PL155998B1 - Circuit arrangement for simultaneously determining and chaging time-current characteristics of circuit-breaker thermal releases - Google Patents

Abstract

System for simultaneous testing and adjustment of characteristics time-current thermal releases circuit breakers consisting of a circuit current containing a connected voltage stabilizer with magnetic amplifier working as current regulator connected to the test transformer connected to the measuring unit current and tested combined circuit breakers in series with the units mentioned and control circuit characterized in that a voltage stabilizer (SN) is connected to a magnetic amplifier (WM) through autotransformer (AT) and circuit starting (UR), and the magnetic amplifier (WM) from test transformer (TP) through a filter system (UF) of the third and fifth harmonics and the main thyristor sphincter (GZT), and the second input of the autotransformer (AT) is connected to the measuring system current (UPP) via the range switching unit (UPZ) and the matching circuit (UD), and the second input the magnetic amplifier (WM) is connected to the starting system input (UR) through the fire extinguishing system field (UGPW) whose subsequent inputs are connected through range switching with a transformer tester (TP) and current measuring system (UPP) and control system of electronic jumpers (USZE 1-12), then the output of the magnetic amplifier (In M.

Description

The subject of the invention is a system for the simultaneous testing and adjustment of the time-current characteristics of thermal triggers of circuit breakers.

There is known from the USSR patent specification No. 522,528 a device for automatic fuse control containing, for example, an electromagnetic switch, which is characterized in that, in order to increase the certainty of control and simplify the structure, the device is equipped with an additional maximum current relay and a switch, both switches are connected are with fuse outputs and with a maximum current relay and are connected to the fuse inputs.

There is also known from the USSR patent description No. 898,534 a device for determining the condition of fuses, which includes a switch and fuse condition transmitters, connected in parallel to the fuses through contacts, characterized in that, in order to increase the reliability, the switch contains the number of fuse monitored outputs by one more than number of controlled fuses, with all the switch contacts fixed, except the free one

155,998 are connected to one switch pins, and mobile status sensors made in the form of serially connected LEDs and resistors are connected to other appropriate fuse leads.

A system for the simultaneous testing of the time-current characteristics of many fuse-links is also known from the Polish patent application No. 140473, which is characterized in that the test current circuit supplying the tested fuse-links includes a voltage stabilizer connected to a magnetic amplifier operating as a current regulator. The magnetic amplifier is connected to a test current transformer connected with a current measuring unit and tested fuse sockets connected in series with the current transformer. The system is also equipped with a control circuit, which is powered from the power supply block, the input of which is supplied with signals from the pulse generator block. One output of the pulse generator is connected through a signaling block with blocks of current sensors, electronic jumpers, digital time meters connected to each socket of the tested fuse, and the other output with the current circuit through an electronic jump switch and with a magnetic amplifier, while between the second output of the pulse generator block and the other the output of the control unit block is on.

System for simultaneous testing and adjustment of the time-current characteristics of thermal releases of circuit breakers according to the invention, consisting of a current circuit containing a voltage stabilizer connected with a megnetic amplifier working as a current regulator connected with a test current transformer connected with a current measuring unit and the tested circuit breakers connected in series with of the above-mentioned units and the control circuit, characterized by the fact that the voltage stabilizer is connected to the magnetic amplifier through an autotransformer and a starting system, and the magnetic amplifier with the test transformer through a system of third and fifth harmonic filters and the main thyristor jumper. The second input of the autotransformer is connected to the current measurement system through the range switching unit and the matching circuit, and the second input of the magnetic amplifier is connected to the output of the start-up circuit through the field extinguishing system, the next inputs of which are connected through the range switching system with the test transformer and the current measurement system, and control system of electronic jumpers. The next output of the power amplifier is connected via a feedback circuit with the current transformer and the range switching circuit connected to the test transformer and the current measurement circuit, while the next input of the magnetic amplifier is connected to the magnetic amplifier supply circuit through the test current control circuit. The main thyristor jumper is connected with the electronic jumper, the test transformer and the current measurement system, and the control circuit includes a control and signaling system connected in parallel with the tested circuit breaker, the circuit-breaker actuation and current flow signaling system, electronic short-circuit, contact jumper, short circuit control and current flow time measurement systems . The electronic sphincter acts directly on the contactor sphincter, while the input of the sphincter is connected with the supply system, the second input is connected with the electronic control system powered from the supply system. The current flow time measurement system is connected to the power supply system through a generator.

The advantageous effect of the invention is that it allows the simultaneous testing and adjustment of the time-current characteristics of the thermal trip units. The system provides digital measurement of the test duration.

The system according to the invention is shown in more detail in the block drawing.

