RU28224U1 - ROOM HEATING PANEL - Google Patents

Description

Panel for heating the room.

The utility model relates to central heating systems, in particular to heating systems in external wall panels, residential, public and industrial buildings.

Known panel for heating a room, containing heating elements located in the outer wall panel, slotted vertical channels in the upper and lower parts, communicating with the air through the holes.

/Cm. A.S. No. 590544 according to class F24D 12/00 “The panel for heating premises was declared on 01.12.75, published on 01/30/78 bul. No. 4 / A disadvantage of the known panel for heating a room is increased useless heat loss due to the fact that the heating elements monolithic in the outer wall panels, give part of the heat directly to the outside air. The presence of slotted channels communicating with the room air through the holes entails the accumulation of dust and dirt, which is almost impossible to remove.

The closest in technical essence and the achieved effect and selected as the closest analogue is a panel for heating a room with heating elements monolithic in the concrete of the outer wall.

/cm. VP Turkin “Heating of residential, public and agricultural buildings South Ural Book Publishing House Chelyabinsk, 1970, p. 199 /

However, the known panel for space heating provides increased useless heat loss since the heating elements, monolithic in the outer wall panels, give a significant part of the heat to the outside air. In addition, the well-known panel has a large thermal inertia, complicating the regulation of heat transfer to the room to provide a comfortable environment for humans.

The objective of this utility model is to reduce useless heat loss, to ensure the regulation of heat transfer to the room to create comfortable conditions for humans.

The technical result that allows to solve this problem is the implementation of the panel for heating the premises in the form of a main part with high-temperature heating elements adjacent to the room and an additional part with low-temperature heating elements located in the thickness of the enclosure.

This task is achieved by the fact that the known panel for heating a room with heating elements, according to a utility model, it is made of a main part with high-temperature heating elements adjacent to the room and an additional part with low-temperature heating elements located in the thickness of the enclosure. Thanks to such

panel designs for space heating, the heat flux from the main part of the panel with high-temperature heating elements, extending towards the outer fence, is used to heat an additional part with low-temperature heating elements. The heat accumulated in the additional part of the panel can be used for regeneration

in all known ways.

The main and additional parts can be separated by a sealed air gap, can be separated by a sealed air gap and a screen. In addition, the main and additional parts can be separated by a layer of insulating material, can be separated by an air gap ventilated by internal air. The panel for heating the room can be equipped with a device for draining condensate.

Studies on patent and scientific and technical sources of information indicate that the proposed panel

for space heating is unknown, and therefore meets the criterion of "novelty.

The proposed panel for space heating can be manufactured at any enterprise specializing in this industry since this requires well-known materials and standard equipment, widely produced by domestic and foreign industry

Thus, the claimed panel for space heating meets the criterion of "industrial applicability.

The proposed set of essential features informs the claimed panel for heating a room new properties that can solve the problem, namely, to reduce useless heat loss, to regulate heat transfer to the room to create comfortable conditions for humans.

The implementation of the panel for heating the room from the main part with high-temperature heating elements adjacent to the room and the additional part with low-temperature heating elements located in the thickness of the outer fence allows the part of the heat coming from the main part with high-temperature heating elements directed towards the outer fence to accumulate in an additional part with low-temperature heating elements for further useful use and those m provides the reduction of useless heat loss, which in turn provides regulation of heat transfer to the room to create comfortable conditions for humans.

The presence of a sealed air gap between the main and additional parts of the panel reduces heat loss to the side of the outer fence, increases the efficiency of use

heat emanating from the main part with high-temperature heating elements.

The presence of a sealed air gap and a screen between the main and additional parts of the panel further reduces heat loss to the side of the external fence, increases the efficiency of heat transfer, and provides control of heat transfer to the room.

The presence of a layer of heat-insulating material between the main and additional parts of the panel also provides a reduction in heat loss towards the outer fence.

The presence of an air gap ventilated by internal air between the main and additional parts of the panel reduces heat loss to the side of the outer fence.

