WO2014178809A1 - Electric heating resistor module for integration into technical units - Google Patents

Abstract

The invention relates to electrical engineering and can be used in heaters. The present electric heating resistor module comprises a thermally capacitive panel made from glass, on one side of which there is disposed a resistive electric heating element in the form of a continuous electrically conductive layer of resistive composition, and electrically conductive electrodes in the form of metal strips disposed at opposite ends of the same side of the panel, wherein the resistive layer may be coated with a layer of a heat-resistant insulating material and the module may have any size, shape, colour and coating. The technical result is a simplified design and a broadening of the existing range of technical means.

Description

 ELECTRIC HEATING RESISTIVE MODULE FOR

 AGGREGATION WITH OBJECTS

 The technical field to which the utility model relates.

The utility model relates to the field of power engineering, in particular, electrothermal, and more precisely: to devices of radiant (infrared) radiation of heat, and can be used in devices for the manufacture of electric heating heating devices for electric heating of objects for various purposes, for example, in decentralized heating systems of residential and industrial premises, as part of technical and technological equipment in electronic, instrument-making, electrical and other industrial fields life and everyday life in the manufacture of any items, furniture, building constructions for any thermal needs in any area of human activity. State of the art

A panel heating element is known comprising a heat-resistant panel made of natural stone with an electric heater fixed on its reverse side, and a beating panel, the inner surface of which is mirrored and located at a certain distance from the electric heater with the formation of an open air space. while on the surfaces of both panels combined through holes are made for connecting the panels with bolts to each other [see Patent of the Russian Federation Ne 2038545 C1 in class F24H 3/04, published on June 27, 1995].

 The main disadvantage of this known technical solution is its technical imperfection, which is due to the use of incredibly expensive and difficult to process material - natural stone, which leads to high cost and massiveness of the structure, as well as an unaesthetic appearance of the product due to the presence of through bolt connection of the components of the heater design.

This disadvantage was eliminated in a ceramic heater containing a heat-resistant panel, a resistive heating element and a protective metal casing covering the back and the end surface of the panel; in this case, a polymer heat-storage coating is applied on the inner surface of the housing, and a railing fastening system is installed on the outer surface [see Ukrainian patent Ns 57399 U for classes F24H 3/04, F24H 9/06, published on 02.25.201 1 year].

The main disadvantage of this technical solution is also technical imperfection due to the presence of a certain type of fastening - a railing system, which is not always convenient and in itself has a rather complicated design in comparison with traditional methods of fastening such panels to the wall. In addition, it is known that ceramics are not sufficiently strong and reliable material and can easily break if dropped. In addition, the ceramic panel has a potentially limited service life.

The closest in essence and the effect achieved, taken as a prototype, is a radiant heat heating panel containing a directly heat-resistant panel made of tempered glass coated with thermally coated powder materials, a zigzag resistive electric heating element located on the coating layer, a heat-accumulating panel made of drywall, and a rear protective metal casing, made detachable and consisting of a rear protective panel and a frame connecting along the perimeter all components of the design of the heating panel [see Ukrainian patent Ns 74785 U for classes F24H 7/00, F24H 9/02, published on November 12, 2012 in Bull. NQ 21].

The main disadvantage of this known technical solution is the technical imperfection of the heating panel. This disadvantage is explained as follows. Since the zigzag resistive electric heating element simply adheres to the heat-sensitive panel, of course, some means are necessary to hold it. In this technical solution, such a medium is a heat-accumulating drywall back panel. If a zigzag resistive electric heating element were glued to a heat-sensitive panel, which is more technologically advanced, then there would be no sense in this rear panel as a means of holding. As for the heat-accumulating back panel made of gypsum board, then, in our opinion, it is generally superfluous: why accumulate heat near the back side of the product facing the wall of the room, therefore, heating it, and not the room for which the heating device is operated. The heat-accumulating rear panel from the gypsum board simply takes part of the thermal energy onto itself, which, in general, reduces the efficiency of such a device. Unsuccessful design and a metal case, consisting of a metal sheet and a frame made in the form of separate rectilinear elements (corners or U-shaped profiles) that need to be fixed or glued (which makes the structure non-separable, therefore, non-repairable), or numerous screws (which complicates and lengthens the assembly procedure and is unreliable - the screws screwed into the drywall quickly loosen and you can screw them only once).

