RU2199788C2 - Device testing serviceability of ac overcurrent protection - Google Patents

Abstract

FIELD: electrical engineering, test of serviceability of maximum-current release devices of automatic switches. SUBSTANCE: technical result of invention consists in provision of separate test of all key units of maximum-current release device built into automatic switch ( of control unit, current pickups and actuating electromagnet ) and in complex test of functioning of maximum-current release device under all forms of emergency conditions in protected network including overloads, single-phase short- circuits to ground and interphase short-circuits both under condition of current short- circuit and under condition of short-circuit behind normally loaded switch. Device testing serviceability of AC overcurrent protection has network power supply source, rectifiers, switches, resistors, capacitors, operational amplifier, light-emitting diode indicator, connector for connection to tested protection. EFFECT: widened range of tested conditions. 1 cl, 2 dwg

Description

 The invention relates to electrical engineering, in particular to devices for checking the serviceability of maximum protection of alternating current, and can be applied to test the performance of maximum current releases of circuit breakers.

 A device [1] is known for test control of current protection of multi-link filters, but it cannot be used to check the maximum current releases of circuit breakers.

 A device [2] is known for monitoring the health of current protection circuits, but it does not provide verification of the control unit and the actuating magnet of the tested protections.

 The device [3, 4, 5, 6] only checks the control unit, but does not check the current sensors and the executive electromagnet.

 Closest to the proposed composition is a device [7], a structural diagram of which is shown in figure 1.

 It consists of a network power source 1, the first and second outputs of which are formed by the outputs of a half-wave bridge rectifier, a voltage driver of the elements included in the test device 2, a test signal conditioner unit 3, a connector 4 for connecting to the circuits of the protection under test, a logical unit 5 associated with unit 3 and 5 and connector 4 of the switches 6, and the alarm unit 7, the inputs of which are connected to the outputs of the logical unit 5.

 The block of test signal shapers 3 comprises a test signal shaper for checking rectifier bridges 8 and a test signal shaper for checking null indicators 9.

 The logical unit 5 comprises a driver of logical signals of serviceability of the rectifier bridges 10 and a driver of logical signals of serviceability of the null indicators 11.

 The outputs of the mains power supply 1 are connected to the supply voltage shaper 2, the test signal shaper for rectifier bridges 8 and the test signal shaper for zero indicators 9; the shaper 8 through the selection switch of the tested bridge 6.1 is connected to the terminals of the connector 4, intended for connection with the inputs of the tested bridges; the terminals of connector 4, intended for connection with the outputs of the bridges under test, are connected to the inputs of the logic driver of the health of rectifier bridges 10, the outputs of which are connected to the corresponding inputs of the signaling unit 7; the shaper of test signals for null indicators is connected to the input of the shaper of logical signals of serviceability of null indicators 11 and the terminals of connector 4 for connecting to the inputs of the tested null indicators; the terminals of connector 4, intended for connection with the outputs of the tested null indicators, through the selector switch of the type of the tested null indicator 6.2 are connected to the inputs of the logical signal generator of operability of the zero indicators 11, the outputs of which are connected to the corresponding inputs of the signaling unit 7.

 The network power source 1 contains a power button, a multi-winding voltage transformer and a half-wave bridge rectifier, the outputs of which form the first and second outputs of the network power source; driver 2 voltage is connected to the outputs of the bridge rectifier and is formed by a capacitive filter and a parametric voltage regulator on the resistor and zener diodes; shaper 9 test signals for checking null indicators consists of resistors, diodes and a polarity switch test signals; shaper 8 test signals for checking rectifier bridges is formed by one of the secondary windings of the transformer and a resistor; the driver 10 of the logical signals of operability of the rectifier bridges (or the control unit of operability of the rectifier bridges) consists of a low-pass filter on an operational amplifier, a Schmidt trigger, and a block for generating a reference signal connected to one of the secondary windings of the transformer; the shaper 11 of the logical signals of serviceability of null indicators consists of repeaters of test and control signals on operational amplifiers in inverting inclusion, operating in zero-organ mode, and a logical block on AND-NOT elements; The alarm unit contains transistor amplifiers and LEDs.

 The device [3] provides a health check of some semiconductor elements that make up part of a certain type of protection device.

 It cannot be used for a comprehensive check of the operation of protection, in particular, the maximum current release of circuit breakers, consisting of a control unit containing threshold overload elements, phase and single-phase short circuits, time delay elements, input elements and other semiconductor elements, and related control unit of external nodes - built-in current sensors and actuating electromagnet integrated in the switch

 The objective of the proposed device is to provide a separate check of all the main components of the maximum current release built into the circuit breaker (control unit and external nodes relative to it - current sensors and an electromagnet), as well as a comprehensive check of the functioning of the maximum current release in all types of emergency in the protected networks - in case of overloads, single-phase earth faults and interphase short circuits (both in the mode of switching on to short circuit and in the mode of otkogo circuit for normally-loaded switch).

