NL1040420C2 - Rail for an architectural covering. - Google Patents

Rail for an architectural covering. Download PDF

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Publication number
NL1040420C2
NL1040420C2 NL1040420A NL1040420A NL1040420C2 NL 1040420 C2 NL1040420 C2 NL 1040420C2 NL 1040420 A NL1040420 A NL 1040420A NL 1040420 A NL1040420 A NL 1040420A NL 1040420 C2 NL1040420 C2 NL 1040420C2
Authority
NL
Netherlands
Prior art keywords
rail
housing
spring
rail according
output
Prior art date
Application number
NL1040420A
Other languages
Dutch (nl)
Other versions
NL1040420A (en
Inventor
Nico Dekker
Ralph Steenbergen
Original Assignee
Hunter Douglas Ind Bv
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority to NL1040420A priority Critical patent/NL1040420C2/en
Application filed by Hunter Douglas Ind Bv filed Critical Hunter Douglas Ind Bv
Priority to DE112014004535.7T priority patent/DE112014004535T5/en
Priority to US15/026,532 priority patent/US9903157B2/en
Priority to DE112014004528.4T priority patent/DE112014004528T5/en
Priority to GB1605596.4A priority patent/GB2534082B/en
Priority to US15/026,511 priority patent/US10208534B2/en
Priority to PCT/NL2014/000035 priority patent/WO2015050434A1/en
Priority to GB1605597.2A priority patent/GB2534083B/en
Priority to PCT/NL2014/000036 priority patent/WO2015050435A1/en
Publication of NL1040420A publication Critical patent/NL1040420A/en
Application granted granted Critical
Publication of NL1040420C2 publication Critical patent/NL1040420C2/en

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Classifications

    • EFIXED CONSTRUCTIONS
    • E06DOORS, WINDOWS, SHUTTERS, OR ROLLER BLINDS IN GENERAL; LADDERS
    • E06BFIXED OR MOVABLE CLOSURES FOR OPENINGS IN BUILDINGS, VEHICLES, FENCES OR LIKE ENCLOSURES IN GENERAL, e.g. DOORS, WINDOWS, BLINDS, GATES
    • E06B9/00Screening or protective devices for wall or similar openings, with or without operating or securing mechanisms; Closures of similar construction
    • E06B9/24Screens or other constructions affording protection against light, especially against sunshine; Similar screens for privacy or appearance; Slat blinds
    • E06B9/26Lamellar or like blinds, e.g. venetian blinds
    • E06B9/28Lamellar or like blinds, e.g. venetian blinds with horizontal lamellae, e.g. non-liftable
    • E06B9/30Lamellar or like blinds, e.g. venetian blinds with horizontal lamellae, e.g. non-liftable liftable
    • E06B9/32Operating, guiding, or securing devices therefor
    • E06B9/323Structure or support of upper box
    • EFIXED CONSTRUCTIONS
    • E06DOORS, WINDOWS, SHUTTERS, OR ROLLER BLINDS IN GENERAL; LADDERS
    • E06BFIXED OR MOVABLE CLOSURES FOR OPENINGS IN BUILDINGS, VEHICLES, FENCES OR LIKE ENCLOSURES IN GENERAL, e.g. DOORS, WINDOWS, BLINDS, GATES
    • E06B9/00Screening or protective devices for wall or similar openings, with or without operating or securing mechanisms; Closures of similar construction
    • E06B9/24Screens or other constructions affording protection against light, especially against sunshine; Similar screens for privacy or appearance; Slat blinds
    • E06B9/26Lamellar or like blinds, e.g. venetian blinds
    • E06B9/28Lamellar or like blinds, e.g. venetian blinds with horizontal lamellae, e.g. non-liftable
    • E06B9/30Lamellar or like blinds, e.g. venetian blinds with horizontal lamellae, e.g. non-liftable liftable
    • E06B9/32Operating, guiding, or securing devices therefor
    • E06B9/322Details of operating devices, e.g. pulleys, brakes, spring drums, drives
    • EFIXED CONSTRUCTIONS
    • E06DOORS, WINDOWS, SHUTTERS, OR ROLLER BLINDS IN GENERAL; LADDERS
    • E06BFIXED OR MOVABLE CLOSURES FOR OPENINGS IN BUILDINGS, VEHICLES, FENCES OR LIKE ENCLOSURES IN GENERAL, e.g. DOORS, WINDOWS, BLINDS, GATES
    • E06B9/00Screening or protective devices for wall or similar openings, with or without operating or securing mechanisms; Closures of similar construction
    • E06B9/56Operating, guiding or securing devices or arrangements for roll-type closures; Spring drums; Tape drums; Counterweighting arrangements therefor
    • E06B9/60Spring drums operated only by closure members

Landscapes

  • Engineering & Computer Science (AREA)
  • Structural Engineering (AREA)
  • Architecture (AREA)
  • Civil Engineering (AREA)
  • Blinds (AREA)

