RU2082919C1 - Room heater - Google Patents

Abstract

FIELD: heat engineering. SUBSTANCE: room heater has frame 3 with area 4 on its front surface for transfer of thermal energy to surrounding molecules of air, device 6 arranged inside frame 3 for generation of thermal energy and device 7 for deflection of air molecules carrying the thermal energy. Device 7 is located on the outside of frame 3 and is placed in operation irrespective of thermal energy generation device. EFFECT: enhanced efficiency. 9 cl, 1 dwg

Description

 The invention relates to the design of a room heater for space heating.

 Currently, there are numerous types of heaters on the market, including catalytic heaters and infrared heaters [1] Typically, these heaters contain a supporting frame frame, inside which are devices for the production of thermal energy emitted into the heated room. Like others, these heaters transfer heat to a room that needs to be heated mainly by convection.

 More specifically, air in contact with a heated surface, such as a catalytic heater or infrared heater, is heated, as a result, the movement of air molecules becomes stronger and they tend to move away from each other at a greater distance.

 Due to this, warmer portions of air molecules expand, becoming lighter than their surroundings, and acquire mass transfer rates relative to other molecules, causing other portions of cold air to move in their place and begin a new cycle. Thus, convective air movement occurs, which has the following disadvantages.

 The air, which gradually heats up, transfers heat to bodies and other objects with which it is in contact, which leads to cooling of the air and lowering it down.

 From here it is easy to understand that the heat produced by the heater, in this case a catalytic heater or infrared heater, mainly heats only the air near the heater itself, spreading over the limited area of the room in which the heater is located.

To eliminate this drawback at least in part, catalytic or infrared heaters have been developed, inside which there is a fan that produces a stream of air, which, interacting with a device for the production of thermal energy, heats up and then leaves the heater [2]
The heated air stream has a direction mainly at right angles to the upward movement of the heated air molecules and transfers portions of the heated air indoors far from the heater.

 In this type of heater with a fan built-in inside the frame, taking into account that catalytic or infrared heaters do not have a built-in cylinder with combustible gas, the air flow from the fan passes near the burner of the catalytic or infrared heater, which worsens gas combustion and takes some the amount of unburned and toxic gas, for example, carbon monoxide.

 In addition, catalytic and infrared heaters have a more serious drawback associated with the formation of a large amount of steam in the heated room.

In fact, it can be shown that when the catalytic heater or the infrared heater maintains a medium-sized room temperature of about 20 ^° C, for each 1 m ^{3 of} gas consumed, the heater produces about 4 m _{4 of} steam, which condenses on the window panes and objects in the room, As a result, the humidity in the room rises to an unhealthy level.

 The technical task of this invention is to eliminate or reduce the above technical disadvantages.

 According to the present invention, there is provided a room heater design comprising a frame, on the front surface of which there is a region of heat energy transfer to surrounding air molecules, and inside there is a device generating heat energy, the room heater design includes deflecting devices that are located outside the frame and are driven independently of devices for the production of thermal energy.

 Preferably, the deflecting device is located on the upper part of the frame and is removed from the area and devices for the production of thermal energy.

 Preferably, the deflector includes at least one inlet and one outlet, while drawing a predetermined amount of air through the inlet and expelling air from the outlet.

 Preferably, the outlet includes deflecting ribs for directing air in a given direction.

 Preferably, the outlet directs air in a direction predominantly perpendicular to the movement of hot air vertically upward from the heat transfer region.

 Preferably, the deflector includes at least one fan driven by an electric motor.

 Preferably, the air inlet and the air outlet are in communication with the air duct.

 Preferably, the deflecting device includes at least one electrical resistance for heating the air leaving the outlet located near the fan.

 Preferably, the inlet and outlet openings, the fan and the electrical resistance are placed in an additional unit, outside the frame.

 The drawing shows a partial sectional view of the design of a room heater according to the present invention, side view.

