RU119075U1 - ELECTRIC HEATING INSTRUMENT FOR HEATING ROOMS OF SMALL FORMS - Google Patents

Abstract

 1. An electric heating device for heating rooms of small shapes, comprising a central heating unit, a reflector and heat-emitting panels, characterized in that the heat-emitting panels are autonomous and arranged so that the heat flux is radiated towards the central heating unit, which has a shape that follows the shape of the room , and on which a heating element is fixed, covered from above alternately in the form of strips with a heat-absorbing and heat-reflecting coating, the heating unit is also equipped with wives a screen to create a low-speed convection flow according to the principle of operation of “skirting” electric convectors. ! 2. The electric heating device according to claim 1, characterized in that the heat-emitting panel consists of a heating element attached to a dielectric base coated with a heat-insulating material in which mounting holes are made.

Description

The proposed utility model relates to the field of electric heating in household electrical appliances, in particular to household heating appliances, and is intended for heating rooms of small shapes in the form of various types of yurts or rooms of small volumes with a ceiling in the form of a dome, cone, pyramid, etc.

It is known to heat a yurt in a traditional way. Historically, the design of the yurt was adapted for heating from an open fire located in the center, this method of heating the yurt has been preserved to this day, but open fire is not used due to the high degree of fire hazard. Usually heated by a stove "potbelly stove", which is installed in the center. Smoke and other combustion products are removed through a smoke-hole through a chimney. This method of heating contributes to an even distribution of heat, quick heating of the yurt and maintaining the temperature in the places where people are.

Despite the fact that this method of heating is the most common for heating yurts, it has a number of significant drawbacks. Due to the low height of the chimney, solid fuel is not completely burned and, accordingly, a large amount of harmful emissions into the atmosphere is formed. Constant control over the combustion process is required, and compliance with safety requirements due to the high temperature on the surface of the furnace. The combustion process requires a constant flow of oxygen, which causes additional heat loss when cold air enters the yurt. If air supply from the outside is not ensured, then “oxygen starvation” can occur inside the yurt and, as a result, poor health of people, and in some cases can lead to death.

Known electric radiant heater (RF Patent for utility model No. 75721, F24H 3/04 2008), consisting of a housing that contains grooves for fixing thick-film heating elements made in the form of a metal plate with bends along the long and short sides that serve stiffening ribs and additional holes in the sides for ventilation, a heat insulator, a reflector, which is made in the form of a curved U-shaped polished metal plate, on the outside of which are sequentially applied ektroizoliruyuschy dielectric, resistive and dielectric protective layers are laid into a thick film heating element with a minimum gap, and a thick film heating element.

A device for heating is known (RF Patent No. 2043700, Н05В 3/00, F24H 3/04 1988), containing reflectors 2 and 3 mounted on different sides of the flat heater 1 with the formation of a common exhaust channel 9, combining channels 7 and 8, to enhance the ejection of convected air flow. The reflector 3 is installed with the possibility of a turn and fixation on the holders 10 and 11. The reflector 3 has a shorter length than the reflector 2 with a convex-curved peak to enhance the ejection of convection air flow.

Known electric convector (RF Patent for utility model No. 99120 F24H 3/04 2010), containing a prefabricated rectangular housing with inlet and outlet openings, upper and lower covers, rear and side walls, one of which is equipped with a temperature regulator and a switch, tubular electric heating elements mounted on the rear wall of the case, a circuit board with an electrical circuit, a front panel with a design. Electroconvectors are made with installation on the wall or moved around the room.

The closest analogue is an electric radiant heater (RF Patent No. 2243456, F24H 3/04 2004) comprising a housing, a heat-insulating element located therein, a reflector and a heat-radiating panel, the heat-radiating panel is made in the form of a flat electric heating element having a steel heat-radiating base, on the inside which has an insulating coating, a heating resistive element in the form of tracks of a topological pattern and a protective coating made of dielectric resistive and conductive materials for microelectronic thick-film technology.