Description

Title: Rail for an Architectural Covering
The present invention relates to a rail, such as a head rail, bottom rail or intermediate rail, for use in an architectural covering having a cover, such as a blind and/or a plurality of slats, that can be moved by means of a mechanism in the rail.
Various architectural coverings are known with systems to compensate for the weight of the blind and improve operation of raising or lowering the blind. In particular, it is known to provide a spring assist module in the head rail of an architectural covering. The spring assist module stores energy when a blind is extended, e.g. lowered and releases this energy to assist in retracting, e.g. raising of the blind, for instance with a roller, drive shaft, lift spool or the like. US 2005/0217805 describes the use of a spring motor having a spring tape which is wound from a storage shaft onto an output shaft as the blind is lowered. The stored resilient energy in the spring acts to assist in lifting of the blind when the spring tape returns from the output shaft to the storage shaft.
Arrangements such as that described in US 2005/0217805 are undesirably bulky. The present application considers that it would be desirable to provide rails having depths and heights (perpendicular to the elongate length of the rail) no more than 25 mm.
It is thus an object of the present invention to provide a spring assist module of low cost and/or low complexity which can be used with rails of relatively short length and having a small width, i.e. a small height and /or depth.
According to the present invention, there is provided a rail for an architectural covering. Although the rail may preferably be a head rail, it can also be provided as a bottom rail and/or an intermediate rail. The rail includes a housing having elongate walls extending along the length of the housing. The walls also define between them a width or thickness of the housing, which will be the height and/or depth of that housing. A drive axis extends along the length of the housing and a drive shaft is rotatable about that drive axis. The drive shaft is configured to wind and unwind a lift cord or blind material of the architectural covering. The rail includes a spring assist module having an output shaft rotatable about an output axis with rotation of the drive shaft.
The spring assist module is mounted in the housing with the output axis parallel to the drive axis. In other words, at least a portion of the spring assist module is mounted inside the housing with the output axis parallel to the drive axis. The spring assist module extends outwardly in a width direction beyond the width of the housing. In other words, at least a portion of the spring assist module extends outwardly in a width direction beyond the width of the housing. In this way, a housing of relatively small width (height and/or depth) may be provided.
The spring assist module may include a torsion spring. However, if a large stroke is needed, a long torsion spring is required and this maybe unsuitable for rails of relatively small length.
The spring assist module may include a spring motor having a spring tape which is unwindable from about a storage axis parallel with the output axis. The spring tape is configured to wind resiliently around the output shaft with rotation of the output shaft. A casing may be provided for surrounding and supporting at least the spring tape wound about the storage axis. In some embodiments, at least part of that casing may extend outwardly of the housing. In particular, at a position at an opposite side of the drive axis to the output axis, the casing may extend outwardly in a width direction beyond the width of the housing along a remainder of the length of the housing. The walls of the housing may define an aperture through which the casing of the spring motor protrudes.
In this way, a housing of relatively small width or thickness (height/depth) may be provided, but a spring motor may accommodate a spring tape of larger extent by protruding the spring motor outwardly of the housing only at that part of the rail where the spring motor is positioned.
The output axis of the spring assist module may be offset from the drive axis with respect to the width (in other words, the height and/or depth) of the housing. By offsetting the output axis from the drive axis, it becomes possible to make optimum use of the full width of the rail. The spring assist module may be positioned as close as possible to one of the walls of the housing. A relatively uncomplicated and cost-effective mechanism is thus provided whilst allowing full use of the width of the housing as defined between its elongate walls.
In use, the rail may be mounted against an architectural surface. Hence, the rail may be configured with a rear side facing the architectural surface and a front side facing away from the architectural surface. In this respect, the width or thickness of the housing can be considered to be its depth. In this arrangement, the output axis and the drive axis are preferably offset in a direction extending from the front side to the rear side. It may be convenient to allow a portion of the spring assist module to extend rearwardly out of the housing, out of view when the rail is in a mounted condition.
The spring tape may have an output end connected to the output shaft. However, a storage end of the spring tape can be unconnected and rotate freely about the storage axis. By omitting the use of a storage shaft on which to wind the spring tape, the spring tape can be wound into a smaller volume for storage and the overall arrangement is simplified. Also, the storage axis is able to move towards and away from the output axis as tape is unwound and wound.
The spring tape may have a digressive spring characteristic so that a torque exerted on the drive shaft increases as more of the spring tape is wound around the storage axis. In this way, as more of the weight of a blind is supported by the drive shaft during lifting or lowering of the blind, the torque provided by the spring tape for supporting that weight increases.
