RU55942U1 - MIRROR COLLECTOR - Google Patents

Abstract

The mirror collector is designed to convert the radiant energy of the sun into thermal energy, that is, due to sunlight, the heat carrier is heated: water, oil or another working fluid, which then heats the room or other working substance. Due to the mirror surface of the first and second glass, directed inward, the light flux from the Sun, reflected from the base of the collector also mirrored, will not be able to leave the collector, which means it will additionally heat the working fluid, both in the visible range of electromagnetic waves and in the infrared, ultraviolet, and a primary chamber filled with air interferes with heat transfer. Due to internal mirrors, the temperature of the working fluid increases, and hence the efficiency.

Description

The proposed utility model relates to energy, and more specifically to the conversion of solar energy into heat, for use in everyday life, or in production for the purpose of consumption or heating.

The solar energy of the collector is converted into heat by heating the working fluid, these include hydraulic, air, mixed, etc. There are many solar plants GVU-400, 800; SK-01-04; Rainbow-2M; VCA; KMZ, etc. all of them convert the radiant energy of the sun into heat by heating the coolant flowing through the collector. They can be used both in single-circuit and in double-circuit systems with natural or forced circulation of the coolant.

Collectors transform both direct and dissipated solar energy, are installed stationary, and do not require mechanisms for tracking the sun. The closest prototype is the Rainbow-2M solar installation or an advanced IED.

The proposed utility model increases the efficiency of the collector, that is, increases the temperature of the working fluid and the volume of the substance or room, by reducing reverse heat loss.

This goal is achieved by reducing heat loss due to the mirror layer of glasses, of which the collector is made, directed inward, the mirror layer prevents heat from radiating to the outside, that is, radiation is reflected from the base of the collector and glasses back to the side of the working fluid.

The device is a two-chamber (three-layer) double-glazed window. The first chamber is filled with air and is a heat insulator. The second chamber is filled with coolant (water, glycerin, antifreeze, etc.), is a heat sink. The outer and middle glass are made of glass with a one-sided mirror layer with a mirror surface directed inward towards the coolant. Sunlight penetrates through the outer and middle glass and heats the coolant.

The sun's rays heat the coolant, and a temperature difference arises between the coolant and the outside air. The temperature difference reaches significant values, on a winter sunny day at an air temperature of -20 ° C, the temperature of the coolant reaches 50 ° C, that is, the temperature difference will be 70 ° C

The device operates as follows: Sunlight - 1 (infrared, ultraviolet, etc.) penetrates through glass - 2. where air is heated - 10, and part penetrates through glass - 4 and heat the working fluid 11 (glycerin, antifreeze, etc. ) part of the sunlight reaches the base of the collector - 6, heat it, and some part is reflected towards the mirror surface of the glass 5 and 3, the reflection of the sunlight shines on the mirror surface of the glasses, and it again heats the air - 10 and the working fluid - 11, which means the temperature Wednesday 10 and 11 rises. The windshield 2, the inner 4 and the base 6, are enclosed in the housing 7. The base 6 is covered with an insulating layer 8. The heat carrier 11 enters through the nozzle 9 and exits through the upper nozzle 12, where the room or radiator heats up, or the second heating system is heated.

Claims (1)

A collector containing a two-chamber frame, with a three-layer double-glazed window, having an external insulation, and an air cushion between the first, outer, and middle glass, and between the second and third - a heat carrier that absorbs solar heat penetrating through the first two glasses, characterized in that the glasses are made with a one-sided mirror layer directed inward toward the coolant, transmitting light in one direction, prevent the outflow of heat and light outward, increasing the efficiency of the device and the temperature of the coolant.