UA65474C2 - Solar collector - Google Patents

Abstract

This invention relates to the branch of solar radiation engineering, in particular to collectors of solar energy. The solar collector has heat-absorbing panel formed by separate parallel elements. Each parallel element is arranged as elongated article. The cross-section of the article is as continuous closed contour forming pipe for heat carrier and closed at both ends of the element cavity. The cavity is filled with heat-accumulating substance. The outer surface of the element is heat absorbing surface. On two long sides of the element external long ribs are provided. Planes of those are parallel to the plane of heat-absorbing panel and placed with gap one with respect to another. This invention promotes decrease of the volume of heat-accumulation tanks and formation of different shapes of the heat-absorbing panel.

Description

The invention belongs to solar technology, in particular to collectors of solar energy and can be used in hot water supply and heating systems of domestic and industrial buildings.

Known solar collectors with an absorbing panel of sheet-tube construction, which are mass-produced in many countries of the world (see Collection of the European Heliotechnical Society "boiag SoPesiyuog:", Juogpigesni, 1985;

GOST 28310-89; Solar collector of the company "AFROS-AGRO", pyr:/Lymly.agoz-adgo.agipea.Pa/rgodysiv. sweat

Common to them is the use of tubular metal systems, flat absorbing surfaces with black or selective coating. The coolant circulates through the pipes that receive heat from the heat-absorbing panel and removes heat.

A significant drawback of these collectors is the high manufacturing complexity due to the presence of a large number of welding or soldering joints along the entire contact of the pipes with the plate, as well as the insufficient efficiency of converting solar energy into thermal energy due to heat loss.

In addition, the flat surface of a rectangular shape of large size leads to the difficulties of architectural and technological binding of the required number of solar collectors on buildings. And they also create an additional mass load on the structures of buildings on which the solar collector is placed.

Another drawback is the need for large-sized collectors in large-sized heat storage tanks. And in the case of using thermal accumulators with a phase transition (melting-solidification), such an accumulator itself is a complex and expensive device.

The closest in terms of technical essence is a solar collector containing a heat-absorbing panel of sheet-tube design, which is formed from separate parallel elements, which consist of a pipe with a coolant connected to the heat-absorbing surface of the element | see patent of Ukraine Me 20662A, IPC?

E2492/24, op. 27.02.1998, Bull. Mo 1 - prototype). Separate parallel elements of the heat-absorbing panel are made with a cylindrical surface in the form of a segment, to the lower inner surface of which a pipe with a coolant is mechanically (welded, soldered) fixed. The specified design of the solar collector due to the use of profiled segmental elements of the absorbing panel reduces heat loss and increases its efficiency.

The disadvantages of the known solar collector are: - the presence of a large number of welded or soldered joints along the entire contact of the pipes with the segmental element of the panel, which determines the high labor intensity of its manufacture; - individual elements of the absorbing panel form a flat surface of large size, which does not allow to ensure the variety of architectural forms of buildings; - the need to install large heat storage tanks; - placement of the solar collector on the structure of buildings gives them an additional mass load.

The task of the proposed invention is to improve the solar collector by changing the design of individual elements to reduce the labor intensity of their manufacture, to ensure the possibility of creating various architectural forms of structures, to reduce the volume of heat-accumulating containers and to reduce the mass load on the structure of structures.

The problem is solved by the fact that in a solar collector containing a heat-absorbing panel of leaf-tube construction, which is formed from separate parallel elements consisting of a pipe with a heat carrier connected to the heat-absorbing surface of the element, according to the invention, a separate parallel element of the heat-absorbing panel is made in the form of an elongated a product that has a cross-sectional appearance of a formed closed circuit, forming a pipe for the heat carrier and a cavity closed at both ends of the element, filled with a heat-accumulating substance, while its outer surface, on which solar radiation falls, is a heat-absorbing surface, and on it from two longitudinal sides are made of external longitudinal ribs, the planes of which are parallel to the plane of the heat-absorbing panel and are at a distance from each other, which ensures the presence of a gap between the ribs. In the preferred version, the heat-absorbing surface of a separate parallel element is flat and one of the outer longitudinal ribs is in the same plane with it.

A separate parallel element of the absorbing panel of the proposed solar collector is made by the extrusion method from aluminum alloy, which immediately forms a single, necessary profile. This makes it possible to simplify and perform the main structural elements of the collector from one material, using modern technological techniques, which leads to a reduction in the complexity of their manufacture.

