SU882258A1 - Wall enclosure - Google Patents

Abstract

1. WALL PROTECTION, which includes a casing with thermal insulation fixed on it and an air gap separated from them by an air shield, a system of longitudinal inclined plates irrigated by liquid with bent sides | to the screen and heat insulation, because of the fact that, in order to increase the design efficiency by using solar energy and save heat for heating buildings and heating water, the screen is made of selectively transparent ktre solar radiation plates, placed in one or more layers to form a cavity therebetween, wherein the inclined plate facing Skagit the screen deAormirovany to form the ramp stage water-detention ledges and the upper side blackened. 2. The fence according to claim 1, distinguishes that the top of the inclined plates is sloped toward the wall.

Description

The invention relates to construction equipment, in particular, to wall barriers intended to operate in the mode of heating buildings, protecting against overheating, and preparing hot water.

A wall fence structure is known that includes a casing with thermal insulation, a translucent screen separated from it by an air gap, and a system of blackened sloping plates arranged in a layer.

However, the disadvantage of this design lies in the increased consumption of inclined plates and the inability to use heat-transfer fluid to remove heat.

The closest to the technical essence of the solution is a wall enclosure that includes a casing with thermal insulation, a screen separated from them and a screen located in the interlayer, irrigated by longitudinal inclined plates with bent sides facing through the screen and thermal insulation.

The disadvantage of this design is the low efficiency of using solar energy for heating water, heating buildings and saving heat. In the heating season due to the opacity of the outer screen and the uniform flow of heat transfer fluid on the right and left inclined plates. The purpose of the invention is to increase the efficiency of the structure by using solar energy and saving heat to heat buildings and heat water. After the goal, the goal is achieved by using a wall enclosure that includes a casing with heat insulation fixed on it and a screen separated from them by an air gap, a system of liquid longitudinal inclined plates with bent sides, interconnected through one to the screen and heat insulation, interlayer, the screen is made of selectively transparent in the spectrum of solar radiation plates placed in one or more layers with the formation of stripes (they, while the inclined plates facing the screen are deformed baths with watering of ledges along the slope of the cascade and are blackened from the upper side, in addition, the upper of the inclined plates can be facing the slope towards the wall. Fig. 1 shows a vertical section with a wall fence; Screen The proposed wall restriction consists of a sheathing 1, made and durable waterproof material, a layer of thermal insulation p. 2 and a closed porous moisture resistant material is attached to the sheathing i. In the air gap 3 between the thermal insulation 2 and the screen 4 there are plates 5 and 6 inclined to the thermal insulation and the screen with drop-breaking sides 7. On the upper side of the inclined ones: plate 5 there is a water-dispensing pipe P, with sabken perforation 9, and below the bottom plate there is the water collecting forehead 10. The outer screen 4 is made of selectively transmitting plates with transparent transparency in the spectrum of solar radiation, placed along the fence in one or more layers with the formation in the latter case of layer-by-layer cavities between them. The plates 6, inclined to the screen 4 and arranged in a common sequence of plates through one facet facing the sun's rays 12, itHM faces 12, are blackened and deformed along the slope to form a water retaining slope along the slope of the cascade. eight . and the BepxHHJt of the inclined plates 5 is sloped towards the wall. At the bottom of the screen 4, an adjustable outlet 13 with a valve 14 is made, and in the upper part of the screen there is a similar outlet 15 with an adjustable valve 16. The water distribution pipe 8 can be connected to a source of heated liquid coolant by means of an adjustable valve of a known type. As a source of heated coolant, a stream of warm water from industrial heat generating units, combined heat and power plants, geothermal and other sources can be taken. Installation of the proposed wall fence is made element by element or from pre-assembled panels. The proposed device works as follows. When exposed to the limit of solar radiation rays 12, penetrate through the translucent. the screen 4, heat the plates 6 and the air in the layer 3, thereby reducing heat loss through the fence on sunny days in the heating season. With intensive irradiation and an excess of solar heat heating plate 6 above some threshold temperature, include the flow of liquid, bones, water, water, through tube 9 perLloration 9. Water runs through the less heated plates 5 relatively quickly and slowly deforms the deformed plates 6, bleeding And assimilating the sun's heat. The heated water through the catchment chute 10 enters the hot water supply system of the building to consumers or to a heat accumulator, from where it can be recycled for subsequent additional heating. In cloudy winter weather or at night in the heating season, the proposed fence can work passively, then all air ducts 13 and 15 are closed, and the sealed air gap 3 increases the total thermal resistance of the wall. If there is a source of heated water in the vicinity of an object equipped with the proposed fencing, for example, a channel of heat waste waters of CHP or other industrial units, these waters can be fed directly through an intermediate heat exchanger of a known type into the water-expanding pipe 8. Consistently washed plates 5 and 6, they they heat the wall and rooms, including in the absence of the sun and during the night, the heating season. The use of the proposed wall fence will increase the efficiency of using solar energy structures, provide heat savings for heating buildings and heating by solar radiation freely penetrating through a selectively transparent screen, by increasing the heat absorption capacity of blackened inclined plates and reducing the rate of water flow through them.

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Claims (1)

1. WALL FENCING,> including a casing with heat insulation attached to it and a screen separated from them by an air gap, a system of longitudinal irrigated longitudinal inclined plates with bent sides