 The solution to this problem is provided by the fact that in the device for checking the health of the protection, consisting of a mains power supply, the first and second outputs of which are formed by the outputs of a half-wave bridge rectifier, a voltage driver of the elements included in the test device, a block of test signal conditioners, a connector for connecting to circuits tested protection, logic block, switches associated with the logic block, connector and block of test signal conditioners, and signal block A device, the first input of which is connected to the output of the logic block, in this device the block of test signal generators contains a resistor generator of a test signal for current sensors made in the form of a resistive divider and capacitor, a test signal generator of an executive electromagnet and a test signal generator of a control unit, logical the block contains a shaper of operability of current sensors made in the form of a comparator; the half-period rectifier, the driver of the test signals of the control unit contains switchable phase-to-phase circuit simulator, single-phase circuit simulator, normal load simulator and overload simulator with step-by-step current regulation, made on resistors, and the first output of the mains power supply is connected to the switching contact of the first contact group of the selector switch of the tested nodes , the breaking contact of the first contact group is connected to the first outputs of the shaper I of the power supply and the driver of the test signal of the actuating electromagnet, the closing contact of the first contact group is connected to the first input of the test signal generator of the control unit, the second output of the mains power supply is connected to the switching contact of the second contact group of the switch for selecting the tested nodes, the opening contact of the second contact group is connected to the second inputs driver voltage supply, driver test signal of the actuating electromagnet and the alarm unit, first by the input of the driver of the signal for operability of current sensors and the movable contacts of the first contact groups of all the switches for selecting external nodes, the make contact of the second contact group of the switch for selecting the tested nodes is connected to the second input of the driver of the test signals of the control unit, the output of the driver of the supply voltage is connected to the input of the driver of the test signal of the current sensors and the second input of the current conditioner signal conditioner, the third input of which is connected to the output of the test driver of the current signal of the current sensors and the movable contacts of the second contact groups of the switches for selecting external nodes, the fixed contacts of the first and second contact groups of which are connected to the terminal blocks for connecting to the circuits of the tested current sensors, the output of the driver of the test signal of the actuating electromagnet is connected to the movable contact of the second contact group a switch for selecting external nodes, the fixed contacts of the first and second contact groups of which are connected to the terminals of the connector, For connecting to the circuits of the tested executive electromagnet, the third output of the mains power supply is formed by the output of a half-wave rectifier and connected to the third input of the test signal conditioners of the control unit, the first input of the test signal conditioners of the control unit is formed by the common point of the fixed contacts of the switches of the interfacial short circuit simulator, normal load simulator and overload simulator, the movable contacts of these switches are connected to the first output and corresponding resistors, the second conclusions of which form the first output of the test signal conditioners of the control unit connected to the terminal terminal for connecting to the current input circuit of the tested control unit, the second and third inputs of the test signal conditioners of the control unit are formed by switching contacts of the first and second contact groups, respectively a single-phase circuit simulator switch, the opening contact of the first contact group of this switch forms a second output control unit test signal generators, connected to the terminal of the connector intended for connection with the common wire of the tested protection, the make contact of the first contact group forms the third output of the test signal generator of the control unit, connected to the terminal of the connector, designed to connect to one of the tested current sensors, and the make contact of the second contact group of the single-phase circuit simulator switch is connected through a resistor to the first output of the test signal conditioners control unit.

 Figure 2 shows the structural diagram of the proposed device.

 It contains a network power source 1, a voltage driver of the elements 2 included in it, a test signal conditioner unit 3, a connector 4 for connection to the circuits of the protection under test, a logical unit 5 associated with the connector, a test signal generators unit and a switch logic unit 6, and the signaling unit 7, the first input of which is connected to the output of the logical unit 5.

 The block of test signal shapers 3 comprises a test signal shaper of current sensors 12, made in the form of a resistor 13, a test signal shaper of an actuating electromagnet 14, made in the form of a resistive divider 15, 16, and a capacitor 17, and a test signal shaper of the control unit 18.

 The logical unit 5 contains a driver of a working condition of the current sensors 19, made in the form of a comparator on an operational amplifier 20 and resistors 21, 22.

 The network power source 1 contains a half-wave bridge rectifier 23, the outputs of which form the first and second outputs of the network power source, and an additionally introduced half-wave rectifier 24.

