RU48400U1 - RADIATOR FOR HEATING SYSTEM (OPTIONS) - Google Patents

Abstract

A radiator for space heating, consisting of a hollow heating panel (pos. 1) and nozzles for entering (pos. 2) and output (pos. 3) of the coolant, has a front wall of the heating panel (pos. 4), facing a heated room with an area the heating surface and the coefficient of thermal conductivity of the material is not less than the area of the heating surface and the thermal conductivity of the wall material (pos. 5), facing the building envelope. The nozzles for supplying and discharging the coolant are placed on different sides of the heating panel in 2 versions: 1) the nozzle for entering the coolant is L-shaped and has openings for the coolant exit (pos. 9) in the vertical section (pos. 8), placed inside the panel; 2) the internal cavity of the panel is equipped with partitions (pos7) for organizing the circulation of the coolant in it. The proposed radiator can be installed both on the building envelope (pos. 6) and in the floor version, while it is structurally possible to install it with the oblique facing to the floor of the room.

Description

A device for heating rooms (patent RU (s) 2235251 (1h) C2, author Genkin V.E., RU BIPM No. 24 08/27/2004), including means for supplying a coolant, which are made in the form of a set of unified structural elements, in each of which at least one through duct is formed for the circulation of the coolant, while a part of the unified structural elements is made with through ducts that change the direction of movement of the coolant by an angle of 90 °, and a part of the unified structural elements is made and with through ducts that change the direction of movement of the coolant by an angle of 180 °, and all elements are equipped with means for tight connection with each other, and their sizes, as well as dimensions, cross-sectional shape and location of the inlet and outlet openings of the through ducts are selected so that when docked, the set of unified structural elements is a plate, in the body of which all ducts are connected with each other, with the formation of a sealed circuit for the circulation of the coolant, while the layer of const manual elements from the side facing the heated room is made with the inclusion of material with high thermal conductivity.

The disadvantage of this device is the large metal consumption, the complexity of manufacturing and assembly, the presence of a large number of connections of structural elements to a panel where tightness is required (i.e., the likelihood of emergency situations increases), while the material of these elements must still have different thermal conductivity.

A well-known radiator (patent RU ₍₂₁₎ 2003121402/06 (u) ₁₃ A, authors STROBANTS Marcel (BE), VERKAUTEREN Pierre (BE), RU BIPM No. 34 10.12.2004), containing a front panel and a rear panel, between which a volume for fluid supply is formed, while the front panel is made of synthetic non-heat-conducting material, the rear panel is made of heat-conducting material, placed between the panels

seal to ensure water tightness of the internal volume,

the front and rear panels are connected together with the seal placed between them by means of connection, while the rear panel is equipped with fittings for supplying fluid to the internal volume of the radiator and removing fluid from it, also equipped with heat transfer means for transferring heat to the surrounding air and mounting means for mounting the radiator on the wall, and the front panel is made with channels preformed in it, providing a controlled direction of fluid flow from the inlet to the outlet Ceru, in addition, the front panel has an upper side, in which slotted openings are made for removing heated air from the rear panel, and the fitting for supplying liquid is located at the highest point of the rear panel.

The disadvantage of this design is that the wall heating increases through the heat-conducting material of the rear panel and, as a result, the heat loss through the building envelope increases, in addition, only the convective component of the heat flux from the radiator is used to heat the room, because the front panel is made of non-conductive material, and heated air is directed upward through the holes in the upper part of the rear panel, which will lead to an increase in the temperature difference between the lower and upper zones of the room and, as a result, to an increase in heat consumption for heating the room.

The purpose of the proposed utility model is:

• Obtaining an economical heating device, convenient in maintenance with the possibility of placing it not only on the walls, but also on the floor;

• Reducing heat loss through building envelopes through the use of materials with lower thermal conductivity for the rear wall of the heating panel;

• An increase in the share of use of the radiant component of the heat flux from the radiator due to the heating of the room floor when the radiator is tilted to the floor.

The goal is achieved by the fact that;

Radiator for space heating, consisting of a hollow heating

panel (item 1) and pipes for the input (item 2) and output (item 3) of the coolant, has the front wall of the heating panel facing the heated room (item 4), with a heating surface area and a thermal conductivity of the material equal to or larger than the surface area of the heating and the coefficient of thermal conductivity of the wall material (pos. 5) facing the building envelope. The nozzles for supplying and discharging the coolant are placed on different sides of the heating panel, and in order to more evenly distribute the coolant inside the panel, the following options are provided: 1) the nozzle for entering the coolant is L-shaped and has openings for the coolant exit (pos. 9) on the vertical a plot (pos. 3) placed inside the panel; 2) the internal cavity of the panel is equipped with partitions (pos7) for organizing the circulation of the coolant in it. The proposed radiator can be installed both on the enclosing structure (pos. 6) and in the floor version, while it is structurally possible to install it with an inclination inside the room, which will allow us to direct part of the heat flux to the floor heating and partially create the “warm floor” effect. This will lead to a decrease in the convective component of the generated heat and, as a consequence, to a decrease in heat loss due to a decrease in air temperature in the upper zone of the room.

Claims (2)

1. A radiator for a room heating system, consisting of a hollow heating panel and nozzles for supplying and discharging a heat carrier, characterized in that the heating surface area and the heat transfer coefficient of the material of the front wall of the panel facing the heated room are not less than the heating surface area and material heat transfer coefficient the rear wall of the panel facing the enclosing structure, the nozzles for supplying and discharging the coolant are placed on different sides of the panel, while the nozzle for entering the coolant has a L-shaped shape and openings for the exit of the coolant in a vertical section placed inside the panel, and the panel can be installed with the oblique face to the floor of the room. 2. A radiator for a room heating system, consisting of a hollow heating panel and nozzles for supplying and removing coolant, characterized in that the heating surface area and heat transfer coefficient of the material of the front wall of the panel facing the heated room are not less than the heating surface area and material heat transfer coefficient the back wall of the panel facing the enclosing structure, pipes for supplying and discharging coolant are placed on different sides of the panel, while the internal cavity of the panel is equipped with Wang partitions for coolant circulation organization in it, and the panel can be installed with a slope face to the floor of the room.