DE19837984C1 - Strip blind for window - Google Patents

Abstract

The strip blind has strips (18) with a winder having a feed cord (24) with section (26,28) of different cross section. The cord passes through openings (36) in the blind strips. The openings are proportioned to allow free movement of the smaller cord section and frictionally engage the larger section.

Description

The invention relates to a slatted blind with in adjustable slats. Such blinds have been known for a long time and above all have one Glare and heat protection function.

Conventional slatted blinds, however, run close to the window often an oversupply of natural daylight there leads to glare and room heating, while in the Depth of the room no longer provides sufficient daylight that is. Uniform room lighting in open-plan offices ros, in which many jobs are spread across the room are not real with conventional slatted blinds sizable. As soon as the sunshades are shut down must to the oversupply of light and heat near the window to reduce the past office areas of the art darkens that even on sunny days artificial light must be switched on to provide sufficient light for the Bü to have available work. In addition to increasing energy costs this reduces well-being and performance ability of the employees at these workplaces.

For some time now, therefore, one has been developing new ones Systems endeavored, in addition to the original blend and hit protection function of slatted blinds a daylight groove enable. This may be possible with a view to as uniform lighting as possible or in win term months using solar energy for reduction serve the heating costs.

Slatted blinds are already known, their curtains in two slat areas are divided, in which the win  the slat positions in a defined dependency or can be adjusted independently of each other. To this It is possible, for example, the lower part of the curtain as a glare and heat shield while closing with help of the partially or fully opened upper curtain some light directed into the depth of the room via the ceiling becomes. In addition to the increased design effort of this Sy steme especially with independent slat adjustment of the Both blind areas have such blinds Disadvantage that the dimensions of the curtain areas and thus the possibilities of their use as glare protection or for Use of daylight are predetermined and not by the Users individually to the respective lighting situation or situation at the workplace can be set.

While the lighting situation depends on the factors sun stood (azimuth and elevation angle), the state of heaven (e.g. cloudy or clear) and the season is dependent, the work situation depends on the type of day activity, the size of the employee and the distance of the Workplace affected to the window. It is obvious that that determined by an architect or lighting designer Graduation of the slat curtain in view of this variable Factors can only be a compromise. Especially at rooms that are used alternately quickly reach their limits conventional curtain concepts.

Another subdivision of the blinds from Lamellenjalou They are adjustable in even more areas In principle, speed can remedy this, increased but the constructive effort and thus the costs for the Louvre blinds considerable.

The object of the invention is a Lamellenja create lousie with comparatively simple opening build a more variable slat adjustment than previously known Systems enabled.

According to the invention the object is achieved in that the Turning mechanism of the slatted blind a transport element has a first longitudinal section determined cross section and another longitudinal section with a large has its cross section and be in its longitudinal direction is guided through openings in the slats, which are arranged off-center and a cross-sectional shape be sit which is an essentially smooth guide for forms the first longitudinal section of the transport element and cooperates with the second longitudinal section.

The transport element is then in a starting position for example in a position in which the second longitudinal section cut with the larger cross section below the curtain lies and not yet together with any opening of a slat works. By pulling the transport element second longitudinal section with its larger cross section after each other in the engagement area of the openings in the La mellen. The frictional force builds up a take-away, which is due to the eccentric arrangement of the Opening leads to an inclination adjustment of the slats. Each according to how far the transport element is pulled up, ge it engages with a certain number of the lamella len so that the height of the using the transport element adjusted slat area is variable and a belie bige number of slats can include.

Usually one gets the second section from the sub pull up the side of the curtain and thus the slats one after the other  use for slats as glare protection, but it is also conceivable to arrange the transport element in the reverse manner and so with the slat adjustment on the top La melle of the curtain to begin.

The frictional force between the larger one is expedient Cross section of the transport element and the opening cross cut enough in the slats, a take to allow the slats in angular end positions at further movement is said to cause the trans to slip port elements. The forces necessary for this should Shouldn't be too high, otherwise the operation engages with the increase due to the transport element openings in the slats increases noticeably.