 The test signal generator of the control unit 18 contains an interphase short circuit simulator 25, a single-phase circuit simulator 26, a normal load simulator 27 and an overload simulator 28, respectively made on resistors 29, 30, 31 and resistor 32 with step adjustment and switched respectively by switches 33, 34, 35 and 36.

 The first output of the mains power supply 1 is connected to the switching contact of the first contact group of the switch 6.3 to select the tested nodes, the NC contact of the first contact group of the switch 6.3 is connected to the first inputs of the voltage supply driver 2 and the test signal driver of the actuating magnet 14; the make contact of the first contact group of the switch 6.3 is connected to the first input of the driver of the test signals of the control unit 18.

 The second output of the mains power supply 1 is connected to a switching contact of the second contact group of the switch 6.3 selectable nodes; the opening contact of the second contact group is connected to the second inputs of the supply voltage shaper 2, the test signal shaper of the actuating electromagnet 14 and the signaling unit 7, the first input of the current conditioner of the current transducer 19 in the logical block 5 and the movable contacts of the first contact groups of all external unit selection switches - the first a current sensor 6.4, a second current sensor 6.5, a third current sensor 6.6 and an executive electromagnet 6.7; the make contact of the second contact group of the switch 6.3 selection of the tested nodes is connected to the second input of the shaper test signals of the control unit 18.

 The output of voltage shaper 2 is connected to the input of the driver of the test signal of the current sensors 12 and the second input of the driver of the signal of operability of the current sensors 19, the third input of which is connected to the output of the driver of the test signal of the current sensors 12 and the movable contacts of the second contact groups of the selector switches for external nodes 6.4, 6.5, 6.6 fixed contacts of the first and second contact groups which are connected to the terminals of connector 4, intended for connection with the circuits of the tested current sensors.

 The output of the driver of the test signal of the actuating electromagnet 14 is connected to the movable contact of the second contact group of the switch 6.7, the fixed contacts of the first and second contact groups of which are connected to the terminals of connector 4, intended for connection with the circuits of the tested actuating electromagnet.

 The third output of the mains power supply 1 is formed by the output of a half-wave rectifier 24 and connected to the third input of the test signal generator of the control unit 18.

 The first input of the driver of the test signals of the control unit 18 is formed by a common point of fixed contacts of the switches 33, 35, 36 of the simulator of interphase short circuit 25, the simulator of normal load 27 and the simulator of overload 28; the movable contacts of these switches are connected to the first terminals of the resistors 29, 31 and 32, the second terminals of which form the first output of the test signal conditioners of the control unit 18, connected to the terminal of the connector 4, intended for connection with the current input circuit of the control unit.

 The second and third inputs of the test signal generator of the control unit 18 are formed by switching contacts of the first and second contact groups of the switch 34 of the single-phase circuit simulator 26, respectively; the opening contact of the first contact group of the switch 34 forms the second output of the test signal generator of the control unit 18, connected to the terminal of the connector 4, intended for connection with the common wire of the tested protection; the make contact of the first contact group of the switch 34 forms the third output of the test signal generator of the control unit 18 connected to the terminal of the connector 4 for connecting to one of the tested current sensors, and the make contact of the second contact group of the switch 34 of the single-phase circuit simulator 26 is connected to the resistor 30 the first output of the driver of the test signals of the control unit 18.

 The mains voltage is rectified by a half-wave rectifier 28 and from the first and second outputs of the mains power supply 1 is supplied to the switching contacts of the switch 6.3 to select the tested nodes. With the closed opening contacts of the switch 6.3, which corresponds to the test mode of external nodes (current sensors and the executive electromagnet), the voltage from the opening contacts is supplied to the first and second inputs of the supply voltage driver 2, the first and second inputs of the test signal driver of the executive electromagnet 14, the first input of the driver the health signal of the current sensors 19 in the logic unit 5 and the second input of the alarm unit 7.

 When the contacts of the switch 6.7 are closed from the output of the driver of the test signal of the actuating electromagnet 14 through the terminals of the connector 4, the normalized energy of the charged capacitor 17, determined by the parameters of the resistors 15, 16 and the capacitance of the capacitor 17, is supplied to the coil of the tested actuator electromagnet; if the circuits of the electromagnet under test, its coil and the mechanical part are serviceable and correctly adjusted, the electromagnet is triggered, which is determined visually or by interruption of the current in the circuit of the circuit breaker in which the tested protection is integrated.

