SU148842A1 - Installation for kapp turbogenerator heating - Google Patents

Description

There are well-known mouthpieces for heating the mouth guards (tires for the frontal parts of the rotor winding) of turbo generators, having a heater in the form of a cylindrical inductor, which is worn on the tray and divided into sections for heating the tray over zones. The disadvantage of these setups is that they consume a lot of reactive power, and they themselves have a low power factor.

The proposed installation differs from the known performance of the kappa heater in the form of an inductor, which is also a resistance furnace, which increases the power factor and reduces the heating of the shaft and the rotor barrel. This is accomplished by making the cylindrical inductor open from the inner surface and beyond: Cre: By beating its turns in the refractory body with longitudinal strips of refractory material.

The installation also provides hot-plate protection for the zones. This is achieved due to the fact that the conductors of the extreme zones of the heater are felted.

FIG. 1 shows a diagram of heater zones; in fig. 2-schematic installation device.

The main element of the installation is an inductor heater, which is a cylinder wound from a heat-resistant metal of circular section. The conductors of the extreme zones 7 and 5 (Fig. 1) have a cross section 50% larger than the conductors of zones 2, 3, 4. The heater works as an electric resistance furnace and as a cylindrical inductor: 60% of the thermal energy required to heat the droplet 6, transmitted to it by the induction method, and 40% by radiation. The heating elements-coils 7 are laid in the slots of the refractory box No. 1488422- of the rod 8 and secured therein by longitudinal refractory plates 9. The refractory body 8 is attached to the metal rod 10 forming the frame with the help of rings //. The protrusions 12 are fastened to these rings to transfer the entire installation by a crane.

The magnetic flux inducing heating currents in the kappa is almost two times less than in the case of a simple cylindrical Inductor, which generates kappa heating only by the induction method.

To reduce the magnetic flux penetrating and heating the rotor, magnetic screens 13 made of red copper are installed, and to reduce the heating of the shaft and rotor barrel by radiation, screens 14 are provided.

The process of heating the mouthguard is as follows.

With the help of a crane, the device is put on the mouthguard, and the block 16 is laid between the unit and the rotor shaft 15, and the block 18 between the unit and the rotor barrel 17, after which the unit is connected to an electrical circuit.

The electrical circuit allows for different switching of sections, which ensures the high degree of heating of the heater zones. The heating temperature is matched by thermocouples.

After reaching the required temperature (250 °), the bending is switched off and removed, and then the kappa is removed.

The proposed installation is three-phase and is connected to a voltage of 220-380 volts, therefore there is no need for a step-down transformer and a balancing device.

Cobregenic subject i

Claims (2)

1. An installation for heating the mouthguard (tires for the frontal parts of the rotor winding) of turbo generators, having a heater in the form of a cylindrical inductor, put on a mouthguard, is different in that, in order to increase the power factor and reduce the heating of the shaft and rotor barrel, the inductor forms lie resistance and heats the kappa partly by induction, and partly by thermal radiation, for which it is made open from the inner surface of the cylinder and its turns are fixed in a refractory body, for example, by longitudinal strips of refractory material. 2. The installation of Claim 1 with a cylindrical heater divided into sections for heating the droplet into zones, with the fact that the conductors of the outer zones of the heater are made with an increased cross section (compared to the conductors of other zones) to provide the required degree of heating zones with different switching sections in the process of heating. ... Ш 1 Ж В 1 В Х Ж Ж «« Ж «Я