ITMI942199A1 - TEXTILE MACHINE WITH A DRIVE AT THE NUMBER OF SPEEDS COMMANDED - Google Patents

Abstract

In a textile machine with a control (2), with a frequency converter (34) with this coupled and a motor (32) which is powered by the frequency converter (34) with a variable frequency electric voltage, a control signal analog is generated in dependence on the position of the ring frame (28) or in dependence on time, which signal is continuously processed in the command (2), digital command quantities (N1, N2; N3) being stored in a calculation unit ( 3) of the control or in a control unit (36) of the frequency converter (34), so that by means of the computing unit (3) or the control unit (36) the analog control signal and the digital control quantities are processed so that with their combination an analog conduction quantity for the frequency conduction of the frequency converter (34) is generated, which is processed in the control unit (36) of the frequency converter (34 ) in a rated motor frequency value (32). Thus a simple interface is given between the control (2) and the frequency converter (34) whereby a control of the frequency converter function is possible in a simple way.

Description

"Textile machine with a drive at controlled speed"

The invention relates to a process for controlling a drive of a textile machine according to the classifying part of the independent claim as well as a textile machine according to the classifying part of claim 5.

In the past, processors have been increasingly used to control the speed of textile machines, in which nominal values for the speed of electric drives are obtained by processing large amounts of data. Commands of this type are relatively expensive in programming, maintenance and implementation, so simpler solutions are sought.

It is the object of the present invention to develop in this sense a method for controlling a drive as well as a corresponding device, putting in the foreground economic points of view such as for example the manufacturing price and the operational safety as well as the possibility control by less educated staff.

This object is achieved by a method according to the characteristics of the independent claim of the method. The object of claim 5 indicates the characteristics of the device belonging to it. The dependent claims relate to advantageous improvements to the objects of claim 1 and claim 5. The market demands directed towards economical technical solutions and transparent technology are taken into account with the control method as well as the associated device. The object of the invention is a method for controlling the drive of a textile machine with a control device, with a frequency converter coupled with this and a motor which is powered by the frequency converter with a voltage of variable frequency, characterized by the The fact that a variable, analogue control signal is generated, which signal is continuously processed in the control, that furthermore digital control variables are stored in a control computing unit or control unit of the frequency converter, is that by means of the In the computing unit or the control unit, the analog control signal and the digital control variables are processed so that an analog conducting variable for the frequency control of the frequency converter is combined from both signals. is processed in the control unit of the frequency converter in a nominal frequency value for the engine.

Hereinafter the invention will be described in detail with reference to the drawing, in which they show,

Figure 1 is a diagram of the connections,

Figures 2 and 2 show the trend of control voltages over time.

Figure 1 schematically represents components of a textile machine, to be mentioned in connection with the invention, on the basis of the example of a ring spinning machine. A command 2 comprises a computing unit 3, in which a line 14 for digital communications with the input unit 4 and a line 16 for analog communications with a potentiometer 18 leads. The potentiometer 18 senses the perimeter of a disc cam -20 slowly rotating which is non-rotatably connected with a roller 26 which is driven in the peripheral direction by a transmission member 22. The transmission member 22 connects a drive 24 with a function support, in the present case with a frame ring holder 28 of a ring spinning machine moving up and down along a screw 30. The component associated with the potentiometer 18 is generally referred to as an auxiliary mechanical device 17.

The input unit 4 comprises at least a series of keys 6 for activating and deactivating the drives of the groups, for example of a motor 32 or the drive 24 of the textile machine, a series of keys 10 for entering parameters operating mode of the spinning machine, value transducers 8 for changing stored parameters as well as an alphanumeric display panel 12. The parameters, to be entered via an input unit, can be speed values N, N, N, by means of the which reference values of a travel program are established, for example for the motor 32 which drives the screws 30. A person in charge is able to select any group of the textile machine by pressing on a specific key of the series of keys 6, for which the operating parameters or the speed values must be defined or changed. By subsequently pressing a key in the row of keys 10 for parameters or nominal speeds, a certain value can be called up, stored in the calculation unit 3 of the control 2 and which can be changed by selective pressing of the keys 8 of the transducers. values. These values are stored through the line 14 for digital communication in the computing unit 3 or through the communication line 44 in the control unit 36 of the frequency converter 34. While in the computing unit 3 in the first line nominal values are stored For operating speeds, parameter groups for the operation of the frequency inverter 34 and connected motors 32 are stored in the control unit 36, such as limit values for a maximum speed or electrical frequency, maximum values for the absorption of electric current or respectively the angular acceleration of a drive unit. These values can also be changed in the above way by connecting the control unit 36 to the input unit 4 via the communication line 44. The frequency converter 34 is connected to an electrical network 38 of the machine tool plant and supplies through the motor power line 40 a variable frequency voltage to the motor 32 or through the motor power line.

