WO2016210312A1 - Fabric having a backing material for a covering for an architectural opening - Google Patents
Fabric having a backing material for a covering for an architectural opening Download PDFInfo
- Publication number
- WO2016210312A1 WO2016210312A1 PCT/US2016/039335 US2016039335W WO2016210312A1 WO 2016210312 A1 WO2016210312 A1 WO 2016210312A1 US 2016039335 W US2016039335 W US 2016039335W WO 2016210312 A1 WO2016210312 A1 WO 2016210312A1
- Authority
- WO
- WIPO (PCT)
- Prior art keywords
- vane
- fabric
- stiffness
- backing material
- laminate
- Prior art date
Links
- 239000000463 material Substances 0.000 title claims abstract description 251
- 239000004744 fabric Substances 0.000 title claims abstract description 247
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- NIXOWILDQLNWCW-UHFFFAOYSA-N acrylic acid group Chemical group C(C=C)(=O)O NIXOWILDQLNWCW-UHFFFAOYSA-N 0.000 description 1
- 230000004913 activation Effects 0.000 description 1
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- 229920002554 vinyl polymer Polymers 0.000 description 1
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 description 1
Classifications
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- B32B—LAYERED PRODUCTS, i.e. PRODUCTS BUILT-UP OF STRATA OF FLAT OR NON-FLAT, e.g. CELLULAR OR HONEYCOMB, FORM
- B32B5/00—Layered products characterised by the non- homogeneity or physical structure, i.e. comprising a fibrous, filamentary, particulate or foam layer; Layered products characterised by having a layer differing constitutionally or physically in different parts
- B32B5/02—Layered products characterised by the non- homogeneity or physical structure, i.e. comprising a fibrous, filamentary, particulate or foam layer; Layered products characterised by having a layer differing constitutionally or physically in different parts characterised by structural features of a fibrous or filamentary layer
- B32B5/08—Layered products characterised by the non- homogeneity or physical structure, i.e. comprising a fibrous, filamentary, particulate or foam layer; Layered products characterised by having a layer differing constitutionally or physically in different parts characterised by structural features of a fibrous or filamentary layer the fibres or filaments of a layer being of different substances, e.g. conjugate fibres, mixture of different fibres
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B32—LAYERED PRODUCTS
- B32B—LAYERED PRODUCTS, i.e. PRODUCTS BUILT-UP OF STRATA OF FLAT OR NON-FLAT, e.g. CELLULAR OR HONEYCOMB, FORM
- B32B5/00—Layered products characterised by the non- homogeneity or physical structure, i.e. comprising a fibrous, filamentary, particulate or foam layer; Layered products characterised by having a layer differing constitutionally or physically in different parts
- B32B5/22—Layered products characterised by the non- homogeneity or physical structure, i.e. comprising a fibrous, filamentary, particulate or foam layer; Layered products characterised by having a layer differing constitutionally or physically in different parts characterised by the presence of two or more layers which are next to each other and are fibrous, filamentary, formed of particles or foamed
- B32B5/24—Layered products characterised by the non- homogeneity or physical structure, i.e. comprising a fibrous, filamentary, particulate or foam layer; Layered products characterised by having a layer differing constitutionally or physically in different parts characterised by the presence of two or more layers which are next to each other and are fibrous, filamentary, formed of particles or foamed one layer being a fibrous or filamentary layer
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B32—LAYERED PRODUCTS
- B32B—LAYERED PRODUCTS, i.e. PRODUCTS BUILT-UP OF STRATA OF FLAT OR NON-FLAT, e.g. CELLULAR OR HONEYCOMB, FORM
- B32B5/00—Layered products characterised by the non- homogeneity or physical structure, i.e. comprising a fibrous, filamentary, particulate or foam layer; Layered products characterised by having a layer differing constitutionally or physically in different parts
- B32B5/22—Layered products characterised by the non- homogeneity or physical structure, i.e. comprising a fibrous, filamentary, particulate or foam layer; Layered products characterised by having a layer differing constitutionally or physically in different parts characterised by the presence of two or more layers which are next to each other and are fibrous, filamentary, formed of particles or foamed
- B32B5/24—Layered products characterised by the non- homogeneity or physical structure, i.e. comprising a fibrous, filamentary, particulate or foam layer; Layered products characterised by having a layer differing constitutionally or physically in different parts characterised by the presence of two or more layers which are next to each other and are fibrous, filamentary, formed of particles or foamed one layer being a fibrous or filamentary layer
- B32B5/26—Layered products characterised by the non- homogeneity or physical structure, i.e. comprising a fibrous, filamentary, particulate or foam layer; Layered products characterised by having a layer differing constitutionally or physically in different parts characterised by the presence of two or more layers which are next to each other and are fibrous, filamentary, formed of particles or foamed one layer being a fibrous or filamentary layer another layer next to it also being fibrous or filamentary
-
- E—FIXED CONSTRUCTIONS
- E06—DOORS, WINDOWS, SHUTTERS, OR ROLLER BLINDS IN GENERAL; LADDERS
- E06B—FIXED OR MOVABLE CLOSURES FOR OPENINGS IN BUILDINGS, VEHICLES, FENCES OR LIKE ENCLOSURES IN GENERAL, e.g. DOORS, WINDOWS, BLINDS, GATES
- E06B9/00—Screening or protective devices for wall or similar openings, with or without operating or securing mechanisms; Closures of similar construction
- E06B9/02—Shutters, movable grilles, or other safety closing devices, e.g. against burglary
- E06B9/08—Roll-type closures
- E06B9/11—Roller shutters
- E06B9/15—Roller shutters with closing members formed of slats or the like
- E06B2009/1505—Slat details
- E06B2009/1516—Means to increase resistance against bending
-
- E—FIXED CONSTRUCTIONS
- E06—DOORS, WINDOWS, SHUTTERS, OR ROLLER BLINDS IN GENERAL; LADDERS
- E06B—FIXED OR MOVABLE CLOSURES FOR OPENINGS IN BUILDINGS, VEHICLES, FENCES OR LIKE ENCLOSURES IN GENERAL, e.g. DOORS, WINDOWS, BLINDS, GATES
- E06B9/00—Screening or protective devices for wall or similar openings, with or without operating or securing mechanisms; Closures of similar construction
- E06B9/24—Screens or other constructions affording protection against light, especially against sunshine; Similar screens for privacy or appearance; Slat blinds
- E06B2009/2405—Areas of differing opacity for light transmission control
Definitions
- This invention relates generally to coverings for architectural openings, and more specifically to a fabric having a backing material for a covering for an architectural opening.
- Coverings for architectural openings such as windows, doors, archways, and the like, have taken numerous forms for many years.
