A portion of the disclosure of this patent document contains material that is subject to copyright protection, particularly the Figures appended hereto. The copyright owner has no objection to the reproduction by anyone of the patent document or patent disclosure as it appears in the Patent and Trademark Office, patent file or records, but otherwise reserves all copyrights whatsoever.
The present disclosure relates primarily to coverings for architectural openings. Particularly, the present disclosure is directed to embodiments of a roll-up window covering and related methods and systems.
Retractable coverings for architectural openings have assumed numerous forms over a long period of time. Originally, coverings for architectural openings such as windows, doors, archways or the like consisted principally of fabric draped across the architectural openings. Such early forms of coverings evolved into retractable roller shades, curtains, draperies, and the like wherein the covering could be extended across the architectural opening or retracted to a top or side of the opening.
An early but still popular form of covering for architectural openings is the Venetian blind wherein a plurality of vertically extending cord ladders support parallel horizontally extending slats in a manner such that the slats can be pivoted about their longitudinal axes between open and closed positions and the entire blind can be moved between an extended position wherein it extends across the architectural opening and a retracted position where the slats are accumulated in a vertical stack adjacent to the top of the architectural opening.
Vertical blinds are also available which are very similar to Venetian blinds except the slats or vanes extend vertically and are suspended from their upper ends for pivotal movement about their longitudinal vertical axes. The entire blind can be extended across the opening or retracted adjacent to one or more sides of the opening in a horizontal stack.
However, the current state of the art of Venetian blinds and similar products continue to suffer from a variety of deficiencies. Embodiments of the present disclosure provide solutions for these as well as other problems.
The purpose and advantages of the present disclosure will be set forth in, and be apparent from, the description that follows, as well as will be learned by practice of embodiments made in accordance with the disclosure. Additional advantages of the invention will be realized and attained by the methods and systems particularly pointed out in the written description and claims hereof, as well as from the appended drawings.
To achieve these and other advantages and in accordance with the purposes of the disclosure, as embodied and broadly described, in accordance with some implementations, the disclosure provides a roll-up covering for an architectural opening. The roll-up covering includes a roller having a first end and a second end and defining a width between the first end and the second end. The roller preferably defines a central rotational axis. The roll-up covering further includes a first outer elongate tape that in turn has a first end, a second end, and defines a length between the first end and the second end. The first outer elongate tape further defines a lateral width, a thickness and a first central longitudinal axis between the first end and second end of the first outer elongate tape, such as along a geometric center of the first outer elongate tape.
The first end of the first outer elongate tape can be attached to the roller such that the first central longitudinal axis of the first outer elongate tape is oriented generally orthogonally with respect to the central rotational axis of the roller.
The roll-up covering further includes a first inner elongate tape disposed proximate to the outer elongate tape. The first inner elongate tape has a first end, a second end, and defines a length between the first end and the second end. The first inner elongate tape further defines a lateral width, a thickness and a second central longitudinal axis between the first end and second end of the first inner elongate tape. The first inner elongate tape further defines a plurality of collapsible hinge segments disposed along the length of the first inner elongate tape. The collapsible hinge segments are configured to collapse in order to decrease the effective length of the first inner elongate tape when the first inner elongate tape is rolled up around the roller. The collapsible hinge segments are further configured to expand in order to increase the effective length of the first inner elongate tape when the roll-up covering is unrolled
from the roller. The first end of the first inner elongate tape can be attached to the roller such that the second central longitudinal axis can be oriented generally orthogonally with respect to the central rotational axis.
The roll-up covering further includes a plurality of slats disposed between and coupled to the first outer elongate tape and the first inner elongate tape. The slats can be oriented transversely with respect to the first and central longitudinal axes. The plurality of slats, first outer elongate tape and first inner elongate tape define a subassembly that is configured to be rolled up around the roller, wherein the first inner elongate tape is located radially inwardly with respect to the first outer elongate tape when the sub assembly is rolled up around the roller.
In accordance with a further aspect, the sub assembly can be configured to reside in a collapsed configuration wherein the slats are closed when the sub assembly is initially unrolled from the roller. The plurality of slats are preferably oriented parallel to the first inner elongate tape and the outer elongate tape when the sub assembly is in the collapsed configuration, wherein the slats are closed or substantially closed when the sub assembly is initially unrolled from the roller. The sub assembly can be deployed from the collapsed configuration into an expanded configuration wherein the slats are opened by further rotation the roller.
In many implementations, the first outer elongate tape and the first inner elongate tape can be substantially parallel along their length when the sub assembly is in the collapsed configuration and the expanded configuration. Moreover, the first outer elongate tape and the first inner elongate tape can be substantially parallel along their lengths while the sub assembly is deployed from the collapsed configuration into the expanded configuration. In an alternative embodiment, the tapes are not always parallel during deployment.
