RU2151458C1 - Device for protecting three-phase motor against abnormal conditions - Google Patents

Abstract

FIELD: electrical engineering. SUBSTANCE: motor protection against phase failure, abnormal phase sequence, and unbalance of supply mains is afforded by special circuit schematic of protective gear enabling disconnection of motor under protection from supply mains upon occurrence of abnormal situations. EFFECT: improved reliability and noise immunity of device. 1 dwg

Description

 The invention relates to electrical devices for protecting three-phase motors.

 Known devices for protecting three-phase motors containing an active-capacitive filter of negative sequence voltage (ed. St. N 1127036, class H 02 H 07/08, priority of the invention June 10, 1983, published November 30, 1984, bull. N 44). The disadvantage of this device is the lack of reliability. The reasons for this are, firstly, low noise immunity with the appearance of non-sinusoidality and interference in the supply network. Noise immunity is also reduced due to the inability to control the threshold (protection settings). Secondly, it does not ensure reliable operation of the device when starting the engine in the absence of voltage in phases A and C.

 The closest in technical essence to the claimed device for protecting a three-phase electric motor from abnormal mode is a protection device according to ed. St. N 1721696, cl. H 02 H 07/08, priority of invention September 11, 1989, publ. March 23, 1992, bull. N 11. The protection device contains an active-capacitive filter of the negative sequence voltage (FNOP), the input connected to the phase terminals of the motor, and the output to the input of the active low-pass filter (LPF), the output of which is connected to an optocoupler switch (OP).

 The disadvantage of this device is the lack of reliability. The reasons for this are, firstly, the presence of device protection elements at high potential relative to neutral, because the housing of the protection device is connected to the terminal of the high-voltage filter, having a high potential, relative to the neutral. This places stringent demands on the quality of the insulation of the device casing relative to the network neutral. Deterioration of insulation due to aging, especially in harsh operating conditions (aggressive environment, high temperature and humidity), will lead to device failure. Secondly, in the shoulders of the FNOP, for its adjustment, it is necessary to use tuning elements (for example, variable resistors). Significant power is released in the FNOP connected to line voltages. Therefore, the presence of trimmer elements in the FNOP that have large temperature coefficients reduces the stability of the FNOP balancing, and therefore the reliability of the protection device, Thirdly, synchronous interference is induced at the outputs of the FNOP during the operation of the electric motor, which are not suppressed in the FNOP and cause the optical switch to operate.

 The technical solution to the problem of this invention is to increase the reliability and noise immunity of the protection of a three-phase electric motor from abnormal conditions.

 The objective is achieved in that a device for protecting a three-phase electric motor from an abnormal mode, comprising an active-capacitive negative-sequence voltage filter, connected to terminals for connecting to the motor power phases, an active low-pass filter and an optocoupler switch, the output circuit of which is connected through an electromagnetic relay to the power source, the contacts of the electromagnetic relay are included in the trip circuit of the magnetic starter, equipped with a cascade with a differential input, on the operational amplifier with adjustable negative feedback and connected inputs to the output of the active-capacitive filter of the voltage of the negative sequence, and the output to the input of the active low-pass filter, while between the inputs of the operational amplifier, a cascade with a differential input, an input protection circuit is activated allowable voltage, consisting of four diodes connected by a rectification bridge circuit, connected to the inputs of an operational amplifier by inputs, a cat is connected to the plus output This is the first zener diode, and the anode is connected to the housing of the protection device, the second zener diode is connected to the negative device output by the anode, and the cathode is connected to the housing of the protection circuit.

 The novelty of the claimed technical solution is due to the fact that in comparison with the known ones due to the introduction of a new cascade element with a differential input with input protection elements, as well as new connections between the elements, the reliability and noise immunity of the motor protection device are increased. When a cascade with a differential input is turned on, the housing of the protection device is connected to the neutral of the network, i.e. vanishes. The balancing of the connection of the FNOP cascade with a differential input is carried out by a low-power negative feedback circuit in a cascade with a differential input and thereby ensures high stability of adjustment. In addition, a cascade with a differential input suppresses common-mode noise received at their inputs. This circuit for connecting a cascade with a differential input to the active-capacitive low-pass filter is unparalleled in the devices known to us.

 According to the patent and scientific literature, the claimed combination of features is not found, which allows us to judge the inventive step of the proposal.

 The invention is illustrated in the drawing, which shows a schematic diagram of a device for protecting the motor from abnormal operating modes.

