DE2621900A1 - OPTICAL THREAD GUARD - Google Patents

Description

PATENT LAWYERS

MANITZ, FINSTERWALD & GRÄMKOW

Munich, May 17th, 197P

S / ri- R 2076

MASCHINENFABRIK RIETER AG
CH-8406 Wintertbur

Optical thread monitor

The invention relates to an optical thread monitor for a textile machine for determining the presence of an in its longitudinal direction advancing yarn.

Such thread monitors are generally used in the textile industry, especially in yarn production machines such as ring spinning machines and open-end spinning machines, also in yarn processing machines such as winding machines and the like, and are generally used to monitor the proper operation of the processing parts and in an emergency, ie initiate when the thread breaks, appropriate measures, such as the processing ^£: olle remedy.

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DR. G. MANITZ · DIPL.-INC. M. FINSTERWALD DIP L.-IN G. W. GRAMKOW ZENTRALKASSE BAYER. FOLK BANKS

β MÖNCHEN 22. ROBERT-KOCH-STRASSE I 7 STUTTGART SO (BAD CANNSTATT) MÖNCHEN. ACCOUNT NUMBER 7270

TEL. (0891 22 42 11. TELEX 5-29672 PATMF SEELBERGSTR. 23/25. TEL. (0711) 66 72 61 POSTSCHECK! MÖNCHEN 770 62 - 80S

In practice, numerous thread monitors, including optical ones, are known which are able to detect the presence of of a yarn to be determined at a measuring point. With these, however, the yarn remains in the form of a stationary piece of yarn back at the measuring point, is of such a thread monitor due to the fact that there is no absence of the yarn is detected, and no thread breakage is signaled. Such thread monitors are therefore unreliable. Ss But thread guards are also known, which not only the presence, but also the forward movement of a Can determine yarn. However, the well-known "Devices of this type still have decisive disadvantages which call their practical usefulness into question.

The monitoring of a yarn moving forward in the longitudinal direction within a tube is e.g. from DOS 2.125.64-1 known. The tube has two opposite openings through which a light beam from a light source to one Photocell arrives. Because there is a thread in the tube, the light beam is partially interrupted, which is caused by the photocell is passed on as a basic signal to a downstream amplifier. Through the movements and, if necessary, fluctuations in thickness of the yarn in the tube there is also a modulation of the light energy incident on the photodetector, so that the outputs of which finally deliver a signal to the amplifier which, while the thread is running, has an amplitude-modulated component contains. This amplitude-modulated component, which makes up only a fraction of the total signal compared to the basic signal and is only decisive for the determination of the forward movement of the yarn, is used as a measuring signal that is filtered out and is amplified in the amplifier.

A major disadvantage of this monitoring device is that only a very small proportion of the photo

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cell emitted signal is available for amplification stands, i.e. it has to be amplified very strongly, which reduces the response accuracy. In addition, the is amplitude-modulated Part that does not depend on the average yarn mass, but only on the movements of the yarn in the whole beam of light and from the thickness of the impregnation of the yarn depends, the weaker, the more regular the yarn is, and, if the yarn has a very high uniformity, theoretically vanishingly small. So this way of working is especially for the monitoring of very uniform yarns, which the textile industry always strives to produce, not suitable.

Another disadvantage is the high sensitivity to soiling. When the yarn passes through the tube, the openings in the tube for the passage of the light beam are set with laser and dust particles detaching from the yarn slowly to, so that both the basic signal and the amplitude-modulated component are continuously weakened. When the openings are completely clogged, the photodetector receives no signal at all. The photodetector can no longer perceive the yarn that is still running correctly and reacts, in the absence of the amplitude-modulated signal component, as if a thread break had occurred. It is therefore missing the operational safety required for such monitoring tasks.

Another known optical yarn monitoring device for checking the presence and longitudinal movement of a Yarn, especially on draw twisting machines, consists of a metal wire bent like a pig's tail with a thread eyelet forms. The thread to be monitored is passed through the thread eyelet and circles in the, forming a thread balloon Thread eyelet so that the thread passes over every point on the inner surface. The balloon formation of the yarn occurs e.g. at

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with spinning and twisting machines working with hang and runner, when pulling a cop off over the head when unwinding, etc. Outside the thread eyelet are a light transmitter and a light receiver attached so that the transmitted light beam across sur the opening of the thread eyelet directly above the same to be led. The thread circling in the thread eyelet interrupts the thin light beam and darkens it every time it is handled the light receiver "twice per cycle of yarn, which is a sign 5-st that the yarn to be monitored has a correct one Balloon forms, i.e. that the working conditions of the processing site are fine. If a thread break occurs, the rotating yarn and the light beam are missing no longer interrupted.