- the fabrics used for the coverings have presented various challenges associated with a given operation of the covering.
- the fabric of the covering it is desirable for the fabric of the covering to present an aesthetically pleasing appearance.
- Different coverings operate in different manners which move the fabric forming the covering element into extended or retracted positions (respectively covering or uncovering the architectural opening) in different manners. For instance, different coverings fold the fabric of the covering element along a given direction to retract the covering. More particularly, some coverings include operable vanes that are movable between open and closed positions.
- the present disclosure generally provides a fabric that has a backing so that the backed fabric offers improvements or an alternative to existing arrangements of the fabric of the shade portion of a covering for an architectural opening (herein "architectural opening covering" for the sake of convenience without intent to limit). More particularly, the present disclosure generally provides a fabric with a backing coupled thereto to modify the stiffness of the fabric along at least a first direction of the fabric to facilitate use of the fabric in a selected shade configuration. In one embodiment, the backing modifies the stiffness of the fabric to permit bending of the fabric about a first axis more readily than about a second axis perpendicular to the first axis. The backing may or may not modify the stiffness about the second axis.
- the fabric may be used to form an architectural opening covering having a shade employing movable vanes.
- the vanes formed in accordance with principles of the present invention include an outer fabric and an inner backing material connected together.
- the backing material is designed such that the backing material satisfies the stiffness requirements for use in a vane by, for example, increasing the stiffness of the vane along the length of the vane (extending across the width of the architectural opening covering) while negligibly affecting the stiffness of the vane perpendicular to the axis about which the vane is to bend to open and close the vane to allow viewing through the shade.
- the vane is stiffer along its length but remains flexible about its height, thereby providing a flexible vane that has a consistent, preferably smoothly contoured appearance.
- FIG. 1 is a front perspective view of a covering in accordance with an embodiment of the present disclosure.
- Fig. 2 is a front perspective view of a vane of the covering of Fig. 1 and in an open configuration in accordance with an embodiment of the present disclosure.
- FIG. 3 is a front perspective view of a vane without a fabric backing and in an open configuration.
- Fig. 4 is an enlarged detail view of the vane of Fig. 2 in accordance with an embodiment of the present disclosure.
- Fig. 5 is an enlarged, exploded detail view of the vane of Fig. 2 in accordance with an embodiment of the present disclosure.
- FIG. 6 is a comparative view of a vane having a backing material and a vane without a backing material in accordance with an embodiment of the present disclosure. The two vanes are shown in a flat, or closed, configuration.
- Fig. 7 is a schematic view of a method of manufacturing a vane in accordance with an embodiment of the present disclosure.
- a shade including a support sheet and a plurality of horizontally-extending vanes that can move relative to the support sheet.
- the present disclosure is applicable to any suitable window covering product.
- roman-type shades, honeycomb shades, vertical shades, blinds, and the like can also be made in accordance with the present disclosure.
- the present disclosure is directed to a shade comprised of a cover fabric in conjunction with a backing material in accordance with the present disclosure as described above.
- FIG. 1 is a front perspective view of an illustrative embodiment of a covering 100 utilizing a backed fabric formed in accordance with principles of the present disclosure. As illustrated, the covering 100 is shown in a fully-extended, open
- the illustrative covering 100 includes a head rail 102, a bottom rail 104, and a shade 106 extending between the head rail 102 and the bottom rail 104.
- the illustrative shade 106 includes a vertically-extending support sheet 108 and a plurality of horizontally-extending vanes 110 connected to the support sheet 108.
- the support sheet 108 in the illustrative embodiment of Fig. 1 is in the form of a flexible sheet of fabric, which may be of a substantially rectangular configuration having top and bottom edges 107a, 107b, and left and right side edges 109a, 109b.
- the support sheet 108 which may be constructed of knit, woven, or nonwoven materials of various levels of transparencies, is vertically-suspended from the head rail 102 along its top edge 107a.
- the support sheet 108 may be suspended from a generally cylindrical roller rotatably mounted within the head rail 102 for selective reversible rotary movement about a horizontal central axis.
- the structure of the roller may allow the shade 106 to be retracted around and unwound from the roller as the roller is reversibly rotated.
- the structure from which the shade 106 is suspended, retracted, and extended may take on forms other than the roller in the head rail 102 as described above.
- Attached to the bottom edge 107b of the support sheet 108 is the bottom rail 104, which is an elongate member that may be weighted and generally maintains the shade 106 in a taut condition at its desired level of extension.
- each of the plurality of vanes 110 is suspended generally horizontally across a front face 112 of the support sheet 108 at vertically-spaced locations such that the length of the vane 110 extends along the width W of the shade 106.
- each vane 110 is made from resiliently flexible material or fabric, which may be light-transmissive or light blocking.
- each vane 110 includes a first edge 114 (e.g., an upper edge) and a second edge 116 (e.g., a lower edge) opposite the first edge 114.
- each vane 110 is attached to the front face 112 of the support sheet 108 across the width W of the support sheet 108 and at vertically-spaced locations such that the plurality of vanes 110 hang substantially parallel to the longitudinal axis L H R of head rail 102.
- the second edge 116 of each vane 110 hangs freely such that the second edge 116 of vane 110 is movable relative to the first edge 114 of vane 110 along the front face 112 of the support sheet 108.
- the position of the second edge 116 relative to the first edge 114 is variable based on the desired actuation and aesthetics of each vane 110 as it moves from its closed to open positions.
- each vane 110 In the closed position, each vane 110 is substantially flat and generally parallel with the support sheet 108. In the open position, each vane 110 has a substantial teardrop shape cross-section and extends forwardly of the support sheet 108. In the embodiment of Fig. 1, the vanes 110 may be positioned in any configuration between the fully open and the fully closed configurations to achieve substantially any desired light blocking or occluding characteristics of the shade 106. To achieve the desired aesthetic effect when in the closed and/or open positions, each vane 110 includes bending properties in at least two directions, as described below.
- the covering 100 includes operating elements 118 for moving the vanes 110 between open and closed positions.
- Each operating element 118 extends along the front face 112 of the support sheet 108 and is secured at spaced locations along its length to the second edge 116 of each vane 110 such that if the operating element 118 is lifted, the second edge 116 of each vane 110 is lifted synchronously toward the first edge 114 of each respective vane 110 so as to define a gap between the vanes 110 through which vision and/or light may pass.
- each vane 110 is made of flexible material or fabric, movement of the second edge 116 towards the first edge 114 causes the vane 110 to bend or fold about a vane longitudinal axis L v and/or expand away from the support sheet 108 as shown in Fig. 1, for instance. Accordingly, transitioning the vanes 110 from a closed position to an open position causes the cross- section of each vane 110 to change from a generally planar configuration in the closed position to a generally arcuate configuration in the open position.