The disadvantages of the known devices is that, given the peculiarity that the vertical side of the yurt does not exceed a value of 1.5 meters and is tightly covered with household furniture, the installation of any type of heating devices in these places is not possible. In the center of the yurt there is a natural convective draft, which concentrates all the generated heat at the light-smoke opening, and the “Thermal cushion” effect appears in the upper part of the room (feet are cold, head is hot). The installation of radiation devices is possible only on the inclined part of the yurt, but the concentration of heat flow will be in the center of the yurt, while the places of permanent residence of people remain cold.

The objective of the proposed utility model is the creation of a household electric heating device designed to heat small-sized rooms, for example in a yurt or in another small-volume room with a ceiling shape in the form of a dome, cone, pyramid, etc., which is a low-temperature heating method device that allows ensure a high degree of fire safety and avoid burns during operation

The problem is achieved in that in an electric heating device for heating small-sized rooms containing a central heating unit, a reflector and heat-emitting panels, heat-emitting panels are made in the form of low-temperature side radiation-type heating panels, autonomous and arranged so that the heat flux is radiated towards the central a heating unit that has a shape that repeats the shape of the room and on which a heating element is fixed, coated on top Independent user in the form of strips and thermally tsteplopogloschayuschego coating, the heating unit is also provided with a screen to create a low rate flow convection operation principle of "baseboard" panel heaters.

A diagram of the proposed device is shown in figure 1

An electric heating device consists of low-temperature side heating panels of radiation type 1, a central heating unit 2, which can be filled with heat-resistant material (for example, sand) with a screen 3 to create convection flow to reduce the inertia of the system. The central heating unit has the shape of a cylinder (the shape of the central unit is made depending on the shape of the room) onto which the heating element is fixed. The heating element from above in the form of strips is alternately covered with a heat-absorbing and heat-reflecting coating. For example, polished aluminum foil and blackened aluminum foil. To heat the lower part of the room, the central unit is equipped with a screen 3, to create a low-speed convection stream 4 according to the principle of operation of “skirting” electric convectors. Radiation panels emit heat flux 5 towards the central heating unit from which part of it is reflected and, together with the heat flux from the heating element of the central unit 6, is radiated towards the permanent residence of people.

Figure 2 shows the low-temperature radiation panel 1, which consists of the heating element 7 itself, which is mounted on a dielectric base 8 in which there are mounting holes 9. The base is covered with heat-insulating 10 and heat-reflecting material 11.

The device operates as follows: the side heating panels 1 are installed evenly around the perimeter of the room, the heating surface is oriented towards the central unit 2. Radiation heat flux 5 emitted by the side heating panels, entering the central unit is partially absorbed, and partially reflected and added up with heat rays 5, emitted by the central unit, on which a heating element is also installed around the perimeter, while the total heat flux is evenly distributed from central part to the serviced zones. The central unit is filled with heat-absorbing material and acts as a heat accumulator; as the temperature in the room decreases, the heat transfer coefficient from the walls of the central unit increases, while the lack of heat is compensated to maintain comfortable conditions, thereby reducing the inertia of the system, and the dependence of indoor comfort conditions on external meteorological conditions. For heating the central part of the room, the central unit has a screen 4, cold air, due to natural convection passes between the screen and the central unit. Since the height of the screen is not more than 250 mm, a low-speed convection stream 6 is created, which heats the central part of the room.

The proposed device creates favorable climatic conditions in rooms of small forms, while using a low-temperature heating method, in which there is no risk of burns when touched to the housing of heating devices and increases the degree of fire safety.

Claims (2)

1. An electric heating device for heating rooms of small shapes, comprising a central heating unit, a reflector and heat-emitting panels, characterized in that the heat-emitting panels are autonomous and arranged so that the heat flux is radiated towards the central heating unit, which has a shape that follows the shape of the room , and on which a heating element is fixed, covered from above alternately in the form of strips with a heat-absorbing and heat-reflecting coating, the heating unit is also equipped with wives a screen to create a low-speed convection flow according to the principle of operation of “skirting” electric convectors. 2. The electric heating device according to claim 1, characterized in that the heat-emitting panel consists of a heating element attached to a dielectric base coated with a heat-insulating material in which mounting holes are made.