RU86707U1 - PANEL HEATING ELECTRIC - Google Patents

Abstract

1. Electric heating panel containing interconnected insulating base and a heating element, characterized in that the base is made in the form of a plate of non-conductive material, at least one surface of the plate facing the attached surface is made with two applied layers of electrical insulation made of polymer a powder of different colors with the subsequent polymerization of IR radiation, at least one surface of the plate facing the attached surface, a resist a heating element consisting of several resistive carbon filaments, the number of which is determined by the power consumption of the panel and the permissible heating temperature of the heat-transfer surface of the panel, while the filaments are laid bifilarly, while electrical connectors are fixed on the insulating layers by thermocompression, the connections of which with resistive carbon filaments are electrically conductive cold curing glue, while a decorative protective layer is applied over the resistive layer Imera. ! 2. Electric heating panel according to claim 1, characterized in that the base is made of drywall. ! 3. Electric heating panel according to claim 1, characterized in that the base is made of asbestos cement.

Description

The utility model relates to the heating of buildings and structures and can be used to heat residential and industrial premises while performing the function of a decorative interior due to aesthetic design features and appearance.

Currently, various electric heating devices are widely used in industry and everyday life for space heating.

A known design of an electric heating wall panel (see patent 2208742, F24D 13/02, B.I. No. 20, 2003, p. 716), which is a base made, for example, of drywall, gypsum fiber, asbestos cement, on which a resistive electric heating element is fixed in the form of an electric shielded wire with heat-resistant electrical insulation, laid in the form of a spiral, meander or zigzag. A shielded wire is placed in a heat-conducting mass with adhesive properties, on which a metal mesh of ferromagnetic material is applied, a layer of plaster is applied over the mesh along the entire front surface of the panel, and a layer of thermal insulation is located on the back of the base.

The disadvantages of the known device are: the difficulty of attaching the shielded wire to the base by monolithic when placing it in a heat-conducting mass, which leads to high labor costs and material consumption in its manufacture. In addition, the application of several layers of building materials on the resistive element reduces the heat transfer ability of the panel, thereby reducing the heating efficiency of the panel. The use of a fine-mesh mesh made of ferromagnetic material with leads for connecting to the building's electrical grounding circuit complicates the panel manufacturing technology.

The known design of the "Electric wall panel" (RF patent No. 38901, MKI 7 F24D 13/02, Н05В 3/28, op. 2004.07.10), containing interconnected flat electric heater and a base made of drywall, characterized in that the flat electric heater, located on the back side of the base, consists of three electrical insulating plates, on one of which on one side is a heating resistive element made of nickel-chromium wire and mounted by flashing from the back of the fastening clap with paper thread, and the connection of the electrical insulating plates to each other and to the base is made of a heat-resistant non-combustible polymer of cold curing.

The closest analogue of the claimed utility model is an electric heater (RF patent No. 10969 dated 08.16.1999, IPC 6 Н05В 3/28) containing a connected heating element and insulating base, characterized in that it consists of two electrical insulating plates, one of which on the one hand there is a heating element made of nickel-chromium wire, and mounted by flashing on the back, fastening with a cotton thread, and the connection of the plates is made of heat-resistant non-combustible polymer rum.

The disadvantages of the known device are: the difficulty of fastening the chromium-nickel wire, which is mounted by flashing from the back side, fastening with a cotton thread, which leads to great labor costs in its manufacture.

The utility model was based on the task of creating such a household electric heating device, which would provide an increase in the technical and operational parameters of the device in terms of durability and efficiency (in terms of heat transfer) while increasing the productivity of the manufacturing process and its cost reduction.

The technical result obtained is achieved in that in a heating electric panel containing interconnected heating element and an insulating base in the form of an electrical insulating plate, according to a utility model, the base is made, for example, of drywall, gypsum fiber, asbestos cement, with two applied layers of electrical insulation made of color powder polymer materials, followed by polymerization by infrared radiation. A resistive heating element is fixed on the insulating layers, made of several resistive carbon filaments, the number of which is determined by the power consumption of the panel and the allowable heating temperature of the heat-transfer surface of the panel, while the filaments are laid bifilarly, while in the adjacent filaments the electric current flows in opposite directions, causing the mutual destruction of electromagnetic fields at the same time, electrical connections are fixed to the insulating layers by the thermocompression method agents, the compounds of which with resistive carbon filaments are made of electrically conductive cold-cured adhesive. A decorative protective layer of polymer is applied over the resistive layer.

