WO2009143842A1 - Roller shutter with tiltable slats - Google Patents
Roller shutter with tiltable slats Download PDFInfo
- Publication number
- WO2009143842A1 WO2009143842A1 PCT/DK2008/050120 DK2008050120W WO2009143842A1 WO 2009143842 A1 WO2009143842 A1 WO 2009143842A1 DK 2008050120 W DK2008050120 W DK 2008050120W WO 2009143842 A1 WO2009143842 A1 WO 2009143842A1
- Authority
- WO
- WIPO (PCT)
- Prior art keywords
- side rail
- roller shutter
- slats
- slat
- shutter according
- Prior art date
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Classifications
-
- E—FIXED CONSTRUCTIONS
- E06—DOORS, WINDOWS, SHUTTERS, OR ROLLER BLINDS IN GENERAL; LADDERS
- E06B—FIXED OR MOVABLE CLOSURES FOR OPENINGS IN BUILDINGS, VEHICLES, FENCES OR LIKE ENCLOSURES IN GENERAL, e.g. DOORS, WINDOWS, BLINDS, GATES
- E06B9/00—Screening or protective devices for wall or similar openings, with or without operating or securing mechanisms; Closures of similar construction
- E06B9/24—Screens or other constructions affording protection against light, especially against sunshine; Similar screens for privacy or appearance; Slat blinds
- E06B9/26—Lamellar or like blinds, e.g. venetian blinds
- E06B9/28—Lamellar or like blinds, e.g. venetian blinds with horizontal lamellae, e.g. non-liftable
- E06B9/34—Lamellar or like blinds, e.g. venetian blinds with horizontal lamellae, e.g. non-liftable roller-type; Roller shutters with adjustable lamellae
-
- E—FIXED CONSTRUCTIONS
- E06—DOORS, WINDOWS, SHUTTERS, OR ROLLER BLINDS IN GENERAL; LADDERS
- E06B—FIXED OR MOVABLE CLOSURES FOR OPENINGS IN BUILDINGS, VEHICLES, FENCES OR LIKE ENCLOSURES IN GENERAL, e.g. DOORS, WINDOWS, BLINDS, GATES
- E06B9/00—Screening or protective devices for wall or similar openings, with or without operating or securing mechanisms; Closures of similar construction
- E06B9/02—Shutters, movable grilles, or other safety closing devices, e.g. against burglary
- E06B9/08—Roll-type closures
- E06B9/11—Roller shutters
-
- E—FIXED CONSTRUCTIONS
- E06—DOORS, WINDOWS, SHUTTERS, OR ROLLER BLINDS IN GENERAL; LADDERS
- E06B—FIXED OR MOVABLE CLOSURES FOR OPENINGS IN BUILDINGS, VEHICLES, FENCES OR LIKE ENCLOSURES IN GENERAL, e.g. DOORS, WINDOWS, BLINDS, GATES
- E06B9/00—Screening or protective devices for wall or similar openings, with or without operating or securing mechanisms; Closures of similar construction
- E06B9/56—Operating, guiding or securing devices or arrangements for roll-type closures; Spring drums; Tape drums; Counterweighting arrangements therefor
- E06B9/68—Operating devices or mechanisms, e.g. with electric drive
- E06B9/70—Operating devices or mechanisms, e.g. with electric drive comprising an electric motor positioned outside the roller
Definitions
- the present invention relates to a roller shutter comprising a top element and a shutter body including a plurality of slats, each slat extending in a longitudinal direction between two end edges and having first and second side edges parallel to the longitudinal direction, said shutter body being adapted to be wound up in and rolled out from said top element by means of a driving device, in a direction perpendicular to said longitudinal direction to a first screening position, in which the shutter body defines a general screening plane, wherein at least some slats of said plurality of slats are tiltable about an axis parallel to said longitudinal direction between the first screening position to a second screening position, in which each tiltable slat forms an angle with said general screening plane.
- Roller shutters are well-known in the art and have gained widespread usage for providing almost complete screening from the outside of for instance roof windows. Roller shutters offer outstanding light and sound dampening screening relative to other screening arrangement such as marquisettes, Venetian blinds, roller blinds and the like. As they are furthermore positioned on the outside and due to the robust structure of the shutter body, roller shutters provide an additional security against burglary. Furthermore, the shutter body protects the pane, and thus in turn the room beneath the window, from downfall emanating from for instance building parts in areas exposed to violent weathering. In closely built residential areas, roller shutters may be required as an additional security in the case of fire.
- louverable roller shutters have adjustable slats that may be tilted about a longitudinal axis to form an angle with the general screening plane defined by the slats in their plane, non-tilted position.
- the louverable roller shutters have been developed over recent years and thus combine the advan- tages of a roller shutter and a Venetian blind.
- the slats are interconnected at their longitudinal side edges, such that a front side edge of one slat is connected to the respective front side edge of adjacent slats, and correspondingly as regards the trailing side edges.
- the edges of all adjustable slats are moved simultaneously to attain the tilted position.
- louverable shutters of a more recent kind are disclosed in, i.a., EP 1 286 016 A2 and WO 2007/017218 A2.
- a roller shutter of the kind mentioned in the introduction which is furthermore characterized in that the roller shutter is furthermore provided with two side rails, that each side rail comprises at least one part that is movable relative to other parts of the side rail, and that the end edges of each slat include guide means adapted to be guided in the at least one movable part of a respective side rail.
- This provides for the advantage that the relative movement required to invoke the tilting of the slats is provided moving parts of the side rails of the roller shutter relative to each other.
- this makes it possible to provide the simple and reliable solution aimed at, as the side rail parts are simple to design and manufacture for allowing accommodation and guidance of the guide means of the slats interacting with the side rails. There is thus no need for separate mechanisms for inserting the slat ends into tilting means.
- a driving element of the driving device is connected to at least one fixed part of the respective side rail.
- the driving element is that element of the driving device which transmits and/or performs the movement of the driving device to the shutter body during unrolling and rolling-up thereof.
- the driving element may comprise a cord, belt, chain etc. In this manner, the slats are tilted by simply moving the movable part guiding the guide pins with respect to the fixed parts supporting the driving element of the driving device.
- each tiltable slat includes fastening means for fastening the slat to the driving element of the driving device at the first side edge of the slat, and wherein the guide means for establishing the connection with the at least one movable part of the side rail are provided at the second side edge.
- the guide means comprise a pin protruding from each end edge of each adjustable slat.
- a pin constitutes an element able to be guided smoothly on the movable part of the side rail and allowing the slat to be tilted, as it will only follow the movable side rail part during its movement.
