RU2318165C1 - Enriching device with thin heating panels - Google Patents

Abstract

FIELD: heat power engineering.

SUBSTANCE: enriching device comprises housing with a number of ports. The planks of the housing are provided with a number of slots. A number of heating panels is set into the slots provided in the housing. The unit for control of power supply is connected with the housing and is made of an electric bus with a number of connectors. Each heating panel has heating layer interposed between two insulating plates. The heating layer is additionally connected with two wires that are connected with the connectors of the current bus.

EFFECT: reduced sizes and enhanced efficiency.

6 cl, 9 dwg

Description

FIELD OF THE INVENTION

The present invention relates to a heating device equipped with thin heating panels that comprise a graphite layer electrically connected to a power control device for uniform and reliable distribution of thermal energy.

State of the art

Figure 1 shows a well-known heater 10, which comprises a housing with a curved panel 13, and a quartz tube 11 is connected between the two side walls of the housing. The quartz tube 11 can be heated to very high temperatures, so that many separators are used to separate the consumers and the quartz tube 11 gratings. The grilles are arranged in such a way that the gaps have a certain width, which contributes to the reflection of heat to consumers. However, a quartz tube can cause a flammable material such as sheets of paper to burn, or even burns to consumers that accidentally touch the quartz tube 11. Furthermore, heat is only felt at a short distance in front of the heater 10.

Figure 2 shows another heater 20, which contains a plurality of plate fins 21, and oil circulates between the plate fins 21. To heat the oil, a heating device 22 is used, and this oil circulates through the plate ribs 21, heating them, and then exchanges heat with air. The oil is heated evenly and does not have a very high temperature, so that it does not burn consumers. However, the heat transfer efficiency is low. Most of the plate ribs 21 are coated with a layer of hot-drying enamel, which reduces the heat transfer from the plate ribs 21 to the air.

Figure 3 shows another heater, which is used in the sauna and contains many heating pipes 31, which are heated to high temperature, and the housing 32, which has an open top with lattices located on it. Stones 33 are located on the gratings to absorb heat from the heating tubes 31 and receive rays in the far infrared region of the spectrum. Stones 33 can burn consumers and red-hot, and radiation in the far infrared is limited because stones 33 have limited surfaces. Due to the high temperature of the heating tubes 31, the gap between the heating tubes 31 and inside the housing 32 has to be made wide enough, while the housing 32 is large.

The present invention relates to the development of a heating device that has compact dimensions and heating panels that are so thin that heat can be distributed efficiently without harming consumers.

Disclosure of invention

The main objective of the present invention is to provide a heating device that comprises a housing with a plurality of openings and a plurality of heating panels installed in the housing at the same distance from each other, each heating panel comprising a heating layer that is enclosed between two insulating plates. Two wires are connected to the heating layer, and each wire has a female connector for connecting to a male power bus connector of a power control device connected to the housing.

Brief Description of the Drawings

The present invention is illustrated by drawings, on which:

figure 1 - the first known from the prior art heater;

figure 2 - the second known from the prior art heater;

figure 3 - the third known from the prior art heater;

4 is a perspective image with a spatial separation of the parts of the heating device according to the present invention;

figa is a preferred embodiment of the connection of the covers with the housing of the heating device according to the present invention;

5 is a perspective view of a heating device according to the present invention;

6 is a heating panel of a heating device according to the present invention;

7 is a cross section of a heating panel according to the present invention;

8 is a parallel connection of female connectors of a heating panel and male connectors of a power bus of a power control device according to the present invention.

The implementation of the invention

Figures 4 and 5 show that the heating device in accordance with the present invention comprises a rectangular housing 40, which consists of a plurality of racks and transverse bars 48, and between the racks and transverse bars 48 there are a limited number of openings 44 in four vertical sides and an upper side of the housing 40. The housing 40 is made of plastic or wood. A power control device 42 is connected to the lower end of the housing, comprising a power bus 454, which has a plurality of male connectors 455. A plurality of slots 43 are provided in the crossbars 48 on the front side and the rear side of the housing 40. A plurality of heating panels 41 are mounted in sliding contact with the slots 43 and the distance between adjacent slots 43 is in the range from 0.5 cm to 2.5 cm, so that the heating panels 41 are installed in the housing 40 at the same distance from each other.

