RU76764U1 - FILM ELECTRIC HEATER - Google Patents

Abstract

The utility model relates to flat electric heaters of a radiating type, in particular, to film electric heaters used for heating domestic and industrial premises. The objective of the proposed technical solution is to improve operational properties by ensuring uniform temperature distribution on the surface of the electric heater and reducing its cost. The film electric heater contains a radiating element 1 made of aluminum foil, a heating element 2 in the form of a contour consisting of wire rods 3 connected to each other in a meander by means of contact plates 4 pre-mounted on a plastic film 5, which is separated from the radiator 1 by an insulating film 6 As a result, the radiating element 1 is located between two heat-resistant electrical insulating films 5 and 6. The heating circuit 2 is also between two thermostats ykimi films 5 and 6. extreme upper contact plate 4 attached lamellas 7 for connection to an external electrical network. The contact plates 4 are closed by an electrically insulating layer 8. The design of the heating element in the form of a circuit of tensioned wire rods connected to each other in a meander by means of contact plates provides a constant surface temperature, improving operational properties, and makes the heater cheaper, eliminating the use of expensive precision conductive material as a heater. 1 pf, 4 ill.

Description

The utility model relates to flat electric heaters of a radiating type, in particular, to film electric heaters used for heating domestic and industrial premises.

Known film electric heater described in clause of the Russian Federation No. 57070 class. HB05 3/18. 3/36 s 01/03/06., Op.

Known electric heater consists of a flat heating resistive element, which simultaneously serves as a radiating element and is made of a meander-shaped foil, which is a precision conductive material based on iron, in the form of parallel strips interconnected without jumpers.

A disadvantage of the known heater is that the parallel strips are arranged so that the distance between their adjacent sides is not more than 2 mm. This leads to a large consumption of expensive precision material.

Known film electric heater described in p. RF №2321188 by class. HB05 3/14, 3/36 (published in Bulletin No. 9, March 2008) and selected as a prototype.

The known electric heater contains a flat meander-shaped resistive heating and radiating element made of foil in the form of a continuous tape of precision conductive material, located between two flexible heat-resistant electrical insulating films and equipped with leads for connection to the electric network, while the electric heater is equipped with an additional radiating element in the form of aluminum foil, installed between the external insulating film and the resistive heating and radiating element and separated from the resistive heating and radiating element by an additionally introduced electrical insulating film and a resistive heating and radiating element and separated from the resistive heating and radiating element by an additionally introduced electrical insulating film with a thickness of not more than 30 microns.

A disadvantage of the known electric heater is that it uses the thinnest (10-15 microns thick) tape of conductive precision material as a resistive heating element, which is practically not produced in the Russian Federation, and its delivery from abroad is very expensive. In addition, the resistive heating element

has a cross-section with a length varying from a predetermined thickness of up to 30% or more, which leads to a change in electrical resistance and to an uneven temperature distribution on the surface of the heater. The meander shape of the resistive heating-emitting element is technologically inconvenient in that it does not allow to organize a non-stop process of manufacturing an electric heater.

The objective of the proposed technical solution is to improve operational properties by ensuring uniform temperature distribution on the surface of the electric heater and reducing its cost.

This goal is achieved by the fact that in a film electric heater containing a meander-shaped resistive heating element located between two flexible heat-resistant electrical insulating films and provided with leads for connection to an electric network, and a radiating element of thin metal foil installed between the external electrical insulating film and the resistive element and separated from it by the thinnest insulating film, characterized by the fact that as a heating element is used a structure consisting of tensioned and fixed on a heat-resistant insulating film at the same distance rods of high-resistance wire with a constant cross-section along the length and connected at the ends to each other in a meander using contact plates.

The implementation of the heating element in the form of a contour of tensioned wire rods connected to each other in a meander using contact plates, provides a constant surface temperature, improving operational properties, and makes the heater cheaper, eliminating the use of expensive precision conductive material as a heater.

The technical result is to ensure the constancy of the temperature of the surface of the electric heater through the use of a heating circuit of wire rods located at an equal distance from each other, interconnected in a meander using contact plates. The inventive electric heater has a novelty in comparison with the prototype, differing from it by such an essential feature as the design of the heating element in the form of a contour of wire rods of high-resistance conductive material, which ensures the achievement of a given result - improving the operational properties of the heater by ensuring uniform temperature distribution on the surface.

The inventive electric heater can find application in everyday life, construction and industry, and therefore meets the criterion of "industrial applicability".

The utility model is illustrated by drawings, which are presented on:

- figa) a General view of the inventive electric heater from the heating circuit;

- figb) - view of the heating element - circuit;

- figv) - view of the heater along section AA;

- fig.1d) is a view of the surface of the electric heater in the direction of arrow B.

The film electric heater contains a radiating element 1 made of aluminum foil, a heating element 2 in the form of a contour consisting of wire rods 3 connected to each other in a meander by means of contact plates 4 pre-mounted on a plastic film 5, which is separated from the radiator 1 by an insulating film 6 As a result, the radiating element 1 is located between two heat-resistant electrical insulating films 5 and 6. The heating circuit 2 is also between two thermostats ykim films 5 and 6. extreme upper contact plate 4 attached lamellas 7 for connection to an external electrical network. Contact plates 4 are closed by an electrically insulating layer 8.

The electric heater works as follows:

When connecting its lamellas 7 to an external electrical network, the rods 3 of the heating circuit 2 are heated and heat up the surface of the radiating element 1 of aluminum foil. In stationary mode, the entire surface of the heater 1 is heated almost uniformly to a temperature of 40-45 ° C. The uniformity is provided by a constant along the length of the electrical resistance of the wire rods 3 and a correctly selected distance m between them. Under the influence of such a temperature, a uniform thermal infrared stream of a soft long-wave spectrum is emitted from the surface of the emitter into the airspace of the room.

Compared with the prototype of the inventive electric heater has improved performance due to a more uniform distribution of the temperature field on its surface and is cheaper.

Claims (1)

A film electric heater containing a meander-shaped resistive heating element located between two flexible heat-resistant electrical insulating films and provided with leads for connection to the electric network, and a radiating element made of thin aluminum foil installed between the external electrical insulating film and the resistive element and the thinnest insulating film separated from it, characterized in that as a heating element, a circuit consisting of stretched and fixed on the heat-resistant insulating film at the same distance from each other of the high-resistance wire rods with a constant cross-section along the length, connected at the ends to each other in a meander by means of contact plates.