SU951427A1 - Three-phase adjustable transformer device (its versions) - Google Patents

Description

(54) THREE-PHASE ADJUSTABLE TRANSAFORD-DETAILED DEVICE (ITS OPTION) --- ..,.,

one

The invention relates to electrical engineering, in particular, to electric induction devices powered by a three-phase AC network and regulated by direct current magnetics.

The present invention can be used in regulated and stabilized power sources of radioelectronic equipment (REA), wire communication equipment and computer equipment, as well as in controlled electrical installations for general industrial use.

Known three-phase transformers, adjustable bias shunts (TRPS). This TRPSH is made on a composite, jth two-plane magnetic system containing the same main and additional (shunt) magnetic cores, in the form of three-core magnetic conductors arranged parallel to each other and connected by six magnetic jumpers. Each AC primary winding covers one core of the main magnetic circuit, and each AC secondary winding covers one core of the main magnetic circuit and one shunt core. The DC control windings are located on the shunt rods l.

The disadvantage of such a TRPS 5 is the constructive complexity of a spatial magnetic system.

Claims (2)

The closest to the proposed technical entity is a three-phase transformer, adjustable by magnetic bias, made on a plastics magnetic system in the form of two or three (}) magnetic cores having a common cable and two series-connected systems of primary and secondary windings with different strain factors for redistribution of voltage between them in the process of regulation, each of the rods of the magnetic system is divided into two parallel parts, on which are placed the control windings , magnetizing the amount of steel inside the windings of the transient current and included in:; three times to compensate for the emf of the fundamental frequency induced in them. The lack of it is the constructive layer: the extinction and relatively low utilization of the active materials of the transformer. The purpose of the invention is to simplify the operation of the handbook and increase the utilization rate of the active materials of the transformer. The goal is achieved by the fact that in a three-phase adjustable transformer containing two identical three-phase magnetic systems, on which primary and secondary windings are placed, each of the magnetic systems is filled as a group of single-phase magnetic circuits. The primary windings of which are connected in a star and connected in parallel to a three-phase supply network through additionally introduced capacitors, while the corresponding zero points of connection of the primary windings are inputs of an adjustable transformer, designed to connect a control current source. In another embodiment of a three-phase adjustable transformer, each of the magnetic systems is made up of a group of single-phase magnetic cores, the primary windings of which are connected, for example, to a star and connected to a three-phase supply network through additionally introduced capacitors, and the secondary windings of each group are connected to a star and are connected in parallel to the three-phase output of the trans c) orm torus, with the corresponding g / bBi connection points of the BTOpjra windings being the h.ch inputs of the adjustable transformer, intended for connecting a current source upravle- audio. FIG. 1 depicts the three-circuit electrical diagram | heat regulated transformer; in fig. 2 is an electrical diagram of another variant of a three-phase adjustable transformer. Three-phase adjustable transformer- fop on flash. 1 contains two identical three-phase magnetic systems on which primary and secondary windings are placed. Each of the magnetic systems is made in the BviAe group of single-phase magnetic conductors 1,2,3 and 4, 5, 6. The primary windings 7. 3, 9 and 10, 11, 12 of each group are guided in pairs and connected to a three-phase network chereg ;. consecutively included covdensltory KZ,, 14 and, 15. In this case, the 9,274 corresponding zero points of the connection of the primary windings 7, 8, 9 and 10, 11, 12 are inputs 16 and 17 of the adjustable transformer intended. to connect the current source to the control. The operation of the three-phase adjustable transformer according to the invention is carried out (: rc as follows. The voltage of each phase of the mains supply is distributed between the voltage drop across the series capacitor and the voltage across two parallel ne VCIL transformer windings. When the magnetic the permeability of the magnetic circuit due to magnetic bias changes the inductive resistance of the transformer, which leads to a redistribution of voltage on the series-connected capacitors and primary windings of the transformer. The return magnetic permeability of the material of the magnetic circuit, j nonlinearly decreases with increasing intensity of the magnetic field H of direct current and does not depend on the direction of the magnetic flux. Thus, when the control current appears, a nonlinear change in the voltage of the primary windings of the transformer and, taking into account the transformation ratio, the voltage of