RU2459391C1 - Method for manufacturing of heating element - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: heating element is assembled from any number of serially joined sections, every of which is made of two spirals installed one into another with the opposite winding of turns. The outer spiral is stretched to the length of the inner spiral, connected at the ends and additionally stretched to the required length. Versions are given to make spirals of a heating section from a wire: of equal or unequal length, with equal or unequal section, and also a heating element with any number of sections, opposite winding of turns in outer spirals of adjacent sections and application of a material from a high-temperature group: tungsten; tantalum; molybdenum; niobium.

EFFECT: invention increases axial stability of a heating element and expands a temperature range of its usage.

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Description

The invention relates to the field of electrothermia, in particular to a method for manufacturing a heating element.

A known method of manufacturing a heating element, which consists in the fact that from a metal wire with high ohmic resistance, a spiral is wound, which is placed in ceramics with grooves in the form of an Archimedes spiral, or in ceramics grooves in a shaft resistance furnace, see A.D. Svenchansky, " Low temperature electric heating. " - M .: Energia, 1978, p.40, fig. 10, where sketches of such elements are given, and on p.68, fig. 24 shows options for their implementation.

The disadvantage of this method of manufacturing a heating element is the low axial stability of the spiral, requiring its placement in the supporting grooves of the ceramic.

Closest to the distinguishing features of the proposed method is a method of performing a heating element, the spiral of which is placed in the pipe, and the free space of the pipe is filled with a filler, for example magnesium oxide, see ibid. P. 64, Fig. 23.

The disadvantage of this method of manufacturing a heating element is the presence of a pipe and a filler.

The objective of the invention is to develop a method of manufacturing a heating element with increased axial stability, which eliminates the above disadvantages.

The proposed method of manufacturing a heating element, which consists in the fact that it is assembled from series-connected sections, each of which is made of two spirals installed one inside the other with counter-winding turns, the outer spiral being stretched to the length of the inner spiral, both spirals are fastened at the ends and additionally stretch to the required length.

The heating element is assembled from an even number of sections, with equal or unequal length and equal or unequal cross-section of the starting material of the spirals of the sections and using material of the high-temperature group of tungsten, tantalum, molybdenum, niobium.

Figure 1 shows in plan a section of a heating element made by the proposed method; figure 2 shows in plan a heating element.

The section of the heating element is made of a spiral 1 from the left and spiral 2 with the right winding of coils that install one inside the other.

The outer spiral is stretched to the length of the inner. Both spirals fasten at the ends and stretch to the required length. The result is a section of the heating element with increased axial stability.

The spirals in such a section can have equal or unequal lengths, equal or unequal sections of the starting material, and can also be made of high-temperature group material: tungsten, tantalum, molybdenum, niobium.

The heating element is shown in plan in FIG. 1, made of six sections, in each of which spirals 1 and 3 from the left and spirals 2 and 4 with the right winding of the turns are applied.

The spirals of the adjacent sections are made with the counter winding of the coils, the outer and inner spirals being connected in series and form a stable spatial structure.

The heating element may be assembled from any number of sections.

Electric heating of such a heating element can increase its axial stiffness and expand the temperature range of its application.

Claims (8)

1. A method of manufacturing a heating element, characterized in that it is assembled from vertically mounted and connected in series sections, each of which is made of two spirals arranged in one another with opposite windings, the outer spiral is stretched to the length of the inner spiral, both spirals are connected at the ends and further stretched to the desired length. 2. The method according to claim 1, characterized in that it is assembled from an even number of sections. 3. The method according to claim 1, characterized in that the outer spirals of adjacent sections in it are performed with counter-winding coils. 4. The method according to claim 1, characterized in that each spiral section is made of material of equal length. 5. The method according to claim 1, characterized in that each spiral section is made of material of not equal length. 6. The method according to claim 1, characterized in that both spirals in it are made of material of equal sections. 7. The method according to claim 1, characterized in that the spirals in it are made of material of different sections. 8. The method according to claim 1, characterized in that the spiral sections in it are made of material of the high temperature group: tungsten, tantalum, molybdenum, niobium.

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