In accordance with a further aspect, a plurality of the slats, and if desired, all of the slats can have an elongate, flexible generally planar body that has an inner edge attached to the first inner elongate tape, an outer edge attached to the first outer elongate tape, and side edges joining the inner edge and outer edge. In some
implementations, at least one of an inner edge region along the inner edge of at least one slat and an outer edge region along the outer edge of the at least one slat can be stiffer than a region between the inner edge and outer edge of the at least one slat. Such flexibility can be useful in providing a versatile geometry for the roll-up covering. In some implementations, at least one of the inner edge region and the outer edge region can include at least one elongate stiffener for increasing the stiffness of the at least one slat, the at least one elongate stiffener defining a length and a central lateral axis along
its length. Thus, the inner edge, outer edge, or both edges can be provided with one or more such stiffeners.
In accordance with further aspects, the at least one elongate stiffener can be substantially planar (e.g., flat, crowned, creased, and the like) and lay in substantially the same plane as one of the first central longitudinal axis of the first outer elongate tape and the second central longitudinal axis of the first inner elongate tape. The at least one stiffener can further define a width perpendicular to the length, and a thickness perpendicular to the width and the length. The at least one elongate stiffener can have a curved cross section in a plane perpendicular to the central lateral axis (e.g. be“crowned”) such that a first curved planar face of the at least one elongate stiffener can be convex and a second, opposite curved planar face of the at least one elongate stiffener can be concave. The concave face of the at least one stiffener preferably faces the roller when the sub assembly is rolled up around the roller. The concave face of the at least one stiffener can have a radius of curvature that substantially matches a radius of
curvature of the roller. The at least one stiffener has a thickness that is preferably substantially smaller than its width.
In accordance with a further aspect, the at least one slat can includes a first stiffener proximate to the inner edge region of the at least one slat and a second stiffener proximate to an outer edge region of the at least one slat, each of the first and second stiffeners having a concave face. The concave faces of the first stiffener and the second stiffener can both face in the same direction. Moreover, the concave faces of the first stiffener and the second stiffener can have a radius of curvature that substantially matches a radius of curvature of the roller to facilitate rolling up of the sub assembly. In accordance with a further aspect, the at least one slat can be formed from a flexible fabric material. The at least one stiffener can be formed, for example, from at least one of a rigid plastic material, a metallic material, such as aluminum, titanium, brass or steel, or the like.
In some implementations, the flexible fabric material of the at least one slat can be disposed between and attached to an outwardly facing face of the first inner tape and an inwardly-facing concave face of the first stiffener along the inner edge of the at least one slat. In another embodiment, the first stiffener can be disposed in a sleeve defined along an interior portion of the slat. The flexible fabric material of the at least one slat can be disposed between and attached to an inwardly facing face of the first outer tape and an outwardly-facing convex face of the second stiffener along the outer edge of the at least one slat, among other possible configurations. The flexible fabric material of the at least one slat can be attached to an inwardly facing face of the first outer tape
along a two dimensional contact or bonding area that extends parallel to the first central longitudinal axis and transversely with respect to the first central longitudinal axis. For example, the contact or bonding area can be generally rectangularly-shaped, triangularly shaped, “X”-shaped, “L”-shaped, as desired. The flexible fabric material of the at least one slat can be attached to an inwardly facing face of the outer tape by one or more of (i) an adhesive, (ii) at least one fastener, (iii) stitching, (iv) three dimensional weaving and (v) ultrasonic welding.
In accordance with a further aspect, at least one of the slats can include at least one transverse stiffener attached to the at least one slat in a region of the slat disposed between the first outer elongate tape and first inner elongate tape. Any desired number of slats can be provided with this feature in order to help maintain uniform spacing between the tapes when the sub assembly is deployed. In one embodiment, one or more such transverse stiffeners are provided in, on or under a top slat in the sub-assembly to resist an inwardly compressive force arising from a combination of the weight of the sub assembly acting in concert with an angulation of the inner and outer tapes proximate the roller. In one embodiment, the at least one transverse stiffener can be disposed between the first stiffener and the second stiffener to provide a slat with a particularly stable shape during deployment. When the at least one transverse stiffener is disposed on an upper slat in the sub assembly, the at least one transverse stiffener is thus adapted to maintain the upper slat in a generally open condition, and causes the first outer elongate tape to be separated from the first inner elongate tape. If desired, the at least one transverse stiffener can be disposed across the slat between the first outer elongate tape and the first inner elongate tape to act as a strut to separate the tapes. Moreover the at least one transverse stiffener can be crowned for enhanced sectional modulus and column strength. Preferably, the at least one transverse stiffener is a crowned member that can buckle or otherwise collapse and roll up around the roller when the subassembly is retracted around the roller.
