RU115054U1 - HEAT FAN (OPTIONS) - Google Patents

Abstract

1. A fan heater having a casing, a front panel made of a transparent or translucent material, a back panel with openings for air intake, an outlet in the upper part of the rear panel with an outward-facing flare installed in it, connected to a flat air-permeable heat sink located inside the casing, with one and more by a fan installed inside the bell, a solar photovoltaic panel located inside the case between the front panel and the air-permeable heat absorber, characterized in that a heating element in the form of an infrared film is located on the back side of the photovoltaic panel through a heat-absorbing gasket, a screen is installed between the said heating element and the air-permeable heat absorber reflective and heat-absorbing material such as foil or thin sheet metal. ! 2. A fan heater according to claim 1, characterized in that the outwardly extending bell is equipped with a corrugated pipe for supplying heated air to the room, with a sufficiently large length of the corrugated pipe, an additional heating element in the form of an infrared film is located inside it, fixed on the inner surface of the corrugated pipe or on the surface of the inner corrugated pipe inserted into the above corrugated pipe. ! 3. Fan heater according to claim 1, characterized in that it is provided with a control unit containing a valve for controlling and regulating the air flow, installed at the end of the corrugated pipe located inside the room, and a regulator for the temperature of the supplied air. ! 4. Fan heater

Description

The utility model relates to ventilation and heating equipment, namely, to structures for heating and ventilating air in the premises of industrial, agricultural, municipal, residential and other facilities. Heater designs can work using solar energy or from the mains.

Known fan, ventilating and supplying warm air using solar energy. The fan design consists of two box-shaped containers with a transparent coating interconnected in series with offset, equipped with inlet and outlet openings, with pipes inserted into them. The fan has heating plates mounted vertically inside said box-shaped containers on their rear panels. Through the upper pipe and, accordingly, the upper part of the device, fresh air is supplied, through the lower - air is released from the room. The device is attached to the outer wall or other surface of the room so that the ends of the upper and lower pipes exit into the room, which must be ventilated and heated. [Application KR 100795346 (B1), Int. Cl. F24F 7/00, F24F 7/04, F24F 7/08, F24F 7/10. Ventilator by using solar / JANG YOUNG KEUN [KR]; COLLEGE INDUSTRY COOPERATION G [KR]; 2008-01-17.] [1].

The design of the known fan involves the presence of a large number of elements - plates for the accumulation of solar energy. The outlet device requires an additional protective device to prevent rainfall, snow, and foreign objects from entering it.

A known solar collector for heating ventilated air, comprising at least one front panel of a transparent or translucent material, a rear panel and a breathable heat absorber located between them. The rear panel of the manifold is permeable to outside air. The collector has an outlet in the upper part for the flow of warm air flowing through the internal space bounded by the front panel and the heat-absorbing device [Application WO 03/048655, IPC F24J 2/28, F24F 7/10. Solar collector panel for heating ventilation air / CHRISTENSEN Hans Jorgen; declared 11/26/2002.] [2].

A known design of the solar collector containing a transparent or translucent front panel, a rear panel with openings for air flow, an outlet in the form of a pipe with a fan located in it. The solar collector comprises a breathable heat sink and one or more photovoltaic cells for providing fan operation [Application WO 2006/102891, IPC F24J 2/04, F24J 2/28, F24J 2/30. Solar collector panel / CHRISTENSEN Hans Jorgen; declared 03/24/2006.] [3]; [Patent US 7694672, IPC E04D 13/18, H01L 31/00. Solar collector panel for heating ventilation air / Hans Jorgen Christensen (DK); Publ. 04/13/2010.] [4].

The aforementioned known structures can be used in areas with a long period of solar illumination at relatively low sub-zero outside temperatures.

The technical result of the utility model is to reduce energy consumption while improving the quality of heating and air circulation of the premises in a long period of low temperatures of atmospheric air.

The technical result is provided by the construction of a fan heater having a housing, a front panel of transparent or translucent material, a rear panel with openings for air flow, an outlet in the upper part of the rear panel, in which an outgoing bell is connected to the flat air permeable heat sink located inside the housing. Inside the bell is one or more fans. Inside the case, between the front panel and the breathable heat absorber, there is a solar photovoltaic panel, on the back of which a heating element in the form of an infrared film is located through a heat-absorbing pad. Between the specified heating element and the breathable heat absorber is a screen of reflective and heat-absorbing material, for example, foil or thin sheet metal.