It is desirable that the drive shaft should be able to rotate so as to extend a lift cord or blind material by at least 1.75 m. Hence, the stroke of the spring tape, by virtue of its length, from its fully wound condition around the storage axis to its fully wound condition around the output axis, preferably corresponds to rotation of the drive shaft for extending a lift cord or blind material by that amount.
The output shaft may be connected directly to the drive shaft for rotation therewith. This is particular advantageous in combination with offsetting the output axis from the drive axis. In this way, it becomes possible to make optimum use of the full width of the rail. The spring assist module may be positioned as close as possible to one of the walls of the housing. A relatively uncomplicated and cost-effective mechanism is thus provided whilst allowing full use of the width of the housing as defined between its elongate walls. A coupling member may directly connect the output shaft to the drive shaft. The coupling member has a first end rotationally fixed to the output shaft and rotatable about the axis. It also has a second end rotationally fixed to the drive shaft and rotatable about the drive axis. Considering a centre that extends through the coupling member between its first and second ends, the coupling member is rotatable about that centre with rotation of the output shaft and the drive shaft.
This provides a straightforward and secure way of transferring rotational drive between the spring motor and the drive shaft whilst allowing a compact arrangement in the width (height/depth) direction of the housing.
With the coupling member elongate in the direction of the length of the housing, the first and second ends of the coupling member may be separated in the direction of the length of the housing. In this way, there is no concern regarding fitting the coupling member within the width (height/depth) of the housing.
Although the coupling member could be relatively rigid with joints, such as universal joints, at each end, in some embodiments, the coupling member may be a flexible member. Such a flexible member could be embodied as a torsion spring, or a rubber rod or suchlike.
At least one lift spool may be mounted to the drive shaft for rotation with the drive shaft. The lift spool may be configured to wind and unwind a respective lift cord therefrom.
The lift spool may be keyed to the drive shaft. The lift spool is preferably conical with respect to the drive axis.
There may also be provided at least one tilt pulley for supporting a respective tilt cord. The tilt pulley may be keyed to the drive shaft. The tilt cord preferably loops around half the circumferential extent of the tilt pulley.
According to the present invention, there may also be provided an architectural covering assembly including a rail of the present invention with at least one spring assist module. In this respect, it may be noted that two or more spring assist modules, for instance two or more spring motors may be provided along the length of the rail.
The architectural covering assembly may be provided with another rail parallel with the rail of the present invention and provided at an opposite side to the blind. Indeed, one or more additional intermediate rails may also be provided. A plurality of slats may be arranged parallel with the rail of the present invention and between that rail and the opposite rail.
Where the rail includes a lift spool, the architectural covering assembly may be provided with at least one lift cord secured at one end to the opposite rail and at another end to the lift spool. The lift cord may be arranged to be wound and unwound from the lift spool so as to retract and extend the opposite rail and the slats.
Where the rail is provided with a tilt pulley, the architectural covering assembly may be provided with at least one tilt cord looped around half the circumferential extent of the tilt pulley. Preferably, the tilt cord connects with both sides of a ladder supporting the plurality of slats. The tilt pulley may be configured to slip relative to the tilt cord when the tilt cord resists movement as a result of the plurality of slats being fully tilted against each other. This may be in either tilted orientation.
The invention will be more clearly understood from the following description, given by way of example only, with reference to the accompanying drawings, in which:
Figure 1 illustrates a complete architectural covering assembly including a rail of the present invention with a plurality of slats;
Figure 2 illustrates lift and tilt components of the rail of Figure 1;
Figure 3 illustrates the spring motor and its coupling member for use in the arrangement of Figure 1;
Figure 4 illustrates the component parts of the spring motor of Figure 3; and
Figure 5 illustrates an end part of the rail of Figure 1 incorporating a spring motor.
An embodiment of the present invention will be described with reference to a spring assist module in a “cordless” Venetian blind. This is a Venetian blind in which operations of raising, lowering and tilting of the slats is achieved by manipulating the bottom rail.
As illustrated in Figure 1, the architectural covering 2 of this embodiment takes the form of a Venetian blind having a head rail 4 and a bottom rail 6.
An embodiment of the present invention will be described with reference to the head rail 4 as an example of a rail embodying the present invention. It includes a housing 8 having walls that extend along the length of the housing 8 between first and second ends 8a, 8b. The housing has a height and a depth perpendicular to the length. The distance of the height and/or depth will be considered as the thickness or width of the housing 8. A drive axis can be considered to extend along the length of the housing 8 and a drive shaft 10 is mounted so as to be positioned on this drive axis and rotate about the drive axis.
In the illustrated embodiment, two drive spools 12 are provided on the drive shaft 10. The drive spools 12 are arranged to rotate with the drive shaft 10.
In this respect, they may be fixed rotationally relative to the drive shaft 10 by being keyed thereto. In some embodiments, it may be useful for the spools 12 to be movable along the axial length of the drive shaft 10.
