AU662030B2 - Covering assembly for architectural openings - Google Patents

Covering assembly for architectural openings Download PDF

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Publication number
AU662030B2
AU662030B2 AU30315/92A AU3031592A AU662030B2 AU 662030 B2 AU662030 B2 AU 662030B2 AU 30315/92 A AU30315/92 A AU 30315/92A AU 3031592 A AU3031592 A AU 3031592A AU 662030 B2 AU662030 B2 AU 662030B2
Authority
AU
Australia
Prior art keywords
covering
vanes
light control
sheer
fabric
Prior art date
Legal status (The legal status 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 status listed.)
Expired
Application number
AU30315/92A
Other versions
AU3031592A (en
Inventor
James M. Anthony
Wendell B. Colson
Brian M. Hoffmann
Cornelis Marinus Jansen
Brad H. Oberg
Paul G. Swiszcz
Eric N. Williams
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Hunter Douglas International NV
Original Assignee
Hunter Douglas International NV
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 claimed from US07/810,331 external-priority patent/US5287908A/en
Priority claimed from US07/977,788 external-priority patent/US5392832A/en
Application filed by Hunter Douglas International NV filed Critical Hunter Douglas International NV
Publication of AU3031592A publication Critical patent/AU3031592A/en
Application granted granted Critical
Publication of AU662030B2 publication Critical patent/AU662030B2/en
Anticipated expiration legal-status Critical
Expired legal-status Critical Current

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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
    • 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
    • E06B9/262Lamellar or like blinds, e.g. venetian blinds with flexibly-interconnected horizontal or vertical strips; Concertina blinds, i.e. upwardly folding flexible screens
    • 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
    • E06B9/34Lamellar or like blinds, e.g. venetian blinds with horizontal lamellae, e.g. non-liftable roller-type; Roller shutters with adjustable lamellae
    • 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
    • E06B9/36Lamellar or like blinds, e.g. venetian blinds with vertical lamellae ; Supporting rails therefor
    • 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
    • E06B2009/2423Combinations of at least two screens
    • E06B2009/2435Two vertical sheets and slats in-between

Landscapes

  • Engineering & Computer Science (AREA)
  • Structural Engineering (AREA)
  • Architecture (AREA)
  • Civil Engineering (AREA)
  • Blinds (AREA)
  • Laminated Bodies (AREA)
  • Curtains And Furnishings For Windows Or Doors (AREA)
  • Buildings Adapted To Withstand Abnormal External Influences (AREA)
  • Window Of Vehicle (AREA)
  • Bathtub Accessories (AREA)
  • Building Environments (AREA)
  • Perforating, Stamping-Out Or Severing By Means Other Than Cutting (AREA)
  • Liquid Crystal (AREA)

Abstract

A covering assembly in the form of a window blind includes a front sheer fabric 516, provided with a plurality of forward and rearward pleats 518,520, and a rear elongate sheer fabric 522, again provided with forward and rearward pleats 524,526. A plurality of vanes 528 interconnect the front and rear sheets and are connected to the front and rear sheets at the location of the pleats. In one embodiment one edge of each vane is connected to the rear interior face of the forwardly extending pleat of one sheet, while the other edge is connected to the front interior face of a forwardly extending pleat of the rear sheet, and in another embodiment the one edge is connected as previously mentioned, but the other edge is connected to the forward interior face of a forwardly extending pleat of the rear sheet. <IMAGE>