 The output voltage of the driver 2 is supplied to the input of the driver of the test signal of the current sensors 12 and the second input of the driver of the signal of serviceability of the current sensors 19. The voltage at the inverting input of the operational amplifier 20 is greater than the voltage at the non-inverting input determined by the divider on the resistors 21, 22, resulting in the output of the driver 19 and the first input of the alarm unit 7, the low voltage and the LED in the alarm unit 7 are off.

 When the contacts of the switch 6.4 are closed and the circuits of the first current sensor of the tested protection are operational through the terminals of the connector 4, the output of the test signal generator of the current sensors 12 is connected through the winding of the tested sensor to the first input of the current conditioner of the current sensor 19; a divider is formed from the resistor 13 and the resistance of the sensor winding, and the voltage at the inverting input of the amplifier 20 becomes less than the voltage at the non-inverting input, a high level voltage appears at the output of the driver 19 and the input of the signaling unit 7; the LED of the alarm unit 7 turns on, which indicates the serviceability of the circuits of the first current sensor being checked; failure to turn on the LED indicates a malfunction in the sensor under test. Similarly, when the contacts of the switches 6.5 or 6.6 are closed, the second and third current sensors are checked.

 When the closing contacts of the switch 6.3 selection of the tested nodes, which corresponds to the test mode of the control unit, rectified by a half-wave rectifier 23, the voltage is supplied to the first and second inputs of the test signal generator of the control unit 18; at the same time, a voltage rectified by a half-wave rectifier 24 is supplied to the third input of the shaper 18.

 When the contacts of the switch 36 of the overload simulator 28 are closed, the current passes through the circuit from the first output of the mains power supply 1 through the closed switching and closing contacts of the first contact group of the switch 6.3, the resistor 32, the terminal of the connector 4, intended for connection to the current input of the control unit, through the block elements control to its common wire, terminal 4 of the connector, designed to connect to a common wire, through a closed opening contact of the switch 34, through a closed making contact of the second 6.3 Comp act group switch to the second output AC power source 1. The stepped resistor knob 32 is set at the same position are determined by the user control unit for setting the rated current of the trip unit; this guarantees a current value at which only overload protection can trip in the control unit, and protection against interphase faults cannot work at any of its settings. Protection against single-phase short circuits cannot also work, because it only responds to current from a half-wave rectifier, the circuit of which in this case is open by the contacts of switch 34. At the end of the corresponding long delay, the circuit breaker will open, which indicates the serviceability of the overload protection in the unit management.

 Similarly, when the contacts of the switch 33 of the interphase short circuit simulator 25 are closed, the serviceability of the protection against interphase short circuits is checked; the current value in this case is determined by the resistor 29 and is selected so that it is sufficient to operate this protection at any set by the consumer setting operation during a short circuit. Opening the circuit breaker at the end of the corresponding short time delay indicates the serviceability of the protection against interphase short circuits.

If there is protection against switching currents in the control unit, the protection against interphase short circuits is checked in two modes:
- short circuit mode;
- short circuit mode for a normally loaded circuit breaker.

 The check in the first mode is carried out in the same way as described above - when the contacts of the switch 33 are closed.

 For verification in the second mode, the contacts of the switch 35 of the normal load simulator 27 are first closed; while the current determined by the resistor 31 is insufficient for the protection to operate; then the contacts of the switch 33 are closed.

 Opening the circuit breaker in the first mode without time delay, and in the second with the corresponding short time delay indicates the serviceability of protection against switching currents.

 When the closing contacts of the switch 34 of the simulator of single-phase faults 26, the current passes through the circuit from the network wire in the mains power supply 1 through a half-wave rectifier 24, the closing contact of the switch 34 of the simulator 26, the resistor 30, the terminal connector 4, designed to connect to the current input of the control unit, control unit elements related to protection against single-phase short circuits, terminal 4 connector, intended for connection with one of the current sensors and connected to the third output of the test driver signals of the control unit, through the closed making contact of the switch 34, through the closed making contact of the switch 6.3, through one of the open diodes of the rectifier 23 to the second network wire in the mains power supply 1. The current value determined by the resistor 30 is selected sufficient to operate the protection against single-phase short circuits at any setting selected by the consumer, which, however, is always less than any setting for protection against interphase short circuits, which ensures the detuning of protection against single-phase and phase-to-phase faults; detuning from protection against overloads - according to the response time, which is always much larger for protection against overloads; tripping a short-time circuit breaker indicates the serviceability of protection against single-phase short circuits of the control unit.

