DE2639354A1 - Solar energy collector - with sensitive plate in evacuated space between two protective shields and in point contact with them - Google Patents

Abstract

An energy-absorbing plate is located between two transparent shields, the space between these being evacuated. The plate is formed with projections so that contact between it and the shields is at points or lines only. For solar energy absorbers with liq. or gaseous heat transfer media. Low heat losses and simple construction are obtd. Specifically the energy collector plate is flat and is formed with channels for the heat transfer fluid. It lies in the evacuated space between two transparent shield which are sepd. by spaces to withstand the external atmos. pressure.

Description

Flat solar energy collector Addition to patent ...

(Patent application P 25 55 015.6) The invention relates to a flat Solar energy collector with a radiation-absorbing surface that is connected to a duct or piping system equipped for a heat transport medium and inside an evacuated space formed by two cover plates is arranged, according to the patent ... (patent application P 25 55 015.6).

In the patent ... (patent application P 25 55 015.6) is a flat Solar energy collector described in which the radiation-absorbing area from the transparent pane covering the collector through an evacuated space is separated. In a special embodiment there is the radiation-absorbing one Area in the interior of a cavity formed by two cover disks, which evacuates is, the absorber surface on both sides by spacers opposite the panes is supported. These support systems take over from the atmospheric pressure outside forces resulting from the system0 In order to minimize losses through heat conduction to get, is in the patent that the support systems both the absorber surface and also the cover disks, if possible, only point-like or linear touch. This training ensures the lowest possible loss of power but on the other hand causes high voltage peaks at the contact points or lines with the cover disc.

These voltage peaks bring with it the risk that at the same time occurring thermal expansions can break the cover plates.

The object of the present invention is to avoid the voltage peaks as a result of punctiform contact surfaces, a Zelç disturbance of the solar energy collection to prevent and at the same time the heat conduction losses between absorber and cover plates to reduce.

This object is achieved according to the invention in that the two Cover panes against each other by support systems that touch the panes over a large area, are supported, and that the radiation-absorbing surface so inside the evacuated space is arranged that opposite the cover plates and / or the supporting Systems only consist of almost punctiform contact surfaces, those of atmospheric Forces are independent. The radiation-absorbing surface can be used on both sides Knobs be provided by which the surface is supported against the cover disks is, the surface itself provided with holes is through which the systems supporting the cover disks are guided through without contact. These holes in the radiation-absorbing surface are different in terms of their size and their distance from each other chosen so that even with the greatest possible thermal Expansion of the absorber surface, there is no contact with the support systems.

However, the radiation-absorbing surface can also be attached to some of the support systems be loosely attached.

On the one hand, through the extensive contact between the cover plates and the systems supporting them against one another, on the other hand, are made by The forces occurring at atmospheric pressure are transferred to larger areas and so that the compressive stress peaks are reduced without causing greater heat conduction losses occur when care is taken that either between the support systems and there is no contact whatsoever on the absorber surface or only on some of the support systems almost point or line contacts take place.

In the latter case, the direct contacts between the absorber surface and the cover plates avoided by means of the knobs described above will. Since only the weight of the absorber plate has to be absorbed, one can use only very few supports get by, so that for this reason, too, the losses be reduced by conduction.

A certain disadvantage of the large contact surfaces between the supporting Systems and the cover plate facing the sun can be seen in the fact that this Contact surfaces act like heat sinks. However, this can avoid this disadvantage be that the contact surfaces are colored themselves and thus increased Absorption for solar radiation is an increased supply of heat, or that the supporting Systems Get a shape that has a low heat flow between the rear and front Cover pane guaranteed. This allows a uniform temperature throughout the whole of the Sun facing cover disk can be achieved.

Another advantage of the inventive design of a flat Solar energy collector can be seen in the fact that in series production the collector a simplification in the manufacturing process can be achieved. In addition the two cover disks in the edge area are initially connected to one another on three sides connected vacuum-tight. Then the absorber plate provided with the support systems inserted between the cover disks, the support systems because of the Friction on the cover disks at the rear edges - seen in the direction of insertion create the guide bores. Are the protective systems finally in their final position, then the cover disks are pressed against each other to the To fix support systems in their position. The absorber surface can then go so far be withdrawn until the support systems and the through-holes are concentric lie to each other. Finally, the absorber surfaces are then fixed, both of them Cover plates connected vacuum-tight on the fourth side and the entire system evacuated.

