RU2730067C1 - Environmentally friendly ventilated enclosure of a building - Google Patents

Abstract

FIELD: construction.SUBSTANCE: technical result is achieved by a environmentally friendly ventilated enclosure of a building comprising a row of side walls of decorative barriers enclosed to each other with height H, of thickness Δ, each of which consists of a rectangular frame, upper, lower and side ends of which are closed by a mesh, front and rear sides are closed by horizontal planks inclined relative to the horizon at angle of 45°, facing with their outer edges on the front side upwards, on the back side – downwards and made of corrosion-resistant material, which form overall capacity, which is filled with pumice granules made from basic metallurgical slags, wherein the mesh cells diameters and the gaps between the planks are somewhat smaller than the minimum diameter of the metallurgical slag granules, frame is attached to the outer enclosure by fixtures such that between the inner wall of the decorative enclosure and the outer enclosure there is an air gap of width Δ, between the lower end of the above enclosure and the pavement surface – a slot with width of Δ, and under the lower end of the enclosure there is a storm sewer.EFFECT: invention can be used in fabrication of ventilated wall enclosures that allow to reduce heat inflows from outside air and simultaneously clean street air of harmful admixtures in regions of hot and humid climate.1 cl, 5 dwg

Description

The proposed invention relates to construction and can be used in the manufacture of ventilated wall fences, allowing to reduce heat input from the outside air and at the same time to clean the outdoor air from harmful impurities in regions of hot and humid climates.

A device is known - a layered panel of a ventilated wall fence, including a load-bearing inner layer (load-bearing fence) and an outer layer of concrete of a dense structure (decorative fence), reinforced with mesh reinforcement, a middle layer of coarse-porous material with through voids communicating with the atmosphere through a system of exhaust openings and channels. [RF patent No. 2221119, IPC E 04 C2 / 26, IPC E 04 B2 / 14, 2004].

The main disadvantage of the known device is the impossibility of absorbing harmful components (carbon dioxide, nitrogen oxides, sulfur oxides, soot, ozone, etc.) of street air, which reduces its environmental efficiency.

Closer in technical essence to the proposed invention is an air-cleaning ventilated building enclosure, which includes a row of decorative fences with a height H of a thickness Δ ₁ pressed against each other by the lateral ends, each of which consists of a rectangular frame, inside which is inserted a mesh rectangular container made of corrosion-resistant stable material, the container is filled with pumice granules made from the main metallurgical slags, the frame is attached to the outer fence with the formation of an air gap with a width of ∆ ₂ between the inner wall of the decorative fence and the outer fence, between the lower end of the fence and the surface of the sidewalk - a gap of width ∆ ₃ , and under the bottom end of the fence is a storm sewer [RF Patent No. 2633621, IPC E04F 13/075, 2017].

The disadvantage of the known air-purifying ventilated building enclosure is its rapid heating from sunlight during the hot period and the transfer of a significant amount of this accumulated heat to the surface of the external enclosure of the building, as well as insufficient cleaning of slag granules from contamination, due to the fact that during washing it with water it is mainly frontal layers of granular slag, as a result of which its efficiency decreases.

The technical result of the proposed invention is to improve the efficiency of the environmentally friendly ventilated enclosure of the building.

The technical result is achieved by an environmentally friendly ventilated building fencing containing a row of decorative fences with a height H and a thickness of Δ ₁ pressed against each other by the lateral ends, each of which consists of a rectangular frame, the top, bottom and side ends of which are closed with a mesh, the front and back sides are closed with horizontal ones, tilted relative to the horizon at an angle of 45 °, strips facing their outer edges on the front side up, on the back side - down and made of corrosion-resistant material, forming a whole container, which is filled with pumice granules made from basic metallurgical slags, while the diameters of the mesh cells and the gaps between the slats are slightly less than the minimum diameter of the metallurgical slag granules, the frame is attached to the outer fence with fasteners in such a way that there is an air gap of Δ ₂ between the inner wall of the decorative fence and the outer fence, between

the lower end of the aforementioned fence and the surface of the sidewalk is a gap of Δ ₃ width, and a storm sewer is arranged under the lower end of the fence.

FIG. 1-5 shows the proposed environmentally friendly ventilated building fencing (EVOZ): (Fig. 1-General view, Fig. 2 - longitudinal section, Fig. 3-5 - main units).