Description

,p -1-
AUSTRALIA
PATENTi ACT 1990 COMPLETE SPECIFICATION FOR A STANDARD PATENT
ORIGINAL
Name of Applicant: Actual Inventors: HUNTER DOUGLAS INTERNATIONAL N.V.
I
James M. Anthony, Brad H. Oberg, Wendell B.
Colson, Brian M. HoffmanQ Eric -O Williams, Paul W. Swiszcz and Cornelis Marinus Jansen
C..
Address for Service: SHELSTON WATERS Clarenca Street SYDNEY NSW 2000 4* P. 9 1 P 14 Invention Title: "COVERING ASSEMBLY FOR ARCHITECTURAL OPENINGS" P 14* e The following statement is a full description of this invention, including the best method of performing it known to us:- !a la COVERING ASSEMBLY FOR ARCHITECTURAL OPENINGS The. present invention relates to a covering assembly particularly for windows, doors and other architectural openings.
There are many known forms of covering assemblies for windows, doors and the like including curtains, roller blinds, venetian blinds, drapery and the like. Recently there has been proposed a window covering assembly which includes a first and second generally parallel spaced apart vertically extending sheer fabrics having a plurality of spaced generally parallel transversely extending vanes fixedly secured to the first and second sheer fabrics to extend therebetween.
15 The sheer fabrics are often constructed of a 49* translucent or transparent material and may be in the form of woven or knitted fabrics or non-woven fabrics or indeed ,'rt may simply be sheets of plastics material. The vanes are ¢rtc usually opaque or semi-opaque and by adjusting the relative positions of the sheer fabrics, the vanes can be caused to tilt relative to the sheer fabrics rather in the manner of the slats of a horizontal or vertical blind. Conventionally the vanes extend horizontally in such assemblies and the sheer fabrics are supported on a tilt roll which can also be 25 used as a wind up roll. Also known are vertical venetian 'tblinds in which the individual vanes extend vertically; such assemblies have a head rail for opening and closing the assembly and for tilting the vanes when the assembly is in the closed position covering the opening.
It is a primary object of the present invention to provide a novel covering assembly that will have all of the Sattributes and advantages of a vertical blind while having all the attributes and advantages of drapery.
The foregoing is accomplished by providing a vertically oriented fabric assembly with front and rear sheers and vertically disposed vanes extending therebetween.
A unique carrier system supports the front and rear sheers 2 to enable them to shift from a maximum light admitting orientation to a minimum light admitting orientation by rotating the vanes about vertical axes. The carrier system also enables the panels of the assembly defined as a vane and the juxtaposed portions of the front and rear sheers, to collapse and fold up upon themselves much like conventional drapery. A further important feature of the present invention is that the front and rear sheers should have diagonal stability so that when the vanes are operated, by one means or another, at the top, the diagonal stability ensures that the vanes operate equally well at their bottoms.
In order that the present invention may more readily be understood, the following description is given, 15 merely by way of example, reference being made to the accompanying drawings in which:- Figure 1 is a schematic perspective view of one 0..0embodiment of fabric light window covering used in a light o00q V0 control assembly of the present invention; Fic "es la and lb show (as viewed under the microscope) two different forms of sheer fabric material 0 suitable for use with the assembly of Figure 1; Figure 2 is a perspective view of a head rail and one embodiment of carrier used for mounting the covering of 25 Figure 1; Figure 3 is a schematic side elevation showing how *0o009 a sheer fabric is mounted on a hanger of a carrier of Figure 2; Figure 4 is a plan view of a carrier of Figure 2; °eoIa S 30 Figure 5 is a schematic top plan view showing the fabric covering open and where the hanger of the carrier is attached to the sheer fabric; Figure 6 is a schematic top plan view showing the fabric covering nearly closed; Figure 7 is a schematic top plan view showing the fabric covering over-closed; Figure 8 is a schematic top plan view showing the -s I 1
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fabric covering collapsed or drawn back state; Figure 9 is a schematic top plan view showing the over-closed position of Figure 7 in enlarged detail; Figure 10 is an elevational view, part broken away of a modified carrier assembly; Figure 11 is a sectional elevational view of the modified assembly; Figure 12 is an enlarged plan view of the modified assembly; Figure 13 is a schematic showing cords for moving carriers and a tilt rod; Figure 14 is a somewhat schematic view of another modified carrier assembly; Figure 15 is a view similar to Figure 14 of still 2 15 another modified carrier assembly; Figure 16 is a view similar to Figure 14 of a further modified carrier assembly; o Figure 17 is an fragmentation plan view on the line XVII-XVII the carrier assembly of Figure 16; Figure 18 is a schematic perspective view of a further embodiment of window covering according to the •2 invention; Figure 19 is a top view of the covering of Figure 18 in the stretched state; P Figure 20 is a view similar to Figure 18 of a still further embodiment; Figure 21 is a perspective view of a still further embodiment; Figure 22 is an enlarged cross-sectional plan of S" 30 the assembly of Figure 21; Figure 23 is a schematic perspective view of a still further embodiment of window covering according to the i invention; Figure 24 is an enlarged cross-section showing the assembly of Figure 23; i Fi'!ure 25 is a schematic perspective view of a further embodiment of assembly according to the invention; i I J Irar~ur~-rrunu;-, L aYPo-~q 9r*-rW 1 -rUCIl nmn(_~~ 4 Figure 26 is an end elevation of the assembly of Figure Figure 27 is a view similar to Figure 26 of a slightly modified version; and Figure 28 is a schematic perspective view of yet another embodiment of blind assembly according to the invention.
A fabric light control window covering (Figure 1) comprises first (front) and second (rear) parallel translucent or transparent fabric sides or faces 10,12 and a plurality of opaque or semi-opaque vanes 14 extending between the fabric sides with the vanes being angularly controllable by relative movement of the fabric sides. The fabric sides are preferably sheer fabrics and will be so 15 referenced hereafter.
The window covering has a neat and uniform construction and outer appearance in all degrees of light 1t control. The light control vaes are bonded to the sheer *I p. fabric utilizing linear application of a suitable adhesive along straight bond lines 16 and, thus, a high degree of controllability of the adhesive application process and bonding of the vane is obtained. The precisely uniform i fconstruction improves the operation of the covering by preventing warps or distortions from developing over its life.
The covering operates with a high degree of repeatability, that is, always returns to the same p(appearance when closed. Thus, a feature of the present invention is attachment of the vanes to the sheer fabric sides such that the vanes tend to bias the window covering toward the minimum light admitting position. A further feature of the invention in this respect is a novel heat setting of the three layers together in order to provide a uniform and wrinkle-free shade at any temperature in subsequent use. These features allow the window covering to maintain its original shape and appearance even in the presence of temperature extremes encovtered in a window environment.
Accordingly, a fabric light control shade (door or window covering) according to the present invention comprises a first sheer fabric sheet, a second sheer fabric sheet disposed parallel to the first sheet, and a plurality of relatively opaque fabric vanes adhesively bonded transversely between the sheet fabrics. Each vane has a edge portion bonded to the first sheet and an opposite edge portion bonded to the second sheet in a manner tending to bias the first and second sheets together. The window covering according to the present invention is adjustable between a closed position, minimum or no light entry, preferably no see through, and an open position, maximum light entry. The closed position is characterized by a central portion of the fabric strips being substantially parallel to the first and second sheer fabric sheets with the strips themselves being substantially planar; in this ""position, the front and rear sheets with vanes sandwiched therebetween are collapsed together. The open position is characterized by the central portion of the fabric strips being substantially perpendicular to the first and second fabric sheets and to the bonded edge portions of the strips 41:,6 themselves; in this position the front and rear sheets are spaced apart the maximum distance. Also, characteristic of this position is that portions of the strips between the bonded edge portions and central portions form smoothly curving surfaces which are free of creases or sharp folds.
:1 *In an alternative embodiment, the central portions of the fabric strips are substantially flat and longitudinally extending hinge or flex points are provided parallel to the bonded edge portions. The cover.ng is adjustable between the two positions by relatively shifting the front and rear sheets 10,12. This action moves them closer and closer together until they are collapsed together. In intermediate positions the light control is achieved.
When the window covering material is in a fully open, light admitting position, each vane has a central 1 i 6 portion which is substantially perpendicular to the first and second sheer fabrics. Edge portions of the vanes, which are bonded to the sheF,: fabrics, are connected to the central portion by transition portions having a smoothly curving shape. The adhesive bonding of the vanes allows formation without creases or sharp folds. The smoothly 4 curved nature of these transition portions, in the fully open position, allows the vane to retain its resiliency and thus tends to bias the sheer fabrics into a closed or drawn together position. This ensures that the window covering does not lose its shape over time from repeated opening anid closing. Furthermore, creases along the vanes can develop into failure points due to repeated bending inherent in the opening and closing of the window covering.
Moire effect must be avoided in the window covering. Although sheer woven fabrics having small interstices between the fibers provide a pleasant and desirable appearance for the first (front) and second (rear) too".
to. sheer fabrics, when the same or very similar material of this type is used for the first and second sheer fabrics, a moire pattern is created by the fabrics when viewed in overlaying relationship due to light interference effects.
This moire effect is eliminated in the present invention by providing for the first and second sheers woven and i 6 25 a~ preferably knit fabrics of materials having differently 4 sized, shape and/or oriented interstices. According to the present invention, the moire effect is also avoided by using a nonwoven sheer material as one or both of the first and 0 4n second fabrics or by using a transparent plastic material asP Sone or both of the first and second fabrics.
To avoid the undesirable moire effect when the first and second sheets of woven or knit material are viewed i.n overlying relation in the window covering of the present invention, the first and second sheers must have different appearances when the sheer panels are viewed along an axis perpendicular to the planes of the first and second sheer fabrics. The required difference in appearance between the first sheer and the second sheer can be achieved in several different ways.
The first or front sheer 10 can be a woven or knit fabric having interstices of one shape and size and the second or rear sheer 12 can be a woven or knit material 1 ving interstices of a second shape and/or size and/or ientation. For example, the threads of the first sheer may run at an angle in range 30 to 600 relative to the vertical but in a preferred form run at an angle of relative to vertical. The threads of the first sheer, for example, may run diagonally, forming diamonds, whereas the threads of the second sheer may run orthogonally fn'-ming squares. With this relationship between first and second sheers, the appearance of a moire pattern can be avoided.
15 Also, as described in more detail below, it is desirable that both sheer fabrics should have dimensional stability on the bias or diagonal.
