DE10033711A1 - Shade, especially for shielding film roof segment against sunlight, comprises structures which can be filled with fluid to reduce volume in between them - Google Patents

Abstract

The shade (1) is formed by adjacent transparent or opaque fluid-tight structures (4, 5), which can be filled with fluid in order to alter the structure volume. When two adjacent structures are full with fluid, the gap between them is reduced or preferably eliminated.

Description

The invention relates to a shading device, especially for darkening a film roof segment.

Shading devices are used in particular Film roof segments of film houses needed to counter this shielding incoming sun rays. Foil roof segments have the advantage that they are very low Own weight and inexpensive to manufacture are.  

Shading devices for are from the prior art Foil fields known, which by means of curtains Shade the film fields or the film roof segments.

According to another state of the art, slat systems are found Use to direct sunlight in the the Sun facing away, existing behind the film roof segment To avoid space.

The known from the prior art Shading devices for film roof segments show the disadvantage of being completely shaded is complex and expensive to implement.

The present invention is therefore based on the object propose a shading device that is simple Works with little effort and saves money. Shading should be possible without steps advantageously up to complete darkening of the room to be shadowed. In addition, the Shading device for shading Foil roof segments or double-walled foil fields be suitable.

To solve the problem, a shading device initially proposed proposed the invention provides that the shading device side by side  located, conditionally translucent or opaque Has structures, the structures being fluid-tight are formed and can be filled with fluid, thereby reducing the volume of the structures are changeable, whereby in the unfilled State of the structures between the adjacent ones Structures there is a space and in filled state of the structures of the gap reduced and is preferably reduced to zero.

The shading device according to the invention has in particular the advantage that, depending on the degree of filling, the Structures the space between the side by side located structures is different in size. At maximum filled structures border the adjacent ones Structures together and the space between them is zero. Because the structures are preferably opaque then there is total shading. Are the Structures conditionally translucent, so passes through the filled structures, even if the adjacent ones Adjacent structures, a certain amount of light. With such a conditionally translucent structure, the the room facing away from the sun is not completely darkened, however be darkened.

Depending on the degree to which the structures are filled, the Structures direct sunlight through the Shading device in the room to be shaded  penetrate. This means that the Shading possible. Due to the filling of the structures with a fluid, and especially air, are not mechanical devices required, such as Shading devices with slats or curtains would be required.

According to the invention, it is also conceivable that the structures are conditional are transparent and not with normal air, but with colored air or with gases that are lighter than air, can be filled. This allows special lighting effects to be achieved become, especially when different Structures can be filled with different colored air. Gases that are lighter than air have the advantage that they counteracting the dead weight of the shading device Generate force components.

It is also conceivable that the structures from one elastic material, so that their volume due the elastic properties of the structures in addition Filling can be enlarged further. It can be a safe Adjoining the adjacent structures be guaranteed.

In a particularly advantageous embodiment of the invention the structures are tubular and show in filled state preferably a circular or  elliptical cross-section. Have such structures the advantage that they are relatively even when filled unfold.

The structures are advantageously rope-like and / or mesh-like struts by means of eyelets, tabs or belt-like connecting means arranged hanging. This is a reliable arrangement in particular Roof segments reached. The struts can be tensioned parallel to the structures. such Struts require minimal installation space and are hardly visible and easy to assemble. Through the eyelet-like, tab-like or strap-like connecting means also ensures that the structures are not rigid with are connected to the struts, but, depending on the Lanyards, relative to the struts are displaceable or movable. This is especially true of Advantage if the structures are filled and their volume to change.

By varying the size of the structures they can be hanging arranged structures already achieve a lamella effect. This effect depends on the distance of the hanging arranged structures and the size of the structures. Both can be mechanically and / or electronically controlled to the Position of the sun and the shading effect to be achieved be adjusted.  

In a further embodiment of the invention Struts parallel to the longitudinal axes of the structures arranged, two structures on each strut are arranged and the distance between them Struts less than twice the diameter of the is filled structures. Such Shading device has the advantage that the Number of struts is minimized because of everyone Bracing two structures are arranged. When filling dei Structures enlarge the two on the strut existing structures in opposite directions, where at maximum filling due to the distance of the Struts the mutually facing structures of the butting struts next to each other. Then there are between two adjacent struts So there are two filled structures for shading.

According to the invention, a for filling the structures Fluid pressure pump to be present. That way a relatively quick filling and therefore a quick one Shading can be achieved.

You can use the structures to empty the structures openings are advantageously opened, the Structures emptying due to their own weight Structures. Such emptying can  supported by the weights on the structures. To is particularly suitable for the structures that can be arranged Lead bands. After opening the existing ones on the structures Openings are consequently due to the structures acting gravity the fluid from the structures pushed out. Advantageously, with this Embodiment of the invention no extra components or one Mechanics required to empty the structures.

