DE2512539A1 - MONITORING DEVICE FOR TEXTILE MACHINERY - Google Patents

Description

Dr Iu

_{a 3} ; pl.-K.> B. OSKAR KQNIG

B =. _UTTGARTlt

Κοβι · ιβρ «· 1 Poatfacli

Deut- ·· Rani- AG S '. "-. Ron-: .r W- i-i'-V. ··

LTG

Ventilation company with limited liability Stuttgart

Monitoring device for textile machines

The invention relates to a monitoring device according to the preamble of the patent claim

In a known monitoring device of this type (DT-PS 1 6 85 886) is one of the two electrodes of the

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The sensor is galvanically connected to earth or ground and the other electrode is via a capacitor connected to one electrode of a field effect transistor. This connection of one electrode Earth or mass is in textile machines or in Machine rooms in which textile machines are located, disadvantageous, since the mass or earth often interference currents leads and also through electrostatic and electrodynamic fields occurring in the room on the electrodes Interference voltages are caused, which can lead to errors in the monitoring.

It is therefore an object of the invention to provide a to create electronic monitoring equipment in which such interference currents and interference fields do not interfere with the monitoring.

According to the invention, this object is achieved by the features specified in claim 1.

By having neither of the two metallic electrodes of the or each probe connected to earth or ground interference currents in the mass or earth can no longer have a disruptive effect on the monitoring. Spatial interference fields also no longer have a disruptive effect, because such fields both electrodes of the sensor practically evenly influence and due to the differential circuit their same-act suppression switched off so that they are in the output signal of the differential

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circuit no longer occur or at least no longer exist to a disruptive extent.

The impedance converters can advantageously be current-amplifying impedance converters, the high-resistance ones Inputs and non-ohmic outputs have. Her Current gain can suitably be on the order of Io or more.

The impedance converters can have any suitable design. It is preferably provided that they are designed as voltage-fed back operational amplifiers.

Both electrodes of the individual measuring sensor can preferably have open-circuit voltages of the same size. It is particularly advantageous if the rest voltage of electrodes are zero. Still, the electronic monitor feels sensitive the passage of thread, roving or ribbon fragments between the electrodes of the sensor, as experiments showed.

The metallic electrodes of the sensors can be of any suitable type, optionally per se have known trainings. Plate-shaped or comb-shaped designs of the electrodes are preferred intended. These electrodes can expediently be arranged so that between them the broken thread, sliver or tape to be felt

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walking through fragments.

In a preferred embodiment it is provided that at least one electrode of the sensor is made of an electrically insulating material Wall area of a line, a channel or the like. Rests, preferably as on Metal foil or sheet metal attached to the inside of the wall area in question is formed, wherein the line or the channel is used to divert broken threads, slivers or ribbons.

In general, it is useful to provide that the sensor is a line, a channel or the like. a thread, sliver or tape break suction line monitors at least one textile machine, but it can optionally also be provided that at least one sensor in front of or behind such lines or the like or at other locations at which the fiber structure is broken in the event of a break in the relevant fiber structure migrates through it deviating from its normal running direction, for example at one in front of a suction opening a suction tube lying position.

The measuring sensor will generally be conveniently located on the textile machine itself, but it can it can also be arranged at locations outside the textile machine, for example at a Suction line leading from the machine to a collecting line leads, etc.

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Although it is particularly advantageous that when a sensor is assigned to a line, the sensor is arranged within the line, it is at least in many cases also possible, to arrange it outside the line, provided that the relevant wall area of the line is permeable to electric fields.

If several sensors are assigned to a single monitoring device, they can be in an in a known manner connected in parallel to one another and connected to the inputs of the impedance converter be.

