SU68661A1 - Device for measuring the temperature of the windings of electrical machines - Google Patents

Description

A number of methods are known for measuring the heating temperature of the windings of rotating parts of electrical machines. One of the most common methods is based on determining the electrical resistance of the windings, which varies considerably with increasing their temperatures. Most often, a separate auxiliary source of control (measuring) current is used for this purpose. However, since the main current simultaneously flows through the core windings, it is necessary to prevent the influence of both current sources on each other. For this purpose, various types of current sources are used. For example, when testing DC machines, an auxiliary AC power source is used. In addition, in this case, appropriate electrical filters are used to separate the circuits, or the auxiliary measuring current is supplied to such winding points that are equipotential with respect to the main current circuit.

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The proposed device is also based on the use of an auxiliary AC power source. It also uses separation filters that block direct-current access to the measuring circuit. Its peculiarity lies in the use of a generator of increased frequency B as an auxiliary current source and in the method of supplying the measuring current using a system of auxiliary brushes.

According to the invention, one of the poles of the increased frequency generator is connected to the bark of the controlled machine by means of auxiliary brushes symmetrically mounted on the collector between working brushes of different polarity, and the second pole is through a system of separation capacitors directly to the working brushes, in order to compensate for the magnetic fields generated alternating currents circulating in different branches x of the winding of the investigated core.

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The drawing shows the electrical circuit of the proposed device.

Measurement is made on alternating current of increased frequency, for example, on the order of 500 Hz, obtained from generator 7 of any type (machine, lamp, etc.). At the specified frequency, the hysteresis losses and Foucault currents in the iron core are very significant, therefore the path of the measuring current in the winding of the controlled core 2 must be such that the flows created by this current mutually compensate each other. For this purpose, one pole of the generator / is fed to the additional brushes 3 and 4, located in the middle between the working brushes of opposite polarity, i.e. between the brushes 5 and b, as well as 5 and b. The second clamp of the generator 7 is connected through separation capacitors 7 and 5 to the working brushes 5, b of the machine.

With such an inclusion, in each slot of the core, the same number of rods with oppositely directed currents is obtained, and the total magnetic flux of the groove is zero.

The induction coil 9 (without iron), with capacitors 7 and 8, constitutes a tuned resonant circuit, which reduces the current consumed from the generator.

An ohmmeter-type measuring device is attached to a bark using small additional brushes 10 and 77, which are integrated one into the brush holder of one of the main brushes 5, and the other into the brush holder of the additional brush 4.

Capacitors / 2 and 13 serve as isolators and with self-induction 14 constitute a circuit tuned in resonance to the frequency of the measuring current, i.e. in this case 500 Hz. This resonant circuit represents a low resistance for the measuring current and.

on the contrary, it will be a very high resistance for currents of a different frequency that may arise from e. from the commutation of the fields of the teeth, from higher harmonics in the supply voltage of the machine (when it is operated by the engine), etc.

As a resistance meter, a meter can be used, for example, by the type of an ohmmeter with crossed coils.

The drawing shows a diagram of the device electrodynamic type.

This device consists of two stationary windings of current and voltage 75 and 76, located at an angle of 90 ° to one another, and a rotating frame 77 connected in series with the stationary current winding.

It is also possible to use devices from other systems.

Subject invention

A device for measuring the temperature of the windings of electric machines koreas during their operation, using the change in the electrical resistance of the windings when they are heated, measured by an auxiliary AC source, into the circuit of which a measuring device is inserted, characterized in that an auxiliary generator is used as an auxiliary current source frequency, one of the poles of which is connected to the controlled measles by means of two auxiliary brushes installed symmetrically between the collector working brushes of different polarities, and the second terminal - via the coupling capacitors to the operating system directly brushes - for mutual compensation of the magnetic fields created by varying currents circulating in the various legs of the armature winding of the test.