DE3206508A1 - Electrical heating element - Google Patents

Abstract

In order to improve a ceramic-fibre insulating body having at least one electrical heating conductor coil which is embedded in the insulating body such that the coil extends parallel to the heat emission side of the insulating body and the turns, which are pulled apart, extend as far as the heat emission side of the insulating body in such a manner that short heating times, an increase in the efficiency and an increase in the life can be achieved using simple and cost-effective means and measures, the space (6) which is bounded by the heating conductor coil (2) is constructed to be free of insulating body materials and open to the heat emission side (3) of the insulating body (1). <IMAGE>

Description

"Electric heating elements

The invention relates to a ceramic fiber insulating body with at least an electrical heating coil embedded in the insulating body in such a way that the coil extends parallel to the heat radiation side of the insulating body and the pulled apart turns to the heat radiation side of the insulating body reach out.

From the German Offenlegungsschrift 28 55 382 a ceramic fiber insulating body is Known of this type, the insulating body by primary molding from a ceramic fiber slurry is produced in such a way that the ceramic slurry is inserted into a casting mold with Heating conductor coil introduced and then by means of a filter process controlled by underpressure the liquid is removed from the mold, compacting the ceramic fibers and enclose the electrical heating conductor coil.

Here, however, there is the disadvantage that almost the entire heating conductor coil from the IsolieriDffkörper is thermally insulated, which results in at least relative result in long heating times to the target temperature.

In addition, they are capable of the heat radiation side of the insulating body to emit thermal energy far faster than immediately adjacent winding zones the winding zones further away from the heat radiation surface.

As a result, the heating conductor windings can heat up to different degrees Zones result which reduce the service life of the heating conductor coil.

The object of the invention is now a ceramic fiber insulating body the type specified in the preamble of claim 1 to improve that with simple, inexpensive means and measures shorter heating times, a higher efficiency and an extension of the service life can be achieved.

The solution to this problem is characterized in that the of The space delimited by the heating conductor coil is free of insulating body materials and faces the heat radiation side of the insulating.

body is designed to be open.

As a result, all heating conductor windings are now able over their entire Volume of heat energy in the direction of the heat radiation side to be released unhindered, from which In addition to the desired increase in efficiency, it is also a much more uniform one Heating of the heating conductor windings over their entire circumference than before and thus the result is a significantly longer service life for the heating conductor coil.

To achieve these unhindered heating conductor heat radiation surfaces is in the heating conductor coil a space that fills it, up to the heat radiation side of the insulator reaching and radiating from the heat side opening forming mold core inserted detachably.

To be as large as possible, opening out on the heat radiation side To achieve openings in the insulating body, the mold core has on the heat radiation side of the insulating body striving towards, flush with the heat radiation side and projections that are smaller in width than the heating conductor coil.

A preferred one, which favors the production and the preparation costs A significantly lowering design is characterized by a lost mold core from the action of heat from the solid phase into the liquid or gaseous phase transformable material with a, compared to the materials of the Insulating body and the heating conductor coil considerably lower conversion temperature.

For this purpose, it is advantageous if the mold core is made of inert, residue-free removable material.

The lost mold core is preferably made of ice, in particular from frozen water.

A variant that may be preferred under certain circumstances is identified for this thanks to a mold core made from frozen ceramic fiber slurry, no negative effects whatsoever Can cause impairments during the formation of the insulating body.

An embodiment of the invention is shown in the drawing and is described in more detail below.

There show Fig. 1 part of a ceramic fiber insulating body of seen from the heat radiation side; Fig. 2 also in the direction of the line II-II seen; Fig. 3 is the same as seen in Fig. 1, but without one shown there Detail.

In the ceramic fiber insulating body 1 is an electrical heating conductor coil 2 embedded so that their turns with the heat radiation side 3 of the ceramic fiber insulating body 1 tangent.

According to Figures 1 and 2 is in the heat conductor coil 3 of the lost mold core 4 made of deep-frozen water, which fills the boundaries of the space used.

The mold core 4 has toward the heat radiation side 3 protruding with the latter flush projections 5, the width of which is smaller than the outer diameter the heating conductor coil 2 is so that the latter over its circumference by more than 1800 from Ceramic fiber insulating body 1 is included.

After thawing the mold core 4 and draining the water results in molded ceramic fiber insulating bodies 1 from the heating conductor coil 2 delimited and free space 6 opening out towards the heat radiation side 3, as shown in FIG 3 can be seen.

When using projectionsless lost mold cores 4 can towards the heat radiation side 3 directed outlets, also be gouged out.

Under certain circumstances it is also possible to use a dimensionally stable, roughly comb-like Provide mold core, the prongs of which between the turns of the heating conductor coil 3 intervene releasably, but the production is more expensive than when using lost mold cores according to the invention.

The windings of the heating conductor coil 2 can be circular, oval or be square.

All new items disclosed in the description and / or drawing and combination features are considered essential to the invention.

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Claims (8)

Claims: w Ceramic fiber insulating body with at least one in the insulating body so embedded electrical heating conductor coil that the coil extends parallel to the heat radiation side of the insulating body and apart drawn turns reach up to the heat radiation side of the insulating body, characterized in that the space (6) delimited by the heating conductor coil (2) is Insulating body materials free and to the heat radiation side (3) of the insulating body (1) is designed to be open. 2. Ceramic fiber insulating body according to claim 1, characterized thereby, that in the heating conductor coil (2) a space bounded by it filling up to to the Watmeabststrahlseite (3) of the insulating body (1) reaching and to the heat radiation side (3) emptying Mold core (4) forming openings is detachably inserted is. 3. Ceramic fiber insulating body according to claim 2, characterized in that that the mold core (4) to the Wärmeabststrahlsei te of the insulating body (1) striving towards, flush with the heat radiation side (3) and opposite in width the heating conductor coil (2) has smaller projections (5). 4. Kersmic fiber insulating body according to one of claims 1 to 3, characterized durch.einen lost mold core (4) from the action of heat from the solid phase in the liquid or gaseous phase convertible material with an opposite the materials of the insulating body (1) and the heating conductor coil (2) are considerably lower Transformation temperature. 5. Ceramic fiber insulating body according to one of claims 1 to 4, characterized by a mold core (4) made of inert, residue-free removable material. 6. Ceramic fiber insulating body according to one of claims 1 to 5, characterized by a mold core (4) made of ice. 7. Ceramic fiber insulating body according to one of claims 1 to 6, characterized through a mold core (4) made of frozen water. 8. Ceramic fiber insulating body according to one of claims 1 to 7, characterized through a mold core (4) made of frozen ceramic fiber slurry.