SU47361A1 - Device for temperature protection of electrical machines - Google Patents

Description

In the existing systems of temperature protection of stents - generators, the most reliable method of temperature control is most often used by placing a detector in the stator grooves, by varying the resistance of which is judged on the stator temperature at hot points.

The use of other systems is less reliable; thermocouples and contact millivoltmeters cannot provide close contact closure, due to the small moments of these devices, with a negligible power of the contacts themselves; Secondary thermal relays not only cannot control the temperature of hot spots, but do not accurately respond to the average temperature of the windings, especially under dynamic load conditions.

To control the change in resistance of the detectors, induction relays are usually used, included in the Unstone AC bridge circuit. However, an organic defect of this system is its dependence on the variable currents induced in the detector winding on the flows in the slots of the machines; therefore, the readings of these relays are dependent on the load of the generators, and short-circuits can cause incorrect relay actions.

A more perfect system, not dependent on AC, is obtained

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when powering the bridge with direct current using frame magneto-electric devices with one or two frames (similarly used in pyrometry). However, it requires the use of special magneto-electric relays, which are complex and expensive in terms of design and production, in comparison with the induction and, moreover, electromagnetic type.

The present invention aims at creating temperature protection of electric machine staggerers, which does not have the indicated drawbacks, based on the use of an electromagnetic relay; In the proposed device, the electromagnetic relay has a mobile system consisting of two sickle-shaped iron koreas; DC-powered excitation coils of the relay include: one - in series with the detector and the jet coil, and the other in parallel with this circuit; the relay is supplied with demagnetizing windings powered by alternating current.

The proposed device is shown in the drawing in schematic form.

The operation of the proposed device is based on the balanced principle of measuring the resistance of the detector. The relay has a mobile power system with two sickle-shaped gems I am frm 7 and 2

retractable into serial 4 and shunt 3 coils. Serial coil 4 is wrapped around the direct current from the auxiliary current source 11 through the detector Yu and the jet coil 9. The shunt coil 5 is supplied directly from the direct current source 11. In addition to the DC windings, the Shuit and coil have separate demagnetizing windings that are connected to the AC network. The purpose of these alternating current windings is to demagnetize the residual magnetism of iron sickle-shaped koreas, thereby creating an independent relay reading from hysteresis under the action of direct current windings. The relay scale 5 has a movable contact 6, which is installed at the maximum allowable temperature, calibrated directly on the scale. The temperature indicator 7 together with the movable contact is placed on the axis of the movable system having an arresting current-carrying spring 8.

The action of the relay is as follows. As the temperature increases, the resistance of the copper o6MOTkH detector 10 increases and the current in the series coil 4 decreases accordingly. Due to this, the moment of retraction of the crescent core of the shunt coil overcomes the moment of the series coil and the moving system turns to the right (in the direction of increasing temperature on the scale). A reactive coil 9 in a serial circuit serves as a barrier of alternating currents induced in the detector winding: its inductive resistance is several tens of times ohmic, due to which it has low direct current resistance, it almost eliminates the harmful effect of induced currents in the detector .

It should be noted that even in cases of significant AC voltages arising in the detector when a short-circuit current flows around the windings of the generators, the false action of the relay is impossible: the alternating current arising in this short-term mode will cause the serial coil to predominate the relay system will turn slightly to the left, i.e. non-selective contact closure will be made impossible.

Due to the relative rotation of sickle-shaped koreas on the axis, when calibrating a relay, it is possible to easily adjust the length and shape of the scale.

The subject matter of the invention.

A device for temperature protection of electrical machines, consisting of an electromagnetic coil circuit in which a detector is turned on, the winding of which is located in the machine grooves, characterized in that the relay, having a moving system in the form of two sickle-shaped Koreans sitting on a common rotary axis, has four coils excitations, of which two located on different cores are fed from an alternating current source, and the other two from a source of direct current, one directly, and the other located on the other core, key on the DC power source through the detector and a reactance in order to provide a selective action switch, in particular, the independence of the effect of hysteresis caused by magnetization anchors constant current, and suppressing the circuit relay alternating currents induced in the detector coil.