RU9088U1 - TRANSFORMER - Google Patents

Abstract

A transformer containing a lined magnetic circuit, primary and secondary windings, characterized in that the magnetic circuit is cut into two parts with the primary and secondary windings located on the corresponding halves, and a lined magnetic circuit-shunt of the same size, orientation, and is installed in the cut plane at the ends of the magnetic circuit with the secondary winding. specific magnetic resistance with parts of the magnetic circuit; part of the magnetic circuit with the secondary winding and the magnetic circuit-shunt are arranged to move without a gap in the section plane relative to the part of the magnetic circuit with the primary winding by an amount equal to the thickness of the charge package, and with the possibility of fixing the moving parts at any point of movement.

Description

The proposed utility model relates to the field of electrical engineering and relates to transformers with adjustable secondary voltage. The technical solution can be used to power, for example, electric arc contact soldering and welding devices.

Transformers are known (see M. P. Kostenko, L. M. Piotrovsky. Electric machines. Part 1, SEI, M.-L., 1958, pp. 455-456), in which the voltage is regulated by changing the number of turns windings.

The disadvantage of this design is that it is necessary to take measures to protect the turns from short circuit when they are switched under load, and the voltage of such transformers is regulated in steps.

The task of creating a utility model is to expand the range of smooth voltage regulation.

The problem is achieved due to the fact that in the transformer containing the charged magnetic circuit, the primary and secondary windings, the specified magnetic circuit is cut into two equal parts with the location of the primary and secondary windings on the corresponding halves, and in the cut plane at the ends of the magnetic circuit with the secondary winding is mounted a charged magnetic circuit -shunt of the same size, orientation and specific magnetic resistance with parts of the magnetic circuit, part of the magnetic circuit with a secondary winding and magnetic circuit-shunt Execute movably without clearance in a cutting plane relative to a part of the magnetic circuit with the primary winding by an amount equal to the thickness of the charge packet, and with the possibility of fixing the moving parts move anywhere.

TRANSFORMER (utility model)

The interaction between the signs of the new aggregate allows us to obtain a new property, expressed in that the presence of a magnetic shunt and the displacement of the corresponding parts of the cut transformer magnetic core with the corresponding windings makes it possible to smoothly and continuously control the magnetic flux of the mutual induction, which forms the transformer directly, from nominal to zero. And this in turn leads to appropriate regulation of the secondary voltage of the proposed transformer from nominal to zero. The amount of movement is determined by the thickness of the charge package of the transformer magnetic circuit. To fix the adjustable voltage, it is possible to fix the moving parts at any point of movement. Mutual induction magnetic flux in the primary winding with this regulation turns into a magnetic self-induction flux, forming an inductive resistance. The magnetic flux of mutual induction in the secondary winding simply changes from nominal to zero. A part of the cross section of the magnetoprop of the secondary winding is closed through air and the resistance of the part of the secondary winding corresponding to this section will actually have ohmic resistance.

If the proposed transformer is included in the network with the open magnetic circuit of the secondary winding and the closed magnetic circuit-shunt magnetic circuit of the primary winding, this will be equivalent to connecting a conventional transformer to the network with the open secondary winding.

The essence of the utility model is illustrated in the drawing, which shows a diagram of the proposed transformer.

The transformer contains a lined magnetic circuit, consisting of two equal parts 1 and 2, separate primary 3 and secondary 4 windings. The magnetic circuit has a cut 5 and at the level of this cut from the side of the magnetic circuit 2 with the secondary winding 4 is additionally equipped with a magnetic shunt 6, moved without a gap and fixed, for example using a screw pair 1, relative to the main magnetic circuit 1 (while displacing the magnetic circuit 2). The magnetic circuit 6 has a rigid connection 8 with the magnetic circuit 8. Thus, the voltage at the secondary winding 4 is regulated from the nominal value (in the position indicated in the drawing) to zero (in the position where the magnetic shunt 6 occupies the position of the magnetic circuit 2 with the secondary winding 4 and closes the magnetic circuit 1 with a primary winding 3 (U1), forming a voltage choke for the network with a voltage of U1; The magnetic circuit 2 of the secondary winding 4 (U2) is open).

In an intermediate position, the magnetic circuit-shunt 6, closing the part of the magnetic circuit 1 of the primary winding 3, forms a partial inductor. A part of the magnetic circuit 1 is closed by a part of the magnetic circuit 2, and this forms a partial transformer, in which the mutual induction flux makes up the corresponding part compared to the position indicated in the drawing. In this case, the partial inductor acts as an additional resistance for the partial transformer, and the balance of the electric circuit for the primary voltage U1 is maintained when regulating the secondary voltage U2. A part of the magnetic circuit 2, closed through air and having a high magnetic resistance, converts the corresponding part of the secondary winding 4 into an ohmic resistance, connected in series with another part of the secondary winding 2, forming a partial transformer. This maintains the balance of the magnetic fields of the primary and secondary windings and, accordingly, the magnetic field of the mutual induction of the transformer when regulating the secondary voltage U2.

As a result, in the proposed transformer, it is continuously regulated in the range from nominal to zero (or maximum) not only the voltage U2 of the secondary winding, but also its power, and therefore the power of the transformer.

Claims (1)

A transformer containing a charged magnetic core, primary and secondary windings, characterized in that the magnetic circuit is cut into two parts with the primary and secondary windings located on the corresponding halves, and a charged magnetic shunt of the same size, orientation and specific magnetic resistance with parts of the magnetic circuit; a part of the magnetic circuit with a secondary winding and a magnetic circuit-shunt are arranged to move without a gap in the section plane relative to the part of the magnetic circuit with the primary winding by an amount equal to the thickness of the charge package, and with the possibility of fixing the moving parts at any point of movement.