However, can advantageously be used to empty the Structures also use a fluid suction pump, and this is especially the case when emptying very quickly should be done.

To ensure that the structures are filled and emptied evenly To be able to achieve can be provided according to the invention that the structures provide a central fluid connection.

The structural interiors are advantageous for this connected directly and / or via lines.

In a further embodiment of the invention, the Structures largely in one level, the level being can run horizontally or obliquely. Depending on the location of the The structures can then unite on a level have a suitable cross-section.  

A very easy to implement and work effectively Shade device is characterized in that the Structures arranged in a straight line and parallel to each other are.

Alternatively, however, it is also conceivable that the Structures arranged in a spiral or circle next to each other are. A spiral or circular arrangement has the Advantage that direct sunlight when not filled Structures is only possible to a very limited extent.

Especially when the shading device in one Foil roof segment can be used advantageously be provided that the structures of an upper and / or are surrounded by a lower transparent film. Such Foil protects the structures from environmental influences. Moreover it is conceivable that such a film is also "milky" (translucent) is executable, whereby the structures for the in the viewer present in the room to be shadowed not as such are visible.

In another embodiment of the invention can be provided be that the surfaces of the structures at least partially have a coating, in particular a Sun rays reflecting or absorbing or a water and dirt repellent coating. this has in particular the advantage that that is in the structures  existing fluid either due to solar radiation is heatable, and so for other purposes, especially in Heat exchangers can be used. On the other hand, can just such a heating up due to a suitable one Coating can be avoided.

Such shading devices are particularly suitable for shading oblique and / or horizontal Roof areas of buildings.

Further advantageous refinements and details of Invention can be found in the following description in which the invention with reference to that shown in the drawing Embodiment is described and explained in more detail. Show it:

Fig. 1 is a shading device according to the invention in cross-section,

Fig. 2 shows a detail of the shading device shown in Fig. 1 with deflated structures,

Fig. 3-4 the section according to Fig. 2 with structures filled to different degrees.

In Fig. 1 is a shading device 1 is shown, which is arranged in sections of a film 3 shown roof segment between two foils 2. Such a film roof segment 3 can be arranged, for example, in the roof areas of buildings. The shading device 1 has a series of opaque, tubular structures 4 located next to one another in a horizontal plane. The structures 4 are, in a plan view, not shown, arranged in a circle next to one another. The structures 4 are also fluid-tight, namely air-tight and can be filled with air. On the one hand, the structures 4 are not shown filled in FIG. 1. On the other hand, they are shown filled with dashed lines and marked with 5. It can be clearly seen that the cross section of the filled structures, designated 5, is circular. Alternatively, it would be conceivable for the cross section of the filled structures 5 to be elliptical or rectangular, and in particular foldable.

The structures 4 , 5 are arranged by means of eyelet-like connecting means 6 hanging on rope-like or round tube-like struts 7 . The struts 7 run, as can be seen in particular in FIGS. 2-4, parallel to the longitudinal axes of the tubular structures 4 . From FIGS. 1-4 also shows clearly that are respectively disposed on a strut 7 via the connecting means 6, two structures 4.

According to the invention, it is provided that the distance a between the struts 7 lying next to one another is less than twice the diameter b of the filled structures 5 . It is thereby achieved that in the filled state the structures 5 adjoin one another and the distance to the filled structures 5 lying next to one another is zero. In order to ensure that the adjacent, filled structures 5 are adjacent, the structures 5 are made of elastic material. The structures 5 thus expand in the filled state and abut the closest ones.

As is clear from FIG. 1 and FIG. 2, the structures 4 are arranged hanging on the struts 7 . Can be arranged due to the weight of the structures 4 and of the structures 4, Stay Change not shown hanging structures 4 vertically on the connecting means 6 or on the struts. 7 The structures 4 act like lamellae and mask out certain angles of incidence of the sunlight, which is indicated by the arrows 9 . Depending on the distance between the struts 7 and the vertical length of the emptied structures 4 , a certain lamella effect can be achieved.

In Fig. 3, in which the structures 4 are shown partially filled, the space between the adjacent structures 4 is reduced. As a result, less sunlight can pass through the shading device 1 , whereby partial shading is achieved. Due to the arrangement of two structures 4 on a strut 7 , the two structures 4 arranged on a strut 7 abut one another in the embodiment shown in FIG. 3. Due to the flexibly arranged connecting means 6 , a relative movement of the structures 4 lying against one another is advantageously possible due to the changing volume.

It would also be conceivable for each inflatable structure 4 to have its own strut 7 . The in Figs. However, the embodiment shown has the advantage that, due to the arrangement of two structures 4 on each strut 7, the number of struts 7 is reduced.

