DE3913552A1 - Conservatory roof made from transparent plastics panels - which have internal passageways for circulating heat absorbing liquid - Google Patents

Abstract

The roof of a conservatory or a greenhouse is made from panels of transparent plastic such as acrylic resin. The panels are hollow and have internal ribs which form passageways through which a coloured liq. is circulated. This liq. is usually water containing a black dye. The panel forms a shade for the conservatory or greenhouse and at the same time the liq. absorbs heat from the sun. The circulation of the liq. through the panel enables the heat to be utilised. USE - Utilisation of solar energy.

Description

The invention relates to a roof for conservatories, plants houses, patios and cladding for atriums and windows a transparent hollow chamber profile.

Fig. 1 shows a typical profile made of acrylic glass.

By sealing the chambers designated with K I and K II on the end faces of the profile elements and the arrangement of collecting channels V (orlauf) and R (return), which are transverse to the chambers and are connected to them by bores, solar collector elements are formed that are translucent when empty.

If shadows are required, the elements are included with a colored liquid (usually water with a black Dye) and are made opaque.

Fig. 2 shows a typical arrangement for automatic operation in its schematic structure.

The wiring element 1 covers a place where a temperature monitor 7 is located. If the temperature rises above a certain set value, an electrical control unit 6 switches on a vacuum generator 2 , which generates a negative pressure in the system.

On the open tank 5 , the colored liquid is sucked into the system until the level switch 10 in the vacuum storage container 3 causes the vacuum generator to be switched off. A check valve 11 prevents the system from being ventilated via the vacuum generator.

When the system is filled, FIG. 3, the liquid in element 1 is heated. By a line using the thermal buoyancy arrangement or by a circulation pump 8 , the liquid is circulated and passes into a heat exchanger 12 , where, for. B. domestic or heating water is heated and the collector liquid speed is cooled. It is then fed back to the shading element.

If the temperature monitor 7 permanently measures a lower temperature than selected, the magnetic valve 4 is opened and the liquid runs back into the tank 5 .

By using vacuum, the following are important Operating benefits achieved:

• - As a rule, no (colored) Leak liquid as no vacuum builds up or can hold.
• - The boiling temperature of the water is reduced so far that the operating temperature is compatible with the used Is plastics.

Claims (5)

1. Variable shading system for conservatories, greenhouses, other canopies, atriums and windows that consist of one or several transparent hollow chamber profiles, which with be flooded with a colored liquid and thereby one absorb a large part of the solar energy and as Supply thermal energy to the liquid, 2. characterized in that by ent speaking pipe connections the heated liquid one Heat recovery circuit is supplied (solar panel effect) and 3. characterized in that by ent speaking piping and control systems the shading system for fully automatic weather-dependent operation suitable is. 4. In addition to the claims according to 1, 2 and 3 Invention characterized in that by means of vacuum support the process of flooding the shading elements is carried out. 5. The variability is that

• 1. the chambers are flooded with the colored liquid only when shade is required;
• 2. the coloring of the liquid can be matched to special requirements in the absorption behavior with regard to the amount and color of light,
• 3. the chambers of the individual elements can be connected to different circles and by flooding individual circles a grid (lamination) and thereby a reduced incidence of white daylight can be achieved.