The installation of the solar collector is carried out directly on the frame of the building. If the frame of the building has curved or (and) inclined upper or (and) lower elements, and the vertical elements have or do not have an inclination, then individual elements of the heat-absorbing panel are mounted parallel to the vertical elements of the frame. At the same time, the length of these elements is chosen in such a way that they are mounted on the upper and lower elements of the frame. And the fastening on the intermediate elements of the frame is carried out through the edges of the individual elements of the absorbing panel so that the edges of the adjacent elements are in different planes. If the frame of the building provides a cylindrical surface, then considering the small transverse size of the element of the heat-absorbing panel, the installation of the solar collector is carried out similarly.

In this way, it is possible to create various architectural options for attaching the solar collector to existing buildings, as well as wide architectural possibilities when designing new buildings.

In addition, if the solar collector is mounted directly on the frame of the building, then it acts as a wall or roof of the building and does not put an additional load on the frame.

Thanks to the formation of a cavity in a separate element of the heat-absorbing panel, which is filled with a heat-accumulating substance, the volume of heat-accumulating containers is reduced.

In general, the claimed solar collector can have a case, thermal insulation (top - transparent, bottom and side) or, at least, only a heat-absorbing panel assembled from separate parallel elements that are attached to the outer frame. The collector as a whole has nozzles for connection with other collectors and hot water pipelines.

In a cross-section, a separate element of a heat-absorbing panel can have a rectangular, square, oval or other shape.

The essence of the invention is explained by the drawings: Fig. 7 shows a cross-section of a separate element of a rectangular heat-absorbing panel; in fig. 2 - an example of installing a solar collector on a building.

The absorbing panel of the solar collector is formed from separate elements 1, made in the form of a thin-walled rectangular parallelepiped, one side of which is a heat-absorbing surface 2. In a separate element 1, a pipe C with a heat carrier and a cavity 4 for a heat-accumulating substance are formed. On the outside, on two opposite sides, in planes parallel to the heat-absorbing panel, longitudinal ribs 5 are made, offset from each other by a distance that provides a gap 6 between them.

The solar collector of the proposed design works as follows.

The heat carrier through the inlet pipe (not shown in the figure) enters the pipe C for the heat carrier of individual elements 1. The heated coolant through the outlet pipe (not shown in the figure) is supplied to the hot water supply pipelines. The heat carrier is heated due to the heat of solar radiation, which is absorbed by the heat-absorbing surface 2 of a separate element 1, from which it is transmitted through the walls of the heat carrier in the pipe and the heat-accumulating substance in its cavity 4. In the absence of solar radiation, the heat carrier is heated due to the heat accumulated in the heat-accumulating substance.

The collector is mounted directly on the frame 7 of the building (Fig. 2). The assembly is carried out with a threaded or screw connection 8 through a separate element 1 along its edges and through the ribs 5 on the intermediate elements 9 of the frame 7 of the building. Separate elements 1 are isolated from the frame with heat-insulating gaskets (not shown in Fig.). Individual elements 1 are connected hydraulically to each other by means of transitional couplings (not shown in Fig.). Rubber hoses in metal braid can be used as transitional couplings and to compensate for thermal deformations. If the length of individual element 1 is insufficient, it can be assembled with the help of transition couplings from several fragments.

Since the individual element 1 can be made of any length, the dimensions of the absorbing panel can be as required. Due to the fact that the ribs 5 of individual elements 1 are in a different plane and they can be mounted at different distances relative to the neighboring ones (in Fig. 1, adjacent individual elements are shown at the minimum and maximum distance from each other) and at different angles, it makes it possible to provide heat-absorbing solar collector panels of various sizes and shapes.

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Claims (2)

1. A solar collector having a heat-absorbing panel of sheet-tube construction, which is formed from separate parallel elements consisting of a pipe with a heat carrier connected to the heat-absorbing surface of the element, which is characterized by the fact that a separate parallel element of the heat-absorbing panel is made in the form of an elongated product, which, in cross-section, has the form of a formed continuous closed contour, forming a pipe for the heat carrier and a cavity closed at both ends of the element, filled with a heat-accumulating substance, while its outer surface, on which solar radiation falls, is a heat-absorbing surface and on it, on two longitudinal sides, external longitudinal ribs, the planes of which are parallel to the plane of the heat-absorbing panel and are at a distance from each other, which ensures the presence of a gap between the ribs. 2. The collector according to item I, which differs in that the heat-absorbing surface of a separate parallel element is flat and one of the outer longitudinal ribs is in the same plane with it.