The present invention relates to a tiled floor assembly, placer and methods of tiling of or for a suspended deck. It may also relate to a method of tiling a suspended timber frame decking and related components and systems.
Suspended timber frame decks are common and help address moisture penetration problems for buildings. Such decks are typically constructed on a sub structure that may be part of the roof or ceiling of a dwelling below. A timber frame is supported by spaced apart props and the frame is constructed to receive decking material in the form of timber planks that are nailed or screwed to the timber framing below.
Some prefer the look, ease of maintenance or durability of tiles compared to timber planks. Tiles are typically made from a hard material such as a ceramic and are hard to drill holes through for the purposes of fastening them to a substructure.
Tiles are able to be adhesively fastened to a substrate such as a tile sheet underlay that is made from a cementitious material. But for decking such a tile sheet underlay interferes with the flow of rain water through the deck for drainage purposes.
It may therefore be an object of the present invention to provide a tiled floor assembly that addresses the abovementioned problems and/or that will at least provide the public with a useful choice.
It may also therefore be an object of the present invention to provide a placer of or for a suspended deck that addresses the abovementioned problems and/or that will at least provide the public with a useful choice.
It may also therefore be an object of the present invention to provide a methods of tiling of or for a suspended deck that addresses the abovementioned problems and/or that will at least provide the public with a useful choice.
Accordingly in a first aspect the present invention may broadly be said to be a tiled floor assembly (whether wholly or partly within a building envelope or not), the assembly comprising or including:
(i) a substructure whether of an assembly or discrete elements located above a substrate (whether the substrate has a fall or not and/or whether the substrate is membraned or not), the substructure having an array of locating indexing features,
(ii) multiple tile footing pads supported by the substructure, each pad to support one or more tile, and each pad indexed by at least one pad indexing feature with the a locating indexing feature, and
(iii) tiles each supported in part at each right angled or obtuse angled corner region by a pad; wherein each tile is adhered to at least one or more of its pads.
Preferably the substructure is a frame (eg of timber).
Preferably the substructure is a frame floating (eg on footings, pedestals or the like) above the substrate the frame having an array of locating indexing features, and wherein multiple tile footing pads are supported by the frame, each pad to support one or more tile, and each pad indexed by at least one pad indexing feature (that may be protuberance for example) into a locating indexing feature.
Preferably the substructure comprises of a plurality of spaced apart height adjustable props.
Preferably the props present an upper bearing member onto of which at least one pad can be placed and supported to support a tile at its corner, the bearing member presenting the locating indexing feature to register the pad thereat.
Preferably the bearing member presents a plurality of locating indexing features.
Preferably the bearing member presents 4 locating indexing features so that 4 pads can be supported at a said prop.
Preferably the frame is a timber frame comprised of a plurality of timber beams connected to each other at beam intersections.
Preferably the timber beams extend parallel and at right angles to each other.
Preferably the timber beams are coplanar each other.
Preferably the timber beams each present a coplanar upwardly facing surface into which the locating indexing features are provided.
Preferably the tiles are or are to be arranged in a parallel manner with the upwardly facing surfaces.
Preferably the locating indexing features are arranged in a regular formation relative to each other.
Preferably the timber frame is floating on footings that are preferably adjustable in height above a substrate
Preferably the frame has an array of locating indexing features formed by post frame construction drilling of the timber frame.
Preferably multiple tile footing pads are supported by the frame on top of the upwardly facing surfaces of the timber frame.
Preferably multiple tile footing pads are supported by the substructure on top of the upwardly facing surfaces of the substructure.
Preferably each pad supports one or more tiles.
Preferably each pad supports one tile only.
Preferably four pads in total support a said tile.
Preferably each pad is indexed by its pad indexing feature being preferably at least one protuberance into a locating indexing feature, and
(iii) tiles each supported in part at each right angled or obtuse angled corner region by a pad; wherein each tile is adhered in an indexed relativity to at least one or more of its pads.
Preferably each pad is a moulded item.