It is also possible to avoid the moire effect and provide the required difference in appearance by using a nonwoven sheer material, such as a plastic film material, for one of the sheers and a woven or knit material for the 1 0 other of the sheers of the covering. Alternatively, nonwoven sheer materials, such as those formed from the same or different plastic fibres, can be used for both the first and second sheers. A translucent or transparent plastic film material can also be used as the first and/or second fabr The use of a transparent material for at least one of the first and second fabrics also avoids the moire O effect.
To achieve a suitable structure of the vanes, the vane material must have a certain degree of softness. As a general principle, the wider the vanes 14, the stiffer the vane material can be. However, since a broad range of vane widths may be employed in window coverings in accordance with the present invention, it is difficult to precisely define an acceptable softness or stiffness range for the vane material.
I
8 A simple and effective physical test has been devised to determine whether a particular fabric is suitable for vanes having a specific vane width. The fabric being tested is allowed to hang over the edge of a table such that the distance from the edge of the fabric to the table top equals the desired vane width. If this width of fabric hangs substantially vertically, then it has sufficient softness for a vane of that vane width. For example, if a fabric is being tested for use as a 50mm wide vane, the edge of the fabric is extended 50mm beyond the edge of the table.
If the extended 50mm of the fabric hangs substantially vertically from the table edge, it is suitable for use as a wide vane material. If the extended 50mm of the fabric does not hang substantially vertically, the fabric is too stiff to produce 50mm wide vanes having the gently curved appearance.
Stiffer fabrics, those which do not hang substantially vertically over a table edge at the length of the desired vane width, can also be used as the vane material. However, if a stiffer fabric is used for the vanes, longitudinally extending hinge or flex points must be provided along the edges of the vanes. The urse of a stiffer fabric provided with hinge points produces a covering having a somewhat different appearance. In these circumstances, vanes have a straighter appearance and have a sharp bend at r Ithe hinge points, rather than a gently curving portion. The hinge points may be provided by score-compressing a stiff vane material, parallel to the longitudinal edges of the vane material. The score-compressed lines formed in the stiff vane material are spaced apart from the longitudinal edge of the vane material a distance sufficient to allow i adhesive lines to be applied to the vane material between the longitudinal edge of the vane material and the scorecompressed line.
A structure of the above type can also be produced using a soft vane material as previously described. In this embodiment, a stiffening agent is printed on the vane S9 i material in the central portion thereof to provide flatter vanes. The longitudinal edges of the vane material are left Sfree of stiffening agent and the required hinge points are i formed at the longitudinally extending edges of the printed on stiffening agent. The adhesive lines are applied to the longitudinal edges of the vane material, which longitudinal edges have been left free of stiffening agent.
According to another embodiment of the present invention, the vanes are formed of a black-out laminate material to maximize the room darkening effect of the window covering when the vanes are oriented in the closed position.
A suitable black-out laminate material is a three play laminate comprising a polyester film such as MYLAR sandwiched between two layers of a spun bonded or spun laced 15 polyester nonwoven material. Such a three play laminate has, by virtue of its construction, a greater stiffness than most single ply materials. Accordingly, score-compressed hinge points could be provided in the black-out laminate i' ,vane material if necessary.
Alternatively, to produce a covering of the present invention having a maximized room darkening effect, only a stiffened central portion of the vanes is formed from a black-out laminate material. The longitudinal edges of the vanes are left free of the black-out laminate to provide 25 the required hinge points and flexibility along the edges of the vanes. When the black-out laminate is provided only on the central portion of the vanes, it is desirable to space .0 the vanes closer together than described above in order to ensure that the black-out laminated central portions overlap I 30 when the covering is closed, for maximum room darkening effect. For example, for a 63.5mm wide vane with a 38mm wide black-out laminated central portion, the overlap of the vanes is preferable about 13mm.
Another possible vane material is vinyl or a laminate of a nonwoven material and a vinyl material.
Generally, vinyl materials and laminates of nonwoven material and a vinyl material provide an increased room i c CI r~f
I
9r *9 I 9 -t t I I I 9 4 i darkening effect but are soft enough that score-compressed hinge points are not required. Of course, score-compressed hinge points could be provided if necessary.
As discussed with respect to the first and second sheers of the covering, when two woven fabrics are viewed in an overlaying relationship, an interference pattern or moire effect can result. When a nonwoven fabric is used for the vane material, the problem of a moire effect in the covering when it is closed is avoided. In some instances, however, it may be desirable to use a woven or knit material for the vane material. A basic woven material will give a moire effect because this type of material has a very ordered orthogonal surface structure. To avoid a moire effect when the covering, having a woven or knit vane material, is in 15 the closed position, a crepe woven materials can be used as the vane material because crepe woven materials have a much more randomly oriented surface structure. Alternatively, the surface of the woven or knit material can be altered to randomize the surface fibers, for example, by sanding, napping or calenderizing.
Coverings having first and second sheer fabrics and vanes of various colours, and combinations of colours are contemplated within the scope of the present invention.
For example, to provide a more transparent covering in the 25 open position, dark sheer material can be used for the first and second sheers because dark colours reflect less light than lighter colours. Similarly, white or light coloured sheer materials provide a more translucent effect when the covering is open.
The vanes may be the same colour or a different colour than the first and second sheer fabrics. A problem of glue line show-through has been experienced, however, when the vane material is a dark colour and the first and second sheer fabrics are of a considerably lighter colour or white, To overcome the problem of a dark glue line showing through a light coloured sheer material when the vane is adhesively bonded to the first and second sheer fabric of 11 the covering, a small amount of whitener, about 0.5 to by weight, is added to the adhesive before it is applied to the vane material. A particularly suitable whitener is titanium dioxide. The addition of this whitening pigment to the adhesive eliminates the problem of dark coloured glue lines being visible in a covering wherein a dark coloured vane is adhesively bonded to a lighter coloured sheer fabric. Also, the addition of titanium dioxide to the glue can be a way to dull the glue lines.
L
With respect to the vanes, it has been unexpectedly found that by increasing the machine-direction or lengthwise tension on the material prior to and during application of a binder composition, the machine-direction stiffness of the treated fabric is advantageously and 15 significantly increased with a slight decreased in cross- •direction stiffness of the treated fabric. The strips used S* for the vanes are cut from the treated fabric. A high ratio of machine-direction stiffness to cross-direction stiffness is desirable in the treated fabric, particularly when the treated fabric is to be fabricated into vanes. Depending upon the type and number of yarns in the woven textile r' material, the ratio of machine-direction stiffness to cross- v direction stiffness for treated fabric according to this invention can range from between about 3:1 to 50:1, or more.
25 Increasing the machine-direction tension on the woven material while allowing neck down or letting the fabric go slack in the cross-direction causes the warp yarn filaments to draw in tightly and then the applied binder composition bonds these warp yarn filaments together such that the bonded filaments act as one much stiffer yarn. The lack of tension in the cross-direction allows the fill direction filaments to remain fluffy and, therefore, to not bond as easily to one another when the binder composition is applied.
In this process of treating the woven textile material to produce the treated fabric for the vanes, the fabric is treated with a low percentage (up to about by
'\A
SHELSTON WATERS CLARENCE STREET, SYDNEY, AUSTRALIA (1 12 weight solids add on of a binder composition. The preferred binder composition is applied to the woven textile material in an amount of about 2% by weight solids add on.
The binder composition with which the woven textile material is treated can be any suitable composition capable of filling the interstices in t.ie woven textile material to bind the individual fibers. Examples of suitable types of binder compositions include elastomers which are capable of binding the individual fibers of the woven textile material and which are resistant to ultraviolet (UV) radiation and to breakdown or degradation due to other environmental factors. Especially preferred compositions are elastomeric acrylics and elastomeric Surethane-type compositions.
The maximum spacing of the front and rear sheers S: is dependent on the vane width. According to the invention vane Widths of 50 to 150mm before assembly are used but 63.5 to 100mm widths are preferred. In the best mode for carrying out the invention the maximum spacing between the front and rear fabrics is 67mm using vanes 89mm wide with 76mm spacing between successive vanes to achieve an appropriate vane overlap.
It is also desirable for both sheer fabrics 10 and 12 to have dimensional stability generally in the bias or diagonal lines as indicated by the arrows A and B in Figure S'1. The reason for this is as follows.
In a window covering of this nature, the covering i is opened and closed by moving the front and rear sheer fabrics 10 and 12 horizontally relative to each other, conveniently by forces which are applied to the top edges of the respective sheers by actuators, or the like yet to be described. When the covering is being closed, the sheers are moved in the horizontal directions indicated by arrows C and D. During this operation, to provide effective closure of the vane over the entire height of the covering the front sheer 10 should be dimensionally stable diagonally, in the direction of arrows A, and the back sheer 12 should also i" 13 be dimensionally stable in the direction of arrows B.
Conversely, when the covering is being opened and the sheers are moved horizontally in directions opposite arrows C and D, in order to ensure uniform turning of the vanes from top to bottom the front sheer 10 should be dimensionally stable in the direction of arrows B and the back sheer 12 should be dimensionally stable in the direction of arrows A.
The diagonal stability referenced above can be obtained from knitted fabrics and such fabrics are preferable for use in the present invention. Knitted fabrics can be formed in numerous configurations including those where the knitted yarns run diagonally of the fabric and thus promote the desired stability. Commercially available knitted patterns are illustrated in Figures la and 15 lb and either would be suitable for use in the present invention. By utilizing the knitted patters of Figure la for the front or the back sheer and the kn:iitted pattern of Figure Ib for the other sheer, the undesirable moire effect t can be avoided.
This can be best achieved by having the front sheer 10, that facing the interior of the room, formed "tof a knit material such as that illustrated in Figure lb.
This is a tulle-type fabric made on a warp knitter which is characterized by diamond-shaped interstices 27. The diamond shapes effectively counter diagonal forces as well as help to cancel out moire patterns in conjunction with the more orthogonal structure of the rear sheer.
