RO116325B1 - Stand for checking the transformation ratio - Google Patents

Abstract

The invention relates to a stand for checking the transformation ratio by means of the two-voltmeter method, comprising two voltmeter switches (CV - 1, CV - 2) wherethrough two voltmeters (V1, V2) are connected, one voltmeter (V1) in the primary circuit and the second voltmeter (V2) in the secondary circuit of the test transformer (TV), and a three-phase separation transformer (TS) with unitary transformation ratio, connected between the mains and the test transformer (TV), some maximum relays (1RC; 2RC; 3RC) being serially connected to the binding wires between the two transformers (TS, TV), and in the secondary circuit of the test transformer (TV) there are mounted some spark-gaps (E1;E2; E3; E4; E5; E6) which, in case of overvoltage occurrence, prevent the high voltage input into the installation and disconnects the stand power supply.

Description

RO 116325 B

The invention refers to a stand for checking the transformation ratio of three-phase electric transformers, by the method of the two voltmeters.

for the purpose of verifying the transformation ratio of three-phase electrical transformers, an installation consisting mainly of two voltmeters, two voltmetric switches and two three-phase cables is known, through which the installation is connected to the primary and, respectively, to the secondary of the verified three-phase transformer. The described installation has the disadvantage that, in the case of reversing the way of connecting the two connecting cables, it is possible that an increased voltage may appear in the installation, which may endanger the life of the operator.

The problem that the invention solves is the realization of a stand for checking the transformation ratio of electrical transformers, with the elimination of the dangers that arise in the case of reverse connection of the transformer under verification.

The stand for checking the transformation ratio by the method of the two voltmeters, containing two voltmeter switches through which two voltmeters are connected, one in the primary and the second in the secondary of the transformer under verification, according to the invention, removes the above disadvantage, in that it has a three-phase separation transformer, with a unitary transformation ratio, interposed between the supply network and the transformer under verification, with some maximum current relays being connected to the connecting conductors between the two transformers, and in the secondary circuit of the transformer under verification, some surge arresters which, in the event of overvoltages, prevent high voltage from entering the installation and cause the interruption of the power supply to the stand, by means of the maximum current relays, the power supply to the stand being done through a contactor.

By applying the invention, the following advantages are obtained:

- elimination of the danger of destroying the measuring devices connected in the secondary circuit of the verified transformer;

- elimination of the danger of electrocution of the operator;

- elimination of the danger of piercing the insulation of the connecting cable.

Next, an example of the invention is given, in relation to the figure which represents the basic electrical diagram of the stand.

The stand for checking the transformation ratio, according to the invention, is made up of a three-phase separation transformer TS with a unitary transformation ratio, through which the supply of a transformer subject to TV verification is carried out, from the three-phase supply network (SxSBOv; 50 Hz], The secondary of the transformer TS is connected to the transformer to be checked TV, by means of a three-phase cable CI. On the phases of the described three-phase supply circuit, the coils of maximum current relays IRC, 2RC, 3RC are connected in series. A voltmetric switch CV is also mounted on this circuit -1 having a VI voltmeter connected to the output.

The secondary of the verified transformer TV is connected, by means of a second three-phase cable C2, to a second voltmetric switch CV-2, which performs the corresponding switching of a second voltmeter V2.

in this circuit in the secondary, before the second CV-2 switch, are mounted some spark plugs E ₁₉ E ₂₉ E ₃ , E ₄₉ E ₅ , E _e , adjusted to work at a voltage of 600 V, three of the spark plugs being mounted between phases and three others, between one phase and zero.

Claims (2)

RO 116325 B The isolation transformer TS is fed by a 1K contactor. Its engagement is controlled by a circuit consisting of a capacitor C, a diode D, a limiting resistor R, an intermediate relay 1RI and a button BA with two contacts (one normally closed and one normally open), □exiting the contactor 1K it is done either by a BD button or by 50 opening the normally-closed contacts 1RC-1; 2RC-1; 3RC-1 belonging to IRC maximum current relays; 2RC; 3RC. The operation of the basic wiring diagram is shown below. By means of the diode D, the limiting resistance R and the normally closed contact of the BA button, the capacitor C is charged. When the BA button is pressed, the capacitor C 55 discharges on the coil of the intermediate relay 1RI and causes its contact 1RI-1 to close for a short time . The coil of the self-maintaining contactor 1K is thus energized by closing its own contact 1K-4. in the case of the reverse mounting of the cables CI and C2, in the secondary of the verified transformer, a high voltage (of the order of kilovolts) appears, which leads to the priming of the spark plugs E ₁ ...E _e . Primed spark plugs prevent high voltage from entering the stand and cause an increase in the current flowing through the coils of the IRC current relays; 2RC; 3RC. As a result, the 1RC-1 contacts open; 2RC-1; 3RC-1 which causes the opening of the 1K contactor and the interruption of the transformer supply. The engagement control circuit made up of elements C; D; BA; 1RI is 65 absolutely necessary. It ensures tripping of the 1K contactor, even if the operator presses the BA button for a long time. In order to make a new activation command, it is necessary, in advance, to release the BA button which enables the charging of the capacitor C through the diode D and the resistor R. The activation command is possible after charging the capacitor C 70 and is carried out by discharging it on the relay coil intermediate 1RI. demand 1. Stand for checking the transformation ratio, by the method of the two 75 voltmeters, containing two voltmeter switches (CV-1, CV-2), through which two voltmeters (V., V _B ], one (V _n ) are connected in the primary and the second (V ₂ ) in the secondary of the transformer under verification (TV), characterized by the fact that it consists of a three-phase separation transformer [TS] with a unitary transformation ratio, interposed between the supply network and the transformer under verification (TV) , on the connecting conductors between the two transformers (TS, TV), some maximum current relays (IRC; 2RC; 3RC) being connected in series, and in the secondary circuit of the transformer under verification (TV), being mounted some spark plugs (Ε _η ; E _a ; E ₃ ; E ₄ ; E _s ; E ₆ ] which, in the event of overvoltages, prevents the penetration of high voltage into the installation and determines the interruption of the power supply to the stand, by means of the maximum 85 current relays (IRC; 2RC; 3RC], powering the stand through a contactor [1K], 2. Stand for checking the transformation ratio, according to claim 1, characterized in that the engagement of the contactor [1K] is controlled by closing a normally open contact of a control button (BA), through which RO 116325 Β 90 discharges a capacitor (C) on the coil of an intermediate relay [1RI], through whose contact, for a short time, the coil of the contactor [1K] is supplied which then maintains itself by closing its own contact [1K-4], charging the capacitor [C] being realized in a previous stage by means of a rectifier diode [D], a limiting resistor [R] and a normally closed contact of the control button [BA] 95 in series in the charging circuit of the capacitor (C). The President of the Examination Commission: Eng. Popescu Livia Examiner: engineer Savin Rodica