RU178397U1 - Electric heating panel - Google Patents

Abstract

The proposed technical solution relates to the electric power industry, in particular to the creation of means for heating residential, public and industrial premises, and is intended to meet the vital needs of a person. It can be used in the design, construction and reconstruction of heating systems for residential, public and industrial buildings. The technical result of the claimed object is to simplify the design, providing the possibility of the location of the heating element in the wall without a protrusion and cavity relative to the plane of the wall, not to violate the visual integrity of the wall plane and increase the heating efficiency. The specified technical result is achieved by the fact that in the proposed electric heating panel containing a flat base of non-metallic material, on one side of which a layer-by-layer heating element, an electrical insulating layer, current-carrying elements and decorative cladding are applied, the heating element is made in the form of a composite carbon-ceramic coating that plays the role simultaneous receipt of thermal energy and its conversion into radiation energy, located on the entire area of the front side of the main The dimensions of the base are larger than the size of the heating element, the current-carrying elements are made in the form of flat tires fixed to the heating element uniformly along its entire length, with a fixing unit for the current-carrying elements, and the heat-insulating panel is placed on the back side of the flat base. Using the proposed electric heating panel when heating rooms allows you to not disturb the interior, by placing the panel in the wall plane, increase efficiency and reduce energy consumption by placing the unit for converting thermal energy into radiation directly into the heating element, and remove automatic heating control units outside the panel. In addition, the implementation of the heating elements in the form of a liquid composite mixture with subsequent hardening on the surface of the base allows to reduce manufacturing costs and improve the reliability of electric heaters during operation. The implementation of the heating element without access to the end surface of the base of the panel allows you to connect in parallel or sequentially many similar elements, multiplying the area of radiation.

Description

The proposed technical solution relates to the electric power industry, in particular to the creation of means for heating residential, public and industrial premises, and is intended to meet the vital needs of a person. It can be used in the design, construction and reconstruction of heating systems for residential, public and industrial buildings.

Currently, electric heating of residential, public and industrial premises is becoming more widespread. As experimental studies have shown, the use of electric heating opens up new possibilities for a qualitative improvement in sanitary and hygienic conditions and an increase in the level of comfort of the human environment. The conversion of residential, public and industrial premises to electric heating is closely related to the development of new highly efficient heating products that meet modern technical, aesthetic, environmental and economic requirements. Particular attention is paid to environmental requirements, according to which, both in manufacturing and in practical use, new heating products should not create electromagnetic fields and radiation that differ in wavelength and intensity from those to which the person has adapted throughout the historical process of biological evolution .

Known electric wall panel containing a flat heater and flat reflectors, spacers for mounting the heater and reflectors, a housing made preferably in the form of a grid or of a material that weakly absorbs infrared radiation, having openings in the upper and lower bases, while the flat heater is made in the form of a panel , reflective panels, the number of which is one or two, also installed at a distance of A1 from the heating panels, and spacers for attaching the heating and atelnyh panels to the housing and between the heating panels are made of insulating materials (see. Russian patent №2141177 tml. N05V 3/26 1999 for YG). Structurally, the electric heating panel is multilayer. It contains a base that provides the mechanical strength of the panel and has a layer of thermal insulation on the back, a flat heating element, an electromagnetic screen and an external (front) coating. The electric heating panel is powered from the mains. The temperature of the panel is controlled by a thermostat.

The disadvantage of this technical solution is the complexity of the technological process of its implementation, which requires the use of special technological equipment, which imposes restrictions on the geometric dimensions of manufactured heaters. Therefore, it can be used for the manufacture of mainly high-temperature infrared emitters of small sizes, operating in the short-wave part of the infrared range at wavelengths that are not optimal in terms of physiological effects on humans.

Known electric wall panel containing a base made, for example, of drywall, gypsum fiber, asbestos cement, etc., heat insulation is fixed on the back surface of the base, and a flat resistive electric heating element is placed on the working surface in the form of an electric shielded wire with heat-resistant electrical insulation, laid in in the form of a spiral, meander or zigzag flat winding, the space between the turns of the electric shielded wire is filled with mass, giving good heat-conducting and adhesive properties, a fine-mesh mesh is applied on top of the mass, and a layer of plaster is applied over the mesh on the entire front surface of the panel, the beginning and end of the electric shielded wire being provided with leads for connection to a power supply network, and its braid and fine-mesh mesh are provided with leads for connection to the electrical ground circuit of the building. The front surface of the panel is either coated with mineral paint or faced with natural or artificial stone, tiled or ceramic tiles. A decorative border is installed around the perimeter of the panel, which is made of wood, metal, natural or artificial stone, as well as tile or ceramic tile, each of these materials being used both separately and in various combinations with other materials. Connecting the electrical terminals of the braid of the electric shielded wire and the fine mesh to the electrical grounding of the building ensures the absence of electric and magnetic fields outside the surface of the electric heating panel. (See RF patent N 2043700, Н05В 3/00, F24H 3/04 for 1995)

The disadvantage of this technical solution is the complexity of the technological process of its implementation, which requires the use of special technological equipment, which imposes restrictions on the geometric dimensions of manufactured heaters.