The output signal of the differential circuit varies when fiber material is passed between the electrodes of a probe passes through it, as is the case in the wake of thread-roving or ribbon breaks. This Output signal can in many cases directly for Control purposes or for display in per se known Wise used, for example. To control a relay, which the machine in question switches off, which is, for example, a line, a flyer, a ring spinning machine or the like. can act, and / or trigger an optical or acoustic signal, which an operator indicates the break in question and / or trigger other functions.

In general, however, it is advisable to

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output signal of the differential circuit not to be used directly to control a relay or the like, but continue to process it in such a way that only breaks in fiber structures and not accidentally the sensor Passing fiber balls, flakes, shell remains and the like. A control process, alarm or the like. trigger.

A filter circuit can preferably be connected downstream of the differential circuit. the The filter circuit can expediently be designed in such a way that that they are at least very low frequencies on the order of a few Hertz, at least essentially filters out. The filter circuit can preferably be a broadband filter, particularly expediently one Be a notch filter. To the filter circuit different, in practice occurring operations to be able to adapt, it can be expediently provided that they have at least two optionally switchable has different filter bands.

Tests have shown that it is in conventional textile machines, such as draw frames, flyers, ring spinning machines and the like. it is generally expedient if the filter band, or a filter band, of the filter circuit has its transmission maximum at about 40 to 60 Hz. Another cheap filter belt for such machines can have their maximum transmission at about 8o to 12o Hz. The filter characteristics of the relevant filter band can expediently correspond to a bell curve, so that the permeability of the filter for frequencies from the maximum to both sides

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drops too steadily. For example, a notch filter has such a transmission characteristic.

In general, it is also useful if the output signal of the differential circuit is preferred after previous filtering in an integration circuit with time decaying Integration value is integrated. It is preferably provided that the integration circuit has a comparator or a Threshold value circuit to be connected upstream and / or downstream, which only certain input signals Minimum amplitude lets through, or only when input signals of a certain minimum amplitude are received, output signals are preferred constant amplitude generated, or only a specific, presettable threshold value Exceeding amplitude ranges of the input signal passes. This allows everyone Filter out the output signals of the differential circuit, which only happens through the random passage of fibers, splinters, flakes or the like through one Sensor caused, i.e. not caused by a thread, roving or ribbon breakage. In fact, after breakage, a fiber structure will vieg along a path deviating from the normal path Dissolving removed, preferably aspirated, and this second way is at least one sensor assigned.

In the drawing, an embodiment of the invention is shown, with some components

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the circuit are shown only as blocks for the sake of simplicity, since the circuit structure of the components symbolized by these blocks is within the average skill of those skilled in the art.

The monitor shown is two inside a line Io which is grounded at 11 and is comb-shaped in this exemplary embodiment Electrodes 12 which are diametrically opposite one another. This line Io can, for example, be a downstream line End of a suction line of a not suction device of a textile machine shown in more detail, For example. A draw frame, a flyer, a ring spinning machine or the like. Be and in the case of one If the thread, sliver or tape breaks, the fiber structure concerned then enters the suction line, which extend, for example, along several or many or all of the workplaces of such a machine and at every such »work place an exhaust opening can have, and then passes through in flakes or deral, resolved the formed by the two electrodes / Sensing path, as a result of which unequal, rapidly varying voltages arise at the electrodes 12, which are via shielded Lines 13 are the inputs 15 of two operational amplifiers which are positive in relation to the inputs 14 16,17 are pressed, the voltages impressed on their inputs 15 without power measure up. These operational amplifiers 16, 17 serving as impedance converters are designed in exactly the same way and are supplied by a common DC voltage source (not shown) with positive and negative

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tive DC voltage via the leads 18, 19 fed. The output 21 of each operational amplifier 16, 17 is via a resistance-free galvanic line 2o voltage fed back to its input 14. As a result of this resistance-free With voltage feedback, each operational amplifier 16, 17 operates as a DC current amplifier. The current gain is expediently very high, preferably of the order of magnitude from Io. It is preferably provided that the operational amplifier does not have any voltage amplification effect, but expediently a small voltage reduction, e.g. on the Cause 0.9 times the input voltage.

