SU1638488A1 - Solar collector body portion - Google Patents

Abstract

The invention relates to solar technology, to the field of solar collectors. The invention allows to improve the performance and thermal performance of the solar collector body. It is made in the form of a single element of foam glass with reinforcement of the walls 2 with inlet and outlet pipes. The surface of the working cavity is glazed and can be reinforced with a ceramic bath, for example, their heat-resistant porcelain. Such an embodiment makes it possible, due to the properties of the material, to reduce heat loss, increase radiation thermal resistance, and reduce scale deposition. 2 hp f-ly, 1 ill.

Description

The invention relates to solar technology, namely to solar collectors. .

The purpose of the invention is the improvement of operational and thermotechnical qualities.

The drawing shows an isothermal projection of the collector, the housing of which has a fence reinforced from the side of the working cavity with a ceramic bath,

The housing comprises a guard with a bottom 1, side walls 2 made at the same time with it and guide projections 3 on the side of the working cavity 4 and inlet and outlet pipes 5 and 6 fixed to the walls 2 of the fence. The bottom 1 and walls 2 are made of foam glass and from the working side the cavities are reinforced with a ceramic bath 7, for example, of heat-resistant porcelain. Bath 7 inside is glazed. In the absence of a bath, the surface of the walls 2 and the bottom 1 are covered with glaze after preliminary coating.

The protrusions 3 are performed during the molding of the bottom 1 of the fence or bath 7 by known methods and are arranged in a checkerboard pattern. At the same time, fillers of granular foam glass, expanded clay, asbestos, stelovata, slag, heat-insulating ceramic materials can be added to the foam glass of the selected viscosity poured into a mold (not shown). This allows you to lighten the structure, increase its resistance to chemical, thermal, radiation, reduce heat loss through the fence due to the physico-chemical properties of these materials.

To protect the housing during transportation and installation work, a thin layer 8 of sealant or other elastic coating is applied to the outer surface of the bottom 1. and walls 2. The thickness of the walls 2 and the bottom 1, the amount of filler are selected from the conditions of thermal insulation. The housing may be made in the form of a support module. the required area of the solar energy collector by series or parallel connection of several 5 modules, ·

A solar collector having said housing operates as follows.

Through the pipe 5, the coolant is fed into the cavity 4, where the protrusions 3 form the flow of the heated coolant. The latter, having warmed up, is discharged through the pipe 6.

.... The execution of the collector body of foam glass with a reinforcing bath 7 or without it allows to reduce heat loss through the walls 2 and the bottom 1 of the fence due to the high thermal insulation characteristics of the foam glass and increase the life of the collector due to the radiation, chemical and thermal stability of the materials used. This is especially important when installing the collector on the roof of a building or structure (not shown).

Claims (3)

Claim 1. The case of the solar collector, comprising a guard with a bottom made at the same time as side walls and guiding protrusions from the side of the working cavity of the collector and reinforced inlet and outlet pipes, characterized in that, in order to improve operational and heat engineering qualities, the fence is made of foam glass, and its surface is glazed from the side of the working cavity. 2. The housing according to claim 1, with the fact that the guard from the side of the working cavity is reinforced with a ceramic bath. 3. The housing according to claim 2, characterized in that the bath is made of heat-resistant porcelain. TO