The presence of a device for collecting and removing condensate provides a reduction in the amount of water vapor, reduces the moisture content of the material of the outer fence, which in turn leads to an increase

resistance to heat transfer of this material and reduces heat loss.

Thus, the proposed combination of the above features reduces useless heat loss, provides regulation of heat transfer to the room to create comfortable conditions for humans. s interlayer and screen, in FIG. 2 is a transverse section through a panel with a layer of insulating material. The panel for heating a room includes a main part 1 with high-temperature heating elements 2, an additional part 3 with low-temperature elements 4, while the main part 1 is adjacent to the room 5, and the additional part 3 is located in the thickness of the outer fence 6. Main part 1 and additional part 2 can be separated by a sealed air gap 7, a shield 8, a layer of heat-insulating material 9, an air gap 10, ventilated by internal air. The panel for heating the room can be equipped with a device for draining condensate / not shown /. The panel for heating the room is used as follows. In the high-temperature heating elements 2 of the main part 1, a coolant with a temperature of 85-90 C is supplied depending on weather conditions, and in the low-temperature heating elements 4 of the additional part 3, a coolant with a temperature of 8-10 C is supplied. As a result, heat from the main part 1 also flows into the side of the room 5 and towards the outer fence 6, where on its way there is an additional part 3 with low-temperature heating elements 4, where this heat is accumulated, which is used for reg niraki by all known methods. The following examples determine the front / in the direction of the room / and rear / directed to the outside air / heat transfer for one meter of medium glass pipes with a diameter of 16x2 mm, sealed with 80 mm pitch in a 60 mm thick concrete wall panel with double-sided heat transfer, water consumption is 30 kg / h The coolant temperature of the main panel is 90 C, the coolant temperature of the additional part is 10 C. The thermal conductivity of concrete As, is 1.37 W / μ, the thermal conductivity of ALL glass is 0.815 W / μ, then the heat transfer resistance of the outer layer of the enclosure is R, 0.95 km / w . In the absence of an additional part of the panel, the heat flux from the front surface directed to the room g is 52 W / m, and the rear heat flux directed to the outside air g is 92 W / m. In the case when the main and additional parts of the panel are separated by a sealed air gap, we have a heat transfer resistance of the sealed air gap R 0.14 ms / W, the front heat transfer of one meter pipe is g 52 W / m. The amount of heat accumulated by an additional part of the panel is g 95 W / m. As a result, the temperature of the coolant of the additional part s increases from 10 C to 12.7 C and the rear heat transfer of the additional panel per meter of pipe g 73 //. 35 W / m, heat loss was reduced by 2.6 times compared to a conventional panel.

An example of a panel for heating a room when the main and additional parts are separated by a sealed air gap and

aluminum foil screen. Let the room temperature + 20 C,

the outdoor air temperature is 34 C, the front heat transfer of one meter of the pipe is g 52 W / m, the accumulated heat is g 75 W / m,

coolant temperature in the additional part of the panel + 12.2 С,

rear heat transfer g 34W / m. Useless heat loss

decreased 2.7 times.

An example of a panel for heating a room when the main and additional parts are separated by a layer of heat-insulating material K-FLEX / Italy / about 50 mm thick, thermal conductivity coefficient L 0.038 W / μ, facial heat transfer g 52 W / m,

accumulated heat gtfAx 40 W / m, coolant temperature in

additional part of the panel t 11.1 С, rear heat transfer

g 33.5 W / m. Useless heat loss decreased by 2, 75 times.

An example of a panel for heating a room when the main and

additional parts are separated by an air gap ventilated

indoor air:

Facial heat transfer g 52 W / m

Accumulated heat g 48 W / m, coolant temperature

additional part t 11.4 C, rear heat transfer g 33 W / m.

The presence of a device for collecting and removing condensate is provided for under certain humidity conditions. Having the temperature on the surface of the additional part of the panel below the dew point, it is possible to organize the collection and removal of condensate from the vapors passing through the external fence, under the influence of gravitational forces using a condensate collection and removal device. As a result, the amount of water vapor is reduced, the material in the outer fence loses moisture and increases heat transfer resistance. As a result, useless heat loss has been reduced.