The input resistance of each operational amplifier 16, 17 is high-resistance and can preferably at least loo megohms.

As a result of the same design and supply of both operational amplifiers 16, 17, both electrodes are located at rest voltage of exactly the same size, which has proven to be particularly advantageous. In some In some cases it can also be useful to provide unequal open-circuit voltages.

It can preferably be provided that the open circuit voltage of both electrodes is zero by the input 15 each of the two operational amplifiers 16, 17 to one

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Position in the operational amplifier, which is related to the positive and negative supply voltage Has zero potential.

The outputs 21 of the operational amplifiers 16, 17 are connected via resistors 22 of the same size to the both inputs 24,25 of a differential amplifier 23 (also called differential amplifier) connected, the output of which is voltage fed back to one of its inputs 25 via a resistor 26 is and on the other hand via a capacitor 27 and a resistor 28, between which a resistor 3o connected to ground is connected, capacitive to the input of a downstream amplifier stage 31 is coupled. The other input 24 of the differential amplifier is via a resistor 29, which expediently has the same resistance value as the resistor 26 connected to ground.

The capacitive coupling of the output of the differential amplifier 23 to the downstream amplifier stage 31 is used to convert the signals generated by the operational amplifiers 16, 17 and the differential amplifier 23 formed input stage 32 of the electronic circuit of the monitoring device from the downstream Galvanic isolation of stages in order to avoid any temperature-dependent and / or supply voltage-dependent voltage component of the output of the differential amplifier 2 3 off.

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The entrance to the entry level

32 is floating and symmetrical.

32 There is a very high common mode rejection in the input stage /, which results in Spatial fields or other interference fields or interference voltages evenly pressed onto both electrodes 12 The voltages in the differential amplifier cancel each other out and its output not or at most affect only insignificantly.

Since both amplifiers 16, 17 are of the same design and the two resistors 22 are of the same size the differential amplifier 23 is controlled symmetrically.

The amplifier stage 31 is a notch filter circuit 33 downstream, which is preferably designed so that it can be selectively at least two different filter bands can be switched to adapt the filtering to different conditions to be able to do this, above all, by the type of fiber structure (s) being monitored and the length of the pile the fibers, the fiber material, the relationship between the fibers, the suction speed etc. are conditional. The one filter band can expediently have a maximum passage in the range from 40 to 6o Hertz and the other filter band have their transmission maximum in the range of 8o to 12o Hertz, like

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Experiments showed. However, the invention is in no way restricted to this. It is also useful when each filter band has a bell-shaped characteristic, although other characteristics as well come into question.

In this exemplary embodiment, the filter 33 is followed by a first comparator 34, in FIG which the input signals are compared with a reference voltage and input signals that are in a predetermined direction deviate from / reference voltage, preferably exceed it, cause Output pulses of constant pulse height.

via a rectifier 4o

This first comparator 34 is followed by an integration circuit (integrator) 35, with FIG the block symbolizing this integrator shows a possible circuit as an example, and its output, as long as it is not zero, continuously decays in time according to an exponential function.

This integrator 35 can, as shown, expediently be followed by a second comparator 36, which, for example, can have a design corresponding to the comparator 34 and only one output that is more constant Has voltage when a voltage is present at its input that exceeds a reference voltage.

Instead of the comparators 34, 36, for example, threshold value detectors can be used be provided.

In this embodiment, the output is

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the! Comparator 36 is connected to a relay 37, which when an output signal of the Comparator 36 responds and, for example. At least one switch 39 closes or opens, which the Execution of one or more provided control functions is used, for example, the switching off of the relevant Textile machine in the wake of a thread, Runners or tape breakage and / or the optical or acoustic indication of such breakage and / or triggers other control functions.

