SU1022079A1 - Device for testing strong current multiphase electric devices - Google Patents

Description

The invention relates to electrical measuring equipment and can be used to create devices for testing high-current multiphase electrical apparatuses for electrically native places. Good resistance and switching capacity. A device is known for testing high-current multi-phase electrical apparatuses for electrodynamic resistance and switching capacity containing impact transformers 11. A disadvantage of this device is the high power consumption complexity and the impossibility of adjusting the parameters of test currents and voltages. The closest in technical essence is a device containing a voltage source and lowering impact transformers according to the number of phases of the electric apparatus under test, the secondary windings of which are connected respectively to the phase inputs of the apparatus under test 2. A disadvantage of the known device is also the impossibility of adjusting the parameters of test currents and voltages and low reliability. The aim of the invention is to expand the functionality by obtaining a multiphase voltage system with adjustable parameters and increasing reliability. To achieve this goal, the device for testing high-current multiphase electrical devices, containing a voltage source and impact transformers according to the number of phases of the tested multiphase electric device, is equipped with oscillating circuits according to the number of phases of the tested multiphase electric device, whose input glues are connected to the corresponding outputs of the source primary output windings of the corresponding impact transformers of the secondary windings of which are connected to etstvenno with terminals for connecting the electrical device under test mnogofaznog. In addition, each of the oscillatory circuits is equipped with a capacitor battery, a resistor, two reactors, two contactors, and the terminals of the capacitor battery are connected respectively to the input terminals of the oscillating circuit and through the corresponding resistor of the first reactor the output of which another contactor is connected to the input of the second current-limiting device of its reactor, the output of which is connected to the output terminal of the oscillating circuit. The drawing shows a block diagram of the device (for testing three-phase electrical apparatus). The device contains a voltage source 1, oscillatory circuits 2, 3, and 4, which include capacitor banks 5,6 and 7, resistors 8, 9, and 10, reactors 11, 12, and 13, breakers 14-19, current-limiting reactors 20, 21, and 22, impact transformers 23, 24 and 25 and the tested high-current three-phase electrical apparatus 2 €. The device works as follows. The capacitor banks 5, b and 7, pre-charged from the voltage source 1, after switching on the contactors 14, 15 and 16, are discharged to the R-L-elements of the circuits. The activation of the contactors occurs at times that determine the time shift between the phases. Thus, for a symmetrical 3-phase system, in the first phase, the contactor 14 is turned on at the time point corresponding to zero electrical grites, in the phase the closure switch 15 turns on at the time point corresponding to, and in the third phase the switch 16 turns on at the time point, respectively; branching After turning on these three deputies of the 3-phase system, the theme is formed. In 1, depending on which test mode is required to be obtained in the apparatus under test, the oscillating circuits of the circuit breakers 17, 18, and 19 are connected to the primary windings of the impact transformers simultaneously or at certain points in time. The device makes it easy to simulate the abnormal conditions of operation of electrical apparatus, such as working with a phase imbalance, which is achieved. It is easy to change the torques of the contactors 14, 15 and 16. Hanpratep, by determining the phase-by-phase electrodynamic resistance of the apparatus under test, it is easy to obtain currents in the “two poles” that are out of phase or out of phase. It is possible to evoke a change in frequency during an experiment, which is achieved by changing the parameters of the circuit. So, for example, to reduce the frequency parallel to the capacitor banks of the circuits 5,6. -And 7 you can connect additional capacitor banks with the help of additional terminals. Possible variations and other parameters of the contours discretely or continuously.

11022079

To reduce the active losses in the oscillating circuits, we will allow the device its elements: reactors, conduct, tests for electrical connections, etc. can be real durability and switching from superconducting materials. The ability under conditions can be approached Using a device for testing for real 1F4 . These devices for exploring high-current multi-phase devices are reliable, since they do not have aelectric devices with the use of ampoules and the parts are simpler as a power source of the system- operation.

Claims (2)

1. DEVICE FOR TESTING HIGH-CURRENT MULTI-PHASE ELECTRIC APPARATUS, containing a voltage source and shock transformers, according to the number of phases of the tested multiphase electric apparatus, characterized in that, in order to expand the functionality by obtaining a multiphase voltage system with adjustable parameters and increase reliability, it is equipped oscillatory circuits according to the number of phases of the tested multiphase electrical apparatus, the input terminals of which are connected to the corresponding outputs, and voltage source, and output - with the conclusions of the primary windings of the corresponding shock transformers, the conclusions of the secondary windings of which are connected respectively to the terminals for connecting the tested multiphase electric apparatus. 2. The device according to claim 1, wherein each of the oscillating circuits contains a capacitor bank, a resistor, two reactors, two contactors, while the terminals of the capacitor bank are connected respectively to the input terminals of the oscillating circuit and through a resistor and one of contactors - with the corresponding conclusions of the first reactor, the regulated output of which through another contactor is connected to the input of the second reactor, the output of which is connected to the output terminal of the oscillating circuit. 1022079 A 1 1022079