Lift cords 14 extend through openings in a bottom wall of the housing 8 and connect with the bottom rail 6. The lift cords 14 may be wound around their respective lift spools 12 so as to draw the bottom rail 6 towards the head rail 4, retracting the blind and, as illustrated, lifting the blind. Similarly, the lift cords 14 may be unwound from their respective spools to extend the bottom rail 6 away from head rail 4.
In the illustrated embodiment, the architectural covering includes a blind formed from a plurality of slats 20. The slats are positioned as an array between the head rail 4 and the bottom rail 6 and are arranged to be parallel therewith. When the bottom rail 6 is retracted by the lift cords 14 towards the head rail 4, successive slats 20, starting from the slat closest to the bottom rail 6, are lifted towards the head rail 4.
In the illustrated embodiment, tilt pulleys 16 are provided. In particular, two tilt pulleys 16 are provided, each adjacent a respective lift spool 12. This enables tilt cords 22 to be positioned alongside the lift cords 14 in a convenient manner.
The tilt pulleys 16 are mounted on the drive shaft 10 so as to rotate with it. In this respect, like the lift spools 12, the tilt pulleys may be keyed to the drive shaft 10.
The tilt cords 22 may be attached to or form part of known cord support ladder structures for supporting the plurality of slats 20 and enabling them to be tilted. Each tilt cord 22 extends over a respective tilt pulley 16 (over the top of the tilt pulley 16 as illustrated), preferably over about half the circumferential extent of the tilt pulley 16. Thus, when the tilt pulleys 16 are rotated, the respective tilt cord 22 will move with the tilt pulleys 16 so that, on one side of the architectural covering, the tilt cord 22 will move towards the head rail 4 and, on the other side of the architectural covering, the tilt cord 22 will move away from the head rail 4. This will operate the ladder structures so as to tilt the plurality of slats 20.
For completeness, it will be noted that Figure 2 illustrates the use of a cradle 18 for supporting the tilt pulley 16 and providing a guide for the lift and tilt cords through the bottom of the head rail 4.
Complete operation of the blind can be achieved merely by rotation of the drive shaft 10.
Starting from an extended position as illustrated in Figure 1, if the drive shaft 10 is rotated so as to rotate the lift spools 12 to wind up the lift cords 14, the tilt pulley 16 will rotate, thereby tilting all of the plurality of slats 20. Of course, rotation of the drive shaft 10 can be stopped at any point so as to leave the slats with the required orientation of tilt. If drive of the drive shaft 10 is continued, the slats 20 will contact each other and further tilting is no longer possible. The tilt pulleys 16 are arranged to allow the tilt cords 22 to slip relative to their tilt pulleys 16. Hence, the tilt pulleys 16 can continue to rotate with rotation of the drive shaft 10 and lift spools 12 as the lift cords 14 raise the bottom rail 6 and the slats 20.
When rotation of the drive shaft 10 is reversed, the tilt pulleys 16 will rotate in an opposite direction, thereby changing the tilt orientation of the plurality of slats 20. Such rotation can be stopped at any point so as to leave the slats 20 at a required orientation of tilt. However, if rotation is continued, the slats 20 will continue tilting until the slats 20 contact each other and further tilting is no longer possible. Once again, the tilt cords 22 slip relative to their tilt pulleys 16, the tilt pulleys 16 rotate with the drive shaft and the lift spools 12 unwind the lift cords 14 so as to lower the bottom rail 6 and the slats 20.
As illustrated, a spring assist module 30 is provided towards one end of the head rail 4 and connects with the drive shaft 10. In the illustrated embodiment, the walls of the housing 8 define an aperture 8c through which a casing 32 of the spring assist module 30 extends. As illustrated, the aperture 8c can be provided at the rear of the housing 8 for facing an architectural structure against which the architectural covering is mounted. In this way, the extension of the casing 32 out of the housing 8 is not visible with the architectural covering mounted in use and does not affect the appearance of the architectural covering.
Details of an embodiment of the spring assist module 30 will be described in greater detail below.
Rotational output from the spring assist module 30 is transferred directly to rotation of the drive shaft 10 by means of a coupling member 34. The coupling member 34 has a first end 36 which engages with output of the spring assist module 30, for example an output shaft to be described in greater detail below, so as to rotate with output of spring assist module 30. As illustrated, the first end 36 may have a non-circular cross section for fitting into a corresponding non-circular output fitting of the spring assist module 30. A second end 38 of the coupling member 34 similarly engages with an end of the drive shaft 10. In the illustrated embodiment, the drive shaft 10 has a non-circular cross section and the second end 38 of the coupling member 34 has a corresponding non-circular opening for engaging with the cross section of the drive shaft 10.
Thus, the first end 36 of the coupling member 34 itself rotates about the output axis of the spring assist module 30 and, similarly, the second end 38 of the coupling member 34 rotates about the drive axis of the drive shaft 10. The first and second ends 36, 38 are separated from one another by the length of the coupling member 34 in the direction of the length of the housing 8 and the coupling member 34 rotates along its length about its centre so as to transfer rotation and torque between the output of the spring assist module 30 and the drive shaft 10.
The rotational output axis of the spring assist module 30 may not be in fine with the rotational drive axis of the drive shaft 10. In particular, the two axes are parallel, but may be offset from one another. In the illustrated embodiment, this offset is in a forward/rearward direction that is perpendicular to the extension/retraction direction of the blind. As illustrated, with the casing 32 of the spring assist module 30 extending rearwardly through the aperture 8c of the housing 8, the output axis of the spring assist module 30 is positioned forward of the rotational axis of the drive shaft 10.
