SU734855A1 - Device for switching-over field winding poles - Google Patents

Description

(54) DEVICE SWITCHING POLES EXCITATION WINDINGS

Claims (2)

The invention relates to electric machines and electrically / alternating currents and can be used in pole-switched electrical machines and in pole-selectable alternating current drives. The circuits of the device for switching poles of the field winding are known; Lucky Switching Machine {XI A known excitation winding circuit contains two groups of transfer and non-switchable sections, connected in series with two different numbers of poles of the winding, and with one number of poles it is, and with the other it is opposite. Sequential joining of groups of sections increases the number and duration of operations that must be performed while the machine is running to switch from one number of poles to another. In this case, it is possible either to completely quench the magnet's floor, and then restore the full excitation of the floor with a different number of poles, or to switch to a circuit under current, which causes overvoltage not only in electrical devices, but this switch to significant overvoltages in the machine windings. In addition, in the process of transition from one number of poles to another, the machine loses its working capacity, which, if applied in an electric drive, leads to a deterioration in performance properties. A switching device for the pole of the excitation winding, consisting of non-switchable sections, forming two series-connected hoops, connected to a direct current source, and switchable seconds, is known. The use of parallel connection of groups of sections in the device allows to simplify switching schemes, however, all the schemes imply a transition from a parallel connection with one number of half-hops to another, if necessary, to the need of a full 37 to a significant first field or voltage when switching poles and loss of performance during this period. The aim of the invention is to increase reliability by limiting surge voltages. Objective Achieved by the fact that the switchable sections are connected by one of the leads to the junction of groups of non-switchable sections, and the other cable is connected to one of the terminals of the DC source. The drawing shows electrical diagrams for connecting groups of sections of a pole-switched excitation winding and a power source with the same number of groups of sections connected to valve groups of switches, and a switching table of switching elements. The device contains a power source made, for example, in the form of a bridge (uncontrollable) side of a miter 1 fed from a three-phase winding 2 of alternating current. The excitation winding 3 contains the head of a group of sections 4-7. Non-switchable in the transition from the number of winding groups of sections 4 and 6 are connected in series and the top (according to the drawing) of each of the subcontrol. chen to; valve groups of mittel 1 (the points of which are also clips of a direct current source). The switch groups of sections 5 and 7 that are switched from 2p to 3r are connected by one of their conclusions, the lower part of each group of sections (see drawing), to the junction of non-switchable groups of sections 4 and 6, and each (from the top) The switchable groups of sections 5 and 7 are connected to the ventilation groups of the high and the tel 1 (to the current source). The switched elements 8-13 in the switched on state connect the outputs of the indicated section groups alternately to the anode or cathode valve groups of the gate 1, in accordance with the switching table of the switching elements for three different pole numbers to the fugue 2p / 2a / 2p. poles to the inputs of switchable section groups 5, 7 and 5, 6, respectively, connect the resistors 14 and 15 of the quenching floor through switching elements 16 and 17. The number of groups of sections connected to the anode and cathode valve groups is mitit l 1, 5 are the same for all numbers of poles (excitation bmog 3. The device operates on & At the pole 2p winding 3 excitation, elements 9, 11, 12 are connected, resulting in groups of sections 4 and 7 being connected to the anode group of valves 1 mitel 1, and groups of sections 5 and 6 to the cathode. Since the resistances of each group of sections are usually the same, the electrical circuit is balanced - the currents in all groups of sections are equal and there is no need to connect the common point of the conclusions of the groups of sections 4-7 to the power source, which reduces the number the conclusion , Slip rings and switching elements. To switch to the number of poles, 2 p close element 17, which includes a quenching resistor 15 in switchable groups of sections 5 and 7 (operation I in the table), and then elements 9 and 12 are disconnected and the groups of sections 5 and 7 disconnected from the power source turn out closed on the resistor 15 of the quenching floor (operation, p. in the table). After full or partial quenching, the fields of groups of sections 5 and 7 close elements 8 and 13 (steps I in the table) and disconnect element 17j to switch off the resistor 15, after which the field winding circuit corresponds to a great number of poles 2t. In the switching process, the quenching occurs only in groups sections 5 and 7, and groups of sections 4 and 6 are powered by the same current as before switching. This allows us to simplify the scheme, reduce overvoltage and maintain the efficiency of the electric machine with the proposed scheme in the switching process. In accordance with the table of switching, the electrical circuit obtained with the numbers of poles 2p and 2 is also balanced, as carefully as the cathode and anode valve groups of the rectifier 1 are connected in two sections all the time. The sequence of switching from the number of poles 2p to the number of poles 2p and the reverse transitions are carried out similarly to the described sequence in accordance with the table of switching elements included. Simplification of the electrical system (winding circuitry, reduction of the number of viewodes, contact rings, switching elements reduces the cost of the electric machine in the electric drive as a whole. Improves weight and size indicators, increases reliability of operation. Relief of overvoltages that occur when switching x poles. Preserving machine operability when switching poles contributes not only to increasing the reliability of its operation in the electric drive, improving operational properties and eliminates the possibility of emergency situations when the drive fails to operate in the process of switching poles. Formula of invention The device for switching poles of the field coil containing non-transient 4 / 5 switchable sections, forming two series-connected groups connected to a constant tbKa source and switchable sections, so that, in order to increase reliability by limiting overvoltage, switchable sections are connected by one of their views to the junction of groups of non-switchable sections, and the ppyrwM output is connected to one of the terminals of the dc source. The sources of information taken into account during the examination 1. The Federal Republic of Germany patent No. 915705, cl. 21L 1, 1937, 2. Patent of Germany Me 902401, cl. 21 C, I, 1967.