 The second significant drawback of the known technical solution is the unreasonable complexity of the design of the heating panel, which is due to the presence of a heat-accumulating rear panel made of drywall, metal casing and frame. It has already been said about the back panel of hypocardboard, and the metal case, it is not clear what and what it protects from when the panel is on the wall. Apparently, he only protects gypsum board, but this material is not so expensive to protect - it alone is not needed by anyone.

Another significant drawback of the known technical solution is the unsuccessful design of the resistive electric heating element itself. When using a zigzag wire heater, a preliminary constant heating of the space between the heater strips is required, and also its isolation, for which the resistive electric heating element is coated with an insulator. Only then does it begin to transfer heat for its intended purpose, that is, heat the heat-sensitive panel that heats the room. From this we can conclude about the unjustified consumption of thermal energy for an indirect purpose, which also reduces the efficiency of such a heater.

 Another, probably, the main drawback of the known technical solution is not the universality of its design. The presence of this drawback is explained as follows. The dimensions of all the structural details determine the dimensions of the heat-absorbing panel - what dimensions does it have, such dimensions will also be the rear panel of drywall, and the resistive heating element, and the metal case, and the frame. If the heat-resistant panel is changed either in size or in shape, it is necessary to completely reschedule the manufacture of the remaining parts, since they depend on it.

 And in the end, it should be noted that the scope of application of the known technical solution is limited. This is only a hinged (wall) heater, and it is not possible to convert it to any other type. Even make it floor, because it lacks supporting elements.

b One could find a number of drawbacks inherent in the known technical solution, for example, the use of only tempered glass for the manufacture of heat-resistant panels, but we will limit ourselves to the given ones, since they are enough to make a confident conclusion about the complete imperfection of its design, incapable satisfy the diverse needs of consumers of such products.

Task to be solved

The utility model is based on the task of maximizing the efficiency with maximum expansion of the field of use and at the same time simplifying the design and manufacturing technology against the background of maximum maintainability and versatility by maximizing the conversion of electrical energy into thermal energy and performing modular design in the form of a set of specific parts of independent sizes and shapes by maximizing the increase in the area of resistive elec heating element, giving a heat-sensitive panel of any shape, size and properties and the possibility of connecting it to any additional accessories. Utility Model Essence

The solution to this problem is achieved by the fact that the electric heating resistive module for aggregation with objects of technology for any thermal domestic and industrial needs, containing a heat-resistant panel of tempered glass with or without coating, a resistive electric heating element, according to the proposal, the heat-sensitive panel is located in the front and forms a glass facade (facing) part of the module, moreover, the glass can be ordinary, reinforced, chemically hardened, crystal, quartz, borosil rolled, laboratory, corrugated, wavy, smooth, multilayer, and an electric heating resistive element located on the opposite (hidden) from the front side of the module, and made in the form of a continuous layer of a resistive composition based on carbon paste, covering the entire surface of the specified (hidden) side of the heat-sensitive panel, and contacts with conductive electrodes made in the form of metal strips located on opposite sides of the same (hidden) side, and the externally resistive layer is coated with OEM thermotolerant izolyatsion- Nogo material such as varnish or other curable materialistic scrap, which it simultaneously holds the thermal capacitance on the panel and isolates externally, and the heat-resistant panel, resistive and insulating layers together form an autonomous module with a glass facade, ready for aggregation with any objects of technology, and can have any size, shape, color, coating, for example, mirror, and decor.

 To obtain a floor heater, an autonomous electric heating module from the bottom is equipped with supporting elements of any known design. To obtain a wall or ceiling heater, an autonomous electric heating module is equipped on the back with fastening elements or for suspension of any known construction.

 To form a heated towel rail, an autonomous electric heating module is equipped at the back with fastening elements to the wall, and at the front with horizontal rod holders, a towel of any known design.

 To form a bath mirror with illumination, the heat-sensitive panel of an autonomous electric heating module is mirrored and equipped with a light source and a shelf for hygiene products.

To form a “warm” table, an autonomous electric heating module is used as a tabletop. Naturally, an autonomous electric heating module can be equipped with a regulator of the degree of heating and means of its automatic on / off.

 Naturally, an autonomous electric heating module can be used as an element of furniture, doors of glass fragments of internal doors in a room, wall tiles and floor tiles, so that they acquire the additional function of household heaters, and, in this case, there is no need to use heaters as independent products.

 Naturally, the electric heating resistive element can be applied on a separate base (lining), tightly attached and attached in any known manner to the glass heat-resistant panel.

