized in that the parallel guidance of the leaf-shaped goods (30) can be controlled by the addition of further probes. 6. Method as stated in claims 1 and 2, characterized in that further stations are checked by the addition of further probes (10, 11). 7. Method as stated in claim 6, characterized in that a timer (41) which is connected to the transport device for the leaf-shaped goods (30), allows the synchronization of several stations via the microprocessor (22).