SU936052A1 - Device for switching-over induction apparatus taps - Google Patents

Description

one

The invention relates to the field of electrical engineering and power engineering and can be used as a p-phase tap changer for power transformers and reactors.

A device for switching branches of an induction apparatus is known, comprising an adjustable sectioned winding of a transformer with branches, to which pairs of working thyristors for switching sections are connected, control units and overcurrent protection, as well as an artificial switching unit consisting of a series-connected capacitor and an alternating thyristor key current, and an artificial switching node is connected between the common point of the working thyristors and the output section of the adjustable trans winding (1urmator with the greatest number of turns, and a resistor 113 is connected in parallel with the capacitor.

The disadvantage of this device is the increased complexity due to the presence of a large number of contactless switches, large overall dimensions, the need for intensive cooling of the thyristors, which makes them difficult to manufacture at high power.

The closest to the proposed JJI is a device for switching branches of the induction apparatus, comprising a branch winding, a main and two auxiliary switches with input contacts, j and output terminals, the input contacts of one of the auxiliary switches being capable of switching with even the winding taps, the input pins of the other auxiliary switch with odd taps of the winding, and the output terminals of the auxiliary switches are connected to the input The main contacts of the main switch, the output terminal, which is the common terminal of the 2J device.

However, such a device is characterized by insufficient reliability and efficiency of use.

The purpose of the invention is to increase the reliability and efficiency of the device.

The goal is achieved by the fact that the device for switching branches of the induction apparatus containing a winding with branches, a main and two auxiliary switches with input circuits and output terminals, the input contact of one of the auxiliary switches capable of switching with even winding branches, the input contact the other auxiliary switch is with odd winding branches, and the output terminals of the auxiliary switches are connected to the input contact m of the main switch, an output terminal which is common clamp device parallel to the contacts and terminals of the main switch is attached additional proximity switch with two arms.

Each of the arms of the additional switch is supplied with a current-limiting resistance.

FIG. 1 is a schematic diagram of an apparatus for switching branches of an induction apparatus under load; in fig. 2 and 3 versions of the device.

The device for switching branches of the induction apparatus contains a winding 1 with branches, main 2 and two auxiliary 3 and 4 switches with input contacts and output terminals, and the input contact of one of the auxiliary switches, for example 3, is capable of switching with even branches of winding 1 , the input contact of another auxiliary switch, for example t, with odd branches of winding 1 and the output terminals of the auxiliary switches are connected to the input terminals of the main switch eklyuchatel 2, an output terminal which is a common terminal device, wherein in parallel to the contacts and terminals of the main switch is attached additional proximity switch 5 with two shoulders 6

And 7, and each of the shoulders of the additional switch 5 is equipped with a current-limiting resistance 8.

The device works as follows.

All branch switching performs an additional proximity switch 5, auxiliary switches 3 and 4 select the necessary branches for switching, and the main switch 2 shunts or divides the conductive arm of the proximity switch. Switch 2 can be made on the basis of one switch (Figs. 1 and 3), having three fixed, positions, or two switches (Fig. 2).

Switching of branches proceeds in the following sequence. For example, to go from branch X (j and X, the auxiliary switch 3 closes the contact Chl in the current-free state, and the arm 7 of the contactless switch 5 is diverted. Next, when current flows in the arm 7 through the zero, the arm is turned off, and at the same moment the arm 6 switch 5, then arm 6 is shunted by main switch 2. The transition from branches X to X and then proceeds similarly. The reverse transition from X to Xj occurs in the reverse order, i.e., first, an auxiliary switch instead of X joins branch Next, the main switch 2 shuns the shoulder 6 of the contactless switch 5, then the shoulder 6 is turned off, and the shoulder 7 is simultaneously turned on, the main switch 2 shunts the shoulder 7. Similarly to switching the branches of the single-phase induction apparatus (Fig. 1 and 2) the branches of the multiphase switch are switched, for example three-phase, apparatus (Fig. 3) while maintaining the same indexing of the branches with the replacement of the designation of the branches of the phase X on Y and Z, respectively.

Additional contactless switch 5 can be made on the basis of simulator (Fig. 1), anti-parallel thyristors (Fig. 2 and 3) or other contactless key elements.

The control system of the key elements of the contactless switch 5 5 must be reliable, since an inaccurate supply of control pulses may cause a short circuit or short circuit of the switchable stage. The first is accompanied by dangerous overvoltages, the second - by dangerous currents. To increase the reliability and reduce the short-circuit current with an unclear false action of key elements, it is possible to use current-limiting resistances 8 (Fig. 2). The proposed device for switching branches due to the use of a contactless switch based on thyristor switches (Fig. 2 and 3) or symmetric thyristors (Fig. 1) as a switching device (Fig. 1) has a long life, i.e., it has increased reliability. The main switch serves only for shunting and bypassing the contactless switch and hardly commutates currents, so it does not contaminate the oil in the induction unit tank and its operating conditions are not more severe than those of the auxiliary switches. Due to the shunting of the noncontact switch in the long-time modes of the main switch and using it only for current-free switching in the short-term mode, its elements do not need to be selected by the long-time mode of operation, which significantly reduces the size of the switch. In addition, the proximity switch is not used for smooth voltage regulation, therefore, it is chosen according to the voltage level of the stage, rather than the phase voltage of the induction apparatus, THAT dramatically reduces the required number of series-connected keys and greatly simplifies the manufacture and management of them. Formula of the invention 1. A device for switching branches of an induction apparatus comprising a winding with branches, a main and two auxiliary switches with input contacts and output terminals, the input contact of one of the auxiliary switches being switchable with even branches of the winding, the input contact of the other auxiliary switch - with odd winding branches, and the output terminals of the auxiliary switches are connected to the input terminals of the main switch A key switch, the output terminal of which is a common terminal of the device, characterized in that, in order to increase reliability and efficiency, an additional non-contact switch with two arms is connected in parallel with the contacts and terminals of the main switch. 2. A device according to claim 1, characterized in that each of the arms of the additional switch is provided with a current-limiting resistance. Sources of information taken into account during the examination 1. USSR author's certificate No. 508879, cl. H 02 M 5/12, 1973. 2. Voldek A.I. Electric cars. L., Energie, 1978, p. 304-307.

Claims (2)

Claim 1. Switching device 10 branches of the induction apparatus, containing a winding with branches, a main and two auxiliary switches with input contacts and output terminals, the input contact of one of the auxiliary switches being made with the possibility of switching with even branches of the winding, the input contact of another auxiliary switch with odd branches of the winding and the output terminals of the auxiliary switches are connected to the input contacts of the main switch, the output terminal of which is common m clamp device, characterized in that, in order to increase reliability and efficiency in parallel to the contacts and terminals of the main pereklyuchatejo A proximity switch is connected with an additional two arms. 2. The device according to π. 1, characterized in that each of the shoulders of the additional switch is equipped with a current-limiting resistance.