DE2749182A1 - Solar type room heating system - has heat exchange liq. circulated between window panes with glass which darkens in sunlight - Google Patents

Abstract

The room heating system using a form of solar heating, has an inner glass pane (3) and an outer glass pane (5) with a space (23) between them for circulating a heat exchange fluid. This is forced by a pump (17) through a bottom opening 7) for discharge through a tap opening (9) to a room heating unit (15). Both glass panes incorporate a substance which becomes dark when subjected to sunshine, so that a large amount of heat is absorbed from the sunshine. In an alternative design, a third glass pane (25) is mounted outside and the space (27) between it and the outer pane (5) subjected to vacuum or filler with an inert gas. This gives better insulation.

Description

Process for temperature control of a building using solar

energy as well as windows for carrying out the procedure.

The invention relates to a method according to the preamble of claim 1 and to a window according to the preamble of claim 3.

It is known to use solar energy for heating buildings and / or for heating water to use by placing so called solar energy collectors on the roof of a building that heat up when exposed to sunlight. The resulting heat is by means of a heat transfer medium, for example water, which flows through the collectors, dissipated and used in a heat exchanger for hot water preparation.

The invention is based on the object of a method for temperature control of buildings that are particularly effective and easy to implement Use of solar energy permitted.

This object is achieved with the features of claim 1. In which Methods according to the invention do not initially need to be additionally attached to a building Collectors required, but the windows that are already present can in particular on the south side of buildings. Due to the sun exposure subsequent absorption of solar energy in the window is first achieved that the room behind the window does not heat up so much. is darkened because with the light absorption through the window usually darkens the room goes hand in hand. The stay in the room becomes more pleasant. The heat carrier that the absorbs heat absorbed in the window, for example by means of a heat exchanger flow, in which hot water is prepared or fed to an air conditioning system in summer which, in the manner of an absorption cooling system, transfers the energy to the Grooving used.

According to claim 2, the heat carrier itself absorbs the solar energy, so that energy losses caused by heat transfer are largely avoided.

Claim 3 characterizes the basic structure of a window, as it is suitable for carrying out the method according to the invention.

According to claim 4, the window glass itself absorbs sunlight and thus has a similar color to Umbramatic glasses (manufacturer Zeiss).

With the features of claim 5 it is achieved that with modern Windows achieved thermal insulation between the interior and the environment through application of the method according to the invention; is not worsened.

In summary, the invention is particularly suitable for temperature control of @@ len provided with large glass surfaces with @@@ @n energy, on the one hand, when the sun is shining, the light entering the room is dampened, so that blinds are superfluous and on the other hand those by the attenuation of the light absorbed energy for heating or cooling the building or for hot water preparation is used.

The invention is explained below with reference to a schematic drawing for example and explained with further details in the single figure 1 shows a window frame comprising a pane of glass facing the interior of a building 3 and an outer pane of glass 5 holds directly. The frame 1 further has an inlet 7 and an outlet 9 to which lines 11 and 13 are connected, which are connected to a heat exchanger 15. A pump 17 is arranged in the line 11. Hot water lines 19 and 21 go from the heat exchanger.

The glass panes 3 and 5 are made of a material such as silver halide offset, .that darkens when exposed to sunlight. The system of heat exchanger 15, lines 11 and 13 and the space 23 between the glass panes 3 and 5 is with liquid, for example Filled water, which is circulated by means of the pump 17. Dark in the sunshine the glass panes 3 and 5, the energy absorbed is from the circulating liquid transported into the heat exchanger 15.

In the figure, shown in dashed lines, is an advantageous one existing outermost glass pane 25, which opposite the glass pane 23 thermally is largely isolated, for example by the gap 27 between the panes 5 and 25 is under vacuum and / or filled with noble gas. This embodiment the window has the advantage that the window continues to be thermally against the environment isolated, but still effectively absorbs solar energy. In a modified one not embodiment shown could be between the glass panes 3 and 5, a further, be arranged on both sides by liquid rinsed glass pane, which is the only one Is designed to absorb sunlight. This has the advantage that the absorbed Energy is almost completely dissipated from the liquid.

The liquid itself can also contain sunlight-absorbing materials be added.

The heat exchanger 15 can be integrated into a heating and / or cooling system as it is common with conventional solar energy collectors.

L e r s e i t e

Claims (5)

P A T E N T A N S P R O C H E 1. Procedure for temperature control of a building using solar energy, characterized in that windows are used that absorb and label more and more light with increasing exposure to sunlight in that the absorbed energy is at least partially applied to a length of the window surface flowing heat transfer medium is transferred. 2. The method according to claim 1, characterized in that the heat carrier Contains a material that turns darker in color when exposed to sunlight. 3. Window for performing the method according to claim 1 characterized in that the window is at least double-glazed and the space (23) between the two glass panes (3.5) sealed and with an inlet (7) and an outlet (9) for connection. is provided to a liquid flow. 4. Window according to claim 3, characterized in that at least a pane of glass (3, 5) contains a material that darkens when exposed to sunlight. 5. Window according to claim 3 or 4, characterized in that the Window is triple glazed, which is used to connect a liquid flow Space (23) is arranged between the innermost and central glass pane and the Space (27) between the outermost and the middle pane of glass with poor thermal conductivity is.