Traditional window curtain installations are configured to provide for both functional and aesthetic purposes. In a conventional curtain, one functional goal is to reduce light impinging upon dwelling areas or other interior spaces coming from exterior windows. Other functions include providing for removal of the shading portions of the curtain to allow more light as desired. In some examples, this can be accomplished by winding a curtain around a roller operated by hand via a draw cord. An operator can raise or lower a curtain depending upon, for example, a desired amount of light. In other examples, the roller can be operated via a motor to raise and lower the curtain, covering exterior windows to any desired degree.
Typically, consumers select curtains based not only on the functional aspects provided, but also based on the aesthetic of the curtain. The look and feel of the curtain can be an important consideration for an appropriate curtain selection. Traditional curtains fail to incorporate non-traditional materials, and can fail to permit different aesthetics for curtain assemblies. Further traditional curtains can fail to account for the use of non-traditional materials and their impact on normal operation of a curtain assembly and the corresponding structures that implement a given curtain.
Accordingly there is provided a curtain assembly including a curtain and a plurality of rails. The curtain can be configured to cover an exterior opening, for example, a window in building. The plurality of rails can be attached to the curtain so they are perpendicular to a direction of operation of the curtain. The direction of operation can include the raising and lowering of the curtain to cover the exterior opening and can also include side to side motion for curtains that are installed vertically (relative to a floor of a room, for example). The curtain and the plurality of rails can be attached to a roller that upon rotation raises and lowers the curtain and the plurality of rails.
In one embodiment, the rails are constructed and arranged to provide for lateral rigidity in the curtain. A rigid curtain can insure appropriate coverage over the exterior opening both during operation of the curtain (e.g. raising and lowering) and while the curtain is in a fixed position. Further, the weight of a rail or rails can also be used to provide for vertical rigidity in the curtain. In particular, according to one embodiment, curtains that are raised and lowered into position will be pulled taught by the weight of a rail or rails that have already been extended.
The plurality of rails can be made of a plurality of sections. In some embodiments, the rail comprises two main sections, a first interior facing member and a second exterior facing member on opposite sides of the curtain. In one embodiment, the first interior member of a rail can be made of almost any material (e.g. metal, wood, plastic, etc.). The interior facing member can be selected based on appearance alone, as the material selected for the opposite exterior facing side is typically selected to provide for any requirement of rigidity and support by the curtain. The interior member and the exterior member of the rail can be adhered to their respective sides of the curtain using a variety of adhesives. In some examples, the interior facing member of the rail can also be engaged with the exterior facing member through additional attachment mechanisms. In one example, a rivet may provide for engagement between an interior facing member of the rail and the exterior facing member of the rail through the curtain. In some settings, the curtain itself can be prepared for attachment to the interior and exterior members. For example, the curtain may be constructed with a bonding surface configured to receive the plurality of rails. A bonding surface can, in some examples, be constructed on a given curtain by heat treating the curtain in a desired location. A bonding surface can be prepared that extends about both sides of a curtain. For a given length of the curtain, a plurality of spaced apart bonding surfaces can be included and configured to receive a plurality of rails.
According to one embodiment, providing for construction of a rail from a first interior member and a second exterior member permits the use of a wider variety of materials for the first interior member. Typically, the first interior member is constructed of a ductile metal of a length exceeding the width of the curtain on which it is to be installed. The additional length permits the first member to be folded about the curtain, creating a first and second folded end that wraps around the interior side of the curtain and presses against the opposite side of the curtain. The first folded end includes an interior flat portion which abuts the interior side of the curtain, a rounded portion, and an exterior flat portion that abuts the opposite or exterior side of the curtain. The interior flat portion and the exterior flat portion are constructed to compress the curtain between the interior flat portion and the exterior flat portion. The second folded end mirrors the first folded end, having a respective interior flat portion, a rounded portion, and an exterior flat portion. The interior flat portion of the second folded end and the exterior flat portion of the second folded end are constructed to compress the curtain between the respective interior flat portion and the exterior flat portion.