- the movable part or parts of the side rail may be moved following any suitable pattern in order to induce the tilting of the slats.
- the at least one movable part of the side rail is movable along a curved path relative to the other parts of the side rail. This entails a movement both perpendicularly to the general screening plane, but also along the direction perpendicular to the longitudinal direction of the top element and the slats. This movement is considered to provide particularly smooth lifting of the one edge of the slats, relative to for instance a movement involving lifting perpendicularly to the general screening plane only.
- said at least one movable part is an outer side rail part connected to an inner side rail part.
- said outer side rail part is preferably connected to the inner side rail part by means of a number of link elements, each link element being pivotably connected to one and the other part. This is a mechanically simple and reliable connection to achieve the curved path (in fact part-circular path).
- the outer side rail part may be connected to the inner side rail part by means of a pin mounted on one part adapted to be guided in a track in the other part.
- the movable side rail part is preferably compartmentalized in order to allow for the guiding function.
- the outer side rail part may include a first flange and a second flange forming between them a track for guiding the guide means of the slats.
- the movement between the parts of the side rail may in principle be carried out in any suitable manner, including for instance a lifting device positioned in the side rail itself.
- the at least one movable part is adapted to be actuated by a tilt mechanism at the top element.
- the tilt mechanism comprises a toothed rack connected to the movable part and a toothed wheel cooperating with the toothed rack, said toothed wheel being adapted to be rotated by means of a drive motor.
- the drive motor for the toothed wheel is preferably separate from the motor of the driving device for the shutter body. In this manner, no complicated coupling between the different functions of the motor is necessary, which would be the case if a single motor were to be used for driving the shutter body and achieve the tilting. This improves the flexibility in operating the roller shutter, i.e. the shutter body may be unrolled and rolled out independently, and the slats may be tilted at any position of the shutter body.
- the drive motor preferably operates on a shaft common to each side rail. In addition to the advantages connected to having a single motor to be positioned in the top element, this provides for synchronous operation in both sides of the roller shutter.
- a self-supporting unit transferring a suitable torque to the toothed wheel cooperating the toothed rack is provided in an embodi- ment, in which the drive motor is connected to the shaft by means of a planet gear.
- a driving element connected to the shutter body is used.
- the driving element of the driving device for unrolling and rolling up of the shutter body could in principle be any element capable of transferring the rotating movement of the roller bar to a translatory movement, such as for instance a chain.
- the driving element is a toothed belt.
- the tilt mechanism may comprise a linear actuator.
- Fig. 1 is an isometric view of a roller shutter in an embodiment of the invention, mounted on a window and in a first screening position, part of the shutter body being removed for clarity reasons;
- Fig. 2 is an isometric view of a roller shutter in an embodiment of the invention, in a first screening position, part of the shutter body being removed for clarity reasons;
- Fig. 3 shows a view corresponding to Fig. 2, with parts of the roller shutter removed
- Fig. 4 shows, on a larger scale, a partial view of the roller shutter shown in Fig. 2, with parts of the roller shutter removed;
- Fig. 5 is a view corresponding to Fig. 4; with other parts of the roller shutter removed;
- Figs 6 to 9 show, on a larger scale, partial perspective views of the roller shutter shown in Fig. 2;
- Fig. 10 is an isometric view of a detail of the roller shutter shown in Fig. 2;
- Fig. 11 is an isometric view of a roller shutter in an embodiment of the invention, mounted on a window and in a second screening position, part of the shutter body being removed for clarity reasons;
- Fig. 12 is an isometric view of a roller shutter in an embodiment of the invention, in a second screening position, part of the shutter body being removed for clarity reasons;
- Fig. 13 shows a view corresponding to Fig. 12, with parts of the roller shutter removed;
- Fig. 14 shows, on a larger scale, a partial view of the roller shutter shown in Fig. 12, with parts of the roller shutter removed;
- Fig. 15 is a view corresponding to Fig. 14; with other parts of the roller shutter removed;
- Figs 16 to 17 show, on a larger scale, partial perspective views of the roller shutter shown in Fig. 12.
- Figs 1 to 10 of the drawings show an embodiment of a roller shutter generally designated 1 in a first screening position.
- the roller shutter 1 has a top element 2 and two side rails 3 and 4 extending at right angles to the top element 2.
- a shutter body 5 includes a plurality of slats 51, of which some have been left out for clarity reasons only.
- the roller shutter 1 is mounted on a window, for instance a roof window adapted for installation in an inclined roof.
- the window comprises in a manner known per se a window frame 6 and a window sash 7 encasing a pane 8.
- the window sash 7 will most often be openable relative to the window frame 6, viz. hinge connected to the window frame 6, for instance by means of a set of pivot hinges positioned close to a central axis of the window to allow the window sash 7 to pivot relative to the window frame 6, or by a more traditional hinge positioned at the top of the window.
- the aperture to be screened is defined by the area limited by the top element 2, the side rails 3, 4, and the bottom of the window. This aperture thus corresponds in substance to the pane 8.
- the shutter body 5 is adapted to be moved from a non-screening position to a screening position, in which it covers the pane 8 and other parts of the window to a larger or lesser degree.
- Each slat 51 extends in a longitudinal direction between two end edges and have first and second side edges parallel to the longitudinal direction, i.e. in parallel with the top element 2.
- the shutter body 5 is adapted to be wound up in and rolled out from the top element 2 by means of a driving device, generally designated 10, in a direction perpendicular to said longitudinal direction to a first screening position.
- the shutter body 5 In the first screening position shown in Fig. 1, the shutter body 5 has been rolled out to cover the entire aperture and defines a general screening plane. In the non-screening position, in which the shutter body 5 does not cover any part of, or virtually not any part of, the pane 8, the shutter body 5 is accommodated, possibly in its entirety, in the top element 2.
- the top element 2 is positioned at the top of the window and comprises in the embodiment shown a top cover 21 and two outer end covers, of which the right-hand end cover 22 is visible in Fig. 1.
- the top cover 21 and outer end covers 22 serve to hide and protect the inner parts of the roller shutter 1, such as for instance the drive mechanisms for the rolling up and unrolling of the shutter body 5 and the tilting of the slats 51.
- Terms such as “left-hand” and "right-hand” refer to the orientation shown in for instance Fig. 1 and are utilized for reasons of convenience only.
- the side rail 4 has a structure comprising parts that are movable relative to each other. In Fig. 1, only an outer side rail part 41 is visible.
- the side rail 4 has a bottom cover 40 at the bottom of the window.
