RU2091950C1 - Gear for combined protection of three-phase loads - Google Patents

Abstract

FIELD: electrical engineering, protective gears pf three-phase symmetric (asynchronous motors) and asymmetric loads. SUBSTANCE: gear includes actuating organ 34 and actuating element 33, pickup manufactured in the form of current transformers 12 with resistive loads 3,4, three voltage dividers 11, 26, 20, comparator 14 and release 27 which acts under emergency condition on actuating mechanism and actuating organ 34 creating overload characteristic (i. e. dependence of overload time on its multiplicity) of hyperbolic type. Comparator and release can be made on discrete elements of digital logic. Additional source with button placed into circuit of third key 36 controlling second key 32 and actuating element 33 is used for unlocking. EFFECT: expanded functional capabilities and increased reliability of protection gear. 3 cl, 1 dwg

Description

 The invention relates to electrical engineering and can be used in protective conditions of three-phase symmetric and asymmetric loads.

 A known combined protection device [1] comprising a current sensor, an actuator and an actuator, in which an RC circuit is used as a driver, and a zener diode is used in the actuator control circuit.

 The disadvantage of this device is the impossibility of protection with an asymmetric network or load, the discreteness of the installation of the overload factor, a significant impact on the accuracy of the operation of technological dispersion of elements, incoming and current-setting circuits.

 The closest in technical essence to the claimed device is a combined protection device [2] selected as a prototype, comprising an actuator included in each of the phases of the network, an overload sensor included in one of the phases, a control device made on operational amplifiers, and an actuator acting on the executive body.

 A disadvantage of the known device is the lack of adjustment of protection (the ratio of the minimum current to maximum is rigidly fixed), the inability to protect under asymmetric modes, the lack of monitoring of the load state, the large intrinsic consumption on powerful resistive dividers, the complexity of the device.

 The aim of the invention is to expand the functionality and improve reliability indicators.

 The goal is achieved in that in a device containing an actuator included in each phase of the network, an overload sensor, a control unit, an actuator, an overload sensor is included in two of three phases, made in the form of current transformers with a resistive load, connected to two circuits rectification, the control unit is made in the form of a voltage regulator with three first voltage limiting resistors connected in series to the potential positive input terminal in series with the potential terminals output the negative terminal of the voltage regulator, others respectively to the output of the first limiting resistor connected to the capacitor of the first smoothing filter, and the positive terminal of the capacitor of the timing circuit, a comparator, the first input of which is connected through the second limiting resistor to the potential output of the voltage regulator, the second to the RC filter connected to the output of the first passive resistive divider, the output of the said comparator is connected to the output of the first key, which is the axis of the active resistive divider element, the transistor emitter of which is connected to a common negative output terminal, the output of the aforementioned key is connected to a timing circuit containing a collector resistor of the first key, a resistor connected in parallel to the discharge circuit containing a series resistor and a diode, and a capacitor connected to the positive the output to the connection point of the aforementioned resistor and the anode of the diode of the discharge circuit, negative to the total output negative output of the voltage stabilizer, p at the same time, a second passive-resistive divider is connected, the output of which is connected via the trigger to the output of the second switch, the emitter of which is connected to the common negative output terminal of the voltage regulator, the actuator is included in the collector circuit with the first output, the second terminal of which is connected to the positive terminal of the second smoothing filter capacitor moreover, the contacts of the actuator are included in the circuit of the actuator.

 In addition, the device is characterized in that the comparator is made on two NAND elements, the inputs of which are the input of the first element, the output is the connection point between the first and second elements, the output of which is connected through the third limiting resistor to the second input of the first element, which is the second input switch, the trigger device is made on two inverters, between the output of the second and the input of the first a fourth limiting resistor is installed, and to the output of the second element of the comparator through the fifth limiting ezistor connected to the input circuit of the third switch, whose emitter is connected to the negative output of the stabilizer, a collector through sixth LED current limiting resistor and to the positive output of the stabilizer.

 In addition, an additional DC voltage source and a fourth two-stage key on transistors of various types of conductivity are introduced into the device, the emitter of the second transistor of the mentioned key is connected to the common negative output terminal of the voltage stabilizer, the collector of the first transistor to the positive terminal of the capacitor of the first smoothing filter, and the emitter of the first transistor to one of the outputs of the reset button, connected in series to the circuit of an additional constant voltage source in l a single-phase AC voltage source, a start button, a stop button, a second actuator and a control triac are connected in series, with a control contact of the second actuator connected in parallel with the start button, an eighth limiting resistor and a control contact of the first actuator, and the fourth two-stage key through the seventh limiting resistor is connected to the input of the second key.

 A comparative analysis with the prototype shows that the proposed device is characterized by the presence of new nodes and connections (for example, comparators, a new sensor, a trigger device) and connections with other nodes of the element.

 Thus, the claimed device is new, because unknown from the prior art.

 Comparison of the claimed device with other technical solutions shows that with the introduction of new nodes with the indicated relationships with other elements, new properties appear, such as enhanced functionality and increased reliability.