A space can be defined on the exterior side of the curtain between the first folded end and the second folded end of the first interior member. The second exterior member of the rail can be fixed into position by attachment to the exterior side of the curtain in the space defined between the first and second folded ends. In one example, the second exterior member is attached at a prepared bonding surface between the first and second folded ends using an adhesive. The second exterior member is typically constructed of a rigid metal. In some embodiments, the second exterior member is constructed and arranged to provide any structural support required to maintain a rigid curtain. For example, commercially available tempered and/or “full hard” stainless steel can be used to provide sufficient structural support, such that almost any material can be employed for the first interior member. In some embodiments, the second exterior member provides the structural support necessary for the curtain, and in others the first interior member can contribute to the structural support provided by a rail. In some embodiments, the members are constructed and arranged to material of sufficient strength to provide rigidity in the curtain based on low profile dimensions. In one example, the members are constructed of metal with a height of 5/16 inches by a width of 0.020 inches, although other dimensions can be used.
In some embodiments, the second exterior member is constructed to abut the first and second folded ends of the first interior member. In other embodiments, the second member can be attached to the first interior member at the first and/or second folded ends. In another embodiment, attachment mechanisms can also be used to attach the first interior member to the second exterior member. In one example, a rivet can attach the first interior and second exterior member to form the individual rails of the plurality of rails attached to the curtain.
The spacing of the rails, and/or the prepared bonding surfaces on the curtain can also be configured to assist in the operation of the curtain assembly. In particular, the placement of the rails can be arranged to minimize overlap of the plurality of rails as the curtain is wound around a roller. Likewise, the dimensions of the rails can be selected to facilitate operation of the curtain assembly. For example, The placement of the plurality of rails and/or the bonding surfaces on the curtain to which they are attached can be tailored to a specific dimension of the plurality of rails to permit the rails and curtain to be wound over the roller with minimal overlap of the rails. For example, based on the width of the plurality of rails, the distance between the rails and/or bonding surfaces can be tailored to permit minimal overlap in the plurality of rails when wound around a roller. In another example, the spacing of the rails and the circumference of a roller can be tailored to accommodate the rails in a wound position. In another embodiment, the circumference of the roller can be configured to permit winding of the curtain and the plurality of rails for rails of a given width and spacing so as to minimize overlap of the plurality of rails when the curtain is retracted.
According to one aspect of the present invention, a curtain assembly is provided. The curtain assembly comprises a curtain selectably moveable between an open position and a recessed position, and a plurality of rail assemblies attached to the curtain, wherein the plurality of rail assemblies are constructed and arranged to provide lateral stability in the curtain when the curtain is in an open position, and wherein the plurality of rail assemblies further comprise: a first member attached to a first side of the curtain, the first member constructed and arranged to include a first folded portion, wherein the first folded portions comprises: an interior flat portion, an exterior flat portion, a rounded portion connecting the interior flat portion and the exterior flat portion, wherein the curtain is compressed between the interior flat portion and the exterior flat portion, and a second member attached to an opposite side of the curtain.
According to one embodiment of the present invention, the first member further comprises a second folded portion wherein the second folded portion comprises a second interior flat portion, a second exterior flat portion, a second rounded portion connecting the second interior flat portion and the second exterior flat portion, wherein the curtain is compressed between the second interior flat portion and the second exterior flat portion. According to another embodiment of the invention, the curtain assembly further comprises a roller attached to the curtain, wherein the roller is constructed and arranged rotate thereby transitioning the curtain between the open position, wherein the curtain is extended from the roller and the recessed position, wherein the curtain is wound around the roller. According to another embodiment of the invention, the first member and second member of the plurality of rail assemblies are constructed of metal.
