NL1002156C1 - Sunblind using reflective liquid - Google Patents

Abstract

Two or more parallel plates (5,6) are sealed to each other along their peripheral edges to form a watertight joint. The chamber formed between them for the liquid is connected to a storage tank (1) and a pump (9). The tank can contain reflective liquid, and can be connected to the bottom edge, while the pump is connected to the top one. The plates can be coated with transparent liquid-repellent material at their sides towards the chamber, and the liquid can contain light-reflective particles. The shade can form part of the roof or wall of a greenhouse.

Description

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SUN PROTECTION M.B.V. REFLECTIVE LIQUIDS

The invention relates to a solar shading system, which offers an easily controllable shading. The fencing effect is realized by means of

5 a reflecting liquid, which is located between transparent surfaces.

The degree of screening is determined by varying the liquid height between the transparent surfaces, (max shielding is determined by the liquid).

Current shielding installations are based on mechanical structures, which move a shielding fabric between spaces to be shielded and the radiation source. There are a number of drawbacks to these systems. Screen cloth and installations are complex and expensive. They require a lot of maintenance on tissue and installation.

THE PRINCIPLE

15 The proposed sun protection principle is based on a liquid that has highly reflective properties. This liquid is sucked up, for example, by applying an underpressure between two transparent surfaces. By regulating the underpressure, the liquid height can be accurately controlled and thus the amount of radiation, for example in greenhouses or other spaces. The mechanical behavior with a negative pressure system is also much more controllable. The liquid is, for example, in a storage reservoir which contains enough liquid for a horizontal section of, for example, a part of a greenhouse. The underpressure is created, for example, by a vacuum pump, which must be able to maintain an underpressure of approx. 0.2 Bar compared to the outside pressure for a section height of 2 meters. However, if this height is to be maintained, the underpressure will have to be controlled by a feedback system to compensate for differences in the specific gravity by heating due to the concentration of the reflective material.

The minimum transmission can be determined with the concentration of the reflective material. The maximum transmission occurs when all liquid has flowed back into the reservoir.

Liquid and transparent surfaces must have properties such that as little residue as possible remains on the glass when the liquid level is lowered. An additional advantage is the extra energy savings due to the insulating effect of the double glazing.

For example, by applying a coating, the properties of the transparent flat can be improved, such as improved heat insulation and improved properties that no residue remains on the transparent flat. For example, by using reflective particles that also have insulating properties, the thermal insulation can be improved with a closed screen.

The invention will be explained in more detail below with reference to the drawing, in which, by way of example, an embodiment of a sunblind by means of reflective liquids according to the invention are shown. In the drawing: figure 1 shows a perspective view of two parallel connected windows 45 figure 2 shows a cross section

The sunshade shown in Figures 1 and 2 has two transparent surfaces 6 with the space 10. Dependent on the underpressure produced by the vacuum pump 9.

-2-, and transferred via line 8, the liquid 5 will be drawn into space 10. If there is no underpressure, the liquid 5 is in the stock reservoir 1. Line 3 serves to transport the liquid from the stock reservoir to the free space between the transparent surfaces, and in the reverse direction. In an embodiment of the storage reservoir in Figs. 1 and 2, venting 2 will ensure that when the liquid height changes, no overpressure is created in the storage reservoir. Providing the vent with a filter prevents dirt from entering the liquid. The coatings 4 for optimizing the surface. characteristics.

The pane spacers 7 are to prevent the panes from bending to each other with a large pane surface area (caused by the underpressure).

As well as the installation, the type of glazing is not prescribed, and whether overpressure or underpressure is used to move the medium. Most importantly, there is a space between which the liquid can be located. Possibly with a second space for extra insulation or, for example, a second screen, figure 3 gives a cross section of this.

The sun protection shown in figure 3 has 3 transparent surfaces 1, liquid 20 2 and free space 3.

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Claims (7)

1. Sun protection system, characterized in that the system comprises at least two transparent, parallel plates which are liquid-tightly connected to each other along their circumferential edges and form a liquid space therebetween, a liquid-space-connected liquid reservoir and a pump connected to the liquid-space. Sun protection system according to claim 1, characterized in that the liquid reservoir comprises a light-reflecting liquid. 10 Sun protection system according to claim 1 or 2, characterized in that the liquid reservoir is connected to a lower peripheral edge, and the pump is connected to an upper peripheral edge opposite the lower peripheral edge. 15 Sun protection system according to Claim 1, 2 or 3, characterized in that the plates on the side facing the liquid space are provided with a transparent, liquid-repellent layer. Sun protection system according to any one of the preceding claims, characterized in that the liquid comprises light-reflecting particles. Greenhouse provided with a sun protection system according to any one of the preceding claims, wherein the sun protection system forms at least partly a roof of a greenhouse. Greenhouse provided with a sun protection system according to claim 6, wherein the sun protection system forms at least a part of the walls of the greenhouse. 10 02 1 56.