DE2234932B2 - PROCESS FOR MANUFACTURING SMALL ELECTRIC RADIATORS - Google Patents

Description

The invention relates to a method for producing a small electrical heater from a deformable one Wire heating element that is produced by applying an insulating layer of fiberglass threads to a load-bearing, warm-resistant metal core and made by wrapping the insulating layer with a thin heating wire will.

Small radiators are used in device technology, especially in household appliances such. B. Hairdryers. Drying hoods od. The like. Increasing importance. Here, the heating output should be compared to conventional Devices are smaller and the housing as small as possible, so that a small one Heating capacity is to be accommodated in increasingly smaller rooms. In doing so, the fact must be taken into account be worn that the device housing today largely consist of plastic, the one only has low heat resistance. In practice this means that the greatest possible length of heating wire should be used To accommodate the smallest space while avoiding such a large radiation to the plastic housing is.

Under these conditions, conventional heating wire coils cannot be used because the required small wire diameter of less than 0.1 mm and the considerable wire length a self-supporting one Make arrangement impossible. Also a suspension or support of the wire coils on insulating panels od. The like. Ruled out because the space requirement and the heat dissipation to the suspensions are too great.

Wire heating elements are now known (e.g. DT-OS 19 52 295. DT-Gbm 70 39 909, DT-PS 8 81845) where the inherently unstable heating wire is carried by a metal core. The metal core is included a glass flux layer or coated with asbestos or glass fiber as an insulating layer and on this insulating layer the heating wire is wound up. In the latter case, the result is a more flexible, but somewhat flexible one stable strand, which in the stretched state as

Radiator or as part of such can be used.

The processing of such a wire heating element to a shape deviating from the elongated shape, as is often required for devices due to their design, is not or only more difficult Manual work possible, as well as attaching the connecting pieces. z. B. cable lugs or the like, not minor Causes difficulties.

The invention is initially based on the knowledge that glass fiber threads are particularly useful for the insulating layer are suitable because they themselves have a constant diameter and in a very dense and uniform Winding can be applied ·). This is necessary because the outside diameter of the The insulating layer influences the winding diameter of the heating wire and thus the resistance per unit of length, d. H. the more irregular the diameter - this is inevitably the case with fibers - the stronger this resistance fluctuates per unit length.

On the basis of this knowledge, the invention is based on the task of proposing a method Help of which it is possible. from a wire heating element of the type described, a radiator from to produce almost any, inherently stable form.

This object is achieved according to the invention in that the wire heating element is covered with a thin plastic film coated, then brought into the shape provided for the radiator and melted the Glass fiber threads are briefly heated above the operating temperature.

The plastic film applied immediately after the heating wire has been wound up, for example by soaking keeps the wire heating element dimensionally stable. When the element is cut to length, the wire ends cannot splice open so that the connection gap can be struck without difficulty. Also can Element can be gripped by hand or a tool without the risk of the very tight the laid wire coils slip and come into contact (interturn short-circuit). The stretched wire heating element can even be in any shape, e.g. B. in a round coiled shape, without it being in the the aforementioned sense is at risk.

The brief heating of the element to a temperature above the operating temperature leads to a surface melting of the fiberglass threads, so that a dense insulating layer is created. The heating time and temperature is to be selected so that the glass fiber does not melt deeply, otherwise that Element would become too brittle and would break in further operations. However, this keeps the element in Flexible limits, as there is still a flexible core. By heating up the further Effect achieved that the plastic film evaporates or burns, so that the device in which the radiator built in, can be used immediately without any risk or unpleasant smell.

Practical tests have shown that with a Drahi heating element of about 1 mm total diameter a heating time of a few seconds, e.g. B. 5 to 10 see, is sufficient to produce the desired effects reach.

In a preferred embodiment of the invention, a polyvinyl acetate dispersion is used as the plastic, which can be applied very easily in the form of a film.

The invention makes it possible to manufacture the wire heating element endlessly as a strand, after which

Coating the Kurutstoffilms to the desired extent to be cut to length and provided with the electrical connectors before shaping. The heating up takes place preferably before the shaping, but can also during the same or immediately happen afterwards.

In the drawing, a wire heating element is shown in FIG. 1 and FIG. 2 a radiator made therefrom shown.

The wire heating element has a core 5 from a heat-resistant and rigid metal. On this soul are fiberglass threads with a diameter of a few μ applied, you form an insulating layer 2. The heating wire 3 is wound onto this with a diameter of 0.1 mm or less. The outer diameter of the Element is about 1 mm.

The endlessly manufactured wire heating element is covered with a plastic film just a few microns thick and cut to the desired size. Then the connectors, for. B. cable lugs 5, posted. The wire heating element is then brought into the desired shape of the HehiJutipcn, z. B. formed into the helix shown in FIG. By briefly heating to a temperature in the melting range of the glass fiber threads and above the operating temperature, the insulating layer 2 melts on its surface 4, so that a dimensionally stable structure is created.

1 sheet of drawings

Claims (4)

22 34 claims: 1. A method for producing a miniature heater from a deformable wire heating element that by applying an insulating layer of fiberglass threads to a load-bearing, heat-resistant metal core and Wrapping the insulating layer with a thin heating wire is made, characterized in that that the wire heating element covered with a thin plastic film, then into the for brought the radiator intended shape and briefly melted the fiberglass threads is heated above the operating temperature 2. The method according to claim 1, characterized in that that the wire heating element is heated for a few seconds. 3. The method according to claim 1 or 2, characterized in that one for the plastic film Polyvinyl acetate dispersion or the like is used. 4. The method according to any one of claims 1 to 3, characterized in that the wire heating element Manufactured endlessly, cut to the required length after coating and before shaping is provided with the electrical connectors.