RU84660U1 - FILM ELECTRIC HEATER - Google Patents

Abstract

A film electric heater containing a meander-shaped flat 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 an radiating element in the form of aluminum foil installed between the external electric insulation film and the resistive heating and radiating element and separated from the resistive heating and radiating element is additionally introduced electrically insulating film, and provided with pins for electrical connection, characterized in that all heat-resistant insulating film have the same thickness.

Description

The utility model relates to electrical engineering, namely to flat electric heaters of a radiating type, in particular, to film electric heaters and can be used to heat household and industrial premises.

Known film electric heater described in p. RF 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 flat film electric heater with heat radiation on the one hand, described in p. Japan No. 53-27496. by class No5B 3/14, publ. 1978

Known electric heater consists of a transparent heating insulating film (Teflon, polyester resin), on which is placed a zigzag resistive element made of aluminum and tin foil. On the “working” side, the resistive element is lined with another film of synthetic transparent heat-resistant resin with a negative temperature coefficient of resistance (polyvinyl chloride, polyamide), in turn, coated with aluminum or steel foil, which acts as a screen.

The disadvantages of the known heater are its high cost due to the fact that the resistive element has a large surface, low strength due to its implementation from tin and the complexity of the design due to the presence of the screen.

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 on a too thin insulating film that separates the conductive resistive element and aluminum foil, wrinkles appear on the radiating surface of the manufactured electric heater even at a low speed of the process flow. The resulting unevenness in the form of wrinkles reduces the heat flux emanating from it due to the scattering of heat rays, which reduces the efficiency of the heater by 8-10%. It is possible to achieve the permissible roughness of its surface at a speed of the process flow of 1-1.2 m / min, which also determines the corresponding low level of productivity of the production line.

The objective is to increase the heat flux emanating from the surface of the electric heater while increasing the speed of the process.

The problem is solved in that in a film electric heater containing a meander-shaped flat 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 a radiating element in the form of aluminum foil installed between an external electrical insulation film and a resistive heating and radiating element and separated from the resistive heating and radiating element by In addition to the electrically insulating film, as well as equipped with leads for connection to the electric network, ACCORDING TO THE USEFUL MODEL, all heat-resistant electrical insulating films have the same thickness.

The use of all insulating films of the same thickness eliminates the appearance of wrinkles on the radiating surface and the resulting heat flux scattering, which significantly increases the power of the electric heater, and also makes it possible to increase the speed of the process by about 2 times or more.

The technical result is the elimination of the possibility of wrinkles causing the scattering of the heat flux, as well as increasing the speed and productivity of the process.

The inventive utility model has a novelty in comparison with the prototype, differing from it by such an essential feature as the use of electrical insulation films of the same thickness, ensuring the achievement of a given result.

The inventive film electric heater can be widely used in electrical engineering, and therefore meets the criterion of "industrial applicability".

A utility model is illustrated in the drawing, which shows a sectional view of an electric heater.

The film electric heater contains a meander-shaped flat resistive heating and radiating element 1 made of foil in the form of a continuous tape of precision conductive material located between two flexible heat-resistant electrical insulating films 2 and 3 and radiating element 4 in the form of aluminum foil. Foil 4 is installed between the external insulating film and the resistive heating and radiating element 1 and separated from the resistive heating and radiating element by an additionally introduced electrically insulating film 5. In this case, films 2, 3 and 5 have the same thickness. There are 6 conclusions for connecting to the electrical network.

In comparison with the prototype of the inventive film electric heater has a higher heating power and a higher speed and productivity of the manufacturing process.

Claims (1)

A film electric heater containing a meander-shaped flat 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 an radiating element in the form of aluminum foil installed between the external electric insulation film and the resistive heating and radiating element and separated from the resistive heating and radiating element is additionally introduced electrically insulating film, and provided with pins for electrical connection, characterized in that all heat-resistant insulating film have the same thickness.