CS200535B2 - Device for adjusting the parameters characterizing the defects kinds,quantity and length of electric yarn cleaners - Google Patents

Abstract

On spooling machines in the textile industry, a multiplicity of yarn cleaners (3) is used the operating thresholds of which with respect to the error quantities, for example length and diameter, are to be made centrally adjustable. This adjustment by means of electrical signals requires at least one control line to each cleaner which results in considerable installation costs in the case of extensive systems. The yarn cleaners are equipped with electronic memories in which predetermined signal levels can be stored as reference values. All memories of a group of yarn cleaners can be set such a signal level by means of a signal line (5) common to all yarn cleaners, for which the transmission of a pulse code via the signal line (5) is sufficient. Using an additional address code, the control line can be utilised for driving various pulse receivers. <IMAGE>

Description

The invention relates to a device for adjusting parameters characterizing the types of defects, the size of the defects and the length of the defects in the electronic yarn cleaners.

Electronic yarn cleaners are known devices which are generally used on bobbin machines and through which the yarn passes, the cross-section of the yarn is measured and the cutting device is interrupted when defects occur. The cutting device is controlled by an electronic yarn cleaner. Defect yarn up. removes. and the cut yarn is rebound.

Yarn cleaners are generally used on spool machines or spool machines with multiple spool locations. These yarn cleaners are connected to the power supply and adjustment devices, with either all yarn cleaners of a single bobbin machine or only groups, for example ten yarn cleaners, connected. to one such power and adjustment device. The power supply is necessary for the operation of the cutting unit and for measuring and evaluating electronic devices in the yarn cleaner. '

In order for the electronic yarn cleaner to remove only those yarn defects that are really necessary to be removed, an appropriate sensitivity setting must be made. The adjustment options may relate, for example, to a defective cross-section and to the length of the defects; but it may also be other additional adjustment variables, such as additional or longer-lasting yarn thickness, as a criterion for coarse yarn or double thread, or also for securing thin spots.

In the known yarn cleaners, this adjustment is carried out either individually for each yarn cleaner or centrally by means of a power supply and adjustment device. Individual adjustment has the drawback that more cleaners have to be set, so it is especially necessary when changing parameters. setting up a whole group of cleaners is strenuous and often incorrect. In today's common configurations in which the adjustment is carried out by the control panel, each adjustment variable needs an additional conductor, which in the case of a device fully equipped in this way entails considerable costs for cable connections.

The invention removes this drawback and is characterized in that it comprises a central adjustment device which is connected by at least one cable to at least one yarn cleaner in which a shift register is provided for storing pulses or pulse groups.

The advantages of the device according to the invention are, in particular, that it is very simple, but works very precisely according to the set parameters.

The invention will be explained in more detail below with reference to the accompanying drawings, in which: Fig. 1 shows schematically a bobbin machine with yarn cleaners; and Fig. 2 also schematically shows an adjusting apparatus with yarn cleaners and connecting lines; the pulse train, in FIG.

a shift register for memorizing the pulse train, and schematically in Fig. 5 several yarn cleaners for shared memory control.

In FIG. 1, a bobbin machine 1 with a plurality of bobbin locations 2 is schematically shown. A yarn cleaner 3 is provided in each bobbin location 2. In FIG. 1. The central adjustment device 4 and the cable connections between the adjustment device 4 and the yarn cleaner 3 are further illustrated.

FIG. 2 shows a device according to the invention which comprises an adjusting device 4, a yarn cleaner 3 and, for example, a three-pole cable with cores 6, 7 and 8. For supplying the yarn cleaners 3, cores 6 and 7 are provided, they supply successive signals, for example pulses, to the yarn cleaners 3, which are then ignited as setting parameters.

An advantageous development of the invention is that in the cable 5 the core 8 is omitted. The impulses can also be transmitted in the adjusting device 4 by one of the supply lines 6 or 7, since only one DC voltage is usually transmitted on these supply lines. The impulses are superimposed on the feed line or the pulses are separated from the feed lines in the yarn cleaner in a known manner.

Giant. 3 shows, for example, the respective sequence of transmitted pulses. It is particularly advantageous if, according to the technique known from automatic computers, information is transmitted as so-called words, for example words of 16 bits. The first word 11 of 8 bits is for the first setting, the second word 12 is for the next setting, and the third word 13 is for the third setting.

It may also be advantageous if one or more bits or a complete word as a start pulse 14 is transmitted when the pulse group transmission begins to be transmitted. By means of this start pulse or pulse group 14, the individual yarn cleaners 3 are prepared to receive individual setting pulses.