- the side rails 3, 4 are connected to each other at the bottom part of the roller shutter 1, namely by a cross bar 35 connected to the bottom cover 40 of side rail 4 and its counterpart bottom cover 30 of side rail 3.
- the cross bar 35 may for instance be riveted to each bottom cover 30, 40.
- the cross bar 35 (not shown in the detailed figures) contributes to the strength and resistance as well. However, the cross bar 35 is not strictly necessary, as sufficient strength may be provided by the side rails 3,4 themselves.
- the roller shutter according to the invention is a so-called louverable roller shutter, i.e. a roller shutter having at least some tiltable slats that may be angle- adjusted relative to the general screening plane.
- the shutter body 5 may be brought from its first screening position shown in Fig. 1 to a second screening position, in which the slats 51 are tilted about an axis parallel to the longitudinal direction of the slats from the first screening position to a second screening position, in which each tiltable slat forms an angle with the general screening plane, cf. for instance Fig. 11.
- Figs 1 to 17 of the drawings it is noted that in some of the figures, parts of the top element 2 and the right-hand side rail 4 have been removed in order to show the structure of some of the internal parts of the roller shutter 1, i.e. parts that are not, or only partly, visible in the mounted position or position of use shown in for instance Figs 1 and 11.
- the top cover 21 and the outer end cover 22 have been removed.
- an intermediate end cover (not shown) has been removed to expose an inner end cover 23.
- the outer side rail part 41 has been removed in Figs 3 and 13 to expose an inner side rail part 42.
- the bottom cover 40 has been removed to expose an intermediate bottom cover 401.
- the roller shutter 1 is provided with two side rails 3 and 4, and each side rail 3, 4 comprises at least one part that is movable relative to other parts of the side rail.
- this is accomplished by connecting the outer side rail part 41 and the inner side rail part 42 to each other by means of a number of link elements in the form of side rail fittings 45 that are pivotably connected to each side rail part 41 and 42.
- the movable part of the side rail, outer side rail part 41 is movable along a curved path relative to the other parts of the side rail, that is fixed inner side rail part 42 in addition to other parts to be described further on.
- the outer side rail part may be connected to the inner side rail part by means of a pin mounted on one part adapted to be guided in a track in the other part. Preferably, such a track would be curved.
- each tiltable slat 51 includes fastening means for fastening the slat to a driving element of the unrolling and rolling-up driving device at the first side edge of the slat, and the guide means for establishing the connection with the at least one movable part of the side rail are provided at the second side edge.
- the structure of the slats 51 may be of any suitable kind, and a detailed description of one preferred embodiment is given in Applicants' co-pending international application filed on the same day as the present application and the contents of which are incorporated herein by reference.
- the slat 51 comprises a slat body 510 of a suitable material, for instance extruded or roll-formed aluminium or steel, possibly filled with foam or other sound-dampening material.
- a suitable material for instance extruded or roll-formed aluminium or steel, possibly filled with foam or other sound-dampening material.
- Another alternative could be to form the slats of a composite material, manufactured by moulding or in any other suitable manner.
- a first end piece 511 is inserted, the first end piece 511 including a pin 512 acting as a fastening means for fastening each slat 51 onto the driving element formed as a toothed belt 11.
- the fastening is achieved by the formation of a number of eyes 111 in the toothed belt 11, through which the pins 512 of the slats 51 are introduced.
- the pin receiving openings or eyes could also be formed by two upstanding portions converging at the top, but not necessarily forming a closed structure. Alternatively, the pin receiving opening could be formed in the belt itself.
- a second end piece 513 is connected to the first end piece 511 and has a guide means formed as a pin 514 adapted to be guided in the movable outer side rail part 42.
- the slat 51 is provided with a sealing strip 519 made of for instance rubber at the second side edge.
- the sealing strip 519 abuts on the subsequent slat 51 of the shutter body 5, on the first side edge thereof, and has the function of providing a seal between adjacent slats and also has a sound dampening effect.
- the element at the slat end is described as a relatively elaborate structure comprising first and second end pieces 511, 513, a simpler element is conceivable as well. In principle, the slat end could be formed with two protruding pins of different lengths.
- the outer side rail part 41 includes a first flange 411 and a second flange 412 between which two flanges the guide means of the slats are accommodated in such a way that the pin 514 of each slat 51 abuts on and slides on the second flange 412 when unrolling and rolling up the shutter body 5.
- the outer side rail part 41 has a track in the first flange 411 for receiving a first extra rail 414.
- the inner side rail part 42 includes a flange 421 for guiding the toothed belt 11.
- a further flange 422 forms an abutment for the second flange 412 of the outer side rail part 41 in the first screening position.
- the inner side rail part 42 is formed substantially as an inverted L) and has a further flange 423 extending at right angles to the flange 421 forming the support for the toothed belt 11.
- the inner side rail part 42 has a track 424 for receiving a second extra rail 425.
- the first and second extra rails 414, 425 assist in the guidance of the slats 51. Furthermore, they contribute to preventing light from entering the interior, as the extra rails overlap the shutter body 5.
- the side rail 4 comprises a mounting rail part 43 for mounting the side rail to the window frame 6. To that end, the mounting rail part 43 being provided with a number of holes 430 for receiving fastening means (not shown).
- the movable outer side rail part 41 is connected to the fixed inner side rail part 42 by means of the link elements in a manner allowing the outer side rail part 41 to be moved relative to the inner side rail part 42, the inner side rail part 42 is, in turn, fixedly connected to the mounting rail part 43 and the top element 2. This connection may be carried out in any suitable manner.
- the toothed belt 11 is passed below the intermediate bottom cover 401.
- the two bottommost slats 51 are guided on top of the intermediate bottom cover 401 and hence below the bottom cover 40.
- the two bottommost slats are not tiltable, but are fixedly connected to each other along the facing side edges. This mutual connection enforces the entire roller shutter to prevent it from possible damage in case of strong wind.
- These slats may also be provided with supplemental reinforcement in comparison with the remaining slats.
- a tilt mechanism 15 is provided in order to actuate the tilting, i.e. the movement of the outer side rail part 41 relative to the inner side rail part 42 in the embodiment shown and described.
- the tilt mechanism 15 is positioned at the top element 2, and extends on both sides of the inner end cover 23 thereof as will be described in further detail.
- the tilt mechanism comprises a toothed rack 151 connected to the movable part of the side rail, i.e. in the embodiment shown the outer side rail part 41.