Preferably each moulded item has frangible or non frangible flanges, lips or the like against each of which a tile can abut to attain said indexed relativity.
Preferably each tile has right angled corners (eg is a square or rectangular tile and is not a hexagonal tile) and each pad in the array may support only one tile at one of its corners or may support juxtaposed tiles at their mutually proximate corners, whether two or four mutually proximate corners.
Preferably each tile is quadrilateral in shape and has right angled corners and each pad in the array may support only one tile at one of its corners.
Preferably the locating indexing features are timber jig drilled to provide the array of locating indexing features.
Preferably each pad indexing feature and locating indexing feature has a tapering inter-relationship.
Preferably each protuberance is tapered towards it free distal end.
Preferably the tapering inter-relationship is not adhesively fixed.
Preferably at least some of the pads have been adhesively affixed to a tile prior to pad placement on the frame.
Preferably at least some of the pads have been placed on the frame prior to being adhesively affixed to a tile.
Preferably each pad is substantially incompressible.
Preferably each pad provides, in-situ a noise transmission reduction function to reduce noise transmission across the assembly.
Preferably the tiles are not grouted.
In a second aspect the present invention broadly consists in a footing pad for a corner region support and indexing of a tile (eg as in an assembly as herein described), each pad, when notionally in an orientation in which it will be laid, upwardly defining an indexed placement and supporting position for its or a tile, and downwardly defining at least one indexing protuberance.
Preferably the upwardly defining indexed placement and supporting position for its or a tile is provided by a base member of the pad on which the tile can be placed and at least one peripheral lip is provided from the base member to locate at a tile corner to two adjacent edges of the tile.
Preferably at least part of the peripheral lip is severally attached to the base member.
Preferably at least part of the peripheral lip is able to be snapped off the base member.
Preferably a line or region of weakness is located between at least part of the lip and the base member.
Preferably the lip, when in-situ does not protrude above the upper surface of the tile.
Preferably the base member elevated the tile above the frame by at least 2 mm and preferably no more than 10 mm.
Preferably the downwardly defined indexing protuberance extends from the base member.
Preferably the protuberance is a pin.
Preferably the protuberance is circular in cross section.
Preferably both an area and lip provides the indexed placement and supporting position.
Preferably the or each protuberance is tapered.
In a further aspect the present invention broadly consists in a preinstalled condition a pad as herein before described and a tile adhered thereto.
Preferably the pad is or is to be supported on a substructure as herein described.
In a further aspect the present invention broadly consists in, in a preinstalled condition, the combination of both a frame and the multiple footing pads of or suitable for an assembly as herein before described.
In a further aspect the present invention broadly consists in, the combination as hereinbefore described, also with the tiles.
In a further aspect the present invention broadly consists in a method of tile installation on a floating wooden frame (preferably to provide an assembly as herein before described), said method comprising or including
placing the frame already fully with indexing holes and/or placing the frame and, once the frame has been placed, jig drilling any holes required or still required in the frame for indexing purposes,
placing footing pads so that each is indexed to a said hole, and
placing tiles on the pads and/or placing with their pad or pads tiles on the frame.
Preferably each tile is adhesively affixed to at least one pad prior to and/or after pad placement on the frame.
Preferably the holes are blind tapered holes.
Preferably the method as herein described provides an assembly as herein before described.
Preferably the pad is square in plan view.
Preferably the pad is no larger than 200 square centimetres.
Preferably the pad is no larger than 100 square centimetres.
Preferably the pad is pad is made from a plastics material.
Preferably the pad is made from a hard plastics material.
Preferably the pad is made as a one piece moulded plastic.
Preferably the pad has a base to be supported on the frame that is of a surface profile that helps reduce the trapping of water between the pad and the frame compared to if the surface was flat.
Preferably the pad has a base to be supported on the frame that is corrugated.
Preferably the pad has a base that is castellated to create air passages between the pad and the frame when the pad is located to the frame.
