SU649178A1 - Resistive electric heater - Google Patents

Description

It induces high operating temperatures, and near-electrode current-carrying parts reduce the temperature on the current-conducting electrodes. The internal surface of the existential layer limits the high-temperature space.

This type of heaters is the most close to that proposed by the technical essence.

The disadvantage of these resistive heaters is the lack of thermal regulation in the area of the near-electrode current-supplying part of the heater, which causes overheating electrodes and cracking of the thickened part.

The circuit of the invention is to increase the reliability of a resistive electric heater in operation by adjusting the thermal regime of the current-electrode near-electrode parts.

This is achieved by the fact that the inner surface of the near-electrode parts is formed by truncated ellipsoids of rotation, the outer diameter of each of the parts is not larger than the diameter of the central part, and the cross-section is unevenly increasing towards the electrode.

FIG. 1 shows a resistive electric heater with a continuous upper and hollow lower current leads; in FIG. 2, the same, the upper and lower current leads, made the same в, in FIG. 3 - the same, the outer diameter of the lower Tokopodvod is equal to the outer diameter of the central resistive region | in fig. 4 - the same, the outer diameters of the current leads and the resistive element are equal.

The resistive electric heater will sarzhit the jusistive element 1, made in the form of a hollow body of rotation from refractory conductive oxides, for example, stabilized zirconia, with a cylindrical central section.

The near electrode electrodes 2 of increased cross section are formed by second order rotation surfaces. The lower apectoral part is made with a through central hole 3. The current-carrying electrodes 4 are installed along the ends of the near-electrode parts 2. The inner surface 5 of the near-electrode parts 2 is formed by truncated ellipsoids of rotation. The diameter of the outer surface of each of the near-electrode parts 2 is made out not exceeding the diameter of the central part of the resistive element 1. The near-electrode parts are made with a cross-section unevenly increasing towards the electrodes 4.

In order to improve the manufacturability of the design of a resistive electric heater, the upper electrode part 2 is made detachable, but it is also possible to use solid designs of electric heaters, which, although they are smooth; more difficult to manufacture, however, are more reliable in operation.

Resistive electric heater works in the following way.

The starting heating of the resistive electric heater is carried out from a peripherally located system (s) of heating. When the high-temperature material of the heater becomes sufficiently electrically conductive, an alternating electric current is passed through the resistive heater. The resistive element develops high operating temperatures and the current-carrying parts 2 allow the temperature to be lowered. electrodes.

The internal surface of the resistive electric heater limits the working high-temperature space and eliminates the formation of convective heat potsv. This improves the conditional operation of the current leads, and stabilizes their temperature. The unevenly increasing cross section of the current-carrying parts allows the temperature from the resistive element to the current-carrying electrodes to be reduced. Thus, regulation of the thermal mode of the current-carrying near electrode parts is provided.

Sealing the internal high-temperature space of the resistive electric heater and smoothing the temperature to the current-carrying electrodes allows obtaining a uniform temperature field in the heater's working space, eliminating overheating of the heat-conducting electrodes, and improving the heat resistance of the structural elements of the oxide electric heater.

Improving the reliability of the resistive electric heater allows to increase the performance of thermal units.

The formula is invented by Re-life electric heating, containing a resistive element, produced in the form of a hollow body of rotation from refractory conductive oxides, for example, stabilized zirconia, with a cylindrical central section and near-electrode increased in cross-section parts formed by the surfaces of the second section. at least one of which is made with through

in the middle, and a current lead electrodes mounted on the ends, characterized in that, in order to improve the reliability of the electric heater in operation, the inner surface of the electrode parts is formed by truncated ellipsoids rotated, the outer diameter of each vz is made not exceeding the central part, and the transverse the cross section is unevenly increasing towards the electrode.

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