The bell is equipped with a corrugated pipe for supplying heated air to the room. With a sufficiently large length of the corrugated pipe, an additional heating element in the form of an infrared film mounted on the inner surface of the corrugated pipe is located inside it. An additional heating element may be fixed to the surface of the inner corrugated pipe inserted into the above corrugated pipe.

The fan heater is equipped with a control unit containing a valve for controlling and regulating the air flow installed at the end of the corrugated pipe located indoors, and a temperature regulator for the supplied air.

The power supply for heating elements in the form of an infrared film is a network voltage of 12 V or 220 V.

In the absence of power supply, the system can operate on power from an external solar panel or from a solar panel system using a rechargeable battery with an inverter - 220 V socket for the consumer to use excess energy.

The fan heater of the proposed design can be installed on the sunlit side of the house or on its roof in such a way as to ensure the influx of external air through the perforated rear panel and the flow of fresh heated air through the corrugated pipe into the room.

The design of the fan heater is illustrated by the drawings.

Figure 1 is a cross section of a fan heater.

Figure 2 - installation diagram of a fan heater on the roof of the room.

Figure 3 - diagram of the power supply using an additional solar battery with a battery.

Fan heater 1 is a flat hollow body, the base of which is a frame 2 of sheet metal or profile, preferably aluminum, fastened with metal rivets using embedded elements. The front panel 3 is made of a transparent or translucent material, for example, polycarbonate, inserted into special grooves of the frame 2 and reinforced with sealing rubber. The rear panel 4, made of a perforated metal plate, is attached to the frame 2 with screws. Inside the housing along it is a plate of heat absorber 5 made of breathable heat-absorbing material, felt or felt of a dark color. The plate of the heat sink 5 divides the inner space of the fan heater 1 into two parts - the channel for air, the space of one of them adjacent to the rear panel 4 is smaller than the other.

At a distance of 2.5 to 10 cm from the front panel 3, parallel to it, there is a solar photovoltaic panel (PV panel) 6, so that on top of it, below and on the sides there are channels for circulating air flows. On the back side of the solar photovoltaic panel 6 through the felt pad 7, which is a heat absorbent, is located the heating element 8 in the form of an infrared film. Between the heating element 8 and the heat sink 5 is a screen 9 of reflective and rapidly heating material, for example, foil or metal. The screen 9 is arranged to move air flows along it

A hole is located in the upper part of the rear panel 4, near which two or more fans 10 of different power are installed, for example, 1.8 W and 0.6 W with a voltage of 12 V. A metal socket 11 is inserted into the hole, one end of which is tightly attached to the plate heat sink 5. Fans 10 are attached to a metal socket 11 using embedded elements. A corrugated pipe 12 is put on a metal bell 11 using a fastening element in the form of a clamp 12. With a considerable length of the corrugated pipe 12, a corrugated pipe 13 of smaller diameter and an infrared film fixed to the surface of the corrugated pipe 13 are located as an additional heating element 14. The end of the corrugated pipe 12 leading to the room is equipped with a grill with a valve for regulating air flow. The control unit 15 and power supply 16 of the fan heater 1 are located indoors (Figure 2).

The operation of the fan heater is as follows.

Fan heater 1 is installed on the roof or on the outer wall of the room in unshaded areas, orienting in a south, southeast or southwest direction. Through the perforated rear panel 4, cold air is sucked in and passing through the holes of the heat sink plate 5, it enters the part of the fan heater 1 where the solar photoelectric panel 6 is located, the heating element 8 in the form of an infrared film and a foil screen 9. Moving through the channels between these elements, heated air rises and enters the fans 10, and from them passes through the corrugated pipe 12 or through the system of corrugated pipes 12 and 13 and enters the room. In the daytime, heating of the incoming air can occur from sunlight and a heating element 8 or 8 and 15. In the absence of sun, an infrared film fixed to the felt pad 7 heats the screen 9, which gives off heat to the surrounding air. The solar photovoltaic panel 6 provides the operation of the fans 10. The warm air entering the corrugated tubes 12 and 13 is additionally heated by the heating element 14 in the form of an infrared film.

The operation of the fan heater is carried out from the premises using a special control unit 15, including a valve for controlling the air flow and its temperature. The power for the heating elements 8 and 14 (infrared film) is provided from the mains power of the house. In the absence of power supply, the operation of the device can be carried out through an additional solar photovoltaic panel 6 'using a battery in accordance with the circuit shown in Fig.3.

