DE2628731C3 - Electric resistance heating element - Google Patents

Description

The invention relates to an electrical resistance heating element according to the preamble of claim 1.

It is known. To use metal wires or metal bands and electrical heating resistors in heating elements for de-icing systems for missiles. These heating resistors are arranged in a carrier material and are applied together with this as a finished heating element to a profile surface to be de-iced tines aircraft or a helicopter rotor blade, for example by gluing. A disadvantage of these heating elements is the great difficulty in covering multiple curved surfaces. This is only possible using many small segments, which results in considerable manufacturing costs.

From DE-OS 23 32 264 is the use of an ■ uf an insulating pad and hardened film made of a hardenable synthetic resin and carbon and / or graphite fibers as conductive, at Current passage heat-dissipating layer known. 6 film can also consist of a mixture of one curable synthetic resin and carbon and / or graphite fibers.

It is a prefabricated element, just like the one according to one in DE-OS 23 06 250 described method manufactured electrical heating element. This procedure is characterized by that the surface of a heat-resistant, electrically non-conductive support with a mixture coated from an organopolysiloxane, graphite powder and an organic solvent and the coated Heated carrier A carrier made of heat-resistant glass, ceramic material, Use heat-resistant fiber-reinforced plastic or a combination of these materials.

From DE-OS 20 57 017 a flat heat generator can be taken, which is made of carbon fibrils Heat generating element in the form of a sheet of paper, a binder to hold the carbon fibrils in the to hold the desired location, an insulating coating to cover the entire surface of the Heat generating element and with the heat generating element having connected leads. This element is also a Prefabricated heating element, which is arranged on a surface to be heated through special operations must become.

It is also known to first apply a carrier layer of z. B. plastic to apply and then to attach the Heizwiderstän de on this carrier layer. To do this, offers the flame spray process. in which the metal forming the heating resistors is placed on one of the profile located carrier layer is sprayed on. One made in this way and at the same time on the profile An aircraft or helicopter rotor blade applied heating element is very expensive to manufacture, since this requires a large number of labor-intensive work processes.

The invention is therefore based on the object of creating an electrical resistance heating element that can be arranged on any curved surface of a plastic construction without separate work steps are required after the production of the plastic construction.

According to the invention, the object is achieved by the characterizing features of claim 1.

Further refinements of the invention are described in subclaims 1 to 6.

One advantage of the invention is that the heating element can be attached to any curved surface to see. It is also advantageous that the heating element is an integral and homogeneous component a plastic construction, in particular an aircraft profile or a helicopter rotor blade Carbon fiber is made in one piece together with the plastic construction. Such a one Production saves a considerable amount of time and thus also a considerable saving in production costs with himself.

In the drawing is an embodiment according to Invention shown.

1 with the wing of an aircraft is referred to, at its outer end two of several heating elements 2 on the surface of the wing nose as integral components are arranged. The healing elements 2 have heating resistors (not shown in the drawing) made of carbon fibers. the example can also be in mat form and in glass fiber reinforced plastic or in a carbon fiber composite material are embedded. The heating resistors are also not shown in the drawing Connections connected to supply lines, via the heating energy supplied by an energy source to the heating resistors is fed. Generally will

the heating resistors are briefly heated one after the other according to a specified heating cycle.

In order to ensure a perfect electrical connection of the supply lines to the heating resistors, it is possible to apply or vapor-deposit metal layers on the connecting ends of the carbon fibers. The connection ends of the hollow fibers can also be made of metal laminated into the carbon fibers filled resins. Another electrically conductive connection between the two in question Split can be made through the use of clamp connections.

1 sheet of drawings

Claims (6)

Patent claims: 1. Electrical resistance heating element, which has a heating layer surrounded by a carrier material with carbon fibers and on any curved surface of a plastic construction is arranged, in particular for use on aircraft profiles or helicopter blades as Part of a de-icing system, thereby characterized in that the carrier material consists of a carbon fiber composite that a thin insulating layer is arranged between the heating layer and the carbon fiber composite material and that the carrier material, the heating layer and the insulating layer are integral parts of the plastic construction are. 2. Heating element according to claim 1, characterized by the use of carbon fiber mats as Heating layer. 3. Heating element according to claim 1 or 2, characterized in that at the connection ends of the Carbon fibers galvanically applied metal layers for connecting the electrical leads are provided. 4. Heating element according to claim 1 or 2, characterized in that for connecting the electrical Leads to the connection ends of the carbon fibers on these connection ends vapor-deposited metal layers voi Iianden are. 5. Heating element according to claim 1 or 2, characterized in that the connection ends of the carbon fibers consist of metal-bonded resins laminated into the carbon fibers. 6. Heating element according to AnspMch 1 or 2, marked through the use of clamp connections between the connections of the carbon fibers and the electrical supply lines.