w ino The rear sheer 12, which generally faces the window or outdoors, is best formed of a knit material such as that illustrated in Figure la. This type of fabric is also made on a warp knitter. It will be seen that such a fabric, as viewed under the microscope, has a plurality of generally parallel bundles of yarn. These bundles are joined by a plurality of generally transverse extending very fine yarns 15,17,19,21. These yarns extend diagonally upward and to the right at slightly different angles to the horizontal on one side of each bundle 1 and extend 14 downwardly and to the left, again at these different angles to the other side of the bundles.
The above-described fabric structure produces diagonal dimensional stability to the fabric in the direction of the arrows A and B in Figure 1 and yet provides considerable lateral softness and longitudinal strength.
The fabric light control window or door covering is to be supported from carriage assemblies 20 (Figure 2) that have freely rotatably mounted wheels 22 that ride on tracks 24 defined by a conventional drapery track generally designated as 26. The main body 28 of the carriage is a plastic molded body in which is held a bearing for a gear easily pushed into the body, and is in meshing engagement with a worm 32 journalled in body 28 and operated _15 by a splined tilt rod 34 which extends through the worms of :all the carriers. Rotation of rod 34 via a wand, cord 6' 1 (Figure 13), or the like drives worm 32 causing worm gear Sto rotate. Optionally, a stop may be included to confine ,worm gear 30 to less than 360° rotation. All of the above is conventional and may be seen, in US-A-4648436, which disclosure is here incorporated by reference.
Spacers, not shown, are mounted to assemblies 20 in a conventional manner via a slot in body 28 and to a cord 29, spindle or the like in a conventional manner to effect the q conventional drawing action to spread out the carriage assemblies 20 along the track or to gather them at one end.
Alternatively, a conventional scissors arrangement can be used to replace the spacers. Furthermore, the spacer or ,scissors arrangement may be omitted so that the front and rear fabric define the distance between carriers when the light control covering is in its expanded condition.
A threaded shaft 40 is. fixed to worm gear 30 and extends below or depends from the main body 28 via bearing projection 31 and has an L shap ?d actuator control, element 42 fixed thereon by a nut 43 holding the horizontal leg of element 42 fixed to shaft 40. Shaft 40 extendsi further downwardly passing freely through an actuator arm 44 and has a pair of nuts 46 threaded onto its lower end to lock and establish a stop and provide height adjustment.
Arm 44 extends for a distance at least equal to the maximum opening of the covering, 67mm and at either end is connected with a hanger or an attachment member 50 consisting of a paddle like lower end having a hole 52 adjacent its lower free end and an upper end that is freely pivotally mounted in the end of arm 44 by any conventional mounting means. A spring 58 is fixed at one end to the arm 44, such as by passing through hole 54 in arm 44 and being bent or crimped. The other end of spring 58 is fixed to the depending leg of actuator element 42 in a like manner. When splined tilt rod 34 is actuated and drives worm 32, worm gear 30 via element 42 and spring 58 will 15 cause arm 44 to rotate around shaft Hanger 50 may consist of a body 70 in the form of tt as a T with a pair of deflectable spaced headed or barbed rLt1 L, connectors 72 extending upwardly from the top of the cross bar of the T for insertion into the hole at the end of arm 44 as shown in Figure 3. A hole at the lower end of the depending leg of the T cooperates with a pin 73 having a (i pair of spaced deflectable barbed heads. As shown in Figure the light control covering is mounted on the arm 44 by attaching one hanger 50 to the front sheer, on its inside face precisely at the glue joint formed between a vane and the front sheer. The other hanger 50, at the other end of arm 44 is attached to the inside face of the rear sheer at a :t point displaced from the glue joint for the same vane in the P, direction toward the front shieer attachment for that vane.
The top inside edge of the front and rear sheers can be provided with a reinforcing strip 74 so pin 72 can clamp the top edge of the sheers to hangers as shown in Figure 3.
The light control covering is mounted over a window with its vanes extending vertically. Actuator arms 44 of the respective carriers 20 are preferably attached to the covering for every other vane as shown in Figure which shows the covering fully extended over a window or
K\
l4 ±s a schematic top plan view showing the fabric covering over-closed; Figure 8 is a schematic top plan view showing the 16 other opening and in the open position (maximum light passage). Alternatively the carrier may be provided at every third or fourth vane. To move the covering to the closed position as shown in Figure 6, the tilt rod is rotated, driving each worm 32, worm gear 30, shaft 40 and rotating each actuator 42 which in turn, through spring 58, carries arm 44 around shaft 40 bringing the covering to its closed position. At this time, since there is little resistance to rotation of arm 44, spring 58 is not substantially extended or loaded. This condition continues as the covering approaches the closed condition shown in Figure 6 and proceeds through the closed condition to an over-closed position shown in Figure 9. The net effect will be slight overtravel of the closed position with the panels 15 (a vane sandwich- between front and rear sheers) now slightly tilted out of the plane of the normally closed plane. Then the resistance to further rotation of the arms 44 caused by the fabric layers having closed on one another i t becomes greater than the force of the springs 58. Thus, continued rotation of actuators 42 extends and tensions the springs until the actuators 42 engage arm 44 as shown in Figure 7.
When the extension of the covering in the overclosed position (full extension of carriers 20) is relieved, as the covering is drawn to the retracted position (gathering of carriers 20 at one end) and retracted from covering the window successively, the pressure on arms 44 St, exerted by the extended fabric is released and the springs 58 will draw the arms 44 around to the substantially parallel positions shown in Figure 8 and cause successive panels to collapse and fold upon themselves in substantially parallel folds.
Where the fabric itself or spacers define the distance between adjacent carriers when the light control window covering is in its expanded condition, the carriers Sare not all moved at the same time to the retracted position of the light control window covering. A first carrier is g ir 17 moved towards an adjacent second carrier by means of a cord, spindle or the like. When the first and second carriers abut, the first carrier moves the second carrier towards the next carrier adjacent to the second carrier, and so on. The panels of the already abutting carriers will be folded upon themselves whereby the remaining panels will still be in the slightly overclosed position. Consequently, the panels are successively collapsed and fold upon themselves.
Where a scissor arrangement is used, all carriers are moved to the retracted or stacked position at the same time. Again, the movement is initiated by a cord, spindle or the like which acts on a first carrier whereby the scissor arrangement will cause the other carriers to move upon movement of the first carrier. Consequently, all of the panels will gradually collapse and fold upon themselves at the same time.
The springs 58 store rotational energy in the actuator arms 44 when the sheers have been closed upon themselves and release the stored energy when the covering is retracted across the window opening causing the panels to fold neatly on themselves with the actuator arms 44 all parallel and perpendicular to the track rail 26.
In a preferred embodiment, the actuator arms are 74.6mm long and the hangers for holding the top edges of the 25 front and rear sheers are 76.2mm wide outside-to-outside or approximately equal to the vane spacing of 76.2mm for 88.9mm vanes. Because of the S shape or curving of the vanes and because the hangers are not parallel to the vanes, the "'.maximum spacing of the front and rear sheers is, by way of example, 66.7mm. Most of the components noted in the above description are injection molded plastic parts. The front fabric may be polyester of about 23.7gm/mi (from abotit 4.7- 47.5gm/m 2 and is a tulle knit with a diamond pattern.
The rear fabric may also be polyester of the same weight and is a warp knit with diagonal threads and has an orthogonal pattern. The principal characteristic of the rear fabric is the necessity for stability on the bias or 18 diagonal. The vanes are a woven polyester of a weight of 47.5gm/m 2 (about 24-95gm/m: 2 weight. The vanes are preferably opaque but may be translucent for privacy. A stiffener tape is attached to th- inside top edges of the front and rear fabrics to enable reinforcement to be able to hang the fabrics on the hangers depending from the actuator arms. Grommets could be used for this purpose, if desired.
Weights (about 15gm weight) are attached to the bottom edge portions on the inside of every other vane at its front and rear portions directly below the attachment points to the hangers, one 15gm weight per specified location.
The tilt rod can be operated by a wand or by one or two pull cords 35 as already known in the art, see Figure 13. Also, the carriers or carriages may be associated with 15 spacers which can be metal strips that fit through slots in the carriers and have stops at each end so the lead carrier can be traversed on the track by a cord arrangement and successively draw out the rest of carriers in appropriate spacing. When retracting the carriers, the lead carrier is drawn back and the strips slip through their slots to allow the carriers to stack at one end. Alternatively a scissors spacer can be used. Both are known and are coupled to the *carriers in a known way. When moving the carriers from the n retracted or stacked condition of the vanes, the opposite to 25 situation arises and the assembly ll move firstly from the t position of Figure 8 to that of Figure 7 and then to that of Figure 6. Thereafter, if one chooses, one can continue to ,t operate the vanes so that they finish up more or less in the position of Figure 30 The carriers can be provided with a coupling arrangement between the drive shaft and the actuator to effect over-closing and a tilt toward collapse with a slight force favouring collapse upon relief, or an arrangement as shown in Figures 10-12 whereby a return force is imposed on the actuator arm 44', such as, by a weight or cam member riding on top of the worm gear 30' and cooperating or coupling therewith via interfitting inclined camming r t r C r t C FI I t t C tL C Cr L CL t 4e C Ct 19 surfaces 90. In this arrangement where like references are used to denote like parts to those in the previous embodiment, the weight 80 is keyed to the shaft 40' which carries actuator arm 44' by keys 84. The worm gear 30' is freely rotatable about shaft 40' and is retained in the carrier body 28' by a snap ring 86 or the like. When the actuator encounters little resistance in moving from the open position shown in Figure 5 to the closed position shown in Figure 6, the worm gear drives the actuator through the coupling formed by the interfitting inclined surfaces 90 on the gear 30' and weight 80. Resistance resulting from overclosing, however, will cause the worm gear to drive the weight up the incline out of coupling engagement with gear and store energy in the weight for driving the actuator when the resistance is relieved by the weight dropping back into register with the inclined surface on the worm gear.
With an arrangement of the type shown in Figures to 12, retraction of the light control window covering can be stopped in an intermediate position) when some but not all of the panels are collapsed and folded over upon themselves. The non-collapsed panels, which are still in the slightly over-closed condition, can then be used to regulate the light through the panels as previously described whereby the already collapsed panels remain in the collapsed position. A feature of the arrangement of Figures and 12 is that the actuator 44' will be lifted during overtilting.
In a further modified carrier assembly as shown in Figure 14, where again like references are used to denote like parts, the actuator 44'' is carried by a shaft depending from a rotary cam 92 in the carrier body 28'' which in this case has a closed top 94. The worm gear is mounted above the cam for rotation about a shaft 96 and the worm gear and cam have interfitting inclined camming surfaces A coil spring 98 may be provided to exert downward pressure on the worm gear.