- the toothed rack 151 has a protrusion 153 including a fastening portion 154 for connection to the outer side rail part 41
- a toothed wheel 155 adapted to be rotated by means of a drive motor 16, shown in Fig. 10 cooperates with an oblong toothed aperture 152 of the toothed rack 151.
- the drive motor 16 is separate from the motor of the driving device for the shutter body and operates on a shaft 17 common to each side rail 3 and 4.
- the drive motor 16 is connected to the shaft 17 by means of a planet gear (not shown in detail).
- a single motor 16 positioned in the top element 2 provides for synchronous operation in both sides of the roller shutter 1.
- a self-supporting unit transferring a suitable torque to the toothed wheel 155 cooperating with the toothed rack 151 by the connection to the shaft by means of a planet gear.
- a planet gear By utilizing a planet gear, it is possible to provide a simple solution to the wish for having a through-going shaft while having one motor only.
- Visible in Fig. 10 is furthermore the roller bar 24, on which the slats 51 of the shutter body 5 are rolled up.
- the movable outer side rail part 41 has lifted the guide pins 514 of the slats 51 such that the slats 51 are tilted about an axis extending substantially in the longitudinal direction at the first side edge, i.e. at the fastening pins 512 accommodated in the driving element.
- the tilt mechanism may for instance comprise a linear actuator controlled in any suitable manner.
- the unrolling and rolling up of the shutter body may be performed in any suitable manner by using any driving device available in the art.
- the driving element of the driving device is a toothed belt.
- roller shutter according to the invention has been described as being intended to be installed on the window frame of an openable roof window for installation in an inclined roof.
- the invention is applicable also with other kinds of windows and in other positions.
- the roller shutter may be mounted on the window sash, or on the frame or sash of a fixed, i.e. not openable, window, or on a window for installation in a building fa ⁇ ade.
Abstract
The roller shutter (1) comprises a top element (2) and a shutter body (5) including a plurality of slats. Each slat extends in a longitudinal direction between two end edges and has first and second side edges parallel to the longitudinal direction. The shutter body (5) is adapted to be wound up in and rolled out from said top element (2) by means of a driving device, in a direction perpendicular to said longitudinal direction to a first screening position, in which the shutter body (5) defines a general screening plane, wherein at least some slats of said plurality of slats are tiltable about an axis parallel to said longitudinal direction between the first screening position to a second screening position, in which each tiltable slat forms an angle with said general screening plane. The roller shutter (1) is furthermore provided with two side rails (3, 4), and each side rail comprises at least one part that is movable relative to other parts of the side rail, and the end edges of each slat include guide means adapted to be guided in the at least one movable part of a respective side rail.
Description
ROLLER SHUTTER WITH TILTABLE SLATS
The present invention relates to a roller shutter comprising a top element and a shutter body including a plurality of slats, each slat extending in a longitudinal direction between two end edges and having first and second side edges parallel to the longitudinal direction, said shutter body being adapted to be wound up in and rolled out from said top element by means of a driving device, in a direction perpendicular to said longitudinal direction to a first screening position, in which the shutter body defines a general screening plane, wherein at least some slats of said plurality of slats are tiltable about an axis parallel to said longitudinal direction between the first screening position to a second screening position, in which each tiltable slat forms an angle with said general screening plane. Traditional roller shutters are well-known in the art and have gained widespread usage for providing almost complete screening from the outside of for instance roof windows. Roller shutters offer outstanding light and sound dampening screening relative to other screening arrangement such as marquisettes, Venetian blinds, roller blinds and the like. As they are furthermore positioned on the outside and due to the robust structure of the shutter body, roller shutters provide an additional security against burglary. Furthermore, the shutter body protects the pane, and thus in turn the room beneath the window, from downfall emanating from for instance building parts in areas exposed to violent weathering. In closely built residential areas, roller shutters may be required as an additional security in the case of fire.
However, due to the structure of traditional roller shutters, the only available screening option is that of almost complete screening. In order to meet customer demands to more flexible screening options, so- called louverable roller shutters have emerged. Such louverable roller shutters have adjustable slats that may be tilted about a longitudinal axis to form an angle with the general screening plane defined by the slats in their plane, non-tilted position. The louverable roller shutters have been developed over recent years and thus combine the advan-
tages of a roller shutter and a Venetian blind.
In its most simple form, the slats are interconnected at their longitudinal side edges, such that a front side edge of one slat is connected to the respective front side edge of adjacent slats, and correspondingly as regards the trailing side edges. In case tilting of the slats is desired, the edges of all adjustable slats are moved simultaneously to attain the tilted position. Examples of louverable shutters of a more recent kind are disclosed in, i.a., EP 1 286 016 A2 and WO 2007/017218 A2. Common to these and other items of prior art is the fact that a relatively elaborate structure is provided for allowing tilting of the slats. In the former document, only a limited number of screening positions allow for tilting of the slats, as the slat ends need to be inserted into slots positioned at a distance from each other. Furthermore, the mechanical structure of this document is particularly complicated. The roller shutter disclosed in the latter document has the further disadvantage that tilting of the slats is limited to the fully screened position, i.e. when substantially all of the slats have been rolled out from the top element.
It is an object of the invention to provide a roller shutter in which the adjustment of the slats is carried out in a simple and reliable manner, and in which adjustment may take place at any point of rolling out of the shutter body.
These and further objects are met by a roller shutter of the kind mentioned in the introduction, which is furthermore characterized in that the roller shutter is furthermore provided with two side rails, that each side rail comprises at least one part that is movable relative to other parts of the side rail, and that the end edges of each slat include guide means adapted to be guided in the at least one movable part of a respective side rail. This provides for the advantage that the relative movement required to invoke the tilting of the slats is provided moving parts of the side rails of the roller shutter relative to each other. In turn, this makes it possible to provide the simple and reliable solution aimed at, as the side rail parts are simple to design and manufacture for allowing
accommodation and guidance of the guide means of the slats interacting with the side rails. There is thus no need for separate mechanisms for inserting the slat ends into tilting means.
In one embodiment of the invention a driving element of the driving device is connected to at least one fixed part of the respective side rail. The driving element is that element of the driving device which transmits and/or performs the movement of the driving device to the shutter body during unrolling and rolling-up thereof. In a manner known per se, the driving element may comprise a cord, belt, chain etc. In this manner, the slats are tilted by simply moving the movable part guiding the guide pins with respect to the fixed parts supporting the driving element of the driving device.
In a mechanically simple development of this embodiment, the end edge of each tiltable slat includes fastening means for fastening the slat to the driving element of the driving device at the first side edge of the slat, and wherein the guide means for establishing the connection with the at least one movable part of the side rail are provided at the second side edge.