According to one embodiment of the present invention, the second member of the plurality of rail assemblies is constructed to provide the lateral stability in the curtain when the curtain is in the open position. According to another embodiment of the invention, the second member of the plurality of rail assemblies is constructed to provide substantially all of the lateral stability in the curtain when the curtain is in the open position. According to another embodiment of the invention, the first member is constructed and arranged of a ductile metal. According to another embodiment of the invention, the first member is constructed and arranged to provide substantially no lateral stability to the curtain. According to another embodiment of the invention, the first member and the second member of the plurality of rail assemblies is attached to the curtain using an adhesive.
According to another embodiment of the invention, the curtain further comprises a plurality of bonding surfaces configured for attachment to the plurality of rail assemblies. According to another embodiment of the invention, the plurality of rail assemblies are constructed and arranged to include a spacing between each of the plurality of rail assemblies, wherein the spacing is configured to minimize the overlap of each of the plurality of rail assemblies when the curtain is wound around the roller in the recessed position.
According to one embodiment of the present invention, the curtain further comprises a plurality of bonding surfaces configured for attachment of the plurality of rail assemblies, wherein the plurality of bonding surfaces are constructed and arranged to include a spacing between each of the plurality of bonding surfaces, wherein the spacing is configured to minimize the overlap of each of the plurality of rail assemblies when the curtain is wound around the roller into the recessed position. According to another embodiment of the invention, the first member of the plurality of rail assemblies is constructed and arranged of a length exceeding the width of the curtain. According to another embodiment of the invention, the exterior flat portion and at least part of the rounded portion are defined by a portion of the length of the first member that exceed the width of the curtain.
According to another embodiment of the invention, the second member of the plurality of rail assemblies is configured to abut the first and second folded portions of the first member. According to another embodiment of the invention, the second member of the plurality of rail assemblies is attached to the first member. According to another embodiment of the invention, the curtain assembly includes a coupling device configured to attach the second member and the first member. According to another embodiment of the invention, the roller is constructed and arranged with mating surfaces, wherein the mating surfaces are constructed and arranged to mate with the plurality of rail assemblies when the curtain is in the recessed position.
Various aspects of at least one embodiment are discussed below with reference to the accompanying figures, which are not intended to be drawn to scale. The figures are included to provide illustration and a further understanding of the various aspects and embodiments, and are incorporated in and constitute a part of this specification, but are not intended as a definition of the limits of the invention. Where technical features in the figures, detailed description or any claim are followed by references signs, the reference signs have been included for the sole purpose of increasing the intelligibility of the figures, detailed description, and/or claims. Accordingly, neither the reference signs nor their absence are intended to have any limiting effect on the scope of any claim elements. In the figures, each identical or nearly identical component that is illustrated in various figures is represented by a like numeral. For purposes of clarity, not every component may be labeled in every figure. In the figures:
According to one aspect, presented are novel integration of various structural elements into window curtain assemblies and window shade design models. In particular, according to some embodiments, metal banding is incorporated into a fabric reel window shade in a unique manner. The difficulties associated with integrating metal banding and the various structural elements of the curtain assemblies can be overcome according to some embodiments discussed herein. Notably, various structural elements introduced in the fabric curtain portion of the window shade apparatus present difficulties when employing a traditional reel based mechanism for raising and lowering the shade.
According to another aspect, a manufacturing process and machinery that can be used to generate some embodiments of novel window shades are also presented. Other features and aspects will become apparent with reference to the figures and related description, which provide additional detail with respect to some embodiments of the present invention.
According to another aspect, a curtain assembly includes a curtain and a plurality of rails attached to the curtain. The plurality of rails can be constructed of metal as described in greater detail below. In some embodiments, the plurality of rails are constructed and arranged to provide for the use of a ductile metal for an interior facing section, while providing structural support to the curtain by a rigid metal exterior facing section. The combination permits the use of various materials for the interior facing section. In some embodiments, the combination allows for aesthetic effect to govern the selection of the material used for the interior facing portion of a rail. In other embodiments, the combination further permits construction of the first interior section so as to minimize the amount of material needed for the first interior section. In one example, the first interior section can be constructed of an expensive metal. The amount of metal required for the first interior section can be reduced by relying on the structure provided by the second exterior section to hold the curtain in place with little or no support from the first interior member. Additional benefits can be derived from the used of curtain assemblies including the plurality of metal rails as discussed in greater detail below.
