RU79989U1 - SOLAR HEAT COLLECTOR - Google Patents

Abstract

The utility model relates to solar technology, namely to low-temperature solar collectors and can be used to heat the coolant due to solar energy. The objective of the utility model is to increase maneuverability, that is, to create a design that allows assembly in the factory and transportation to the installation and reinstallation site. The technical result is a reduction in heat loss and ensuring sufficient maneuverability. The technical result is achieved in that the solar collector has a thermally insulated metal body, a metal corrugated wall, painted black and fixed to the base of the body by welding. The solar collector has increased maneuverability, greater heat storage ability due to the use of phase transition heat storage material 5 in the corrugations, for example, paraffin B5 with T _melt. = 46 ° С and ΔН = 209.4 kJ / kg, it provides a fairly complete absorption of sunlight by water in the interfacial space, the corrugated surface of the wall 4, painted black, phase-transfer heat-accumulating material, reduces heat loss, since the collector body is filled with heat-insulating material .

Description

The utility model relates to solar technology, namely to low-temperature solar collectors and can be used to heat the coolant due to solar energy.

Known solar thermal collector [1], which contains a thermally insulated body having a transparent coating, side and rear walls, a partition that forms intermediate and storage cavities with the walls and coating. In the intermediate cavity there is an absorbing surface having channels, the inputs of which are connected to the heat carrier source, and the outputs are to the storage cavity, and heat exchange tubes, the output ends of which are in communication with the heat consumer, and the input ends with the storage cavity and are equipped with valves. Working capsules are installed in the accumulating cavity, filled with a heat-accumulating material with a phase transition and combined with each other using a common pipeline connected with the atmosphere. The storage cavity is in communication with the heat consumer and the heat carrier source.

The disadvantage of this invention is the complexity of the design of the collector and regulation of the coolant by means of valves and gate valves, low absorption capacity, since there is no direct sunlight on the coolant and on the heat-accumulating material.

The closest in technical essence is the solar collector [2]. The collector contains a housing consisting of asphalt concrete walls and a base made on a excavation on a mountain slope, a transparent cover guard, a transversely corrugated wall, a phase-transfer heat-accumulating material between it and the asphalt concrete base, water supply and drain pipes. On

the upper side of the collector has a roll of insulating material. The transverse corrugated wall is attached to the collector cover and to the base with studs, nuts, rubber gaskets and washers.

The disadvantage of this solar collector is the lack of maneuverability, that is, it can only be assembled on site and cannot be transported.

The objective of the utility model is to increase maneuverability, that is, to create a design that allows assembly in the factory and transportation to the installation and reinstallation site.

The technical result is a reduction in heat loss and ensuring sufficient maneuverability.

The technical result is achieved in that the solar collector has a thermally insulated metal body, a metal corrugated wall, painted black and fixed to the base of the body by welding.

A solar collector comprising a case with a transparent cover guard, a transversely corrugated wall fixed to the cover and the base, a phase-transfer heat storage material located between the corrugated wall and the base, characterized in that it is portable, while it has a thermally insulated metal case, a metallic black corrugated a wall fixed to the base of the body by welding.

Figure 1 shows a cross section of a solar thermal collector. It contains a heat-insulated metal case 1 having a transparent coating 2. The case is filled with heat-insulating material 3. A transverse corrugated metal wall 4, a phase-transition heat-accumulating material 5 between it and the heat-insulated base of the housing 1, supply pipes 6 and 7 of the heat carrier discharge. On the upper side of the collector there is a roll of heat-insulating material 8. Unlike the prototype [2], the mount

corrugated wall to the body welded. Fixing it to a transparent coating is no different.

The collector works as follows.

The coolant is supplied through the pipeline 6, in the inter-arch space below the collector. Passing from bottom to top, bypassing the corrugations and filling the space between them, it is diverted from the top of the collector through pipeline 7. Sun rays entering the installation pass through the translucent fence 2, are absorbed by water in the interfacial space, the black surface of the corrugated wall 4 and contains a phase-transition heat-accumulating material under it 5. Radiation reflected from the corrugated wall 4, from the housing of the base 1 is also absorbed by water. With an excess of solar radiation, energy is spent on heating and melting the phase-transition heat-accumulating material 5 in the corrugations, i.e. accumulated. During periods of lack of sun, water is heated due to the heat released during crystallization of the heat-accumulating material in the corrugations, and the collector is covered by a heat-insulating material 8, which is fixed at one end of the collector with one edge.

The solar collector has increased maneuverability, greater heat storage ability due to the use of phase transition heat storage material 5 in the corrugations, for example, paraffin B5 with T _melt. = 46 ° C and ΔH = 209.4 kJ / kg, it provides a fairly complete absorption of sunlight by water in the interfacial space, the corrugated surface of the wall 4, painted black, phase-transfer heat-accumulating material, reduces heat loss, since the collector body is filled with heat-insulating material .

BIBLIOGRAPHIC DATA

1. A.I. Elamanov "Solar thermal collector", patent No. 1513340, F24J 2/06, bull. No. 37, 1989

2. BD Babayev, VN Danilin "Solar Collector", patent No. 2230263, F24J 2/34, bull. No. 16, 2004

Claims (1)

A solar collector comprising a case with a transparent cover guard, a transversely corrugated wall fixed to the cover and the base, a phase-transition heat-accumulating material located between the corrugated wall and the base, characterized in that it is portable, while it has a thermally insulated metal case, a metallic black corrugated a wall fixed to the base of the body by welding.