Advantageously, the guide means comprise a pin protruding from each end edge of each adjustable slat. A pin constitutes an element able to be guided smoothly on the movable part of the side rail and allowing the slat to be tilted, as it will only follow the movable side rail part during its movement.
In principle, the movable part or parts of the side rail may be moved following any suitable pattern in order to induce the tilting of the slats. Preferably, however, the at least one movable part of the side rail is movable along a curved path relative to the other parts of the side rail. This entails a movement both perpendicularly to the general screening plane, but also along the direction perpendicular to the longitudinal direction of the top element and the slats. This movement is considered to provide particularly smooth lifting of the one edge of the slats, relative to for instance a movement involving lifting perpendicularly to the general screening plane only.
In a structurally simple embodiment, said at least one movable
part is an outer side rail part connected to an inner side rail part.
Again, the movement may be carried out in any suitable manner; however, said outer side rail part is preferably connected to the inner side rail part by means of a number of link elements, each link element being pivotably connected to one and the other part. This is a mechanically simple and reliable connection to achieve the curved path (in fact part-circular path).
Alternatively, the outer side rail part may be connected to the inner side rail part by means of a pin mounted on one part adapted to be guided in a track in the other part.
The movable side rail part is preferably compartmentalized in order to allow for the guiding function. Hence, the outer side rail part may include a first flange and a second flange forming between them a track for guiding the guide means of the slats. The movement between the parts of the side rail may in principle be carried out in any suitable manner, including for instance a lifting device positioned in the side rail itself. However, preferably the at least one movable part is adapted to be actuated by a tilt mechanism at the top element. In one embodiment, the tilt mechanism comprises a toothed rack connected to the movable part and a toothed wheel cooperating with the toothed rack, said toothed wheel being adapted to be rotated by means of a drive motor.
In order to obtain the simple structure and reliable function aimed at, the drive motor for the toothed wheel is preferably separate from the motor of the driving device for the shutter body. In this manner, no complicated coupling between the different functions of the motor is necessary, which would be the case if a single motor were to be used for driving the shutter body and achieve the tilting. This improves the flexibility in operating the roller shutter, i.e. the shutter body may be unrolled and rolled out independently, and the slats may be tilted at any position of the shutter body.
However, the drive motor preferably operates on a shaft common to each side rail. In addition to the advantages connected to having
a single motor to be positioned in the top element, this provides for synchronous operation in both sides of the roller shutter.
A self-supporting unit transferring a suitable torque to the toothed wheel cooperating the toothed rack is provided in an embodi- ment, in which the drive motor is connected to the shaft by means of a planet gear. By utilizing a planet gear, it is possible to provide a simple solution to the wish for having a through-going shaft while having one motor only.
In order to unroll and roll up the shutter body, a driving element connected to the shutter body is used. The driving element of the driving device for unrolling and rolling up of the shutter body could in principle be any element capable of transferring the rotating movement of the roller bar to a translatory movement, such as for instance a chain. Preferably, however the driving element is a toothed belt. As an alternative to the toothed rack-toothed wheel connection, the tilt mechanism may comprise a linear actuator.
Further details are described, and further advantages stated, in the description of particular embodiments of the invention.
In the following the invention will be described in further detail by means of examples of embodiments with reference to the schematic drawings, in which
Fig. 1 is an isometric view of a roller shutter in an embodiment of the invention, mounted on a window and in a first screening position, part of the shutter body being removed for clarity reasons; Fig. 2 is an isometric view of a roller shutter in an embodiment of the invention, in a first screening position, part of the shutter body being removed for clarity reasons;
Fig. 3 shows a view corresponding to Fig. 2, with parts of the roller shutter removed; Fig. 4 shows, on a larger scale, a partial view of the roller shutter shown in Fig. 2, with parts of the roller shutter removed;
Fig. 5 is a view corresponding to Fig. 4; with other parts of the roller shutter removed;
Figs 6 to 9 show, on a larger scale, partial perspective views of
the roller shutter shown in Fig. 2;
Fig. 10 is an isometric view of a detail of the roller shutter shown in Fig. 2;
Fig. 11 is an isometric view of a roller shutter in an embodiment of the invention, mounted on a window and in a second screening position, part of the shutter body being removed for clarity reasons;
Fig. 12 is an isometric view of a roller shutter in an embodiment of the invention, in a second screening position, part of the shutter body being removed for clarity reasons; Fig. 13 shows a view corresponding to Fig. 12, with parts of the roller shutter removed;
Fig. 14 shows, on a larger scale, a partial view of the roller shutter shown in Fig. 12, with parts of the roller shutter removed;
Fig. 15 is a view corresponding to Fig. 14; with other parts of the roller shutter removed; and
Figs 16 to 17 show, on a larger scale, partial perspective views of the roller shutter shown in Fig. 12.
Figs 1 to 10 of the drawings show an embodiment of a roller shutter generally designated 1 in a first screening position. The roller shutter 1 has a top element 2 and two side rails 3 and 4 extending at right angles to the top element 2. A shutter body 5 includes a plurality of slats 51, of which some have been left out for clarity reasons only.
The roller shutter 1 is mounted on a window, for instance a roof window adapted for installation in an inclined roof. The window comprises in a manner known per se a window frame 6 and a window sash 7 encasing a pane 8. The window sash 7 will most often be openable relative to the window frame 6, viz. hinge connected to the window frame 6, for instance by means of a set of pivot hinges positioned close to a central axis of the window to allow the window sash 7 to pivot relative to the window frame 6, or by a more traditional hinge positioned at the top of the window.
The aperture to be screened is defined by the area limited by the top element 2, the side rails 3, 4, and the bottom of the window. This aperture thus corresponds in substance to the pane 8. In order to
attain the desired screening, the shutter body 5 is adapted to be moved from a non-screening position to a screening position, in which it covers the pane 8 and other parts of the window to a larger or lesser degree. Each slat 51 extends in a longitudinal direction between two end edges and have first and second side edges parallel to the longitudinal direction, i.e. in parallel with the top element 2. The shutter body 5 is adapted to be wound up in and rolled out from the top element 2 by means of a driving device, generally designated 10, in a direction perpendicular to said longitudinal direction to a first screening position. In the first screening position shown in Fig. 1, the shutter body 5 has been rolled out to cover the entire aperture and defines a general screening plane. In the non-screening position, in which the shutter body 5 does not cover any part of, or virtually not any part of, the pane 8, the shutter body 5 is accommodated, possibly in its entirety, in the top element 2.