The technical result from the application of the utility model is to increase the reliability and electromagnetic safety, productivity and quality of production on an industrial scale heating electric panels.

The main problem is solved and the technical result is achieved due to the fact that in the proposed design of the heating electric panel, the resistive carbon filaments of the electric heating element are placed directly on the insulating material in a thermocompression way and laid bifilarly, while in the adjacent filaments the electric current flows in opposite directions, causing the addition of electromagnetic fields. In this case, the field strength vector tends to zero. The application of the invention will allow the production of electric heating panels in large industrial building volumes, in an automated way with high quality. Due to the proposed technical solution increases the reliability of the panel and simplifies its manufacture.

Features of the electric heating panel:

- full integration into the building structure.

- the electrically conductive carbon filament of the electric heater is laid bifilarly, which excludes electromagnetic radiation into the surrounding space.

- the electric heater does not occupy the useful volume of the heated room

- the surface temperature of the heater does not exceed 40 ° C, which provides increased comfort of the environment.

- thermal radiation from the surface of the heater is ≈400 W / m ² for the wall and ceiling and ≈200 W / m ² for the floor (comfortable living environment).

- negligible metal consumption (contacts)

- the design is suitable for automated manufacturing in industrial volumes.

- environmentally friendly materials.

- eliminates the burning of oxygen and thermal decomposition of dust.

A single set of new essential features with common known essential features allows us to solve the problem and achieve a new technical result, which allows us to characterize the new technical solution by significant differences compared with the prior art, analog and prototype. The new technical solution is the result of experimental development and creative contribution, obtained without the use of standard, design solutions or any recommendations, in terms of content and originality it meets the criterion of "inventive step".

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

figure 1 - panel heating electric, General view;

figure 2 is also a section aa in figure 1.

The positions in the figures indicate: base - 1; layers of electrical insulation - 2; electric heating element - 3; resistance field - 4; electrical connectors - 5; connecting wires - 6; protective and decorative layer - 7; back 8.

The device contains a base made of drywall 1, two layers of electrical insulation made of polymer powder materials 2, which differ in color. An electric heating element made of resistive carbon filament 3. One or more independently connected resistive fields 4. Electrical connectors for detachable connection of wires to the mains 5. Connecting wires 6 with electric terminals. A protective and decorative layer deposited on top of the resistive material, made of polymer powder material 7, the back side of the panel 8.

The device operates as follows.

The electric heating panel is attached to the wall, floor or ceiling of the room by the methods and materials provided for the decoration of the premises with plasterboard sheets. The panel is installed on the back side with a resistor placed on it to the attached surface, which ensures access restriction and operational safety and allows you to place thermal and sound insulation between the wall and the panel.

Before installing the panel, on the petals of electrical connectors put on connecting lugs with wires attached to them, connect the wires to open or hidden wiring, for example, into a standard cable - channel for connecting to a power supply network.

Claims (3)

1. Electric heating panel containing interconnected insulating base and a heating element, characterized in that the base is made in the form of a plate of non-conductive material, at least one surface of the plate facing the attached surface is made with two applied layers of electrical insulation made of polymer a powder of different colors with the subsequent polymerization of IR radiation, at least one surface of the plate facing the attached surface, a resist a heating element consisting of several resistive carbon filaments, the number of which is determined by the power consumption of the panel and the permissible heating temperature of the heat-transfer surface of the panel, while the filaments are laid bifilarly, while electrical connectors are fixed on the insulating layers by thermocompression, the connections of which with resistive carbon filaments are electrically conductive cold curing glue, while a decorative protective layer is applied over the resistive layer Imera. 2. Electric heating panel according to claim 1, characterized in that the base is made of drywall. 3. Electric heating panel according to claim 1, characterized in that the base is made of asbestos cement.