RU85282U1 - ELECTRIC HEATER - Google Patents

Abstract

1. An electric heater comprising a resistive heating and radiating element provided with leads for connection to an electric network, and a radiator, characterized in that it contains at least one radiator made in the form of a radiator-radiator made of a metal strip, while the resistive heating and the radiating element is made in the form of a flat film heater, and the radiator-radiator is placed with its ribs perpendicular to the plane of the resistive heating and radiating element. ! 2. The electric heater according to claim 1, characterized in that the resistive heating and radiating element and the radiator are fastened together by means of the upper and lower pressure strips. ! 3. An electric heater according to claim 2, characterized in that at least one of the pressure bars is perforated. ! 4. The electric heater according to claim 1, characterized in that each emitter is mounted on a metal plate located parallel to the resistive heating and radiating element and separated from the latter by an electrical insulating element. ! 5. The electric heater according to claim 1, characterized in that the resistive heating and radiating element is made in the form of a heating cable with heat-resistant electrical insulation, laid in a gypsum filler.

Description

The utility model relates to electrical engineering, namely to heaters of domestic premises such as residential premises, offices, country houses, change houses of construction organizations.

Currently, electric heating of residential, public and industrial premises is becoming more widespread, which opens up new opportunities for a qualitative improvement in sanitary and hygienic conditions and an increase in the level of comfort of the human environment.

A flexible electric heater is known, including a conductive element made of carbon-graphite fabric and a protective sheath made of rubber (AS USSR No. 3777977, IPC Н05В 3/14, op. 04.17.1971).

However, carbon-graphite fabric does not connect well with the rubber protective sheath, which leads to the presence of air bubbles that significantly reduce the technical characteristics of the electric heater.

A known electric film heater containing a flat zigzag resistive radiating element made of a foil of an amorphous alloy of metals or transition metals with metalloids, located between two flexible heat-resistant electrical insulating films and equipped with leads for connection to an electric network (item No. 57070, IPC Н05В 3/18, 3 / 36, pr. 03.01.2006).

A disadvantage of the known film electric heater is the high consumption of expensive precision material used for the manufacture of a resistive radiating element.

The closest in technical essence to the claimed technical solution is a film electric heater containing a flat meander-shaped resistive heating and radiating foil element in the form of a continuous tape of precision conductive material, located between two flexible heat-resistant electrically insulating films and equipped with leads for connection to the electric network, and a radiating element in the form of aluminum foil installed between an external electrical insulating film and a resistive heating and radiating element and separated from the resistive heating and radiating element by an additionally introduced electrically insulating film with a thickness of not more than 30 microns (cl. RF No. 2321188, IPC Н05В 3/36, etc. 04.12.2006).

A disadvantage of the known film electric heater is also the high consumption of expensive precision material used for the manufacture of a resistive radiating element, which leads to a high cost of the electric heater, as well as large overall dimensions, which makes it difficult to use in modern apartments.

The problem solved by the claimed technical solution is to reduce the overall dimensions of the electric heater, material consumption and reduce the cost of the electric heater with increased environmental friendliness and heating efficiency (t ° heater <90 °).

The problem is solved as follows. An electric heater containing a resistive heating and radiating element, equipped with leads for connection to an electric network, and a radiator, according to the claimed technical solution, contains at least one radiator made in the form of a radiator-radiator made of a metal tape, while the resistive heating and radiating element made in the form of a flat film heater, and the radiator-radiator is placed with its ribs perpendicular to the plane of the resistive heating and radiating element.

In this case, the resistive heating and radiating element and the radiator-radiator are fastened together by means of the upper and lower clamping bars.

Moreover, at least one of the clamping strips is made perforated.

In addition, each radiator-radiator is mounted on a metal plate parallel to the resistive heating and radiating element and separated from the latter by an electrical insulating element.

In addition, the resistive heating and radiating element can be made in the form of a heating cable with heat-resistant electrical insulation, laid in a gypsum filler, filled in a box.