Thus, although the first and second ends 36, 38 of the coupling member 34 rotate about the respective axes of the output of the spring assist module 30 and the drive shaft 10 and also the coupling member 34 rotates along its length about its centre, the coupling member 34 is not itself axial but extends, along its length from one axis to another. Such a coupling member 34 could be achieved using a fixed element extending between two universal joints at each end. However, in the illustrated embodiment, the coupling member 34 is embodied as a flexible member, for instance as a torsion spring or as a rubber rod.
Preferably, at least one of the two ends 36, 38 of the coupling member 34 is not fixed axially with respect to the output axis of the spring assist module 30 and the drive shaft 10 respectively. This can be achieved, as described above, by the use of non-circular matching cross-sections, such that the coupling member 34 merely keys with one or both of the output axis of the spring assist module 30 and the drive shaft 10. When the coupling member 34 rotates, twisting and bending along its length between the two offset axes, there may be some change in the distance between its two ends 36, 38 in the direction of the length of the housing 8. By allowing one or both ends 36, 38 to move axially, such changes may be accommodated, allowing easier rotation with less stress.
The component parts of the spring assist module 30 housed within the casing 32 are illustrated in Figure 4.
In this illustrated embodiment, the casing 32 comprises a first half 32a to extend out of the housing 8 and a second half 32b.
The first half 32a includes two parallel walls 40a, 40b forming opposite ends of the casing 32. Facing sides of the walls 40a, 40b are shaped so as to receive and rotationally mount an output shaft 42.
In the illustrated embodiment, both walls 40a, 40b define through holes by which connection may be made with the output shaft 42. This allows use of the spring assist module 30 at either end of a rail. However, it will be appreciated that only one through hole need be provided.
The walls 40a, 40b may be sufficiently elastic to flex apart so as to allow the output shaft 42 to be inserted between them before being resiliently held in place. Either end of the output shaft 42 is provided with a respective flange 44 so that the output shaft 42 is held in place between the walls 40a, 40b and is rotatable about an output axis with its end held in the respective through holes (or optionally an indented portion at one end) of the walls 40a, 40b.
Figure 4 illustrates extension tags 46 which extend around the outside of the walls 40a, 40b so as to prevent them moving apart, thereby retaining the output shaft 42 in place.
The output shaft 42 is mounted on an output axis offset to one side of the casing 32. This leaves a space at the other side of the casing 32 for a spring tape 50. The spring tape 50 is a resilient tape of known type which, at rest, forms a tightly wound roll as illustrated in Figure 4. Against the resilience of the tape 50, the roll may be unwound. Unlike previous known usages of spring tapes 50, the spring tape 50 of the illustrated embodiment is not wound about a shaft. Instead, an outer surface of the spring tape 50 is guided by an inner face of the casing 32. In this respect, at least portions of the casing 32 includes curved surfaces approximately matching the outer curved surface of the spring tape 50 so as to guide its movement.
An outer end 52 of the spring tape 50 is secured to the output shaft 42. Any appropriate attachment may be made. However, as illustrated, the output shaft 42 may be provided with axially extending slots 48 into which the end 52 may be inserted and secured. Indeed, a protrusion on the output shaft 42 may engage with an aperture 54 in the end 52 of the spring tape 50. The natural resilience of the spring tape 50 may act to secure the engagement between the end 52 of the spring tape 50 with the output shaft 42.
Operation of the spring assist module 30 with respect to operation of the architectural covering will now be described.
As the bottom rail is moved away from the head rail so as to extend the blind, the drive shaft 10 rotates, by means of the coupling member 34, the output shaft 42 so as to unwind the spring tape 50 from its natural state and wind it around the outside of the output shaft 42. As more of the blind is unwound and the blind material gradually exerts a smaller torque (in case of a Venetian blind) or a larger torque (in case of a roller blind) on the output shaft 10, more of the spring tape 50 is wound, against its natural resilience, onto the output shaft 42. The resilience of the spring tape 50 and its resulting rotational force or torque on the output shaft 42 acts to counterbalance the weight of the blind. Similarly, this rotational force or torque assists a user when retracting the blind.
The arrangement as described above is particularly advantageous. Because the spring tape 50 does not rotate about a fixed shaft, but, instead, defines its own storage axis about which it rotates, that storage axis is able to move towards and away from the output axis of the output shaft 42 according to the amount of spring tape 50 wound on to the output shaft 42. This enables the amount of spring tape 50 housed within the casing 32 to be increased. It is desirable that the total stroke of the spring tape allows sufficient rotation of the drive shaft 10 to extend a blind by at least 1.75 metres. Of course, it is undesirable to have an unnecessarily large head rail 4. The described arrangement allows an increase in the length of spring tape 50 within a small casing 32. Some additional space may be achieved by, as explained above, extending the casing 32 out of a rearward portion of the housing 8 of the head rail 4. In order to maximise full use of the space within the casing 32 as explained above, the output axis of the output shaft 42 is preferably not aligned with the axis of the drive shaft 10. Nevertheless, the arrangement described above allows direct connection between the output shaft 42 and drive shaft 10 so as to transmit rotation and torque fully and without slip. Also, connection between the output shaft 42 and drive shaft 10 is uncomplicated and space efficient with respect to the height/depth of the head rail 4.