- the operating elements 118 slidably pass between the support sheet 108 and the first edge 114 of each vane 110, and in such locations, the first edge 114 is not attached to the support sheet 108 to allow the operating elements 118 to move relatively between the first edge 114 and the support sheet 108.
- the operating elements 118 are shown as monofilament cords but can assume other various forms, including but not limited to strips of fabric or other materials, cords of synthetic or natural fibers, or other similar forms.
- the operating elements 118 may have a variety of cross-sections, including circular, oval, rectangular, square, or other geometric shapes.
- the operating elements 118 need not be attached to every vane 110, but instead may be attached to specific vanes 110 that are desired to be movable between open and closed positions. It will be appreciated that instead of passing between the first edge 114 and the support sheet 108, the operating elements 118 may pass through the support sheet 108, or through the vane 110.
- FIG. 2 is a front perspective view of an illustrative embodiment of the vane 110 in accordance with principles of the present disclosure.
- the machine direction MD of the fabric used to form the vane 110 is the direction in which the fabric is processed during assembly.
- the machine direction MD thus extends along the length of the vane 110 such that when the vane 110 is connected to the support sheet 108 as part of the complete covering 100, the machine direction MD extends along the length of the vane 110 and across the width W of the support sheet 108 between the left and right side edges 109a, 109b of the support sheet 108.
- the cross direction XD of the fabric used to form the vane 110 extends transversely to the machine direction MD, and in the illustrative example of Fig. 2, is thus along the height of the vane 110.
- the cross direction XD of each vane 110 extends vertically between the top and bottom edges 107a, 107b of the support sheet 108 (and between the first and second edges 114, 116 of each vane 110).
- the machine direction MD of the fabric used to form the vane 110 need not correspond to the length of the vane 110, and could instead correspond to, for example, the height of the vane 110, depending on the design of the product in which the fabric is used.
- the machine direction MD and the cross direction XD of the fabric used to form the vane 110 may, in other configurations, be oriented substantially perpendicular to respective machine and cross directions MDss, XDss of the support sheet 108 (see Fig. 1).
- each vane 110 in its machine direction MD and in its cross direction XD is tailored to achieve a desired stiffness characteristic, and thus the desired aesthetic effect, when the vane 110 is in the closed and/or open positions.
- the vane 110 of Fig. 2 has sufficient stiffness in its machine direction MD (i.e., machine-direction stiffness) to provide fabric with a contour that has a consistent, preferably smooth appearance throughout the vane 110 to reduce ripples 120 or undulations within the vane 110, as explained below (see Fig. 3).
- the vane 110 includes an upper tab 122 and a lower tab 124, each optionally defined by respective upper and lower creases 126, 128 or fold lines. Each tab 122 and 124 preferably folds rearwardly from the front surface of the vane. The creases 126, 128 define the first and second edges 114, 116 of the vane 110 (see Fig. 2).
- the upper tab 122 may be used for attaching the first edge 114 of the vane 110 to the support sheet 108.
- the lower tab 124 may be used for attaching the second edge 116 of the vane 110 to the operating elements 118 to allow for selective movement of the vane 110 between the open and closed configurations. It will be appreciated that the tabs 122 and 124 are not a required feature of the vane 110, which may have only one tab or no tabs.
- Fig. 3 is a front perspective view of an alternative embodiment of the vane 110' in accordance with principles of the present disclosure.
- the vane 110' of Fig. 3 is identical to the vane 110 of Fig. 2.
- the vane 110' does not have sufficient stiffness in its machine direction MD to provide a fabric that has a contour with a consistent, smooth, appearance throughout as compared to the vane 110 illustrated in Fig. 2. Because of insufficient stiffness in its machine direction MD, the vane 110' of Fig.
- FIG. 4 is an enlarged detail view of an illustrative embodiment of the vane 110 of Fig. 2 in accordance with principles of the present disclosure.
- Fig. 5 is an enlarged exploded view of the vane 110 of Fig. 4 in accordance with principles of the present disclosure. As shown in Figs.
- the vane 110 includes a fabric 130 and a backing material 132 connected to the fabric 130 (e.g., to a rear of the fabric 130) to enhance the desired properties of the fabric 130 in a first direction (e.g., to enhance stiffness along the length of the vane 110 extending about the width W of the shade 106 which is not intended to bow or bend or otherwise fold or bend), to reduce or eliminate any unintended or incidental "puckering" or ripples 120 in the vane 110, and to maintain the desired property of the fabric 130 in a second direction (e.g., to maintain flexibility of the vane about the bending axis of the vane so that the vane readily bends into an open or closed configuration as desired).
- a first direction e.g., to enhance stiffness along the length of the vane 110 extending about the width W of the shade 106 which is not intended to bow or bend or otherwise fold or bend
- a second direction e.g., to maintain flexibility of the vane about the bending axis of the vane so
- the vane 110 may be formed as a laminate structure of the fabric 130 and the backing material 132 (and adhesive), and may alternatively be referenced as a "vane laminate.”
- the fabric 130 which may be referred to as a vane fabric, an outer fabric, a fabric material portion, or a first material, and the backing material 132 may be connected together by a layer of adhesive 134 (e.g., a thermoplastic adhesive) positioned between the fabric 130 and the backing material 132.
- adhesive 134 e.g., a thermoplastic adhesive
- Many different types and structures of adhesive 134 can be used, which can be applied by spray, gravure, roll coating, die cast extrusion, or by any other suitable manner. Selection of adhesive type and/or structure depends upon the desired characteristics and/or properties of the formed vane 110.
- a crosslinking adhesive may be used for high temperature end use applications, and a thermoplastic adhesive may be selected for moderate temperature end use applications.
- the adhesive 134 may or may not be relatively inert to the physical characteristics (e.g., stiffness) of the vane laminate.
- the layer of adhesive 134 is a melt blown adhesive sprayed onto the web structure of at least one of the fabric 130 and the backing material 132 and solidifies with little to no shrinkage.
- Figs. 4 and 5 depict the layer of adhesive 134 as a continuous layer (in both cross-section and along its length), the layer of adhesive 134 may be a discontinuous web or dot structure.
- a section view of the layer of adhesive 134 may appear discontinuous or continuous depending on the section line.
- the type of adhesive used, the manner in which the adhesive is applied, and the amount of adhesive applied in between the backing material in the fabric can further influence the stiffness properties, particularly the stiffness ratio, of the resulting laminate.