The nominal frequency which "is generated as an initial quantity in the frequency converter 34 is determined on the one hand by the operating parameters stored in the control unit 36, and on the other hand by analog voltage values transmitted continuously by the communication line 42. Figure 2 shows voltage trends U over time t, the voltage values U, U, U in the calculation unit 3 of command 2 corresponding to the values of the entered speeds N ^, N ^, N ^ . The voltage values between the reference values U and U are obtained as combination values of the voltage reference values U, U, U as well as the time-varying voltage values U which are transmitted to the computing unit 3 by the potentiometer 18. By varying the perimeter of the disc cam 20 it is possible to preset any trend of the voltage U. Thus the user of the machine tool is able to generate his own types of number curves of laps for your individual needs. On the other hand, by entering only a few speed values N, N, N on the keypad of the input unit 4, it is possible to change the speed level of a motor 32 with a few operating steps. The number of revolutions, carried out by the motor 32, are proportional to the trend of the voltage U of Figure 2. The trend of the voltage curve U before reaching the voltage value U, or respectively after reaching the voltage value U, must not be be proportional to the number of revolutions actually carried out by the engine, when for example the acceleration capacity of the engine 32 is not sufficient, to correspondingly vary its number of revolutions. If the acceleration and therefore the electric current draw in the motor becomes inadmissible, which can be controlled in the control unit 36 by the operating parameters stored therein, the control unit 36 limits, for example, to the engine speed 32 the starting acceleration, so that the frequency, corresponding to the voltage U ^, in the frequency converter 34 and the number of revolutions N of the motor 32 are reached at a subsequent instant. Due to the communication of the frequency converter 34 with command 2, a feedback signal of the control unit 36 can be transmitted to the control 2 in the event of a threatening overload of a motor or of the frequency converter respectively.

The trend of the U curve, as shown in Figure 3, in the calculation unit 3 can be determined as follows: The quotient Q = / U is formed from the difference value U, = U - U and the preset voltage value, with which the values (U (t), transmitted by potentiometer 18.

The actual voltage value U, variable in time, which is transmitted through the line 42 to the control unit, is calculated by the calculation unit 3 according to the formula U = U Q. U (t).

The nominal frequency value can be digitally transmitted by means of a serial data stream.

Claims (7)

R I V E N D I C A Z I O N I 1. Method for controlling a drive of a textile machine with a control (2), with a frequency converter (34) with this coupled and a motor (32) which is supplied by the frequency converter (34) with current and variable frequency voltage, characterized in that an analog, variable control signal (U) is generated which depends on a machine function medium and is continuously processed in the control (2), which in addition digital control variables (N1, are stored in the control unit calculation (3) of the control or control unit (36) of the frequency converter (34), and that by means of the computing unit (3) or the control unit (36) the analog control signal and The digital command variables are processed in such a way that in combination with the signal and the command variable, an analog conducting variable for driving the frequency converter (34) results, which is processed in the control unit (36 ) of the frequency converter (34) into a rated frequency value for the motor (32). Method according to claim 1, characterized in that the digital control variables are entered numerically via an indication frame (12). Method according to one of the claims 1 or 2, characterized in that a potentiometer (18) is coupled to an auxiliary mechanical device (17) for obtaining the analog signals. Method according to claim 3, characterized in that the potentiometer (18) senses a rotating disk cam (20) of the auxiliary mechanical device (17). Textile machine according to one of the preceding claims, in particular ring spinning machine, characterized in that an electromechanical auxiliary device (17) is connected to a drive (2) on the input side, and that in addition an input unit (4) is connected to the control (2), and that the control (4) is connected via an analog communication line (42) with a frequency converter (34), with which a motor (32) is connected. 6. Textile machine according to claim 5, characterized in that the auxiliary device (17) has a drive (24), a transmission member (22) and a potentiometer (18) which is connected to the transmission member (22). ). Method according to one of claims 1 to 4, characterized in that the nominal frequency value is detected digitally by means of a serial data stream, the analog control signal becoming dependent on the position of the ring frame (28) or being time dependent.