EVOZ contains a row, pressed against each other by the lateral ends of decorative fences 1 with a height H of thickness Δ ₁ , each of which consists of a rectangular frame 2, the top and side ends of which are closed with a mesh 3, the front and back sides are closed by horizontal, inclined relative to the horizon at an angle of 45 °, strips 4, facing their outer edges on the front side up, on the back side - down and made of corrosion-resistant material, forming as a whole a container 5, which is filled with pumice granules 6 with a diameter of 20 to 40 mm, made of basic metallurgical slag , while the diameters of the mesh cells 3 and the gaps between the strips 4 are slightly less than the minimum diameter of the granules of metallurgical slags 6, the frame 2 is attached to the outer fence 7 by fasteners 8 so that between the inner wall of the decorative fence 1 and the outer fence 7 there is an air gap 9 of width Δ ₂ , between the lower end of the fence 1 and the surface of the pavement a - slot 10 with a width of ∆ ₃ , and under the lower end of the fence 1 there is a storm sewer 11.

The work of the proposed EVOZ is based on the chemical composition of street air contaminated with harmful components of exhaust gases of motor vehicles (carbon dioxide, nitrogen oxides, sulfur oxides, soot, ozone, etc.), the concentration of which is highest in the surface layer of the atmosphere [L. F. Goldovskaya. Environmental chemistry. - M .: Mir, 2005, p.86-90, p.155], high solubility of carbon dioxide in comparison with other components of air in water [Chemist's Handbook, vol. III. - M. - L .: Chemistry, 1965, p. 316], the high rate of the oxidation reaction of NO in NO ₂ and SO ₂ in SO ₃ , which dissolve well in water with the formation of HNO ₃ and H ₂ SO ₄ , in the presence of ozone [Nenitssku K. General chemistry. - M .: Higher. School, 1958, p. 275; Kutepov AM et al. General chemical technology.- M .: Higher. School, 1985, p. 348], a high value of the modulus of basicity of granular metallurgical slag - the main metallurgical pumice, which is a material with a highly porous mechanically strong structure (compressive strength up to 2.7 MPa), consisting of calcium oxide, silicon oxide, aluminum oxide and partially magnesium oxide (CaO, SiO ₂ , Al ₂ O ₃ , MnO) with a basicity modulus of M> 1, which gives granules of metallurgical pumice 6 basic properties [Building materials. Directory. Ed. Boldyreva A.S. and others - M .: Stroyizd., 1989, p. 423; Domokeev A.K. Building materials. - M .: Higher. school, 1989, p. 163], allowing to sorb on their surface substances with acidic properties, which include harmful components of exhaust gases from automobile transport (NO _x , SO _x , CO _x ). In addition, based on their composition, metallurgical slags are resistant to the corrosive effects of acidic components in exhaust gases, are widely available and cheap. Nitrogen and sulfur oxides adsorbed from the street air in the pores of slag granules 6 have increased reactivity due to their interaction with the surface of the adsorbent – granules of slag pumice 4 [Nenitsesku K. General chemistry - M .: Mir, 1968, p. 298], therefore they are oxidized by oxygen at a rate higher than in the gas phase to form NO ₂ and SO ₃ readily soluble in water, which, in turn, interact with particles of acidified water remaining in the pores of granules 6 to form the corresponding acids HNO ₃ and H ₂ SO ₄ . In addition, fine particles (dust, soot, etc.) easily settle on the surface and in the pores of the granules 7, as a result of which, passing through them, the air is cleared of most of the harmful components. At the same time, the presence of inclined strips 4 on the front and back sides during the hot period protects the outer fence 7 from overheating, and when flushing with water (rain or flushing), it provides cleaning of the entire layer of slag granules 6 in the decorative fence 1.

