SU1149344A2 - Device for complex protection og three-phase synchronous motor - Google Patents

Abstract

DEVICE FOR COMPLEX PROTECTION OF A THREE-PHASE SYNCHRONOUS MOTOR according to author. St. No. 1053208, characterized in that, in order to increase the reliability and efficiency of the protection operation by eliminating false triggering and translating the protection to the signal in the event of a malfunction of the secondary current circuit, the "BANNER" logic element is added to it, one input of the first one is connected to the additional input the output of the overload protection unit and the other to the output of the phase failure protection unit, and the output to the alarm circuit "Open secondary current circuit, one-input of the second element is connected to the input of the unit of the protection against coil closure, and the other to the output of the phase failure protection block, and the output to the logical element OR, and the AND element, one input of which is connected to the output of the overload protection unit, the other to the output of the phase loss protection unit, and output - to the element OR. (L

Description

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The invention relates to a relay protection and can be used to protect a three-phase electric motor against external and internal short circuits and abnormal conditions.

According to the main author. St. No. 1053208, a device for protection of a synchronous electric motor is known, comprising phase voltage and phase current sensors with a current-voltage converter at the output, current cut-off blocks and overload protection against coil current in the stator winding, from non-phase and asynchronous modes, whose inputs are connected to the corresponding sensors, and the outputs - through the OR element to the block of the executive body, and the block of changing the settings of the operation, the input of which is connected to the output of the comparison circuit of the asynchronous protection unit, and output - to the input of the comparison circuit of the current cut-off and winding protection blocks.

The device is designed to protect synchronous motors from all types of damage and abnormal modes. Recognized almost all damage and abnormal modes 1.

However, the known device is not able to distinguish a broken wire of the secondary current circuit from the non-phase-phase mode of operation of the electric motors and from the short circuit to the stator winding. And therefore, when the secondary current circuit is broken, protection against phase failure in the motor circuit is triggered and generates a signal to turn off the electric motor. Thus, a false defense action will occur.

When the blocking of the operation of the phase failure protection in the motor circuit is reached, if the secondary current circuit is broken, a false operation of the coil circuit protection will occur, which has a longer response time than the phase failure protection. It follows from this that in order to eliminate the false effect of protection in case of a wire breakage in the secondary current circuit, it is also necessary to block the activation of the closure protection.

Thus, the reliability of the protection function is low. When the necessary protection interlocking is performed, the breakage of the wire of the secondary current circuit must be detected, detected and signaled to the service personnel.

The purpose of the invention is to increase the reliability and efficiency of the protection operation by eliminating false alarms and translating the effect of the protection on the signal in the event of a failure of the secondary current circuit.

The goal is achieved by the fact that the device containing the phase voltage and phase current sensors with a current transducer is an output voltage; current cut-off and overload protection units.

from the coil closure in the stator winding, from the incomplete phase and asynchronous modes, the inputs of which are connected to the respective sensors, and the outputs through the OR element to the actuator unit, and the change setting operation block, the input of which is connected to the output of the comparison circuit of the asynchronous protection unit, and the output - to the input of the comparison circuit of the current cut-off and winding closure protection units; additionally introduced logical elements BAN, one input of the first of them is connected to the additionally introduced output of the block Overload protection, and the other to the output of the phase failure protection unit, and the output to the signal circuit “Open secondary circuit breakdown, one input of the second element is connected to the output of the coil protection protection unit, and the other to the output of the anti-protection unit phases, and the output - to the logical element OR, and the element AND, one input of which is connected to the output of the overload protection unit, the other - to the output of the protection unit against phase failure, and the output - to the element OR.

A distinctive feature of the invention is the presence of newly introduced logical elements BAN and AND, which form a functional control unit (BFC), and an additional output overload protection. The introduction of the BFC and the overload protection output made it possible to recognize: the broken wire of the secondary current circuit from the phase break in the motor circuit, the wire breakage of the secondary current circuit from the winding short circuit in the stator winding, which in turn prevented the false triggering of the phase loss protection and protection from closure and signaling the presence of overload and wire breakage of the secondary current circuit. Triggering of the starting overload protection device occurs at 1.111 o (h rated current.

The protection against coil closure occurs when the phase current unbalance reaches 14% and higher with a time delay that exceeds by one time the phase failure protection response time, which is triggered when current unbalance reaches 90% and above.

The simultaneous comparison of information from the outputs of these three protections with the help of a BFC makes it possible to determine the type of damage and the abnormal mode: overload, coil circuit, phase break and wire breakage of the secondary current circuit and. take appropriate measures: to signal or turn off the electric motor, which exclude the false triggering of the device as a whole.

The drawing shows a block diagram of a device for complex protection of a three-phase synchronous motor against external and internal short circuits and abnormal modes.

The device contains current sensors with a current-voltage converter at the output and phase voltage sensors 1, overcurrent protection 2, containing overload protection 3 and current cut-off blocks 4 and an OR 5 element whose output is connected to the executive unit 6, protection from asymmetric mode 7, containing blocks 8 protection against closure and protection against phase failure in the motor circuit 9 and the element OR 10, the output of which is connected to block 6, the block 11 protection from asynchronous mode, one output through the element OR 12 connect is not assigned to block 6, block 13 changes setting settings, the output of which is connected to another output of block 11, and the outputs - one to the comparison circuit of block 4, the other to the comparison circuit of block 8, and functional control block 14 containing the elements 1 15, one input of which is connected to the output of block 9, another (blocking) - to the additionally inputted output of block 3, and the output connected to the signal circuit "Open current circuit break -" Ban-2 16, one input of which is connected to the output of block 8 , the other (blocking) - to the output of block 9, and the output of the sub It is connected to the OR 10 element, and the AND element, one input of which is connected to the output of block 9, the other to the output of block 3, and the output connected to the element OR 10.