In the state of the shading device 1 shown in FIG. 4, the tubular structures 4 are maximally filled with air. Characterized in that the distance a between two struts 7 is less than twice the diameter b of a maximum filled structure 5, the adjacent structures 5 respectively abut each other. The space has consequently reduced to zero due to the increasing volume of the structures 5 . Total shading is thus achieved. Because of the opacity of the structures 5 , no light can therefore enter the room to be shadowed, which results in complete darkening of the room.

For filling or for emptying the structures 4 , a compressed air connection 11 is shown in FIG. 1, which can be filled or evacuated with compressed air via a pump. Furthermore, a ring line 12 is shown, which connect the distributor lines 13 to the compressed air connection 11 , only one distributor line 13 being visible in the view according to FIG. 1. The hose-like structures 4 , 5 are connected to the distributor line 13 via connections 14 .

Depending on the filling of the structures 4 , a continuous shading of the shading device 1 is possible.

It is also conceivable that the surfaces of the structures are provided with a corresponding coating 4 which reflects, for example. Striking the structures 4 sunlight to a heat available to avoid the structures 4 in the air.

The structures 4 , 5 shown in FIGS. 1-4 have a diameter of 35 cm, for example.

All in the description, the following claims and the Features shown can be drawn individually as well also in any combination with each other be essential to the invention.

Claims (16)

1. Shading device ( 1 ), in particular for shading a film roof segment ( 3 ), characterized in that the shading device ( 1 ) has adjacent, conditionally translucent or opaque structures ( 4 , 5 ), the structures ( 4 , 5 ) being designed to be fluid-tight and can be filled with fluid, as a result of which the volumes of the structures ( 4 ) can be changed, wherein in the unfilled state of the structures ( 4 ) there is an intermediate space between the adjacent structures ( 4 ) and wherein in the filled state of the structures ( 5 ) Gap is reduced and preferably reduced to zero. 2. Shading device ( 1 ) according to claim 1, characterized in that the structures ( 4 , 5 ) are tubular and preferably have a circular or elliptical cross section in the filled state. 3. shading device ( 1 ) according to claim 1 or 2, characterized in that the structures on rope-like and / or net-like struts ( 7 ) by means of eyelet, tab or belt-like connecting means ( 6 ) are arranged hanging. 4. Shading device ( 1 ) according to claim 3, characterized in that the struts ( 7 ) are arranged parallel to the longitudinal axes of the structures ( 4 , 5 ), two structures ( 4 ) being arranged on each strut ( 7 ) and the Distance (a) between the struts ( 7 ) lying next to one another is less than twice the diameter (b) of the filled structures ( 5 ). 5. Shading device ( 1 ) according to one of the preceding claims, characterized in that at least one fluid pressure pump is present for filling the structures ( 4 ). 6. shading device ( 1 ) according to any one of the preceding claims, characterized in that for emptying the structures ( 4 , 5 ) on the structures ( 4 , 5 ) existing openings are opened, the structures ( 4 , 5 ) due to their own weight Empty structures ( 4 , 5 ). 7. shading device (1) according to claim 6, characterized in that the structures (4, 5) weights are arranged, the emptying of the structures (4, 5) support. 8. shading device ( 1 ) according to any one of the preceding claims, characterized in that a fluid suction pump is present for emptying the structures ( 4 , 5 ). 9. Shading device ( 1 ) according to one of the preceding claims, characterized in that the structures ( 4 , 5 ) can be filled and emptied via at least one central fluid connection ( 11 ). 10. Shading device ( 1 ) according to one of the preceding claims, characterized in that the structural interiors are connected to one another directly and / or via lines ( 13 , 14 ). 11. Shading device ( 1 ) according to any one of the preceding claims, characterized in that the structures ( 4 , 5 ) lie largely in one plane, wherein the plane can run horizontally or obliquely. 12. Shading device ( 1 ) according to one of the preceding claims, characterized in that the structures ( 4 , 5 ) are arranged in a straight line and parallel next to one another. 13. Shading device ( 1 ) according to one of claims 1 to 11, characterized in that the structures ( 4 , 5 ) are arranged in a spiral or circular manner next to one another. 14. Shading device ( 1 ) according to one of the preceding claims, characterized in that the structures ( 4 , 5 ) are surrounded by an upper and / or a lower films ( 2 ). 15. shading device ( 1 ) according to any one of the preceding claims, characterized in that the surfaces of the structures ( 4 , 5 ) at least partially have a coating, in particular a reflecting or absorbing the sun rays ( 9 ), or a water and dirt repellent coating. 16. Shading device ( 1 ) according to one of the preceding claims, characterized in that the shading device ( 1 ) is arranged in inclined and / or horizontal roof areas of buildings.