The angular position of the slats, with which the larger Cross section of the transport element already in engagement finds, can be adjusted together that the Transport element related to the initial movement direction is retracted briefly, so that for example wise when unwinding the thicker cross section of un then pull the slats out of the maximum closed position in a more open position bring that a glare-free use of daylight Enables improvement of the daylight quotient.

The level of the frictional force is influenced by appropriate choice of the cross sections of the openings in the Slats and the larger cross-section of the Transportele ment possible, the material pairing the friction influenced by force.

In a preferred embodiment of the invention, it is provided hen that the transport element is arranged all around and  in a top rail and a bottom rail of the blind is redirected. Such an arrangement can be used fold deflection rollers and a simple reali rotary drive sieren, while the transport element is not endless facilities are required. The longitudinal section with the larger cross section should be in this embodiment make up at most half the length of the support element, so it is always possible to move the transport element from the on handle range of all slat openings to move.

In a further preferred embodiment of the invention it is provided that the lamellae additional guide bores stations for the opposite area of the transport element possess whose cross-sections are essentially friction free guidance of the thicker longitudinal section of the trans enable port elements. That way it can returning strand of the transport element is still a guide take over the function of the slat curtain and this additional stabilize.

The carrier element, for example rope or band-shaped can preferably have one over its entire length Length running core on the in the area of the two th longitudinal section is provided with a casing.

The carrier core can for example be a wire, rope or Be plastic cord and gives the Trans port element the mechanical strength.

The sheathing of the carrier core preferably consists of flexible, wear-resistant fibers. The fibers are one on the one hand, in cooperation with the corresponding Cross-sectional openings that are used to adjust the inclination of the La generating necessary forces, on the other hand, allowed  After reaching the end positions of the slats, open the door slip of the transport element through the openings without that particularly high forces are necessary for this.

It is preferably further provided that resiliently Generous tabs laterally in the friction openings of the slats protrude. About the size, location and elasticity of the tabs the frictional force can be influenced and the adapt to the respective circumstances.

Instead of the described embodiment with a fiber sheathed carrier core, the ge with little effort targeted influencing of the frictional forces allowed, it would be conceivable, the carrier core, for example, with an art to be provided with a fabric cover and ra in the friction openings dial inward facing fibers. Also a direct interaction of a plastic casing with elastically flexible tabs in the friction openings conceivable.

In a further preferred embodiment of the invention it is envisaged that the slats of at least two in Slat parts divided in the longitudinal direction exist, the rela tiv are pivotable to each other.

With the help of the slats divided in the longitudinal direction, the are known in principle from EP 0 400 662 A1 improved glare-free use of daylight through a targeted more directing of the incident light possible. More appropriate wise are the friction openings in movable slats divide and the guide openings in fixed slats share arranged to ensure that in a ver drive the transport element a targeted Relativver pivoting of the slat parts is achieved.  

The slats can be in a known manner in conductors cords are hung, and they are both gatherable as also tightly tensioned blinds with the invention Innovation possible.

The installation of a fiction, ge is particularly advantageous moderate slatted blind between the glass panes of an ISO glazing, as the simple transport element and its Drive takes up relatively little space.

In the following, the attached drawings will be used discussed an embodiment of the invention. It demonstrate:

Fig. 1 shows a cross section of a Lamellenjalou it in the rest position;

FIG. 2 shows a cross section of the slatted blind according to FIG. 1 with the curtain part partially closed;

3 shows a cross-section of the slatted blind of Figures 1 and 2 with a partially open drape portion..;

Fig. 4 is an oblique view of the Transportele element of the Venetian blind according to Figures 1 to 3.

Fig. 5 is a detailed view of a slat of the Venetian blind according to FIG. 1 to 3.

In Fig. 1, a slatted blind 10 is shown, which has a curtain 16 stretched between an upper rail 12 and a lower rail 14 . The curtain 16 consists of a plurality of lamellae 18 which are suspended in a ladder cord system (not shown) which holds them at certain distances from one another. The slats 18 consist of a first slat part 20 and a second slat part 22 which is pivotally attached via a hinge point 23 to the most slat part 20 . The first slat parts 20 of the slats 18 are held non-pivotable, while the suspension of the curtain 16 allows pivoting of the second slat parts 22 around the articulation points 23 light.