Figures 6-8 show that each heating panel 41 comprises a heating layer 45 sandwiched between two insulation plates 46. The heating layer 45 is a graphite layer that can be imprinted on the two facing sides of the insulation plates 46 and the insulation plates 46 are made of fiberglass. Each of the heating panels 41 has a thickness of less than 1 mm, so that the heating panels can be arranged in parallel, providing the desired clearance. The heating layer 45 is covered by a copper part 47 having two separate distal ends to which two wires 451 are connected. Each wire 451 has two female connectors 452, 453 that are connected to male power bus connectors 455 to achieve parallel connection of the heating panels 41.

The openings 44 of the housing 40 are closed by covers 50, and each cover 50 contains a plurality of holes or plates between which gaps are limited. A plurality of first magnets 49 are mounted on the crossbars 48 and the uprights of the housing 40, and the covers 50 have second magnets 51 that are connected to the first magnets 49. Consequently, the covers 50 can be easily removed from the housing 40 when necessary. FIG. 4A shows the possibility of replacing the first magnets 49 with a plurality of metal plates 49A arranged on the housing 40, while the covers 50 have second magnets 51 which are connected to the metal plates 49A.

The heating device uses thin heating panels 41, so that the dimensions of this heating device are compact, and the heating panels 41 can easily be removed from the housing 40 for cleaning. The heating layer 45 is heated by adjusting the power control device 42, and heat is transmitted through the insulating plates 46 and distributed through the slots or openings of the covers 50. The heating panels 41 have an increased area for heat distribution, as a result of which the heating device has higher efficiency than conventional heaters. The temperature of the heating panels 41 can be adjusted to allow the operation of the power control device 42 to satisfy different needs, such as saunas or dwellings. Heat from the heating panels 41 is transferred by radiation and convection, so less energy is lost. The heating layers 45 generate energy in the far infrared region using electrical energy supplied directly to the heating layers 45, so that energy costs become more efficient than in conventional heaters. Consumers can touch the heating panels 41 without worrying about a possible burn, and these thin heating panels 41 enable consumers to install many heating panels 41 in a smaller space. When used in saunas, there is no need to lay stones on a heating device, and the area for energy distribution in the far infrared region of the spectrum is much larger than the area of stones. The heating panels 41 are connected to each other in parallel, so that the number of heating panels 41 can be easily adjusted.

Although the present invention has been described with reference to a preferred embodiment, it will be apparent to those skilled in the art that numerous modifications and changes are possible within the scope of the present invention, which is intended to be limited by the appended claims.

Claims (13)

1. A heating device comprising a housing with a plurality of openings, a power supply bus with a plurality of first connectors, a plurality of heating panels installed in the housing at the same distance from each other, each heating panel comprising a heating layer that is enclosed between two insulating plates, two wires connected with a heating layer, with each wire having second connectors for connecting to the first power bus connectors of the power control device tions connected with the case. 2. The heating device according to claim 1, in which the housing is rectangular, and in four vertical sides and the upper side of the housing limited openings. 3. The heating device according to claim 2, in which the openings are closed by covers. 4. The heating device according to claim 3, in which a plurality of first magnets are located on the housing, the covers comprising second magnets that are connected to the first magnets. 5. The heating device according to claim 3, in which a plurality of metal plates are located on the housing, wherein the covers comprise second magnets that are connected to the metal plates. 6. The heating device according to claim 3, in which each of the covers contains a plurality of plates, between which cracks are formed. 7. The heating device according to claim 3, in which a plurality of holes are made in each of the covers. 8. The heating device according to claim 1, wherein the housing comprises a plurality of slots in the transverse planks on the front side and the rear side of the housing, the heating panels being brought into contact with these slots. 9. The heating device according to claim 1, in which the housing comprises a power control device, and with the specified power control device connected to the power bus. 10. The heating device according to claim 1, in which the heating layer is made in the form of a graphite layer. 11. The heating device according to claim 1, in which the insulating plates are made of fiberglass. 12. The heating device according to claim 1, in which each of the heating panels has a thickness of less than 1 mm 13. The heating device of claim 8, in which the distance between the slots is in the range between 0.5 and 2.5 cm

Images