SU756227A1 - Device for measuring electric machine winding temperature - Google Patents

Description

The invention relates to thermometry.

A device for measuring the temperature of a winding of an electric machine is known. the correction of which is connected in series and counter to the primary winding of the transformer, and its secondary windings are in pairs in series ή chno through rectifying device connected to the measuring device and the electric network [1].

However, the known device has a limited operating range due to the presence of a rectifier bridge, and in addition, in a high-current circuit (500-1000 A), the dimensions of the device are determined mainly by the size of the rectifier bridge and the measurement accuracy decreases.

The closest to the invention to the technical essence is a device for measuring the temperature of the winding electric 2

A machine that contains a thermal sensor made in the form of one of the windings of an electric machine, one output of which is connected to a DC source, stitched by a capacitance and connected in series with a filter choke, through a common connection point, and the second output of a thermal sensor through a series-connected primary winding of a transformer DC and the second choke is connected to the power wire, moreover, around the coil correction DC transformer is connected to the primary winding in series and counter, and its secondary windings are connected in pairs, sequentially, and counter through a rectifier device to the measuring device and across ¹⁵ AC [2].

However, the known device does not possess

required measurement accuracy, since the measurement error depends on the change in the resistance value of the power source

2o load circuit. In addition, the known device has significant dimensions, which in a high-current power circuit

current over 2000 A are determined by the size of the shunt.

756227

The aim of the invention is to increase

measurement accuracy.

The goal is achieved by the fact that the second choke is equipped with an additional winding with a middle lead connected to two additional leads of the main winding of the choke connected in parallel with the correction winding, and the middle lead of the additional winding is connected to the filter choke.

The drawing schematically shows a device for measuring the temperature of the winding of an electric machine.

The device contains windings 1, 2 and 3 of the electric machine, winding 4 correction, DC transformer 5, second choke 6, auxiliary winding 7 choke, filter choke 8, DC source 9, filter capacitance 10, rectifier 11, measuring device 12.

The device works as follows.

A source of direct current 9 is supplied with a measuring current of no more than 3% of the load current of the winding along the chain: filter choke 8, winding of the second choke 6, primary winding of the DC transformer 5, winding-thermal sensor 3. Therefore, winding 3 of the electric machine and the primary winding of the transformer 5 DC current flows, consisting of an alternating current load and measuring current from the source 9 DC. The correction winding 4, connected in series and counter to the primary winding of the DC transformer 5, provides full compensation for the variable component of the magnetic flux in the cores of the DC transformer 5, due to the passage of the load current through the primary winding. The measuring current from the source 9 DC is fed through the windings of the inductor 6, connected in parallel to the winding 4 correction. The presence of the inductor 6 ensures the passage through the primary winding of the transformer 5 constant current measuring current from the source 9 of direct current and at the same time ensures the complete absence of direct current in the winding 4 correction. The main winding of the choke 6 is made with additional leads to which the auxiliary winding 7 of the choke 6 is connected. The auxiliary winding 7 is made with an average lead to which one of the terminals of the DC source 9 is connected through the filter choke 8.

When measuring a certain amount of direct current from the source 9 of direct current, branching out, passes through the winding of the source of the power electrical network. Consequently, the main current of the inductor 6 simultaneously passes the measuring current and the constant current of the winding of the source of the electrical power network. The ohmic resistance of the main winding of the choke 6 is selected 100 times less than the resistance of the winding 4 correction.

With additional conclusions, the main winding is divided by resistance so that the direct current in the winding 4 of the correction is completely absent even with significant changes in the magnitude of the current, branching off ¹ through the source of a power electric network caused by changes in the resistance of the latter. To ensure high measurement accuracy with these changes in direct current, additional choke 6 is equipped with an auxiliary winding 7 with an average output, the ohmic resistance of which is chosen to be more than 100 times greater than the resistance of the main winding of the choke 6. In this case, the auxiliary winding 7 should be made of a thermostable material with equal fit ohmic resistance values relative to its average output, since said winding 7 is a current divider for the main winding of the choke 6. The inductance of the additional choke 6 is selected from the condition of limiting the variable component of the load current in the primary winding of the AC transformer 5, as well as to improve the metrological characteristics of the latter. The value of the constant measuring current flowing through the winding 3 is measured by the DC transformer 5, the secondary windings of which are connected to the measuring device 12 through the rectifier device 11. The proposed device improves the accuracy of measuring the temperature of the windings of electric machines fed from a common electric circuit, as the ratio of the supplied current and the current passing through the power source, there is no direct current in the correction winding, therefore, an additional error in the transformer DC is not introduced, and furthermore, the device dimensions are reduced due to the absence of the shunt.

Claims (1)

Claim A device for measuring the temperature of the winding of an electric machine, which contains a thermal sensor, which is used as one of the windings of an electric machine, one output of which is connected to a direct current source, shunted by a capacitor and connected in series with a filter choke, through a common connection point of windings, and included the primary winding of the DC transformer and the second choke is connected to the power wire, and the transformer winding correction and DC is connected to the primary winding posledo756227 6 five and secondary, and its secondary windings are pairwise, sequentially and counter-connected via a rectifier to a measuring device and an AC network, characterized in that, in order to improve measurement accuracy, the second choke is equipped with an additional winding connected to two additional terminals of the main winding of the choke, connected in parallel to the winding correction, and the middle you Additional winding water is connected to the filter choke.