The slatted blind 10 has a circumferential trans port element 24 , which is divided into a first longitudinal section 26 of smaller cross-section and a second longitudinal section 28 of larger cross-section. The transport element is guided around a drive roller 30 in the upper rail and around two guide rollers 32 in the lower rail 14 . Instead of the two small guide rollers 32 , the use of a guide roller with a larger diameter similar to the drive roller 30 is also conceivable, but this increases the installation space required for the guide in the region of the lower rail 14 .

The structure of the transport element 24 results from FIG. 4. The transport element 24 consists of a carrier core 30 , for example made of a plastic rope, which is circumferential and gives the transport element 24 the necessary mechanical strength properties. The carrier core 30 is provided in the region of the second longitudinal section 28 with a sheathing 32 which ensures the corresponding cross-sectional enlargement of the transport element 24 . The uncovered area of the carrier core 30 thus forms the first longitudinal section of smaller diameter. The sheath 32 consists of flexible, wear-resistant fibers which are arranged essentially radially out around the carrier core 30 .

The transport element 24 is guided in an area by openings 34 in the first lamella parts 20 and in the region of its opposite movement through openings 36 in the two lamella parts 22 . The nature of these openings 34 , 36 is clear from FIG. 5. The opening 34 in the fixed first lamella parts 20 is designed as a circular opening, the cross section of which essentially corresponds to the cross section of the casing 32 or is designed to be slightly larger. This ensures that the transport element 24, both with its first longitudinal section 26 and with its thicker two th longitudinal section 28 , can be guided essentially without friction through the openings 34 in the first lamella parts 20 . On the other hand, the first openings 34 provide guidance of the first lamella parts 20 on the transport element 24 running between the drive roller 30 and a deflection roller 32 under a certain tension.

The openings 36 in the second lamella parts 22 are formed as elongated holes extending transversely to the longitudinal direction of the lamella. On the flanks of the elongated hole 36 projecting flexible tabs 38 are provided towards the center of the opening, which reduce the remaining gap 40 between them to a degree which is smaller than the cross section of the casing 32 . On the other hand, the gap has a sufficiently large width that the first longitudinal section 26 - that is, the uncovered carrier core 30 - can pass through it unhindered. The tabs are designed so that, in cooperation with the fibers of the sheathing 32, they build up frictional forces when the transport element 24 is carried out , with the aid of which the second lamella part 22 can be pivoted about its pivot axis 42 about the first lamella part 20 . The training of the openings 36 as an elongated hole avoids that, as a result of the inclined position of the second lamella parts 22 , the casing 32 becomes jammed with the tabs 38 , so that the transport element 24 after reaching the end of inclination of the second lamella parts 22 without a substantial increase in the Slippage of force can be moved further.

Moving from the rest state shown in Fig. 1 of the slatted blind 10, the drive roller in the opposite counterclockwise direction, the sheathing 32 of the second longitudinal portion 28 of the transport element first comes from below to the opening 36 in the second slat part 22 of the bottom slat. As a result of the frictional force building up between the casing 32 and the tabs 38 , the second lamella part 22 pivots up to an end position and is thus completely closed as a glare protection. Upon further actuation of the drive roller 30 , the transport element 24 slips through the opening 36 of the lowest La melle, so that the casing 32 can come into engagement with the opening 36 of the overlying lamella 18 . Since one after the other closes the second La cell parts 22 from bottom to top, as long as the drive roller 30 is rotated counterclockwise.

After stopping the drive roller 30 , the curtain position shown in FIG. 2 results, for example, in which approximately the lower half of the curtain part is completely closed as a glare protection due to the folded-up second slat parts 22 . The amount of anti-glare is determined by the travel of the Transportele element 24 and can take any number of slats 18 to.

