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Title:
METHOD AND APPARATUS FOR DETERMINING THE POSITION OF THE ROTOR OF AN ELEVATOR MOTOR
Document Type and Number:
WIPO Patent Application WO/2005/041399
Kind Code:
A1
Abstract:
A method and an apparatus for determining the position of the rotor of a synchronous motor (1) used as an elevator motor, in which method an alternating current of a certain frequency is fed into the stator of the motor and the vibration of the machine is measured as a function of the rotor angle, and the position of the rotor (11) is determined by utilizing the said vibration.

Inventors:
JAHKONEN PEKKA (FI)
Application Number:
PCT/FI2004/000601
Publication Date:
May 06, 2005
Filing Date:
October 11, 2004
Export Citation:
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Assignee:
KONE CORP (FI)
JAHKONEN PEKKA (FI)
International Classes:
B66B1/30; B66B1/34; B66B11/04; H02P6/16; H02P6/18; B66B; (IPC1-7): H02P6/16
Domestic Patent References:
WO2002065139A22002-08-22
Foreign References:
US20010004173A12001-06-21
EP0838669A21998-04-29
Attorney, Agent or Firm:
KONE CORPORATION / Patent Department (Hyvinkää, FI)
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Claims:
CLAIMS
1. A method for determining the position of the rotor (11) of a synchronous mo tor (1) used as an elevator motor, in which method: an alternating current or voltage of a certain frequency is fed into the stator of the motor, and a quantity produced by the alternating current or voltage is measured and used to deter mine the position of the rotor, characterized in that, in the method, the vibration of the machine is measured as a function of the rotor angle, and the position of the rotor (11) is determined by utilizing the said vibration.
2. A method according to claim 1, characterized in that the vibration is meas ured by means of a microphone or acceleration sensor attached to the motor body and utilized to provide feedback.
3. A method according to claim 1, characterized in that, in the method, a mini mum signal is found, whereupon it is possible e. g. to detect the maximum torque angle.
4. A method according to claim 1, characterized in that, in the method, a maximum signal is found, whereupon it is possible e. g. to detect the minimum torque angle and the maximum torque can be obtained with a 90° phase shift.
5. An apparatus for determining the position of the rotor (11) of a synchronous motor (1) used as an elevator motor, comprising: supply means used to feed an alternating current or voltage of a certain frequency into the motor, and a unit used to measure a quantity produced by the alternating current or voltage fed in, characterized in that the apparatus comprises elements used to measure the vibration of the machine as a function of the rotor angle, the said vibration being utilized to determine the position of the rotor (11).
6. An apparatus according to claim 5, characterized in that the apparatus com prises a microphone (4) or an acceleration sensor fitted to the motor body and used to produce feedback.
Description:
METHOD AND APPARATUS FOR DETERMINING THE POSITION OF THE ROTOR OF AN ELEVATOR MOTOR The present invention relates to a method as defined in the preamble of claim 1 and an apparatus as defined in the preamble of claim 5 for determining the po- sition of the rotor of an elevator motor.

The torque of a synchronous motor is proportional to the angular difference be- tween the rotor magnetic field and the stator magnetic field, i. e. to the rotor an- gle. The torque is at a maximum when the rotor angle is 90° and it falls accord- ing to the sine function as the rotor angle changes. The torque curve of syn- chronous motors designed for use in an elevator drive is a nearly sinusoidal function of the rotor angle. The function of the control system controlling the elevator motor is to keep the torque at the maximum point.

Currently used methods for determining the rotor position are not applicable in the case of e. g. flat surface-magnet motors designed for use in elevators with- out machine room and placed in the elevator shaft, such motors having equal Lq and Ld. Prior-art methods intended for surface magnet motors are based on a comparison of the torque and the angle. When used in an elevator, they cause problems relating to safety and comfort.

A method for determining the position of the rotor of a synchronous motor dis- closed in specification WO-A2-02/065139 allows the absolute angular position of the rotor to be computed while the rotor is stationary by monitoring the satu- ration of the stator iron. In this method, an alternating current having a certain frequency and phase angle is fed into the stator, samples are taken at given intervals from the current fed in and the voltage obtained, and the stator induc- tance is calculated from these voltage and current values. After that, the phase angle is increased a certain number of times over the 360-degree cycle and the current feed, sampling and calculation are repeated, thus obtaining a certain number of calculated stator inductances. Next, the position of the d-axis relative to the stator is determined from the minimum of the calculated stator inductance values. This is a relatively complicated method.

The object of the present invention is to overcome the drawbacks of prior art and create new type of arrangement that can be used to determine the position of the rotor of an elevator motor without moving the rotor and by using relatively low magnetization.

The system of the invention is mainly based on the property of an axial motor that it tends to work as a sound reproducer when the rotor and stator are mov- ing on the shaft. In the invention, the angular position of the rotor is detected without releasing the brake by feeding a current of a frequency of about 50... 200 Hz into the motor and measuring the vibration of the machine as a function of the rotor angle.

The details of the features of the method and apparatus of the invention are presented in the claims below.

The invention increases the areas of application of especially permanent- magnet synchronous motors with no angle feedback used in elevators. In addi- tion, the arrangement of the invention is an advantageous way of finding the rotor angle. Moreover, the invention is safe because the brakes need not be released and the correct angle can be determined more reliably than by prior-art methods. Furthermore, the method of the invention can be relatively easily automated, because the elevator is not moving and therefore fewer monitoring and safeguarding measures are required.

In the following, the invention will be described in detail with reference to an ex- ample and the attached drawing, wherein Fig. 1 is a simplified diagrammatic representation of the apparatus of the inven- tion for determining the rotor angle of an elevator motor.

Fig. 1 presents an apparatus comprising an elevator motor 1, which may be a flat axial motor placed in the elevator shaft and which has a permanent magnet rotor 11 and a stator 12, which is driven by means of a frequency converter 2.

The frequency converter is controlled by a control unit 3.

In the invention, the angular position of the rotor is detected without releasing the brake by feeding a current of a frequency of about 50... 200 Hz into the mo- tor and measuring the vibration of the machine as a function of the rotor angle.

The motion on the shaft is at a maximum when the stator current is in the direc- tion of the d-axis, which means that the stator and rotor have maximum attrac- tive and repelling forces (arrows) but no torque. If the current is in the direction of the q-axis, then the torque is at a maximum while the attractive and repelling forces are at a minimum.

When an alternating current of a frequency of 50... 200 Hz is used, the motor noise varies very much depending on the position of the rotor. If the frequency is near the resonant frequency, the amplitude of the noise may vary by tens of dB.

It is possible to increase acoustic feedback or acceleration feedback e. g. by using a resolver. By adding a very simple microphone (sound reproducer) 4 or an acceleration sensor attached to the motor body, the adjustments can be automated by finding the minimum signal. The magnetization current may be small, even only a few hundred mA, and the brake of the motor can be kept closed.

By using the invention, the maximum torque angle can be found but its direction can not be detected unambiguously. To achieve this, it is possible to release the brake and check the torque direction in connection with the start of motion.

It is obvious to the person skilled in the art that different embodiments of the invention are not limited to the example described above, but that they may be varied within the scope of the claims presented below. Instead of a current sig- nal, it is possible to use a voltage signal, and the direction of the current is esti- mated by utilizing the motor parameters (resistance, inductance).