- the adhesive can also be applied in a unidirectional manner that cooperates with the backing material in increasing the stiffness ratio.
- the adhesive may be applied as fibers or filaments. For instance, unidirectionally oriented meltblown fibers may be used as the adhesive.
- the adhesive may be applied in a discontinuous pattern, such as a dot pattern.
- the adhesive may cover less than 80%, such as less than about 70%, such as less than about 60%, such as less than about 50%, such as less than about 40%, such as less than about 30% of the surface area of the fabric.
- the adhesive generally covers greater than about 10% of the surface area, such as greater than about 20% of the surface area, such as greater than about 30% of the surface area.
- any type of fabric 130 may be used for a desired purpose (e.g., any of a variety of shades 106 or vanes 110 with different bending and/or draping requirements) by application of the backing material 132 thereto to modify the stiffness (and stabilize elongation to improve manufacturing versatility) of the fabric 130 in the desired manner without otherwise significantly affecting the other properties of the fabric 130, such as thickness, weight, and/or light transmissivity of the fabric 130.
- a desired purpose e.g., any of a variety of shades 106 or vanes 110 with different bending and/or draping requirements
- the backing material 132 thereto to modify the stiffness (and stabilize elongation to improve manufacturing versatility) of the fabric 130 in the desired manner without otherwise significantly affecting the other properties of the fabric 130, such as thickness, weight, and/or light transmissivity of the fabric 130.
- the backing material 132 may be applied to a variety of fabrics 130 to modify the stiffness ratio of the fabric 130 to achieve a desired flexibility and stiffness characteristics of the laminate for the ultimate application and use of the fabric, such as, without limitation, as a vane in a shade. It is contemplated that the backing material 132 may modify or enhance, based on its inherent physical properties and application, the properties of the fabric 130 in substantially any direction based on a desired end use of the vane laminate. However, for ease of reference and as an illustrative example, the present disclosure describes the stiffness and flexibility of the fabric 130 in terms of machine direction and cross direction. As noted above, the machine direction MD and cross direction XD typically correspond, in the illustrative embodiment of Fig.
- the fabric 130 and the backing material 132 may be made of any suitable material, including but not limited to woven or nonwoven fabrics of natural or man-made materials, including vinyl, plastic, or other such materials.
- the backing material 132 is a directional nonwoven material, although non-directional woven and nonwoven fabrics or materials are also contemplated.
- the backing material 132 which may be referred to as an inner fabric, a backing material portion, or a second material and may be sheer, may be formed from a plurality of fiber segments oriented primarily along the longitudinal axis L v of the vane 110 (i.e., along the machine direction MD of the vane 110).
- the backing material 132 may be formed from aligned continuous fibers, yarns, and/or carded, aligned staple fibers that have some fiber overlapping. Additionally or alternatively, the backing material 132 may be formed from a plurality of generally parallel rows, each row including a plurality of longitudinal fibers substantially oriented and overlapping along the row, the rows extending along the longitudinal axis L v of the vane 110 with little or no cross-linking between the rows. Thus, in the illustrative embodiments of Figs. 4 and 5, the backing material 132 may have a "grain" or striated appearance in one direction (e.g., in the machine direction MD of the vane 110) such that the fibers appear to be in a "combed" web structure.
- the fiber orientation of the backing material 132 enhances or increases, sometimes significantly, for instance by multiples, the machine-direction stiffness of the vane 110 about an axis, such as in its machine direction MD. Additionally, because the fibers of the backing material 132 extend mainly along the machine direction MD of the vane 110, with little cross-linking between rows, the backing material 132 maintains as constant and/or slightly affects the cross-direction stiffness of vane 110, thus maintaining the bending properties of the vane 110 in its cross direction XD. In some embodiments, the backing material 132 may be configured with increased cross-linking between rows to achieve a more equal machine direction to cross direction fiber distribution such that the vane 110 achieves a desired stiffness to operate properly for a particular application.
- the backing material 132 comprises a meltspun web or a laminate containing a meltspun web.
- the meltspun web includes fibers that are oriented in one direction for increasing the stiffness of the material in the direction of orientation.
- the meltspun web may comprise a spunbond web, a meltblown web, a hydroentangled web, a coform web, and the like.
- the meltspun web can be made exclusively from continuous filaments, can be made exclusively from staple fibers, or can be comprised of a combination of continuous filaments combined with staple fibers.
- the backing material 132 may comprise any other suitable nonwoven web or laminate.
- the nonwoven web for instance, may comprise a wetlaid web, an airlaid web, a bonded carded web, and/or a crosslapped web in which the web contains fibers that have been unidirectionally oriented.
- the backing material 132 can have various different characteristics and properties depending upon the particular application, as long as the material is capable of being adhered to another fabric and includes unidirectionally oriented fibers and/or greater stiffness properties in one direction.
- the backing material 132 can have a relatively light basis weight.
- a relatively light basis weight material can provide the necessary stiffness adjustment to a fabric without significantly interfering with the opacity characteristics of the fabric.
- lightweight basis materials can dramatically and unexpectedly improve the elongation properties of a fabric.
- the backing material can have a basis weight of generally less than about 20 gsm, such as less than about 17 gsm, such as less than about 15 gsm, such as less than about 13 gsm, such as less than about 10 gsm, such as less than about 8 gsm, such as less than about 5 gsm, such as even less than about 3 gsm.
- the backing material generally has a basis weight greater than 1 gsm.
- the backing material can also have a relatively heavy basis weight.
- the basis weight of the backing material can be greater than about 20 gsm, such as greater than about 30 gsm, such as greater than about 40 gsm, such as greater than about 50 gsm, such as greater than about 60 gsm.
- the basis weight of the backing material is generally less than about 150 gsm, such as less than about 120 gsm. Heavier basis weight materials may be desired in certain applications, especially when producing laminates that are designed to block light.
- the backing material 132 can also be produced from various different fibers and filaments.
- the backing material is made exclusively from synthetic fibers, filaments, or a combination of fiber and filaments.
- the backing material can be made from polyester, a polyolefin such as polyethylene or polypropylene, an acrylic, or mixtures thereof.
- the backing material can also contain other fibers, including cellulose fibers, regenerated cellulose fibers such as rayon, cotton fibers, and the like.
- a suitable backing material 132 includes MTLIFE® T-Grade MD-only nonwoven, a 100% polyester nonwoven material manufactured by JX Nippon.
- MTLIFE® T-Grade MD-only nonwoven comes in a variety of grades, including T10, which has a basis weight of 10 g/m 2 and a tensile strength of 50 N/50mm.
- Other fabrics or materials may be utilized for the backing material 132 depending on the particular application, including fabrics having a variety of ratios between machine direction and cross direction fiber distributions operable to affect the physical properties of the vane 110 in a low profile manner.
