ES2546510T3 - Tubular heater and method for manufacturing said tubular heater - Google Patents

Abstract

Tubular electric heater with a tube liner and a heat conductor that extends into the tube liner, where insulating material is provided between the heat conductor and the tube liner and the heat conductor presents in a heater connection section tubular an electrical connection, where in the area of the connection section the insulating material with silicone is mixed or contains silicone to prevent the penetration of water or moisture in the tube lining or in the tubular electric heater, characterized by the fact that this silicone has an RTI value of at least 150.

Description

DESCRIPTION

Tubular heater and method for manufacturing said tubular heater

Field of application and state of the art

[0001] The invention relates to a tubular electric heater and a method for manufacturing said tubular heater.

[0002] From DE 1083450 the basic structure of said tubular heater is known. In a metal tube, a usually helical heating filament is extended as a coating. By filling the coating with insulating material in the form of grain, particularly demagnesium oxide, the heating filament is insulated in front of the coating.On one end of the heater is connected to the heating element with a connecting pin or it is moved over it, where the connecting pin extends centered with respect to the coating and stands out from this one. The connecting plug is insulated by a plastic or ceramic insulating body in front of the cladding and is also fixed in position.

[0003] Tubular electric heaters of this type are frequently used for example in thermoelectric appliances such as kitchen ovens depending on their heating. In furnaces, however, the development is in the sense that higher operating temperatures are used on the one hand, particularly for cleaning the furnace muffle by pyrolysis, and on the other hand for energy efficiency reasons they are used every time thicker thermal insulation.This development leads to temperatures continue to rise in the connection area of a tubular heater. By the way, for this problem to happen, the unheated length of the tubular heater could be extended. Since however the space inside the oven is very limited and a certain performance is required, this is generally not adequate.

[0004] EP 0858084 A1 describes a tubular electric heater of this type with a tube liner and a heat conductor extending therein. In the area of a connection section at the end of the tubular heater introduces an insulating material, which is impregnated with silicone oil, then a Teflon plug is applied, from which a connection protrudes.

[0005] From FR 2754128 A1 another tubular electric heater with a tube lining is known, which has an electrical insulation, consisting of an epoxy resin or a silicone material.

[0006] From EP 1296539 A1 another generic tubular electric heater is known, at the end of which plastic is applied as a connection section or as an insulating material, where a silicone plug is previously inserted.

Object and solution

[0007] The object of the invention is to create a tubular electric heater initially mentioned as well as a manufacturing method, with which problems can be avoided after the technique and allow especially higher temperatures in the connection zone or in the connection section of a tubular heater.

[0008] This task is achieved by a tubular electric heater with the characteristics of claim 1 as well as a method for its manufacture with the features of claim 7. Advantageous and preferred embodiments of the invention are subject to the other claims. and they are explained in more detail. The text of the claims is written for the content of the description through explicit reference. Some of the features listed below are only cited for the tubular electric heater or for the manufacturing method. However, regardless of that they should be valid for both the tubular electric heater and the manufacturing method.

[0009] It is envisaged that the tubular heater has a tube liner and at least one heat conductor that extends into the tube liner, where insulating material, usually magnesium oxide or the like, is provided therebetween. The heat conductor is provided with an electrical connection in a connection section of the tubular heater, for example in the form of a simple plug. According to the invention, in the area of the insulating connection section, the insulating material is mixed with silicone or to prevent water or moisture penetration in the lining of the tube or in the tubular electric heater. Lasilicone has an RTI value of at least 150. Advantageously, the silicone has an RTI value of at least 200, especially advantageously even at least 220. The RTI value (relative temperature index) is a measure of resistance to thermal aging according to UL, which is so to speak the American VDE. The silicone seal qualities commonly used for electric tubular electric heaters have an RTI value of maximum 105.

[0010] Thus simply higher temperatures are also allowed in the connection section of the tubular heater, without the electrical insulation or the functionality and safety of the tubular heater affecting the contemporary protection against the penetration of water or moisture in the tubular electric heaters . Alternative materials such as in the treatment of very expensive Teflon or the PPS described in DE 41 22 657 A1 as

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Thermoplast resistant to high temperatures are considerably expensive and expensive and therefore can be avoided.Therefore, according to the invention, it is not only a matter of using or mixing silicon together with the insulating material, but also of the use of certain silicone qualities with a high RTI value.

[0011] Another advantage of the use of silicone with a high RTI-value is that it is also possible to continue using silicone polymers or crosslinking agents used up to now for silicone from a low temperature range.

[0012] The silicone can be in the form of oil or resin and can then be introduced into the tubular electric heater, to impregnate or moisten or cover the insulating material in the most forward zone or in the connection section. This can be in the form of polymer. This can penetrate a few mm more in the tubular electric heater, but it should not penetrate too much, since otherwise the operating temperature of the tubular heater would be too high for the silicone, just as with a high RTI-value. Thus, a maximum of 10mm depth can be introduced or penetrated advantageously.

[0013] In addition, such a silicone can be advantageously formed with respect to combustibility, so that it has at least HB fire protection class, especially advantageously even V-0.

[0014] In another configuration of the invention, a silicone crosslinking agent can be provided or mixed.

