WO1996032560A1 - Window assembly for screening and lighting inner rooms - Google Patents

Abstract

Window assembly for screening and lighting inner rooms. The object of the invention is on the one hand to sun-screen inner rooms and on the other hand to light inner rooms with an optimum light intensity. The light intensity may be regulated by means of sensors and a manual control, thus improving the physical and psychological well-being of the human being. The coloured lamps (7, 8) form a colour spectrum. The coloured lamps (8) protect against exposure to outer radiation. The coloured lamps (7) light the inner room. The light rays from the coloured lamps (7) hit the curved flat element (5) and are reflected into the inner room. In figure 2 is illustrated another solution that may be useful for very large surface windows. The design is similar to that in figure 1 but contains an additional cavity filled with a liquid (phosphorescent or the like). Electric pulses cause said liquid to shine at regular intervals. This window assembly offers a compact system to consumers, useful for inner rooms of dwelling and commercial buildings, cars, trains, aeroplanes, greenhouses, indoor gardens, and in future sun-screening devices.

Description

Window element for shielding and illuminating interiors

The invention relates to a window element for shielding and illuminating the interiors of buildings, vehicles and the like. Via the window opening, at least one transparent window surface being sealingly introduced into a frame inserted into the window opening.

In order to influence the incidence of light in a room or a visual shielding of the interior through the

To make window surfaces, opaque curtains or curtains, fixed or adjustable shutters and finally also glass panes prepared in various ways are used. With such glass panes, for example, the light incident from the outside is polarized and thus the incidence of light is partially or completely ruled out, or the reflection, the light transmission and the transparency of the glass surfaces are influenced accordingly by the applied layers.

ERSATZBLAH (RULE 26) Such measures are too expensive for a mere visual shielding of the interior. On the other hand, sun visors, blinds and the like cut the field of view outwards, or the view from the inside, as with curtains, is completely covered.

Finally, the incidence of light, if it is needed to illuminate a room, is considerably reduced by curtains, curtains or blinds if they are not pushed aside. Especially in public buildings, commercial buildings, rooms with large window areas or in vehicles, the technical effort for such devices is high. They are difficult to handle and are therefore often seen as annoying.

In addition, it is necessary to illuminate the interior of buildings, vehicles and the like with artificial light, provided that in the dark or strong shielding of the window surface to the outside with insufficient light can be expected in the room. For this purpose, appropriate lights are installed in the interior, which is ultimately associated with a considerable installation effort.

The invention is therefore based on the object of developing a window element which, on the one hand, ensures a screen from outside to inside and at the same time does not darken the interior or even serves to illuminate it.

According to the invention, the object is for a window element for shielding and illuminating the interior of buildings, vehicles and the like. Via the window opening, with at least one transparent window surface sealing in a frame inserted into the window opening

REPLACEMENT BLAπ (RULE 26) is introduced, solved in such a way that the transparent window surface is a flat element curved toward the interior, which is associated with lights attached to the convex side of the frame, radiating lights at an angle to the surface of the curved surface element.

In other words, the basic idea of the invention consists in using a pane curved towards the interior by means of artificial light hitting it in the immediate vicinity at an acute angle

To create a light reflection surface which, on the one hand, creates indirect, large-area room lighting from the window surface, which in normal daylight also corresponds to the natural light source in the room, and on the other hand results in a visual shield towards the interior at the created reflection level. Such a window element can be manufactured with simple means. It is user-friendly in terms of maintenance, repair and handling and allows a variety of application options, for example for residential and office buildings or other public buildings, means of transport equipped with windows, winter garden or greenhouses. The lights used to illuminate the room via the curved window surface can be designed in many ways, for example as fluorescent tubes or as point lamps. They can be directed from one side or from two opposite sides or from all sides of the frame onto the curved flat element. Individual or a plurality of light sources can radiate onto the curved flat element. The lights can be switched on manually or automatically - depending on the brightness in the room - via sensors. The Light sources can also be designed to emit colored light.

The curved, transparent flat element preferably consists of glass and can be curved in the form of a circular arc or lenticular to the interior. Furthermore, in order to increase the reflection effect, its convex side can be partially or completely provided with a reflective but transparent coating or else be treated in another way, for example in order to achieve a light-scattering effect

In an advantageous embodiment of the invention, additional color-tinting lights are located on the concave side of the curved flat element for further, in particular colored, shielding of the window surface on the outside. These color toning lights, which can also radiate white light, are also attached to the mutually facing inner surfaces of the frame.