The same happens if a stationary piece of thread remains in the thread eyelet.

A disadvantage to be mentioned is the sensitivity to dust, since both the light transmitter and the light receiver are free stand outside the thread eyelet and, in the case of certain dirty materials, greatly reduce the amount of dust caused by fiber and Are exposed to dirt.

The object of the invention is to eliminate the disadvantages of the above-mentioned thread monitors and to provide an optical one To create a thread monitor for a textile machine, with which the presence of a circling in an opening, in his Longitudinally advancing yarn with safety, eliminating the influence of dirt and deposits is detectable.

These goals are achieved according to the invention in an optical thread monitor for a textile machine to determine the presence of a forward moving in its longitudinal direction

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wegenden yarn with an opening for receiving a circling Yarn and one directed at a light receiver in this way Light beam that it is completely or partially interrupted by the circling yarn, achieved by a light emitting surface of the light transmitter and a das The emitted light receiving surface of the light receiver is placed on the inner surface of the opening on which they are from circumferential yarn can be coated.

Furthermore, the surfaces in the confluence of a yarn take-off pipe a rotor open-end spinning device. The surfaces can also be interchangeable Be attached to the mouthpiece.

The advantage of the optical thread monitor according to the invention is that it, thanks to the uniqueness and the constancy the strength of the pulse signals emitted by the photocell, a very reliable "monitoring of the yarn run even in very dust-endangered zones, such as the rotor housing of an open-end spinning machine or thread loops of a ring spinning machine are permitted. The uniqueness of the signals is a consequence their generation by the constant total or at least extensive short-term interruption of the light beam, while the constancy of the strength of the signals is a result of the cleaning of the measuring organs, which the yarn itself takes care of is. The optical thread monitor according to the invention is therefore self-cleaning, which is of crucial importance in an optical measuring method. When installed in open-end spinning machines the thread monitor can ideally be placed very close to the point of origin of the thread without the To make interchangeability of the confluence of the yarn take-off tube of the spinning device much more difficult.

In the case of the machines mentioned at the beginning in which a balloon forms, it does not matter in which longitudinal

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direction the yarn moves itself, i.e. whether the yarn is in its longitudinal movement extends from the narrowest point of the balloon, where the round thread loop is, towards the belly of the balloon moves or vice versa, or in which direction the thread crosses the thread eyelet that forms the balloon tip. The only decisive factor is the fact that all of these machines have a thread eyelet, which acts as a thread monitor can be executed.

Some embodiments of the device according to the invention are described below with reference to the drawing; in this shows:

Fig. Λ an optical thread monitor in a balloon-forming textile machine of a conventional type,

FIG. 2 shows the thread monitor of FIG. 1 in an enlarged perspective view,

3 shows a section of the thread monitor of FIG. 1 in Cross-section,

4 shows the thread monitor in an open-end spinning device,

5 shows a further embodiment of the thread monitor for use on an open-end spinning unit.

With various conventional textile machines, e.g. ring spinning and twisting machines, draw twisting machines, winding machines, Slip-on creels, further processing machines such as knitting machines and the like form the yarn when it is passed through ' run a so-called balloon.

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In, Fig. 1 shows a detail of a ring spinning machine, in which delivery rollers 5 and 6 are part of a not shown Drafting system are.

A connected to the machine frame 2 by means of a carrier 1, Thread loop acting as thread monitor 3 with a round hole 4- forms the passage for one from the delivery rollers 5 and 6 yarn running off 7 · After leaving the bore 4- the yarn forms under the influence of the ring and traveler (not shown) caused rotation of the downward running circumferential piece of yarn 8 that shown with the envelope 9 Yarn balloon, whose axis 10 with the axis of rotation of the spindle, not shown, on xirelcher that produced Yarn is wound, matches. The yarn balloon 9 is narrowed at the top by the extension 11 of the bore 4-. The extension 11 is designed as a rounding 12, and the yarn 7 brushes this rounding on a certain contact zone 13, where it is attached to this.