the secondary windings of the transformer. The control current IQ splits in the windings of alternating current, and for each primary A current o / 3 flows through the transformer's winding, creating a magnetic current in each magnetic conductor. The appearance at the terminals 16 and 17 of the variable EMF is caused only by the asymmetry of the magnetic conductor and the load on the secondary windings of the TransformaToipa. Therefore, it is most appropriate to use at the output of a three-phase adjustable transformer a symmetrical load, for example, a twelve-phase inverter 18 of an alternating voltage into a constant circuit according to the connection of the secondary windings 19, 20, 21 and 22, 23, 24 into an incomplete triangle 15 - to the left, 15 to the right . The total number of turns of each secondary winding to the number of turns from the beginning of the winding to the branch should be 2.73. The branches of the secondary windings 19, 20, 21 of the three-phase group are connected in a triangle in the direct order of the phase alternation, and the branches of the secondary, the windings 22, 23 and 24 of the other three-phase group in the reverse. Practically, using the above variable voltage transducer circuit at the inputs of the transformer to connect the control current source does not exceed 2–3 V in the layout of a stabilized 27 V, 20 A power source with a three-phase 220 V, 400 Hz power supply network, which is safe for current source elements management The second embodiment of the adjustable transformer in FIG. 2 contains two identical magnetic systems on which primary and secondary windings are placed. Each magnetic system is implemented as a group of single-phase magnetic cores 25.26, 27 and 28, 29, 30. The primary windings 31, 32, 33 and 34, 35 36 in each group are connected in a star and connected to a three-phase mains supply through series-connected capacitors 37 , 38, 39. The secondary windings 40, 41, 42 and 43, 44, 45 in each group are connected in star and connected in parallel to the three-phase output of the transformer, while the zero points of connection of the secondary windings 4O, 41, 42 and 43, 44, 45 are inputs 46 and 47 of an adjustable transformer, intended for connection and source of control current. The operation of the three-phase adjustable transformer in FIG. 2 is completely analogous to the operation of a three-phase adjustable transformer in FIG. 1. At the same time, the constant magnetic flux intensity in each magnet duct created by the flux is defined as X / o. The use of one or another variant of a three-phase adjustable transformer depends on the specific circuit of the device, in particular the adjustable transformer of FIG. 1 allows the use of a twelve-phase AC-DC converter, but requires the control current source having an electrical (transformer) isolation of the output and supply circuits, to be avoided in order to avoid short-circuits of the primary windings. The filling of the window area of the magnetic cores of the adjustable transformer is more complete due to the fact that the functions of the AC windings and the DC control windings are combined. The economic effect from the introduction of the proposed invention is achieved by reducing the consumption of active 95,276 materials, taking into account the need for power sources of various enterprises. 1. Three-phase adjustable transformer device, ss holding two identical three-phase magnetic systems, on which primary and secondary windings are placed, characterized in that, in order to increase the utilization rate of active materials, the transformer is equipped with capacitors, each of these three-phase magnetic systems is made as a group of single-phase magnetic cores, the primary windings of which are connected in a star and connected in parallel to a three-phase supply network through capacitors, When this zero point corresponding compounds of the primary windings of the transformer are controlled inputs intended for connecting a source of control current. 2. Three-phase adjustable transformer device containing two identical three-phase magnetic systems on which primary and secondary windings are placed, characterized in that, in order to increase the utilization rate of active materials, the transformer is equipped with capacitors. Each of these three-phase magnetic systems is made as a group single-phase magnetic cores, the primary windings of which are connected, for example, to a star and connected to a three-phase mains supply through capacitors, and the secondary windings of each the groups are connected in star and connected in parallel to the three-phase output of the transformer, with the corresponding zero points of the A1- / h connection .ijj j –iJUHc; The fi T -vJCMWm of the secondary windings are the inputs of an adjustable transformer for connecting a control current source. Sources of information () taken into account during the examination 1. A. Bamdas, S. Shapiro. V. Stabilizers with magnetized transformers, M., L., ed. Zner gi, 1965, p. 23, fig. 1-5. 2. Authors svsetelstvr USSR № 152701. class. H OIF 29/14, O5.09.81 25 27 2b J J5 J6 / 2 951427 0 i $ 0 Jj Jf 3B . 2S g 3S 3 37 "five " Wj ial3 0 0 Phi1.2