The system for simultaneous testing and adjustment of the time-current characteristics of thermal trip units consists of an MV voltage stabilizer connected to the WM megnetic amplifier through the AT autotransformer and the UR starting system. Further, the WM magnetic amplifier is connected to the TP test transformer through the third and fifth harmonic UF filter system and the main thyristor GZT short-circuit. The second input of the AT autotransformer is connected to the UPP current measurement system through the UPZ range switching unit and the UD matching circuit, while the second input of the WM magnetic amplifier is connected to the output of the UR start-up system through the UGPW field extinguishing system, which

155 998 the next inputs are connected via the range switching system with the TP test transformer and the UPP current measurement system as well as the USZE 1-12 control system for electronic jumpers. The next output of the WM power amplifier is connected via the USZ feedback system with the TP test transformer and the UPZ range switching system, which is connected to the TP test transformer and the UPP current measurement system, while the next input of the WM magnetic amplifier is connected to the UZWM magnetic amplifier power supply system via test current control system URPP. At the same time, the main thyristor GZT sphincter is connected with the ZE 1-12 electronic sphincter, the TP test transformer and the UPP current measurement system.

The system also includes a control circuit, which is connected in parallel with the circuit breaker under test and consists of the USZW1-12 circuit-breaker actuation and current flow control and signaling system, ZE 1-12 electronic short-circuit, ZS1-12 contact jumper, USZE 1-12 short-circuit control system and the current flow time measurement circuit UPC1-12. The electronic jumper ZE 1-12 has a direct impact on the contact jumper ZS 1-12, while the input of the ZE 1-12 jumper is connected with the power supply system of the UZZE and the output of the electric control system USZE 1-12 supplied from the power supply system UZUS, and the time measurement system current flow UPC 1-12 is connected to the UZUP supply system through the G generator.

After connecting the system to the network, the current circuit is turned on after 60 seconds, after the MV voltage stabilizer warms up, with the UR starting system turned on at the same time. After i s, the UR starting system is short-circuited, which prevents a surge load of the MV voltage stabilizer. The current flows through the WM magnetic amplifier, the control input of which is supplied with a signal from the UGPW field extinguishing system, which enables a gentle rise of the current in the WM magnetic amplifier. In the secondary circuit of the WM magnetic amplifier, in the absence of BW1-12 switches in the sockets, the ZE1-12 electronic jumpers and the ZS1-12 contactor jumpers are activated, which ensures the continuity of the current circuit. After setting the test current required by the standard, the tested circuit breakers are switched on, which causes the simultaneous activation of the UPC1-12 time counters. When the circuit breaker is actuated, the USZW1-12 control system is signaled, the ZE1-12 electronic short-circuit and the ZS1-12 contact jumper short-circuit, and the UPC1-12 current measurement system is stopped, and the main thyristor GZT short-circuit occurs at the same time. When the current passes through zero, the main thyristor sphincter GZT opens, which causes the flow of the test current in the tested circuit. The system signals the operation of each tested circuit breaker as well as the measurement of the test time of the circuit breakers. Stabilization of the test current is achieved by switching on the USZ feedback circuit, which is connected to the input of the test transformer TP and the control input of the WM magnetic amplifier, and the UF filter system of the third and fifth harmonics. Such a connection provides the shape of the test current required by the standard.

Department of Publishing of the UP RP. Circulation 100 copies

Price: PLN 3,000

Claims (1)

Patent claim A system for the simultaneous testing and adjustment of the time-current characteristics of thermal triggers of circuit breakers, consisting of a current circuit containing a voltage stabilizer connected with a megnetic amplifier working as a current regulator connected with a test current transformer connected with a current measuring unit and the tested circuit breakers connected in series with the above mentioned units and control circuit, characterized in that the voltage stabilizer (MV) is connected with the magnetic amplifier (WM) through an autotransformer (AT) and the starting system (UR), and the magnetic amplifier (WM) with the test transformer (TP) through the filter system (UF) the third and fifth harmonics and the main thyristor jumper (GZT), while the second input of the autotransformer (AT) is connected with the current measurement system (UPP) through the range switching unit (UPZ) and the matching circuit (UD), and the second input of the magnetic amplifier (WM) connected to the entrance em of the start-up system (UR) through the field extinguishing system (UGPW), the next inputs of which are connected via the range switching system with the test transformer (TP) and the current measurement system (UPP) and the control system for electronic jumpers (USZE 1-12), and the next the output of the magnetic amplifier (WM) is connected via the feedback system (USZ) with the current transformer (TP) and with the range switching system (UPZ) connected with the test transformer (TP) and the current measuring system (UPP), while the next input of the magnetic amplifier (WM ) is connected to the magnetic amplifier power supply system (UZWM) through the test current control system (URPP), while the main thyristor sphincter (GZT) is connected with the electronic short-circuit (ZE 1-12) and the test transformer (TP) and the current measurement system ( UPP), and the control circuit includes a control and signaling system connected in parallel with the tested circuit breaker and the current flow (USZW1-12), electronic jumper (ZE 1-12), contact jumper (ZS1-12), short-circuiting control system (USZE 1-12) and current flow time measurement systems (UPC 1-12), and electronic jumper (ZE 1-12) directly affects the contactor jumper (ZS 1-12), while the input of the jumper (ZE 1-12) is connected with the power supply system (UZZE) and with the output of the electric control system (USZE 1-12) connected with the power supply system (UZUS ), while the current flow time measurement system (UPC 1-12) is connected to the power supply system (UZUF) through a generator (G).