DE102007059288A1 - Method and device for optical evaluation of the quality of a longitudinally moved fiber strand - Google Patents

Abstract

The invention relates to a method for the optical evaluation of the quality of a longitudinally moved fiber strand (1), in particular a yarn, and an apparatus for carrying out the method, wherein a light source (2) flashes (20, 21, 22, 23, 30, 31, 32 , 33) in the direction of the fiber strand (1) emits, wherein an evaluation section (6) of the fiber strand, which is in the detection range (13) of the flashes (20, 21, 22, 23, 30, 31, 32, 33), of at least two light flashes (20, 21, 22, 23, 30, 31, 32, 33) is detected and the at least two of the fiber strand (1) influenced light flashes (20, 21, 22, 23, 30, 31, 32, 33) with each other be linked and the thus determined signal for evaluating the quality of the fiber strand (1) is evaluated.

Description

The The invention relates to a method for optically assessing the quality a longitudinally moved fiber strand, in particular a yarn, wherein a light source flashes light in the direction of the fiber strand emits, each with an evaluation section of the fiber strand is detected by a flash of light and where the light from the fiber strand is influenced and influenced by the fiber strand light to Evaluation of the quality of the fiber strand is evaluated.

Further The invention relates to a device for implementation of the method, wherein a light source with a control unit to do so is designed to emit light flashes in the direction of the fiber strand, wherein between the light source and the fiber strand a diaphragm so is arranged that a flash of light only one evaluation section of the fiber strand detected and at least one photosensitive Sensor is present, with which the fiber strand influenced light measurable, with an evaluation unit to assess the quality of the fiber strand on the basis of the fiber strand influenced and means the light-sensitive sensor measured light is present.

method and devices for optically assessing the quality Yarns are used, for example, in spinning and winding machines. In this case, for example, impurities, such as foreign fibers, or Variations in the diameter of the yarn, ie thick or thin spots, be recognized. Such faults can then by means of a supplementary device are removed. So be with Winding machines cut out the flaws and the thread ends are reconnected by splicing. In Open spinning machines, the spinning process by stopping the sliver supply interrupted and the thread end after removing the flaw new pieced. Devices for detecting defects in yarns are also referred to as cleaners. So can the Data of the cleaner below the triggering threshold for a fault clearance, for classification the yarn quality can be used.

Independently whether a yarn or other sliver is evaluated the evaluation on the capture and evaluation of the direction of the Sliver emitted and influenced by the sliver light. In this case, the light reflected from the sliver light in particular information about Give impurities of the sliver. That of a sliver transmitted light can be used for diameter determination become.

The DE 698 17 599 T2 describes a device for monitoring the quality of cotton fibers from a ginning plant. The light is not continuously blasted in the direction of the fiber material, but a pulsed light source generates Lichtimpluse or light flashes, which are directed against the fiber sample. The clocking of the light source has the particular advantage that the life of the light source increases significantly.

The DE 100 09 131 A1 discloses a method for the optical detection of impurities, in particular foreign fibers, in longitudinally moved yarn, wherein light is also emitted at a predetermined clock frequency in the direction of the yarn. The measurement signals, that is to say the transmitted and the remitted light, are correspondingly detected at a predetermined clock frequency. The light transmitted by the yarn is measured to determine the diameter. The light remitted by the yarn depends on the one hand on impurities in the yarn and on the other on the diameter. In order to compensate for the diameter influence in the remission signal, according to the DE 100 09 131 adjusted the intensity of the emitted light in the direction of the yarn.

The DE 10 2005 053 037 A1 discloses a method for detecting dirt in a fiber strand moved in its longitudinal direction, wherein light reflected from the fiber strand is detected by a line sensor and based on the detected reflected light with a predetermined clock frequency successively line-shaped images of each located in the detection range of the line sensor portion of Fiber strands are generated. For this purpose, pulsed light can also be irradiated against the fiber strand, wherein the pulses are synchronized with the generation of the line-shaped image. Furthermore, the speed of the fiber strand is continuously recorded and taken into account when specifying the clock frequency and / or in the evaluation of the line-shaped image. By considering the speed an exact and statistical statement about the amount and the distribution of the dirt along the sliver is possible.

The DE 10 2005 053 037 A1 further describes the possibility that the imaged sections of the fiber strand overlap in the longitudinal direction. This results in at least a partial redundancy of the line-shaped mappings. But even with overlapping evaluation sections, each individual line-shaped image is evaluated by a simple comparison with predetermined threshold values.

