CS239983B1 - Wiring to monitor the set current level - Google Patents

Abstract

The solution concerns a circuit for monitoring the set current level, comprising a current converter with a rectifier and a relay with a parallel-connected filter capacitor and a protective diode. The anode of the rectifier diode, connected to the current converter, is connected via a protective resistor to the base of the transistor, to which the filter capacitor and the regulating resistor are also connected via a first series resistor. The regulating resistor is connected by its second terminal to the cathode of the Zener diode. The collector of the transistor is connected to the first relay terminal. The second series resistor is connected to the second relay terminal, to which the positive pole of an independent direct current source is connected, the negative pole of which is connected to the emitter of the transistor and the second pole of the first filter capacitor. The circuit according to the invention can be used for monitoring the set current level in all types of electric drives even in difficult conditions, for example for monitoring the operation of pumping units in mines.

Description

The invention relates to a circuit for monitoring a set current level, comprising a rectifier current converter and a relay with a parallel connected filter capacitor and a protective diode.

Until now, thermal or electromagnetic protection has been used to monitor the set current level, especially in mining conditions. The disadvantages of these protections are, in particular, high production costs, low speed of operation of the protection and inaccuracy of the set values, which is manifested in fluctuations mainly in thermal protection. Known electronic protections are too complicated, costly and breakdown for these conditions.

These drawbacks are largely eliminated by a wiring for monitoring a set current level, comprising a rectifier current converter and a relay with a parallel connected filter capacitor and a protective diode according to the invention, characterized in that the secondary side output of the current converter is connected to the cathode rectifier diode. The anode of the rectifier diode is connected via a protective resistor to the base of the transistor, to which the first series resistor is also connected, which is further connected to the first terminal of the control resistor. The second terminal of the control resistor is connected to the cathode of the Zener diode, the anode of which is connected to the negative pole of an independent direct current source, to which is also connected one pole of the first filter capacitor. The second pole of the first ore filter condensate is connected on a transistor basis. The transistor emitter is coupled to the negative pole of an independent direct current source. The transistor collector is connected to the first terminal of the relay. The second terminal of the control resistor is further connected to the first terminal of the second series resistor. The second terminal of the second ballast resistor is connected to the second terminal of the relay to which the positive pole of the independent direct current source is connected.

- 2 239 983

The wiring for monitoring the set current level according to the invention shows a high accuracy of setting values which is stable, without fluctuations. Also, the speed of action of the thus formed protection is high. Depending on the configuration, it is possible to monitor either the overload or the unloading of all types of electric drive or the overload and unload monitoring simultaneously. It is easy to manufacture and production costs are low.

In the accompanying drawing, one example of a circuit for monitoring a set current level according to the invention is schematically illustrated.

The circuit for monitoring the uncontrolled current level comprises a current converter 10 to which a rectifier diode 20 is connected to the output 11 on the secondary side. The rectifier diode 20 is connected to the base of transistor 40 via a protective resistor 30. the cathode of the Zener diode 21 is connected to the negative pole of an independent DC power source 70 as well as the second pole of the first filter capacitor 50 and the emitter of the transistor 40. The collector of the transistor 40 is connected to the first terminal of relay 60, the anode of the protective diode 22 and one pole of the second filter capacitor 51. The second pole of the second filter condensate 51 is connected to the positive terminal of the independent DC power supply 70. 60 and second clamp type The first terminal of the second resistor 33 is connected to the second terminal of the control resistor 32 and further to the cathode of the Zener diode 21.

From the output 11 of the secondary side of the current converter 10e the AC voltage is applied to the cathode of the rectifier diode 20 and after rectification it is led in negative polarity from the anode of the rectifier diode 20 through a protective resistor 30 at transistor base 40. 21 through a control resistor 32 and a first series resistor 11. By comparing the two voltages, the circuit is closed or closed. The circuit of transistor 40 switches relay 60. Its contacts, normally open or normally closed, are the output pulse for the tripping mechanism of the kit or signaling.

239 983

The protective diode 22 and the second filter capacitor 51 serve to filter the voltage and protect the transistor 40.

The wiring for monitoring the set current level according to the invention can be used for all types of electric drives where it is necessary to keep the set current consumption. They can also be used in difficult conditions, for example to monitor the operation of pumping units in mines. The circuit can be operated at temperatures from -40 ° to + 60 ° C.

Claims (1)

SUBJECT OF THE INVENTION Wiring for monitoring an uncontrolled current level, comprising a rectifier current converter and a relay with parallel connected filter capacitor and protective diode, characterized in that the output (11) of the secondary side of the current converter (10) is connected to the cathode of the rectifier diode (20) is connected via a protective resistor (30) to the base of the transistor (40), which is also connected to the first series resistor (31), which is further connected by a first terminal of the control resistor (32), the second terminal of which is connected to the cathode ), the anode of which is connected to the negative pole of an independent direct current source (70), to which is further connected one pole of a filter capacitor (50), the other pole of which is connected based on a transistor (40) a direct current source (70) and a collector of which is connected to the first terminal of the relay (60), the second terminal of the oru (32) is further connected to a first terminal of a second ballast resistor (33), the second terminal of which is connected to a second terminal of the relay (60) to which the positive pole of an independent DC power supply (70) is connected.