DE3623898A1 - Device for detecting defects in textile threads - Google Patents

Abstract

In this device, the output of a noise amplifier (21) is connected to the control input of an electronically controllable switch (13) via a delay element (22). A control signal generator (20) for controlling the sensitivity of the thread cleaners (2) consists of an electronically controllable potentiometer (23), the control input of which represents the input of the control signal generator (20). Its output is connected to a light source (10) via an electronically controllable switch (24) whilst the control input of the electronically controllable switch (24) is connected to an adjustable feed source (25) via an electronically controllable switch (26). The control input of the switch (26) is connected to a terminal of the control unit (8) whilst the output of an amplifier (12) is connected to the input of the noise amplifier (21) via a filter (27). <IMAGE>

Description

The invention relates to a device for detection of defects on textile threads during winding for cleaning the textile threads from unwanted defects is used.

From CH-PS 4 99 451 and from Pyerfil PI-12, working principle, Maintenance II-10 is a detection device Known defects in textile threads that result from a Supply device and several connected to it in parallel interconnected electronic thread cleaners consists. The power supply is made of stabilized reference voltage sources and an electronic sensitivity regulator built for the thread cleaner. The electronic sensitivity regulator contains a reference voltage source, their first and second exit via an electronically controllable two-point switch to an input of a second electronically controllable Two-point switch is connected, the component every thread cleaner is. Only the first exit the reference voltage source is at the second input of the electronically controllable two-point switch. The output of the first electronically controllable Two-point switch is also at an input of a Comparator connected, its output with a Zero indicator is connected. The control input of the first electronically controllable two-point switch is on the Control unit output connected. Any electronic Thread cleaner contains a detector for detection errors in the textile thread resulting from a Light source and a light sensor is built that are optically coupled. The exit of the  Light sensor is electronic via an amplifier and one controllable switch to an input of a comparator connected, the second input with the third output of the reference voltage source of the sensitivity regulator connected and its output via a Integrator to the one input of a second comparator connected. The second entrance of the second Comparator is with the fourth output of the reference voltage source of the sensitivity controller connected. The output of the second comparator is to the control unit connected to a cutting device whose first exit with the entrance of the cutting device connected is. The second output is with the control input a waiting multivibrator, the first of which Output with the control input of a second electronically controllable switch and its second output with the Control input of the second electronically controllable two-point switch connected is. The exit of the second Two-point switch is connected to the input of a third comparator connected, its second input to the output an amplifier and its output with the input connected to the second electronically controllable switch is. The output of the second electronically controllable Switch is connected to the by means of a motor controller Control input of the amplifier connected. The exit of the amplifier is also connected to the second input of the Comparator of the sensitivity controller connected and via a noise amplifier with the control inputs of the first and second electronically controllable switches connected. The control input of the noise amplifier is connected to a second output of the control unit, their third output to the control input of the second electronically controllable switch connected is.  

A disadvantage of the known device is that they are unreliable, and complicated as well as frequent is to be set.

The invention has for its object a device to create defects in textile threads, which has a high reliability and their Setting is simplified.

This object is achieved by the claim described device solved.

The invention is illustrated by the in the drawing Exemplary embodiment explained. Show it

Fig. 1 shows the block diagram of a device for detecting errors in textile threads and

Fig. 2 shows in a time diagram the change in the output voltage of the amplifier with different states of the thread to be cleaned in the measuring field of the detector.

According to Fig. 1 the device consists of a supply unit 1 and a plurality of this connected, parallel with one another thread cleaners, 2.1. , 2.2,. . . 2nd i . . . 2nd n . The supply device 1 contains stabilized voltage sources (not shown in FIG. 1) and an electronic sensitivity regulator 3 for the thread cleaner 2 . i . The sensitivity regulator 3 contains a reference voltage source 4 , the first and second outputs of which are connected to the one input of a comparator 6 via an electronically controllable two-point switch 5 . The output of the comparator 6 is connected to a zero indicator 7 . The control input of the electronically controllable two-point or changeover switch 5 is connected to the output of a control unit 8 .