Claims (26)

1. Een rail voor een bouwkundige afscherming, omvattende: een behuizing voorzien van langgerekte wanden die zich over een lengte van de behuizing uitstrekken en daartussen een breedte van de behuizing bepalen; een rond een aandrijfas roteerbare aandrijfstang die zich over de lengte van de behuizing uitstrekt en ingericht is voor het opwikkelen en afwikkelen van ophaalkoorden of jaloeziemateriaal van de bouwkundige afscherming; een veerondersteuningsmodule met een uitgangsstang die roteerbaar is rond een uitgangsas bij rotatie van de aandrijfstang; waarbij de veerondersteuningsmodule aangebracht is in de behuizing met de uitgangsas parallel aan de aandrijfas; en waarbij de veerondersteuningsmodule zich buitenwaarts uitstrekt in een breedterichting, tot voorbij de breedte van de behuizing.A rail for an architectural shield, comprising: a housing provided with elongated walls extending over a length of the housing and defining a width of the housing therebetween; a drive rod rotatable about a drive shaft that extends along the length of the housing and is adapted to wind up and unwind fetch cords or venetian blind material of the structural shield; a spring support module with an output rod rotatable about an output axis upon rotation of the drive rod; wherein the spring support module is mounted in the housing with the output shaft parallel to the drive shaft; and wherein the spring support module extends outward in a width direction beyond the width of the housing. 2. Een rail volgens conclusie 1 waarbij de wanden van de behuizing een opening definiëren waar de veerondersteuningsmodule doorheen steekt.A rail according to claim 1 wherein the walls of the housing define an opening through which the spring support module projects. 3. Een rail volgens conclusie 1 of 2 waarbij de veerondersteuningsmodule een veermotor omvat, voorzien van een veerband die afwikkelbaar is van een opslagas die parallel loopt aan de uitgangsas en is ingericht om verend op de uitgangsstang te wikkelen bij rotatie van de uitgangsstang.A rail according to claim 1 or 2, wherein the spring support module comprises a spring motor, provided with a spring belt that is unwinding from a storage shaft that runs parallel to the output shaft and is adapted to resiliently wind onto the output rod upon rotation of the output rod. 4. Een rail volgens conclusie 3 waarbij de veermotor een omhulsel omvat voor het omgeven en steunen van ten minste het veerband dat op de opslagas gewikkeld is.A rail as claimed in claim 3 wherein the spring motor comprises a casing for surrounding and supporting at least the spring belt wound on the storage shaft. 5. Een rail volgens conclusie 4 waarbij het omhulsel zich buitenwaarts uitstrekt in een breedterichting, tot voorbij de breedte van de behuizing langs een resterend deel van de lengte van de behuizing.A rail according to claim 4 wherein the sheath extends outwardly in a width direction beyond the width of the housing along a remaining portion of the length of the housing. 6. Een rail volgens conclusies 4 of 5 waarbij de wanden van de behuizing een opening definiëren waar het omhulsel doorheen steekt.A rail according to claim 4 or 5 wherein the walls of the housing define an opening through which the casing projects. 7. Een rail volgens een der voorgaande conclusies waarbij de uitgangsas van de veerondersteuningsmodule versprongen is ten opzichte van de aandrijfas in relatie tot de breedte van de behuizing.A rail according to any one of the preceding claims wherein the output shaft of the spring support module is staggered relative to the drive shaft in relation to the width of the housing. 8. Een rail volgens een der voorgaande conclusies, waarbij de rail ingericht is om tegen een bouwkundig oppervlak aangebracht te worden, met een naar het bouwkundig oppervlak gekeerde achterzijde en een van het bouwkundig oppervlak afgekeerde voorzijde; en waarbij de uitgangsas en de aandrijfas versprongen zijn in een richting die zich uitstrekt van de voorzijde naar de achterzijde.A rail according to any one of the preceding claims, wherein the rail is adapted to be fitted against a structural surface, with a rear side facing the architectural surface and a front side facing away from the architectural surface; and wherein the output shaft and the drive shaft are staggered in a direction that extends from the front to the rear. 9. Een rail volgens conclusie 8 waarbij de uitgangsas versprongen is ten opzichte van de aandrijfas richting de voorzijde.A rail according to claim 8 wherein the output shaft is staggered relative to the drive shaft toward the front. 10. Een rail volgens één van de conclusies 3 tot en met 9 waarbij het veerband een uitgangseinde heeft dat verbonden is met de uitgangsstang en een opslageinde dat niet verbonden is en vrij roteert rond de opslagas.A rail according to any of claims 3 to 9, wherein the spring band has an output end connected to the output rod and a storage end that is not connected and rotates freely about the storage axis. 11. Een rail volgens een der conclusies 3 tot en met 10 waarbij het veerband een degressieve veerkarakteristiek heeft, zodanig dat een op de aandrijfstang uitgeoefend torsiekoppel toeneemt naarmate meer veerband op de opslagas gewikkeld wordt.A rail according to any of claims 3 to 10, wherein the spring band has a degressive spring characteristic, such that a torsional torque exerted on the drive rod increases as more spring band is wound on the storage shaft. 12. Een rail volgens een der conclusies 3 tot en met 11 waarbij de slag van het veerband van volledig op de opslagas gewikkeld tot volledig op de uitgangsas gewikkeld overeenkomt met rotatie van de aandrijfstang om een ophaalkoord of jaloeziemateriaal over ten minste 1,75 m uit te strekken.A rail according to any one of claims 3 to 11 wherein the stroke of the spring band from fully wound on the storage shaft to fully wound on the output shaft corresponds to rotation of the drive rod about a pull cord or blind material over at least 1.75 m from to stretch. 13. Een rail volgens een der voorgaande conclusies, waarbij de uitgangsstang direct verbonden is met de aandrijfstang om daarmee te roteren.A rail according to any one of the preceding claims, wherein the output rod is directly connected to the drive rod for rotation therewith. 