 The three-phase electric motor protection device includes an FNOP assembled from resistors 1, 2 and capacitors 3, 4, whose inputs 5, 6, 7 are connected to the linear wires of the phases A, B, C and the power supply terminals of electric motor 8. Output 9 of this filter is connected to a capacitor 10 and a resistor 11, which is connected to the inverting input of the operational amplifier 12, and the output 13 is connected to a capacitor 14 and a resistor 15, which is connected to the inverting input of the operational amplifier 12. A rectifier bridge is assembled on the diodes 16, 17, 18, 19. A zener diode 21 is connected to the output 20 of the rectifier bridge by the anode, the cathode of which is connected to the housing 22 of the protection device. A cathode of the zener diode 24 is connected to the output 23 of the rectifier bridge, and the anode is connected to the housing 22 of the protection device. The rectifier bridge, consisting of diodes 16, 17, 18, 19, and zener diodes 21 and 24 constitute a device for protecting the inputs of the operational amplifier 12 from exceeding the permissible voltage at its inputs. Resistor 25 is used to adjust the balance of the low-pass filter and the cascade with a differential input with a symmetry of three-phase network voltages. A resistor 26 is connected to the non-inverting input of the operational amplifier 12. The operational amplifier 12 with capacitors 10, 14, resistors 11, 15, 25, 26 form a cascade with a differential input. Next, the output of the cascade with a differential input is connected to the low-pass filter 27, which consists of capacitors 28, 29 and 30, resistors 31, 32, 33 and 34 and the operational amplifier 35. The low-pass filter 27 is connected to an optocoupler switch 36, consisting of a diode 37, resistors 38, 39, 40, 41, capacitor 42, optocoupler dinistor 43, single-junction transistor 44 and electromagnetic relay 45. Variable resistor 38 is used to set the threshold for the operation of the OP. The protection device is powered from the phase of the voltages AN and BN via a transformer 46 and a bipolar power supply unit (PSU) 47. The motor control circuit 8 consists of a disconnecting button 48, a closing button 49, an electromagnetic starter 50, its blocking contact 51, a thermal relay 52, its opening contact 53, NC 54 of the electromagnetic relay 45, NO 55 of the electromagnetic starter 50. Neutral N is connected to the housing 22.

 The proposed protection device operates as follows.

 The three-phase motor 8 is switched on using the electromagnetic starter 50 by pressing the closing button 49. In this case, the motor 8 is connected to the supplying three-phase network A, B, C by the closing contacts 55 of the electromagnetic starter 50. After releasing the button 49, the electromagnetic starter 50 remains connected to the network through opening button 48, locking contact 51, opening contact 53 of thermal relay 52. Otherwise, the operation of the motor switching circuit is known and does not require further explanation.

 In normal mode, with the symmetry of the supply voltage at the output of the filter, the negative sequence voltage is set to the minimum (theoretically zero) filter unbalance voltage, which is fed to the input of the cascade with a differential input. At the output of the cascade with a differential input in this mode there will also be zero voltage. Next, the voltage is supplied to the low-pass filter 27. The capacitor 42 is charged through the resistor 39 and the diode 37 to a voltage equal to the amplitude value of the voltage at the output of the low-pass filter 27. This voltage is much lower than the switching voltage of the single-junction transistor 44. In this case, the single-junction transistor 44 and the optocoupler transistor 43 are in a closed state, the electromagnetic relay 45 is de-energized and the protection device does not turn on. Engine 8 is operating in the set mode.

 If one of the phases is interrupted on the source side (out-of-phase mode), a significant voltage will appear at the output of the FNOP, which is supplied from output 9 to the inverting input of the operational amplifier 12 through the capacitor 10 and resistor 11, from the output 13 to the inverting input of the operational amplifier 12 through the capacitor 14 and resistor 15. If the voltage supplied to the inputs of the operational amplifier 12 exceeds the permissible values, the input protection circuit will work against exceeding the permissible voltage at the inputs of the operational amplifier 12.

 The protection scheme works as follows. When applying to the inverting input of the operational amplifier 12 a voltage of positive polarity above the permissible value, an electric breakdown of the zener diode 24 occurs and an electric current flows through the diode 17. This current creates an increased voltage drop across the resistor 11, equal to the difference between the input voltage and the voltage at the zener diode 24. And on the non-inverting input, the same processes occur, but with the zener diode 21, diode 19 and resistor 15. When the polarity is changed, the same processes occur for the inverting input - with a zener diode 21, a diode 16 and a resistor 11, for a non-inverting input with a zener diode 24, a diode 18 and a resistor 15.

 Next, the operational amplifier 12 performs mathematical operations of the difference between the voltage at the non-inverting and non-inverting inputs. The difference of these voltages is fed to the input of the low-pass filter 27. After filtering, the voltage is supplied to the input of the OP 36, which is triggered when a certain voltage is exceeded, and the electromagnetic relay 45 with the NC contact 54 disconnects the motor from the network.

The protection device also works when changing the phase sequence of the mains and when capsizing one of the phases of the mains (phase change by 180 ^o ).

 When a voltage asymmetry appears in the mains supply network that exceeds the allowable value for consumers, a voltage will appear at the input of the voltage filter of the negative sequence and the protection device will work. In this case, the response threshold is set by potentiometer 38.

 Thus, the protection device is characterized by increased reliability and noise immunity and provides protection for a three-phase motor from under-phase conditions, overturning of the source phase, from changing the phase sequence, as well as from the asymmetry of the supply voltage exceeding the established norm.

Claims (1)

 A device for protecting a three-phase electric motor from an abnormal mode, contains an active-capacitive negative sequence voltage filter, an input connected to the terminals for connecting to the motor power supply phases, an active low-pass filter and an optocoupler switch, the input circuit of which is connected to a power source through an electromagnetic relay, electromagnetic contacts relays are included in the trip circuit of the magnetic starter, characterized in that the device is equipped with a cascade with a differential input, connected to the operational amplifier with adjustable negative feedback and connected inputs to the output of the active-capacitive filter of the voltage of the negative sequence, and the output to the input of the active low-pass filter, while between the inputs of the operational amplifier of the cascade with a differential input, the input protection circuit is exceeded voltage, consisting of four diodes connected by a rectification bridge circuit, inputs connected to the inputs of the operational amplifier, with its output "Plus" the inener cathode of the zener diode, and its anode is connected to the casing of the device for protection, with the output "Minus" of the rectification circuit connected to the second zener diode by an anode, and its cathode is connected to the casing of the device for protection, while the casing of the device for protection is connected to the neutral of the supply network.