NL9302141A - Sun protection. - Google Patents

Description

SUN PROTECTION

The invention relates to a sun blind for substantially horizontal windows.

Mainly horizontal windows mean, for example, skylights in flat roofs or skylights in slightly sloping roofs.

Although horizontal windows generally provide very good light in the space below, they also give free access for solar radiation in the room. This can lead to an undesirably high light intensity locally, while, moreover, heating by direct sunlight is usually undesirable.

In view of these drawbacks, it is well known to provide the horizontal windows with a layer of lime, in order to prevent direct sunlight from entering. However, the amount of transmitted light also decreases sharply.

The object of the invention is now to provide a sunshade for substantially horizontal windows with which the direct sunlight can be prevented without significantly reducing the amount of incident light.

This object is achieved in a sunblind according to the invention as characterized in claim 1. Seen from the direction of the sun, the strip-shaped elements together cover the entire window, so that no direct sun radiation can occur through the window. However, the light from the air directly above the window is unobstructed, so that the desired good and uniform illumination of the space under the window is nevertheless achieved.

According to a further development, the measure of claim 2 is applied. Direct sunlight in the early morning or late afternoon is also prevented by this.

A suitable embodiment is characterized in claim 3. The strip-shaped elements support each other so that with a relatively light construction a firm whole can still be obtained.

Another possible embodiment of the awning according to the invention is characterized in claim 4. Such an embodiment is particularly suitable for round windows, such as round roof domes.

Roof domes are often used in a double-walled version. The invention can be applied in such a favorable manner as characterized in claim 5 with such roof domes.

A favorable further development is characterized in claim 6. By turning the strip-shaped elements so far that direct direct sunlight is prevented, the maximum light penetration is achieved without objectionable direct direct sunlight.

A suitable embodiment is characterized in claim 7.

The measure of claim 8 is preferably applied for optimum light penetration. This measure ensures that not only the light enters from the sky directly vertically above the window, but also light entering at an angle.

The measure of claim 9 achieves that heating of the space under the window is prevented to a significant extent. Only infrared radiation from the sky vertically above the window can enter the room through the window. Infrared irradiated infrared is largely absorbed by the surface of the strip-like elements, and thus does not reach the space below the window.

The invention will be further elucidated in the following description with reference to some exemplary embodiments shown in the figures.

Pig. 1 shows a perspective view of a sunshade according to the invention arranged above a skylight.

Pig. 2 shows in side view the partial section according to arrow II-II in fig. 1.

Pig. 3 shows the section according to arrow II-II in perspective view.

Pig. 4 is a partly broken away perspective view of another embodiment of the awning according to the invention.

Fig. 5 shows another favorable embodiment of the invention.

Pig. 6 shows a further development of the sun protection according to the invention.

Fig. 1 shows a sunshade 1 arranged above a skylight 2 which is arranged in a roof 3 of a building. This skylight 2 forms a substantially horizontal window with light from the sky above.

Sun protection 1 prevents direct sun rays from penetrating the window into the underlying space.

The sunshade 1 comprises a frame 5 of U-profile which is supported by four legs 4. Four frames 6 of strip-shaped elements are mounted in the frame 5.

As shown in Figures 2 and 3, each assembly 6 comprises a first group of strip-shaped elements 7 which, with their side faces facing each other, extend substantially equidistantly. In the exemplary embodiment shown, the strip-shaped elements are arranged vertically with their width direction.

The strip-shaped elements 7 are arranged at a distance 10 from each other such that the quotient of the height 11, which in this case is equal to the width of each strip-shaped element 7, and the distance 10 is at least equal to the tangent of the angle 8 under which the sun is at its highest position.

It will be clear from Fig. 2 that at the highest position of the sun, where the sun is at angle 8, the rays of the sun indicated by line 12 cannot yet pass directly between the strip-shaped elements 7. On the other hand, the light from above is unobstructed. Thus, a large amount of light can pass through the window 2 between the strip-shaped elements 7, but the direct sunlight is blocked. At lower positions of the sun, such as indicated by the angle 9, for example, direct sunlight cannot occur.

A fixed sunshade of the type as shown in Fig. 1, for example, will be arranged such that the strip-shaped elements 7 extend in the east-west direction. This means that early and late in the day the sun will lie more in the plane of the strip-shaped elements 7 and can therefore shine through between the strip-shaped elements 7. Therefore, in such a fixedly arranged embodiment, a second group of strip-shaped elements 15 is preferably used, which extends transversely to the first group of elements 7.