In this arrangememit, when the covering is being 1I closed and there is little resistance to movement of the actuator, the cam and actuator are rotated by the worm gear through the interfitting surfaces When excessive resistance is encountered, as previously, the worm gear will be lifted against the pressure of spring 98, for energy storage. When the resistance is reduced, the spring pushes the worm down back into engagement with the cam, thereby rotating the cam and actuator. Alternatively, the worm gear itself may comprise a weight for energy storage and the spring can be omitted.
Contrary to the arrangement of Figures 10 to 12, the arrangement of Figure 14 does not lift the actuator d",'.ing overtilting. The interfitting inclined cam surface can be so shaped that the holders are naturally returned to a fixed home centre position. This arrangement is t particularly helpful when one is using a single control or so called "mono-command" arrangement which provides both movement of the carriers and tilting of the vanes. The reason for this is that with this "mono-command" system, when one operates the control with a view to moving the carriers in the opposite direction from previously, the F first thing that happens when the panels are in the collapsed position (light control window covering being retracted) is that the vanes are starting to tilt in the direction in which the window covering would give maximum light passage when it is in its fully expanded condition.
However, because the vanes are still in their collapsed position and cannot fully tilt towards said maximum light r passage condition, the actuators will be loaded in a direction opposite to the direction in which the actuators are loaded when the window covering is in its overclosed position. Once the actuators are all loaded, the end carrier begins to move, thereby allowing subsequent vanes to tilt to their maximum light passage condition whereby the actuators will be unloaded. Hence, when the window covering is moved to its expanded condition the vanes reach the maximum light passage condition. Once the window covering 21 has reached its fully expanded condition the window covering can be closed by operating the mono-command arrangement in an opposite direction. The vanes will close and will all substantially lie in one plane as previously described.
Upon further operation of the mono-command system the vanes will overdose and the actuator will be loaded as described earlier. Upon again further operation of the mono-command system the end carrier starts to move towards the collapsed condition of the window covering and the panels will fold in a zigzag way whereby the actuators will become unloaded.
The actuators must therefore be capable of loading in either direction so as to enable this operation to take place in either one direction or the other. In a still further modified carrier assembly as shown in Figure 15, the actuator is carried on a shaft rotatably mounted in carrier body and having a cam at the top of the shaft. The worm gear is rotatably mounted about the shaft and interfitting V-shaped camming surfaces t'r tare again provided on the worm gear and cam. The worm gear 20 sits on a coil spring at the base of body In this arrangement, when the resistance to rotation of the actuator becomes excessive, the worm gear is cammed downwardly against the bias of the spring by cam 92''' Sand when the resistance is decreased the worm gear is sprung back up to re-engage the surfaces and rotate the actuator The system for operating the opening and closing I of the window covering and the system for tilting thq j hangers may be separated (individual operation) or may be 30 combined in a mono-command system (combined operation), which systems are well known in the art. In the latter case, it will be possible to move the carriers and tilt the hangers by operation of one simple wand, cord or the like.
Furthermore, the above operation may be actuated by motor drive means which are operable by means of, for example, a remote control unit.
Experience has shown that there can be a problem 22 that the bottom of the end portion of the window covering tends to move towards the centre of the window covering, that is the end edges tend to be not truly vertical, but angled slightly inwardly of the vertical from top to bottom.
S According to the invention, this may be overcome by providing a facility on the carriers at the ends of the window covering for lifting only the end actuator arms. In fact the problem comes even more acute when the window covering is moved to the position in which the vanes are open, i.e. substantially perpendicular to the sheer fabrics.
The invention therefore further provides a facility by further lifting of the actuator arm as the window covering is turned to the open position. One or two carriers according to the construction of Figures 10 to 12 may be used at an end location to produce this lifting effect.
,t ,Another structure of carriage suitable for carrying this out is illustrated in Figure 16 in which like parts have been indicated by like reference numerals to those of Figure 10, but with the addition of the reference letter A. In this structure the worm gear 30A is again urged downwardly by a spring 98A and is provided with a lower cam surface 80A provided with opposite flat portion A cam member 90A is fixedly secured to the housing 28A 0 of the carrier and has cam surfaces 81A and 81B 25 complementary to surfaces 80A and 80B respectively. Cam member 90 is of annular form allowing for the passage of the t< downwardly extending threaded shaft 40A fixedly secured to j the worm gear 30A. The actuator arm 44A is provided with a central bearing sleeve 82, preferably of metal, which is 30 freely rotatable about the threaded shaft Threaded onto the shaft 40A is a locking ring 83, the lower surface of which bears against the upper surface of the bearing sleeve 82. This sleeve is provided with an upwardly extending projection 82A which is capable of being engaged in one of a. plurality of circumferentally spaced indentations 83A in the lower surface of the ring 83. (See Figure 17).
23 Located below the bearing ring 82 is a wing nut which can be screwed up to bear against the lower surface of the ring 82.
Mounted above the wing nut 83 is a spring holding plate 87 having an aperture therein for the passage of the shaft 40A, the latter having a key way 40B engaged by a key 87A on the plate 87. In this way the plate 87 is caused to rotate with the shaft 40A. A spring 58A is connected to the plate 87 as shown and also to'the arm 44A.
In order to initially adjust the height of the arm 44A the wing nut 85 is loosened downwardly which enables the locking ring 83 to be rotated. In this way, if it is rotated upwardly, then when the wing nut is again tightened, the arm will be raised to a higher level. By use of a wing nut and a knurled locking ring 83, this operation can be carried out readily by the installer.
When the vanes carried by the arm 44A are turned 2 to a direction perpendicular to the sheer fabrics, the cam 9' surfaces 80A and 81A will ride up one another to give a 20 further raising of the arm 44A. The fully opened position will be determined by the flats 80B and 81B engaging one another. If necessary, a suitable ridge and groove can be provided in these flats to determine accurately the I l 4: perpendicular position of the vanes. When the blind is 0' 25 moved back to the closed position of the vanes, the cams will be such as to allow the worm gear 30A to fall again, thereby lowering the arm 44A, progressively as the vanes move to the closed position. The spring 58A will operate as previously.
However, it will be noted that because there is no equivalent to the down turned portion of the element 42 of Figure 2, the arm 44A can move equally in either rotational sense and the provision of a plate 87 keyed to the shaft the spring 58A will provide a fixed home centre position for the arm 44A and thus of the associated vare.
An alternative to the spring 58A and plate 87 would be a c shaped spring having its centre portion secured 111l iiiu ^t 24 to the shaft 40, 40A and its side arms engaging one on each side of the arm 44, 44A. This again will provide for a fixed home centre position.
In one structure according to the invention, instead of providing for the end vane of any of the blinds described above to be capable of being turned, provision can be made for each end vane always to be fixed iii the "open" rsition, i.e. perpendicular to the sheer fabrics. This can .ssist in ensuring that the window covering stacks neatly as shown in Figure 8, as the covering is drawn back to the fully open position. It is particularly useful when the covering for a window comprises two parts, one which is stacked to the left of a window and the other to the right, as with conventional curtains or drapes.
It is also contemplated that, as an alternative, vanes could be controlled so that they remain closed as the window covering is expanded towards the closed window covering position.
As illustrated in Figure 20, to be described
O
O't. 20 later, the hangers may be coupled directly to the vanes. In :this case, the vanes, which are directly tilted by the hangers, should be sufficiently stiff to operate the window covering from its open towards its closed and collapsed condition.
Referring now to Figures 18 and 19, there is again shown a window covering formed in the same manner with two sheer fabrics 10,12 and vanes 14. Secured to the sheer rfabric 10 at one end thereof is a first end rail 102 and secured to the other end of the second sheer fabric 12 is a second end rail 103.
Extending above the window covering is a horizontal track 122. The first end rail 102 is mounted on a bracket 158 having a first arm 156 associated with two sliding carriers 152,154 slidable in the track 122 and a second arm 160 engaged in end rail 102. The lower end of the head rail 102 is shown as not riding in a track but it is conceived that it could ride in a lower track similar to 72 upper track 122.
Some, but not all, of the vanes 14 are provided Swith runners 162. In the construction shown every third vane 14 is provided with a runner 162. This may be in the form of a plastics material plate having an upwardly extending pin with a head on it, which rides in the track 122.
The second end rai'. 103 is preferably fixed, e.g.
as at 145 to the floor.
It will be appreciated that if one grasps the first end rail 102 and moves it to the left, then the covering will concertina up in the manner indicated and will draw back in the manner similar to that of a curtain. If one pulls the end rail 102 to the right then it will stretch out so that the window covering is as shown in Figure 19.
Further movement of the end rail 102 and the bias of the vanes will cause deflection of the vanes 14 to provide more or less passage for light through the covering.
If reference is now made to Figure 20, there is shown a headrail 240 in which are mounted a plurality of sliding carriers 242 which are preferably provided with wheels (not shown) for running along guide tracks formed in the headrail. Movement of the carriers 242 can be effected in any suitable manner but as shown a cord system 246 is provided. The assembly of carriers in the headrail may be generally similar to that disclosed in US Patent 3996988 in the name Dwight or in US Patent 4267875, in the name Koks.
As in the Koks patent, a tilt rod may be provided and this may be rotated by a pulley with a bead chain 250. The tilt
IC
.0 30 rod is associated with a worm and worm wheel, as in Koks US h Patent 4267875, and the worm wheel in each carrier is connected to a separate hanger 252. Supported by the hangers is a window covering 210 comprising front and rear sheer fabrics 270,272 between which extend vanes 274, which are connected to the fabrics 270,272 in any suitable way e.g. by adhesive. The upper ends of the vanes 274 are mounted on the hangers 252. it will be appreciated that the I .i 26 operation of the vanes can be effected by operation of the bead chain 250 rotating the pulley which in turn rotates the tilt rod. Rotation of this tilt rod will effect rotation of a worm wheel and pinion (not shown) which will in turn cause the hangers 252 to rotate about their respective vertical axes. This rotation will, it will be appreciated, cause tilting of the vanes 274 about their respective vertical axes.
If one operates the pull cord 246 then the end one 43 of the carriers will be pulled to the left or the right.
Since these carriers have associated with them spacers 275, movement to the right of the end carrier 243 will cause the adjacent carrier 242 to move to the right with it and then the subsequent carriers will also in turn move to the right to provide the right spacing.
It will be appreciated that when the end carrier 243 is moved to the right, this will have the effect of moving the vane associated therewith. After a certain r distance of movement, the sheer fabrics themselves will 20 cause the next vane, and its carrier, to move to the right also and so on.