In a further aspect the present invention is a suspended timber frame deck comprising a timber frame of interconnected timber beams extending parallel and perpendicular to each other to define a plurality of interstices each covered by at least one quadrilateral tile supported at at least two and preferably each of its edges by as said beam of the timber frame, indirectly at at least two locations by a tile support pad located between the tile and an underlying timber beam, the pad including a protrusion located in a hole or against an edge of the timber beam to register therewith to the timber beam and registered to the tile to help locate the tile to the timber beam and help prevent the tile from sliding over the timber beam.
In a further aspect the present invention is said to be a tiled floor assembly,
the assembly comprising or including:
(i) a substructure positioned above a substrate,
(ii) multiple tile footing pads supported by the substructure and/or by a plurality of intermediate members arranged at or atop the substructure, each pad to support one or more tile, and each pad indexed by at least one pad indexing feature cooperating with a locating indexing feature of an array of locating indexing features provided by the substructure and/or by the plurality of intermediate members, and
(iii) tiles each supported in part at each right angled or obtuse angled corner region by a pad; wherein each tile is adhered to at least one or more of its pads.
Preferably, said multiple tile footing pads are supported by the substructure on top of upwardly facing surfaces of the substructure and/or atop upper surfaces of the plurality of intermediate members.
Preferably, each pad is indexed by its pad indexing feature being at least one protuberance cooperating with or into a locating indexing feature, wherein each tile is adhered in an indexed relativity to at least one or more of its pads.
Preferably, each pad is a moulded item.
Preferably, the pad has frangible or non frangible flanges, lips against each of which a tile can abut to attain said indexed relativity.
Preferably, each tile has right angled corners and each pad in the array supports at least one of (a) only one tile at one of its corners and (b) juxtaposed tiles at their mutually proximate corners, whether two or four mutually proximate corners.
Preferably, each pad indexing feature and locating indexing feature has a tapering inter-relationship.
Preferably, the substructure is a frame so positioned above the substrate by way of footings, the frame providing said array of locating indexing features, and wherein the multiple tile footing pads are supported by the frame, each pad to support one or more tile, and each pad indexed by said at least one pad indexing feature cooperating with said locating indexing feature.
Preferably, the frame is a timber frame comprised of a plurality of timber beams connected to each other at beam intersections.
Preferably, the timber beams extend parallel and at right angles to each other.
Preferably, said multiple tile footing pads are supported by the timber frame on top of upwardly facing surfaces of the timber frame and/or atop upper surfaces of the plurality of intermediate members arranged at the timber frame or atop said upwardly facing surfaces of the timber frame.
Preferably, each intermediate member comprises at least one locating indexing feature provided by a hole extending at least partially therethrough.
Preferably, each intermediate member comprises two to four locating indexing features provided by two to four holes extending at least partially therethrough arranged at corners of said intermediate member.
Preferably, said hole(s) comprising a countersunk chamfer.
Preferably, the intermediate members are configured to be affixed to the substructure by way of adhesive and/or by way of at least one fastening member connecting said intermediate member to said substructure.
Preferably, each intermediate member comprises a fixture perforation configured to cooperate with said fastening member to connect the intermediate member to or atop the substructure.
Preferably, said fastening member comprising a nail, stud or screw.
Preferably, each intermediate member is frangible along channels extending across upper or lower surfaces of said intermediate member.
Preferably, the substructure comprises of a plurality of spaced apart height adjustable props.
Preferably, the props present an upper bearing member onto of which at least one pad is positioned and supported to support a tile at its corner, the bearing member presenting the locating indexing feature to register the pad thereat.
Preferably, the upper bearing member presents a plurality of locating indexing features.
Preferably, the bearing member presents four locating indexing feature so that four pads can be supported by a said prop.
Preferably, the bearing member comprises a flange extending upwardly therefrom to affix a lateral part of the substructure thereto.
Preferably, said flange is frangible so as to be removable from the prop.
