SU464706A1 - The way to protect the turbomachine from the axial shift of the rotor - Google Patents

Description

This invention relates to turbine engineering and can be used to protect steam turbines.

Methods are known to protect the turbomachine from axial rotor shift by converting mechanical movement into two independent source signals, generating them and feeding control pulses using threshold elements to the actuators. However, these methods do not exclude false positives of protection in the event of fluctuations in the supply voltage and the occurrence of malfunctions, which reduces the reliability of the operation of the turbomachine.

The purpose of the invention is to increase reliability during power supply fluctuations and malfunctions.

To do this, the two source signals are formed in dependencies that are different in sign with the same direction of mechanical movement, control pulses are delivered to the executive bodies while pulses are output at the output of both threshold elements, and at the output of only one threshold signal element give a signal about the occurrence of a malfunction.

The drawing shows a diagram of the device for implementing the method.

The mechanical displacement transducer 1 forms at the output two independent signals L / i and U, one of which, for example, Ui, increases with axial shift, and the other u2, decreases with the same direction of axial shift. The t / i signal arrives at the threshold element 2, which is triggered by pulling the signal Ui to a predetermined absolute value determined by the protection setting, and

the t / a signal arrives at the threshold element 3, which is triggered by the signal IJ2 to a predetermined absolute value. At the same time, the t / i and Vz signals are fed to subtraction circuit 4, and from there to the axial shift indicator 5. Threshold elements 2 and 3 produce control pulses that, through the logical cell "And 6, affect the actuators 7 of the turbomachine shutdown, and logical cell “OR 8 -

to alarm 9 on the occurrence of a malfunction.

As the axial shift increases, the signal increases, and the AND signal decreases. At the moment determined by the protection setting, the threshold elements 2 and 3 are triggered and through the logical cell "And 6" affect the executive bodies 7 of the shutdown of the turbomachine. Axial Shift Index 5 shows the maximum axial shift.

With a sharp increase or decrease in the supply voltage, the signals Ui and Uz will simultaneously increase or decrease, only one of the threshold elements 2 or 3 can be triggered, and the control pulse on the turbomachine shut-off 7 will not pass through the And b, but will pass through the cell “OR 8 to the alarm 9.

If a fault occurs in the converter circuit or directly in the threshold elements leading to the operation of one of them, the circuit works in a similar way. In this case, the axial shift indicator 5 responds to a fault that has arisen only in the converter circuits or in the connecting cable.

By evaluating the indications of the axial shift indicator 5 and the alarm reaction 9 of the occurrence of a malfunction, it is possible to judge the nature of the malfunction and the place of its occurrence, i.e. the occurrence of any single malfunction or sudden changes in the supply voltage of the displacement transducer do not cause

false protection and at the same time the time of the occurrence of a malfunction is signaled.

Subject invention

A way to protect turbomachine from axial rotor shift by converting mechanical movement into two independent source signals, shaping them and supplying control pulses using threshold elements to actuators, characterized in that, in order to increase reliability during supply voltage fluctuations and malfunctions , two initial signals are formed according to dependencies that are different in sign with the same direction of mechanical movement; control signals are sent to the actuators, During the simultaneous occurrence of pulses at the output of both threshold elements, and at the appearance of a pulse at the output of only one threshold element, a malfunction is signaled.