- the backing material 132 comprises a unidirectionally oriented hydroentangled web.
- the hydroentangled web can have a relatively low basis weight such as less than about 20 gsm, such as less than about 17 gsm, such as less than about 15 gsm, such as less than about 13 gsm, such as less than about 10 gsm, such as less than about 8 gsm.
- the basis weight is generally greater than about 2 gsm, such as greater than about 5 gsm, such as greater than about 7 gsm.
- the hydroentangled web is made from a precursor web comprising a spunbond web made from continuous polymeric filaments.
- the precursor or spunbond web is placed on a foraminous surface and subjected to the hydroentangling process. Hydroentanglement is affected by application of high pressure liquid streams to the web. Filaments of the web are rearranged on the fabric forming surface of the device.
- the forming surface and the liquid streams act in conjunction to rearrange the filaments of the web and to create a unidirectionally oriented web that has sufficient integrity and strength for handling.
- filaments can be used having a really low denier.
- the filaments can have a denier of less than about 3.0, such as less than about 2.5, such as less than about 2.0, such as less than about 1.5, such as less than about 1.0, such as less than about 0.8, such as less than about 0.5.
- the denier of the filaments is generally greater than about 0.2, such as greater than about 0.5, such as greater than about 1.0.
- the spunbond precursor web comprises a web that has been lightly bonded which allows the high pressure fluid streams to break or disrupt the bonds without breaking the continuous filaments.
- a relatively low basis weight web can be formed made from substantially continuous filaments that have been unidirectionally oriented. If desired, after hydroentangling, the spunbond and
- hydroentangled web can be subjected to further bonding processes, such as thermal bonding.
- a unidirectionally oriented hydroentangled web may be used as the backing material which comprises two or more webs that have been hydroentangled together.
- a unidirectionally oriented nonwoven web can be hydroentangled with one or more other nonwoven webs to result in a unidirectionally oriented structure that has sufficient strength and integrity for handling and incorporation into fabric laminates.
- the unidirectionally oriented web that is subjected to hydroentangling can be made using different processes and techniques.
- the web may comprise a meltspun web, such as a spunbond or meltblown web, that has been stretched in one direction for unidirectionally orienting the fibers.
- the nonwoven web can be stretched, for instance, using rollers that operate at different speeds. Alternatively, stretching can occur on a tenter frame.
- the draw ratio of the unidirectionally oriented nonwoven fabric for instance, can be from about 5 to about 20, such as from about 8 to about 12.
- the nonwoven web can be made from staple fibers, continuous filaments, or mixtures thereof.
- the fibers and filaments can have a denier of from about 0.01 to about 10, such as from about 0.03 to about 5.
- the unidirectionally oriented web is then hydroentangled with at least one other nonwoven web.
- the nonwoven web can comprise any suitable fiber web or nonwoven fabric.
- the unidirectionally oriented web is
- the carded web can be made from staple fibers having any of the denier ranges described above.
- the two webs are then hydroentangled together in order to produce a nonwoven material not only having unidirectionally oriented fibers but also having sufficient integrity and strength to be later processed.
- the resulting nonwoven material can have a basis weight of from about 8 gsm to about 150 gsm. In one embodiment, for instance, the material has a relatively light basis weight of less than about 25 gsm, such as less than about 20 gsm, such as less than about 15 gsm, such as less than about 12 gsm, such as less than about 10 gsm.
- the basis weight is generally greater than about 3 gsm, such as greater than about 5 gsm.
- the backing material 132 may be formed directly on one side of the fabric 130.
- any suitable nonwoven web having unidirectionally oriented fibers or filaments may be applied directly to the fabric 130 in accordance with the present disclosure.
- the nonwoven web for instance, may comprise a spunbond web, a meltblown web, a coform web, or the like.
- the backing material 132 can have a basis weight of less than about 15 gsm, such as less than about 12 gsm, such as less than about 10 gsm, such as less than about 8 gsm, such as less than about 5 gsm, such as even less than about 3 gsm.
- unidirectionally oriented fibers, filaments, or mixtures thereof can be applied directly to the fabric 130 in a manner that produces little to no crossover points that are typically present in nonwoven webs.
- the above described backing materials when attached to a fabric are all capable of adjusting the stiffness of the fabric in one direction.
- the stiffness is increased in a first direction without significantly affecting the stiffness in a second and perpendicular direction.
- the first direction is the machine direction
- the second direction is the cross-direction.
- the stiffness of a fabric can be increased in any suitable direction depending upon the particular application.
- the ratio between the machine-direction stiffness and the cross-direction stiffness (i.e., stiffness ratio) of the vane 110 having the backing material 132 attached thereto is between about 1.5: 1 and about 18: 1.
- the stiffness ratio of laminates made according to the present disclosure can generally be greater than about 2: 1, such as greater than about 3 : 1, such as greater than about 4: 1, such as greater than about 6: 1, such as greater than about 8: 1, such as greater than about 10: 1, such as greater than about 12: 1, such as greater than about 14: 1.
- the stiffness ratio is generally less than about 50: 1, such as less than about 40: 1, such as less than about 30: 1, such as less than about 20: 1. Certain fabrics or materials have stiffness ratios within the range mentioned above without the use of the backing material 132.
- the backing material 132 can be used on substantially any type of fabric or material, including but not limited to densely or lightly wovens or nonwovens, lightweight woven sheers, lightweight nonwovens, and lightweight knits, to enhance its respective stiffness ratio.
- the backing material 132 is not only able to enhance materials having a poor stiffness ratio, the backing material 132 may also be used to selectively enhance and support materials that have a desired stiffness ratio but do not have a desired stiffness in general.
- the backing material 132 may include less machine direction orientation compared to a backing material 132 used for a fabric 130 having a stiffness ratio less than 1 : 1.
- the backing material 132 may be unbiased such that the backing material 132 has an equal machine direction to cross direction fiber distribution (see Fig. 5), resulting in a more balanced enhancement of the stiffness of the vane 110 in both its machine direction MD and its cross direction XD.
- the backing material 132 may have a relatively light basis weight that may desirably influence the elongation properties of the fabric without significantly impacting the opacity of the fabric.
- the backing material in this embodiment, can have a basis weight of less than about 12 gsm, such as less than about 10 gsm, such as less than about 8 gsm, such as less than about 6 gsm, such as less than about 4 gsm.
- the basis weight of the backing material is generally greater than about 1 gsm.
- Tables 1-3 Illustrative examples of increases in stiffness ratio with respect to various fabrics or materials are shown below in Tables 1-3.