In a further aspect the present invention is said to be a method of tile installation on a substructure, said method comprising or including:
placing the substructure and affixing a plurality of intermediate members thereto,
placing footing pads so that each is indexed to a hole of an array of holes provided by the intermediate members, and
placing tiles on the pads and/or placing them with their pads on the frame; wherein each tile is affixed to at least one pad prior to or after pad placement on the intermediate members.
In a further aspect the present invention is said to be a method of tile installation on a substructure, said method comprising or including:
placing the substructure and/or affixing a plurality of intermediate members to the substructure, said intermediate members and/or said substructure presenting an array of indexing holes,
placing footing pads onto the substructure and/or intermediate members so that each is indexed to a hole of the array of indexing holes and then placing tiles on the pads and affixing them thereto and/or affixing the pads to the tiles and then placing the pads onto the substructure and/or intermediate members so that each is indexed to a hole of the array of indexing holes.
In a further aspect the present invention may comprise a kit of parts for assembling a plurality of tiles to form a tiled floor on or atop a substructure positioned above, and/or or supported by a substrate, said kit of parts comprising:
a plurality of tile footing pads configured to support one or more tile of the plurality of tiles, each pad comprising a pad indexing feature;
said plurality of tile footing pads being arrangeable by a user to locate and connect the plurality of tile footing pads to the substructure through engagement of the pad indexing features of each pad with a locating indexing hole of an array of locating indexing holes provided by or forming part of the substructure, wherein the plurality of tiles are supported by the plurality of tile footing pads and affixable thereto to form said tiled floor.
Preferably, the kit of parts further comprises at least one drilling jig arrangeable atop or connectable to the substructure to provide a guide for drilling into the substructure to thereby form at least one locating indexing hole of said array of locating indexing holes into said substructure.
In a further aspect the present invention may comprise a kit of parts for assembling a plurality of tiles to form a tiled floor on or atop a substructure positioned above, and/or or supported by a substrate, said kit of parts comprising:
a plurality of tile footing pads configured to support one or more tile of the plurality of tiles, each pad comprising a pad indexing feature; and
a plurality of intermediate members and/or a plurality of height-adjustable props;
said kit of parts being arrangeable by a user to locate and connect the plurality of tile footing pads to the plurality of intermediate members, the plurality of height-adjustable props and/or to the substructure itself through engagement of the pad indexing features of each pad with a locating indexing hole of an array of locating indexing holes provided by or forming part of the intermediate members, the height adjustable props and/or the substructure itself, wherein the plurality of tiles are supported by the plurality of tile footing pads and affixable thereto to form said tiled floor.
Preferably, the plurality of intermediate members are configured to affix to or atop the substructure.
Preferably, the plurality of height-adjustable props are configured to affix to the substructure.
Preferably, at least a portion of the substructure may be formed by the plurality of height-adjustable props.
Preferably, the plurality of height-adjustable props are arranged atop the substrate to support and connect to the substructure and/or to form at least a portion of the substructure.
Preferably, the kit of parts further comprises at least one locating jig arrangeable atop or connectable to the substructure to locate said plurality of intermediate members for connection thereto.
Preferably, the kit of parts further comprises a plurality of levelling wedges arrangeable beneath the plurality of height adjustable props to support said plurality of height adjustable props atop the substrate.
Preferably, the kit of parts further comprises at least one drilling jig arrangeable atop or connectable to the substructure to provide a guide for drilling into the substructure to thereby form at least one locating indexing hole of said array of locating indexing holes into said substructure.
This invention may also be said broadly to consist in the parts, elements and features referred to or indicated in the specification of the application, individually or collectively, and any or all combinations of any two or more of said parts, elements or features, and where specific integers are mentioned herein which have known equivalents in the art to which this invention relates, such known equivalents are deemed to be incorporated herein as if individually set forth.
As used herein the term “and/or” means “and” or “or”, or both.
As used herein “(s)” following a noun means the plural and/or singular forms of the noun.