Due to random disturbances, which are not caused by changes in the quality of the yarn, inaccuracies occur in the measurement of the light affected by the sliver light. The disturbance variables thereby superimpose the actual measurement signal and lead to a so-called measurement noise.

outgoing From the aforementioned prior art, the invention is the task basis, the measurement noise in the optical evaluation of the quality to reduce a fiber strand.

These The object is achieved by the characterizing Features of the method claim 1 and the device claim 7 solved. Advantageous developments of the invention are the subject the dependent claims.

to Solution of the task is suggested that at least a second flash of light captures the evaluation section as far as possible and to evaluate the quality of the evaluation section of the fiber strand which influenced at least two of the fiber strand Light flashes are linked together. By the generation a plurality of measured values to an evaluation section of the sliver and the link to a quality of the evaluation section characterizing value is statically the influence of Disturbance and thus the measurement noise reduced. The noise is reduced all the more, the more measured values are linked together. The noise reduction Also occurs when the flashes of light that interlink Are based on measured values of the light influenced by the sliver, do not exactly hit the same evaluation section. This is inevitably the case, because the fiber material in the longitudinal direction emotional. To an unnecessary and measuring accuracy reducing To avoid blurring of the evaluation sections, the flashes of light to be used for Evaluation of an evaluation section of the sliver can be used be done very short in a row, so that thereby the maximum Number of metrics that are linked together limited is.

to Evaluation of the following lengths remains advantageous the number of flashes of light, per evaluation section in the direction of the sliver emitted, influenced by the sliver and for evaluation be linked together, regardless of the Speed of the sliver constant. This will be the duration between the at least two flashes of the evaluation section and the at least two flashes of the following evaluation section adjusted depending on the speed. So will ensured that per unit length of the fiber strand a constant number of flashes of light hits the fiber strand and the Lichtblitzsequenz from the at least two flashes of light can be designed. It also ensures that the noise component over the entire length of Sliver remains constant.

Around a simple embodiment of the invention To obtain the procedure, the period of time between the at least two Flashes of light, the evaluation of the evaluation of the sliver be used, regardless of a change the speed of the fiber strand remain constant.

The Period of time between the first and last of the at least two flashes of light is preferably less than 20% of the time that an evaluation section at the maximum occurring speed of the fiber strand requires to go through the detection range of the flashes of light.

In A preferred embodiment of the at least two light flashes affected by the fiber strand used for evaluation linked to the quality of an evaluation section of the fiber strand are made, an average. This can then be used for evaluation the quality of the fiber strand compared with a reference value become.

Farther To solve the problem, a device for optical Evaluation of the quality of a longitudinally moved fiber strand for carrying out the inventive Method proposed, wherein a light source with a control unit is designed to light flashes in the direction of the fiber strand emit, being between the light source and the fiber strand a diaphragm is arranged so that a flash of light only one evaluation section of the fiber strand detected and at least one photosensitive Sensor is present, with which the fiber strand influenced light measurable, with an evaluation unit to assess the quality of the fiber strand on the basis of the fiber strand influenced and means the light-sensitive sensor measured light is present. According to the invention, the light source with the control unit designed to emit at least a second flash of light, that this largely covers the same evaluation section and the evaluation unit is adapted to the at least two Fiber strand affected light flashes to assess quality the evaluation of the fiber strand to link together.

In a preferred embodiment of the device according to the invention, the control unit of the light source is designed to keep constant the time duration between the at least two light flashes used to evaluate the evaluation section of the fiber sliver, independently of a change in the speed of the fiber strand. As mentioned earlier, the time between flashes should be as short as possible. The lower limit for this period of time is due to the cycle times of the evaluation unit and the control units of the Light source determined.

advantageously, the control unit of the light source is adapted to the duration of time between the at least two flashes of the evaluation section and the at least two flashes of the following evaluation section depending on the signals of the speed sensor adapt.

The Light source with the control unit is preferably designed that the period between the first and last of the at least two flashes of light is less than 20% of the time, the an evaluation section at the maximum occurring speed of the fiber strand needed to that defined by the aperture To pass through the detection range of the flashes of light.

In an advantageous embodiment of the invention Device is the evaluation designed to be from the at least two affected by the fiber strand and the photosensitive Sensor measured light flashes used to evaluate the quality an evaluation section of the fiber strand by means of the evaluation unit be linked to form an average. The mean is to evaluate the quality of the fiber strand by means of Evaluation unit comparable to a reference value.

The Invention is described below with reference to an illustrated in the drawings Embodiment explained in more detail.

It demonstrate:

1 a device according to the invention for the optical evaluation of the diameter of a yarn;

2 the time sequence of the flashes of light for a yarn speed v ₁ ;

3 the time sequence of the flashes of light for a yarn speed v ₂ .