14. Een rail volgens een der voorgaande conclusies, verder omvattende: een koppelingselement dat de uitgangsstang direct verbindt met de aandrijfstang, waarbij het koppelingselement een eerste uiteinde heeft dat roterend is bevestigd aan de uitgangsstang en roteerbaar is rond de uitgangsas, een tweede uiteinde heeft dat roterend is bevestigd aan de aandrijfstang en roteerbaar is rond de aandrijfas en een centrum heeft dat zich uitstrekt tussen de eerste en tweede uiteinden.A rail according to any one of the preceding claims, further comprising: a coupling element that directly connects the output rod to the drive rod, the coupling element having a first end that is rotatably attached to the output rod and rotatable about the output shaft, has a second end that is rotatably attached to the drive rod and is rotatable about the drive shaft and has a center extending between the first and second ends. 15. Een rail volgens conclusie 14 waarbij het koppelingselement rond het centrum roteerbaar is met de uitgangsstang en de aandrijfstang.A rail according to claim 14, wherein the coupling element is rotatable about the center with the output rod and the drive rod. 16. Een rail volgens conclusie 14 of 15 waarbij het koppelingselement langgerekt is in de richting van de lengte van de behuizing.A rail according to claim 14 or 15, wherein the coupling element is elongated in the direction of the length of the housing. 17. Een rail volgens een der conclusies 14 tot en met 16 waarbij de eerste en tweede uiteinden van het koppelingselement uit elkaar liggen in de lengterichting van de behuizing.A rail according to any of claims 14 to 16 wherein the first and second ends of the coupling element are spaced apart in the longitudinal direction of the housing. 18. Een rail volgens een der conclusies 14 tot en met 17 waarbij het koppelingselement een flexibel element is.A rail according to any of claims 14 to 17, wherein the coupling element is a flexible element. 19. Een rail volgens een der conclusies 14 tot en met 18 waarbij het koppelingselement een torsieveer is, bijvoorbeeld een rubberen staaf.A rail according to any of claims 14 to 18, wherein the coupling element is a torsion spring, for example a rubber rod. 20. Een rail volgens één de voorgaande conclusies, verder omvattende ten minste één ophaalspoel aangebracht op en ten behoeve van rotatie met de aandrijfstang, waarbij de ophaalspoel is ingericht om een respectief ophaalkoord daarop te wikkelen en vanaf te wikkelen.A rail according to any one of the preceding claims, further comprising at least one pick-up spool mounted on and for rotation with the drive rod, wherein the pick-up spool is adapted to wind and unwind a respective pick-up cord thereon. 21. Een rail volgens conclusie 20 waarbij de ophaalspoel conisch is ten opzichte van de aandrijfas.A rail according to claim 20 wherein the retrieval coil is conical with respect to the drive shaft. 22. Een rail volgens één der voorgaande conclusies, verder omvattende ten minste één tuimelpoelie, op de aandrijfstang gespied ter ondersteuning van een respectief tuimelkoord.A rail as claimed in any one of the preceding claims, further comprising at least one rocker pulley, keyed on the drive rod to support a respective rocker cord. 23. Een rail volgens conclusie 22 waarbij het tuimelkoord gelust is rond een omtrekshelft van de tuimelpoelie.A rail according to claim 22 wherein the tumbler cord is looped around a peripheral half of the tumbler pulley. 24. Een rail volgens één der voorgaande conclusies, ingericht voor gebruik als ten minste één van een bovenrail, een onderrail en een tussenrail voor een bouwkundige afscherming.A rail according to any one of the preceding claims, adapted for use as at least one of a top rail, a bottom rail and an intermediate rail for an architectural shield. 25. Een bouwkundig afschermingssamenstel omvattende een rail volgens een der voorgaande conclusies, waarbij de rail ten minste één genoemde veerondersteuningsmodule omvat.A structural shielding assembly comprising a rail as claimed in any one of the preceding claims, wherein the rail comprises at least one said spring support module. 26. Een bouwkundig afschermingssamenstel volgens conclusie 25, verder omvattende: een tegenoverliggende rail parallel aan genoemde rail; een veelvoud lamellen parallel gerangschikt aan de genoemde rail, tussen de rail en de tegenoverliggende rail; ten minste één ophaalspoel aangebracht op en ten behoeve van rotatie met de aandrijfstang, en een ophaalkoord dat aan één einde is vastgemaakt aan de tegenoverliggende rail en aan een ander einde aan de ophaalspoel en is ingericht om op de ophaalspoel gewikkeld en daarvan afgewikkeld te worden om zo de tegenoverliggende rail en lamellen in te trekken en uit te strekken; en ten minste één tuimelpoelie aangebracht op en ten behoeve van rotatie met de aandrijfstang, en een tuimelkoord dat rond de tuimelpoelie gelust is en verbonden is met beide zijden van een ladder die de veelvoud lamellen ondersteunt, waarbij de tuimelpoelie is ingericht om ten opzichte van het tuimelkoord te slippen wanneer het tuimelkoord beweging weerstaat als gevolg van de veelvoud lamellen die volledig tegen elkaar zijn getuimeld.A structural shielding assembly according to claim 25, further comprising: an opposite rail parallel to said rail; a plurality of slats arranged in parallel on said rail, between the rail and the opposite rail; at least one pick-up spool mounted on and for rotation with the drive rod, and a pick-up cord attached at one end to the opposite rail and at another end to the pick-up spool and arranged to be wound and unwound from the pick-up spool to thus retracting and extending the opposite rail and slats; and at least one rocker pulley mounted on and for rotation with the drive rod, and a rocker cord looped around the rocker pulley and connected to both sides of a ladder supporting the plurality of slats, the rocker pulley being adapted to toggle toggle when the toggle resists movement due to the plurality of slats that are completely tumbled together.
NL1040420A 2013-10-01 2013-10-01 Rail for an architectural covering. NL1040420C2 (en)

