CS217628B1 - Apparatus for evaluating and detecting defects in textile fabrics,especially knitworks - Google Patents

Abstract

In this method, the signal obtained by scanning a mechanical/physical goods parameter is evaluated (14) directly or preprocessed by algebraic addition to a delayed aggregate signal ( tau p) which is the resultant of the signals obtained from the same or at least one further transmitter (5) and the delay of which is selected in such a manner that the response to a defect appears simultaneously and in a similar shape in the added signals, the further aggregate signal thus obtained is similarly further delayed ( tau v) and added to the direct or preprocessed signal of the same or at least one further transmitter (5), this delay and adding are repeated in a selectable number of cycles, the quantity of the individual aggregate signals or of their absolute value or of their square is compared with the level (17) corresponding to the occurrence of the defect and, if this level (17) is exceeded, a defect in the goods (6) is detected. <IMAGE>

Description

The invention relates to a device for evaluating and detecting defects in textiles, in particular knitwear, provided with at least one sensor of a suitably selected mechanical-physical parameter of the fabric, eg light reflectance, transmittance, basis weight and the like, wherein the apparatus utilizes microcomputers.

The known devices currently used for evaluating and detecting defects in textiles are based mostly on the principle of highlighting a defect by a suitable sensor, while the actual evaluation and defect detection is carried out by a device containing analog circuits which evaluate a certain critical level in the sensor output signal. and

In a typical embodiment, the analog circuits consist of a sensor signal amplifier, a detection level comparator, and a reference level adjustment circuit for defect detection. The evaluation devices of most companies are based on this principle.

A disadvantage of these known analog evaluation devices is the deterministic method of evaluating and detecting defects applied to a signal that is largely random in nature. - The machine can then evaluate the fabric without defects as defective or, on the contrary, will not detect defects that actually occur. Known analog evaluation devices do not allow the use of powerful methods and algorithms for the evaluation of defects in textiles, for example, according to MS. AO no. 195 147. Furthermore, they do not allow the evaluation and detection of defects in patterned textiles.

SUMMARY OF THE INVENTION It is an object of the present invention to overcome the aforementioned disadvantages of known defect evaluation and detection devices, in particular to increase the reliability of detection and to enable the use of such devices in patterned goods using modern microcomputer technology and other modern building elements.

The object is achieved by a device according to the invention provided with at least one sensor of a suitably selected mechanical-physical fabric parameter, in which the output of each sensor is connected directly or via a multiplexer to an analog-to-digital converter, each output being connected to a microcomputer.

In a preferred embodiment, digital pre-processing circuits, which may include a satellite microcomputer and / or a direct memory access controller, are included in the connection of the analog-to-digital converters to the microcomputer. It is also advantageous to include circuits for analog preprocessing and filtration in the outputs of the sensors of the mechanical-physical parameter of the fabric.

According to one aspect of the invention, a fast arithmetic unit or fast digital multiplier is connected to the microcomputer either directly or via a controller for direct access to the microcomputer memory.

The device according to the invention can be connected to the machine on which it is installed by connecting the output of the synchronization pulses to one of the inputs of the microcomputer and by connecting one of the outputs of the microcomputer to the machine stop circuits.

According to a further feature of the invention, a controllable transmission circuit is connected upstream of the analog-to-digital converter, the control inputs of these circuits being connected to a microcomputer, which allows the signal level to be automatically maintained at a value ensuring optimum operation of the device.

The arrangement according to further features of the invention allows the device to be connected to a cooperating micro- or minicomputer, thereby enabling its inclusion in automated process control systems. For this purpose, the device is equipped with two-way communication circuits with a remote micro- or minicomputer connected to the microcomputer of the present device. In addition, the device may be connected via microcomputer inputs to the sensor outputs of appropriately selected machine parameters, for example, in knitting machines, it may be machine speed, tension, thread length or speed, presence of thread at machine checkpoint, needle integrity and the like. After processing by the microcomputer of the device in question, the parameters serve as input data for the automated process control.

To communicate with the operator of the machine, a keyboard for manual data entry and a display can be connected to the microcomputer to output data used for operating, adjusting the machine or equipment and the like.

The connection to the microcomputer of the present device according to the invention can also be used for inclusion in an automated control system. Inputs and outputs in this case are, for example, the control voltage of the main contactor of the motor, the stop button, the stops installed on the machine, etc. This connection gives the automated control system additional information such as whether the machine is running or stationary etc.

Since the device according to the invention will be used in an industrial environment characterized by a high level of interference, it is advantageously provided with a switch power supply galvanically separated from the power source, the other external cooperating circuits being galvanically separated from the device by optoelectric or inductively coupled isolating members. In this way the interference of interference into the device through the power supply and the connected external circuits is reduced.

Further advantages and advantages of the invention are apparent from the enclosed two block diagrams of exemplary embodiments, wherein Fig. 1 shows a basic embodiment of the present apparatus applied to a large-diameter knitting machine and to FIG. 2 is a more powerful version of the present device with complementary circuitry applied to a large diameter knitting machine.

According to FIG. 1, a sensor 2 of the mechanical-physical parameters of the goods, for example light reflectance, is installed on the large-diameter circular knitting machine 1. The output of the sensor 2 is connected to the input of the analog-to-digital converter 3, the digital output of which is connected to the input of the microcomputer 4. The large-diameter knitting machine 1 is further installed with a synchronization pulse sensor 5 generated by scanning the ribs 4. The output of the stop command 8 from the microcomputer 4 used to stop the large-diameter circular knitting machine 1 is connected to the control circuits 6 which control, inter alia, the main motor 7 of the large-diameter circular knitting machine 1.