Known solar heater containing a housing with a transparent wall and a flat heat sink installed in the housing with the formation of an air channel between the wall and the working surface of the absorber, in which are made recesses for the formation of swirling air flows [RF Patent 2044227, IPC ⁶ F24J 2/22. Solar air heater / Gachechiladze I.A. and others. - No. 93012843/06; declared 03/11/1993; publ. 09/20/1995.] [5].

Known air heater is ineffective in insufficient sunlight. Due to the design features, its installation requires a significant area.

Known fan heater for heating residential and other premises. The device comprises a housing having a mesh input and output, a fan and heating elements installed in the housing [RF Patent 2201557, IPC F24H 3/04. Fan heater / Krutovertsev I.T., Eliseev V.G .; applicant Federal State Unitary Enterprise "Design Office of General Engineering named after V.P. Barmin". - 2001112157/06; declared 05/07/2001; Publ. 03/27/2003.] [6].

Known fan heater is uneconomical due to the consumption of a significant amount of electric energy.

A known design of a solar air heater, comprising a housing with a transparent coating and a flat heat sink with holes for the passage of heated air, installed so that divides the space of the housing into the supply and exhaust channels [Patent 2009410 RF, IPC ⁵ F24J 2/28. Solar air heater / Gutsu A.I. and others. - No. 5003529/06; declared 10/9/1991; publ. 03/15/1994.] [7].

The operation of the air heater is ineffective due to the neglect of the features of convection of air flows.

The technical result of the utility model variant is, as in the first embodiment, a reduction in energy consumption while improving the quality of heating and air circulation of the premises in a long period of low ambient air temperatures.

The technical result is provided by the construction of a fan heater having a hollow body, a front panel of transparent or translucent material, a rear panel, fans, a flat, breathable heat sink located in the housing with the formation of air channels. The upper and lower panels have openings for air (perforated). Inside the housing along it there are plates made of translucent material with the formation of channels for air flows. On the above plates there are heating elements in the form of an infrared film. Between the plates with heating elements there is a screen made of reflective and heat-absorbing material, for example, foil or thin sheet metal. Fans are located at the bottom of the chassis. The fan heater is equipped with a cable and plug for connection to the power grid.

The fan heater, made according to the second option, can operate from a network voltage of 12 V or 220 V. If there is no power supply, the fan heater can operate from a solar panel installed outside the building or from a solar panel system. (Figure 3). When the fan heater is operating from a 12 V network, the inventory is excluded from the circuit.

The design of the proposed model of the fan heater is illustrated by drawings.

Figure 4 - presents a transverse vertical section.

5 is an external view of the fan heater. (The photo)

Fan heater G is a frame body 2 made of metal, preferably aluminum, in the form of a flat parallelepiped with a front panel 3 of a transparent or translucent material, for example polycarbonate. The rear panel 4 is solid. The upper and lower panels 18 and 18 'have perforations for the free flow of ambient air and its exhaust already heated. Inside the housing at a small distance (from 2 to 7 cm) from the rear panel 4 along it there is a heat sink plate 5 with holes for air flows from heat-absorbing material, felt or felt of a dark color. Inside the housing - frame 2 are located along the plate 17 of a transparent or translucent material, for example, polycarbonate, on which the heating elements 8 are laid in the form of an infrared film. Between the plates 17 with heating elements 8 there is a screen 9 made of reflective and heat-absorbing material, for example, foil or thin sheet metal. The plates 17 and the reflective screen 9 are arranged in such a way that they create vertical air channels for air flows. Fans 10 are located at the bottom of the chassis.

The operation of the fan heater in the second embodiment can occur when there is a power supply of 220 V or 12 V. In this case, the cooled air of the heated room enters through the bottom panel 18 ', passes through the channels between the heating elements 8, the screen 9 and the heated one, and flows out through the fans 10 into the room through the top panel 18, gradually increasing the room temperature to the required temperature. Heating of the incoming air can occur from sunlight.

In the absence of power supply, the fan heater also works using solar energy in accordance with the circuit shown in. Figure 3. An additional solar photovoltaic battery 6 'is installed externally on the sunny side and through the battery with an inverter supplies electricity to power the fan heater 1'.

Using the proposed fan heaters can significantly save electricity or do without it. Effectively circulating and warming the air of the room and the objects in front of it, walls, fan heaters create a comfortable temperature environment of the room, actively ventilating or circulating the air in the room.