Each thread cleaner 2 . i contains an error detector 9 for detecting thread errors, which consists of a light source 10 and a light sensor 11 optically connected to it. The output of the light sensor 11 is connected via a series circuit comprising an amplifier 12 and an electronically controllable switch 13 to the one input of a second comparator 14 , the second input of which is connected to the third output of the reference voltage source 4 and the output of which is connected via an integrator 16 to the one input a third comparator 15 is connected. The second input of the third comparator 15 is connected to the fourth output of the reference voltage source 4 . The output of the third comparator 15 is connected to a control unit 17 , the output of which is connected to the control input of a cutting device 18 . The output of the amplifier 12 is further connected to the second input of the first comparator 6 and to the first input of a fourth comparator 19 , the second input of which is connected to the second output of the reference voltage source 4 . The output of the fourth comparator 19 is connected to the input of a control signal generator 20 . The output of the amplifier 12 is further connected to the input of a noise amplifier 21 , the control input of which is connected to the second output of the control unit 8 . The output of the noise amplifier 21 is connected to the control input of the second switch 13 via a delay element 22 . The control signal generator 20 , which is used to regulate the sensitivity of each thread cleaner 2 . i serves is constructed from an electronically controllable potentiometer 23 , the control input of which forms the input of the control signal generator 20 and the output of which is connected to the light source 10 via a third electronically controllable switch 24 . The control input of the third switch 24 is connected to an adjustable supply source 25 , specifically via a fourth electronically controllable switch 26 , the control input of which is connected to a third output of the control unit 8 . The output of amplifier 12 is connected to the input of noise amplifier 21 via a filter 27 .

The effect of the device with the thread cleaner 2.1 is as follows:

The insertion of a thread 28 into the measuring field of the error detector 9 or a change in its diameter leads to a change in the luminous flux that is emitted by the light source 10 and received by the light sensor 11 . The light sensor 11 converts the luminous flux falling on it into an electrical signal, which is amplified by the amplifier 12 . In order to neutralize the influence of slowly changing external disturbance factors on the value of the voltage U 1 of the amplifier 12 , this is fed to the one input of the fourth comparator 19 , which has a large time constant. The fourth comparator 19 compares the voltage U 1 with the voltage U 3 , which is supplied from the reference voltage source 4 to its second input. If there is a difference between the voltages U 1 and U 3 , the fourth comparator 19 controls the electronically controllable potentiometer 23 in such a way that the switch 24 supplies the light source 10 with a supply voltage which brings the voltages U 1 and U 3 to the same values. This ensures a constant sensitivity of the thread cleaner 2.1 to the diameter of the textile thread 28 . Because of its large time constant, the fourth comparator 19 does not react to rapid changes in the voltage U 1 , which are due to errors in the running textile thread 28 .

When the textile thread 28 is moved , the voltage U 1 is superimposed on electrical vibrations which are fed via the filter 27 to the input of the noise amplifier 21 . This amplifies it and closes the switch 13 via the delay element 22 , which is open when no control signal is present from the noise amplifier 21 . By means of the filter 27 , the part of the electrical vibrations which is due to the movement of the thread 28 at a speed in the working area is fed to the input of the noise amplifier 21 . In this way, vibrations obtained when the thread 28 moves slowly do not result in the switch 13 being closed .

With the aid of the delay element 22 , the switch 13 is closed after a period of time which is somewhat greater than the time constant of the fourth comparator 19 . In this way, the voltage U 1 is fed to the input of the second comparator 14 after a normal sensitivity of the thread cleaner 2.1 has been determined.

The voltage U 5 supplied at the second input of the comparator 14 corresponds to the maximum permissible diameter of the thread 28 . The second comparator 14 compares the voltages U 1 and U 5 ; the difference is fed to the input of the integrator 16 . The output voltage of the integrator 16 corresponds to the area of the longitudinal section of the textile thread 28 , which has a larger diameter than the permissible one; it is compared by means of the third comparator 15 with the reference voltage U 6 , which corresponds to the permissible error area. If the voltage at the output of the integrator 16 is greater than the voltage U 6 , the third comparator 15 sends a signal to the control unit 17 , which in turn actuates the cutting device 18 , which cuts the thread 28 .

For the normal operation of the device for detecting defects in textile threads, the sensitivity of all thread cleaners 2 is first i set depending on the diameter of the thread 28 to be cleaned and on the desired cleaning limits. This is done using the electronic sensitivity controller 3 . The control unit 8 closes the fourth electronically controllable switch 26 by means of a control signal. The light source 10 of the first thread cleaner 2 . 1 is fed by the adjustable feed source 25 . The supply voltage U 7 opens the third electronically controllable switch 26 and interrupts the connection between the electronically controllable potentiometer 23 and the light source 10 . The first comparator 6 compares the voltage U 1 with the voltage U 2 from the reference voltage source 4 . The supply voltage U 7 is regulated until the zero indicator 7 shows the correspondence between the voltages U 1 and U 2 , which ensures the correct setting of the sensitivity of the first thread cleaner 2.1 .