Fig. 2 shows a more powerful version of the device according to the invention with additional circuits. In this case, not large diameter circular knitting machine 1, four sensors 2 of the mechanical-physical parameter of the goods, for example light reflectance, are installed. The outputs of the individual sensors 2 are connected via analog filter and preprocessing circuits 9 to an analog multiplexer 10, the output of which is connected via a controllable transfer circuit 11 to an analog-to-digital converter 3, whose output is connected to a microcomputer 4. One of the outputs of the microcomputer 4 is connected to a control input of a controllable circuit. On the large-diameter knitting machine 1, a synchronization pulse sensor 5 is further installed, the output of which is connected to another of the inputs of the microcomputer 4. The output of the stop command 8 from the microcomputer 4 is connected to the control circuits 6 of the 7 of a large-diameter circular knitting machine 1. To communicate with the operator, a keyboard 14 with a display is connected to the microcomputer 4. In order to be able to be connected to automated control systems, process parameters sensors 13 are installed on a large-diameter circular knitting machine 1, for example a machine speed sensor, a tension sensor, a length and a speed of the yarns and the like. For the same purpose, appropriately selected nodes of the control circuits 6 of the large-diameter circular knitting machine 1, for example the control voltage of the main motor contactor, the stop button, the stops and the like, are connected to the other inputs of the microcomputer 4. For communication with the automated control systems, circuits 16 are connected to the microcomputer 4 for transferring data between the microcomputer 4 and a remote micro- or minicomputer (not shown). In order to reduce the possibility of interference, the device according to the invention is provided with a switch power supply 17 with galvanic and capacitive separation from the power supply.

The function of the device according to the invention is best explained by the description of Fig. 2:

The output signals of the mechanical-physical goods parameter sensors 2 are filtered and adjusted in the circuits 9 and, after adjustment, are routed to the analog-to-digital converter 3 via the analog multiplexer 10 and the controllable transmission circuit 3. The analogue multiplexer 10 just one of the preprocessed signals. By switching the analog multiplexer 10 according to the desired sampling frequency, the output signals of all four sensors 2 are regularly sampled. The digital values of the signals output from the analog-to-digital converter 3 are stored directly into the microcomputer memory via the digital pre-processing circuits 12. 4, which performs numerical operations with the measured values of the signal samples according to a suitably selected algorithm, e.g. AO 195 147. The essence of all algorithms lies in the digital methods of detection - signals in noise. The microcomputer 4 further controls the transmission of the controllable circuit 11 so that a signal corresponding to the dynamic range of the A / D converter 3 is input to the analog-to-digital converter 3 input. If the selected algorithm detects a defect in goods, the microcomputer 4 issues a stop command to stop the main motor of the large - diameter circular knitting machine 1.

Furthermore, the microcomputer 4 receives signals from the process parameter sensors 13 and suitably selected nodes of the control circuits 6, which serve as input data for the master automated control system. The microcomputer 4 communicates with this system by means of data transmission circuits 16.

Claims (12)

OBJECT OF THE INVENTION An apparatus for evaluating and detecting defects in textiles, in particular knitwear, provided with at least one sensor of a suitably selected mechanical-physical parameter of the fabric, the signal of which is evaluated by a computer, characterized in that the output of each sensor (2) is connected directly or via a multiplexer (10) to an analog to digital converter (3), the output of each analog to digital converter (3) being connected to a microcomputer (4). Device according to claim 1, characterized in that digital pre-processing circuits (12) are integrated in the connection of the analog-to-digital converters (3) to the microcomputer (4). Device according to claim 2, characterized in that the digital preprocessing circuits (12) comprise a satellite microcomputer and / or a controller for direct memory access. Device according to claim 1, characterized in that a fast arithmetic unit or a fast digital multiplier is connected to the microcomputer (4) with a storage device directly or via a controller for direct access to the memory of the microcomputer (4). Device according to claim 1, characterized in that the output of the synchronization pulses from the textile machine on which the device is installed is connected to the input of the microcomputer (4). Device according to claim 1, characterized in that circuits for stopping the machine on which the device is installed are connected to the output of the microcomputer (4). Device according to claim 1, characterized in that a controllable transmission circuit (11) is connected upstream of the analog-to-digital converter (3), the control inputs of said circuit (11) being connected to a microcomputer (4). Device according to claim 1, characterized in that circuits for two-way communication with a remote cooperating micro- or minicomputer are connected to the microcomputer (4). Device according to claim 1, characterized in that the outputs of the textile machine technology parameters sensors (13) are connected to the inputs of the microcomputer (4). Device according to claim 1, characterized in that a keyboard (14) for manual data entry is connected to the inputs of the microcomputer (4) and the display is connected to the output of the microcomputer (4). Device according to Claim 1, characterized in that the inputs and outputs of the control circuits (6) of the textile machine are connected to the microcomputer (4). Device according to Claims 2 to 9, characterized in that the microcomputer (4) and its galvanically connected circuits are powered by a switch power supply (17) galvanically separated from the power supply, the other external cooperating circuits being separated from the microcomputer (4). galvanically optoelectric or inductively coupled separators.