SU1155034A1 - Energy-active enclosure - Google Patents

Abstract

ESPROACTIVE OGRA) TSZENIYa, including carriers, selectively transparent glazing and an insulating layer with upper and lower adjustable products with air-overlap valves separated from it by air, characterized by the fact that, in order to improve the performance of fences, it is equipped with an adjoining valve, it is equipped with an adjoining valve. heat insulating layer on both sides of corrugated sheet skins, the coats of which form heat exchange channels communicated by means of adjustable valves to the atmosphere and This, and the adjustable products with the vent valves connect the heat exchange channels in pairs.

Description

The invention relates to the field of construction and can be used in wall fences and roofs of buildings with solar heating systems.

The aim of the invention is to improve the performance of the enclosure.

Fig, 1 shows the energy-active barrier, horizontal section; in fig. 2 - the same, with the valve position corresponding to a hot summer day, a vertical section; in fig. 3 - the same, with the position of the valves corresponding to :, a cold sunny day; Fig 4 is the same, with the valve position corresponding to the night time

Energy-active fencing, including carrier elements 1 (Fig. 2), thermal insulation layer 2 and separated

from it, an air gap 3, selectively transparent glazing 4, is provided with corrugated sheet skins 5 and 6 adjacent to the heat insulating layer 2 on both sides, the corrugations of which form heat exchangers 7 and 8, honapHo connected by adjustable products 9.

§

On the inner shelves of corrugated sheet selectively blackened casings

4 6 are installed adjustable bypass valves 10, which can

.. i alternately round off or open air access to the air ducts 9 or to the dotted openings 11 made in the supporting elements 1. In the upper and lower parts of the casing 5 there are dotted openings 12 equipped with adjustable valves 13.

Powered energy barrier as follows.

In sunny weather, solar rays 14 penetrate through the glazing 4, are absorbed by the selectively blackened skin 6, and scoop the air in the channels P, resulting in a natural convection. The heated air at the valves 10 blocking the openings 11 Ti of the opening ducts 9 enters through the upper products 9 into the channels 7, where it gives off heat to the casing 5 and through it to the room without coming into direct contact and not mixing with the room air ((Lng. 3) At the same time, the heat insulating layer 2 warms up at the same time, in the evening, when there is no irradiation, valves 10 block the air ducts 9, and valves 13 open the openings 12 in the casing 5 (Fig. 4).

from the room it penetrates from below into channels 7 and, heating up from layer 2, rises up and returns to the room through upper openings 12,

In the summer, in order to avoid overheating, valves 10 are lowered and shut off ducts 9, and openings 11 are open and through them channels 8 communicate with the atmosphere, providing external air circulation and removal of excess heat into the atmosphere (Fig. 2).

As a result of regulating, including fragmented, the circulation of the coolant, the performance of the enclosure is improved, and heating the room with warm air circulating in the closed system improves the hygienic qualities of the system.

Claims (2)

ENERGY-PROTECTIVE Fencing, including load-bearing elements, selectively transparent glazing and heat-separated from it by an air layer 2 ·> insulation layer with upper and lower adjustable products with air bypass valves, characterized in that, in order to improve the performance of the fence, it is equipped with corrugated sheet panels adjacent to the insulation layer on both sides, the corrugations of which form heat exchange channels communicated by means of adjustable valves with the atmosphere and the room, and adjustable products with air bypass valves pairwise connect the heat exchange channels.