The top element 2 is positioned at the top of the window and comprises in the embodiment shown a top cover 21 and two outer end covers, of which the right-hand end cover 22 is visible in Fig. 1. As will be described in further detail below, the top cover 21 and outer end covers 22 serve to hide and protect the inner parts of the roller shutter 1, such as for instance the drive mechanisms for the rolling up and unrolling of the shutter body 5 and the tilting of the slats 51. Terms such as "left-hand" and "right-hand" refer to the orientation shown in for instance Fig. 1 and are utilized for reasons of convenience only. The side rail 4 has a structure comprising parts that are movable relative to each other. In Fig. 1, only an outer side rail part 41 is visible. The side rail 4 has a bottom cover 40 at the bottom of the window. The side rails 3, 4 are connected to each other at the bottom part of the roller shutter 1, namely by a cross bar 35 connected to the bottom cover 40 of side rail 4 and its counterpart bottom cover 30 of side rail 3. The cross bar 35 may for instance be riveted to each bottom cover 30, 40. The cross bar 35 (not shown in the detailed figures) contributes to the strength and resistance as well. However, the cross bar 35 is not strictly necessary, as sufficient strength may be provided
by the side rails 3,4 themselves.
With reference to Figs 11 to 17, it may be seen that the roller shutter according to the invention is a so-called louverable roller shutter, i.e. a roller shutter having at least some tiltable slats that may be angle- adjusted relative to the general screening plane. Thus, the shutter body 5 may be brought from its first screening position shown in Fig. 1 to a second screening position, in which the slats 51 are tilted about an axis parallel to the longitudinal direction of the slats from the first screening position to a second screening position, in which each tiltable slat forms an angle with the general screening plane, cf. for instance Fig. 11.
The mechanisms required to provide the tiltability of the slats will now be described in detail. The description refers to one side of the roller shutter 1 only; the opposite side is structured in substantially the same, however mirror- in verted manner. Referring now to Figs 1 to 17 of the drawings, it is noted that in some of the figures, parts of the top element 2 and the right-hand side rail 4 have been removed in order to show the structure of some of the internal parts of the roller shutter 1, i.e. parts that are not, or only partly, visible in the mounted position or position of use shown in for instance Figs 1 and 11. In the top element 2, the top cover 21 and the outer end cover 22 have been removed. Furthermore, an intermediate end cover (not shown) has been removed to expose an inner end cover 23. In the side rail 4, the outer side rail part 41 has been removed in Figs 3 and 13 to expose an inner side rail part 42. Eventually, the bottom cover 40 has been removed to expose an intermediate bottom cover 401.
As mentioned in the above, the roller shutter 1 is provided with two side rails 3 and 4, and each side rail 3, 4 comprises at least one part that is movable relative to other parts of the side rail. In the embodi- ment shown, this is accomplished by connecting the outer side rail part 41 and the inner side rail part 42 to each other by means of a number of link elements in the form of side rail fittings 45 that are pivotably connected to each side rail part 41 and 42. Hence, the movable part of the side rail, outer side rail part 41, is movable along a curved path
relative to the other parts of the side rail, that is fixed inner side rail part 42 in addition to other parts to be described further on. As an alternative, the outer side rail part may be connected to the inner side rail part by means of a pin mounted on one part adapted to be guided in a track in the other part. Preferably, such a track would be curved.
In order to allow the unrolling and rolling-up of the shutter body 5, the end edge of each tiltable slat 51 includes fastening means for fastening the slat to a driving element of the unrolling and rolling-up driving device at the first side edge of the slat, and the guide means for establishing the connection with the at least one movable part of the side rail are provided at the second side edge. The structure of the slats 51 may be of any suitable kind, and a detailed description of one preferred embodiment is given in Applicants' co-pending international application filed on the same day as the present application and the contents of which are incorporated herein by reference.
Referring now in particular to the large scale perspective views of Figs 6-9 and 16-17 of the embodiment shown, the slat 51 comprises a slat body 510 of a suitable material, for instance extruded or roll-formed aluminium or steel, possibly filled with foam or other sound-dampening material. Another alternative could be to form the slats of a composite material, manufactured by moulding or in any other suitable manner. Into the end of the slat body 510 a first end piece 511 is inserted, the first end piece 511 including a pin 512 acting as a fastening means for fastening each slat 51 onto the driving element formed as a toothed belt 11. In the embodiment shown, the fastening is achieved by the formation of a number of eyes 111 in the toothed belt 11, through which the pins 512 of the slats 51 are introduced. The pin receiving openings or eyes could also be formed by two upstanding portions converging at the top, but not necessarily forming a closed structure. Alternatively, the pin receiving opening could be formed in the belt itself. A second end piece 513 is connected to the first end piece 511 and has a guide means formed as a pin 514 adapted to be guided in the movable outer side rail part 42. Eventually, the slat 51 is provided with a sealing strip 519 made of for instance rubber at the second side edge. The sealing strip 519
abuts on the subsequent slat 51 of the shutter body 5, on the first side edge thereof, and has the function of providing a seal between adjacent slats and also has a sound dampening effect. Although the element at the slat end is described as a relatively elaborate structure comprising first and second end pieces 511, 513, a simpler element is conceivable as well. In principle, the slat end could be formed with two protruding pins of different lengths.
The outer side rail part 41 includes a first flange 411 and a second flange 412 between which two flanges the guide means of the slats are accommodated in such a way that the pin 514 of each slat 51 abuts on and slides on the second flange 412 when unrolling and rolling up the shutter body 5. Eventually, the outer side rail part 41 has a track in the first flange 411 for receiving a first extra rail 414.
The inner side rail part 42 includes a flange 421 for guiding the toothed belt 11. A further flange 422 forms an abutment for the second flange 412 of the outer side rail part 41 in the first screening position. In the embodiment shown, the inner side rail part 42 is formed substantially as an inverted L) and has a further flange 423 extending at right angles to the flange 421 forming the support for the toothed belt 11. The inner side rail part 42 has a track 424 for receiving a second extra rail 425. The first and second extra rails 414, 425 assist in the guidance of the slats 51. Furthermore, they contribute to preventing light from entering the interior, as the extra rails overlap the shutter body 5. It is also an important contribution of the extra rails 414, 425 that they hold the shutter body in position. This is particularly important during tilting of the shutter body, as the slats will have a tendency of moving towards the tilted position to an undesired extent, if not kept in place by the flanges and/or the extra rails. However, also in the non-tilted position, the extra rails support the shutter body. Finally, the side rail 4 comprises a mounting rail part 43 for mounting the side rail to the window frame 6. To that end, the mounting rail part 43 being provided with a number of holes 430 for receiving fastening means (not shown).