Introduced additionally, the output of the block 3 overload is made on two closing and disconnecting contacts reed switch. The output of block 8 protection against closure is made on the closing contact of the rejjKOHOBoro relay. The output of block 9 of protection against incomplete-phase mode is made on one of the closing and one disconnecting contacts reed switch.

Logical elements of BFK are made as follows.

The element "Prohibition-1 15 is created on the basis of the serial connection of the opening contact (blocking input) of the input output of block 3 and the closing contact 9.

The element "Prohibition-2 16 is created on the basis of the series connection of the opening contact (blocking input) of block 9 and the closing contact of block 8.

The element And is created on the basis of a serial connection of the closing contact of the block 9 and the second of the closing contacts of the entered output of the block 3.

The device works as follows.

When an overload occurs, the starting element of the unit 3 is triggered, which, without time lag, triggers the reed relay. The last one is triggered, it opens one and closes two contacts, the signal “Overload. If a phase break occurs (non-phase motor operation) in the motor circuit, the current value in the remaining phases rises to 1.73 1 nom. The phase current unbalance level in this case 5 is 100%.

The first without time delay is triggered by the starting organ of block 3 and causes the opening of one and the closure of the Two contacts. Through one of the closing contacts passes the signal "Overload on the alarm, causing it to work. Through another closing contact passes a signal to one of the inputs of the element And 17, through the opening contact passes a signal to the blocking input of the element "Ban-1 15, for 5 preventing his work.

With a time delay equal to 5 s, block 9 is triggered, one opens and another closes. Through the opening contact, a signal is sent to the blocking input of the element “Prohibition-2, prohibiting the operation

0 last. Through the closing contact, a signal is sent to the second input of the element AND 17 and to the input of the element "Ban 1" 15. If there are signals at both inputs, the element And 17 opens. The signal about the operation of the block 9 through the elements And 17 enters the block 6, through the element OR 10 to turn off the motor (the signal about the actuation of the block 9 passes through the closing contacts of the block 8 and block 3).

In the presence of a signal at the prohibiting (blocking) input of the element "Prohibition -1

0 15 the signal about the operation of the block 9 through the element “Ban-2 16 does not pass (the signal of the actuation of the block 9 passes through its closing contact and does not pass through the opening contact of the block 3).

Thus, during the interaction of the elements of the BFC, the “Phase Loss” damage is detected and a signal (command) is issued to turn off the electric motor. In this case, block 8 does not have time to turn off as the motor is turned off.

Q In case of a short circuit in the stator winding, the maximum phase unbalance level can increase up to 70% (at 100% short circuit of the windings of one phase). In this case, block 9 of protection against phase failure is not

5 is triggered. With a time delay of 0.75 s, block 8 of protection against closure will operate. The signal about the operation of the block 8 passes through the element "Prohibition-2 16 (the closing contact of the block 8 and the opening contact of the block 9) and the element OR 10

0 to block 6 to turn off the engine. In this way, damage to the "short circuit" is detected.

When a wire break occurs in the secondary current circuit in the currents of the engine 5, the symmetry is not disturbed, but the inputs of the phase failure protection unit of the block 9 and the protection against winding circuit of the block 8 receive information from the current sensors about the presence of a phase break, as there is no current in the secondary circuit one phase. Block 9 protection against phase failure is triggered. The trigger signal enters the inputs of all elements of the BFK. However, the signal passes only through the element "Prohibition - 1 15 (closing contact of block 9 and disconnecting contact of block 3) to the alarm signal" Open secondary circuit breakdown. After block 9 trips, block 8 is triggered. Block 8 triggered input to the blocking element 2 (closing contact of block 8 and disconnecting contact of block 9), since the element “Prohibition -2 is closed, the signal that the block has been triggered-8 does not pass through it.

Thus, the interaction of the elements of the BFC reveals the damage to the breakage of the secondary current circuit and a signal is given to the alarm: The breakage of the secondary current circuit.

The application of the invention will allow the integrated protection of the electric motor to eliminate false triggering of protection and shutdown of the electric motor, which will increase its utilization rate and production output, as well as expand the functionality of the protection, namely to carry out functional monitoring of the secondary current circuits, which will increase the reliability of the device and reduce costs on his service.

Claims (1)

DEVICE FOR INTEGRATED PROTECTION OF THREE-PHASE SYNCHRONOUS ELECTRIC MOTOR by ed. St. No. 1053208, characterized in that, in order to increase the reliability and efficiency of the protection by eliminating false alarms and transferring the protection to a signal in the event of a secondary current circuit malfunction, it additionally includes the logic elements “FORBID”, one input of the first of them is connected to the additionally entered the output of the overload protection block and the other to the output of the phase-loss protection block, and the output to the signal circuit "Interruption of the secondary current circuit", one input of the second element is connected to the input of the block shields from a short circuit, and the other to the output of the phase-fault protection block, and the output to the logic element ILI and the I element, one input of which is connected to the output of the overload protection block, the other to the output of the phase-protection block, and the output - to the OR element.