Shown for example in
Horizontal elements 102-108 provide the structural support to hold the curtain under tension. Tension is maintained such that the curtain when off of the roll tube can be configured to be flat or substantially flat, shown for example in
In some embodiments, the horizontal elements 102-108 each comprise a pair of respective metal members A and B. The metal members 108A-B are typically constructed and arranged of metals of varying rigidity. In some embodiments the metal for an exterior facing side is selected to provide rigidity to curtain. The thickness dimension of exterior facing metal member can be varied depending on a required rigidity, for example to hold the curtain under tension, such that the curtain remains substantially flat when off of the roll tube 130. One should appreciate that different levels of rigidity are required based on the details of a specific installation. In some examples, little rigidity is required and thin members (e.g. metal members 108A-B may be used to sandwich the curtain 120 between them). Shown at 108A and 108B are two metal members applied to opposing sides of a curtain 120. The metal bands can be constructed to facilitate operation of the assembly, in one example, by having widths of 0.020 inches (+/−0.009 inches). In other examples, different width and/or heights can be employed.
In some processes for producing the window shade, an adhesive layer 109 is applied to the metal members 108A-B to fix the position of the members so other attachment mechanisms can be included. For example, adhesive tape can be used at 109 to fix the position of the metal members 108A-B so that another attachment mechanism can be employed. In another example, the attachment mechanism includes a rivet, 124. Other attachment mechanisms may be employed. In other examples, the adhesive can be the only attachment mechanism to fix the member 108A and 108B to the curtain 120. Each horizontal element can be constructed in a manner similar to the horizontal element 108, with each horizontal element 102-106 having their own respective inter and exterior metal members 102A-B, 104A-B, and 106A-B. Further each horizontal element and the members A and B that comprise them can be attached to the curtain 120 using an adhesive applied at 111. In some embodiments, additional attached mechanisms can be employed. In one example, rivets 113 may be used to fix the members together.
One should readily appreciate that the attachment mechanism used should not impede the operation of the curtain. In one embodiment, the attachment mechanism is configured to be flush with the metal members, permitting operation of the curtain (raising and lowering) without catching the fabric of the curtain. In one example, a rivet is employed so that the rivet is flush with the metal members 108A-B.
Some implementations can include horizontal elements of thickness less than 0.1 of an inch for each member pair, providing an overall thickness of up to 0.2 inches. Other embodiments can use material of differing thicknesses for each element, including different thicknesses for an interior facing member and an exterior facing member among other examples. Thin implementations can be used, for example, with expensive material and/or where the primary purpose of the elements is to contribute to the overall design of the window shade apparatus.
Roll tube 130 operates to raise and lower curtain 120 once the assembly 100 is installed. According to some embodiments, the spacing of the horizontal elements is important to the proper functioning of the window shade. Typically, the roll mechanism must be configured to incorporate the length of the curtain 120 and the thickness of each individual horizontal element. Appropriate spacing between the horizontal elements prevents overlap permitting a smaller overall chamber for the curtain 120 and roll tube 130, for those embodiments employing an outer chamber to conceal the roll and curtain from view (not shown). Additionally, the spacing between horizontal elements provides for a smaller profile for some shade embodiments that do not conceal the roll tube 130 and curtain 120 when in its upper or recessed position.
Shown at 150 is a window shade assembly 150 with curtain 152 partially recessed. Window shade assembly 150 illustrates a wound position of the curtain 152, and the nesting of the horizontal elements 155-159, so that the plurality of horizontal elements align in adjacent position, minimizing overlap of the horizontal elements. In some embodiments, the horizontal elements will overlap, but typically, they are adapted and configured to occupy adjacent positions until the adjacent positions are filled, and then the next horizontal member will occupy an overlapping space with any remaining elements occupying positions adjacent to the first overlapping element. Thus according to some embodiments, the horizontal members will occupy adjacent positions until the diameter of the roll tube 160 and curtain is filled, and then a next circle of adjacent space will be filled and so and until the curtain and any horizontal members are entirely retracted. According to one example, spacing considerations can be determined by accounting for the tube diameter (alternatively by radius or circumference) and the width dimension of the horizontal elements. One should appreciate that different spacing dimensions may be employed.