 This allows us to conclude that the technical solution has an inventive step, because for the authors it does not explicitly follow from the prior art.

 The drawing shows a structural schematic diagram of a device.

 The device contains two current sensors 1, 2, included in any two of the three phases of the load and loaded on resistors 3, 4, (one or two half-wave, for example, Grets circuit) 5, 6, connected in parallel to the first smoothing filter 7, in the power bus through the first the limiting resistor 8 is connected to a voltage stabilizer 9 (for example, a parametric stabilizer with an amplifying transistor), the output of which is connected to the second smoothing filter 10, to the total source, i.e. to the positive terminal of the capacitor 7 and the general negative terminal of the voltage stabilizer, a first passive-resistive divider 11 is connected, the output of which is connected to an RC filter consisting of elements 12, 13, the connection point of which is the second input of the comparator 14, the first input of which is through the second limiting a resistor 15 is connected to the potential positive busbar output of a stabilized voltage source 9, the comparator 14 can be performed, for example, on two elements AND 16, 17, the inputs of which are the outputs of the first of the second element, the output connection point between the first and second, and between the output of the second element 17, and the second input of the first, a third resistor 18 is installed. The output of the comparator 14 is connected through a resistor 19 to the input of the first key on the transistor 20, which is an element of the active-resistive divider together a resistor 21, the output of the key 20 is connected to a timing circuit containing elements 21, 22, 23, 24, 25.

 Elements 23, 24 are a discharge circuit, the first output of the resistor 21 is connected to the positive (potential) output bus (output) of the voltage stabilizer 9, the second output to the collector of the first key 20 and the connection point of the first outputs of the resistors 22, 23, the second output of the resistor 23 is connected to the cathode of the diode 24, the anode of which is connected to the second terminal of the resistor 22 and the positive terminal of the capacitor 25, the negative terminal of which together with the emitter of the first key 20 is connected to a common bus - the output of the voltage regulator 9. To the capacitor 25 a second passive-resistive divider 26 is connected, the output of which is connected to the output of the trigger device 27, containing, for example, two inverters 28, 29, a fourth resistor 30 is installed between the output of the second inverter 29 and the input of the first, the output of the trigger device through the resistor 31 is connected to the output the second key 32 connected to the positive potential output of the voltage stabilizer 9, and the emitter of the second key 32 is connected to a common negative bus (output) of the voltage stabilizer 9, the first and additionally member 33 acting on the actuator 34, such as a magnetic contactor, and disconnecting the load 35.

 For monitoring and signaling, a third switch 36 is installed, the input circuit of which is connected through the fifth resistor 37 to the output of the second element 17 of the comparator 14, the output through the sixth resistor 38 and the LED 39 to the potential output of the stabilized voltage source, i.e. positive stabilizer output.

 To reduce current consumption, elements of CMOS logic (for example, K 561 LA7) that do not require a stabilized voltage can be used as elements 16, 17, 28, 29.

Through the enable button 40 to an additional DC voltage source + U _add 41, the voltage of which can be close to the voltage, a fourth two-stage switch is connected on the capacitor 7 on a composite transistor of different types of conductivity, the emitter of the first transistor 42 is connected to one of the terminals of the enable button 40, it the collector to the positive terminal of the first capacitive filter 7, the emitter of the second transistor 43 is connected to a common negative output terminal, and its base, which is the input of the 4th key, through the 7th limit Tel'nykh resistor 44 to the input of the second key.

 The second actuator 45 is connected in series to the circuit U ≈ 46 (any single-phase source of the existing three-phase network) together with the start button 47 and the stop button 48, the control terminal 49 of the second actuator 45 is connected in parallel with the button 47, and the control triac 50 is connected in series with the element 45, those. elements 45, 47, 48, 50 are connected in series to the source circuit 46. The 8th limiting resistor 51 and control pin 52 of the first actuating element 33 are connected in series with the triac control circuit.

 The device operates as follows.

In normal operation, current passing through current transformers 1 and 2 does not exceed the normal value I _nom. , the protection device is in standby mode, while consuming a minimum amount of energy. The voltage on the load resistors 3, 4 of current transformers 1, 2 is such that the voltage on the lower arm of the divider 11 is not enough to turn on the comparator 14, and at the output its signal log "1" opens the key on the transistor 20. The capacitor 25 through the discharge circuit 23, 24 completely discharged. The trigger device 27 is in a position where the key on the transistor 32 is closed, the actuator 33 is turned off, the actuator 34 is turned on, and the load 35 is connected to a three-phase voltage. At the output of element 17 of comparator 14, the log signal is "O", key 36 is closed and LED 39 is turned off, i.e. not glowing.