In accordance with one embodiment, first and second magnetic connectors can be disposed opposing one another to control the opening of the covering for the architectural opening. For example, the first magnetic connector can be disposed and movable on an outer surface of the first inner elongate tape and the second magnetic connector can be disposed and movable on an outer surface of the first outer elongate
tape, wherein the first and second magnetic connectors hold the first inner elongate tape and first outer elongate tape together to maintain at least a portion of the window covering in a closed condition. In some implementations, the first and second magnetic connectors have sufficient magnetic forces attracting each other such that moving one of the first and second magnetic connectors can cause coordinated movement of the other of the first and second magnetic connectors. In accordance with an exemplary embodiment of the present disclosure, the coordinated upward movement of the first and second magnetic connectors can cause the side edges of the plurality of slats to collapse against the first inner elongate tape and first outer elongate tape, and the downward movement of the first and second magnetic connectors can cause the side
edges of the plurality of slats to separate from the first inner elongate tape and first outer elongate tape. In the illustrated embodiment, the first connector can be movable along the second central longitudinal axis, and second connector can be movable along the first central longitudinal axis. In another embodiment, the pair of magnetic connectors can be removable from the first outer elongate tape and the first inner elongate tape. It will be appreciated that a variety of other connectors can be used in place of or in addition to the first and second magnetic connectors, such as clips and the like to selectively hold the inner and outer elongate tapes together. In accordance a further embodiment, each pair of opposing elongate tapes, such as the third and fourth, and fifth and sixth, elongate tapes (or only some of the pairs of tapes, as desired) can be provided with pairs of magnetic connectors as described above.
In accordance with still a further aspect, the first inner elongate tape and first outer elongate tape can be aligned to roll on top of each other when the sub-assembly is retracted around the roller. Alternatively, the first inner elongate tape and first outer elongate tape can be laterally displaced from each other along the length of the slats such that they do not roll on top of each other when the sub-assembly is retracted around the roller. In accordance with a further example, the first inner elongate tape and first outer elongate tape can have different lateral widths.
In accordance with one embodiment, the first inner elongate tape and first outer elongate tape can be attached proximate to a center of the roller between the first end and the second end. If desired, the ends of the slats of this embodiment can be freely floating by virtue of using one or more stiffeners along the length of each slat.
In accordance with another embodiment of the present disclosure, a door can be provided on the body of the roller, wherein the door has a width defined by the first and second end of the roller (or other suitable width), a radial curvature that substantially matches that of the roller, an inner end, an outer end, a thickness, and a length that is defined between the inner and outer end. It can be further provided that the radial curvature of the door forms a concave inner face and a convex outer face for the door.
In a further embodiment, the door can be attached to the roller via a hinge at the inner end, wherein the hinge can be a concavely curved inner end of the door on the concave inner face hooked into a receiving cavity of the roller for the width of the roller.
In accordance with another embodiment, the door can be operable to be opened by detaching or separating from the roller on the outer end and attaching to the roller at the inner end via the hinge across the width of the door. The door can be further operable to be closed by collapsing and rolling the outer end of the door toward and around the roller. In a further embodiment of the present disclosure, a raised ridge can be integrally provided on the concave inner face of the door along the width of the door whereby the ridge and the outer end of the door form a track across the width of the door and the ridge can have a concave raised edge along the width of the door. In accordance with one embodiment, the track can accommodate at least one elongate stiffener attached to a flexible slat of the covering. For example, the stiffener can be covered by a flexible portion of the slat such that the stiffener covered with the flexible portion of the slat can be disposed in the track across the width of the track. The slat can be attached to an inwardly facing face of the first inner elongate tape by, for example, adhesive, fastener(s), stitching, three-dimensional weaving, ultrasonic welding and the like.
In accordance with another embodiment of the present disclosure, a receiving track can be integrally provided on the body of the roller wherein the receiving track has a width defined by the first and second end of the roller, a radial curvature that substantially matches the curvature of the roller, a first end, a second end, a thickness, and a length defined between the first and second end of the receiving track. In a further embodiment, the receiving track can accommodate at least one elongate stiffener whereby the stiffener is covered by a flexible slat portion such that the stiffener covered with the slat portion can be disposed in the receiving track for the width of the receiving track and the slat portion of the at least one stiffener is attached to an inwardly facing face of the first outer elongate tape by, for example, adhesive, fastener, stitching, three-dimensional weaving, ultrasonic welding and the like.
In accordance with another embodiment, when the door on the roller is in an open position it maintains the upper slat of the roll-up covering in a generally open condition such that the first outer elongate tape can be separated from the first inner elongate tape. Such an embodiment can thus be used without a transverse stiffener, as described elsewhere herein. In accordance with another embodiment, the first inner elongate tape and first outer elongate tape can be attached proximate to a first end of the slats, and the roll up covering can further include a second outer elongate tape having a first end, a second end, and defining a length between the first end and the second end. The second outer elongate tape can further define a lateral width, a thickness and a third central longitudinal axis between the first end and second end of the second outer elongate tape. The first end of the second outer elongate tape can be attached to the roller such that the third central longitudinal axis of the second outer elongate tape can be oriented generally orthogonally with respect to the central rotational axis of the roller, and be displaced laterally along the roller from the first outer elongate tape, such as at the second end of the roller, or another location. The roll up covering can still further include a second inner elongate tape disposed proximate to the second outer elongate tape. The second inner elongate tape can have a first end, a second end, and define a length between the first end and the second end. The second inner elongate tape can further define a lateral width, a thickness and a fourth central longitudinal axis between the first end and second end of the second inner elongate tape. The second inner elongate tape can further define a plurality of collapsible hinge segments disposed along the length of the second inner elongate tape. The collapsible hinge segments are preferably configured to collapse in order to decrease the effective length of the second inner elongate tape when the second inner elongate tape is rolledup around the roller. The collapsible hinge segments are preferably further configured to expand in order to increase the effective length of the second inner elongate tape when the roll-up covering is unrolled from the roller. The first end of the second inner elongate tape can be attached to the roller such that the second central longitudinal axis can be oriented generally orthogonally with respect to the central rotational axis. In a particular embodiment, the second inner elongate tape and second outer elongate tape are attached proximate to a second end of the slats.