It is also further contemplated that the structure shown in Figure 20 could be modified so that there is no facility for moving the carriers 242 along the end rail.
Thus, these carriers could be fixed so that the window covering is always in the position as illustrated in Figure and the only facility for adjustment, therefore, will be adjustment of the angle of the vanes.
In Figure 21 sheer fabrics 312,314 are connected to circumferentially spaced apart fixing means 320,322 on a -r i wind up roll 324 which is mounted with its longitudinal axis extending generally vertically to one side of the frame of a window. The lower end of the roll can be fixed to the floor or to a location below the window. Vanes 316 extend between fabrics 312 and 314.
Associated with the roll 324, at the upper end thereof, is a cord reel 326 and a control pulley 330 at the end adjacent the reel 326. Rotation of the wind up roll 324 can be effected by operation of a cord, for example a bead cord 332 wrapped around the control pulley 330.
Alternatively a motor drive could be provided. This rotation is also imparted to the cord reel 326.
Wrapped around the cord reel 326 is a tension cord 334 which also passes around a fixed pulley 338 and is connected to the upper end of an end rail 342 having, in its interior, a tension spring 344 to the upper end of which is attached the end of the tension cord 334. As can be seen more clearly in Figure 22, the end rail 342 is attached to the second sheer fabric 314 only.
Extending generally horizontally above the window covering 310 is a horizontal track 350 in which are horizontally movable two sliding carriers 352,354 which are attached to one arm 356 of the right angled bracket 358 t. having a second, lower arm 360 secured to the end rail 342 te,,,so that the latter can hang downwardly and be supported by *4e the sliding carriers 352,354 in the track 350. The lower 9 20 end of the end rail 342 is not secured although it could be S' guided in a further track at the bottom.
In operation initial movement of the wind up roll 324 will effect the change of the relative angles of the vanes 316 to the sheer fabrics 312,314 and further movement i will cause the covering 310 to wind up on the roll 324. As it is rolled up, the sliding carriers 352,354 will slide along the track 350 carrying the end rail 342 with them.
If the roll 324 is operated in the opposite sense, then the end rail 342 will be pulled back by the tension cord 334.
In Figure 23 there is illustrated a form of window covering suitable for covering a skylight in a horizontal or inclined roof.
The assembly includes a flexible window covering indicated by the general reference numeral 410 this including the first sheer fabric 412, a second sheer fabric 414 and a plurality of transversely extending vanes 416 t3 'A 28 extending therebetween, the vanes being generally parallel to one another. This window covering 410 can be made in a number of different ways which do not form part of the present invention. The sheer fabrics 412,414 are made of a translucent or transparent material such as paper, a woven fabric or non-woven fabric or indeed they can be made of a plastics material. Similarly the vanes 416 can be made of any suitable material. However, they are preferably formed of a opaque or semi-opaque material.
The sheer fabrics 412,414 are connected to circumferentially spaced apart fixing means 420,422 on a wind up roll 424 which is mounted with its longitudinal axis extending generally horizontally to one side of the frame of a skylight.
Associated with the roll 424, at each end thereof, are cord reels 426,428 and a control pulley 430 at the end adjacent the reel 426. Rotation of the wind up roll 424 can Ct t be effected by operation of a cord, for example a bead cord C C432 wrapped around the control pulley 430. Alternatively a S 20 motor drive could be provided. This rotation is also imparted to the cord reels 426,428.
Wrapped around the cord reels 426,438 are tension cords 34,36 which also pass around fixed pulleys 438,440 and are connected to opposite ends of an end rail 442 having, in its interior, a tension spring 444 to the ends of which are attached the ends of the tension cords 434,436. As can be seen more clearly in Figure 24, the end rail 442 is attached to the second sheer fabric 414 only. Two parallel tracks 443 are provided, one on each side of the covering, the tracks extending generally perpendicular to the axes of the Swind up roll 424 and the end rail 442, the tracks for example being of channel or L-cross-secticn. At each end of the rail 442 a runner 445 is mounted and is slidable longitudinally in the adjacent rack 443 and serves to guide and support the rail. If desired further runners (not shown) could be provided on some of the vanes 416, these also sliding in the tracks. It is also contemplated that [a vi 29 the tracks 443 and runners 445 could be omitted, particularly on smaller installations.
It will be understood that initial operation of the bead cord 432 will cause a certain rotation of the wind up roll 424. This will cause relative movement of the two sheer fabrics 412,414 with respect to one another in a direction parallel to one another. Thus the vanes will be caused to move from a position in which they extend in spaced apart relation, somewhat as shown in Figure 24, in which light can readily pass therethrough, to a closed position in which they overlap each other thus blocking off the passage of light.
Further movement of the wind up 424 will cause both of the sheer fabrics 412,414, with the flattened and overlapping vanes 416 therebetween, to be wound up onto the t ,roll 424. As this happens, the end rail 442 will move towards the wind up roll 424 so that the window covering can be pulled back by a desired distance and in fact can be pulled back completely.
*S£A
Tf the bead chain 432 is operated in the opposite sense, then the cord reels will rotate in the opposite direction as will the wind up reel 424. The tension cords 434,436 will then tend to pull the end rail 442 back to the right as shown in Figure 23, thereby drawing the window covering to cover the window, In Figure 25 there is illustrated a further form of window blind assembly indicated by the general reference ,t numeral 510. This assembly 510 is associated with a headrail 512 provided with an elongate tilt roll member 514 SC 30 means (not shown) being provided to rotate this roll abouits generally horizontal axis.
The material 510 includes a front sheer fabric 516 provided with a plurality of spaced parallel, horizontal forward pleats 518 and rearward pleats 520. The material 510 also includes a rear elongate sheer fabric 522 formed with forward pleats 524 and rearward pleats 526 similar to the pleats 518,520 of the front elongate sheer fabric 516.
LI.
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As best seen in Figure 26 a plurality of vanes 528 interconnect the front and rear sheer fabrics 516,522. The vanes 528 in Figure 26 extend between a rear, interior, face of a rearwardly extending pleat 520 of the front sheer fabric 516 diagonally upwardly to where it is connected to the forward interior face of a forwardly extending pleat 524 of the rear sheer fabric 522.
As shown the front and rear sheer fabrics 516,522 are connected to a bottom rail 530 adjacent their lower ends and are connected to the elongate tilt roll 514 at their upper ends. In the construction illustrated a spacer me'L r 532 is provided below the headrail and is connected to the front and rear sheer fabrics adjacent further pleats 518,526 thereof. This spacer 532 is not essential but provides a 15 better configuration for the upper parts of the pleated "blind material.
Figure 27 shows a slightly modified structure in which like parts have been indicated by like reference numerals. The vanes are here indicated by the reference numeral 534 and are connected slightly differently. In this construction the lower parts of the vanes 534 are connected •to the rear, interior, face of a forwardly extending pleat 518 of the front sheer fabric 516 and the vanes are again inclined diagonally upwardly and connected to the front, interior, face of a forwardly extending pleat 524 of the rear sheer fabric 522. In this construction the vanes 534 (t t are not planar as in Figure 25 but are reversed curved as Stil,: shown at 536 and 538.
It will be appreciated that such a structure is, in some ways, rather similar to a venetian blind with the vanes 528,534. It will be appreciated that if the tilt roll 514, in either structure, is rotated in a clockwise sense, as seen in Figure 26 or Figure 27, the vanes 528,534, will overlie one another because they are in an overlapping mode and will thus, effectively, block the passage of light. If, however, the tilt roll 514 are tilted in a counter-clockwise sense, then the vanes 528,534, can be moved to a position in 31 which they extend substantially horizontally, while remaining parallel to one another, so that there can be a passage of light therebetween.
For this purpose, therefore, the sheer fabrics 516,522, need to be formed of a translucent or transparent material, such as paper, or woven fabric, or non-woven fabric, or indeed they can be made of a plastics material.
Similarly, the vanes 328,534 can be made of any suitable material. However, they are preferably formed of an opaque or semi-opaque material.
The vanes are connected in a suitable manner to the respective pleats 518,520,524,526 as appropriate. While it is contemplated that this could be done by a heat Stechnique, such as by welding, they are preferably adhered 5 by means of a third material such as stitching or stapling, :but according to a preferred arrangement they are connected by being adhered, preferably using a hot melt adhesive, which melts at a temperature significantly below the melt temperature of the sheer fabric. It would be appreciated that the sheer fabric needs to have the pleats set in it and this can be done by a heat setting process which should again be conducled at a temperature in excess of the temperature of melting of the hot melt adhesive.
If reference is now made to Figure 28, a further rather different structure is illustrated. This structure has the pleats of the sheer fabrics extending generally vertically. In detail, therefore, the structure of Figure i 28 employs a headrail 540 in which are mounted a plurality of sliding carriers 542 which are preferably provided with wheels (not shown) for running along guide tracks 544 formed in the headrail. Movement of the carriers 542 can be effective in any suitable manner but as shown a cord system 546 is provided. The assembly of carriers in the headrail may be generally similar to that disclosed in US Patent 3996988 in the name Dwight or in US Patent 4267875, in the name Koks. As in the Koks patent, a tilt rod 547 is provided and this may be rotated by a pulley 548 with a bead
J,
32 i chain 550. The tilt rod 547 is associated with a worm and worm wheel, as in Koks US Patent 4267875, and the worm wheel in each carrier is connected to a separate hanger 552.
Now the blind material shown in Figure 28 is generally similar to the blind material shown in Figure 26 and like parts have been shown by like reference numerals.
In this structure, however, the pleats 518,520,524,526 extend vertically as do the vanes 528. The upper ends of the vanes are mounted on the hangers 552. It would be appreciated that the operation of the vanes can be effected by operation of the bead chain 550 rotating the pulley 548 which in turn rotates the tilt rod 547. Rotation of this tilt rod will effect rotation of the worm wheel and pinion (not shown) which will in turn cause the hangers 552 to S _5 rotate about their respective vertical axes. This rotation will, it will be appreciated, cause tilting of the vanes 528 about their respective vertical axes.
If one operates the pull cord 546 then the end one 543 of the carriers will be pulled to the left or the right.
20 Since these carriers have associated with them spacers 554, '4 I movement to the right of the end carrier 543 will cause the adjacent carrier 542 to move to the right with it and then the subsequent carriers will also in turn move to the right to provide the right spacing.
As shown in this structure, a first end rail 560 is associated with the right hand end of the sheer fabrics, rather in the manner of the bottom rail 530 of Figures 26 and 27. This end rail can be mounted on its own hanger which would then be associated with the end carrier 543, or it can be mounted on the same carrier as the right hand most vane. This end rail will then move with the end carrier and will act as a positive end to the "curtain" formed by the blind assembly of the invention. A secbd end rail 564 may, if desired, be provided at the other end. However, neither of the end rails are absolutely essential with the structure.