Additional advantages of the claimed panel for space heating include the possibility of its use for cooling in the hot summer period, as well as the possibility of its use for drying materials of the external fence.

In the summer, under the influence of solar radiation and the temperature of the outside air, the process of unsteady heat transfer through the outer fence occurs. During the day, the fence accumulates heat, subsequently giving it to the room. This process of heat transfer from the enclosure to the room also occurs at night in the absence of solar radiation and a decrease in the temperature of the outside air, since the storage capacity of the outside enclosures is high. As a result of this, in order to maintain comfortable indoor conditions in le-i, the same time, cooling is also required

night time. The presence of an additional part of the panel lowers the temperature in the thickness of the enclosure, transferring the accumulated heat with the coolant, reducing the capacitive characteristic of the enclosing structures.

An example of using a panel for heating a room in the summer

period of time. Let the air temperature in the room + 18 C,

outdoor temperature + 30 C between the main and additional parts of the panel is a sealed air gap.

The material of the pipes and panels is the same as in the previous examples.

d 12mm, pipe spacing S 80mm, flow rate C 30kt / h f-ftj

coolant temperature of the main part of the panel +12 C,

additional part +5 C.

1. From the premises, the heat flow entering the main part

g 4.2 W / m, coolant temperature will change from + 12 C to + 12.2 C

2. Heat flow from the street into the interior of the fence g 14.1 W / m,

the heat carrier will heat from a temperature of + 5 C to a temperature of + 5.5 C

3. Heat transfer between the coolant of the main part of the panel with the coolant of the additional part of the panel g 8 W / m.

Under certain humidity conditions of the outdoor fencing, the use of the inventive panel for heating a room makes it possible to directly influence the dynamics of changes in the moisture content of the material around the fences. From construction

MQf. OO

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Thermophysicists know that the heat transfer coefficient increases with increasing humidity of the material and, conversely, with decreasing humidity of the material, the thermal resistance of the same material increases.

In the winter period, when the transport of air vapor occurs from the room into the thickness of the fence towards the outside air, the moisture content of the material of the outer fences increases, which entails additional useless heat loss. The summer period is characterized by a decrease in humidity by natural drainage. This process occurs cyclically every year. In winter, by setting the temperature below the dew point on the surface of the additional part of the panel, the vapor passing from the room to the outside air condenses on this surface, the condensate is removed using a device for collecting and removing condensate, and fewer vapors enter the materials of the outer fence, thereby reducing the dynamics of moisture and reduce thermal resistance of the material.

In different periods of the year, under various operating conditions, characterized by an increase in the moisture content of the fencing materials, it is possible to organize "drying of the fencing materials in the reverse order of vapor movement towards the external or internal air by increasing the temperature of the internal additional part of the panel,

subject to maintaining the required temperature on the main part of the panel to ensure comfortable indoor conditions.

Using the claimed panel for space heating allows you to save all the advantages of radiant panel heating in terms of sanitary and hygienic requirements and comfort conditions for humans. Convective heat transfer does not increase, there are no inaccessible places for dust accumulation. When heating rooms

air temperature can be reduced by 1 - 3 C, and when cooled

the room temperature can be kept 1-3 C higher without compromising comfort conditions, thereby reducing the capacity of the heating-cooling system.

Claims (6)

1. Panel for heating a room with heating elements, characterized in that it is made of a main part with high-temperature heating elements adjacent to the room, and an additional part with low-temperature heating elements located in the thickness of the enclosure.  2. The panel according to claim 1, characterized in that the main and additional parts are separated by a sealed air gap.  3. The panel according to claim 1, characterized in that the main and additional parts are separated by a sealed air gap and a screen.  4. The panel according to claim 1, characterized in that the main and additional parts are separated by a layer of heat-insulating material.  5. The panel according to claim 1, characterized in that the main and additional parts are separated by an air gap ventilated by internal air. 6. The panel according to claim 1, characterized in that it is equipped with a device for draining condensate.