SU928450A1 - Quick-action switching device with overcurrent protection - Google Patents

Description

The invention relates to electrical engineering and can be used to control high-speed switching devices with protection against overcurrents.

Known switching devices ⁵ comprising a control signal source, a switching element based on a two-winding relay with self-holding 'terminals, terminals for connecting a current source. And loads, a resistor and a diode Щ · ¹ A disadvantage of known devices' is the low reliability due to the limited speed and the presence of overvoltages in the supply circuits.

The closest technical solution to the invention in terms of means and the achieved result is a switching device containing two double-winding relays with turning on and off windings and contacts, terminals for connecting a current source, a load in the form of an electromagnetic mechanism and a source of control signals (J.

A disadvantage of the known device is the low reliability due to the limited speed and the presence of overvoltages in the power supply circuits.

The purpose of the invention is to increase reliability and speed.

This goal is achieved by the fact that the high-speed switching device is equipped with a diode, and the switching windings of both relays are connected by one terminal to one of the terminals for connecting the control signal source, the second terminal for connecting which is connected to one of the terminals of the disconnecting winding of the first relay and through contact of the first switch to one of the terminals of the second tripping relay coil, the second terminals of all coils of both relays are connected to one of the terminals for connecting a load and used ⁴ Reflux vkpyuprintsipialkommutiruyu10 source of current, the second terminal for pod.klyucheniya which are interconnected via a make contact of the first relay, and terminals for connecting the load are shunted by a chain of series-connected normally open contact of the second relay minutes chennogo diode.

The drawing shows the wiring diagram of the device with protection against overcurrents.

. The switching device contains ^ terminals for connecting the electromagnetic mechanism 1, terminals for connecting the current source 2, the first two-way relay 3 with 4 and disconnecting 5 windings, make contact 6 of relay 3, terminals 7 and 8 for connecting the source 9 of the control signal, diode 10, the second double-wound relay 11 with 12 including and 13 disconnecting windings, make contact l4 of relay 11. Open contact 15 of relay 3. Double-wound relays 3 and 11 are made with a self-holding device.

The switching device operates as follows.

When applying the drive from the first input 7 of the source of the control signal 9 to the switching winding 4 of the relay 3 and including the winding 12 of the relay 11, the contact 6 of the relay 3 and the contact 14 of the relay 11 are closed, thereby connecting the electromagnetic mechanism 1 to the current source 2 and closing the circuit of the shunt diode 10. At the same time, contact 15 of relay 3 opens, opening the power supply circuit of the disconnecting winding 13 of relay 11. At the same time, the electromagnetic mechanism 1 is switched on and the control signal is removed from the first output. 7 · To turn off the electromagnetic mechanism 1, a signal from W each output 8 of the source 9 of the control signal. In this case, the trip winding 5 of relay 3 is triggered first, thereby disconnecting the electromagnetic mechanism 1 from the current source 2 by opening contact 6 of relay 3. At the same time, contact 15 of relay 3 is closed, which connects the disconnecting winding 13 of relay 11, after which contact 14 of relay 11 and the circuit of the diode 10 is broken.

Thus, when the electromagnetic mechanism 1 is turned off, the contact is first opened. 6 relay 3, breaking the power supply circuit of the electromagnetic mechanism 1, and then contact 14 /

relay 11, the circuit of the diode 10 is broken and the passage of the self-induction current through the electromagnetic mechanism is stopped. The time between the opening of contact 5 'so 6 of relay 3 and contact 14 of relay 11 is equal to the response time of the disconnecting winding 5 of relay 3. Since this time is much less than the time constant of the electromagnetic mechanism, the use of the proposed device can significantly reduce the response time (release) of the electromagnetic mechanism.

Thus, the use of the invention makes it possible to ensure a rapid decrease in the current in the winding of the electromagnetic mechanism and to exclude the delay of its shutdown, as well as to protect other consumers from overvoltages (extracts) along the supply circuits.