Claims (17)

1. A covering for use in a light control shade assembly, said covering comprising:- i) first and secornd generally pa.allel spaced apart, longitudinally extending, translucent sheets, each having a first edge and a second opposite edge; ii) a plurality of longitudinally spaced, generally parallel, vanes, fixedly secured to said first and second sheets to extend therebetween; and iii) said sheets and said vanes defining a series of panels composed of a vane and the associated portions of the first and second sheets, said covering being capable extending with said panels to a planar orientation wherein the panels can be manipulated to tilt the vanes between a closed position parallel to said sheets and an open position 15 generally normal to said sheets to obtain light control and wherein each sheet has dimensional stability in substantially mutually perpendicular directions inclined to said first and second edges. t t
2. A covering as claimed in claim 1, wherein at least one of said first and second sheets is a sheer fabric.
3. A covering as claimed in claim 2, wherein both of said sheets are sheer fabrics and one of the sheer fabrics has diamond-shaped interstices and the other sheer fabric has rectangular interstices with inclined loop threads which are undetectable except by microscope.
4. A covering as claimed in claim 2, wherein both of said sheets are sheer fabrics and one of said fabrics is a tulle fabric having diamond-shaped interstices having a major axis and a minor axis, said major axis extending substantially vertically and wherein the other of said 34 fabrics comprises a knitted fabric including warp yarns extending substantially vertically and a plurality of fill yarns extending between the warp yarns at acute angles to the horizontal to provide said dimensioned stability.
5. A light control shade assembly comprising a covering as claimed in any preceding claim and carrier means connected to said covering to suspend said covering in a vertically planar condition, in which said covering is effective in shading a predetermined area and in which condition the vanes can be manipulated to alter their orientation between a closed position parallel to said first and second sheets and an open position generally perpendicular to said first and second sheets to obtain light control in the shaded area. 15 6. A light control shade according to claim .wherein said carrier means comprise a headrail and at least one hanger member connected to the upper edge portion of said covering.
7. A light control shade according to claim 6, wherein manipulation of the vanes is effected by tilting of t 4 said at least one hanger member. t i s 8. A light control shade according to claim 6, wherein said carrier means comprise additional hanger members connected at spaced intervals to the upper edge 25 portion of said covering.
9. A light control shade according to claim wherein said carrier means comprise track means and at least E one carriage member at one vertical side edge of said shade member, traversable along said track means and a fixed end member at an opposite vertical side edge of said covering. -N A light control shade according to claim 5, when appendant to claim 2, wherein said at least one sheer fabric sheet has its threads arranged inclined to the vertical.
11. A light control shade assembly according to claim 10, wherein the other sheer fabric has its threads normal and parallel to the vertical with additional diagonally extending loop threads in an arrangement and proportion avoiding a moire effect in the shade member.
12. A light control shade assembly according to claim 11, wherein each of said first and second sheer fabrics has a reinforcing band extending along a top edge thereof and wherein the vanes are manipulated by actuator members connected to a respective one of said reinforcing bands. 15 13. A light control shade assembly according to clain 5, wherein said carrier means comprises a plurality of carriers spaced along a generally horizontal track means, each carrier including an actuator member for tilting at least one of said vanes between the open and closed positions. P
14. A light control shade assembly according to claim 5, further comprising~- I, a horizontal guide track and carrier means slidably mounted for movement along said track between a spread and a stacked condition and being connected to the upper edge portion of said shade member for extending said shade member to a vertically planar condition in which said shade member shades said predetermined area when the carrier means are in the spread condition and in which spread condition the vanes can be manipulated to alter the orientation of the vanes between a closed position parallel to said first and second sheer fabrics and to an open ,J A I 36 position generally perpendicular to said first and second sheer fabrics to obtain light control as well as for imposing a force on said shade member in the closed position of the vanes, such that when said carrier means are moved towards the stacked condition, the imposed force is relieved and the shade member is urged into folding. A light control shade assembly according to claim 14, wherein said carrier means comprises a plurality of carriages spreadable along said track, each carriage including an actuator member attached to the upper edge portion of said shade member, a drive mechanism for rotating said actuator member to tilt at least one cf said vanes between the open and closed positions and energy storing and release means connected between the drive mechanism and the actuator member for storing energy in the actuator member in a fully extended and closed position of said shade member and for releasing said energy when said carriages are moved to the stacked condition effective to provide continued further rotation of the actuator member.
16. A light control shade assembly according to claim wherein said drive mechanism includes a rotary shaft depending from the carriage, drive means on the carriage for rotating the shaft and an actuator control element mounted on the shaft for rotation therewith, wherein the actuator member is mounted for rotation on the shaft and wherein said energy storing and release means comprise a resilient tensioning means connected between the actuator control element and the actuator member.
17. A light control shade assembly according to claim 15, wherein said energy storing and release means comprises a weight means movable in opposition to gravity,. ,x K'"ctat 37
18. A light control shade assembly according to claim wherein each actuator member includes a pair of depending pivoted hangers each attached to a respective one of said first and second sheer fabrics and defining the attachment means.
19. A light control shade assembly according to claim 18, wherein each sheer fabric has a reinforcing band extending along a top edge thereof and wherein each hanger is attached to a respective fabric by a pin extending through the sheer fabric, the reinforcing band and the hanger. A light control shade assembly according to claim 14 or 15, wherein said actuator member is carried on a rotary shaft depending from said carriage wherein said drive mechanism includes a driven gear, driving said shaft through an energy storing and release means in the form of an overriding clutch having interfitting inclined camming surfaces adapted to convert rotary movement to axial energy storing movement and vice versa as a function of resistance 20 encountered during rotation of the gear. 4 9
21. A light control shade assembly according to claim S:13, wherein the actuator members of the respective carriages S: are attached to the shade member for every other vane. ii
22. A light control shade assembly according to claim 25 21, wherein said actuator member comprising an arm having 9. 9 opposite attachment hangers, one hanger being attached to the first sheer fabric at a location where a vane is attached to the inside face of said first sheer fabric. :1 .%n A 38
23. A light control shade assembly substantially as herein described with reference to Figure 1, Figures 2 to 4, Figures 10 to 12, Figure 14, Figure Figures 16 and 17, Figures 18 and 19, Figure Figures 21 and 22, Figures 23 and 24, Ligures 25 and 26, Figure 27 or Figure 28 of the accompanying drawings. DATED this 15th day of JUNE, 1995 HUNTER DOUGLAS INTERNATIONAL N.V. Attorney: PETER I-,EArHCO\' Fellow Institute of Patent Attorneys jf Australia of SHELSTON RS fip ((4 ABSTRACT A covering for an architectural opening such as a window or door is in the form of a vertically oriented fabric assembly having front and rear sheer fabrics 12) interconnected by vertically extending vanes The vanes can be tilted through a series of carriers (20) mounted on a track rail (24, 26) from which the covering (10, 12) is suspended in order to adjust the spacing between the fabrics (10, 12) between open and closed positions and adjust the light transmitting characteristics of the covering. The covering can be extended across the opening by separating the carriers I on the track rail (24, 26) and can be contracted by stacking the carriers (20) toward one end of the track rail (24, 26). A unique design of carrier (20) allows the covering to fold on itself in the contracted state, in the manner of a conventional drape. t i '^t
AU30315/92A 1991-12-19 1992-12-18 Covering assembly for architectural openings Expired AU662030B2 (en)