- the various fabrics or materials shown in Tables 1-3 below were tested using a Handle-O-Meter testing machine, developed by Johnson & Johnson and now manufactured by Thwing- Albert, that measures the combination of surface friction and flexibility of sheeted materials (i.e., the handle of the fabric). All of the materials were tested face side down on the testing machine.
- Table 1 below shows Handle-O-Meter test results using "Polyester Woven A" as the fabric 130.
- Polyester Woven A is a mid-weight (100 gsm- 150 gsm), plain weave, 100% polyester, woven construction.
- Row 1 Polyester Woven A was tested without the backing material 132.
- Row 2 Polyester Woven A was tested with the backing material 132 applied thereto.
- Rows 3-4 illustrate test data of Polyester Woven A with various conventional backing materials applied thereto for comparison with the backing material 132.
- Table 1 illustrates test results using Polyester Woven A, similar results can be achieved for substantially any woven material whose stiffness ratio is heavily biased towards one direction (e.g., its cross-direction stiffness).
- Table 1 "Polyester Woven A" Handle-O-Meter Test Results
- Table 2 below shows Handle-O-Meter test results using "Polyester Woven B" as the fabric 130, and shows stiffness testing with and without the backing material 132 of the present disclosure applied thereto.
- Polyester Woven B is a heavy-weight (greater than 150 gsm), plain weave, 100% polyester, woven construction. In row 1, Polyester Woven B was tested without the backing material 132. In row 2, Polyester Woven B was tested with the backing material 132 applied thereto in accordance with the present disclosure.
- Table 3 below shows Handle-O-Meter test results using "Polyester Woven C" as the fabric 130, and shows stiffness testing with and without the backing material 132 of the present disclosure applied thereto.
- Polyester Woven C is a lightweight (less than 100 gsm), plain weave woven composed of 100% polyester woven material. In row 1, Polyester Woven C was tested without the backing material 132. In row 2, Polyester Woven C was tested with the backing material 132 applied thereto in accordance with the present disclosure.
- Polyester Woven A fabric 130 resulted in an approximate 5% decrease in cross-direction stiffness but also an approximate 385% increase in machine-direction stiffness, or an approximate 77 times greater effect on the machine-direction stiffness than the effect on the cross-direction stiffness of the vane 110. Similar results are shown in Table 2, which provides an approximate 18 times greater effect on the machine-direction stiffness than the effect on the cross-direction stiffness of the Polyester Woven B fabric 130. Similarly, Table 3 shows an approximate 5 times greater effect on the machine-direction stiffness than the effect on the cross-direction stiffness of the Polyester Woven C fabric 130.
- the backing material 132 increases the stiffness of the vane 110 in its machine direction MD while maintaining the flexibility of the vane 110 in its cross direction XD, unlike use of conventional backing materials as shown in Table 1.
- the backing material 132 may be operable to "flip" the stiffness ratio by significantly increasing machine-direction stiffness while marginally affecting cross-direction stiffness, or vice-versa.
- strength and/or stiffness deficiencies of the fabric 130 can be overcome through application of the backing material 132 to the fabric 130.
- a backing material 132 can be selected so as to influence the stiffness properties of the fabric in a manner desired for a particular application.
- the backing material when applied to a fabric, can increase the stiffness of the fabric in a first direction by greater than about 2 times, such as greater than about 3 times, such as greater than about 4 times, such as even greater than about 5 times the original stiffness of the fabric.
- the stiffness in the second direction can remain substantially unaffected.
- applying the backing material to the fabric can increase the stiffness in the second direction by less than about 2 times, such as less than about 1.5 times, such as less than about 1 times, such as less than about 0.5 times the original stiffness of the fabric.
- the stiffness ratio of the fabric after the backing material is applied can increase at least about 1.5 times greater, such as at least about 2 times greater, such as at least about 2.5 times greater, such as at least about 3 times greater, such as at least about 3.5 times greater, such as at least about 4 times greater, such as at least about 4.5 times greater, such as at least about 5 times greater, such as at least about 5.5 times greater, such as at least about 6 times greater than the original stiffness ratio of the fabric.
- the stiffness ratio is generally increased less than 50 times greater, such as less than about 40 times greater, such as less than about 30 times greater, such as less than about 20 times greater than the original stiffness ratio of the fabric.
- the backing material 132 may be selected and/or the properties of the backing material 132 may be tailored to produce a variety of vanes 110 that behave similarly in the covering 100.
- a variety of fabrics 130 each having different physical characteristics may be used to produce respective vanes 110 that have similar properties (e.g., weight, machine-direction stiffness, cross-direction stiffness).
- fabrics 130 not having desired stiffness characteristics alone may be used for a particular purpose (e.g., any of a variety of shades 106 or vanes 110 with different bending and/or draping
- the backing material 132 may modify the bending and draping characteristics of the fabric 130 without otherwise significantly affecting other properties of the fabric 130, such as but not limited to thickness, basis weight, and/or the opacity of the fabric 130.
- the fabric 130 includes a machine direction MD V F and a cross direction XD V F
- the backing material 132 includes a machine direction MDBF and a cross direction XD B F AS shown
- the respective machine directions MD V F, MDBF of the fabric 130 and the backing material 132 extend parallel to each other and parallel to the machine direction MD of the vane 110.
- the respective cross directions XD V F, XD B F of the fabric 130 and the backing material 132 extend parallel to each other and parallel to the cross direction XD of the vane 110.
- the machine direction of the fabric 130 and the machine direction of the backing material 132 may be arranged perpendicular to each other depending upon the construction of the different fabric materials.
- the cross direction of the fabric may be perpendicular to the cross direction of the backing material.
- the backing material 132 may be sized identically to the fabric 130.
- the fabric 130 may have relatively greater dimensions such that an upper portion and/or a bottom portion of the fabric 130 may be folded over the backing material 132 toward the support sheet 108 to respectively form the upper and lower tabs 122, 124 and the upper and lower creases 126, 128 of the vane 110 (see Fig. 2).
- the adhesive 134 may facilitate in setting and/or holding at least one of the upper and lower creases 126, 128.
- the backing material 132 may help achieve better fold or crease retention in the vane 110. Also, when the backing material 132 is applied to the fabric 130, the vane 110 may be more easily scored and bent. [0053]
- the relative dimensions of the fabric 130, the layer of adhesive 134, and the backing material 132 are exaggerated in Fig. 5 for illustrative purposes. In practice, the layer of adhesive 134 and the backing material 132 add limited thickness and weight to the fabric 130, although the thickness and weight of the adhesive 134 and the backing material 132 may be tailored to achieve a desired aesthetic and/or strength characteristic.