Claims (2)

 The invention relates to electrical engineering and can be used to control high-speed switching devices with overcurrent protection. Switching devices are known, which contain a control signal source, a switching element on the core, a new self-holding two-winding relay, terminals for connecting the source circuit and load, a resistor and an OJ diode. A disadvantage of the known devices is low reliability due to limited speed and overvoltages. on food chains. The closest technical solution to the invention in terms of the result achieved is a switching device containing two two-winding relays with on and off windings and contacts, terminals for connecting the current source, the load in the form of electromagnetic; Nogset mechanism and control signal source 2. A disadvantage of the known device is the low reliability due to the limited speed and the presence of overvoltages along the supply circuits. The purpose of the invention is to increase reliability and speed. The goal is achieved by the fact that the fast switching device is equipped with a diode, and the switching windings of both relays are connected by one pins to one of the terminals for connecting a source of control signals, the second terminal for connecting which is connected to one of the disconnecting windings of the first relay and through an open contact the first relay to one of the outputs of the breaking winding of the second relay, the second outputs of all the windings of both relays are connected to one of the terminals for connecting the load and the source current, the second, terminals for connecting which are interconnected through the closing contact of the first relay, and terminals for connecting the load are bridged by a circuit from the series-connected closing contact of the second relay and a reverse-connected diode. The drawing shows a circuit diagram of a switching device with overcurrent protection. . The switching device contains the terminals for connecting the electromagnet mechanism 1, the terminals for connecting the current source 2, the first two-winding relay 3 with the switching on k and the breaking winding 5 windings, the closing contact 6 of the relay 3, the terminals 7 and 8 for connecting the control signal source 9, a diode 10, the second two-sided relay 4 with a flashing 12 and the disconnection of 13 windings, the closing contact l4 of the relay 11, the disconnecting contact 15 of the relay Z. The double-winding relays 3 and 11 are made with a self-holding device. The switching device operates as follows. When supplying "; the signal from the first input 7 of the control signal source E to the switching winding k of the relay 3 and the switching winding 12 of the relay 11 is closed, the contact 6 of the relay 3 and the contact H of the relay 11 thereby connects the electromagnetic mechanism 1 to the current source 2 and a short circuit shunt diode 10. At the same time, the contact 15 of the relay 3 opening circuit and the disconnecting winding 13 of the relay 11 are opened. This switches the electromagnetic mechanism 1 into operation and removes the control signal from the first output. To turn off the electromagnetic mechanism 1, a signal is supplied from the second output 8 of the source 9 of the control signal. In this case, the tripping winding 5 of the relay 3 is first tripped, thereby disconnecting the electromagnetic mechanism 1 from the current source 2 by opening contact 6 of relay 3. At the same time, contact 15 of relay 3 closes, which connects the tripping winding 13 of relay 11, and then contact 1 of relay 11 opens and the circuit of diode 10 is broken. Thus, when the electromagnetic mechanism 1 is turned off, contact 6 of relay 3 first opens, the supply circuit of the electromagnetic mechanism 1 is broken, and then the contact of relay 11 opens, diode 10 is broken and ohozhdenie self-induction current through the electromagnetic mechanism. The time between the opening of the contact 6 of the relay 3 and the contact k of the relay P is equal to the response time of the disconnecting winding 5 of relay 3. Since this time is much less than the constant time of the electromagnetic mechanism, the use of the proposed device significantly reduces the response time (release) of the electromagnetic mechanism. Thus, the use of the invention allows to provide a fast current drop in the winding of the electromagnetic mechanism and eliminate the delay of its disconnection, as well as to protect other consumers from overvoltage of scientific research institutes (extracts) along the supply circuits. Claims of the invention High-speed when it is a switching device with protection against extracurrents, containing two double-winding relays with on and off windings and contacts, terminals for connecting a current source, a load in the form of an electromagnetic mechanism and a source of control signals, which are different in order to increase reliably and speed, it is equipped with a diode, and including the windings of both relays are connected by one of the terminals to one of the terminals for connecting the source of control signals, the second terminal for connection of which is connected to one of the terminals of the disconnecting windings of the first relay and through the disconnecting contact of the first relay to one of the outputs of the disconnecting windings of the second relay, the second, the conclusions of all the windings of both relays are connected to one of the terminals for connecting the load and the current source, the second terminals for connecting interconnected through the make contact of the first relay, and the terminals For load connection are shunted by a circuit of the second relay connected in series and the reverse contact diode. Sources of information taken into account in the examination 1. P. Egorov. Electromagnetic mechanisms and switching equipment. Kharkov, 1970, p. 139. 2. USSR author's certificate in K 2969037/27-07, application. cl. And 02 H 7/18, Oit.08.80.