Applications Claiming Priority (8)

Application Number Priority Date Filing Date Title
US810331 1991-12-19
US07/810,331 US5287908A (en) 1991-12-19 1991-12-19 Window covering assembly
US963318 1992-10-20
US07/963,318 US5454414A (en) 1991-12-19 1992-10-20 Window blind material and window covering assembly
US963359 1992-10-20
US07/963,359 US5339883A (en) 1991-12-19 1992-10-20 Covering assembly for architectural openings
US977788 1992-11-30
US07/977,788 US5392832A (en) 1991-12-19 1992-11-30 Covering assembly for architectural openings

Publications (2)

Publication Number Publication Date
AU3031592A AU3031592A (en) 1993-06-24
AU662030B2 true AU662030B2 (en) 1995-08-17

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Family Applications (1)

Application Number Title Priority Date Filing Date
AU30315/92A Expired AU662030B2 (en) 1991-12-19 1992-12-18 Covering assembly for architectural openings

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EP (2) EP0549216B1 (en)
JP (1) JPH0650069A (en)
CN (1) CN1263413C (en)
AT (1) ATE149627T1 (en)
AU (1) AU662030B2 (en)
BR (1) BR9205052A (en)
CA (1) CA2085801C (en)
DE (2) DE69232466T2 (en)
DK (1) DK0549216T3 (en)
ES (1) ES2098461T3 (en)
HK (1) HK1000059A1 (en)
NO (1) NO924910L (en)

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Also Published As

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DK0549216T3 (en) 1997-09-08
JPH0650069A (en) 1994-02-22
CN1083689A (en) 1994-03-16
AU3031592A (en) 1993-06-24
EP0742339B1 (en) 2002-03-06
DE69217880D1 (en) 1997-04-10
ES2098461T3 (en) 1997-05-01
HK1000059A1 (en) 1997-10-31
EP0549216B1 (en) 1997-03-05
DE69232466T2 (en) 2002-10-10
CA2085801A1 (en) 1993-06-20
BR9205052A (en) 1993-10-13
CA2085801C (en) 1996-11-12
CN1263413C (en) 2006-07-12
NO924910D0 (en) 1992-12-18
EP0549216A1 (en) 1993-06-30
EP0742339A2 (en) 1996-11-13
DE69232466D1 (en) 2002-04-11
EP0742339A3 (en) 1997-09-24
NO924910L (en) 1993-06-21
DE69217880T2 (en) 1997-06-12
ATE149627T1 (en) 1997-03-15

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