DE1535609C - Device for monitoring several threads of a thread processing textile machine - Google Patents

Description

The invention relates to a device for monitoring a plurality of threads in a thread processing unit Textile machine in which a photoelectric scanning device is provided and each thread is inserted Element is assigned that is under the influence of the thread tension in a first, outside of the light beam path the photoelectric scanning device located position is held and in the absence of the Thread tension enters the light beam path.

In a known arrangement of this type (U.S. Patent 2 557 533) a stationary light beam is provided which falls on a photocell. at Ripped thread dips into this one bundle of light one of several flags, which are normally is kept out of the beam path by the thread tension. So the element here is a flag that interrupts the beam.

Weft thread monitors for weaving machines are also known (German patent specification 876 679), in which in the shooter a mirror is pivotably mounted, which of the thread tension in a in most position and resiliently folds into a second position as soon as the thread tension is removed, be it because the thread has broken, be it because the thread has been used up. The mirror is through a scanned photoelectric scanning device, and as soon as the mirror reaches the second position, the photoelectric scanner a signal. The mirror is a simple plane mirror there, and that Photoelectric device conducts in said second position of the mirror in a V-shaped beam path a light beam from a light source via the mirror onto a photocell.

The first device sets a certain order of the thread guides and the light barrier serving flags, which cannot be implemented constructively everywhere. The second arrangement allows only a single thread to be monitored. It also implies a fairly strict compliance a certain mutual position of light source, mirror and photocell precedes when the light beam actually hit the photocell via the mirror. target. Because of the strong on a web shooter Occurring shocks can result in a misalignment of the mirror and the weft thread monitor unusable will.

Weft coil monitors are also known in which the coil is provided with a reflective surface is. This reflective surface is normally used by the thread wound on the bobbin covered but released as soon as the thread is almost completely unwound. From a light source Then a bundle of rays falls over the reflective surface onto a photocell and triggers the sienal (German patents 600 330 and 850 730). It is already known, instead of the reflective surface to use a reversing reflector, which incident light always essentially in its direction of incidence throws back. Then slight positional deviations of the coil and reversing reflector do not have any disturbing influence on the beam path. In a known arrangement (Swiss patent specification 327 491), the light source and photocell are arranged close together. It becomes the appearance exploited the fact that, as a rule, there is no exact reverse reflection, so that a certain amount of scattered light also occurs is reflected in the vicinity of the light source. Instead, however, there is also an autocollimation beam path known, in which the reflected light beam by partially transparent means, z. B. a semi-transparent mirror, is deflected onto a photocell (German Patent 952 155). These well-known weft bobbin monitors only respond to the unwinding of the thread, i.e. they indicate when the thread runs out. But they do not give a signal if the thread breaks.

In addition, there are also weft thread monitors with a photoelectric scanning device known (French patent specification 1 268 254), in which a beam from a light source goes out, which by means of a rotating polygon mirror periodically via a to the weft thread parallel plane is performed. The beam is focused in the plane of the weft thread and falls on a reversing reflector arranged behind it, so that it is thrown back into itself. In front The light source is a partially transparent mirror arranged, which the returning beam steers sideways onto a photocell. As long as the weft thread is present - even if it is something moves out of its target position - the photocell delivers periodic dark pulses. These fall away when the weft thread breaks or fails to appear. However, this arrangement presents certain optical difficulties. Namely, it must be focused the moving light beam that it the weft thread, its Can fluctuate somewhat, essentially captured with its focal point. Otherwise the Percentage weakening of the bundle by the thin thread is too small, so that none is sufficient would result in clear dark impulses. In addition, a separate one must be used for each weft thread Light curtain can be provided with a periodically movable beam. the Weft thread delivers an impulse with each pass. If the weft thread breaks, there are no impulses more. This can distinguish the photoelectric device. But she cannot distinguish well whether two or more impulses come with each pass or one is missing, which she should do, if you wanted to monitor several threads at the same time with a light curtain. To do this would be a counting device for the pulses is required, which makes the device extremely complicated would. A moving light beam is necessary because the position of the weft thread is within certain limits can vary.

The invention is based on the object of creating a photoelectric thread monitor by which with a single photoelectric scanning device several mutually arbitrary Threads can be monitored.

This object is achieved in that the elements are reversing reflectors that the photoelectric Device works according to the autocollimation principle and that in the beam path of the photoelectric Scanning device movable mirrors are arranged through which the light beams in periodic Distances are guided along a path in which the Umkchrreflectors when the thread tension is removed are arranged.

