초록 ▼

The present invention discloses devices and methods for improved starting and stopping of rotary motors. A rotary electrical machine (3) is supplied with a voltage from a voltage supply (10). The magnitude of a phase current is measured. The measured current value (IM) and applied voltage (U) is com

The present invention discloses devices and methods for improved starting and stopping of rotary motors. A rotary electrical machine (3) is supplied with a voltage from a voltage supply (10). The magnitude of a phase current is measured. The measured current value (IM) and applied voltage (U) is compared with what is expected for a predetermined target slip (ST), by means of a relation between phase current, applied voltage and slip. The comparison gives a discrepancy value, which is used to create a regulation signal (ΔU) to the voltage supply (10). To start and stop the machine, the target slip is increased and decreased, respectively, in a predetermined manner. The means for regulation may be provided as a separate add-on unit to existing soft starter equipment.

대표청구항 ▼

1. A method for rotational speed control of a rotary electrical motor, the method comprising:supplying a voltage to said rotary electrical motor; measuring the current to said rotary electrical motor; combining said measured current value and said voltage with a target slip, making use of a predeter

1. A method for rotational speed control of a rotary electrical motor, the method comprising:supplying a voltage to said rotary electrical motor; measuring the current to said rotary electrical motor; combining said measured current value and said voltage with a target slip, making use of a predetermined relation between current, voltage and slip, giving a regulation signal; varying said target slip according to a predetermined time schedule; and adding a voltage to said rotary electrical motor, according to said regulation signal. 2. The method for rotational speed control according to claim 1, wherein said combining comprises:converting said target slip into a target current value, using said relation; comparing said measured current value and said target current value, giving a discrepancy value as the difference; and obtaining said regulation signal by regulating on the discrepancy value. 3. The method for rotational speed control according to claim 1, wherein said combining comprises:converting said measured current into an actual slip value, using said relation; comparing said actual slip value and said target slip value, giving a discrepancy value as the difference; and obtaining said regulation signal by regulating on the discrepancy value. 4. The method for rotational speed control according to claim 1, wherein said combining is performed in different phases of the operation of the motor.5. The method for rotational speed control according to claim 1, wherein said relation is an actually measured relation between slip, voltage and current for said rotary electrical motor.6. The method for rotational speed control according to claim 1, wherein said relation is a predetermined modelled relation between slip, voltage and current for said rotary electrical motor.7. A speed control device for a rotary electrical motor, comprising:a voltage supply, connected to said rotary electrical motor; measuring means for measuring a current supplied to said rotary electrical motor; comparing means, connected to said measuring means and said voltage supply, for combining said measured current value and said voltage with a target slip, said comparing means utilizing a relationship between current, voltage and slip, giving a regulation signal, said comparing means comprising means for storing a model of said relationship between slip, voltage and current for said rotary electrical motor; whereby said voltage supply is arranged to add a voltage to said rotary electrical motor, according to said regulation signal. 8. The speed control device according to claim 7, wherein said comparing means comprises:converting means for converting said target slip value into a target current value, using said relationship; a comparator for comparing said measured current value and said target current value, giving a discrepancy value as the difference; and regulation means for obtaining said regulation signal by regulating on the discrepancy value. 9. The speed control device according to claim 7, wherein said comparing means comprises:a converter operative to convert said measured current into an actual slip value, using said relationship; a comparator operative to compare said actual slip value and said target slip value, giving a discrepancy value as the difference; and a regulator operative to obtain said regulation signal by regulating on the discrepancy value. 10. The speed control device according to claim 7, wherein said comparing means comprises:a first converting means comprising converting means for converting said target slip value into a target current value, using said relationship, a comparator for comparing said measured current value and said target current value, giving a discrepancy value as the difference, and regulation means for obtaining said regulation signal by regulating on the discrepancy value; a second converting means comprising a converter operative to convert said measured current into an actual slip value, using said relationship, a comparator operative to compare said actual slip value and said target slip value, giving a discrepancy value as the difference, and a regulator operative to obtain said regulation signal by regulating on the discrepancy value; and selecting means for selecting one of said first converting means and second converting means in different phases of the operation of the motor. 11. The speed control device according to claim 7, further comprising:means for varying said target slip according to a predetermined time schedule. 12. The speed control device according to claim 7, wherein said comparing means further comprises means for storing an actually measured relation between slip, voltage and current for said rotary electrical motor.13. Use of a speed control device according to claim 7, for start and/or stop of a rotary electrical motor.14. A regulator unit for a soft starter/stopper device of an asynchronous rotary electrical motor, the regulator unit comprising:receiving means for receiving a value of a current and voltage supplied to said rotary electrical motor; comparing means connected to said receiving means and being operative to combine said measured current value and said voltage with a target slip, and to utilize a predetermined relationship between current, voltage and slip, giving a regulation signal, said comparing means further comprising means for storing a predetermined model of said relationship between slip, voltage and current for said asynchronous rotary electrical motor; and means for providing said regulation signal to said rotary electrical motor. 