In accordance with still another embodiment the roll-up covering can further include a third outer elongate tape having a first end, a second end, and defining a length between the first end and the second end. The third outer elongate tape can further define a lateral width, a thickness and a fifth central longitudinal axis between the first end and second end of the third outer elongate tape. The first end of the third outer elongate tape can be attached to the roller such that the fifth central longitudinal axis of the third outer elongate tape can be oriented generally orthogonally with respect
to the central rotational axis of the roller. The roll-up window covering can still further include a third inner elongate tape disposed proximate to the third outer elongate tape. The third inner elongate tape has a first end, a second end, and defines a length between the first end and the second end. The second inner elongate tape can further define a lateral width, a thickness and a sixth central longitudinal axis between the first end and second end of the third inner elongate tape. The third inner elongate tape can further define a plurality of collapsible hinge segments disposed along the length of the third inner elongate tape. The hinge segments can be configured to collapse in order to decrease the effective length of the third inner elongate tape when the third inner elongate tape is rolled up around the roller. The hinge segments can further be configured to expand in order to increase the effective length of the third inner elongate tape when the roll-up covering is unrolled from the roller. The first end of the third inner elongate tape can be attached to the roller such that the sixth central longitudinal axis can be oriented generally orthogonally with respect to the central rotational axis. If desired, the third inner elongate tape and third outer elongate tape can be attached to the roller proximate a center of the roller, between the first and second sets of tapes.
In accordance with still further aspects of the disclosure, the roll-up covering can further include a weight proximate to the second ends of the first, second, and/or third inner elongate tapes. The weight is preferably configured to maintain tension on the first inner elongate tape.
In accordance with still further aspects, each of the aforementioned plurality of collapsible hinge segments can be disposed proximate to a slat in the sub assembly. In some implementations, each hinge segment can be defined by a plurality of spaced apart transverse crease lines defined in the first inner elongate tape. In some implementations, the hinge segment(s) can fold downward onto an exterior face of the first inner elongate tape when the subassembly is rolled onto the roller. In some embodiments, a lower crease line defining the hinge segment can be disposed proximate to a transverse edge of one of the slats. If desired, the lower crease line can be disposed immediately above a region where the first inner elongate tape is attached to the transverse edge of the slat.
In some embodiments, the tapes can be made from a flexible material. If desired, the crease lines can be crush formed into the flexible material. For example, the flexible material can be selected from the group including films and textiles. If desired, the textile can be selected from the group consisting of knits, wovens and non-wovens. The flexible material used for the tapes preferably have a thickness between about 1-30 mils, 1.5-25 mils, 2-25 mils, 3-20 mils, 4-18 mils, 6-16 mils, 8-14 mils, and about 10-12 mils.
In some embodiments, the tapes and slats can be made from a woven material such as a Roe-Lon® blackout drapery liner material, manufactured by Rockland Industries, Inc. (1601 Edison Hwy Baltimore, Md. 21213, (410) 522-2505). In some implementations, the stiffeners can be polymeric or aluminum crowned blind slats that are about 0.008 inches thick and 16 mm wide. In alternative embodiments, the width of the stiffeners can vary from about 3/16 of an inch to about ⅝ inch or up to about one inch. A larger stiffener width can be appropriate, particularly for slats of larger depth (e.g., 4, 4.5, 5, 5.5 or 6 inches).
In accordance with further aspects of the disclosure, subsequent slats can be separated by a substantially uniform distance along the first outer elongate tape and the first inner elongate tape. If desired, such a distance can be a standard distance (e.g., 6 omm, 72 mm), or the spacing can be customized to any desired length, as subsequent slats can be overlapped to any desired extent, such as about 5%, 10%, 15%, 20%, 25%, 30%, 35%, 40%, 45%, 50% or any increment therebetween of 1%. Thus, a custom roll-up covering may be provided wherein the spacing between adjacent slats is determined by dividing a total custom height of the subassembly by a number of desired slats. Thus, it is possible to provide a custom subassembly of custom height with a custom, uniform distance between the slats.
In accordance with a further aspect, subsequent slats can be separated by a non-uniform distance along at least one of the first outer elongate tape and the first inner elongate tape. If desired, the spacing between subsequent slats can be selected to cause the slats to open at different rates, for example, such that light will be permitted to passthrough a first portion of the roll up covering before passing through a second portion of the roll up covering.