1 shows an inventive device for the optical evaluation of the quality of a yarn 1 which is moved at the speed v in the longitudinal direction. Such devices are used for example in rotor spinning machines. The winding speed of the yarn 1 lies between 40 and 200 meters per minute. The speed v of the yarn 1 is by means of the speed sensor 4 measurable. The yarn quality evaluation device comprises a light source 2 , here a white light diode, on, the light direction of the yarn 1 emitted. One between the white light diode 2 and the yarn 1 arranged aperture 5 , determines the detection area 13 the light source. The yarn section lying in the detection range of the light source forms the current evaluation section 6 of the yarn 1 , The photosensitive sensor 7 , here a photodiode, is arranged to be that of the yarn 1 Transmitted light detected and thus allows a statement about the diameter of the yarn. Alternatively or additionally, a photodiode can also be arranged so that it detects the light reflected by the yarn in order to enable detection of impurities. In contrast, measures are still required to compensate for the diameter influence in the reflection signal.

The 2 and 3 show the timing of the light source 2 emitted light flashes for a yarn speed v ₁ and a yarn speed v ₂ , wherein the speed v _{1 is} greater than the speed v ₂ . Each bar on the time axis t symbolizes a flash of light.

The control of the light source 2 to generate the flashes of light by means of the control unit 3 that have a control line 9 connected to the light source. Via the control line 10 receives the control unit 3 the signals of the speed sensor 4 , The control unit 3 can be realized as ASIC or as FPGA. In the illustrated embodiment, it is part of a microprocessor control 12 which takes over the control of the entire quality evaluation device and via a control line 14 is connected to a higher-level control. The evaluation unit 8th the photodiode 7 is also part of the microprocessor control 12 and over the control line 11 with the photodiode 7 connected.

To evaluate the quality of the yarn moved at the speed v ₁ , a first flash of light is produced 20 sent to an evaluation section of the yarn. A second flash of light 21 which is sent out shortly thereafter essentially meets the same evaluation section of the yarn. The light of the first flash of light influenced by the yarn 20 and the second flash of light 21 is from the photosensor 7 recorded and in the evaluation unit 8th linked to a mean value. The mean value thus generated is then compared with a reference value for the evaluation of the evaluation section. The reference value can also be an average, which is determined from a larger yarn length. To evaluate the following yarn section is again a first flash of light 22 and a second flash of light 23 sent out in the direction of the yarn and analogously averaged.

The 3 shows the corresponding Lichtblitzfolge at a lower yarn speed v. ₂ Accordingly, for the same length Auswer sections of the slower running yarn first flashes of light 30 . 32 and second flashes of light 31 . 33 sent.

The time interval between the first flashes of light 20 . 22 . 30 . 32 and the second flashes of light 21 . 23 . 31 . 33 remains constant regardless of speed and in the illustrated embodiment is between 30 and 100 microseconds. The time interval between the second flash of light 21 . 31 and the first flash of light 22 . 32 the following evaluation section is from the control unit 3 adjusted depending on the measured yarn speed. The number of light flashes per unit length and thus in particular per evaluation section is therefore constant.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 69817599 T2 [0005]
• - DE 10009131 A1 [0006]
• - DE 10009131 [0006]
• - DE 102005053037 A1 [0007, 0008]

Claims (12)