The use of reversing reflectors ensures that when the reversing reflector is folded out the light in any case and thrown back into itself from every inverting reflector

Claims (3)

3 4 is and passed to the receiver of the photoelectric, so that there is a field of view in which the Scanning device falls. three web shooters 1, 1 ', 1 "are located, periodically There can be no misalignment. But it will be canceled. It meets the three one after the other especially possible to use several threads with a shuttle 1,1 ', 1 "with the reverse refiecto- Monitor scanning device. In contrast to 5 ren 7, 7 ', 7 ". As long as the thread pull continues, the the known, with a moving light bundle ar- reversing reflector 7 from the beam path of the beam beitenden scanning arrangement, in which the pulses lenbündels 12 pivoted out (Fig. 2). As soon as are supplied by the thread itself, but if the weft thread 3 breaks or falls away, it works of the arrangement according to the invention only then pulses reversing reflector 7 into the beam 12 into it generated (by the corresponding reversing reflector); io (Fig. 3) and reflects this in itself so that if there is no thread at the scanning point. it falls back onto the partially transparent mirror 13, As long as all threads are correctly present, which one receives a part of the beam to the photo one no signal. If one of the threads breaks, cell 15 (Fig. 1) will let through. if the corresponding reversing reflector reaches into the beam, a signal is generated in the photocell, as long as and there is a signal. 15 soon the thread will fall away. The invention can be used with advantage if the reverse spinning machines are spun together in all three shuttle shuttles 1, 1 ', 1 ", which are used to monitor threads that are still present in a thread tension. Reflectors 7, T, 7 "So that shown in FIG Patent protection is only granted for the entirety of the situation, then the photocell generates 15 Main claim characterized individual features 20 no signals. But as soon as z. B. one of the shooting claimed. the thread is torn and the associated reverse spot Some embodiments of the invention are in a position according to FIG. 3, generates the shown schematically in the drawing and in the photocell 15 each time it is passed over it described below. It shows reversing reflector a signal and thereby triggers one 1 shows a shuttle with a built-in switching process suitable for switching. kehrreflektor, Fig. 5, 6 and 7 show another application, F i g. 2 and 3 on an enlarged scale by namely in spinning machines. There are the thread tension pivotable reverse reflective plurality of threads to be spun together tor at the shuttle according to FIGS. 1, 17, 17 ', 17 ". Each of these threads runs Fig. 4 - the scanning of three healers, at 30 over a roller 18, 18 ', 18 ", which on a one-sided which the reversing reflector in the manner of FIG. 2 mounted L-shaped lever 19,19 ', 19 "is mounted. and 3 is mounted, a spring 20 engages on each of the levers 19, 19 ', 19 ", F i g. 5 the thread monitoring at spinning machines 10 ', 10 ", which counteracts the thread tension. On machines, the lever 19,19 'or 19 "sits a reverse 6 shows a partial cross-section of FIG. 5 35 reflector 21, 21 ', 21 ". and the lever 19, 19 'or 19 "in the one shown in FIG. 7 F i g. 7 the position of the reversing reflectors is kept intact in the position shown. In the event of a thread break ten threads. if the lever 19 folds into the position which in 1 (FIG. 1) denotes a weaver, in FIG. 5 is shown. A not shown, which a weft reel 2 is arranged. The 40 photoelectric scanning device of the above-described the weft bobbin 2 unwound weft thread 3 is of that kind now sweeps over a polygon About a roller 4 and through a hole 5 to the outside mirror 16 with the beam 12 the whole guided. Field of view, similar to that in FIG. 4. As soon as one As can be seen in Fig. 2 and 3, the reversing reflectors 21, 2Γ, 21 "sits with its base roller 4 on an angle lever 6, on the other 45 surface approximately perpendicular to the direction of the beam arm a reversing reflector 7 is provided The bundle of rays 12 is under the influence of a spring 8, as is the case with a thread breakage lever 6, which is the case when the bundle of rays 12 which counteracts the tension of the weft thread 3 is thrown back into itself and the photocell delivers the lever 6 there is a signal in a breakthrough 9 in the wall at every passage,
Training of the web shuttle 1 is provided. As long as the 50 An upstream cylindrical lens 22 is used to ensure weft thread 3 is present and intact, the intensity on the reversing reflectors 21, 21 ', 21 "overcomes the tension of the thread 3, the spring 8. The lever, so that stronger signals result remains in the position shown in Fig. 2. and also at distances of several meters, but if the weft thread 3 breaks, as in Fig. 3, enough light still hits the photocell,
is shown, the lever 6 pivots under the input 55 flow of the spring 8 counterclockwise in the claims:
Position shown in Fig. 3, in which the base of the reversing reflector 7 is flush with the wall of the 1st device for monitoring multiple shuttle 1. Threads of a thread-processing textile machine The stationary photoelectric machine having a photoelectric scanning device contains a lamp 11, from which device is provided and a beam of rays 12 emanates from each thread, which is assigned via a partial element that is under the influence transparent mirror 13 deflected and by one of the thread tension in a first, outside of the Optics 14 is bundled. Light beam path of the photoelectric scanning To the weft threads of several healers 1, Γ, 1 "65 facility located position is held and with a single photoelectric scanning device when the thread tension in the light is removed monitoring at the same time, the beam path is reached, thereby identifying bundle 12 on a rotating polygon mirror 16 records that the elements Umkehrreflek- I 535 609 gates (7, 7, 7 "or 21, 21 ', 21") are that the photoelectric device (11 to 15) works on the autocollimation principle. and that in the beam path of the photoelectric scanning device (11 to 15) movable mirrors (16) are arranged through which the light beams are guided at periodic intervals along a path in which the reversing reflectors (7, T, 7 "or 21, 21 ', 21 ") are arranged. 2. Apparatus according to claim 1, characterized in that it is used for monitoring Threads (17, 17 ', 17 ") are used, which are spun together in a spinning machine. 1 sheet of drawings