RU95114648A - HEAT COLLECTOR WITH CONCENTRATION OF SUN RAYS, GLASS, CONCENTRATING SUN RAYS, AND WITH A VACUUM INTERLAY, SIBERIAN HOUSE WITH HEATING FROM HELIOENERGET - Google Patents

Claims (6)

1. A heat collector with a concentration of sunlight, including a housing with mirrored side surfaces, heat-resistant thermal insulation, a heat exchanger, one or two layers of transparent semiconductor thermal insulation, concentrating glass or concentrating vacuum glass, characterized in that the sun's rays passing through the concentrating glass are concentrated in a line to the working surface of the heat exchanger, creating local high-temperature areas that can be moved, depending on the changing angle of incidence of sunlight and, thereby, the coolant is heated to a temperature sufficient to heat residential premises at low solstice angles in the winter.  2. Glass concentrating the sun's rays, representing a sheet with formats similar to Gostovsky for window glass, with longitudinal linear lenses across the sheet, characterized in that a specific purpose is given for its use (see paragraphs 1 and 3) with the following parameters: focal length 100 - 300 mm, lens width 40 - 150 mm, the minimum thickness in the hollows between adjacent lens sections is 4 - 6 mm, the composition of the glass for infrared radiation or for light radiation or organic glass.  3. Glass, concentrating the sun's rays, with a vacuum layer, including concentrating glass (see p. 2) with linear protrusions of 1 mm radius on the bulges of the lenses, a sheet of glass with a semiconductor transparent thermal insulation of the same format in pairs, sealed with a vacuum inside, characterized in that that its specific use is given (see p. 1), and with the goal of higher thermal insulation, a vacuum layer is provided inside between the sheets, achieved after the edges are coated with a hardening adhesive, glass and pumping in zduha through fitting.  4. Vacuum glass, including a sheet of window glass with point-glued glass balls with a radius of 2 - 3 mm, a sheet of window glass of a similar format, paired with a vacuum inside, characterized in that the thermal insulation of this glass is higher when the balls are staggered with a grid of 40 - 50 mm ensures the passage of light rays with insignificant point shading, acceptable without distortion, and it becomes possible to use it as a window with a single glazing.  5. A Siberian house with heating from solar energy, including light-weight panel and shield walls, a heat collector with a concentration of sunlight is mounted on the external walls on the south side, the walls are closed with vacuum glass on the other sides with a minimum layer of fireproof thermal insulation between them, window openings with a single vacuum glass glazing, characterized in that only sufficient strength requirements are imposed on the outer walls, and thermal insulation is carried out by vacuum glass and thermal insulation torus, heat supply due to the heat collector with a concentration of sunlight, in which the heat exchanger is attached to the brackets in the upper part of the building, the glasses are concentrated to a rack fixed to the brackets in the upper and lower parts of the building, which allows for a building (wall) height of up to 6 m to make the heat exchanger integral (sectional) with a height of 6 m and a length along the width of the wall, vacuum glasses on the other sides are mounted on rails mounted on the walls, some of which are plowed in the warm season, providing valves uw. 6. Siberian house with heating from solar energy, including lightweight panel walls, covered with glass from the outside with a vacuum layer with semiconductor transparent thermal insulation, characterized in that while reducing heat loss through the walls several times they serve as working surfaces in the heat collector heat exchanger and they accumulate, transfer heat under solar radiation, the heat deficit is compensated by centralized solar systems, in the summertime 10 - 20% of the glass on the outside walls of the smell 180 ^o , shading the wall, reducing heat input to it.