The storage of the pulses or words can, for example, be carried out by means of shift registers with a serial input or with a parallel output. When transmitting the setup program shown in FIG. 3, the pulses will come to the serial input, while the parallel outputs of the individual registers may be permanently connected to the resistor network. The 8-bit word allows setting the desired level or setting level in a maximum of 256 steps. Fig. 4 shows a shift register for memorizing 8-bit words. Pulse groups are supplied to input 20, which are transmitted by the setting device 4 on one of the cores 6, 7 or 8. The outputs 21 to the shift register are connected to the od. As a result, a current i, which is dependent on the instantaneous shift register program, flows in the resistor 39, generating a corresponding voltage drop uu, which serves as an analogue parameter for the yarn cleaner setting value. Once the shift register has been programmed, the pulse information is retained until reception.

It is not absolutely necessary to transmit the parameters by means of pulses or groups of pulses. It is also possible, for example, to send a start pulse for a parameter first, then wait a certain amount of time corresponding to a parameter counting a certain number of pulses at a certain clock frequency, and then send a stop pulse to indicate the end of the count. The counting result corresponds to the setting parameter or its value. The clock frequency may be transmitted one line at a time; it may also be derived from the line frequency in certain circumstances;

Monolithic parameters can also be transmitted as a whole in a particular code. Thus, for example, different parameters can be addressed on the four lines 16 and their corresponding value is passed in a certain sequence to the yarn cleaner.

The explanation of further exemplary embodiments, transmission and storage will be omitted in the following, since the technician provides sufficient possibilities for the solution or realization thereof.

In addition to saving wires, which, according to the previously known adjustment methods, represent a substantial cost, it is also possible to simplify the adjustment device. So far, for example, it was necessary to use one adjusting device for each yarn cleanser group with the same setting, and the corresponding voltage had to be continuously transmitted from all the adjusting devices to the control line. In the method according to the invention, it is now possible to transmit the respective voltages to several groups of yarn cleaners from a single adjusting device 4.

Thus, for example, the first group of yarn cleaners can be programmed with a pulse train. Since the program after this pulse program is memorized in the yarn cleaners, the same adjusting device can be used in the case of another programming of another yarn cleaners group if necessary. The individual groups of yarn cleaners can also be provided with different addresses; one corresponding code start pulse can set the cleaners of one group that are programmed to the same addresses without changing the yarn cleaners settings of the other groups. Such a system requires a single pulse line and a single adjuster for all yarn cleaners.

However, it may also be advantageous for the parameters for one group of yarn cleaners to be set to the same parameter to be memorized in a single memory. This can provide additional cost savings on the memory layout. Giant. 5 shows schematically a corresponding embodiment. The adjusting device 4 is connected via a cable 5 to the memory 40. The memory 40 is connected to the yarn cleaners 3, grouped together in the same set of parameters, so that a single memory for multiple yarn cleaners is sufficient and no need to be built into each yarn cleaner individual memory.

The yarn cleaners used today are basically constructed using analog technology. The setting or remembering of the set parameters requires a certain part of the devices created by digital technology. For this reason, it may be advantageous to realize an even greater proportion of digital technology devices, so that conversion to an analog signal as described herein is not necessary.

Self-contained microcomputers may also be used. In this case, it is possible to carry out most of the functions of the electronic yarn cleaner in a manner suitable for automatic computer control. . In such a way. According to the invention, the variables to be set according to the invention can also be remembered, which is particularly advantageous for their processing in the microcomputer. Parameters can be coded in binary code and their value is also sent in binary code to data inputs. Particularly advantageous is the so-called serial input for individual entry points or the entry point of a microcomputer. A single line is sufficient to enter all parameters. The method according to the invention and the corresponding device are particularly advantageous.

Claims (5)

An apparatus for adjusting parameters characterizing types of defects, magnitude of defects and defect lengths of electronic yarn cleaners, characterized in that it comprises a central adjustment device (4) which is connected by at least one cable (5) to at least one yarn cleaner. (3) in which a shift register is provided for storing pulses or pulse groups. Device according to claim 1, characterized in that the cable (5) comprises a supply line (6, 7) and control wires (8). Device according to claim 1, characterized in that - between the adjusting device (4) and the yarn cleaners (3), a two-wire inventive solder line (6, 7) is provided and the yarn cleaners (3) comprise frequency switches for pulse separation . Device according to one of Claims 1 to 3, characterized in that the yarn cleaners (3) are divided into a receiving part for processing the starting pulses and a receiving part in which at least one shift register is provided. 5. Device according to claims 1 to 4, characterized in that the yarn-clearer - (3) with the same set - parameters are grouped and each group of the yarn clearer (3) is assigned to the common memory (40] for the _parameters.>