SU1467337A1 - Solar-heat collector - Google Patents

Abstract

The invention relates to devices for the use of solar energy in the stabilization of mp in confined spaces. The purpose of the invention is to maintain a constant level t-ry ys t-ry ambient air. In case I with a gable roof 2 there is a container 3 filled with heat-accumulated material. The solar collector 4 is located on the roof 2. Condensation zone 6 heat pipe 5 is located in collector 4, evaporation zone 7 is located in tank 3 located in the upper part of housing I. The latter is installed on movable base 8 and has heat insulation through heat insulation 9 and maintaining the temperature in the case at the same level. is produced by the latent heat absorbed by the heat of the accumulated heat of the material in the container 3. The installation of the container in the upper part of the body improves its isothermality. 1 il. (L

Description

The invention relates to solar technology, and more particularly to devices for using solar energy to stabilize temperatures in closed volumes.

The purpose of the invention is to maintain a constant temperature level below ambient temperature.

The drawing shows a solar bridge, general view.

The heliothermostat contains a housing 1 with a gable roof 2 located in it with a capacity of 3, filled with heat-accumulating material, a solar collector 4 located outside the housing 1 and a heat pipe 5. The solar collector 4 is installed on the gable roof 2, heat pipe condensation zone 6 5, the evaporation zone 7 is located in the collector 4, 20, in the tank 3, and the latter is located in the upper part of the housing 1. The housing I is mounted on a movable base 8 and has thermal insulation 9. The tank 3 is equipped with fins 25 25 and the collector 4 is insulated 11. The collector 4 has an the learning surface 12 and the transparent coating 13. The solar collector 4 is made sec.

The heliothermostat works as follows.

At night, part of the electromagnetic radiation from the surface is 12 35 (collector 4, the wavelength of which (corresponds to the transparency windows (of the atmosphere, does not return 'back to collector 4. This causes an imbalance between the energy emitted and absorbed by collector 4 of energy. As a result, the temperature of the radiating surface 12 begins to decrease.

Due to the temperature difference between the collector 4 and the tank 3 in the heat pipes 5 installed between them, diffusion flows of a vaporous agent arise, which, when condensed in the condensation zone 6 connected to the collector 4, and evaporates in the evaporation zone 7 located in the tank 3, heat transfer from the tank 3 to the collector 4, from there 55 to the atmosphere through radiation. Condensate is returned to the evaporation zone 7 in a heat pipe 5, for example, by means of a wick structure (not shown).

The temperature of the tank 3, from which heat is removed by the heat pipe 5, is first lowered to the solidification temperature of the heat storage material. Further, during the entire night period of the day, the heat-accumulating material hardens and the temperature in the housing 1 is maintained at a predetermined level by cooling the finned tank 3 and compensating for heat from the outside through thermal insulation 9.

In the daytime, the temperature of the collectors 4 rises and can become higher than the ambient temperature. It is therefore advisable to block the solar radiation exposure for this period, for example, by means of curtains (not shown).

In the afternoon, the heat pipe 5 does not function. Compensation of heat influx from the outside through thermal insulation 9 and maintaining the temperature in the housing 1 at the same level is due to latent heat absorbed during melting of the heat-accumulating material in the tank 3.

During the night period, the described processes are repeated.

The installation of the tank 3 in the upper part of the housing 1 can increase its isothermality.

I

The system can be used to create air conditioning systems for residential and industrial facilities.

Claims (1)

Claim A heliothermostat containing a housing with a gable roof, a container located in it, filled with heat-accumulating material, a solar collector and a heat pipe placed outside the housing, distinguishing with the fact that, in order to maintain: a constant temperature level below ambient temperature, the solar collector is installed on gable roof, the condensation zone of the heat pipe is located in the collector, the evaporation zone is in the tank, and the latter is located in the upper part of the housing.