The term “comprising” as used in this specification means “consisting at least in part of”. When interpreting statements in this specification which include that term, the features, prefaced by that term in each statement, all need to be present but other features can also be present. Related terms such as “comprise” and “comprised” are to be interpreted in the same manner.
The entire disclosures of all applications, patents and publications, cited above and below, if any, are hereby incorporated by reference.
The invention will now be described by way of example only and with reference to the drawings in which
More detail of the invention of which examples as shown in the drawings, will now be described.
The timber frame provides the supporting structure for tiles 8 to be located on top to in part define the tiled floor assembly of the present invention. The tiles are preferably supported on top of the upwardly facing surfaces 9 of the timber frame members and are held in place in a horizontal direction by virtue of the use of locating indexing features 10 preferably in the form of holes provided in the timber frame members at appropriate locations.
The tiles 8 index with these locating indexing features 10 using at least one and preferably a plurality of tile footing pads 11 of a kind as seen as an example in
Each pad 11 comprises of a base 12 on top of which a tile is able to be placed. An adhesive may be applied between the upper facing surface 13 of the base and a downwardly facing surface of the tile so that the pad 11 and the tile are able to be adhesively affixed to each other. This adhesive affixing may occur after the pad has been placed on the frame and registered with a locating indexing feature. In the preferred mode of installation 4 pads are placed on the framing for a tile to then be adhered to the 4 pads. The pads themselves are preferably not adhered to the framing. This allows the tiles to be lifted from the framing at a later date (eg to repair them or to gain access to underneath the tiles and/or framing).
The base includes a protrusion 15. This is able to index with a locating indexing feature 16 of the frame. Such a locating indexing feature may be an opening hole or depression and in the preferred form is a blind hole as seen in
It should be noted that the term locating indexing feature may be used in reference to
In the preferred form the blind hole is created by drilling of the timber framing member at where the pad is to be located to the frame. The drilling of the blind hole is preferably achieved by the use of a drilling jig 50 as seen in plan view in
As can be seen in
The timber framing at its upwardly facing surface 9 is able to receive the downwardly facing surface of the pad.
The upwardly facing surface of the pad 13 is able to be adhesively affixed by the use of an adhesive 18 to the tile 8.
The base 12 of the pad 11 preferably includes at least one, and as shown in
The lip or lips extend upwardly from the base 12 of the pad sufficiently to present a surface such as surface 24 against which an edge of a tile is able to register/abut. The lip may be continuous along the length of the base 12 or in an alternative form a plurality of lips may be presented along a length of a base as seen in
It will be appreciated that a provision of pads at at least two corners of a tile will allow for a translational and rotational fixing of a tile relative to a frame in the tile plane direction. I.e., the tile will not slide over the frame although may still be lifted off the frame. Therefore, in use it is preferred that at least two pads are used per tile to locate the tile to the frame and to prevent it from sliding or rotating off the timber framing. Or that at least one pad provides two spaced apart protrusion for engagement in two spaced apart holes of the frame. In some embodiments of the pad, the pad may extend from one tile corner to the other. And a or adjacent each corner a pad protrusion is provided by the one pad.
The preferred form of the invention utilises a pad at each of the four corners of a tile. The tiles are preferably ceramic tiles and are preferably of a square or rectangular format. Each pad hence has, in the preferred form, two lips 20 and 21 that extend at right angles to each other. This allows for a corner region to be defined by the pad at where a corner of a tile is able to nest. This can be seen in
In some instances it may be desirable for the lip of a pad to be removed or removable. This may desirable where a tile edge is exposed and not contiguous an adjacent tile or other building structure. The lip 20 of a pad is hence preferably able to be removed from the pad. A or each lip is able to be removed from the pad base to by hand or by a tool such as pliers.