[0015] For the manufacture of the heat-regulating tube according to the invention, the normal insulating material between the heat conductor and the tube lining is usually introduced and then in the connection section simply the special silicon. This can be solidified or hardened or joined during or after the Introduction: A conventional insulating bubble can then be fixed in the tube liner as a termination of the tubular heater, possibly even with a conventional putty between them.

[0016] These and other features also arise from the claims also from the description and the drawing, where the individual features are realized respectively by themselves or together in the form of subcombinations in an embodiment of the invention and other fields. and may represent advantageous and patentable embodiments by themselves, for which protection is sought here. The subdivision of the application in provisional titles as well as in individual sections does not limit the statements made under them in their general validity.

Detailed description of the embodiments

[0017] In the drawing, a section through an electric tubular heater according to the invention is shown in Fig. 1. The tubular electric heater 11 has a tube liner 13, in which a helical heating resistor 15 extends along the central longitudinal axis shown marked by strokes and dots. The tube liner 13 and the heat conductor 15 are advantageously shaped as is known in the state of the art. A gap 17 between the heat conductor 15 and the tube liner 13 is filled with an insulating material 18. This insulating material can be as described above magnesium oxide in powder or granulate form and for example also be compacted in the tube liner 13. Thus the tubular electric heater 11 is stable and the heat conductor 15 cannot in any way come into contact with the tube liner 13.

[0018] The left area of the tubular heating element 11 forms a connection section 20, where there the tube liner 13 has an end 21 that opens to the left. At this end 21 an insulating bubble 23 known per se is also introduced, advantageously of plastic or ceramic. This can be fixed or adhered with an additional putty 24 and be kept centrally in the lining of the tube 13.

[0019] A connecting bolt 25, preferably a metal pin, extends through a central orifice of the insulating bubble 23. At its end to the left of the tube liner 13, an electrical connection known per se can be provided. At its right end pointing inside the tube liner 13 has a reduced junction area 26, in which the heat conductor 15 is in contact and fixed in a fundamentally known manner. Also the connection section 20 with insulating bubble 23 and connection bolt 25 corresponds largely to the state of the art.

[0020] In the right area of the tubular heater 11 in Fig. 1 it is available discontinuously obliquely to the right and the insulating material 18 represented is presented. The insulating material18 extends to the putty.24 In the area adjacent to that side is added to the insulating material 18 according to the invention the recent silicone, so that a mixing zone 28 arises, which is represented with oblique stripes to the left and up. This silicone for the mixing zone 28 is shaped as described above, that is to say it is initially called a de-liquid material and can be liquid or pasty. Harden.

[0021] In the embodiment shown here, the mixing zone 28 is extended with the silicone of the

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putty 24 moving to the right towards the tube liner 13. If the putty 24 is omitted, the mixing zone 28 with the silicone can also be connected directly to the insulating bubble 23. Moreover, the mixing zone 28 extends to the right until shortly before connecting the connecting bolt 25 to the heating resistor 15 or the joining area 26. However, this must not necessarily be the case. The

The transition between the mixing zone 28 and the zone with the insulating material 18 without silicone adjacent to the right is very abrupt or abrupt, that is as a line or as a boundary layer 29. The length of the mixing zone 28 can reach a few mm, for example 10mm to 20mm or even 40mm.

[0022] Examples of connection insulating materials or corresponding silicones possibly used are

10 silicones with the designation ELASTOSIL A 234 or ELASTOSIL RT 772 from the manufacturer Wacker Chemie AG, Munich. The first silicone has an RTI-value of 150 and is in the HB fire protection class. The second silicone even has an RTI-value of 200 and is in the same fire protection class.

[0023] In addition there is a Silicone 3120 from Dow Corning Corporation, USA, which has an RTI-value of 15 220 and is also in the fire protection class HB.

[0024] The first and third materials of silicone listed above are found in liquid form, the other silicone material is pasty. All silicones can be introduced in a manner known per se in the lining of the tube 13 and in the insulating material and then hardened or bonded.

twenty

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Claims (8)

one.

Tubular electric heater with a tube liner and a heat conductor that extends into the tube liner, where between the heat conductor and the tube liner there is an insulating material and the heat conductor is present in a section of the connection of the heater to a tubular electrical connection, where in the area Of the connection section, the insulating material with silicone is mixed or contains silicone to prevent water or moisture from entering the tube liner or the tubular electric heater, characterized in that this silicone has an RTI value of at least 150.

2.

Tubular electric heater according to claim 1, characterized in that the silicone has for the connection section an RTI value of at least 200, at least particularly 220.

3.

Tubular electric heater according to claim 1 or 2, characterized in that the silicone in the form of a resin or oil is present before mixing with the insulating material.

Four.

Tubular electric heater according to one of the preceding claims, characterized in that the silicone exists in the form of a polymer.

5.

Tubular heater according to claim 4, characterized in that the polymer has a crosslinking agent.

6.

Tubular electric heater according to one of the preceding claims, characterized in that the combustibility of the silicone used has at least HB fire protection class, at least preferably V-0.

7.

Method for manufacturing a tubular heater according to one of the preceding claims, characterized in that conventional insulating material is introduced between the heat conductor and the tube liner and then a silicone with a value is introduced into the connection section. -RTI of at least 150 for mixing with the insulating material, where the silicone solidifies or hardens or bonds during or after the introduction.

8.

Method according to claim 7, characterized in that the silicone introduced is only introduced or penetrates a few mm deep into the connection section, preferably maximum 3mm to 10mm deep.

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