Method for optical evaluation of the quality of a longitudinally moved fiber strand ( 1 ), in particular a yarn, wherein a light source ( 2 ) Flashes of light ( 20 . 21 . 22 . 23 . 30 . 31 . 32 . 33 ) in the direction of the fiber strand ( 1 ), wherein in each case an evaluation section ( 6 ) of the fiber strand from a flash of light ( 20 . 22 . 30 . 32 ) and the light from the fiber strand ( 1 ) and that of the fiber strand ( 1 ) influenced light for evaluating the quality of the fiber strand ( 1 ), characterized in that at least a second flash of light ( 21 . 23 . 31 . 33 ) as far as possible the same evaluation section ( 6 ) and to evaluate the quality of the evaluation section ( 6 ) of the fiber strand ( 1 ) the at least two of the fiber strand ( 1 ) influenced light flashes ( 20 . 21 . 22 . 23 . 30 . 31 . 32 . 33 ) are linked together. Method according to Claim 1, characterized in that the time duration between the at least two flashes of light ( 20 . 21 . 30 . 31 ) of an evaluation section ( 6 ) and the at least two flashes of light ( 22 . 23 . 32 . 33 ) of the following evaluation section ( 6 ) is adjusted as a function of the speed, so that per unit length of the fiber strand ( 1 ) a constant number of flashes of light ( 20 . 21 . 22 . 23 . 30 . 31 . 32 . 33 ) on the fiber strand ( 1 ) meets. Method according to claim 1 or 2, characterized in that the time duration between the at least two flashes of light ( 20 . 21 . 22 . 23 . 30 . 31 . 32 . 33 ) used to evaluate the evaluation section ( 6 ) of the sliver, regardless of a change in the speed (v) of the fiber strand ( 1 ) remains constant. Method according to one of the preceding claims, characterized in that the time period between the first ( 20 . 22 . 30 . 32 ) and last ( 21 . 23 . 31 . 33 ) of the at least two flashes of light is less than 20% of the time that an evaluation section ( 6 ) at the maximum occurring speed of the fiber strand ( 1 ) is required to go through the detection range of the flashes of light. Method according to one of the preceding claims, characterized in that from the at least two of the fiber strand ( 1 ) influenced light flashes ( 20 . 21 . 22 . 23 . 30 . 31 . 32 . 33 ) used to assess the quality of an evaluation section ( 6 ) of the fiber strand ( 1 ), an average is formed. Method according to claim 5, characterized in that the mean value for evaluating the quality of the fiber strand ( 1 ) is compared with a reference value. Device for optically evaluating the quality of a longitudinally moved fiber strand ( 1 ), in particular a yarn, for carrying out the method according to one of claims 1 to 6, wherein a light source ( 2 ) with a control unit ( 3 ) is adapted to flashes of light ( 20 . 21 . 22 . 23 . 30 . 31 . 32 . 33 ) in the direction of the fiber strand ( 1 ), whereby between the light source ( 2 ) and the fiber strand ( 1 ) an aperture ( 5 ) is arranged so that a flash of light ( 20 . 22 . 30 . 32 ) only one evaluation section ( 6 ) of the fiber strand ( 1 ) and at least one photosensitive sensor ( 7 ) is present, with which of the fiber strand ( 1 ) influenced light is measurable, wherein an evaluation unit ( 8th ) for evaluating the quality of the fiber strand ( 1 ) on the basis of the fiber strand ( 1 ) and by means of the photosensitive sensor ( 7 ) measured light, characterized in that the light source ( 2 ) with the control unit ( 3 ) is adapted to at least a second flash of light ( 21 . 23 . 31 . 33 ) so that this largely the same evaluation section ( 6 ) and the evaluation unit ( 6 ) is adapted to the at least two of the fiber strand ( 1 ) influenced light flashes ( 20 . 21 . 22 . 23 . 30 . 31 . 32 . 33 ) for evaluating the quality of the evaluation section ( 6 ) of the fiber strand ( 1 ). Device according to claim 7, characterized in that the control unit ( 3 ) of the light source ( 2 ) is adapted to the duration of time between the at least two flashes of light ( 20 . 21 . 22 . 23 . 30 . 31 . 32 . 33 ) used to evaluate an evaluation section ( 6 ) of the sliver ( 1 ), regardless of a change in the speed (v) of the fiber strand ( 1 ) to keep constant. Apparatus according to claim 7 or 8, characterized in that the control unit ( 3 ) of the light source ( 2 ) is adapted to the duration of time between the at least two flashes of light ( 20 . 21 . 30 . 31 ) of an evaluation section and the at least two flashes of light ( 22 . 23 . 32 . 33 ) of the following evaluation section as a function of the signals of a fiber strand velocity measuring speed sensor ( 4 ). Device according to one of claims 7 to 9, characterized in that the light source ( 2 ) with the control unit ( 3 ) is designed such that the time period between the first ( 20 . 22 . 30 . 32 ) and last ( 21 . 23 . 31 . 33 ) of the at least two flashes of light is less than 20% of the time that an evaluation section ( 6 ) at the maximum occurring speed (v) of the fiber strand to the through the aperture ( 5 ) ( 13 ) complete the flashes of light. Device according to one of claims 7 to 10, characterized in that the evaluation unit ( 8th ) is formed from the at least two of the fiber strand ( 1 ) and by the photosensitive sensor ( 7 ) measured light flashes ( 20 . 21 . 22 . 23 . 30 . 31 . 32 . 33 ) used to assess the quality of an evaluation section ( 6 ) of the fiber strand by means of the evaluation unit ( 8th ) to form an average. Apparatus according to claim 11, characterized in that the evaluation unit ( 8th ) is set up to calculate the mean value for evaluating the quality of the fiber strand ( 1 ) with a reference value.