SU110373A1 - Conversion device - Google Patents

Description

The subject of the invention is a converter device for supplying the projection arc lamps with a rectified current, comprising an uncontrolled valve, a power transformer and a regulator consisting of a ferroresonant voltage regulator, two saturation chokes and two auxiliary rectifiers.

A significant advantage of the proposed device is that the load current remains unchanged during the entire period of operation from the moment of switching on until the end of the working day, when the elements of the device are heated.

The condition of the magnitude of the current at the output of the device is provided by compensating for the decrease in the magnitude of the current due to an increase in the active resistance of the windings of the elements of the device with an increase in their temperature during operation. Compensation is carried out by introducing into the current regulator a second drossel of saturation, the winding of which is connected in parallel with the main winding of the magnetizing of the first throttle.

The drawing shows a schematic diagram of the proposed device. (The power part of the circuit is marked with thick lines and flows around the load current; the circuit for automatic control of the current is applied with thin lines).

A three-phase supply network of 220 volts (or 380 volts with zero) is supplied to the input terminals A, B, C and from the terminals Z, X, y is applied to the primary (phase) windings of the satures DN-1 and the CT transformer connected in phase. Secondary (ponzhenoe) napr. No. 110373

The connection is connected to the terminals of a three-phase selenium rectifier SS-1, connected by a bridge circuit. The rectified current passes to the clamps "+ and" - of the output through the serial winding of a small single-phase throttle of the kasyshchy DN-2.

The current regulator, which contains a small ferroresonant voltage regulator with a single-phase transformer, a TO choke with a gap and a battery of capacitors BC, receives AC power from the clamps AX. Two output stabilized voltages are removed from the output of the voltage stabilizer. A voltage of 60 8 through the auxiliary selenium rectifier SS-2 feeds the main circuit of automatic regulation; a voltage of 40 V through the auxiliary selenium rectifier CC-3 - the bias winding circuit DN-2 through the additional saturation throttle DN-3.

The magnetizing forces of the windings of the bias of the throttles DN-2 are directed as shown by the arrows in the diagram. In magnitude, they are tuned in such a way that the sum of the magnetizing forces of the reference displacement winding (main) and the feedback winding is always greater than the magnetizing power of the series winding. As the current in the serial winding changes, as the voltage decreases, the total magnetizing force of all windings of the DN-2 throttle increases, which causes a decrease in its inductive resistance, an increase in the current in the main winding and a corresponding increase in the current in the winding of the magnetised DN-1 throttles and in the winding feedback, which leads to an even greater increase in the total magnetizing current strength of the main winding and the current podmapshchapi throttle DN-1. The inductive resistance of the droplets DN-1 decreases so much that the load current returns to its original value.

The feedback factor is selected at the factory setting of the rectifier using resistance R such as to ensure the necessary sensitivity of the automatic circuit, without putting the system into relay mode.

Gradual heating of the windings of parts of the device causes a corresponding change in the values of their active resistances and creates a tendency to decrease the values of direct currents flowing in the winding of the magnet of DN-1 drossel, feedback winding, the winding of the reference displacement of DN-2 drossel and the winding of the MD-2 drossel. “It is obvious that a decrease in these currents would cause a decrease in the output current of the device as it is heated.

To compensate for the decrease in the magnitude of the output current during heating of the bias windings of the DN-1 and DN-2 chokes, an additional saturation choke DN-3 was used in the current controller. Its main winding is supplied with a voltage of 40 volts from the output of the ferroresonant voltage stabilizer and is connected in series with the selenium rectifier CC-3, which supplies the winding of the reference displacement of the throttle DN-2 and the winding of the magnetically controlled throttle DN-3 connected in parallel.

As the winding of the reference displacement of drossel DN-2 increases and its resistance to voltage across it increases, it increases; consequently, the voltage at the terminals of the bias magnetic winding DN-3 increases, the increase in its resistance is compensated, and the current flowing through it is slightly increased. therefore

The inductive resistance of the DN-3 droplets together with the heating of the winding of this displacement decreases.

The external characteristic of the DN-3 droplets is selected so that a decrease in the inductive resistance compensates for the increase in the active resistance of the mix winding; DN-2 droplets and a slight decrease in the feedback coefficient (heated from the bias winding of the DN-2 chokes) as it heats up. zi drossel DN-2). In addition, the characteristic of heating in time of the chokes DN-2 and DN-3 is chosen in such a way that the temperature of their heating always corresponds to the temperature of droplets DN-1.

Subject invention

A converter device for supplying the rectified current to the film projection arc lamps, containing an uncontrolled valve, a power transformer and a current regulator, consisting of a ferroresonant voltage regulator, saturation droplets and two auxiliary rectifiers, different in that in order to ensure stability the magnitude of the current at the output of the device by compensating for the decrease in the magnitude of the current due to an increase in the active resistance of the windings of the elements of the device with an increase in their temperature during operation, torus current applied second inductor saturation bias winding is connected in parallel with the primary winding of the choke nerves. Network 220/380 to 8 C