In further accordance with the disclosure, a ladder tape is provided. Such a ladder tape can be configured to be biased to close, and to roll up onto itself. For example, such a ladder tape can include a first elongate tape having a first end, a second end, and defining a length between the first end and the second end, the first elongate tape further defining a lateral width, a thickness and a first central longitudinal axis between the first end and second end of the first outer elongate tape, the first end of the first elongate tape being configured to be attached to a roller. The ladder tape can further include a second elongate tape disposed parallel to the first elongate tape. The second elongate tape has a first end, a second end, and defines a length between the first end and the second end. The second elongate tape further defines a lateral width, a thickness and a second central longitudinal axis between the first end and second end of the second elongate tape. The second elongate tape further defines a plurality of collapsible hinge segments disposed along the length of the second elongate tape. The collapsible hinge segments can be configured to collapse in order to decrease the effective length of the second elongate tape when the second elongate tape is rolled up around a roller radially inwardly of the first elongate tape. The collapsible hinge segments can further be configured to expand in order to increase the effective length of the second elongate tape when the inner and outer tapes are unrolled from the roller.
The ladder tape can further include a plurality of connectors disposed between and coupled to the first elongate tape and the second elongate tape along the length of the tapes, the tapes and connectors cooperating to form a ladder tape suitable for receiving slats to make a blind. If desired, at least one of the connectors can include a flexible fabric body having a first end, a second end, a first planar face and a second planar face. The first planar face can be attached to an inwardly facing face of the first elongate tape at the first end, and the second planar face can be attached to an inwardly facing face of the second elongate tape at the second end. The ladder tape can be biased to fold into a planar configuration. If desired, the connectors can assume a “Z” or “S” shape when the ladder tape is deployed.
It is to be understood that both the foregoing general description and the following detailed description are exemplary and are intended to provide further explanation of the embodiments disclosed herein.
Reference will now be made in detail to the present preferred embodiments of the disclosure, examples of which are illustrated in the accompanying figures.
The embodiments of roll-up coverings herein can be used for covering any desired architectural opening such as windows, sliding doors. French doors and the like. Ladder tapes as presented herein can be used with any desirable slat configuration to achieve a desired aesthetic appearance for a window covering. Roll up coverings as set forth herein represent a significant improvement over existing technology. To Applicant's knowledge, no window coverings have existed before that provide all of the advantages, benefits, simplicity and aesthetic appeal of the disclosed embodiments.
For purpose of illustration and not limitation, a first embodiment of the device made in accordance with the present invention is illustrated in
The roll-up covering 10 further includes a first outer elongate tape 30 that in turn has a first end 32, a second end 34, and defines a length between the first end and the second end. The first outer elongate tape 30 further defines a lateral width, a thickness and a first central longitudinal axis “X1” between the first end 32 and second end 34 of the first outer elongate tape 30, such as along a geometric center of the first outer elongate tape 30. The first end 32 of the first outer elongate tape 30 can be attached to the roller such that the first central longitudinal axis of the first outer elongate tape is oriented generally orthogonally with respect to the central rotational axis “R” of the roller 20.
The roll-up covering 10 further includes a first inner elongate tape 40 disposed proximate to the outer elongate tape 30. The first inner elongate tape 40 has a first end 42, a second end 44, and defines a length between the first end 42 and the second end 44. The first inner elongate tape 40 further defines a lateral width, a thickness and a second central longitudinal axis “X2” between the first end 42 and second end 44 of the first inner elongate tape 40. The first inner elongate tape 40 further defines a plurality of collapsible hinge segments 50 (
As further illustrated in the Figures, the roll-up covering further includes a plurality of slats 60 disposed between and coupled to the first outer elongate tape 30 and the first inner elongate tape 40. The slats 60 can be oriented transversely with respect to the first and central longitudinal axes (X1, X2). The plurality of slats 60, first outer elongate tape 30 and first inner elongate tape 40 define a sub assembly 70 that is configured to be rolled up around the roller 20, wherein the first inner elongate tape 40 is located radially inwardly with respect to the first outer elongate tape 30 when the subassembly is rolled up around the roller. Locating tape 40 radially inwardly from tape 30 results in tape 40 needing to be “shorter” than tape 30. The collapsible hinge segments 50 facilitate this. Each collapsible hinge segment includes a displaceable body portion 52 that is bounded by a lower hinge 54 and an upper hinge 56. As illustrated in the figures, when the sub assembly 70 is rolled around the roller, the inner tape 40 buckles outwardly from the second central longitudinal axis X2, and forces the body portion 52 to be displaced and bent over the lower hinge 54 such that the inner tape effectively folds upon itself at each hinge point in order to effectively shorten its length, and permit the sub assembly to roll up neatly around the roller.