The mode of operation of the monitoring device shown is readily apparent from the foregoing description. It was found to be sensitive to the passage of too Sensitive fiber structure fragments responds, while they respond to both electrodes of the sensor about uniformly applied interference voltage does not respond, so that it is safe and error-free Thread, roving or tape breaks can be felt on textile machines. On the other hand, she operates that Relay 37 not if only sporadically sucked off lumps of fiber or shell residues from the electrodes 12 or deigl. be felt.

The electrodes 12 speak, which does not need to be mentioned in particular, in a contactless manner however, it also impacts matter such as fiber structure fragments or the like.

One can also connect to input stage 32

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Connect the sensor 12 shown, other identical or otherwise designed sensors, the other suction lines or other locations on the textile machine or in special cases also monitor on several textile machines.

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Claims (17)

- 15 - Claims Monitoring device for textile machines to determine thread, sliver or Band breaks, with at least one sensor, the two spaced apart metallic Has electrodes, characterized that the two electrodes (12) of the or each measuring sensor are mass-free and unearthed Impedance converters (16, 17) assigned to inputs (15) are coupled, the outputs of which are used for common-mode rejection a differential circuit (32) are pressed. 2. Monitoring device according to claim 1, characterized in that one Electrode (12) of the or each measuring sensor to an input (15) of an impedance converter serving first DC-fed operational amplifier (16) and the other electrode (12) of the or each measuring sensor to an input (15) of one serving as an impedance converter second DC-fed operational amplifier (17) are coupled, the Output (21) of each operational amplifier (16, 17) is voltage fed back to its other input (14) is. - 16 - 609840/0894 - 16 - 3. Monitoring device according to claim 1 or 2 _r, characterized in that the voltage feedback (2o) of the two operational amplifiers (16, 17) are galvanic and low-ear, preferably free of resistance. 4. Monitoring device according to claim 1, 2 or 3, characterized in that that both electrodes (12) with the assigned inputs (15) of the impedance converter (16,17) are galvanically connected. 5. Monitoring device according to one of the preceding claims, characterized characterized in that the input resistances of the impedance converters (16,17) are at least loo Megohms. 6. Monitoring device according to one of the preceding claims, characterized characterized in that both impedance converters (16, 17) are of the same design. 7. Monitoring device according to one of the preceding claims, characterized characterized in that the open-circuit voltages of the two electrodes (12) of the sensor are equal large, preferably zero. - 17 - 609840/0894 - 17 - 8. Monitoring device according to one of the preceding claims, characterized in that that the differential circuit is designed as a differential amplifier (23). 9. Monitoring device according to one of the preceding claims, characterized characterized in that the differential circuit (23) is followed by a filter circuit (33) which filters out at least very low frequencies entirely or substantially. 10. Monitoring device according to claim 9, characterized in that the Filter circuit (33) a broadband filter is. 11. Monitoring device according to claim 9 or Io, characterized in that that the filter circuit (33) has at least two optionally switchable different ones Has filter bands. 12. Monitoring device according to one of claims 9 to 11, characterized in that that a filter band of the filter circuit (33) has its maximum transmission rate at approximately 40 to 60 Hz. 13. monitoring device according to - 18 - 609840/0894 - 18 - one of claims 9-11, characterized in that that a filter band of the filter circuit (33) is approximately its maximum transmission at 8o to 12o Hz. 14. Monitoring device according to one of the preceding claims, characterized characterized / that it has an integration circuit (35) with decaying time Has integration value. 15. Monitoring device according to one of the preceding claims, characterized characterized in that at least one stage connected downstream of the differential amplifier a comparator (34,36) and / or a threshold value detector. 16. Monitoring device according to claim 14 and 15, characterized in that that the integration circuit (35) has a comparator (34, 35) or a threshold value detector is upstream and / or downstream. 17. Monitoring device according to one of claims 9-14 and 15, characterized characterized in that the filter circuit (33) has a comparator (34) or a threshold value detector is downstream. 609840/0894