The use of at least one radiator made in the form of a radiator-radiator made of metal tape in the electric heater, its location perpendicular to the surface of the resistive heating and radiating element in the form of a continuous film heater, allows to reduce the overall dimensions of the electric heater, to reduce its cost and due to the significantly increased surface of the radiator - radiator to increase the efficiency of its work - heat removal from a resistive heating and radiating element. The connection of the elements of the electric heater using clamping strips, at least one of which is perforated, allows for a more tight contact between the resistive heating and radiating element and the radiator-radiator, which helps to increase the efficiency of heating and heat transfer.

The installation of each radiator-radiator on a metal plate parallel to the resistive heating and radiating element, separated from it by an electrical insulating element, also increases the heating efficiency of the electric heater.

The implementation of the resistive heating and radiating element in the form of a heating cable with heat-resistant electrical insulation, laid in a gypsum filler, filled in a box, reduces the cost of the electric heater and its overall dimensions while maintaining increased heating and heat transfer efficiency.

The presence of significant features distinctive from the prototype allows us to recognize the claimed device as new.

Figure 1 schematically shows an electric heater with one radiator-radiator; figure 2 is a section aa in figure 1; figure 3 is a diagram of an electric heater with two radiators, radiators; figure 4 is a section bB in figure 3; 5 is a diagram of an electric heater with a resistive heating and radiating element in the form of a heating cable; Fig.6 is a section CC of Fig.5.

The electric heater consists of a clamped perforated strip 1, a radiator-radiator 2, made of metal tape, for example, of aluminum foil mounted on a plate 3 of aluminum tape, located between the electrical insulating elements 4 of the resistive heating and radiating element in the form of a film heater 5 and a solid pressure slats 6 with sides. In assembled form, the clamping plate 6 sides is connected to the perforated plate 1, providing a tight contact of the elements of the electric heater with each other (Fig.1-2).

In the case of using two emitter-radiators pos.2, mounted mirror-opposite to each other, two plates pos.3 of aluminum are used, and the lower clamping plate 6 is perforated (Fig.3-4).

In the case of the resistive heating and radiating element in the form of a heating cable 5, the lower clamping plate is used in the form of a metal box 7 with sides, on the bottom of which thermal insulation 8 is laid, for example, foam termals, on top of which a galvanized wire mesh 9 is laid, a heating cable 5 is placed on it, then a plate 3 of aluminum tape, a radiator-radiator 2, for example, of aluminum foil, is placed on it, a clamping perforated plate 1 is placed on top, it is connected to the box 7 using its sides and the hall Gypsum filler 10.

The assembled finished electric heater, after being placed in the housing, is installed in a place convenient for heating. In particular, the inventive electric heater can be installed in a heated room above the baseboard along the cold wall of the room or instead of baseboards.

When connected to the mains, the resistive heating and radiating element 5 heats up, heats the plate 3 made of aluminum tape, which in turn heats the radiator-radiator 2, which has a significant heating surface area. Due to the large area of heating and radiation, the specific power of the obtained heat flux is not high, which allows for relatively low temperature of heating surfaces (60 ° -90 °) to exclude strong convective air flows that contribute to the accumulation of household dust. Soft low-temperature heat creates a pleasant feeling of comfort, less affects the humidity of the air inside the heated room.

Claims (5)

1. An electric heater comprising a resistive heating and radiating element provided with leads for connection to an electric network, and a radiator, characterized in that it contains at least one radiator made in the form of a radiator-radiator made of a metal strip, while the resistive heating and the radiating element is made in the form of a flat film heater, and the radiator-radiator is placed with its ribs perpendicular to the plane of the resistive heating and radiating element. 2. The electric heater according to claim 1, characterized in that the resistive heating and radiating element and the radiator are fastened together by means of the upper and lower pressure strips. 3. An electric heater according to claim 2, characterized in that at least one of the pressure bars is perforated. 4. The electric heater according to claim 1, characterized in that each emitter is mounted on a metal plate located parallel to the resistive heating and radiating element and separated from the latter by an electrical insulating element. 5. The electric heater according to claim 1, characterized in that the resistive heating and radiating element is made in the form of a heating cable with heat-resistant electrical insulation, laid in a gypsum filler.