CS233530B1 - Connection for signaling the specified rotor temperature of the rotating machine - Google Patents

Abstract

BACKGROUND OF THE INVENTION The present invention relates to a circuit for signaling a specified rotor temperature of a rotating machine using a rotary transformer. The primary winding of the rotary transformer is located on the stator of the rotating machine and the secondary winding is on its rotor. The rotary transformer is powered from the mains. The wiring consists of four filters, a rectifier, a measured value transmitter, a comparator, sensors and an evaluation device that can control both acoustic and optical signaling. The sensors are located at different points of the rotor winding and are resistive.

Description

The invention relates to a circuit for signaling a determined rotor temperature of a rotating machine by means of a rotary transformer.

Until now, the thermal data 2 of the rotor of the rotating machine has been transmitted by sliding contacts or by wireless transmission. However, the sliding contacts have a limited lifetime, introduce fault signals into the transmission and are difficult to design, especially when additionally performed. In the case of wireless transmission, it is necessary to provide power to the rotor, which is most often provided by a battery that has a limited life. This shifting is also more expensive and also subject to interference.

According to the invention, these disadvantages are eliminated by wiring for signaling the determined rotor temperature of the rotary machine by means of a rotary transformer, the primary winding of which is located on the stator of the rotating machine and the secondary winding on its rotor. The principle is that the primary winding of the rotary transformer is connected via the first low-pass filter to the supply network and through the first high-pass filter to the evaluation device. The secondary winding of the rotary transformer is connected via a second low-pass filter to the rectifier input and through a second high-pass filter to the output of the measured value transmitter, the second input of which is connected to a comparator output having a connected first input to the second rectifier output. The second comparator inputs are connected to the sensors.

The advantage of the solution proposed by the invention is its simplicity, reliability and low space requirements, which makes it possible to use it without additional structural modifications of the rotors even later. By not having sliding contacts, it is a prerequisite for continuous maintenance-free operation. The rotary transformer is able to supply enough penergy even for more demanding equipment that can be mounted on the rotor. The transmission of the measured values through a rotary transformer ensures a good signal-to-noise ratio, so the wiring has less susceptibility to interference. The transfer properties of the rotary transformer ae do not change with the rotor rotation angle. The existence of an alternating voltage on the rotating side, which is identical to the mains, makes it easy to synchronize the transmitted signal or its modulation.

In the accompanying drawing, an example of a wiring for signaling a determined rotor temperature of a rotating machine according to the invention is shown. The rotary transformer 1 is arranged such that its primary winding g is located on the stator of the machine to be measured, while the secondary winding Z is located on its rotor. The primary winding 6 is connected via a first low-pass filter 2 to the power supply network χ and through a first high-pass filter 2 to an evaluation device g. . The first output χ2χ of the rectifier 10 is coupled to the first input 111 of the measured value transmitter 111, to the second input 112 the output of the comparator 12 is connected. The second input 121 of the rectifier 10 is connected to the first input 121 of the rectifier 10. sensors 12 located at different locations in the rotor winding, sensors 13 are resistive.

The transformed supply voltage of the secondary winding Z is fed via a second low-pass filter g to the rectifier Xg, from which the rectified current flows both to the measured value transmitter χχ and to the comparator 12, to the second inputs 122 of which they are fed to comparator 12 to transmit XX measured values, where it is converted to a higher frequency voltage which is fed to the secondary winding g through the secondary winding Z. The higher frequency voltage is transferred from the secondary winding Z ^{not to the} primary winding to an evaluation device 4 which can control both acoustic and optical signaling. , F

Claims (1)

SUBJECT OF THE INVENTION A wiring for signaling a determined rotor temperature of a rotary machine by means of a rotary transformer and a primary winding mounted on a stator of the rotating machine and with a secondary winding mounted on its rotor, characterized in that the primary winding (6) of the rotary transformer (5) is connected ) to the supply network (1) and through the first homopermeable filter (3) to the evaluation device (4), the secondary winding (7) The rotary transformer (5) is connected via a second low-pass filter (8) to the rectifier input (0) and through a second high-pass filter (9) to the output of the measured value transmitter (11) whose second input (112) is connected to the comparator output. (12) having * a first input (121) coupled to a second output (102) of the rectifier (1-0), its second inputs (122) being connected to the sensors (13) *