SU863794A1 - Water-filled roof - Google Patents

Description

(54) WATERPROOF COATED

I

The invention relates to construction, in particular to building envelope fences, and can be used to protect buildings from overheating.

Flat water-filled coatings are known that contain a layer of water on top of the waterproofing layer 1.

But the waterproofing layer of such a roof absorbs a significant portion of solar radiation, which passes through a layer of water.

The closest to the technical nature of the invention is a water-filled coating with an opaque, perforated and placed in a layer of water with a sun-protective screen 2.

However, in such a roof, the screen does not protect the upper layer of water, so the thermal insulation properties of the water layer are not fully used.

The purpose of the invention is to increase the sun effect, increase the evaporation surface, water.

This goal is achieved by the fact that in a water-filled coating, including a sunscreen, the latter is made in the form of a layer of light hollow balls with a reflecting surface, submerged in water less than half its volume.

The balls can be made perforated and of a material with a specific weight less than four / under water.

FIG. 1 shows a fragment of the roof, a section; in fig. 2 - the same plan view.

The water-filled coating contains the carrier part 1, the thermal insulation layer 2, the waterproofing 3, the water 4 and the layer of light hollow balls 5 with a light-reflecting surface, on which there are holes 6.

The layer of light hollow balls with a light reflecting surface almost completely reflects sunlight, preventing water heating. With a dense arrangement of the balls, they perceive up to 90% of the radiation and only 10% of the surface of the water is located in the gaps and spaces between the balls. It becomes open, but only in direct sunlight, i.e., when the sun is at its zenith or close to

20 to this position. In the lower position of the sun, all the solar radiation is perceived by the balls.

The thermal insulating property of such a screen is provided by a three-layer design of a layer of balls, including the surface part of the shell of the balls, the air gap formed by the closed cavities of the balls, and the submerged part of the shell of the balls.

The reflective surface of the balls reflects most of the solar radiation falling on the roof. The low thermal conductivity of the material of the ball (for example, made of plastic) prevents the transfer of heat from the outer, surface part of its shell to the part immersed in water. The air gap in the cavity of the balls and the submerged part of the shell of the ball additionally isolate the surface of the water from solar radiation. Passing through such a protective screen, the energy of solar radiation is almost completely lost.

When the balls are immersed in water by less than half of their volume, the surface of the water is open for evaporation, which at the same time is covered from the solar radiation by the surface of the balls. When the ball is immersed for less than a quarter of the volume, the surface reaches 80% for evaporation.

Making the balls perforated from a material with a specific gravity less than that of water allows the liquid to evaporate from its entire surface, since through the holes in the lower, submerged part of the ball's shell, the water partially fills the internal cavity of the ball and freely evaporates. This is facilitated by the holes in the upper, above-water part of the ball shell, through which air exchange takes place.

Due to its shape, the balls are always evenly distributed over the entire surface of the water and are not piled on top of each other.

Such an embodiment of a sunscreen screen provides free evaporation of water, maximum heat transfer from the roof and the least absorption by the roof of solar radiation.

The use of this coating allows to reduce the consumption of roofing insulating materials, increase the durability of the roof and improve the microclimate of the room.

Claims (2)

1. A water-filled coating comprising a sunscreen, characterized in that, in order to increase the sunscreen effect. The screen is made in the form of a layer of light hollow balls with a reflecting surface, immersed in water in less than half the volume. 2. The coating according to claim 1, characterized in that, in order to increase the surface of the evaporation of water, the balls are made perforated from a material with a specific weight less than that of water. Sources of information taken into account in the examination 1.D tkov S.V. Architecture industrial buildings. M., “Higher School, 1976, p. 271. 2. USSR author's certificate number 579388, cl. E 04 B 7/00, 1976.