When a thread 28 is inserted into the measuring field of the error detector 9 of the first thread cleaner 2.1 , the voltage U 1 at the output of the amplifier 12 changes , the difference between the two values of U 1 corresponding to the normal diameter of the thread 28 . The control unit 8 switches over the electronically controllable two-point switch 5 , the comparator 6 comparing the adjustable reference voltage U 3 with the voltage U 1 . The reference voltage U 3 is regulated by means of the reference voltage source U 4 until it is equal to the voltage U 1 , which is determined by means of the zero indicator 7 . The difference between the voltages U 2 and U 3 is stored in the reference voltage source 4 ; it is used to set the reference voltages U 5 and U 6 . During the setting, the control unit 8 allows, by means of the control voltage U 4 , that the noise amplifier 21 all thread cleaner 2nd i don't close their switches 13 .

In operation the thread cleaner 2 . i the one input of its fourth comparator 19 is supplied with a reference voltage U 3 which corresponds to the normal diameter of the thread 28 , irrespective of whether it was inserted into the measuring field of the error detector 9 or not. Thus the voltage U 1 at the output of the amplifier 12 is always equal to U 3 ( FIG. 2). When the thread 28 is inserted into the measuring field of the error detector 9 , there is a sudden change in the voltage U 1 at the time t ₂ , which corresponds to a wrong error in the thread 28 with an approximately 100% increased diameter. By means of the fourth comparator 19 and of the electronically controllable potentiometer 23 is actually the value of t ₃ the voltage U 1 equal to the voltage U. 3 The thread cleaner 2 . i does not respond to this incorrect error because the electronically controllable switch 13 is open. When driving the thread 28 at the moment t ₄ , the switch 13 closes due to the action of the filter 27 of the noise amplifier 21 and the delay element 22 ; inserting a second thread 28 into the measuring field of the error detector 9 leads to the creation of a signal for the error of the thread 28 with a 100% increased diameter at the moment t ₆ . In taking out the thread 28 from the measuring field of the error detector 9 at the moment t _7, the voltage U 1 changes abruptly in the opposite direction, which corresponds to a 100 percent reduction in the diameter of the textile thread 28th

Claims (1)

A device for detecting defects on textile threads, with a supply unit (1) and several, parallel to the feed unit (1) connected electronic yarn cleaners (..... 2. 1. 2 i.. 2 n), wherein the feed device is constructed stabilized supply voltage sources and an electronic speed controller (3) for controlling the sensitivity of the yarn clearer (n..... 2. 1. 2 i.. 2) which includes a reference voltage source (4), the first and second output via a electronically controllable changeover switches ( 5 ) are connected to an input of a first comparator ( 6 ), the output of which is connected to a zero indicator ( 7 ), the control input of the electronically controlled changeover switch ( 5 ) being connected to an output of a control unit ( 8 ) and each electronic (...... 2. 2 1 2 i.. n) yarn cleaner includes a Fehlerdektektor (9) for detecting failures of the textile thread (8) composed of egg ner light source ( 10 ) and a light sensor ( 11 ), which are optically connected to one another, and whose output is connected via an amplifier ( 12 ) and an electronically controllable switch ( 13 ) to the one input of a second comparator ( 14 ), the second input to the third output of the reference voltage source ( 4 ) and the output of which is connected via an integrator ( 16 ) to an input of a third comparator ( 15 ), the second input of which is connected to the fourth terminal of the reference voltage source ( 4 ) while the output of the third comparator ( 15 ) is connected via a control unit ( 17 ) to a cutting device ( 18 ), the output of the amplifier ( 12 ) being connected to the second input of the first comparator ( 6 ) and to the first input of the fourth comparator ( 19 ) is connected, the second input of which to the second output of the reference voltage source ( 4 ) and the output of which is connected to the input of a control signal gene rators ( 20 ) for regulating the sensitivity of the thread cleaner ( 2nd 1st . . 2nd i . . . 2nd n ) is connected, and the output of the amplifier ( 12 ) is further connected to the input of a noise amplifier ( 21 ), the control input of which is connected to the second output of the control unit ( 8 ) and the output of which is connected to the control input of the second electronically controllable switch ( 13 ) is connected, characterized in that the output of the noise amplifier ( 21 ) is connected via a delay element ( 22 ) to the control input of the second electronically controllable switch ( 13 ) and the control signal generator ( 20 ) is constructed from an electronically controllable potentiometer ( 23 ), whose control input is the input of the control signal generator ( 20 ) and whose output is connected to the light source ( 10 ) via a third electronically controllable switch ( 24 ), that the control input of the third electronically controllable switch ( 24 ) via a fourth electronically controllable switch ( 26 ) connected to an adjustable source ( 25 ) is closed, and that the control input of the fourth electronically controllable switch ( 26 ) is connected to a third output of the control unit ( 8 ) and the output of the amplifier ( 12 ) via a filter ( 27 ) to the input of the noise amplifier ( 21 ).