DD292076A5 - METHOD FOR OPTO ELECTRONIC MONITORING OF THREADED FIBER MATERIALS - Google Patents

Abstract

The invention relates to a method for the optoelectronic monitoring of filamentous materials and is generally applicable in the textile industry. The aim of the invention is to increase the reliability of such a process. The invention has the object of evaluating and compensating for the droughts occurring due to environmental influences. The inventive solution consists in that the width of the light pulse in the transmitter as a function of the pulse width, the temporal pulse width variation and the Impulsbreitendistanzaender the previously emitted light pulse that has undergone this as it travels the distance from the transmitter to the receiver and by evaluating the to the receiver impulses were changed. The evaluation can be carried out with the help of a microcomputer {textile industry; opto-electronic monitoring; Transmitter; Receiver; Light pulse; Pulse width; Impulsbreitenaenderung}

Description

For this 1 page drawing

Field of application of the invention

The invention relates to a method for opto-electrical! Monitoring filamentous materials and is generally applicable in the textile industry.

Characteristic dis known prior art

It is known that thread-like materials with optoelectronic sensors by means of constant light or alternating light of constant frequency übern to ^ n (DD-PS 206659). A disadvantage is that environmental influences, such as extraneous light or contamination of the sensors, adversely affect the effect of the device.

Other well-known measures to compensate these influences by means of optical filters, Weuelsellights or specially designed optoelectronic monitoring units can only be implemented with increased complexity.

Object of the invention

The object of the invention is to increase the reliability of a method for the optoelectronic monitoring of filamentary materials.

Explanation of the essence of the invention

The invention is based on the object in a method for optoelectronic Überwcchung thread-like materials in the textile industry to evaluate the occurring by environmental influences attenuations and compensate. According to the invention, this object is achieved in that the width of the light pulse in the transmitter in response to the pulse width, the temporal pulse width change and the Impulsbreitendistanzänderung the previously emitted light pulse that has experienced this when passing through the distance from the transmitter to the receiver and by evaluating the at the Receiver impulses were determined, is changed

 An evaluation is provided by means of a microcomputer.

embodiment

The invention will be explained in more detail with reference to a Ausfuhrungsbeispielf. The accompanying drawing shows a schematic diagram of a device in which the inventive method is realized.

It is assumed that in the light beam 1 between the optoelectronic transmitter 2 and the optoelectronic receiver 3 no filamentous material and no impurities are. The pulse received by the receiver 3 will essentially correspond to the pulse emitted by the transmitter 2, i. it will be a narrow pulse, since such is sufficient to signal a space between transmitter 2 and receiver 3 free of disturbing influences. This pulse should be referred to as the output pulse.

If a filamentary material is brought into the region of the light beam 1, this is attenuated and the receiver 3 produces a signal which clearly differs in its characteristic of utim emitted, since when passing through the distance between transmitter 2 and receiver 3, the pulse distance, change the pulse width and the time characteristic of the light beam 1 consisting of individual pulses. The method according to the invention consists of gradually increasing the width of the pulse emitted by the transmitter 2 until, in the receiver 3, a pulse having a pulse shape corresponding to the output pulse is received. By means of appropriate tests, certain necessary correction words can then be assigned to corresponding states between transmitter 2 and receiver 3. This can be statements about material properties (material thickness, material transparency, etc.) of filamentary material, which is located in the area between transmitter 2 and receiver 3 or even on the presence of a thread and / or dirt.

As a rule, filamentous materials are associated with thick areas and thin areas, which in the region of the light beam 1, depending on the delivery speed, modify the latter in such a way that this leads to a change in the pulse width. Similar, but of the above-mentioned clearly distinguishable changes cause impurities in the area between transmitter 2 and receiver 3. The signals generated in the receiver 3 are supplied via conventional modules, such as amplifier 4 and threshold 5 a microcomputer 6, in which by means of a read only memory. 7 stored program evaluated the received pulses and corresponding correction values are formed, which are supplied to the transmitter 2 via an output amplifier 8.

Upon the occurrence of some contamination in the area of the light beam 1, a signal "maximum attenuation" is triggered via the amplifier 9, which in turn can be used to switch on an operator request to clean the area of the thread monitor, a signal present in the output signal triggers via the amplifier 10, the signal "break" and the shutdown of the drive. The signals SIO IN and SIO OUT, read in or read out via the modules 11 and 12, are used to exchange information with the lightweight computer.

Claims (2)

1. Method for optoelectric! Monitoring thread-like materials in the textile industry, wherein a light pulse is sent from a transmitter to a receiver, characterized in that the width of the light pulse in the transmitter in response to the pulse width, the temporal pulse width change and the pulse width distance change of the previously emitted light pulse when passing through this the route from the transmitter to the receiver has undergone and has been determined by evaluating the pulses reaching the receiver. 2. The method according to claim 1, characterized in that the evaluation is carried out with the aid of a microcomputer.