Referring again to
Shown in
In another embodiment,
Referring to
With reference to
Shown at 650,
Shown in
Shown in
Lifting system 700 includes rollers 702-704 which are attached to supports 706-708. In one embodiment, lift tape 712 is used to attach upper roller 704 to a lifting bar 710. In other examples rope, wire, or other attachment devices may be used to attach the upper roller 704 to the lifting bar 710. In some implementations, lifting system 700 includes a lift arm and press mechanism (not shown) that permit the lifting and lowering of upper roller 704. A lift arm can be provided to rotate lifting bar 710. In some embodiments, rotation of the lifting bar rotates the attachment devices at 712, thereby raising and lowering the upper roller 704. In other embodiments, a press mechanism can be included. A press mechanism can be constructed with hydraulic devices to provide sufficient force to press metal bands to together and at the same time rivet the metal bands to either side of a curtain 756. In another embodiment, the rollers are configured for manual operation and an operator can turn the rollers by hand as a curtain is being fed through the space between the rollers. In some examples, the rollers are linked so that the turning of one causes the same turn in the other. In other embodiments, the rollers may be used to pull the fabric across the assembly table by their operation.
A side view of an example assembly table is shown at 750. Excluded from side view 750, are supports for rollers 752 and 754. Lower supports 780 provide a platform (e.g. a table) on which a curtain 756 (e.g. a fabric curtain) is passed between rollers 752-754. At appropriate intervals, upper roller 754 is lowered to press metal bands 782 to the curtain by pressing against a lower roller 752. In some embodiments, upper roller 754 is lowered by operation of a lifting bar 760. Lifting bar can be configured to raise and lower upper roller 754 upon rotation through connection 761.
In some embodiments, rivets are inserted into the metal bands 782 after attachment to the curtain to complete the attachment (not shown). In one example, two metal bands 782 are attached to the curtain 756 so as to form a horizontal element as discussed with respect to
Shown at 770,
According to another aspect, a process for fabricating a curtain with metal horizontal elements is provided. The horizontal elements comprise a front metal band and a rear metal band that can be adhered to the curtain to create the horizontal element. Process 800,
The rollers are further configured to press the front and rear metal banding to the curtain as it is pulled through the assembly table. According to one embodiment, prior to pressing the metal banding to the curtain, the curtain is prepared for the attachment at 804. In one embodiment, preparation of the curtain typically involves applying a heating element to the curtain. Depending on the material being used, the heating element can be used to melt the curtain material to prepare it for bonding with the metal bands. In one alternative, heating portions of the curtain insures that oils and other materials that would interfere with an adhesive bond are removed from the curtain. Heating elements can be applied to both surfaces of the curtain or in the alternative one surface of the curtain. The heated portions of the curtain can be configured to create bonding surfaces specially constructed to receive metal bands used to form horizontal elements of a curtain assembly. In some embodiments, the heating elements are applied under pressure to create a bonding surface on the curtain. In some implementations, the application of the heating elements melts the curtain material providing for the bonding surface. In other implementations, the curtain material is flattened by applying pressure and heat to provide the bonding surface. In one alternative, a bonding surface can be prepared chemically in conjunction or as a substitute for heat, using for example an acid to create a bonding surface on the curtain. In one embodiment, a bonding surface is configured to be placed on both sides of curtain to permit bonding of multiple sections of a rail to the curtain. An interior facing member of the rail can be attached at the bonding surface on one side of a curtain and an exterior facing member of the rail can be attached to the bonding surface on the other side of the curtain.