As shown in Fig. 3, at the intersection of the strip-shaped elements, the strip-shaped elements 15, 7 are each provided with slots extending over the upper and lower half-height respectively, and these strips 7, 15 are pushed together. The strip-shaped elements support each other for torsional loads, so that a rigid whole is obtained. The strip-shaped elements can be very thin and yet extend over a considerable length.

The sunshade 20 as shown in Fig. 4 uses the same principle, but has a different embodiment. Here, the strip-shaped elements which with their side surfaces face each other, extend with substantially equal mutual distance, are designed as concentric rings 22. Such an embodiment is particularly suitable for use with a round skylight 21. The mutual distance of the concentric arranged strip-shaped elements is such that the sun radiation at the angle 23, which can for instance correspond to the highest position of the sun, is blocked.

If it is desired to position the strip-shaped elements 22 higher towards the center, for example to adapt to the convex shape of the skylight 21, it may be desirable to choose the height of the strip-shaped elements on the south side higher than on the north side or the distance between the strip-shaped elements on the south side should be smaller than on the north side. Another solution is to have the height of all elements determined by the necessary distance and height on the north side. Only then can a uniform construction be obtained.

Fig. 5 shows a per se known double-walled skylight in which the invention is integrated. The light dome 35 includes an outer dome 36 and an inner dome 37 of less curvature. Between the outer dome 36 and the inner dome 37, an intermediate space is formed in which an amount of air is enclosed which serves as insulation.

In the space between the outer dome 36 and the inner dome 37, a number of rings 38, 39 are included, which form the strip-shaped elements which prevent direct sun irradiation. The assembly of outer dome 36, inner dome 37 and rings 38, 39 received therein is mounted as a whole on a stand 40, which is mounted on a roof.

An embodiment is shown in which the skylight has a square base. The rings 38, 39 will accordingly not have a circular shape, but a rectangular shape with more or less strongly rounded corners. The rings do not need to be attached to one or both domes 36, 37. The remainder are automatically confined in the space between the outer dome 36 and inner dome 37, which is becoming narrower and narrower.

In the embodiment of the sunblind 25 as shown in Fig. 6, the strip-shaped elements 27 are fixedly arranged, while the strip-shaped elements 26 of the other group are hinged parallel to their longitudinal direction. The strip-shaped elements 26 are slotted over their entire height at the intersection with the strip-shaped elements 27 and are connected at the bottom to a pivot shaft 29. The pivot shafts 29 are mounted in a lateral frame part 28.

Arms 30 are mounted on the ends of the pivot shafts 29 projecting outside the frame part 28 and are rigidly connected to the pivot shaft 29. The free ends of the arms 30 are hingedly connected to an operating rod 31. By moving the operating rod 31 back and forth in the direction of the arrow 32, all the strip-shaped elements 26 will swing back and forth in the direction of the arrow 33. As a result it is possible to adapt the position of the strip-shaped elements 26 to the position of the sun. In a low position of the sun, the strip-shaped elements 26 in Fig. 5 can be tilted further to the right and in a high position of the sun further to the left. The distance and height of the strip-shaped elements to be taken into account are then of course the horizontal distance from the top edge of one element to the bottom edge of the next element, while the height is the vertical height of the elements in their oblique position.

The driving means for rotating the strip-shaped elements 26 can for instance be coupled to a time control, which causes the strip-shaped elements 26 to be rotated according to the variation of the position of the sun during the day. An adjustment during the course of a year, taking into account the difference in the highest sun position between summer and winter, is also possible.

Claims (9)

Sunshade for substantially horizontal windows, comprising an assembly of a group of strip-shaped elements to be arranged parallel to the window and which extend with their side surfaces facing each other, with substantially equal distance and with the quotient of the height of the elements and their mutual distance is at least equal to the tangent of the angle at which the sun is at its highest position. Sunblind according to claim 1, wherein a second group of strip-shaped elements extends transversely to the first group of strip-shaped elements. Sunblind according to claim 2, wherein at the intersection of the strip-shaped elements they are provided with themselves. slots extending over the top and bottom half height and pushed together. Sun protection according to claim 1, wherein the strip-shaped elements form a number of concentric rings. Sun blinds according to claim 4, wherein the window is a double-walled roof dome and the concentric rings of strip-shaped elements are received between the two walls of the dome. Sunshade according to claim 1 or 2, wherein at least a number of strip-shaped elements of a group are hinged parallel to their longitudinal direction and drive means are provided for rotating these elements. Sunblind according to claim 3, comprising coupling means connected to the number of elements for causing all elements of the number to move synchronously. Sun protection according to one of the preceding claims, wherein the surface of the strip-shaped elements is of visible light-reflecting design. Sunshade according to one of the preceding claims, wherein the surface of the strip-shaped elements is infrared-absorbing.