In emergency operation, when a current passes through current transformers 1, 2 (or one of them), a voltage greater than 1 nom increases the voltage across resistors 3, 4, depending on the magnitude of the load current. The voltage on the lower arm of the divider 11 increases, and when a certain threshold is reached, the key on the transistor 20 is closed. A similar voltage is applied to the timing circuit 21, 22, 25. The charge time of the capacitor 25 will be determined by the value of the input voltage, i.e. the inverse dependence of the charge time on the overload ratio is realized: the larger the overload current, the shorter the charge time of element 25. If, however, during the charge of the capacitor, the voltage on the lower arm of the divider falls below the threshold (U _then ), for example, the load decreases, the motor starts to run, then the comparator 14 returns to its initial state and the capacitor 25 is quickly discharged through the elements 23, 24 and the public key 20. If the voltage continues to exceed U _then the capacitor 25 is charged to the level specified by the upper Chom divider 26, which triggers the trigger device 27, including the key on the transistor 32 and the first actuator 33, which, acting on the actuator 34, disconnects the load 35 from the three-phase network. At the same time, the key on the transistor 36 is turned on and the signal from the element 39 indicates an emergency state of the load.

 In order for the protection device to not work out before determining the causes of the emergency condition when the three-phase power network is turned on, an unlocking device is provided containing elements 40-44. The device is turned on by pressing the button 47, the second actuator 45 is turned on, the control triac 46 is turned on, because the second key 32 is closed and the control contact 52 is closed, the control contact 49 is turned on, i.e. self-locking mode is carried out. When the first actuating element 33 is triggered in an emergency state, its control contact 52 in the control circuit of the triac 50 is opened, as a result of which the control circuit of the executive body 34 is opened through the power contacts 33 of the first actuating element. Re-activation by pressing the start button 47 will not occur, because the fourth two-stage key on the transistors 42, 43 and then the second key on the transistor 32 will turn on. The first actuator 33 in this mode will be turned on, i.e. its control triac 50 is disabled.

 Only after release, i.e. pressing the button 40 opens the control circuit of the second key 32, closes the control contact 52 and the protection device by pressing the start button 47 is prepared for the next inclusion; on the other hand, in normal operation, the fourth two-stage switch is closed and does not interfere with load control using elements 47 and 48.

Claims (3)

 1. A device for combined protection of three-phase loads, comprising an actuator included in each phase of the network, an overload sensor, a control unit and an actuator, characterized in that the overload sensor is included in two of the three phases, made in the form of current transformers with a resistive load, connected to two rectification schemes, the control unit is made in the form of a voltage stabilizer with a first limiting resistor in series with three voltage dividers connected in series to the potential positive input output voltage connected by one of the outputs to the common negative output of the voltage stabilizer, others respectively to the output of the first limiting resistor connected to the capacitor of the first smoothing filter, and the positive terminal of the capacitor of the timing circuit, a comparator, the first input of which is connected through the second limiting resistor to the potential positive output of the stabilizer voltage, the second to the RC filter connected to the output of the first passive-resistive divider, the output is comparate pa is connected to the input of the first key, which is an element of the active resistive divider, the emitter of which is connected to the common negative output terminal of the voltage regulator, the output of the mentioned key is connected to the timing circuit containing the collector resistor of the first key, a resistor connected in parallel to the discharge circuit containing series connected a resistor and a diode and a capacitor connected by a positive terminal to the junction point of the resistor and the anode of the diode of the discharge circuit, negative to the total one negative terminal of the voltage regulator, in parallel with the capacitor, a second passive-resistor divider is connected, the output of which is connected via the release device to the input of the second switch, the emitter of which is connected to the common negative output terminal of the voltage regulator, the actuator is connected to the collector circuit with the first terminal, the second terminal of which is connected to the positive terminal of the capacitor of the second smoothing filter, and the contacts of the actuating element are included in the circuit of the authority.  2. The device according to claim 1, characterized in that the comparator is made on two NAND elements, the inputs of which are the inputs of the first element, the output is the connection point between the first and second, the output of which is connected through the third limiting resistor to the second input of the first element, which is the second input of the comparator, and the trigger device is made on two inverters, between the output of the second and the input of the first a fourth limiting resistor is installed, and connected to the output of the second comparator element through the fifth limiting resistor hist input circuit of the third switch, whose emitter is connected to the negative output voltage regulator, and whose collector is via a limiting resistor and the sixth LED to the positive output potential stabilizer.  3. The device according to claims 1 and 2, characterized in that an additional constant voltage source and a fourth two-stage key are introduced on transistors of different types of conductivity, the emitter of the second transistor of the said key is connected to a common negative output terminal of the voltage stabilizer, the collector of the first transistor to the positive terminal of the capacitor the first smoothing filter, and the emitter of the first transistor to one of the terminals of the reset button, connected in series to the additional source of constant voltage, in the circuit of a single-phase AC voltage source, a start button, a stop button, a second actuator and a control triac are connected in series, and a control contact of the second actuator is included in parallel with the start button, an eighth limiting resistor and a control contact of the first actuator are connected in series to the triac control circuit and the input of the fourth two-stage key through the seventh limiting resistor is connected to the input of the second key.