 Naturally, the electric heating resistive element can be made of any carbon-containing material, have any structure and appearance, which is determined by the area of use of the autonomous electric heating resistive module.

The proposed autonomous electric heating resistive module has a number of significant advantages compared to the prototype, the main of which is the ability to satisfy not only thermal, but also aesthetic needs, thanks to the presence of a glass facade, which can have different sizes, shapes, colors or decor, that is, take any appearance, thereby choosing any interior of the room. The use of tempered glass eliminates the destruction of the module from mechanical (pushing, pressure), shock (drop), chemical (spillage of chemical substances) and thermal (uneven heating) loads, as well as the material of the module (glass) does not require then additional care, does not change its properties over time, neutral to any impact, and its service life is unlimited.

 The universality of the proposed autonomous electric heating resistive module is achieved due to the fact that it can be aggregated with any technical objects, converting them into a heat-generating product by equipping with additional elements for mounting or arrangement, accessories, convenient fittings, to be used autonomously or as part of any household item or in technical and technological equipment, in the elements of the thermal decor of rooms, walls, floors, ceilings, etc.

The proposed autonomous electric heating resistive module has an extremely simple design, a minimum thickness determined by the thickness of the glass of the heat-resistant panel, a layer of a resistive layer coated externally with a thin layer of insulating material, for example, heat-resistant varnish or paint, or silicone. A variety of the range of the proposed autonomous electric heating resistive module is achieved due to the possibility of manufacturing a heat-consuming glass panel of any shape and size, processed or untreated, including with applied decorative elements on the front or back surfaces, the execution of the product as a stationary outdoor and portable, use as fragments of the interior of the premises for any purpose. All this infinitely expands the scope of the proposed autonomous electric heating resistive module, able to satisfy any requirements and tastes of consumers, both in everyday life and in industry.

Thus, the combination of the above essential features characterizing the proposed technical solution, obtained due to the introduction of certain design changes in the stand-alone electric heating resistive module, together ensure the achievement of the technical result formulated in the statement of the problem. List of illustrations

Figure 1 is a proposed stand-alone electric heating resistive module, front view;

 Figure 2 is the same, rear view.

 Variants of the proposed autonomous electric heating resistive module.

 Figure 3 - round;

 Figure 4 is a square;

 Figure 5 is a rectangular;

 Figure 6 - diamond-shaped;

 Figure 7 is trapezoidal;

 Figure 8 - in the form of a parallelogram;

 Figure 9 is oval;

 Figure 10 - wavy;

 Figure 1 - volumetric, in the form of a cylinder;

 Figure 12 is an embodiment of the use of the proposed autonomous electric heating module as a floor heater;

Figure 13 is the same as a wall heater; Figure 14 is the same as a heated towel rail; Figure 15 is the same as a wall-mounted bath mirror.

Description of the preferred embodiment of the utility model

The proposed autonomous electric heating resistive module has a heat-resistant panel 1 made of tempered glass forming a glass facade (facing) part of the module, as well as the basis for placing the remaining structural elements of the electric heating module on it. For the manufacture of heat-sensitive panel 1, either ordinary tempered clear glass or colored glass, or glass painted on one side (not front) with heat-resistant paints, varnishes, can be used, whether, in general, it is coated with color or transparent heat-resistant film.

On the reverse side (opposite the facade) on the opposite edges (horizontal or vertical - does not matter) of the heat-sensitive panel 1 are tape conductive electrodes 2, coating 3 (it may not be) and a continuous heating layer 4 in which a carbon paste based resistive composition is used. The specified heating layer 4 covers the entire area of the heat-absorbing panel 1 together with tape electric conductive electrodes 2. An electric current is supplied to the heating layer 4 through tape conductive electrodes 2. On the outside, the heating layer 4 is coated with a layer of heat-resistant insulation material 5, for example, varnish or any other hardening material, or coated with any non-conductive sheet - a material that simultaneously holds the heating layer 4 on the heat-absorbing panel 1 and insulates it from the outside. An electrical wire 6 is connected to the tape conductive electrodes 2 and terminates in an electric plug 7. On the same surface of the heat-sensitive panel 1, where the heating layer 4 is located, or next to it, a temperature regulator 8 for heating the heat-resistant panel 1 can be installed. Thus, the heat-absorbing panel 1, tape conductive electrodes 2, the heating layer 4 and the layer of heat-resistant insulating material 5 together form an electric heating autonomous module with a glass facade, ready for assembly with any E art objects. This is the simplest constructive version of the proposed autonomous electric heating resistive module.