In the event that the cover plates are coated on their inside are - e.g. with interference mirrors - the procedure described is to be modified to such an extent that that there is no contact with the support systems while the absorber surface is being pushed in occurs between the discs and the support systems. This can be done, for example, by that the absorber surface vertically between the interconnected on three sides Cover disks is introduced, the cover disks themselves during this process be pulled apart slightly. The support systems are as a result their weight at the - seen in the direction of insertion - front edges of the feed-through bores invest.

In the accompanying drawings are some examples of schematically a planar solar energy collector according to the invention shown, namely show: Figure 1 shows a solar energy collector, in which the absorber surface by means of knobs opposite the cover disks is supported and Figures 2a a solar energy collector, its Absorber surface on and 2 b is attached to some of the support systems.

The two cover disks 1 and 2 are against each other by support systems 4 supported with relatively large contact surfaces 12. Take these support systems 4 the atmospheric pressure forces when the space between the cover plates 1 and 2 is evacuated. The absorber surface is between the two cover disks 1 and 2 3 arranged, which are supported with respect to the cover disks 1 and 2 by means of the knobs 5 is. In the absorber surface 3 there are channels 6 for a medium that dissipates the heat intended. Furthermore, the absorber surface 3 has holes 9 through which the support systems 4 are passed through.

The contact surfaces 12 between the support system 4 and the front, the solar radiation 13 facing cover plate 1 are colored around a local To avoid a drop in temperature in the cover disk.

In the solar energy collector according to FIGS. 2a and 2b, the absorber surface is 3 held by wire pins 11 on some of the support systems 10. This does not apply the knobs 5, which are shown in the arrangement according to FIG. Between the pens 11 and the absorber surface 3 occur only short linear contacts, so that In this case, too, heat losses through conduction remain very low.

- Expectations - L e r s e i t e

Claims (7)

Claims 1. Flat solar energy collector with a radiation-absorbing ½) Area with a duct or pipe system for a heat transport medium equipped and inside an evacuated room delimited by two cover panes is arranged according to patent ... (patent application P 25 55 015.6), thereby g e -k It is noted that the two cover disks (1 2) against each other by means of support systems (4), which touch the panes (1, 2) flat, are supported, and that the radiation-absorbing surface (3) arranged in this way in the interior of the evacuated space is that opposite the cover disks (1, 2) and / or the supporting systems (4) there are only almost point or line-shaped contact surfaces. 2. Flat solar energy collector according to claim 1, characterized in that g e -k e n It is noted that the radiation-absorbing surface (3) has knobs on both sides (5) is provided, through which the surface (3) is supported against the cover disks (1 2) is. 3. Planar solar energy collector according to claim 1 or 2 thereby g e It is not possible to indicate that the radiation-absorbing surface (3) has holes (9) is provided, through which the cover disks (1 2) support one another Systems (4) without Contact with the radiation-absorbing surface (3) are passed through. 4. Flat solar energy animator according to claim 3, characterized in that g e -k e It is noted that the bores (9) in the radiation-absorbing surface (3) are chosen with regard to their size and their distance from one another so that no contact even with the greatest possible thermal expansion of the absorber surface (3) occurs between this and the support systems (4). 5. Planar Sonnenenergiesamnler according to claim 1 or 2 thereby g e it is not noted that the radiation-absorbing surface (3) on some of the Support systems (4) is loosely attached. 6. Planar solar energy collector according to at least one of the claims 1 - 5, characterized in that the contact surfaces (12) between the support systems (4) and the cover plate (1) facing the sun are colored. 7. Planar solar energy collector according to at least one of the claims 1 - 6, characterized in that the support systems (4) are shaped in this way are that the heat transfer through them becomes very small. r