The work of EVOZ is as follows. During a hot period, the inclined strips 4 on the front side of the fence 1 reflect part of the solar heat from it and thus reduce the amount of heat supplied to the external fence 1. Depending on the direction and strength of the wind, the outside air can flow (with weak wind or calm) into basically, into the air gap 9 between the decorative fences 1 and the outer fences 8 through the slots 10 located in the lower part of the decorative fences 1 (for example, at the base of the building) and partially passes through the open section of the slag granules 6 from the street side, moves along the air gap 9 from bottom to top, at the same time reducing the amount of heat coming from the sun's rays into the building, creating traction in the gap 9 and penetrates through the gaps between the rear slats 4, into pumice granules 6, where it is purified from a significant part of harmful components (carbon dioxide, nitrogen oxides, sulfur oxides , soot, ozone, etc.) and through the outer slots between the strips 4 of the front side of the fence 1 enters the pedestrian side of the street. In a strong wind, the street air, on the contrary, due to wind pressure enters the slag granules through the slots between the front slats 4 into the container 5, is cleaned of harmful components on the granules 6, comes out through the slots between the rear slats 4 from the container 5, and then along the gap 7 the purified air also enters the pedestrian zone of the street. At the same time, due to the presence of inclined slats 4 on the rear side of the fence 1, the air flow rising through the gap 9 is turbulized and more intensive heat removal from the outer fence 7 is carried out.

When the EVOZ activity drops, which occurs as a result of saturation of the granules with 6 harmful components, they should be regenerated. The regeneration process consists in washing the granules 6 with water from dust particles, soot and acidic water containing captured oxides of carbon, sulfur and nitrogen. Flushing can be forced - by irrigating decorative fences 1 with water supplied from a water supply network or tank trucks and natural - by flushing fences 1 with rainwater. At the same time, acidified water flowing into the storm sewer 11, due to the significant content of carbon dioxide in it, will contribute to the processes of photosynthesis [Komov VP and other Biochemistry. - M .: Bustard, 2004, p. 210] in the fields of irrigation of city treatment facilities.

During the rainy season or during regeneration, inclined strips 4 on the front side of the fence 1, the outer edges of which are directed upward, act as weirs and provide water flow into the depth of the tank 5, which washes all the slag granules 6 in it, and the inclined strips 4 on the rear side of the fence 1, the outer edges of which are inclined downward, also acting as weirs, provide a drain of water contaminated with impurities into the gap 9, where this water contacts the air flow coming from the slot 10 and rising through the gap 9. At the same time, part of the water as a result of this contact evaporates, taking heat away from the air, thereby reducing its temperature, as a result of which more intensive cooling of the outer fence 7 is carried out, the other remaining part of the water absorbs harmful impurities from this air and flows into the storm sewer 11.

The height H and the thickness Δ _{1 of the} decorative fence 1 is determined by the architectural features of the building, the zone of maximum gas pollution of the street air and the concentration of harmful substances in it. The width Δ _{2 of the} air gap 9 and the slot 10 Δ ₃ is determined from the conditions of its minimum heating in a hot period of time. In this case, the area of the slot 10 should be less than the area of the longitudinal free section of the granules 6 in the enclosure 1. For the purpose of decorating the decorative enclosures 1, the outer walls of the frame 2 and strips 4 of the front side of the enclosures 1 can be painted in different colors.

Thus, the proposed environmentally friendly ventilated fencing of the building ensures, in the hot season, along with a decrease in the heating of the outer fences of the building, the purification of street air from a significant part of the harmful components of exhaust gases from automobile transport (NO _x , SO _x , CO _x , soot, dust, etc.) , during periods of rains and leaching, in addition to cleaning the air and reducing the heating of the building - complete cleaning of the adsorbent from pollution.

Claims (1)

Eco-friendly ventilated building fencing, including a number of corrosion-resistant decorative fences pressed against each other by the lateral ends, each of which is made with a height H and a thickness of Δ ₁ and consists of a rectangular frame, inside which a rectangular container with ends and sides made of mesh is inserted, filled with a porous material, which is pumice granules made of basic metallurgical slags, the frame is attached to the outer fence with fasteners so that there is an air gap of Δ ₂ between the inner wall of the decorative fence and the outer fence, between the lower end of the fence and the sidewalk surface - a gap of width Δ ₃ , and a storm sewer is arranged under the lower end of the fence, characterized in that the front and back sides of the rectangular container of each decorative fence are closed with horizontal strips inclined relative to the horizon at an angle of 45 °, facing their outer rims on the front side up, on the back side - down and made of corrosion-resistant material, while the diameters of the mesh cells and the gaps between the strips are slightly less than the minimum diameter of metallurgical slag granules.

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