SU1472971A1 - Device for controlling state of switch in dc load circuit - Google Patents

Abstract

The invention relates to the field of electrical engineering and automation and can be used in equipment monitoring the power circuits of consumers, which are protected by fuses. The aim of the invention is to expand the scope. The goal is achieved by introducing into the device a second opto-diode pair 10 and an auxiliary power source 1. When fuse 3 blows from an auxiliary power source 1, current flows through the optocouplers of the LED pairs 10 and 2, causing the display unit 6 to glow. When the power source 4 is disconnected, the fuse is safely replaced 3. 1 Il.

Description

The invention relates to electrical engineering and automation and can be used in equipment monitoring the power circuits of consumers, which are protected by fuses.

The purpose of the invention is to expand the scope of application by monitoring the state of the fuse both with the mains connected and disconnected.

The drawing shows a diagram of the device.

The device contains an auxiliary power source 1 connected to two series-connected opto-diodes, the photodiode anode of the opto-diode pair 2 is connected to the connection point of the monitored fuse 3 and the power supply 4 plus, the cathode of the opto-diode diode 2 is connected through the resistor 5 to the first output of the display unit 6 Which is the anode of the LED, and the collector of the phototransistor of the optotransmitter pair 7, the emitter of which is connected to the second output of the display unit 6, which is the cathode of the LED, and ground The anode of the LED of the optotransistor pair 7 is connected to the connection point of the controlled fuse 3 and the load 8, the cathode of the LED of the optotransistor pair 7 is connected through the diode 9 to the cathode of the photodiode of the optodiode pair 10 and the anode of the diode 11 whose cathode is connected through a resistor 42 to the connection point of the power supply minus 4 and loads 8.

The device works as follows.

When the fuse 3 is intact, the current from the positive output of the power source 4 flows through the load 8, as well as through the LED of the opto transistor pair 7, the diode 9.1 diode 11 and the resistor 12 to the negative terminal of the power source 4. The phototransistor of the opto transistor pair 7 is opened and by its transition the collector-emitter shunts the display unit 6. From the auxiliary power source 1, the current flows through the LEDs of the opto-diode pairs 10 and 2, the resistor 5 and the open transition of the collector-emitter of the phototransistor of the optotransistor pair 7. Thus, the device is in normal condition and the display unit

5 0 5 0 5

0

s

0

five

6, made in the form of LED, does not light up.

When blown fuse 3, the device operates as follows.

The current through the LED of the optotransistor pair 7 does not flow and the phototransistor of the pair is closed. From the auxiliary source 1, the current flows through the LEDs of the opto-diode pairs 10 and 2, the resistor 5 and the display unit 6, causing it to glow, indicating a fuse 3. The current from the main source 4 flows through the photodiodes of the diode optocouplers 2 and 10, the diode 11 and resistor 12, however, this chain does not affect the operation of the signaling circuit in this situation. When the power supply 4 is disconnected to safely replace the fuse 3, its condition is monitored as follows.

From the auxiliary power source 1, the current flows through the LEDs of the opto-diode pairs 10 and 2, which in this situation begin to work in the photovoltaic mode, Tie, between the anode of the photodiode first and the cathode of the second opto-diode pairs is induced by the electromotive voltage of the opto-transistor LED 7 does not leak, the phototransistor of the specified pair is closed, and therefore the display unit 6 is lit, signaling the defective circuit of the fuse 3. Once the fuse has been replaced, a working fuse is installed, , the circuit from the anode of the photodiode of the opto-diode pair 2 through the fuse 3, the LED of the opto-transistor pair 7, the diode 9 to the cathode of the photodiode of the opto-diode pair 10 will flow. The phototransistor of the optotransistor pair 7 will open, the display unit 6 will go out, indicating the normal state of the fuse. Thus, the device carries out continuous monitoring and signaling of the state of the fuse both in the presence of the mains and in its absence.

Claims (1)

Invention Formula Device for monitoring the state of the fuse in the load circuit A direct current containing the first opto-diode pair, an indication unit, characterized in that, in order to expand the field of application, a second opto-diode pair, an auxiliary power source, the first and second resistors, an optotransistor pair, the first and second diodes, and the photodiode anode are additionally introduced the first opto-diode pair has a terminal for connecting the first output of the monitored fuse and the power source to the connection point; the cathode of the photodiode of the first opto-diode pair is connected to the anode of the photodiode of the second optodiode The pair, the cathode of which is connected to the cathode of the first and the anode of the second diode, the cathode of the second diode is connected to the first terminal of the first resistor, the second terminal of which has a terminal for connecting to the connection point of the power supply minus and the first plus other The output of the load, the power supply source, the minus of which is grounded, is connected to the anode of the LED of the second opto-diode pair, the cathode of which is connected to the anode of the LED of the first opto-diode pair, the cathode of which is connected to the first pin of the second resistor, the second output of which is connected to the first output of the display unit, which is the anode of the LED, and the collector of the phototransistor of the optotransistor pair, the emitter of which connected to the second output of the display unit, which is the cathode of the LED, and grounded, the anode of the LED of the optotransistor pair has a terminal for connecting to the connection point 0 second conclusions of the monitored fuse and load, the cathode of the LED of the opto-transistor pair is connected to the anode of the first diode. Editor N. Gorvat Compiled by S. Balashov Tehred L. Serdyukova Proofreader M. Pojo Order 1718/51 Circulation 694 VNIIPI State Committee for Inventions and Discoveries at the State Committee on Science and Technology of the USSR 113035, Moscow, Zh-35, Raushsk nab. 4/5 Subscription