Therefore, it can be used for the manufacture of mainly high-temperature infrared emitters of small sizes, operating in the short-wave part of the infrared range at wavelengths that are not optimal in terms of physiological effects on humans.

A flat electric heater is also known, in which the heating element is made of at least one film resistive element and located on one side of the substrate is an internal electrical insulation layer deposited on the resistive layer of the heating element, one protective layer made of aluminophosphate composite material binder, modified by particles of iron oxide as a filler, in addition, the current-carrying elements are placed on the inner insulating layer and have extended contact with the resistive layer, while the film resistive element includes at least one forming element (see Utility Model Patent No. 55241, H05B 3/20 for 2006).

The disadvantage of this type of heater is that it cannot be installed close to furniture and the wall due to the presence of high-temperature areas, used when installing in the plane of the wall and covered with a finishing layer of the wall itself. In addition, the efficiency of these heaters is low due to the lack of a radiant energy converter.

The closest in technical essence and the achieved positive effect with the proposed is a flat electric heater, in which the heating element is made of carbon nanotubes, located in the recess of the matrix, on its outer side. The matrix is fixed on the base, and the heating element is connected to the current-carrying elements (see patent US 2010122980 according to CL 05/26 for 2010)

The disadvantage of this type of heater is that it cannot be installed close to furniture and the wall due to the presence of high-temperature areas, used when installing in the plane of the wall and covered with a finishing layer of the wall itself. In addition, the efficiency of these heaters is low due to the lack of a converter of heat into radiant energy.

The technical result of the claimed object is to simplify the design, lower the heating temperature of the heating element and increase the efficiency of the heater due to radiant thermal energy in the form of infrared radiation, heating.

The specified technical result is achieved by the fact that in the proposed electric heating panel, mainly for walls containing a base of non-metallic material, on the front side of which a layer-by-layer heater with an electric insulating layer based on composite ceramic materials, current-carrying elements and decorative moisture-resistant lining are applied, the heater is made in the form of a composite carbon-ceramic coating, located on the front side of the base, current-carrying elements are made in the form of a flat their tires, connected to a heater uniformly along the length, the heat insulating panel is received from the back side of the flat base body and bases made of flexible materials. The heater is located on the entire area of the front side of the base without access to its periphery, and the fixing unit of the current-carrying elements is located flat tires

Still, the proposed panel can be made in such a way that the heater, the thermal insulation thermal insulation panel are placed on the back side of the flat base, and the front surface of the base is facing away from the wall on which the decorative layer can be applied.

The graphic part shows:

in FIG. 1 - general view of the proposed panel;

in FIG. 2 is a section along AA of FIG. one;

in FIG. 3 is a section along AA of FIG. 1 according to paragraph 5 of the formula.

As shown in the graphic part, the proposed electric heating panel contains a flat base 1 of non-metallic material, on the front side 6 of which a heater 2 is made layer-by-layer, made in the form of a composition of carbon-ceramic material, an insulating layer 3 in the form of a coating, flat tires 4? attached to the heater 2 in length and decorative finish 5. On the reverse side 11 of the base 1, a flat heat-insulating layer is fixed 10. The heater 2 is applied in the form of a liquid solution using paint and varnish technology, and its overall dimensions 7 are smaller than the overall dimensions 8 of the base 1. Node fastenings 9 of current-carrying elements 12 (can be made, for example, in the form of a plug connector, threaded connection, etc.). The attachment points 9 are located mainly on the tires 4 and are located in pairs in different places of the heater 2.

The second option, the panel can be made in such a way that a heater 2, an electrical insulating layer 3, flat busbars 4 and a thermal insulation layer 10 are installed on the back side 11 of the base 1, and no elements are placed on the front side 6, and its surface is made for installation on it decorative finish 5, coinciding with the finish of the wall in which the panel is placed.