Whereas the movable outer side rail part 41 is connected to the
fixed inner side rail part 42 by means of the link elements in a manner allowing the outer side rail part 41 to be moved relative to the inner side rail part 42, the inner side rail part 42 is, in turn, fixedly connected to the mounting rail part 43 and the top element 2. This connection may be carried out in any suitable manner.
At the bottom of the side rail 4, the toothed belt 11 is passed below the intermediate bottom cover 401. The two bottommost slats 51 are guided on top of the intermediate bottom cover 401 and hence below the bottom cover 40. In the embodiment shown, the two bottommost slats are not tiltable, but are fixedly connected to each other along the facing side edges. This mutual connection enforces the entire roller shutter to prevent it from possible damage in case of strong wind. These slats may also be provided with supplemental reinforcement in comparison with the remaining slats. In order to actuate the tilting, i.e. the movement of the outer side rail part 41 relative to the inner side rail part 42 in the embodiment shown and described, a tilt mechanism 15 is provided. The tilt mechanism 15 is positioned at the top element 2, and extends on both sides of the inner end cover 23 thereof as will be described in further detail. The tilt mechanism comprises a toothed rack 151 connected to the movable part of the side rail, i.e. in the embodiment shown the outer side rail part 41. To this end, the toothed rack 151 has a protrusion 153 including a fastening portion 154 for connection to the outer side rail part 41 A toothed wheel 155 adapted to be rotated by means of a drive motor 16, shown in Fig. 10 cooperates with an oblong toothed aperture 152 of the toothed rack 151. The drive motor 16 is separate from the motor of the driving device for the shutter body and operates on a shaft 17 common to each side rail 3 and 4. The drive motor 16 is connected to the shaft 17 by means of a planet gear (not shown in detail). In this way, a single motor 16 positioned in the top element 2 provides for synchronous operation in both sides of the roller shutter 1. Furthermore, a self-supporting unit transferring a suitable torque to the toothed wheel 155 cooperating with the toothed rack 151 by the connection to the shaft by means of a planet gear. By utilizing a planet gear, it is possible
to provide a simple solution to the wish for having a through-going shaft while having one motor only. Visible in Fig. 10 is furthermore the roller bar 24, on which the slats 51 of the shutter body 5 are rolled up.
Comparing Figs 4 and 14, it may be seen that following actua- tion of the drive motor 16, the shaft 17 has rotated the toothed wheel 155 within the oblong toothed aperture 152 and hence moved the outer side rail part 41 upwards and in a direction towards to the top element 2. During this movement, the toothed rack 151 is rotated slightly clockwise, seen from the external side of the inner cover 23 and has at the same time moved in a direction away from the bottom of the roller shutter. Simultaneously, the outer side rail part 41, the top cover 21, the outer cover 22, the not shown intermediate top cover, and the bottom cover 40 are lifted as a single unit. The effect on the shutter body 5 appears most clearly from Figures 15 to 17, i.e. the movable outer side rail part 41 has lifted the guide pins 514 of the slats 51 such that the slats 51 are tilted about an axis extending substantially in the longitudinal direction at the first side edge, i.e. at the fastening pins 512 accommodated in the driving element.
As an alternative to the tilt mechanism shown and described in the above, the tilt mechanism may for instance comprise a linear actuator controlled in any suitable manner.
The unrolling and rolling up of the shutter body may be performed in any suitable manner by using any driving device available in the art. In the embodiment shown, the driving element of the driving device is a toothed belt. A full description of a preferred embodiment of a driving device of a roller shutter is found in Applicant's co-pending international application filed on the same day as the present invention, the contents of which are incorporated herein by reference.
Further alternative embodiments falling within the concept of the invention involve the possibilities of having a different structure of the side rail. Hence, the outer side rail part may be made fixed, and one or more inner side rail parts consequently be made movable. Another conceivable alternative would be to have two side rail parts which are both movable.
Eventually, the roller shutter according to the invention has been described as being intended to be installed on the window frame of an openable roof window for installation in an inclined roof. However, the invention is applicable also with other kinds of windows and in other positions. For instance, the roller shutter may be mounted on the window sash, or on the frame or sash of a fixed, i.e. not openable, window, or on a window for installation in a building faςade.
The invention should not be regarded as being limited to the described embodiments. Several modifications and combinations of the different embodiments will be apparent to the person skilled in the art.
5 shutter body
51 slat
510 slat body
511 first end piece
512 fastening pin
513 second end piece
514 guide pin 519 sealing strip
6 window frame
7 window sash
8 pane
Claims
1. A roller shutter (1) comprising a top element (2) and a shutter body (5) including a plurality of slats (51), each slat extending in a longitudinal direction between two end edges and having first and second side edges parallel to the longitudinal direction, said shutter body being adapted to be wound up in and rolled out from said top element (2) by means of a driving device (10), in a direction perpendicular to said longitudinal direction to a first screening position, in which the shutter body (5) defines a general screening plane, wherein at least some slats (51) of said plurality of slats are tiltable about an axis parallel to said longitudinal direction between the first screening position to a second screening position, in which each tiltable slat (51) forms an angle with said general screening plane, c h a r a c t e r i z e d in that the roller shutter (1) is furthermore provided with two side rails (3, 4), that each side rail comprises at least one part (41) that is movable relative to other parts (42, 43) of the side rail, and that the end edges of each slat include guide means (514) adapted to be guided in the at least one movable part (41) of a respective side rail.
2. A roller shutter according to claim 1, wherein a driving ele- ment (11) of the driving device (10) is connected to at least one fixed part (42) of the respective side rail.
3. A roller shutter according to claim 2, wherein the end edge of each tiltable slat (51) includes fastening means (512) for fastening the slat (51) to the driving element (11) of the driving device (10) at the first side edge of the slat, and wherein the guide means (514) for establishing the connection with the at least one movable part (41) of the side rail are provided at the second side edge.
4. A roller shutter according to claim 3, wherein the guide means comprise a pin (514) protruding from each end edge of each adjustable slat (51).
5. A roller shutter according to any one of the preceding claims, wherein the at least one movable part (41) of the side rail is movable along a curved path relative to the other parts of the side rail.
6. A roller shutter according to any one of the preceding claims, wherein said at least one movable part is an outer side rail part (41) connected to an inner side rail part (42).
7. A roller shutter according to claim 6, wherein said outer side rail part (41) is connected to the inner side rail part (42) by means of a number of link elements (45), each link element being pivotably connected to one and the other part.
