SU858126A1 - Dc transformer - Google Patents

Description

(54) MEASURING DC POWER TRANSFORMER

The invention relates to electrical engineering and can be applied to automatic control systems for measuring direct current. A current sensor is known, made in the form of a dc current transformer, the output signal from which is connected in series with an alternating voltage source to resistor Dl. The disadvantage of this device is the effect of the output circuit voltage on the input voltage, which makes it necessary to use bulky current-limiting reactors . The closest in technical essence is a measuring transformer of direct current, which can be used for automatic load control, as a current sensor. The measuring transformer is made in the form of two cylindrical magnetic conductors concentrically arranged relative to each other, between which the measuring winding of the direct current and the output winding of the alternating current are placed. With the introduction of an additional resistor, which is supplied with a stabilized voltage from an external source, the instrument transformer provides automatic load regulation. The disadvantages of the known device are the need to move the output winding and the small output power, since it is determined by the transverse composition of the magnetic circuit of the excitation winding. The purpose of the invention is to increase the power output and the expansion of the control range. The goal is achieved by the fact that in the known device the AC output winding is placed 6 concentric bore internal cylindrical magnetic core.

In addition, a movable core located in the hole of the external cylindrical magnet duct is additionally introduced into the transformer.

The drawing shows a general view of a device containing in one box; All two instrument transformers.

The device contains a ferromagnet "cylindrical case J, which is made in the form of two cylindrical magnetic conductors 2 and 3 concentrically arranged relative to each other. Along the ends, movable cores 4 are installed; c 5. Inter-magnetic conductors 2 and 3 are placed in the upper half of the housing measuring winding 6 of direct current, and with magnetic conduits 2 and 3 in the lower half of the housing there is a setting winding of direct current 7. In cylindrical magnetic cores 3 of the upper and lower half of the housing are made uhie concentric bore, which has an AC output windings and 9. The windings around the magnetic cores 8 and 9 are closed.

With this arrangement, windings 6 and 8, the core 4 with the magnetic cores 2 and 3 in the upper half of the housing represents the current sensor. The magneto conduits for windings 6 and 7 are open, respectively, by air gaps 10 and 11. The gap 10 is formed by the magnetic core 3 of the upper half of the housing and the core 4. The gap 11 is formed by the magnetic conductor 3 of the lower half of the housing and the core 5. The inductance of the alternating current windings 8 and 9 is determined by the magnetic permeability of the magnetic cores 3, in which these windings are located. The magnetic permeability of the magnet duct is determined both by the parameters of the electrical and magnetic circuits of the alternating current, and the value of the magnetic induction of the dc field produced by the windings 1 and 6 and 7. For given dimensions of the device, winding data of windings 8 and 9, and magnetic windings of windings 6 and 7, the inductance of windings The alternating current is uniquely determined by the magnitude of the constant-field magnetic induction.

By changing the air gaps 11 and 10 from the minimum to maximum magnitude, the magnetic induction in the component magnetic circuit is changed

° 5W ° i "Using two concentrically

cylindrical magnetic cores arranged relative to each other with a bias winding placed between them as a current sensor, as well as the introduction of a moving core and placement of output windings in deaf bores of a magnet duct distinguish the proposed device from the known one, since they increase the range of the controlled current. This broadens the scope of application of the device and eliminates the need to develop a number of DC regulators for

limited control limits. Due to the absence of additional inductance in the secondary winding circuit, the device as a whole is simplified, its cost and size are reduced.

Claims (2)

1. Measuring transformer of direct current, made in the form of two cylindrical magnetic cores concentrically arranged relative to each other, between which the measuring winding of direct current and output AC winding are located, characterized in that, in order to increase output power, the output AC winding is placed in the concentric bore of the inner cylindrical magnet pipeline. 2. The transformer according to claim 1, which is implied by the fact that, in order to expand the range of adjustment, a movable core is additionally inserted, located in the hole of the external cylindrical magnet duct. Sources of information taken into account in the examination 1. Attura G. Magnetic amplifiers. M., State Energy Publishing, 1963, p. 220, Fig.7,4. 2. USSR author's certificate  427404, cl. H 01 F 40/06, 1972.