Priority Applications (9)

Application Number Priority Date Filing Date Title
NL1040420A NL1040420C2 (en) 2013-10-01 2013-10-01 Rail for an architectural covering.
US15/026,532 US9903157B2 (en) 2013-10-01 2014-09-30 Rail for an architectural covering
DE112014004528.4T DE112014004528T5 (en) 2013-10-01 2014-09-30 Rail for an architectural cover
GB1605596.4A GB2534082B (en) 2013-10-01 2014-09-30 Rail for an architectural covering
DE112014004535.7T DE112014004535T5 (en) 2013-10-01 2014-09-30 Rail for an architectural cover
US15/026,511 US10208534B2 (en) 2013-10-01 2014-09-30 Rail for an architectural covering
PCT/NL2014/000035 WO2015050434A1 (en) 2013-10-01 2014-09-30 Rail for an architectural covering
GB1605597.2A GB2534083B (en) 2013-10-01 2014-09-30 Rail for an architectural covering
PCT/NL2014/000036 WO2015050435A1 (en) 2013-10-01 2014-09-30 Rail for an architectural covering

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NL1040420A NL1040420C2 (en) 2013-10-01 2013-10-01 Rail for an architectural covering.

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DE3807134A1 (en) * 1988-03-04 1989-10-26 Schieffer Gmbh Co Kg ROLLING DOOR WITH A FLEXIBLE DOOR LEAF
US20020079067A1 (en) * 2000-09-25 2002-06-27 Mccarty Michael J. Horizontal mount for a headrail of a window covering
EP2181233B1 (en) * 2007-07-19 2012-03-21 Teh Yor Co., Ltd. Self-raising window covering
US20090283226A1 (en) * 2008-05-16 2009-11-19 Li-Ming Cheng Roller Shade
TWI468580B (en) * 2012-03-07 2015-01-11 Bao Song Prec Industry Co Ltd Control device for liberally stopping a cordless blind

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