Naturally, a stand-alone electric heating resistive module can have any shape, size, flatness, coloring, coating, for example, a mirror, or decor, made of processed or untreated tempered glass, using mounted independently or as part of heating products, or mounted in any building elements, or in technical and technological equipment, or in the interior, in furniture elements, or in general any independent electric heating products can be made from it.

 To form a floor heater, an autonomous electric heating resistive module from the bottom is equipped with removable supporting elements 9 of any known design. This allows you to quickly change the location of such a heater and place it in any convenient place.

 To form a wall or ceiling heater, an autonomous electric heating resistive module is equipped with rear fastening elements 10 to the wall or suspension elements 11 of any known construction. This allows you to use the heater as a fragment of the interior of the room, or design, or decor, for example, painting a heat-resistant panel 1 under the picture. This approach to using the heater allows you to get a double effect: heating the room and meeting the aesthetic needs of users.

For the formation of a heated towel rail, an autonomous electronic heating resistive module at the back is equipped with fastening elements 10 or hanging 11 to the wall, and with the front (front) the sides - with horizontal towel holders 12, which are not difficult to make movable along the heat-sensitive panel 1, while achieving maximum convenience, and thereby satisfy any individual tastes of users.

 To form a bath mirror with illumination, an autonomous electric heating resistive module is made with a mirror facade surface and equipped with a light source 13 and a shelf 14 for placing hygiene products on it. The advantages of such a bath mirror are that it does not fog up (as it happens with ordinary mirrors and creates the corresponding inconvenience), due to the possibility of heating it.

All office workers are well aware of how many inconveniences in work creates a supercooled worktop on a desk in the cold season. This problem is well solved by the proposed stand-alone electric heating resistive module, a table used as a tabletop, or a standard desk is covered with it. The same “thermal” properties are acquired by furniture elements, for example, a warm bed, entrance doors, glass fragments of internal doors in the room, wall tiles, floor tiles, if the proposed autonomous electric heating resistive module is used in their designs. In this case, the need for the research of room heaters, as separate devices, generally disappears, freeing up space in the room.

 It is difficult to list all the options for the possible use of the proposed autonomous electric heating resistive module. With its help, due to the variety of designs, it is possible to satisfy any domestic and industrial thermal needs. It can be ovens, dryers for laundry, baths, furnaces, aquariums, technical and technological equipment, bathtubs, floors, warm loggias, corrugated floors, walkways, carpets and other products.

The claimed technical solution is tested in practice. The proposed autonomous electric heating resistive module does not contain a single assembly, parts and materials that could not be reproduced at the modern stage of the development of science and technology, in particular, in the field of electrical resistive heating of objects for various purposes and premises therefore, it is suitable for industrial use, it has technical and other advantages compared to known analogues, which confirms the possibility of achieving a technical result object of technology. In well-known sources of patent and other scientific and technical information, no such autonomous modular heating has been identified. elements with the set of essential features indicated in the proposal, therefore, the proposed technical solution meets the criterion of “novelty”, therefore, it is considered such that it can receive legal protection.

A significant difference of the proposed technical solution, in comparison with the previously known ones, lies in the autonomy of the heating module, therefore, in the possibility of introducing it into any domestic or industrial equipment, as well as in the maximum possible increase in efficiency due to the use of the entire heat-sensitive area panels as a source of infrared heat, and equipping it with any accessories to give individual additional consumer properties. These differences, in aggregate, significantly improve the thermophysical, technical, technological and consumer properties of an autonomous electric heating resistive module, exclude the possibility of heat consumption for indirect purposes and make it capable of aggregating with any material object for forcibly changing its temperature regime, therefore, - conditions are created for unlimited use in any sphere of human activity. None of the known heating devices can simultaneously possess all of these properties, because they do not contain in their rate of the totality of the proposed essential features stated in the proposal.

Utility Model Technical Advantages

The technical advantages of the proposed technical solution, in comparison with the prototype, include the following:

 - ultimate simplification of the design due to the absence of all unnecessary parts and assemblies;

 - maximum expansion of the scope of use due to the possibility of aggregating the heating module with any objects;

 - maximum increase in efficiency due to the possibility of generating infrared radiation over the entire area of the heat-sensitive panel;

 - unlimited expansion of the product range due to the possibility of changing the shape, size, thermophysical parameters and other product parameters, their transformation into products with different thermal capabilities.