In a further embodiment of the invention, the window element is designed as a double window, each with an outer or inner window glass surface arranged in the region of the outside or inside of the frame, sealingly integrated into the frame, the luminaires described above and the curved light-reflecting flat element being dustproof and moisture-proof are housed in the space formed by the two Fensterglasflacheπ

According to a further feature of the invention is located between the concave side of the domed

Flat element and the outer window glass surface formed a hollow body. This hollow body is

ERSATZBLAπ RULE26) in particular for the absorption of sunlight, filled with a color-tinted medium, for example gas or liquid. The medium can be provided with phosphorescent components in order to achieve a self-illuminating effect after appropriate exposure to light. On the other hand, the color in the hollow body can be changed electrolytically by integrating a corresponding liquid into a circuit. For this purpose there are electrical connections on the end faces of the hollow body. The color effect of the medium present in the hollow body can finally be intensified by arranging shielding lights which radiate from the end faces of the hollow body into the light-absorbing medium. This

Shielding lights also serve to excite the lighting effect of any self-illuminating substances present in the medium.

Further features and expedient developments of the invention are listed in the subclaims.

An embodiment of the invention is explained in more detail with reference to the drawing. Show it:

1 shows a window element to be introduced into a window opening of a building for illuminating or illuminating the interior and for shielding it from the outside; and

FIG. 2 shows the window element according to FIG. 1, but with a hollow body filled with a liquid medium for the additional absorption of incident light rays.

REPLACEMENT BLAπ (RULE 26) The window element 1 according to the invention consists of a frame 4, each with horizontal frame parts 4a and vertical frame parts 4b. On the front, outward (A) side of the frame 4 and on the rear, toward the interior (I) side of the frame 4, an outer window glass surface 2 and an inner window glass surface 3 are sealingly attached. Between these two window glass surfaces 2 and 3 there is a transparent, arched towards the interior (I), protected from dust and moisture influences

Flat element 5. In the space between the inner window glass surface 3 and the curved surface element 5, light rails are attached to the mutually facing inner surfaces of the horizontal frame parts 4a with lights 7 pushed onto them. The light beam from the lamps 7 is directed at an acute angle onto the outwardly curved side of the flat element 5 designed as a glass pane. The light S of the lights 7 emitted onto the convexly curved glass surface of the flat element 5 is reflected by this surface due to the mirror effect and is emitted in the form of reflected rays Sr into the interior (I). On the one hand, this results in indirect artificial lighting of the interior from the window - that is, in accordance with the normal incidence of daylight - and on the other hand, the mirror surface thus formed provides a visual shield from the outside inwards. The lights 7 are switched on according to the light requirement in the room or the brightness outdoors either by hand or automatically via sensors. Either only a few or all of the lights 7 can be switched on. In addition, the brightness of the lights is adjustable, and finally the lights can also be designed so that they give colored light to the interior

REPLACEMENT BLAπ (RULE 26) radiate and thus at the same time a special color effect is achieved on the outside of the window.

To increase the visual shielding effect, it is also possible, as shown in FIG. 1, to additionally arrange color-tinting lights 8 in the space between the outer window glass surface 2 and the concavely curved side of the transparent surface element 5. These tinting lights can also be switched independently of the lights 7 used for room lighting, so that in this case too, visual shielding from the outside is ensured. The light from the color toning lights 8 is not emitted into the interior. It goes without saying that light in different colors can also be used for the color toning lamps 8 - as with the lamps 7.

2 shows a further embodiment of the present invention. The window element 1 is constructed as described in FIG. 1. In addition, however, in the space remaining between the concave side of the transparent, curved flat element 5 and the color-tinting lamps 8, a hollow body 6 made of transparent material covering the entire area between the frame parts 4a, 4b is arranged. The hollow body 6 is filled with a light-absorbing, colored medium 10. In addition, 6 shielding lights 10 are attached to one or more end faces of the hollow body 6, the light beam of which is preferably directed directly onto the medium 10. The hollow body 6 with the medium therein serves primarily to shield the sun's rays. Furthermore, it provides a visual shield, and finally special coloring or light effects can also be achieved. For example, the medium 10 can be a phosphorescent,

REPLACEMENT BLAπ (RULE 26) be self-illuminating liquid, the lighting effect of which can always be excited anew at intervals by the shielding lights 9. On the other hand, the medium 10 can also be an electrolytic solution connected to a power source (not shown) in order to achieve color changes or changes in the color intensity corresponding to the strength of the sunlight to be absorbed by ion conversion under the influence of the electric current.