- the layer of adhesive 134 and the backing material 132 contribute about 10 to about 30 grams per square meter in weight and/or add between about 0.02 and about 0.06 mm in thickness to the vane 110.
- the adhesive 134 is shown as a substantial layer in Fig. 5, the adhesive 134 may be less substantial in practice and appear thin like a web of interconnected adhesive fibers or a dot coated hot melt adhesive.
- Fig. 6 is a comparative view of illustrative embodiments of a vane 110A having a backing material 132 and a vane HOB without a backing material 132. Without the backing material 132, the vane HOB may "pucker" to create irregularities in surface contour and topography (e.g., creating ripples 120). This "puckering" transmits to the finished vane 110 and is visible in use. As can be seen in Fig.
- the backing material 132 reduces the amount of "puckering" within the vane 110 by stabilizing the fabric 130 in at least one direction (e.g., its machine direction MD VF )
- the backing material 132 is operable to prevent stretching of the fabric 130 in the least one direction (e.g., its machine direction MDV F ) AS illustrated in Fig. 6, the backing material 132 causes the fabric 130 to lie flat against, for example, a work surface 136 as shown in Fig. 6 or against the support sheet 108 in operation.
- a consistent, preferably smooth, appearance is achieved without adversely affecting the "feel" and the look of the fabric 130 or its function during operation, at least from a front side view of the vane 110.
- the backing material 132, and in particular the fibers of the backing material 132 is not visible to a user when the vane 110 is implemented in the shade 106 even under backlighting conditions.
- a backing material is selected that does not significantly impact the opacity of the fabric 130. Consequently, in one embodiment, the backing material can advantageously influence the stiffness of the fabric 130 without significantly impacting the light transmission properties of the fabric.
- a backing material can be selected that increases the opacity of the fabric 130 by no more than about 35%, such as no more than about 30%, such as no more than about 25%, such as no more than about 20%, such as no more than about 15%, such as no more than about 13%, such as no more than about 10%, such as no more than about 8%.
- the opacity of materials can be measured using an XRITE Densitometer Opacity Tester manufactured by X-Rite, Inc. of Grandville, MI.
- the above instrument measures density which can be converted to opacity (%).
- the above instrument measures a density from 0 to 5 with 0 representing 0% opacity and 5 representing approximately 100% opacity.
- the density (opacity) of the fabric 130 prior to being combined with the backing material 132 can be from about 0.2 to about 2, such as from about 0.3 to about 1.8, such as from about 0.5 to about 1.5.
- a backing material can be selected that substantially blocks all light from transmitting through the laminate after the backing material is attached to the fabric 130.
- the backing material 132 and the fabric 130 can form a laminate having a density (opacity) of greater than about 4, such as greater than about 4.5, such as greater than about 4.8.
- the backing material may have a relatively high basis weight.
- the basis weight of the backing material may be greater than about 20 gsm, such as greater than about 30 gsm, such as greater than about 40 gsm, such as greater than about 50 gsm, such as greater than about 60 gsm.
- the basis weight of the backing material is generally less than about 150 gsm.
- the backing material of the present disclosure can also have a significant and unexpected impact on the elongation properties of the fabric 130.
- the backing material of the present disclosure can have a significant impact on the stiffness ratio of the fabric and the elongation properties of the fabric while only marginally impacting opacity.
- the opacity of the fabric may increase by no more than about 35%, such as no more than about 15%, such as even no more than about 10%.
- the backing material when applied to the fabric can decrease the elongation of the fabric by greater than about 20%, such as greater than about 25%), such as greater than about 30%, such as even greater than about 35%.
- the elongation is generally decreased in an amount up to about 100%, such as up to about 80%.
- Fig. 7 is a schematic view of an illustrative embodiment of a method of manufacturing the vane 110 in accordance with principles of the present disclosure.
- the fabric 130 and the backing material 132 are bonded together in a flatbed laminator 138 to create a laminated fabric assembly 140, which is alternatively referred to as a "fabric laminate" and is subsequently formed into the vane 110.
- Fig. 7 illustrates a flatbed laminator 138, other machines can be used to create the laminated fabric assembly 140 to similar effect, such as calenders and drum machines.
- Fig. 7 illustrates a flatbed laminator 138, other machines can be used to create the laminated fabric assembly 140 to similar effect, such as calenders and drum machines.
- the fabric 130 is wound on a first spool 142 and the backing material 132 is wound on a second spool 144.
- the first spool 142 and the second spool 144 reside and rotate within a common plane in a spaced relationship such that the fabric 130 and the backing material 132 extend from the respective spools 142, 144 in substantial or coextensive alignment.
- An alignment mechanism 146 for verifying the alignment of the fabric 130 and the backing material 132 is also shown in Fig. 7. In some embodiments, the alignment mechanism 146 fine-tunes the alignment of the fabric 130 and the backing material 132 before the two fabrics 130, 132 are permanently bonded together.
- the adhesive 134 is applied to one side of at least one of the backing material 132 and the fabric 130.
- the adhesive 134 may be melt blown or otherwise applied onto the backing material 132 as the backing material 132 is unrolled from the second spool 144.
- the backing material 132 is wound onto the second spool 144 with the adhesive 134 pre-applied to the backing material 132 for later activation.
- the adhesive 134 may take the form of a web adhesive wound on a third spool, which may reside and rotate within the common plane of, and in a spaced relationship with, the first spool 142 and the second spool 144.
- the fabric 130, the backing material 132, and the web adhesive may extend from the respective spools 142, 144 in substantial or coextensive alignment, with the web adhesive positioned between the fabric 130 and the backing material 132.
- the backing material 132 is laminated to one side of the fabric 130 using heat and/or pressure applied by the flatbed laminator 138.
- the flatbed laminator 138 may include a heating platen assembly 148 to heat set the adhesive 134 applied between the fabric 130 and the backing material 132.
- the heating platen assembly 148 includes an upper platen 150 and a lower platen 152 maintained at a high temperature between about 300°F and about 350°F (e.g., about 325°F) such that as the fabric 130 and the backing material 132 are passed therebetween, the adhesive 134 is activated to bond the two fabrics 130, 132 together.
- Each of the upper platen 150 and the lower platen 152 includes a pressure surface 154 that is generally rectangular in shape and is longer than it is wide.
- the upper platen 150 and the lower platen 152 press the fabrics 130, 132 together to consistently bond the backing material 132 to the fabric 130.
- each of the upper platen 150 and the lower platen 152 may apply a pressure of between about 2.5 psi and about 25 psi (e.g., approximately 5 psi) to the fabric assembly 140.