In accordance with a further aspect, the sub assembly 70 can be configured to reside in a collapsed configuration (
The sub assembly 70 can be deployed from the collapsed configuration (
In accordance with a further aspect, as illustrated in
As will be appreciated, the cross section of the stiffener 80 is generally vertically oriented, and provides a substantial sectional modulus and rigidity to the slats 60. As illustrated, the stiffeners can be substantially planar (e.g., flat, crowned, creased, and the like) and lay in substantially the same plane as one of the first central longitudinal axis X1 of the first outer elongate tape 30 and the second central longitudinal axis X2 of the first inner elongate tape. The at least one stiffener 80 can further define a width perpendicular to the length, and a thickness perpendicular to the width and the length, as clearly evident from the Figures. The stiffener 80 can have a curved cross section in a plane perpendicular to the central lateral axis (e.g. be “crowned”) such that a first curved planar face of the at least one elongate stiffener can be convex and a second, opposite curved planar face of the at least one elongate stiffener can be concave. The concave face of the at least one stiffener preferably faces the roller 20 when the sub assembly 70 is rolled up around the roller. The concave face of the stiffener 80 can have a radius of curvature “r” that substantially matches a radius of curvature of the roller 20. As illustrated, the at least one stiffener 80 has a thickness that is substantially smaller than its width.
As illustrated, each of the slats 60 includes stiffeners along each edge, and the concave faces of the stiffeners face the same way and are configured to face and engage with a curved surface defined by the roller 20 when the sub assembly 70 is retracted around the roller 20.
As illustrated in
In accordance with a further aspect, at least one of the slats can include at least one transverse stiffener 90 attached to the at least one slat (
As depicted in the figures, the stiffener is further positioned between the stiffeners along the edges of the top slat 60, thus ensuring that the top slat 60 can maintain its shape during and after deployment. When the transverse stiffener 90 is disposed on an upper slat in the sub assembly, the at least one transverse stiffener is thus adapted to maintain the upper slat in a generally open condition, and causes the first outer elongate tape 30 to be separated from the first inner elongate tape 40. If desired, and as presented in the Figures, the transverse stiffener 90 can be disposed across the slat 60 between the first outer elongate tape 30 and the first inner elongate tape 40 to act as a strut to separate the tapes 30, 40. Moreover the transverse stiffener 90 can be crowned similar to the stiffeners 80 for enhanced sectional modulus and column strength. Preferably, and as illustrated, the transverse stiffener 90 is a crowned member that can buckle or otherwise collapse and roll up around the roller when the sub assembly is retracted around the roller.
As illustrated in the Figures, the first inner elongate tape and first outer elongate tape are aligned behind each other such that they roll on top of each other when the sub-assembly 70 is retracted around the roller 20. In an alternative embodiment (not shown) the first inner elongate tape 40 and first outer elongate tape 30 can be laterally displaced from each other along the length of the slats such that they are not behind each other, and do not roll on top of each other when the sub-assembly is retracted around the roller. In accordance with a further example, the first inner elongate tape and first outer elongate tape can have different lateral widths (not shown), such as from about 5 mm to about 100 mm in increments of 1 mm. Furthermore, a different number of tapes can be provided along the back of the slats as compared to the front. For example, two outer tapes can be provided along the edges of the subassembly, and a single inner tape can be provided along the center of the subassembly 70.
In accordance with one embodiment, and as illustrated in
As illustrated, the ends 68 of the slats 60 of this embodiment are freely floating by virtue of using one or more stiffeners 80 along the edges 64, 66 of each slat 60. As is evident, the slats 60 can be plainly colored or can have a pattern printed on them.
In accordance with another embodiment, and as illustrated in
The first end 132 of the second outer elongate tape 130 can be attached to the roller 20 such that the third central longitudinal axis X3 of the second outer elongate tape 130 can be oriented generally orthogonally with respect to the central rotational axis R of the roller 20, and be displaced laterally along the roller from the first outer elongate tape 30, such as at the second end of the roller 20, or another location. As illustrated, the roll up covering further includes a second inner elongate tape 140 disposed proximate to the second outer elongate tape 130. The second inner elongate tape 140 can have a first end 142, a second end 144, and define a length between the first end 142 and the second end 144. The second inner elongate tape 140 can further define a lateral width, a thickness and a fourth central longitudinal axis X4 between the first end 142 and second end 144 of the second inner elongate tape 140. The second inner elongate tape 140 can further define a plurality of collapsible hinge segments 150 disposed along the length of the second inner elongate tape 140. The collapsible hinge segments 150 are the same in operation as hinge segments 50. As illustrated, the second inner elongate tape 140 and second outer elongate tape 130 are attached proximate to a second end of the slats 60.