Further modifications of the exemplary embodiments described are readily conceivable. For example, it is possible to dispense with the tinting lights in the embodiment explained with reference to the figure, and a further embodiment variant could also consist in dispensing with both the tinting lights and the hollow body with the shielding lights.

REPLACEMENT BLAπ (RULE 26) Reference list

1 window element 2 outer window glass surface

3 inner window glass surface

4 frames

4a horizontal frame parts

4b vertical frame parts 5 curved, transparent surface element

6 transparent hollow body

7 Luminaire for light reflection / room lighting

8 color tint lamp

9 Shielding lamp 10 medium

A outside

I interior

REPLACEMENT BLAπ (RULE 26)

Claims

claims 1. Window element for shielding and illuminating the interiors of buildings, vehicles and the like. Via the window opening, with at least one transparent window surface being sealingly attached in a frame inserted into the window opening, characterized in that the transparent window surface is facing the interior (I ) is a curved flat element (5), to which are attached on its convex side to the frame (4) attached to the surface of the curved surface element (5) radiant lights (7). 2. Window element according to claim 1, characterized in that the surface element (5) is curved in a circular arc. 3. Window element according to claim 1, characterized gekennzeich¬ net that the surface element (5) is curved lens-shaped. 4. Window element according to one of claims 1 to 3, da¬ characterized in that the curved surface element (5) consists of glass. 5. Window element according to one of claims 1 to 4, da¬ characterized in that the convex side of the curved surface element (5) is partially or completely coated with a light-reflecting material or treated accordingly. 6. Window element according to one of claims 1 to 4, characterized in that the convex side of the surface element (5) is treated to achieve a light scattering effect, for example by etching. REPLACEMENT BLAπ (RULE 26) 7. Window element according to one of claims 1 to 6, da¬ characterized in that lights (7) are arranged which emit white light or light in different colors. 8. Window element according to one of claims 1 to 8, da¬ characterized in that there are provided as a light source fluorescent tubes or point lamps arranged on a light rail. 9. Window element according to one of claims 1 to 8, da¬ characterized in that on the convex side of the curved surface element (5) and separately from this tint lights (8) are attached to the frame (4) 10. Window element according to claim 9, characterized gekennzeich¬ net that the tint lights (8) are designed in different, but each uniform light color. 11. Window element according to one of claims 1 to 10, characterized in that the lights provided for room lighting (7) and the color-tinting lights (8) can be switched on and off automatically according to the outside brightness and regulated with respect to the light intensity. 12. Window element according to one of claims 1 to 11, characterized in that the tint lights (8), the curved surface element (5) and the obliquely directed to the convex side of the flat element (5) lights (7) between two on the frame (4th ) attached window glass surfaces (2, 3) are dust and moisture proof. REPLACEMENT BLAπ (RULE 26) 12 13. Window element according to one of claims 1 to 12, characterized in that in the space between the tint lamps (8) and the curved flat element (5) with a certain color tone medium (10) filled, transparent hollow body (6 ) is arranged. 14. Fensterelemeπt according to claim 13, characterized gekennzeich¬ net that the hollow body (6) consists of glass. 15. Window element according to claim 13 and 14, characterized ge indicates that on the end faces of the hollow body (6) the medium (10) illuminating shielding lights (9) are attached. 16. Window element according to one of claims 12 to 15, characterized in that the medium (10) located in the hollow body (6) is a liquid which can be tinted in different colors. 17. Window element according to one of claims 12 to 15, characterized in that the medium (10) is fluorescent or phosphorescent on the basis of self-luminous or afterglow phosphors. 18. Window element according to one of claims 12 to 15, characterized in that the medium is an electrolyte connected to a power source. REPLACEMENT BLAπ (RULE 26)