- the heat and pressure settings described above are for illustration purposes. In the illustrative embodiment of Fig. 7, the stiffness of the fabric assembly 140 may be tailored by adjusting the heat and/or pressure settings of the heating platen assembly 148.
- the fabric assembly 140 may pass through a cooling platen assembly 156 to reduce the temperature of the fabric assembly 140 for later processing (e.g., to room temperature).
- the cooling platen assembly 156 includes an upper chilling platen 158 and a lower chilling platen 160, each of which applying a pressure to the fabric assembly 140 passing therebetween (e.g., approximately 5 psi) and including a pressure surface 162 that is generally rectangular in shape and is longer than it is wide.
- Each of the upper chilling platen 158 and the lower chilling platen 160 are water cooled to maintain the reduced temperature of the cooling platen assembly 156.
- cooling water passes through the upper chilling platen 158 and the lower chilling platen 160 at a temperature between about 52°F and about 58°F (e.g., about 54°F).
- the fabric 130 and the backing material 132 are continuously passed through the heating platen assembly 148 and/or the cooling platen assembly 156 by one or more conveyors 164 running between about 15 and about 20 feet per minute (e.g., about 18.5 fpm).
- the fabric assembly 140 may undergo further processing, such as but not limited to, cutting the fabric assembly 140 to desired length for particular applications or products.
- the backing material 132 associated with an operable vane 110 selectively attached to a support sheet 108 can be utilized on different vane structures where bending along one axis while having stiffness along the axis is desired.
- the backing material 132 may be applied to vertical vane structures, roller shades, and/or vane structures attached to and extending between two vertically or horizontally extending sheets of material to create either a vane or shade structure that has a consistent, preferably smooth, appearance throughout due at least in part to increased stiffness in a desired direction (e.g., in a machine direction and/or in a cross direction of the vane or shade structure).
- Machine-direction and cross-direction stiffness were tested using a Handle-O- Meter, available from Thwing- Albert Instrument Co. of Philadelphia, Pa. Five machine- machine direction and five cross-direction tests were performed using samples from each roll. The average stiffness of the five machine-direction samples and five cross-direction samples tested for each roll is reported in Table 4. The tests were run according to ASTM D2923.
- Machine-direction and cross-direction elongation were measured using an Instron 5969 Tensile Tester. Five machine-machine direction and five cross-direction tests were performed using samples from each roll. The sample test size was 2.0" x 5.0", the crosshead speed was 1.5 in/min, the force exerted on the specimen was 5 lbf, and the grip distance was 3.0". The average elongations of the five machine-direction samples and five cross-direction samples tested for each roll are reported in Table 4.
- Grandville, Mich. was used to measure visible light transmittance/opacity. This machine measured over a range of about 400-750 nm, and may be considered to provide a more accurate measurement of human visible light transmittance than measurements taken at a single visible light wavelength.
- All directional references e.g., proximal, distal, upper, lower, upward, downward, left, right, lateral, longitudinal, front, back, top, bottom, above, below, vertical, horizontal, radial, axial, clockwise, and counterclockwise
- Connection references e.g., attached, coupled, connected, and joined
- connection references are to be construed broadly and may include intermediate members between a collection of elements and relative movement between elements unless otherwise indicated. As such, connection references do not necessarily infer that two elements are directly connected and in fixed relation to each other.
Abstract
Description
Claims
Priority Applications (8)
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US15/738,887 US11242711B2 (en) | 2015-06-26 | 2016-06-24 | Fabric having a backing material for a covering for an architectural opening |
EP16815413.6A EP3313658A4 (en) | 2015-06-26 | 2016-06-24 | Fabric having a backing material for a covering for an architectural opening |
KR1020177037163A KR102573468B1 (en) | 2015-06-26 | 2016-06-24 | Fabric with backing material for coverings for building openings |
BR112017028056-6A BR112017028056B1 (en) | 2015-06-26 | 2016-06-24 | COVERING FOR AN ARCHITECTURAL OPENING AND METHOD OF MANUFACTURING A FABRIC FOR USE AS A COVER SHAFT |
CN201680037084.3A CN107708990B (en) | 2015-06-26 | 2016-06-24 | Fabric with backing material for covering of architectural openings |
AU2016284674A AU2016284674B2 (en) | 2015-06-26 | 2016-06-24 | Fabric having a backing material for a covering for an architectural opening |
CA2990179A CA2990179C (en) | 2015-06-26 | 2016-06-24 | Fabric having a backing material for a covering for an architectural opening |
US17/570,609 US20220127904A1 (en) | 2015-06-26 | 2022-01-07 | Fabric having a backing material for a covering for an architectural opening |
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US201562185326P | 2015-06-26 | 2015-06-26 | |
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US17/570,609 Continuation US20220127904A1 (en) | 2015-06-26 | 2022-01-07 | Fabric having a backing material for a covering for an architectural opening |
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EP (1) | EP3313658A4 (en) |
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- 2016-06-24 WO PCT/US2016/039335 patent/WO2016210312A1/en active Application Filing
- 2016-06-24 CA CA2990179A patent/CA2990179C/en active Active
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- 2016-06-24 BR BR112017028056-6A patent/BR112017028056B1/en active IP Right Grant
- 2016-06-24 CN CN201680037084.3A patent/CN107708990B/en active Active
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2022
- 2022-01-07 US US17/570,609 patent/US20220127904A1/en not_active Abandoned
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EP3357683A3 (en) * | 2017-02-06 | 2018-11-21 | Hunter Douglas Inc. | Room darkening material and architectural covering made from same |
US11186070B2 (en) | 2017-02-06 | 2021-11-30 | Hunter Douglas Inc. | Room darkening material and architectural covering made from same |
WO2020081484A1 (en) * | 2018-10-16 | 2020-04-23 | Hunter Douglas Inc. | Laminate for architectural structures |
Also Published As
Publication number | Publication date |
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US11242711B2 (en) | 2022-02-08 |
KR102573468B1 (en) | 2023-08-31 |
AU2016284674B2 (en) | 2021-02-11 |
BR112017028056A2 (en) | 2018-08-21 |
CA2990179A1 (en) | 2016-12-29 |
CA2990179C (en) | 2023-09-26 |
EP3313658A4 (en) | 2019-03-27 |
KR20180022696A (en) | 2018-03-06 |
AU2016284674A1 (en) | 2018-01-04 |
CN107708990A (en) | 2018-02-16 |
EP3313658A1 (en) | 2018-05-02 |
CN107708990B (en) | 2021-04-06 |
BR112017028056B1 (en) | 2022-03-15 |
US20180216402A1 (en) | 2018-08-02 |
US20220127904A1 (en) | 2022-04-28 |
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