The economic effect of the implementation of the proposed technical solution, in comparison with the use of the prototype, is obtained due to a significant reduction in the cost of manufacturing auto nominal electric heating resistive module and, as a result, lower prices for products made from it.

 The social effect of the implementation of the proposed technical solution, in comparison with the use of the prototype, is obtained due to the ability to satisfy any domestic and industrial thermal needs of consumers, the opening of new directions in the manufacture of furniture, premises, design and so on.

After describing the proposed autonomous electric heating resistive module to specialists in this field of knowledge, it should be obvious that all of the above is only illustrative and not restrictive, as presented by this example. Numerous possible options for the practical implementation of the indicated technical solution, relating, for example, to the shape, size, technical and electronic equipment of products, equipping with additional accessories, can vary depending on the wishes of users, the purpose and scale of the release of modules, scope their applications, etc., and, of course, are within one of the usual and natural approaches in this field of knowledge and are considered such that they are within the scope of the proposed technical solution. The quintessence of the proposed technical solution is that the heating module is autonomous and can be aggregated with any material objects to give them thermal properties through a variety of shapes, sizes, designs, composition of the heating layer, coatings, etc., which allows it is considered to be universal by right, and can be used for any thermal needs, heating, drying, interior, flooring, walls, in technical and technological equipment - it is impossible to list the entire range, and it’s and circumstances, in aggregate, allow the aforementioned and other advantages to be acquired by the proposed technical solution. The use of individual structural elements of the proposed stand-alone electric heating resistive module or a heating device from it, of course, limits the range of advantages listed above and cannot be considered new technical solutions in this field of knowledge, since other structural schemes like those described do not require any or a creative approach from designers and engineers, and therefore can not be considered the results of creative activity or new objects, intellectual Noah property to be protected OX rannymi documents.

Claims

USEFUL MODEL FORMULA

1. An electric heating resistive module for aggregation with technical objects for any thermal domestic and industrial needs, comprising a heat-resistant panel made of tempered glass with or without coating, a resistive electric heating element, heat The heat-sensitive panel is located in front and forms a glass facade (facing) part of the module, moreover, the glass can be ordinary, reinforced, chemically strengthened, crystal, quartz, borosilicate, laboratory, corrugated, wavy m, smooth, multi-layer, and the electric heating resistive element located on the opposite (hidden) from the front side of the module, and made in the form of a continuous layer of a resistive composition based on carbon paste, covering the entire surface of the specified (hidden) side with a heat-sensitive vapor non-gel, and contacts with electrically conductive electrodes made in the form of metal strips located on opposite sides of the same (hidden) side, and the externally resistive layer is covered with a layer of heat-resistant insulating material For example, varnish or other curable material, which it simultaneously holds the panel and in thermal capacitance insulates externally pri- than the heat-resistant panel, the resistive and insulating layers together form an autonomous module with a glass facade, ready for aggregation with any objects of technology, and can have any size, shape, color, coating, for example, a mirror, and decor.

 2. The electric heating resistive module according to claim 1, with the exception that for the formation of a floor heater from the bottom it is equipped with supporting elements of any known construction.

 3. The electric heating resistive module according to claim 1, characterized in that for the formation of a wall or ceiling heater, the rear is equipped with fastening or hanging elements of any known design.

 4. The electric heating resistive module according to claim 1, characterized in that for the formation of a heated towel rail at the back, it is equipped with fastening elements to the wall, and at the front, horizontal rod holders of towels of any known design.

5. The electric heating resistive module according to claim 1, characterized in that for the formation of the bath mirror with illumination, the heat-resistant panel is made mirrored and equipped with a light source and a shelf for hygiene products.

6. The electric heating resistive module according to claim 1, characterized in that for the formation of a “warm” table, it is used directly as a table top or as a cover for a table top.

 7. The electric heating resistive module according to claim 1, characterized in that it is equipped with a heating degree controller and means for automatically turning it on / off.

 8. The electric heating resistive module according to claim 1, characterized in that it is transformed into a furniture element, doors of glass fragments of internal doors in a room, wall tile and floor tile.

 9. The electric heating resistive module according to claim 1, wherein the electric heating resistive element is applied to a separate base (lining), tightly applied and attached by any known method to a glass heat-resistant panel.

 10. The electric heating resistive module according to claim 1, with the exception that the electric heating resistive element is made of any carbon-containing material, has any structure and appearance, which is determined by the use of an autonomous electric heating resistive module.