SU1557310A1 - Wall-type enclosure - Google Patents

Abstract

The invention relates to construction and can be used for buildings constructed in areas with sharp fluctuations in daily temperatures in both summer and winter. The purpose of the invention is to provide self-regulation of the thermal protection of the fence in different periods of the day and year. A special feature of the design is that in the air gap 4 of the fence between the thermal insulation 3 and the screen 5 there are placed plate elements 6 in the form of closed containers that have a cross-sectional shape that resembles an inverted helicopter, which are eccentrically fixed along their axes 7 on the frame 1 of the enclosure so that, when the tanks are filled to a certain level with liquid 8, the latter, when evaporating, is able to turn the containers up to contact with each other, and when condensed, to return to the horizon Flax position to the stop 9, the image of this closed air spaces. In addition, the lamellar elements 6 with tg g 12 interact with the valves 11, opening them in the hot period and closing in the cold. The heat resistance of the enclosure can be enhanced by a heat-reflecting coating of the outer surfaces of the lamellar elements 6. At the lamellar elements 6, there are compensatory inflatable balls 13 on the side of the larger arm. 3 hp f-ly, 2 ill.

Description

The invention relates to construction, namely to wall protections, and can be used in areas with sharp fluctuations in daily temperatures.,.

The purpose of the invention is to provide self-regulation of the thermal protection of the fence in different periods of the day and year.

Figure 1 shows the proposed wall fence; Fig. 2 is a detail of a part of the enclosure with a plate element.

Wall barrier contains frame 1, skin 2, heat insulation 3, air gap 4, screen 5, lamellar elements 6, axes 7, liquid 8, stops 9, air vents 10, valve 11, bars 12, inflatable balls 13, worn on the filling hole gang 14, ti gi 15, which unite plate elements 6.

The plates are made in the form of closed containers and have a cross-sectional shape resembling an inverted helicopter. They are made by molding them separately into two parts and followed by welding or gluing. As a liquid, there may be aqueous solutions, friezes, freon and other types of non-combustible liquid substances, which are used depending on the desired mode of operation of the wall enclosure.

Wall fence works as follows.

In the initial position at low temperatures, the lamellar elements 6 are located horizontally in a state of equilibrium between internal and external forces relative to axis 7, the liquid 8 is in a condensed state. The horizontal position of the plate elements 6 on the axis x 7 is also insured by the stop 9. In this position, the air gap 4 is divided by the plate elements 6 into separate confined spaces. The vent holes 10 are closed by valves 11 due to tam 12, properly connected with the plates and valves.

The closed air gaps in this case create a certain resistance to heat transfer and thereby improve the heat-shielding qualities of the fence. As the insolation intensity increases, the air gap 4 heats up through the screen 5. The lamellar elements 6 are also heated, absorbing the heat of the air, and the liquid 8, respectively, is heated up with a gradual upward evaporation. Due to the eccentric fixing of the plate elements 6 on the axes 7, the resultant forces from the vapor pressure are displaced from the axis 7 towards the thermal insulation, and the center of gravity of the fluid itself moves somewhat towards the screen 5, as a result of the addition of forces x 7 planted on ball bearings, the plate elements 6 are rotated into a vertical position before contact with each other

 Together with the rotation of the plate-like elements 6, the ventilation openings 10 are opened and the flow of heated air from the screen 5 rushes through the ventilated cavity of the air vent.

five

0

five

puff 4 up and out, lowering 1 thereby further heating the inner surface of the fence. This is also facilitated by the non-ventilated part of the air gap 4, which is formed between the thermal insulation 3 and the surface of the vertically positioned lamellar elements 6, since this interlayer has heat transfer resistance. The solar radiation voltage is also removed by the ongoing process of further evaporation of the liquid. bones 8, up to its complete evaporation, as well as the reflection of radiant heat by the heat-reflecting coating of the surfaces of the lamellar elements 6. As a result, during the hot period of the day all the wall fence elements purposefully work to reduce heat gains to the room. Such functioning of the wall fence in cold and frying periods of the day allows to improve the microclimate for any period of the year with less material costs for its construction.

F

0

five

0

five

0

formula of invention

1. A wall enclosure including a frame, a casing with thermal insulation fixed on it, an air gap between them, an air vent layer and vents, valves installed in the air gap, inclined lamellar elements with liquid and plugs connected to the valves, characterized in that, in order to provide self-regulation of the thermal protection of the fence in different periods of the day and year, the lamellar elements are made in the form of closed tanks, having in cross-section the shape of an inverted helicopter and centrically fixed to the frame using axes so that when tanks are filled to a certain level with liquid, the latter, when evaporated in a closed volume, ensures that the containers turn around their axes until they come in contact with one another and form a ventilated air gap; containers in the original horizontal position and the creation of a closed air gap, and the plate elements in the horizontal position are fixed by means of stops fixed to the casing e.

P

fig 1

Compiled by V.Kozlov Editor I.Gorvat Tehred M.Hodanich

Order 705

Circulation 389

VNIIPI State Committee for Inventions and Discoveries at the State Committee on Science and Technology of the USSR 113035, Moscow, Zh-35, Raushsk nab. 4/5

Proofreader N. Revska

Subscription

Claims (4)

Claim 1. Wall enclosure, comprising a frame, sheathing with heat insulation attached to it, a screen separated from them by an air gap with ventilation holes and valves in them, inclined plate elements with fluid and traction connected to the valves installed in the air gap, characterized in that, in order to ensure self-regulation of thermal protection of the fence ^! '· At different periods of the day and year, the plate elements are made in the form of closed containers having a cross-section in the form of an inverted helicopter and eccentrically fixed to the frame using axes so that when filling containers to a certain level with liquid, the latter. volume ensures rotation of the containers around their axes until they come into contact with one another and the formation of a ventilated air gap, and when water vapor condenses, the tanks return to their original horizontal position the creation and creation of a closed air gap, and the plate elements in a horizontal position are fixed by means of stops fixed to the skin. 2. The fence according to claim 1, characterized in that the valves are connected to the plate elements by means of rods. 3. The fence according to claim 1, characterized in that the plates are connected between each other by means of vertical rods, 4. The fence according to claim 1, characterized in that the plate elements from the side of the larger shoulder are equipped with compensatory inflatable