The use of infrared radiation in fan heaters has a beneficial effect on the human body. Infrared waves are characterized by an effective therapeutic effect in skin diseases, improve metabolism, promote blood circulation in the body, warm and maintain our body temperature, refresh the air in the room, and have a unique cosmetic effect.

Fan heaters are easy to manufacture, safe and reliable in operation. They are quite compact, small in size and optimally shaped in appearance, allowing them to fit into any interior. Installing them does not require large areas.

Fan heaters of the proposed design are energy-saving, consuming a small amount of electric energy or using solar energy for their efficient operation. They provide significant savings in the consumption of traditional energy sources.

Information sources

1. Application KR 100795346 (B1), Int. Cl. F24F 7/00, F24F 7/04, F24F 7/08, F24F 7/10. Ventilator by using solar / JANG YOUNG KEUN [KR]; COLLEGE INDUSTRY COOPERATION G [KR]; 2008-01-17.

2. Application WO 03/048655, IPC F24J 2/28, F24F 7/10. Solar collector panel for heating ventilation air / CHRISTENSEN Hans Jorgen; declared 11/26/2002.

3. Application WO 2006/102891, IPC F24J 2/04, F24J 2/28, F24J 2/30. Solar collector panel / CHRISTENSEN Hans Jorgen; declared 03/24/2006.

4. Patent US 7694672, IPC E04D 13/18, H01L 31/00. Solar collector panel for heating ventilation air / Hans Jorgen Christensen (DK); Publ. 04/13/2010.

5. Patent 2044227 of the Russian Federation, IPC ⁶ F24J 2/22. Solar air heater / Gachechiladze I.A. and others. - No. 93012843/06; declared 03/11/1993; publ. 09/20/1995.

6. RF patent 2201557, IPC F24H 3/04. Fan heater / Krutovertsev I.T., Eliseev V.G .; applicant Federal State Unitary Enterprise "Design Bureau of General Engineering named after VP Barmin." - 2001112157/06; declared 05/07/2001;. Publ. 03/27/2003.

7. Patent 2009410 of the Russian Federation, IPC ⁵ F24J 2/28. Solar air heater / Gutsu A.I. and others. - No. 5003529/06; declared 10/9/1991; publ. 03/15/1994.

Claims (8)

1. A fan heater having a housing, a front panel of transparent or translucent material, a rear panel with openings for air intake, an outlet in the upper part of the rear panel with a socket installed outside it, connected to a flat air permeable heat sink located inside the housing, with one and more than a fan installed inside the socket, a solar photovoltaic panel located inside the housing between the front panel and the breathable heat sink, characterized I mean that on the back side of the photovoltaic panel, a heating element in the form of an infrared film is located through the heat-absorbing pad, a screen made of reflective and heat-absorbing material, such as foil, or thin sheet metal, is installed between the specified heating element and the breathable heat absorber. 2. The fan heater according to claim 1, characterized in that the outgoing bell is provided with a corrugated pipe for supplying heated air to the room, with a sufficiently large length of the corrugated pipe, an additional heating element is located inside it in the form of an infrared film fixed to the inner surface of the corrugated pipe or the surface of the inner corrugated pipe inserted into the above corrugated pipe. 3. The fan heater according to claim 1, characterized in that it is equipped with a control unit comprising a valve for controlling and regulating the air flow installed on the end of the corrugated pipe located indoors, and a temperature regulator for the supplied air. 4. The fan heater according to claim 1, characterized in that the power supply for the heating elements in the form of an infrared film is a network voltage of 12 V or 220 V. 5. The fan heater according to claim 1, characterized in that in the absence of power supply, the system can be powered by an external solar panel or from a solar panel system using a battery. 6. A fan heater having a housing, a front panel of transparent or translucent material, a rear panel, fans, a flat breathable heat sink located in the housing with the formation of air channels, characterized in that the upper and lower panels are perforated for free air movement inside the housing along it there are plates made of translucent material with the formation of channels for air flows, heating elements in the form of an infrared film are located on the above plates, between the plates with heating elements there is a screen made of reflective and heat-absorbing material, for example foil, or thin sheet metal, and the fans are located in the lower part of the case. 7. The fan heater according to claim 6, characterized in that it can operate from a network voltage of 12 V or 220 V. 8. The fan heater according to claim 6, characterized in that in the absence of power supply, it can operate from a solar panel installed outside the building or from a solar panel system.