8. A roller shutter according to claim 6, wherein said outer side rail part is connected to the inner side rail part by means of a pin mounted on one part adapted to be guided in a track in the other part.
9. A roller shutter according to any one of claims 6 to 8, wherein the outer side rail part (41) includes a first flange (411) and a second flange (412) forming between them a track for guiding the guide means (514) of the slats (51).
10. A roller shutter according to any one of the preceding claims, wherein the said at least one movable part (41) is adapted to be actuated by a tilt mechanism (15) at the top element (2).
11. A roller shutter according to claim 10, wherein the tilt mechanism (15) comprises a toothed rack (151) connected to the movable part (41) and a toothed wheel (155) cooperating with the toothed rack, said toothed wheel being adapted to be rotated by means of a drive motor (16).
12. A roller shutter according to claim 11, wherein the drive motor (16) for the toothed wheel is separate from the motor of the driving device (10) for the shutter body (5).
13. A roller shutter according to claim 11 or 12, wherein the drive motor (16) operates on a shaft common to each side rail (17).
14. A roller shutter according to claim 13, wherein the drive motor (16) is connected to the shaft (17) by means of a planet gear.
15. A roller shutter according to any one of claims 2 to 14, wherein the driving element of the driving device (10) for unrolling and rolling up of the shutter body (5) is a toothed belt (11).
16. A roller shutter according to claim 10, wherein the tilt mechanism comprises a linear actuator.
Priority Applications (4)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN2008801294999A CN102046910A (en) | 2008-05-28 | 2008-05-28 | Roller shutter with tiltable slats |
EP08748819.3A EP2307654B1 (en) | 2008-05-28 | 2008-05-28 | Roller shutter with tiltable slats |
PL08748819.3T PL2307654T3 (en) | 2008-05-28 | 2008-05-28 | Roller shutter with tiltable slats |
PCT/DK2008/050120 WO2009143842A1 (en) | 2008-05-28 | 2008-05-28 | Roller shutter with tiltable slats |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
PCT/DK2008/050120 WO2009143842A1 (en) | 2008-05-28 | 2008-05-28 | Roller shutter with tiltable slats |
Publications (1)
Publication Number | Publication Date |
---|---|
WO2009143842A1 true WO2009143842A1 (en) | 2009-12-03 |
Family
ID=40348407
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
PCT/DK2008/050120 WO2009143842A1 (en) | 2008-05-28 | 2008-05-28 | Roller shutter with tiltable slats |
Country Status (4)
Country | Link |
---|---|
EP (1) | EP2307654B1 (en) |
CN (1) | CN102046910A (en) |
PL (1) | PL2307654T3 (en) |
WO (1) | WO2009143842A1 (en) |
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
EP2390455A1 (en) | 2010-05-31 | 2011-11-30 | VKR Holding A/S | Roller shutter having a top element adapted to receive one or more appliance members, screening assembly comprising such a roller shutter and one or more appliance members, and method of manufacturing such a screening assembly |
WO2011150922A1 (en) * | 2010-05-31 | 2011-12-08 | Vkr Holding A/S | Screening device and method of installation of the screening device |
EP2597245A1 (en) | 2011-11-28 | 2013-05-29 | VKR Holding A/S | Appliance members for a window and corresponding screening assembly |
WO2018154357A1 (en) * | 2017-02-24 | 2018-08-30 | Crupi, Giuseppe | Roller shutter with tiltable slats |
Families Citing this family (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
ITUA20162879A1 (en) * | 2016-04-26 | 2017-10-26 | Giuseppe Genchi | ROLLED SHUTTERS AND RELATED STATION MOVEMENT SYSTEM |
DE102016125284B4 (en) * | 2016-12-21 | 2018-07-05 | Webasto SE | Vehicle roof with carrier section and roller blind arrangement |
DE102018121853A1 (en) * | 2018-09-07 | 2020-03-12 | Thodacon Werkzeugmaschinenschutz Gmbh | Cover device |
Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
EP0059362A1 (en) * | 1981-03-04 | 1982-09-08 | Jan Hofman | Roller shutter for the closure of openings |
DE8516303U1 (en) * | 1985-06-04 | 1990-10-25 | Ernst Selve Gmbh & Co Kg, 5880 Luedenscheid, De | |
ES2138482A1 (en) * | 1996-03-15 | 2000-01-01 | Fuertes Justo Miedes | System for actuating venetian blinds with roll-up slats |
EP1286016A2 (en) * | 2001-08-09 | 2003-02-26 | Arpal Aluminium Ltd | Louverable shutter |
-
2008
- 2008-05-28 CN CN2008801294999A patent/CN102046910A/en active Pending
- 2008-05-28 WO PCT/DK2008/050120 patent/WO2009143842A1/en active Application Filing
- 2008-05-28 EP EP08748819.3A patent/EP2307654B1/en active Active
- 2008-05-28 PL PL08748819.3T patent/PL2307654T3/en unknown
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
EP0059362A1 (en) * | 1981-03-04 | 1982-09-08 | Jan Hofman | Roller shutter for the closure of openings |
DE8516303U1 (en) * | 1985-06-04 | 1990-10-25 | Ernst Selve Gmbh & Co Kg, 5880 Luedenscheid, De | |
ES2138482A1 (en) * | 1996-03-15 | 2000-01-01 | Fuertes Justo Miedes | System for actuating venetian blinds with roll-up slats |
EP1286016A2 (en) * | 2001-08-09 | 2003-02-26 | Arpal Aluminium Ltd | Louverable shutter |
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
EP2390455A1 (en) | 2010-05-31 | 2011-11-30 | VKR Holding A/S | Roller shutter having a top element adapted to receive one or more appliance members, screening assembly comprising such a roller shutter and one or more appliance members, and method of manufacturing such a screening assembly |
WO2011150922A1 (en) * | 2010-05-31 | 2011-12-08 | Vkr Holding A/S | Screening device and method of installation of the screening device |
EP2597245A1 (en) | 2011-11-28 | 2013-05-29 | VKR Holding A/S | Appliance members for a window and corresponding screening assembly |
WO2018154357A1 (en) * | 2017-02-24 | 2018-08-30 | Crupi, Giuseppe | Roller shutter with tiltable slats |
Also Published As
Publication number | Publication date |
---|---|
EP2307654B1 (en) | 2016-06-22 |
PL2307654T3 (en) | 2016-12-30 |
EP2307654A1 (en) | 2011-04-13 |
CN102046910A (en) | 2011-05-04 |
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