15. The regulator unit according to claim 14, wherein said comparing means further comprises:converting means for converting said target slip value into a target current value, using said relationship; a comparator operative to compare said measured current value and said target current value, giving a discrepancy value as the difference; and regulation means for obtaining said regulation signal by regulating on the discrepancy value. 16. The regulator unit according to claim 14, wherein said comparing means comprises:converting means for converting said measured current into an actual slip value, using said relationship; a comparator operative to compare said actual slip value and said target slip value, giving a discrepancy value as the difference; and a regulator operative to obtain said regulation signal by regulating on the discrepancy value. 17. The regulator unit according to claim 14, wherein said comparing means comprises:a first converter; a second converter; and means for selecting one of said first converter and second converter in different situations. 18. The regulator unit according to claim 14, further comprising:means for varying said target slip according to a predetermined time schedule. 19. The regulator unit according to claim 14, wherein said comparing means further comprises means for storing an actually measured relationship between slip, voltage and current for said asynchronous rotary electrical motor.20. A rotary electrical motor system, comprising a rotary electrical motor and a speed control device, said speed control device comprising:a voltage supply connected to said rotary electrical motor; measuring means for measuring a current supplied to said rotary electrical motor; and comparing means connected to said measuring means and said voltage supply, said comparing means combining said measured current value and said voltage with a target slip, making use of a predetermined relationship between current, voltage and slip, giving a regulation signal, said comparing means comprising storage means for storing a predetermined model of said relation between slip, voltage and current for said rotary electrical motor; whereby said voltage supply is arranged to add a voltage to said rotary electrical motor, according to said regulation signal. 21. The rotary electrical motor system according to claim 20, wherein said comparing means comprises:a converter operative to convert said target slip value into a target current value, using said relationship; a comparator operative to compare said measured current value and said target current value, giving a discrepancy value as the difference; and a regulator operative to obtain said regulation signal by regulating on the discrepancy value. 22. The rotary electrical motor system according to claim 20, wherein said comparing means comprises:a converter operative to convert said measured current into an actual slip value, using said relationship; a comparator operative to compare said actual slip value and said target slip value, giving a discrepancy value as the difference; and a regulator operative to obtain said regulation signal by regulating on the discrepancy value. 23. The rotary electrical motor system according to claim 20, wherein said comparing means comprises:a first converter; a second converter; and selecting means for selecting one of said first converter and second converter in different phases of the operation of the motor. 24. The rotary electrical motor system according to claim 20, further comprising:means for varying said target slip according to a predetermined time schedule. 25. The rotary electrical motor system according to claim 20, wherein said comparing means further comprises:storage means for storing an actually measured relation between slip, voltage and current for said rotary electrical motor. 26. The rotary electrical motor system according to claim 20, wherein said comparing means further comprises:means for storing a predetermined model of said relation between slip, voltage and current for said rotary electrical motor. 27. Use of a rotary electrical motor system according to claim 20, for start and/or stop of a rotary electrical motor in said rotary electrical motor system.28. A method for monitoring operational conditions for a rotary electrical motor, the method comprising:measuring a voltage supplied to said rotary electrical motor; measuring the current to said rotary electrical motor; combining said measured current value and said voltage with an intended operational slip, utilizing a predetermined relationship between current, voltage and slip, giving a discrepancy value associated with any present deviation from intended operational conditions; and presenting said discrepancy value. 29. The method for monitoring operational conditions according to claim 28, wherein said combining step comprises:converting said intended operational slip into an intended operational current value utilizing said relationship; and comparing said measured current value and said target current value, giving a discrepancy value as the difference. 30. The method for monitoring operational conditions according to claim 28, wherein said combining step comprises:converting said measured current into an actual slip value, using said relation; and comparing said actual slip value and said intended operational slip value, giving a discrepancy value as the difference. 31. A computer program product for performing rotational speed control of a rotary electric motor, comprising:a computer readable medium; and computer program instructions, recorded on the computer readable medium, executable by a processor, for performing the steps of: supplying a voltage to said rotary electrical motor; measuring the current to said rotary electrical motor; combining said measured current value and said voltage with a target slip, making use of a predetermined relation between current, voltage and slip, giving a regulation signal; varying said target slip according to a predetermined time schedule; and adding a voltage to said rotary electrical motor, according to said regulation signal. 32. The computer program product according to claim 31, wherein the computer program product is supplied via a network.33. The computer program product according to claim 32, wherein the network is the Internet.