 The design of the room heater 1 includes a base 2, on which the frame 3 is supported, and has a region 4 on the front surface for transferring thermal energy to the surrounding air molecules. The transmitting zone 4 is protected, as is usually accepted, by a grill 5. On the frame 3, inside it, a burner is installed 6. As you know, the burner 6 of the catalytic heater or infrared heater is supplied with gas from a gas cylinder, which is also located inside the frame (in the drawing) .

 Above the frame 3 and in a place remote from the burner 6, in the design of the room heater there is a device 7 for deflecting air molecules that transfer thermal energy, which is driven independently of the device for producing thermal energy, i.e. burners 6, which is described in more detail below.

 More specifically, the deflecting device includes a fan 8, driven by an electric motor 9. Air enters the inlet 11 and under the influence of the fan 8 and the electric motor 9 passes through the air duct 10 and exits the outlet 12.

 The outlet 12 has deflecting ribs 20, allowing to direct the air blown out by the fan 8 in a predetermined direction, in particular in a direction predominantly perpendicular to the vertical rise of hot air leaving the area 4 of the heater 1. In addition, at least 8 at least one electrical resistance 13, a device for heating the air leaving the outlet 12.

 Thus, the resistance 13 together with the fan 8 creates a stream of hot air from the outlet 12, which is connected to the hot air produced by the catalytic or infrared heater through the burner 6. This combination leads to the fact that the room is heated to a predetermined temperature with the consumption of less gas and therefore, a catalytic or infrared heater produces substantially less steam than a heater of a similar type and similar construction.

 In addition, as follows from the above, the fan 8 and the resistance 13 together with the inlet 11 and the outlet 12 are placed in an additional unit 14, which is completely outside of the frame 3 of the heater 1 and is removed from the burner 6 of the heater 1. Thus, the air flow from the additional unit 14 does not in any way affect the burner 6, which allows to achieve optimal combustion of gas in a catalytic or infrared heater.

 It is clear that, simultaneously with the operation of the burner 6 of the catalytic heater or the heater with infrared rays, either one fan 8, or fan 8 and resistance 13 can work.

 The advantage of the design of the room heater 1 is that it is possible to distribute the heated air in the area of the room, far from the heater 1, without affecting the optimal combustion in the burner 6, thereby avoiding the entry of carbon monoxide into the room.

 Another advantage stems from the fact that, using together the fan 8 and the resistance 13, it is possible to heat the air leaving the outlet 12 and thereby more quickly warm the room, thereby saving gas and significantly reducing the formation of steam in the room.

 The materials used, as well as the dimensions, are determined by the practical need and requirements in the art.

 Without deviating from the scope of the present invention, modifications and improvements can be made to the design.

Claims (9)

 1. The design of a room heater containing a frame having on the front surface a region for transferring thermal energy to surrounding air molecules and a device inside the frame that produces thermal energy, characterized in that it contains a deflecting device for air molecules to transfer the mentioned heat energy, the deflecting device is located outside the frame and is driven independently of the device for the production of thermal energy.  2. The construction according to claim 1, characterized in that the deflecting device is located on the upper part of the frame and is removed from the area and devices for the production of thermal energy.  3. The design according to claim 1 or 2, characterized in that the deflecting device includes at least one inlet and one outlet, while the deflecting device blows a predetermined amount of air through the inlet and blows it out through the outlet.  4. The design according to claim 3, characterized in that the outlet includes deflecting ribs.  5. The construction according to claim 3 or 4, characterized in that the outlet directs the air in a direction predominantly perpendicular to the hot air rising vertically upward from the heat transfer region.  6. Design according to any one of paragraphs.1 to 5, characterized in that the deflecting device includes at least one fan, driven by an electric motor.  7. Design according to any one of paragraphs.3 to 6, characterized in that the air entering through the inlet and exiting through the outlet passes through the air duct.  8. The design according to claim 6 or 7, characterized in that the deflecting device includes at least one electrical resistance in the vicinity of the fan.  9. The design of claim 8, characterized in that the inlet and outlet, fan and electrical resistance are placed in an additional unit outside the frame.