CS216486B1 - Rectifier with the timin circuit - Google Patents

Abstract

The subject of the invention is a rectifier with a timing circuit, especially for powering electromagnets with special regard to high operational reliability and minimal dimensions. The essence of the invention lies in the fact that an uncontrolled rectifier in a bridge connection has a common branch with a controlled rectifier, which is controlled by two thyristors by means of a timing circuit, the output of the uncontrolled rectifier being connected to one winding of the electromagnets and the output of the controlled rectifier being connected to the other of the electromagnets. The timing circuit consists of a series-connected charging capacitor and a resistor connected to diodes, which are connected to the control electrodes of the controlled valves together with resistors, while a discharging resistor is connected in parallel to the charging capacitor.

Description

The present invention is a rectifier and a timing circuit, particularly for supplying electromagnets in order to ensure high operational reliability and minimum dimensions.

Electromagnets having dual windings, one of which is required after the core is pulled in, are currently powered by uncontrolled rectifiers, one of which is controlled by a timing relay that operates on a different principle and with different functions. This solution is very costly, since proper operation is not ensured without the use of this relay. Due to the presence of mechanical parts, it is less reliable in operation and its dimensions are considerable, so that in many cases they are a limiting factor for further possible use, it is often necessary to add timing relays with an additional auxiliary relay to ensure reliable operation. which would be sufficiently suitable for the given application with its parameters.

These disadvantages are overcome by the rectifier according to the invention, characterized in that the uncontrolled rectifier in the wiring circuit has a common branch with a controlled rectifier which is controlled by two thyristors by means of a timing circuit, the output of the directed rectifier is connected to the electromagnet winding and connected to another solenoid winding.

the time circuit consists of a series of connected charging capacitors and a resistor connected to the diodes, which are connected together to the control electrodes of the controlled valves together and the resistors, with a discharge resistor connected in parallel to the charging capacitors.

The rectifier according to the invention has small dimensions and high operational reliability, which is mainly due to the removal of all mechanical parts. The spark-free operation of the rectifier according to the invention allows it to be placed in an explosive atmosphere, which is particularly advantageous when using solenoids n gas valves.

An exemplary embodiment of a timing circuit rectifier or its circuit is shown in the attached drawing.

The rectifier itself and the time circuit consists of two sub-rectifiers, of which the uncontrolled rectifier 1 is in a bridge connection and has a common branch g with a second, controlled rectifier 2, which is controlled by two thyristors g by the time circuit g.

The time circuit g consists of a series-connected charging capacitors 8 and a resistor 8 connected to the diodes gg, which are connected to the control valves of the controlled valves ± together and the resistors 12. A discharge resistor g0 is connected in parallel to the charging capacitors 8.

The output of the uncontrolled rectifier g is connected to the first winding g of the electromagnet and the output of the controlled rectifier 2 is connected to the second winding 6.

The first winding g of the electromagnet, which should be permanently energized, is connected to the output of the commanded rectifier g in a jumper circuit. The second solenoid winding 6,

216 486, which is to be disconnected after some time after the solenoid core has been tightened, is connected to the output of controlled rectifier 2. Rectifiers ia 2 have a common branch j. Controlled rectifier 2 is controlled by two controlled valves These valves 4 are triggered by timing circuit 2 principle of capacitor charging 8 over resistor 2 · Pause during charging is carried out by control electrodes of controlled valves 4 current. After the capacitor 8 is charged, the current stops flowing and the controlled valves 4 remain permanently closed. This stops the current from flowing through the second coil J of the electromagnets. The capacitor 8 remains permanently charged when the rectifier is energized. When the rectifier is disconnected, the capacitor 8 discharges through the resistor 10. so that it is possible to reconnect the rectifier to AC voltage over a period of time and to switch the electromagnets on again.

Claims (2)

A rectifier with a time circuit, in particular for supplying electromagnets, characterized in that the uncontrolled rectifier (1), consisting of four diodes in a bridged connection, has a common branch (3) consisting of two diodes connected in series, with a controlled rectifier (2) in a bridge circuit having thyristor control electrodes (4) connected to a timing circuit (5), wherein the output of the uncontrolled rectifier (1) is connected to the first solenoid winding (6) and the output of the controlled rectifier (2) is connected to the second winding (7) ) of electromagnets. 2. A time circuit rectifier β according to claim 1, characterized in that the time circuit (5) consists of a series-connected capacitor (8) and a charging resistor (9) connected to the anode of the diodes; (11) having cathodes connected to the control valves of the controlled valves together with resistors (12) which are connected to the cathodes of thyristors (4) with the other ends, the discharge capacitor (10) and the other end being connected in parallel to the charging capacitor (8) the series connection of the capacitor (8) and the resistor (9) is connected to the node by the thyristor anodes (4).