The assembly of the proposed panel is as follows. A sheet is made of non-metallic material, mainly of a rectangular shape, which will be the basis of 1 panel. Then on the front side 6 is applied by the method of paint and varnish technology (spray, roller) heater 2 with subsequent drying. After the heater 2 has completely hardened, at least two flat tires 4 with current-carrying elements 12 are fixed on its outer surface. Then, an insulating layer 3 is applied to the entire surface of the front side 6 of the base 1, and then the entire surface is covered with a decorative moisture-proof finish 5. Decorative finish 5 can be applied as a coating, and fixed on it in the form of individual elements such as wallpaper. After that, the assembled panel with the reverse side 11 is fixed on the heat-insulating panel 10 and the assembly of the panel ends.

The work of the proposed panel is as follows. The assembled panel is fixed on the wall of the room in the right place. After that, plugs 12 are inserted into the fasteners and an electric current is supplied. Under the influence of electric current, the heater 2 is heated to the desired temperature, and the emitter built into it converts the thermal energy into infrared radiation with a wavelength of 8.5-10.5 microns. By heating the front side 6 of the base 1 and creating radiation energy, the entire volume of the room is heated, and the person inside the room feels comfortable.

Example 1

A drywall sheet (or a glass-magnesite sheet) is taken with a thickness of 6-14 mm and a base of 1200 × 600 mm is cut from it. With subsequent processing and cleaning of the ends, as well as the front and back surfaces. Then, a heater layer is applied to the front surface with a sprayer, which is a mixture of carbon and ceramic material in a certain proportion, and it is dried at a temperature of 40-600 ° C until it hardens completely. After hardening, aluminum (or copper) tires with attachment points of current-carrying elements in them are glued along the entire length in the end parts of the heater. Then, in the same way, an electrical insulation layer is applied, which is a composition of ceramic materials. After that, the entire surface is varnished and a decorative coating such as paint is applied. Then, a thermal insulation panel such as a foil with a polymer material is attached to the back of the base. At the attachment points of the power supply elements, plugs or wire ends are fixed and the panel is ready for operation. Some base materials require the use of a non-metallic reinforcing mesh that is closely adjacent to the base.

Example 2

A flexible roll material is taken (for example, a sheet of Whatman paper), the necessary size of the base is cut out of it, and all operations for applying all the necessary elements to it are repeated with it, as in Example 1. In the last operation, the base can be bent in one plane, up to a cylindrical shape , then connect the current-carrying elements and install in place of the panel in the wall.

Example 3

All of the listed layers and elements of the heater can be applied directly on a flat inner surface of the room wall, for example, on the plaster layer of a brick wall, or on a concrete surface. Hardening and drying of the layers occurs at a temperature not lower than + 20 ° C. Then the heating element is connected to an electric current source, and a decorative finish with a moisture-resistant coating is applied over the insulating layer.

Using the proposed electric heating panel for heating domestic and industrial premises allows you to not disturb the interior by placing the panel in a wall niche in the corners of the room on uneven wall sections of its protrusions and depressions and to place any objects near the panel, increase efficiency by converting thermal energy into radiant directly in the heater and increase heating areas, reduce energy consumption by placing a unit for converting thermal energy into radiation directly into the heater Mr element, and the location of the current-conducting elements in different locations of the heater allows you to change the power of the heater, without making any modifications. In addition, the implementation of the heating elements in the form of a liquid composite mixture with subsequent hardening on the surface of the base allows to reduce manufacturing costs and improve the reliability of electric heaters during operation. The implementation of the heating element without access to the end surface of the base of the panel allows you to connect in parallel or sequentially many similar elements, multiplying the area of radiation.

Claims (6)

1. An electric heating panel, mainly for heating rooms, containing a base of non-metallic material, on the front side of which are applied a layer-by-layer heating element made of carbon material with an insulating layer, current-carrying elements and decorative moisture-resistant lining, characterized in that the heating element is made in the form of a composite carbon ceramic coating, inside of which there is a converter of thermal energy into radiation energy, located on the front side of the bases , Current supply elements are designed as flat bars fixed to the outer surface along the length of the heater, and heat insulation layer arranged on the back side of the flat substrate. 2. The electric heating panel according to claim 1, characterized in that the base is made of flexible material. 3. The electric heating panel according to claim 1, characterized in that the heater is applied to the substrate by the method of paint and varnish technology. 4. The electric heating panel according to claim 1, characterized in that the current-carrying elements to the buses are made in the form of plug connectors. 5. The electric heating panel according to claim 1, characterized in that the heater, the insulating layer, the moisture-proof lining and the insulating layer are placed on the back side of the flat base. 6. The electric heating panel according to claim 1, characterized in that the plugs of the current-carrying elements are arranged in pairs in different places of the heater.

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