RU2003100291A - HOLY INSTALLATION OF HOT WATER SUPPLY AND ITS SOLAR COLLECTOR - Google Patents

Claims (17)

1. A solar hot water supply system comprising a solar battery, which includes at least two solar thermal collectors interconnected by a pipe, a storage tank, a pipe for supplying water from the storage tank to the solar battery, a hot water drain pipe from the solar panel to the storage tank, the cold water supply pipe to the storage tank, the hot water discharge pipe from the storage tank to the consumer, the cold water supply pipe to the storage tank and the water supply pipe from the ba The a-battery in the solar battery is connected to the bottom of the battery tank, and the pipeline for draining hot water from the solar battery to the battery tank and the pipe for draining hot water from the battery tank to the consumer are connected to the upper part of the battery tank, characterized in that each from the collectors of the solar battery is equipped with an individual thermal sensor and an individual pipeline for removing hot water from it through a connecting pipe, and at the intersections of the pipes and pipelines there are shut-off valves stroystva, the water supply conduit of the storage tank in a solar cell provided with a water pump, a storage tank of the heat exchanger comprises two different volume: greater - for water for heating, less - for water suitable for household use. 2. The solar hot water supply according to claim 1, characterized in that it is equipped with a software electronic device that controls the heat sensors, the electric motor of the water pump and shut-off devices. 3. Solar power hot water supply according to claim 1, characterized in that the solar collectors are fixed at the place of operation with the possibility of rotation relative to the axis and horizon. 4. Solar power hot water supply according to claim 1, characterized in that the solar collectors are installed at the site of operation at an angle of inclination to the horizon, which corresponds to the angle of inclination of the sun to the horizon for a given period of time. 5. The solar hot water supply system according to claim 1, characterized in that at the place of operation part of the solar collectors is installed on the wall of the building with their orientation from east to west, and the rest of them on the roof of the building. 6. Solar power hot water supply according to claim 1, characterized in that the solar collectors can be made of any geometric shape. 7. Solar water heating plant according to claim 1, characterized in that the ratio of the volumes of the heat exchanger with hot water for heating and the heat exchanger with hot water for domestic purposes is 4: 1. 8. The solar hot water supply system according to claim 1, characterized in that the storage tank and the piping for removing hot water from the solar collectors to it are coated with a layer of thermal insulation. 9. A solar thermal collector comprising a transparent upper panel, a heat-insulating layer, a heat-absorbing panel made in the form of a set of parallel metal pipes for a heat-transfer fluid connected to the lower surface of a metal radiation-absorbing sheet, characterized in that it further comprises a supporting heat-insulating panel located under the heat-insulating layer, and metal parallel pipes of the heat-absorbing panel are pressed into a metal beam-absorbing sheet, and the reference heat oizoliruyuschaya panel insulating layer, a transparent heat absorbing and top panels are sealed to each other in a rigid structure design, and the top and bottom of this construction, metal or plastic profiles are fitted along the perimeter. 10. The solar thermal collector according to claim 9, characterized in that the metal parallel pipes pressed into the metal beam-absorbing sheet are located along the short sides of the sheet and are interconnected by pipes located along its long sides. 11. The solar thermal collector according to claim 9, characterized in that the beam-absorbing sheet of the heat-absorbing panel is made of aluminum with a black or selective coating on the outer surface, and metal pipes pressed into it with a liquid coolant are made of copper. 12. Solar thermal collector according to claim 9, characterized in that it is made with two holes on its outer end faces for supplying and discharging liquid. 13. The solar thermal collector according to claim 9, characterized in that in winter, a mixture of water and antifreeze or a similar product in a 1: 1 ratio is used as the heat transfer fluid. 14. The solar thermal collector according to claim 9, characterized in that rubber gaskets are placed between the panels and the insulating layer along the perimeter of the solar collector. 15. Solar thermal collector according to claim 9, characterized in that the supporting heat-insulating panel, the heat-insulating layer, the heat-absorbing and transparent panels are interconnected into a rigid structure by mechanical means, for example using bolts. 16. The solar thermal collector according to claim 9, characterized in that the supporting heat-insulating panel is made of wood, plywood, particle board or plastic and other similar materials. 17. The solar thermal collector according to claim 9, characterized in that the thermal insulation layer is made of foam, glass, mineral or basalt wool or products made of it.