At 806 the metal bands are applied to the curtain over the bonding surface. In one embodiment, the metal bands form a first interior facing member and a second exterior facing member of a rail as discussed herein. In some embodiments, the metal bands are treated with an adhesive prior and/or during application. In other embodiments, the bonding surface can be treated with an adhesive and the metal bands applied. Shown in
The metal bands attached to the curtain can be of varying length. Typically, a front facing metal band is used for its aesthetic look and feel in conjunction with a stiff rear facing metal band that can be used to provide for stiffness in the curtain. For example, a stainless steel metal band can be applied to the back of the curtain. One example of a stainless steel band includes a commercially available full hard, RC 40-45 #3 metal band. In another example, the stainless steel metal band is provided with a width dimension of 0.020 inches+/−0.0015 inches and a height of 0.312 inches+/−0.005 inches with an overall length that depends on the dimensions of the curtain.
In another embodiment, the front band can be of similar and/or greater dimensions than the stiffening band. For example, the front band can be ¼ inch high, 5/16 inches high or can be constructed of a greater height dimension. In some implementations the front metal band is constructed an arranged to have an overall length greater than the width the curtain to which it is to be attached. Once the bands have been placed, the non-overlapping portion of the front metal band is wrapped around the curtain at 808. For example, the front metal band can be folded over and around the curtain under pressure. The folded over portion of the front metal band can also be configured to hold the curtain in place. Shown, in
In
In some embodiments, the length of the front metal band is configured to provide for the folded over portion of the front metal band at 904. Further the length of the front metal band can be configured to result in the folder over portion 904 abutting the rear metal band adhered to the exterior facing side of the curtain 908. Shown in
In some implementations the front metal band can be constructed and arranged of a stiff metal material such that the front metal band provides for the stiffness/rigidity in a curtain's construction. Sown in
In some examples, bands 1002 and 1006 are bonded to curtain material 1004 using an adhesive. The bands can be treated with an adhesive, and the bands applied to prepared locations on the curtain (not shown). In other embodiments, the curtain and/or a prepared surface of the curtain is treated with an adhesive prior to and/or in conjunction with fixing the bands 1002 and 1006 to the curtain material 1004.
Shown in
One should appreciate that the present invention is not limited in its application to the details of construction and the arrangement of components set forth in the foregoing description or illustrated in the drawings. In particular, the description of rails and components using interior and exterior is intended only to designate that the structures are placed on opposite sides, and that one of skill in the art would be readily capable of reversing the positioning of the structure with respect to a curtain. The invention is capable of other embodiments and of being practiced or of being carried out in various ways. Also, the phraseology and terminology used herein is for the purpose of description and should not be regarded as limiting. The use of “including,” “comprising,” or “having,” “containing”, “involving”, and variations thereof herein, is meant to encompass the items listed thereafter and equivalents thereof as well as additional items.
Having thus described several aspects of at least one embodiment of this invention, it is to be appreciated various alterations, modifications, and improvements will readily occur to those skilled in the art. Such alterations, modifications, and improvements are intended to be part of this disclosure, and are intended to be within the spirit and scope of the invention. Accordingly, the foregoing description and drawings are by way of example only, and the scope of the invention should be determined from proper construction of the appended claims, and their equivalents.
This application is a continuation of U.S. application Ser. No. 12/911,807, entitled “ARCHITECTURAL APPARATUS AND METHOD,” filed Oct. 26, 2010, now issued as U.S. Pat. No. 8,408,274, which application claims priority under 35 U.S.C. §120 to U.S. Provisional Application Ser. No. 61/254,915 entitled “ARCHITECTURAL APPARATUS AND METHOD,” filed Oct. 26, 2009, and U.S. Provisional Application Ser. No. 61/362,744 entitled “ARCHITECTURAL APPARATUS AND METHOD,” filed Jul. 9, 2010, each of which applications are herein incorporated by reference in their entirety.
Number | Date | Country | |
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61254915 | Oct 2009 | US | |
61362744 | Jul 2010 | US |
Number | Date | Country | |
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Parent | 12911807 | Oct 2010 | US |
Child | 13780562 | US |