In this zone 13 there are a light transmitter 14 and a light receiver 15 · a light beam, diametrically opposite on the circumference 17 (Fig. 2) radiates against the light receiver 15? the a photodetector 18 which is connected to an amplifier (not shown) via line 16. The amplifier works on a control unit that triggers any desired process.

The light transmitter 14 consists of one in a recess 19 (Fig. 3) housed light source 20, which is a light emitting diode fed via a line 21 or an incandescent lamp can be, and from a translucent cover 22 (Fig. 3), xirelche the recess 19 closes off against the rounding 12. The curvature of the cover 22 coincides with the adjacent rounding 12. The light receiver 15 is analog

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executed. The surface of the cover 22 of the light transmitter 14 thus forms a light swept by the rotating yarn emitting surface 23, while the corresponding surface of the light receiver 15 is also painted, Light receiving surface 24 · forms.

The device works as follows:

In its circular motion, the length of yarn 13 in contact with the entire zone of the curve 12 and goes per handling once each front of the light emitting and receiving surfaces 23 and 24 respectively over. Thus, the very thinly bundled light beam 17 is completely or partially interrupted twice per revolution of the yarn piece, but advantageously always to a considerable extent. Zier photodetector 18 thus receives no or a considerably reduced amount of light twice per revolution of the yarn and can regularly emit pulses via line 16. This impulse emission is a sign that the yarn is circling in the curve 12, from which it can be concluded that the spinning station is working correctly, since balloon formation and thus the circular movement of the yarn are only possible if the yarn is present and is also moving in the longitudinal direction . If, on the other hand, a thread break occurs, the balloon formation disappears immediately.

The photodetector 18 · can therefore no longer be periodically darkened by the encircling yarn. This also applies if, how it is possible to leave a piece of yarn (a so-called yarn flag) and from the delivery rollers 5. and 6 to the hole 4 is enough. Such a thread flag no longer circles correctly along the extension 11, since it is no longer from the thread balloon is taken. In this case, too, the photocell 18 does not supply any regular pulses to the amplifier. The control unit reacts to the lack of regular impulses and, in the case of the ring spinning machine of FIG. 1, triggers the shutdown of the fiber

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infeed in the drafting system. This means that unnecessary fiber is lost avoided.

The type of reaction desired by the control unit can vary depending on the textile machine on which the thread monitor according to the invention is used a winding machine, the desired reaction consists in triggering an automatic knotting process.

It is advantageous that the surfaces 23 and 24, each once per The thread run itself is coated by the thread and consequently kept clean at all times. This happens regardless of whether the yarn consists of filaments or staple fibers and whether the processed fiber quality is good or bad, i.e. whether the Fibers are clean or very dirty. The light beam 17 therefore always retains its full intensity and the thread monitor 3 works safely and absolutely reliably.

In Fig. 4 there is shown an application of the invention to an open-end spinning device shown.

Such a system is known to consist of not shown in FIG Fiber supply organs which deliver individual fibers in an air-guiding fiber supply channel 25 (only indicated by dashed lines in Fig. 4-), from where they are conveyed into the interior of a rotating spinning rotor 26 and in a fiber collecting groove 27 in the form of a Sliver are collected. A yarn take-off tube 28, a stationary rotor lid, is also located at such a spinning station 29, in which the draw-off tube 28 is held stationary, and a pair of yarn draw-off rollers 30 and 31 are present.

The existing in the center of the lid 29 of the junction Garnabzugsrohrs 28 corresponds to the rounding 12 desFadenwächters 3 of Figures 1 to 3-dai ^4, and therefore the mouth of the Garnab-

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Zugsrohres 28 is designated by the reference number 12.

As a result of the rotation of the spinning rotor 26, the individual fibers located in the fiber collecting groove 27 are attached to the withdrawn from the spinning rotor by means of a pair of withdrawal rollers 30 and 31 32 yarn spun. The radial piece of the yarn 32 rotates at approximately the speed of the spinning rotor 26, i.e. also in relation to the stationary cover 29

During this movement, the drawn-off yarn sweeps the entire circumference of the rounding 12 of the draw-off pipe 28, i.e. the Even here, although it does not actually form a balloon, yarn performs a circular motion and is constantly cleaning the entire contact zone 13 of the rounding 12.