As further illustrated in
As further illustrated in the Figures, the roll-up covering can further include a weight 95 proximate to the second ends of the first, second, and/or third inner elongate tapes 34, 44, 134, 144, 234, 244. The weight is preferably configured to maintain tension on the first inner elongate tape. The weight can be of any shape, but for purposes of simplicity it can be a weighted bar that spans the width of the roll-upcovering. For purposes of illustration, and not limitation,
In accordance with still further aspects, each of the aforementioned plurality of collapsible hinge segments 50, 150, 250 can be disposed proximate to a slat 60 in the sub assembly 70. In some implementations, each hinge segment 50, 250, 350 can be defined by a plurality of spaced apart transverse crease lines 54, 56, 154, 156, 254, 256 defined in the applicable tape 40, 140, 240 inner elongate tape. In some implementations, the hinge segment(s) can fold downward onto an exterior face 40b, 140b, 240b of the inner elongate tape(s) when the subassembly 70 is rolled onto the roller. In some embodiments, a lower crease line 54, 154, 254 defining the hinge segment can be disposed proximate to an inner transverse edge 64 of one or more of the slats 60. If desired, the lower crease line(s) can be disposed immediately above a region where the first inner elongate tape is attached to the transverse edge of the slat.
In accordance with a further aspect, the slats are preferably formed from a flexible fabric material. The stiffeners 80, 90 can be formed, for example, from at least one of a rigid plastic material, a metallic material, such as aluminum, titanium, brass or steel, or the like.
The tapes 30, 40, 130, 140, 230, 240 are preferably made from a flexible material. If desired, the crease lines 54, 56, 154, 156, 254, 256 can be crush formed into the flexible material. For example, the flexible material can be selected from the group including films and textiles. If desired, the textile can be selected from the group consisting of knits, wovens and non-wovens. The flexible material used for the tapes 30, 40, 130, 140, 230, 240 preferably have a thickness between about 1-30 mils, 1.5-25 mils, 2-25 mils, 3-20 mils, 4-18 mils, 6-16 mils, 8-14 mils, and about 10-12 mils.
In some embodiments, the tapes 30, 40, 130, 140, 230, 240 and slats 60 can be made from a woven material such as a Roe-Lon® blackout drapery liner material, manufactured by Rockland Industries, Inc. (1601 Edison Hwy Baltimore, Md. 21213, (410) 522-2505). In some implementations, the stiffeners 80, 90 can be polymeric or aluminum crowned blind slats that are about 0.008 inches thick and 16 mm wide. In alternative embodiments, the width of the stiffeners 80, 90 can vary from about 3/16 of an inch to about ⅝ inch or up to about one inch. A larger stiffener width can be appropriate, particularly for slats of larger depth (e.g., 4, 4.5, 5, 5.5 or 6 inches).
In accordance with further aspects of the disclosure, subsequent slats 60 can be separated by a substantially uniform distance along the first outer elongate tape 30 and the first inner elongate tape 40. If desired, such a distance can be a standard distance (e.g., 6 omm, 72 mm), or the spacing can be customized to any desired length, as subsequent slats can be overlapped to any desired extent, such as about 5%, 10%, 15%, 20%, 25%, 30%, 35%, 40%, 45%, 50% or any increment therebetween of 1%. Thus, a custom roll-up covering 10 may be provided wherein the spacing between adjacent slats is determined by dividing a total custom height of the subassembly by a number of desired slats. Thus, it is possible to provide a custom subassembly of custom height with a custom, uniform distance between the slats.
In accordance with a further aspect, and as illustrated in
In further accordance with the disclosure, and as illustrated in
In another embodiment of the present disclosure, the first connector 1201 has at least one metallic or magnetic contact surface, i.e., 1201.A or 1201C, which is attracted to at least one metallic or magnetic contact surface of the second connector 1202. In the preferred embodiment of the present disclosure, the magnetic attraction between the at least one metallic or magnetic contact surface, i.e., 1201.A or 1201C, of the first connector 1201 and the at least one metallic or magnetic contact surface of the second connector 1202 maintains the first connector 1201 and the second connector 1202 collapsed together. In another embodiment of the present disclosure, the first and second connectors 1201 and 1202 have sufficient magnetic forces attracting one and another such that moving one of the pair of magnetic connectors 1201 and 1202 can cause coordinated move of the other one of the pair of magnetic connectors 1201 and 1202. It will be appreciated that the illustrated magnets are permanent magnets. Any suitable permanent magnets can be used, such as those including rare earth elements and the like. If desired, one of the magnets can be replaced with a piece of steel, preferably one that has been plated or lightly coated with a corrosion resistant layer.
In accordance with an exemplary embodiment, the coordinated upward movement of the first and second connectors 1201 and 1202 can cause the side edges 68 of the plurality of slats 60 to collapse against the first inner elongate tape 40 and first outer elongate tape 30, thus causing the plurality of slats 60 to be in a closed position.
The downward movement of the first and second connectors 1201 and 1202 can cause the side edges 68 of the plurality of slats 60 to separate from the first inner elongate tape 40 and first outer elongate tape 30, thus causing the plurality of slats 60 to be in an open position. In the illustrated embodiment, the first connector 1201 can be movable along the second central longitudinal axis X2, and second connector 1202 can be movable along the first central longitudinal axis X1. In another embodiment of the present disclosure, the pair of magnetic connectors 1201 and 1202 can be removable from the first outer elongate tape 30 and the first inner elongate tape 40. Selective placement of the magnets can provide for any desired combination of privacy (below the magnets) and shading (above the magnets). It will be further appreciated that any of the disclosed roll up coverings can have slats that extend outwardly beyond the tapes that have freely floating ends. For example, the embodiments of
It will be further appreciated that some or all of the pairs of elongate tapes can be provided with pairs of magnets to selectively hold the tapes together. Thus, a roll up covering with two pairs of tapes would have four magnets, a covering with three pairs of tapes would have six magnets, and so on. It will be further appreciated that a clip or other suitable sliding fastener can be positioned over the tapes rather than magnets (or a magnet and opposing steel disc) if the tapes are at the edge of the roll up covering.