With the help of the described transport element, it is not only possible to close any number of lamellae 18 , but by briefly retracting the transport element 24 , ie by rotating the drive shaft 30 clockwise, all second lamella parts 22 which are currently in engagement with the second Längenab section 28 of the transport element 24 are to be pivoted down a desired path ge, so that even in the lower curtain area a glare-free use of daylight and thus an improvement in the daylight quotient is possible (see Fig. 3). In Fig. 3, the reflection of the sunlight occurring at this slat position at a sun incidence angle of approximately 45 ° is shown schematically. Sunlight S1 incident in the upper curtain area is reflected directly from the tops of the slats 18 against the ceiling, since the flat reflection angle in this area near the ceiling cannot lead to blinding of the employees. In contrast, sunlight S2 incident in the lower curtain area is first reflected on the first slat part 20 and then strikes the second, steeply standing slat part 22 , from where it is reflected at a steep angle against the ceiling. This curtain position also protects areas near the window from reflected solar radiation and at the same time the sun rays deflected in this way can be used to deflect the room ceiling to diffuse it against the diffusing ceiling. The energy of the sunlight directed into the interior of the room in this way can also be used to reduce heating costs.

The louvre blind described above can be installed without wei teres between the glass panes of double glazing, and in most applications it is firmly clamped, ie the slats 18 cannot be overtaken. Basically, the previously described slatted blind with the transport element 24 is also suitable as a venetian blind if it is provided with a corresponding catch-up mechanism.

Claims (13)

1. slat blind with its inclination adjustable La mellen ( 18 ), characterized in that the Wendeme mechanism has a transport element ( 24 ) having a first longitudinal section ( 26 ) certain cross section and a second longitudinal section ( 28 ) with a larger cross section and in its longitudinal direction movable bar through openings ( 36 ) in the lamellae ( 18 , 22 ) leads, which are arranged eccentrically and have a cross-sectional shape which forms a substantially frictionless guide for the first longitudinal section ( 26 ) of the transport element ( 24 ) and frictionally cooperates with the second longitudinal section ( 28 ). 2. Venetian blind according to claim 1, characterized in that the frictional force between the larger cross section ( 28 ), the transport element ( 24 ) and the Publ cross sections ( 36 , 40 ) in the slats ( 18 , 22 ) is sufficient, a take to enable the slats ( 18 , 22 ) in angular end positions, but with further movement conditions the transport element ( 24 ) slips. 3. Venetian blind according to claim 1 or 2, characterized in that the transport element ( 24 ) is circumferential and is deflected in an upper rail ( 12 ) and a lower rail ( 14 ) of the blind ( 10 ). 4. Venetian blind according to claim 3, characterized in that the slats have additional guide openings ( 34 ) for the opposite region of the Transportele element ( 24 ), the cross-sections of a substantially union-free routing also the thicker longitudinal section ( 28 ) of the transport element ( 24 ) enable. 5. Venetian blind according to claim 1, characterized in that the transport element has a support core extending over its entire length ( 30 ), which is provided in the area of the second longitudinal section ( 28 ) with a casing ( 32 ). 6. Venetian blind according to claim 5, characterized in that the sheathing ( 32 ) consists of flexible, wear-resistant fibers. 7. Venetian blind according to one of the preceding claims, characterized in that elastically flexible tabs ( 38 ) project laterally into the friction openings ( 36 ) in the slats ( 18 , 22 ). 8. Venetian blind according to one of the preceding Ansprü surface, characterized in that the slats ( 18 ) consist of at least two longitudinally divided Lamellentei len ( 20 , 22 ) which are pivotable relative to each other ver. 9. Venetian blind according to claim 8, characterized in that the friction openings ( 36 ) in movable La cell parts ( 22 ) and the guide openings in Festste existing slat parts ( 20 ) are arranged. 10. Venetian blind according to claim 8 or 9, characterized in that the slat parts ( 20 , 22 ) via we least one hinge ( 23 ) are interconnected. 11. Venetian blind according to one of the preceding Ansprü surface, characterized in that the slats ( 18 ) are suspended from conductor cords. 12. Venetian blind according to one of the preceding claims che, characterized in that it is gatherable or firm is trained tense. 13. Venetian blind according to one of the preceding claims che, characterized in that it is between the glass panes of double glazing is arranged.