 Thus, the proposed device provides a separate check of all protection nodes - the control unit and external nodes (each of the three current sensors separately and an executive electromagnet), which allows you to specify the faulty node, as well as a comprehensive check of the functioning of the maximum current release in all types of emergency in networks for which the release is intended to be protected against - during overloads, single-phase short circuits and interphase short-circuits (as in the short-circuit switching mode e, and in the short circuit mode for a normally loaded circuit breaker). In addition, the execution of a current-limiting resistor in a step-adjustable overload simulator provides a reliable separation of overload protection and phase-fault protection checks for any combination of settings selected by the consumer.

SOURCES OF INFORMATION
1. A.S. USSR 1534547, H 01 H 69/01, 1990

 2. A.S. USSR 1539861, H 01 H 69/01, 1990

 3. A.S. USSR 1721657, H 01 H 69/01, 1992

 4. Patent RU 2001462, H 01 H 69/01, 1993.

 5. A.S. USSR 1644676, H 01 H 69/01, 1994

 6. Patent RU 2013817, H 01 H 69/01, 1994.

 7. A.S. USSR 1597958 A1, H 01 H 69/01, 1990

Claims (2)

 1. A device for checking the health of the protection, consisting of a mains power supply, the first and second outputs of which are formed by the outputs of a half-wave bridge rectifier, a voltage driver of the elements included in the transverse device, a block of test signal conditioners, a connector for connecting to the circuits of the protection under protection, a logic block, switches associated with the logic block, the connector and the block of the shapers of the test signals, and the alarm block, the first input of which is connected to the output of the logical block, characterized in that the block of test signal generators contains a resistor driver of the test signal of current sensors, made as a resistive divider and capacitor, a driver of a test signal of the actuating magnet and a driver of test signals of the control unit, the logic unit contains a signal driver of a comparator serviceability of current sensors, a half-wave rectifier, a test driver are additionally introduced into the mains power supply the signal of the control unit contains switchable phase-to-phase circuit simulator, single-phase circuit simulator, normal load simulator and overload simulator made on resistors, and the first output of the mains power supply is connected to the switching contact of the first contact group of the selector switch to be checked nodes, the NC contact of the first contact group is connected to the first the inputs of the supply voltage driver and the driver of the test signal of the executive electromagnet, closing the first contact group contact is connected to the first input of the test signal generator of the control unit, the second output of the mains power supply is connected to the switching contact of the second contact group of the switch to select the tested nodes, the opening contact of the second contact group is connected to the second inputs of the supply voltage driver, test driver of the actuating magnet and the alarm unit, the first input of the signal conditioner of the health of current sensors and movable contacts contact groups of all external node selection switches, the make contact of the second contact group of the tested node selection switch is connected to the second input of the test signal generator of the control unit, the output of the voltage driver is connected to the input of the test signal generator of current sensors and the second input of the current sensor conditioner, third the input of which is connected to the output of the driver of the test signal of the current sensors and the movable contacts of the second contact groups of the switch the selection of external nodes, the fixed contacts of the first and second contact groups of which are connected to the terminals of the connector for connecting to the circuits of the tested current sensors, the output of the driver of the test signal of the actuating electromagnet is connected to the movable contact of the second contact group of the switch for selecting the external nodes, the fixed contacts of the first and second the contact groups of which are connected to the terminals of the connector, intended for connection with the circuits of the tested actuating electromagnet, the third the power supply path is formed by the output of a half-wave rectifier and connected to the third input of the test signal conditioners of the control unit, the first input of the test signal conditioners of the control unit is formed by the common point of the fixed contacts of the switches of the interfacial short circuit simulator, the normal load simulator and the overload simulator, the movable contacts of these switches are connected to the first conclusions of the corresponding resistors, the second conclusions of which form the first output the test signal box of the control unit connected to the terminal terminal for connecting to the current input circuit of the control unit, the second and third inputs of the test signal generators of the control unit are formed by switching contacts of the first and second contact groups of the switch of the single-phase circuit simulator, the opening contact of the first contact group of this the switch forms the second output of the test signal conditioners of the control unit, connected to the terminal terminal intended for For connection with the common wire of the protection under test, the make contact of the first contact group forms the third output of the test signal conditioners of the control unit connected to the terminal of the connector intended for connection with one of the tested current sensors, and the make contact of the second contact group of the switch of the single-phase circuit simulator through a resistor is connected to the first output of the test signal conditioners of the control unit.  2. The device according to claim 1, characterized in that in the simulator overload conditioner of the test signals of the control unit, the current-limiting resistor has step-by-step regulation of the resistance value, the number of control steps corresponds to the number of settings of the rated current of the release in the control unit, and the resistance values at each control step are selected from conditions for failure of protection against phase-to-phase faults at any setpoint selected by the consumer when checking operability against overloads.

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