NL8303491A - Sun-blind for building - has flexible hoses expanding at increased pressure of filler media to keep louvres at correct distance - Google Patents

Abstract

The sunblind unit fits between the wall (20) and a radiator (21) which has a casing (22). Filler media is supplied through an inlet (23) and discharges via a pipe (24). Both pipes are connected by a flexible hose (25) which enters the bottom louvre carrier(8). All louvre carriers are interconnected by hoses. The louvre pivoting control (27) is fitted at the top ridge of a window (28). The louVre control functions automatically, and the filler media may also be used for cooling. The flexible hose arrangement permits fitting inexisting old buildings.

Description

* * 835119 / Timmers

Short designation: Collector sun protection system.

The invention relates to a collector awning system comprising hollow blades connected to heat exchange medium channels.

Such a system is known per se.

In this known system, the hollow slats communicate with fixed channels for the heat exchange medium arranged on either side of the slats. Although the slats can of course be placed in a position where you can see through the sunblinds, the 10 slats cannot be hidden from view by pulling up, which is often perceived as a nuisance, in particular because the slats do not, as with the usual awnings can be made of very thin material, but must necessarily have a thickness of a few 15 millimeters.

The invention overcomes this drawback. According to the invention, at least a part of the channels present between the lamellae is formed by flexible hoses which expand when the overpressure occurs in the medium circuit and keep the lamellae at a mutual distance.

When the system is not in operation, the circuit 1d uk can be connected to the ambient atmospheric # which makes the connection hoses compressible and the slats either pull up or descend into a pile on the floor; in both cases they are hidden from view. If a slight overpressure is maintained in the circuit, the slats maintain the normal operating position.

In a preferred embodiment, each slat with its respective ends is received in two slat carriers, each consisting of a central chamber communicating with the medium hose into which a bore opens to receive a cylindrical "trunnion connected to the slat, which is provided with a the slat-opening medium-35 channel.

8303491 t 2

Preferably, each slat carrier is further provided with a projecting guide piece received in a guide path.

Preferably, the guideways of a sun-shading unit arranged in a space are arranged between a heating radiator and the wall containing the window to be screened. As a result of this measure, the slats are completely hidden in the non-active position of the system.

An additional advantage of the use of flexible hoses is that the path described by the slats from the non-active position to the active position does not necessarily have to be a straight path, so that the system can be adapted to any situation and in particular can be installed in existing buildings.

The invention is elucidated with reference to the drawing.

Fig. 1A is a top view of a slat used in the collector system according to the invention;

Fig. 1B is an end view of such a slat; FIG. 1C is a section on line I-I in FIG. 1A;

Fig. 2A is a top view of a slat support with a portion of a slat attached thereto;

Fig. 2B shows two 1-blade carriers, connected by a medium hose, in the working position; FIG. 2C shows a number of slat carriers in the storage position of the slats;

Fig. 3 is an end view of a complete window shading unit mounted in front of a window.

The slat shown in Fig. 1, indicated in its entirety by reference numeral 1, consists of the slat body 2 and the two end pieces 3. As Fig. 1C shows, the slat body is preferably manufactured from aluminum hollow; the side facing outwards in the closed state is preferably provided with a dark-colored coating with a high absorption coefficient; the slats are preferably lightly colored on the inside.

8303491 t * - '4 »3

The length of the slat can be e.g. 100 cm at a thickness of 3 mm. The end pieces 3 secured to the slat body can be injection-molded from a suitable plastic or aluminum; each end piece 3 consists of a body part 4 and a cylindrical pin 5 provided with grooves 6 for receiving sealing rings.

Each slat is carried by two slat carriers, shown in top view in fig. 2A and in side view in fig. 2B and 2C; these too can be manufactured by injection molding from a suitable plastic or aluminum. Each slat carrier 8 has a central chamber 9 with receiving part 10 for the cylindrical end 5 of the slat end piece 3. The sealing is provided by O-rings 12 arranged in the grooves 5.

Furthermore, each slat carrier carries one or more laterally 15 projecting guide piece (s) 13 fitting into a guide track 14.

Supply and discharge of the heat exchange medium, which is a gaseous medium, e.g. air, may be effected via flexible hoses 15 included between the lamella carriers 8. These hoses 20 may consist of a heat-resistant textile material, e.g. from Kevlar or Aramid fibers. When the heat exchange medium present in the solar control system is brought to a small overpressure (eg a few tenths of a bar), the slats assume the working position shown in Fig. 2B, in which the slat carriers and thus the slats are at a normal distance from each other. The whole is then rigid enough to operate the slats with a normal tilting mechanism. When the overpressure is released into the system, the slat carriers drop by gravity to the storage position shown in Fig. 2C.

In a practical embodiment, the slat carriers have a height of 40 mm; when using 15 slats, the total height of the stack, including the hoses in the compressed state, is 652 mm. A sun blinds unit made up of 15 slats therefore takes up little space and fits under a normal windowsill.

Fig. 3 shows a side view of a complete sun shading unit; For the sake of clarity, only a limited number of slat carriers and slats are shown in this figure.

8303491 4

The unit is received between the wall 20 and the radiator 21 around which the casing 22 is arranged and is completely obscured in the inoperative position. The medium is supplied via the supply line 23 and 5 is discharged, via the line 24; both conduits are connected to a flexible hose, one of which, the hose 25, is visible in Fig. 3. This hose opens into the lower slat carrier 8. The different slat carriers are separated from each other by hoses 15 as shown in Figures 10B and 2C; in the non-active position they rest on the support ring 26. The guide track 13 is not drawn and only schematically indicated by the dash-dot line 13a.

The tilting mechanism for the slats is schematically indicated by 27 and is located at the top edge of the window 28. Naturally, this mechanism can also be located at the bottom of the unit.

The operation of the collector awning system can of course be fully automatic as a function of sunlight and temperature, whereby the slats can also be used for cooling by circulating a cold medium. The circuit is brought to a slight overpressure, so that the slats rise up from behind the radiator 21 in the working position, the slat angle 25 being determined by the tilting mechanism 27. The path to be described by the slats does not necessarily have to be a straight path: the the use of flexible hoses 15 makes it possible for the lamellar track to deviate from a straight line, which makes it possible to adapt the system to all occurring conditions and also to install it in existing buildings.

- Conclusions - 8303491

Claims (4)

1. Collector awning system comprising hollow slats communicating with heat exchange medium channels, characterized in that at least a part of the channels present between the slats are formed by flexible hoses which expand when the overpressure occurs in the medium circuit and keep the slats at a mutual distance . System according to claim 1, characterized in that each slat with its respective ends is received in two slat carriers, each consisting of a central chamber communicating with the medium hose into which a bore opens to receive a cylindrical, with the slat connected trunnion equipped with a medium channel that opens into the slat. 3. System according to claim 2, characterized in that each slat carrier is provided with a protruding guide piece received in a guideway. 9 System according to claim 3, characterized in that the guideways of a sun shading unit arranged in a space 20 are arranged between a heating radiator and the wall containing the window to be screened. 83 0 3 4 S 1