SU862636A1 - Wall enclosure structure - Google Patents

Description

In the alternative solution, attaching the drop-drop sides to the heat insulation and the screen.

The wall enclosure includes a skin 1, to which a thermal insulation layer 2 is attached. In the air gap 3 between thermal insulation 2 and screen 4 there are plastids 5 and 6 inclined to thermal insulation and the screen, equipped with autonomous drop-side boards 7. Drop-side boards 7 are made of a shaped profile and have a drainage chute 8 with apron element 9 bent to the side of the underlying inclined plate and located in the air gap 3 with a gap to the thermal insulation 2 and the screen 4, or respectively attached to the thermal insulation and screen. The inclined plates 5 and 6, as well as the drop-breaking boards 7, are fixed on the transverse vertical profiles x by one of the known methods, for example by welding. The fastening details are not shown in the drawings.

A water distribution pipe 10 is provided above the upper one of the inclined plates, provided with perforations 11, and a catchment groove 12 is arranged below the lower plate. Adjustable airways 13 are made in the lower part 4 and similar products 14 are made in the upper part.

Installation of the proposed wall fence is made of individual elements or panels.

The device works as follows.

The impact on the enclosure of uncomfortable radiation or thermal pressure includes the supply of coolant, such as water, through the perforation 11 of the water dispensing pipe 10. Water stacks with film jets on the upper inclined plate 5, fills the basket 8, then overflows through the lower edge of the chute along to the apron element, the next inclined plate 6 drops out and, after a series of similar cycles of stepping and overflow, corresponding to the number of inclined plates and intermediate troughs, falls into the lower drainage chute 12, and from there to etsirkul tion or to the consumer. When flowing jets of water, the plates and air are cooled in the air gap 3. The cooling effect is enhanced by inserting the lower edges of the plates into a mass of cooling fluid, which inevitably accumulates in the grooves 8, which, in addition to the high thermal conductivity of the material of the plates, additionally ensures a stable temperature of the plates close to heat carrier temperature. Air in the air gap 3, due to the formation of plates 5 and 6

in the trenches 8 of the hydraulic locks, receives additional turbzlizatsiyu when moving from the airways 14 to the airways 13 or in the reverse cycle, which causes the intensification of heat and mass transfer processes and increases the heat-shielding efficiency of the fence. In the cold season, the proposed wall fencing can provide room heating if a heated liquid coolant is supplied through pipe 10, for example geothermal waters, waste heat from thermal power plants, ground water or in contact with heat transfer fluid through an additional heat exchanger

antifreeze.

In extreme situations, for example, in the event of a fire in the immediate vicinity of the fence, the supply of non-combustible heat transfer medium or coolant

for example, water, through pipe 9 is turned on at maximum power, and the recirculation system can be shut off.

The proposed design allows to simplify the manufacture of the structure due to

For smooth standard sheets instead of profiled ones, reduce the cost of manufacturing the structure by using simpler production equipment for profiling stand-alone drop-breaking sides than profiling solid plastics.

Claims (3)

1. A wall enclosure including a casing with tenel insulation fixed on it, a screen separated from them by an air gap, and inclined plates irrigated with liquid arranged in a layer, equipped with drop-breaking elements, characterized in that, in order to simplify the construction and its cost, drop-breaking elements are made in the form of drainage gutters, having an apron bent to the side of the underlying plate, and installed under the lower edge of a calade of inclined plates. 2. Fencing according to claim 1, dated from the EU by the fact that the drop-breaking elements are attached to the heat insulation or to the screen. Sources of information taken into account in the examination 1. USSR author's certificate number 289300, cl. E 06B 9/24, 1977 .. 2. Aluminum structures, Stroyizdat, 1978, p. 99 3. USSR author's certificate in application number 2677666, cl. E 06B 9/24, 1978 (prototype).