DE844488C - Arrangement for determining the transmission ratio of power transformers - Google Patents

Description

In the case of power transformers, there is a specific nominal transformation ratio with a permissible deviation, usually from # 0.3 to 0.50 / 0. To determine the oil replacement ratio, Fig. 1 shows a well-known and multiple given previously used circuit. This circuit is connected to the high-voltage winding I applied a certain alternating voltage to the transformer, namely it is to terminals 2 and 3. There is a voltage divider parallel to winding 1, which consists of the two fixed resistors 4 and 5 and a sliding resistor 6. The voltage tapped at the loop resistor at 8 is compared to that at the low-voltage winding g voltage generated compensated. For this purpose, the alternating current instrument 7, for. B. a moving coil instrument with dry rectifier, in the supply line to the tap 8 switched on. The tap is now spared until the deflection of the instrument 7 has reached a minimum, and it then applies to the transmission ratio of the Transformer U has the following formula: R1 + R2 @ =.

R2 The resistors R1 and R2 are those through the tap 8 the voltage divider cut out resistors. l) he circuit has the disadvantage that they are practical only for a very narrow range of the gear ratio suitable is. There is therefore an additional between the tapped voltage and the Low-voltage winding switched on an auxiliary converter, as shown in Fig. 2 is. The auxiliary converter is wound as an economy converter and contains various taps 10, to which the low-voltage winding is connected depending on the transformation ratio will. If the number of turns tapped off, as shown in the drawing, is W1 and W2, the transmission ratio is calculated as R1 + R2 Q1 + W2 R2 W2 Die Invention brings an improvement of these known arrangements, which allows at the same time the percentage deviation of the set transmission ratio read from a given value.

The invention consists in that in the arrangements described above to determine the transmission ratio according to the compensation method of entire resistance of the voltage divider by one connected on one side variable resistance, in particular drag resistance, is variable and that this variable resistance is calibrated as a percentage of the transmission ratio is. This calibration is for each transmission ratio set at the tap same. As from the formula for the transmission ratio given at the beginning is evident, for every arbitrary but constant value of R2 there becomes one certain percentage change in the transmission ratio Ü by an equal percentage change of the total resistance R1 + R2 of the voltage divider balanced again.

Fig. 3 shows an example of a circuit according to the invention. Of the The variable resistance at the end of the voltage divider may be designed as a sliding wire 11 be on which the tap 12 grinds. With that in the description of the previous one Tap 8 mentioned in the illustrations is used to set the target transmission ratio and then carried out the final adjustment with the tap 12.

It can then be attached to the coiled wire 11, as indicated in Fig. 3, a scale can be attached. which directly in percent compared to the deviation the setpoint. This avoids time-consuming arithmetic work.

In order to get a To avoid damage to the instrument, the tap with the end of the voltage divider, be connected to point I3, as shown in Fig. 4. Appropriately the Al> equalization of the sliding wire 1 1 to the correct value is done by a Parallel resistor 14, as it is also shown in Fig. 4.

Claims (3)

P A T E N T A N S P R Ü C H E: r. Arrangement for determining the transmission ratio of power transformers according to the compensation method, in which the high-voltage side of the transformer, a voltage divider is connected in parallel to which the compensation voltage for the low voltage side is removed by a moving tap, thereby characterized in that the total resistance of the voltage divider by one to one Side connected variable resistance, in particular sliding resistance, is changeable, and that this changeable resistance as a percentage of the gear ratio is calibrated (Fig. 3). 2. Arrangement according to claim I, characterized in that the grinder (I2) a sliding resistor (II) at the end of the voltage divider with its free end (13) is connected (Fig. 4). 3. Arrangement according to claim 1 and 2, characterized in that the Sliding resistance (II) with a parallel resistance serving for percentage error reading (14) has been adjusted to the correct value (Fig. 4).