In accordance with a further embodiment of the present disclosure, for purposes of illustration, a second pair of magnetic connectors can be disposed opposite of one another such that a third connector 1203 of the second pair of magnetic connectors 1203 and 1204 can be disposed and movable on an outer surface of the second inner elongate tape 140 and a second connector 1204 of the second pair of magnetic connectors 1203 and 1204 can be disposed and movable on an outer surface of the second outer elongate tape 130 in response to and coordinated with the movement of the third connector 1203. In an exemplary embodiment of the present disclosure, the third connector 1203 and the fourth connector 1204 are magnetic discs of the same dimension, each with a circular surface, e.g., 1203A, corresponding to another circular surface, e.g., 1203C, connected by a transverse circular rim surface 1203B. In a preferred embodiment of the present disclosure, circular surfaces 1203A and 1203C of the third connector 1203 and fourth connector 1204 can be of the same radius dimension, e.g., 1203R. In another embodiment of the present disclosure, the third connector 1203 has at least one metallic or magnetic contact surface, i.e., 1203A or 1203C, which is attracted to at least one metallic or magnetic contact surface of the fourth connector 1204. In the preferred embodiment of the present disclosure, the magnetic attraction between the at least one metallic or magnetic contact surface, i.e., 1203A or 1203C, of the third connector 1203 and the at least one metallic or magnetic contact surface of the fourth connector 1204 maintains the third connector 1203 and the fourth connector 1204 collapsed together. In another embodiment of the present disclosure, the third and fourth connectors 1203 and 1204 have sufficient magnetic forces attracting one and another such that moving one of the pair of magnetic connectors 1203 and 1204 can cause coordinated move of the other one of the pair of magnetic connectors 1203 and 1204.
In accordance with an exemplary embodiment, the coordinated upward movement of the third and fourth connectors 1203 and 1204 can cause the side edges 68 of the plurality of slats 60 to collapse against the second inner elongate tape 140 and second outer elongate tape 130, thus causing the plurality of slats 60 to be in a closed position. The downward movement of the third and fourth connectors 1203 and 1204 can cause the side edges 68 of the plurality of slats 60 to separate from the second inner elongate tape 140 and second outer elongate tape 130, thus causing the plurality of slats 60 to be in an open position. In the illustrated embodiment, the third connector 1203 can be movable along the fourth central longitudinal axis X4, and fourth connector 1204 can be movable along the third central longitudinal axis X3. In another embodiment of the present disclosure, the pair of magnetic connectors 1203 and 1204 can be removable from the second outer elongate tape 130 and the second inner elongate tape 140.
In accordance with another embodiment, door 1300 can be operable to be opened by detaching or separating from the roller 20 on the outer end 1302 along the width of door 1300 and attaching to the roller at the inner end 1301 via latch element 1305. The door 1300 can be further operable to be closed by collapsing and rolling the outer end 1302 of the door 1300 toward and around the roller 20 along the width of the door 1300.
In a further embodiment of the present disclosure, as shown in
In accordance with another embodiment of the present disclosure, as illustrated in
As illustrated in details in
In a further embodiment, as illustrated in
As further illustrated in
In an illustrated embodiment of the present disclosure, shown in
In a further illustrated embodiment of the present disclosure, as show in
In further embodiments, it will be appreciated that the disclosed coverings can be oriented in any desired manner with respect to the architectural opening that it is covering. For example, in some implementations, it can be desirable for the outer surface of the inner elongate tape(s) to face the architectural opening when the covering is unrolled from the roller (e.g., window or door). In other implementations, the outer surface of the outer elongate tape(s) can face the architectural opening.
For purposes of illustration, and not limitation,
The devices and methods of the present disclosure, as described above and shown in the drawings, provide for roll up window coverings and ladder tapes with superior attributes vis-a-vis the prior art. It will be apparent to those skilled in the art that various modifications and variations can be made in the devices and methods of the present disclosure without departing from the spirit or scope of the disclosure. Thus, it is intended that the present disclosure include modifications and variations that are within the scope of the subject disclosure and equivalents.
This patent application claims the benefit of priority to U.S. Provisional Patent Application Ser. No. 61/801,058, filed Mar. 15, 2013. The aforementioned patent application is incorporated by reference herein in its entirety for any purpose whatsoever.
Number | Date | Country | |
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61801058 | Mar 2013 | US |
Number | Date | Country | |
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Parent | 15174508 | Jun 2016 | US |
Child | 16671388 | US | |
Parent | 14210257 | Mar 2014 | US |
Child | 15174508 | US |