The detailed execution of the thread monitor according to Pig. A- corresponds completely that of FIGS. 1 to 3. The thread monitor is not freely accessible here, but inside of the spinning device, namely at the confluence of the yarn draw-off pipe 28. This position of the thread monitor in the case of an open-end spinning device, it is particularly advantageous that the yarn is monitored immediately after its formation will. Any thread breaks can be detected very quickly and the corresponding measures, such as the Shutdown of the supply organs, which remove the loose fibers in the supply channel 25 supplies must be initiated immediately.

The thread monitor according to the invention is thanks to its self-cleaning particularly advantageous for installation in an open-end spinning device, as the interior of the rotor housing is known 33 has a strong tendency to be soiled by dust, short fiber fractions, dirt, etc. The self-cleaning one The thread monitor guarantees perfect functioning and absolute reliability.

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Fig. 5 shows a further variant embodiment of the invention Thread monitor, which is also suitable for use on an open-end spinning position, and another has a further advantage over the thread monitor according to FIG.

The open-end spinning device of FIG. 5 is basically the same constructed, like that of Fig. 4-. However, it is at the confluence a separate mouthpiece 34 which can be inserted into the cover 29 and contains the thread monitor is provided for the thread withdrawal tube 28. This has the great advantage that the The diameter of the confluence and its nature, such as the radius of curvature R and the surface of the yarn touched Zone 13 of rounding 12, the processed material, the yarn number etc. can be customized. So that the mouthpiece 3 ^ - » in which the light transmitter and the light receiver are located, can be easily exchanged, is for the light transmitter and the light receiver is selected from an embodiment different from the examples in FIGS. 1 to 4.

The light transmitter consists of a light guide 35, further a light source 36 with the light emitting surface 23 connects the cross section of the light guide, which is flush with the surface of the rounding 12 is formed. The light-receiving surface is designed in the same way. The light guide 37 connects the light receiving surface 24 with one external to the housing Photo detector 38. This regularly gives pulse signals to an amplifier, not shown, which has the response function via a control unit, not shown the monitoring device can trigger. Because the surfaces 23 and 24- coincide with the rounding 12, impurities are continuously stripped off by the rotating yarn and transported away, so that this device also ensures reliable monitoring of the yarn withdrawal.

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After retracting the two light guides 35 and 37 to in the cover 29 can be withdrawn from the cover 29 in an axial view in a very simple manner and replaced by another, the two light guides 35 and 37 afterwards again up to the rounding 12 of the new mouthpiece 34- are advanced.

In addition, the light guides 35 and 37 at the separation points separable between eotor cover 29 and mouthpiece 34 be, so that when changing the mouthpiece 34- the therein

are not withdrawn have to. In Fig. 5, the separation point is indicated by dashed lines.

The light beam 17 can also be caused by such beams with wavelengths exceeding or falling below the visible spectrum be replaced.

- patent claims -

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Claims (11)

Patent claims 1. Optical thread monitor for a textile machine for detection the presence of a longitudinally advancing yarn with an opening for receiving it of a circling yarn and a light beam directed onto a light receiver in such a way that it is from the circling Yarn is completely or partially interrupted, characterized in that a light-emitting Surface of the light transmitter and a surface of the light receiver that receives the emitted light on the inner surface the opening are placed at which they can be brushed by the rotating yarn. 2. thread monitor according to claim 1, characterized in that the surfaces in a curved the zone adapted to the balloon formed by the circulating yarn. 3. thread monitor according to claim 1 or 2, characterized in that the emitting and / or the receiving Surface through the outer surface of a recess containing the light source or the light receiver Lid is formed from translucent material. 4-. Thread monitor according to Claim 1 or 2, characterized in that the emitting and / or the receiving Surface consists of the cross-sectional area of a light guide. 609883/1 095 5 · Thread monitor according to claim 4, characterized in that the light guide can be inserted and is retractable. 6. Thread monitor according to one of the preceding claims, characterized in that the surfaces mounted in the zone of the confluence of a yarn take-off tube of a rotor open-end spinning device are. 7. thread monitor according to claim 6, characterized in that the surfaces in a replaceable mouthpiece inserted into a rotor lid are attached. 8. thread monitor according to claims 4 and 7, characterized in that the light guide to the Separation points between the rotor lid and the muzzle are separated. 9. Thread monitor according to one of the preceding claims, characterized in that the light transmitter contains an incandescent lamp. 10. Thread monitor according to one of claims 1 to 8, characterized in that the light transmitter has a Contains light emitting diode. 11. Thread monitor according to one of the preceding claims, characterized in that the light receiver contains a photodetector. 609883/1095 Blank