RU2413394C1 - Film electric heater - Google Patents

Abstract

FIELD: electricity. ^ SUBSTANCE: device comprises flat zigzag-shaped resistive radiating element of foil arranged between two flexible heat-resistant electric insulation films and equipped with leads for connection to electric grid. Flat zigzag-shaped resistive radiating element of foil is arranged in the form of two elements arranged at both sides of heat resistant electric insulation film so that parallel sections of foil ribbon zigzags of one are displaced relative to parallel sections of zigzags of foil ribbon of the other by pitch of width of foil ribbon, at the same time width of foil ribbon and pitch between them are equal to each other, and links of zigzags are overlapped with each other. Each resistive radiating element is equipped with leads for connection to electric grid. ^ EFFECT: proper heat radiating properties, high efficiency factor and possibility of connection to three-wire electric grid. ^ 2 dwg

Description

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

Known electric film heater containing a heating film in the form of a conductive layer with supply tires, mounted on the surface of the insulating layer [1].

In the known technical solution, the conductive layer is not protected from mechanical damage, which limits the possibility of using a film electric heater.

The closest technical solution to the proposed one is a film electric heater containing a flat zigzag-shaped resistive radiating element made of foil located between two flexible heat-resistant electrical insulating films and equipped with leads for connection to the electric network [2].

The disadvantage of the technical solution is the limited ability to control the temperature regime, low efficiency, the lack of the ability to connect to a three-wire network, which limits the possibility of using a film electric heater.

The technical problem posed by the invention is the expansion of the possibilities of using a film electric heater.

This goal is achieved by the fact that in a film electric heater containing a flat zigzag shaped resistive radiating element made of foil located between two flexible heat-resistant electrical insulating films and equipped with leads for connection to an electric network, a flat zigzag shaped resistive radiating element made of foil is made in the form of two elements, located on both sides of the heat-resistant electrical insulation film so that the parallel sections of the zigzags of the foil tape one are offset tnositelno parallel portions zigzag foil tape to another step width tape foil, the foil tape width and the pitch therebetween are equal to each other, and the zigzag webs overlap with each other, wherein each radiating element is provided with a resistive pin for electrical connection.

The proposed technical solution has a significant difference from the known one due to the fact that each radiating element relative to the second is simultaneously a radiating element and a screen, thereby the heater has good heat-emitting properties, therefore, high efficiency. In the proposed technical solution, it is possible to control the heating by turning on the resistive radiating elements relative to each other in series or in parallel, in addition, if it is necessary to turn on one radiating element, in this case the other can serve as a grounding bus when implementing a three-wire circuit.

Figure 1 shows a view of a film electric heater from the side of a heated room; figure 2 is a section along aa in figure 1.

The film electric heater contains two flexible heat-resistant electrical insulating films 1, 2, for which, for example, a polyethylene terephthalate laminated film [3] can be used, between which a flat resistive radiating element is placed.

The resistive radiating element is made in the form of resistive elements 3 and 4 of foil, each of which has a zigzag shape and is laid continuously. Between the elements 3 and 4 is a heat-resistant electrical insulating film 5. Each of the elements 3 and 4 is equipped with two terminals, respectively, "A" and "X", "B" and "Y" / 1 /. The width of the foil stripes of the elements 3 and 4 are equal to each other, the parallel sections of the zigzags of the foil tape of the element 4 are offset relative to the parallel zigzags of the foil tape of the element 3 by the width of the foil tape / Fig.2/. Thus, the elements 3 and 4/1/1 form a continuous continuous coating.

The electric heater operates as follows. When connecting it to the electric network, the resistive elements 3 and 4 heat up and radiate heat into the space inside the room, and the resistive elements can be switched on either in series or parallel to each other, in addition, when only one element 3 or 4 is connected, the second element is simultaneously reflective screen and can be connected to a grounding conductor, which makes it possible to use a film electric heater in a three-wire network, where the working neutral conductor and the protective neutral neutral conductor Van from each other.

When the resistive elements 3 and 4 are connected in series, it is necessary to connect the terminals "B" and "X" to each other, and to connect the terminals "A" and "Y" to the network. In this case, the electromagnetic fields created by the currents flowing through the resistive element of one, for example 3, are partially compensated by the field of the resistive element of the other, for example 4, since with this inclusion the directions of the currents in the adjacent stripes coincide. This leads to a decrease in the reactive component of the power consumed by the resistive elements, and, as a consequence, an additional increase in the efficiency of the film electric heater.

For the parallel connection of resistive elements 3 and 4, it is necessary to connect the terminals "A" and "B" and the terminals "X" and "Y", and connect two common connection points to the network. With this connection, the directions of the currents in the adjacent stripes coincide, and the electromagnetic fields of the parallel sections of the resistive elements 3 and 4 partially compensate each other.

If it is necessary to turn on the heater to a three-wire network, the terminals "B" and "Y" of the resistive element 4, which are farthest from the surface of the room, are connected to the phase and neutral wires, respectively, and the terminals "A" and "X" are connected to the ground bus, while the resistive Element 3 is simultaneously a reflective shield and a grounding bus.

Thus, the proposed technical solution has the ability to control the radiating power in the simplest way: by turning on one or both of the radiating elements. With the simultaneous inclusion of both radiating elements, their inclusion is possible both sequentially and in parallel, which further expands the possibilities of applying a technical solution.

Information sources

1. Patent EPO No. 0116788, cl. H05B 3/14, 3/36, 1984.

2. RF patent No. 2088047, cl. H05B 3/18, 3/36. "Film electric heater" authors Epishkova N.E., Markina V.V., Khamitova O.V., 1997.

3. TU 6-49-5761783-334-90 “Laminated polyethylene terephthalate film”.

Claims (1)

A film electric heater containing a flat zigzag-shaped resistive radiating element made of foil located between two flexible heat-resistant electrical insulating films and equipped with leads for connection to an electric network, characterized in that the flat zigzag-shaped resistive radiating element of foil is made in the form of two elements located on two sides of the optional heat-resistant electrical insulation film so that the parallel sections of the zigzags of the foil tape are one o are offset relative to the parallel sections of the zigzags of the foil tape of the other by a step of the width of the foil tape, the width of the foil tape and the pitch between them being equal to each other, and the jumpers of the zigzags overlap with each other, with each resistive radiating element equipped with two leads for connection to the electric network.

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