In one example such removal may be by hand or by way of a tool such as pliers and the provision of a frangible region 30 between the lip 20 and the base 12 of a pad as seen in
The lip 20 is hence able to be snapped away from the base 12 as seen in
Once a deck frame, such as a floating frame of the assembly of the present invention, has been assembled or placed such as above a building structure as seen in
In an alternative embodiment of the invention, the tiled floor assembly may benefit from not requiring holes to be drilled or otherwise formed into the substructure. Instead, it may be preferable if the locating indexing features are provided by an intermediate member affixed to connected to or atop the substructure, thereby eliminating the need to ensure the holes drilled into the substructure be properly positioned for correct tile alignment.
In such an embodiment, the tile floor assembly may comprise a plurality of intermediate members 200 as shown in
Each intermediate member 200 may be configured to be affixed to the substructure by way of adhesive and/or by way of at least one fastening member connecting said intermediate member to said substructure. For instance, the intermediate member 200 may be glued to an intersection of the timber frame 2 of
Alternatively, or additionally, the intermediate members 200 may be affixed to the substructure or frame 2 by means of a fastening member such as a nail, stud, screw or the like. In that regard, the intermediate member 200 may comprise a fixture perforation 204 configured to cooperate with said fastening member to connect the intermediate member 200 to or atop the substructure or frame 2. This fixture perforation 204 may comprise a hole extending fully through the intermediate member 200 as shown in
The intermediate member 200 provides the benefits of additional sound deadening or acoustic dampening to a substructure as it is preferably formed from rubber or other like materials having such acoustic dampening properties. Further, much like the drilled locating indexing features 10 described hereinbefore, the intermediate members 200 help to prevent planar translation of the pads and tiles connected thereto.
The intermediate members 200 may be located in their appropriate positions through use of a locating jig 300 as shown in
Alternatively, as shown in
Further, in some embodiments, the locating jigs 300 may be permanently affixed to the substructure or frame 2, such that the intermediate members 200 are positioned and constrained within a locating jig 300 (in the case of a ‘U’ shaped locating jig, as shown in area A1 of
The locating jig 300 so configured in any of the above ways may help to align a plurality or all of the intermediate members 200 of a particular assembly, reducing the need to use the before described drilling rig 50 or other means of accurately positioning locating indexing features.
The intermediate member 200 is shown taking a substantially square planar form in
In this way, the assembler of a tiled floor assembly may customize and configure various intermediate members as suited. For instance, at a notional edge of a floor to be assembled, it may desirable that the square intermediate member 200 having four locating indexing features 202 as shown in
In some embodiments, the substructure may comprise a plurality of height-adjustable props 100. An example prop 100 is shown in
In some embodiments, the upper bearing member 105 further includes a flange 111 extending upwardly therefrom, as shown in
The flange 111, in some embodiments, may connect to a substructure portion 2 such as a beam or the like of a frame, with the beam 2 providing a surface with which to affix or mount an intermediate member 200 and/or locating jig 300 as shown in
Alternatively, said substructure portion 2 may merely be used to form holes into a surface thereof and thereby provide locating indexing features 10 for indexing of the tile footing pads as previously described, and as shown in
In some configurations the flange 111 may be used to connect to a supporting member that does not form part of the substructure, such as a rail or beam, with said rail or beam being usable as described above and shown in
In this manner, the flange 111 provides the props with additional functionality in that they may be employed in conjunction with substructure features in some areas, or used in lieu of substructure features in other areas of said substructure of a tiled floor to be assembled. The flange 111 may be frangible so as to be removable from the bearing member 105 of the prop 100 by hands of a user or via tools.
It will thus be appreciated that the props 100 may be employed in lieu of, or together with, other substructures such as timber frame 2 and the like. The height adjustable nature of the props provides additional modularity and configurability to the assembly as a whole.
Generally, the various components described herein, such as the props 100, intermediate members 200, wedge 113, locating jig 300, drilling jig 50 and the like, and their associated features and functions provide a modular and customizable tool set for assembly of a tiled floor. The various features can be interchanged and customized to suit different builds and provides on-site flexibility in construction of tiled floors as described herein.
This Is Illustrated in
In the same build, the user may also employ a prop 100 at portions of the substrate 5 that require height adjustment for correct levelling, with a wedge 113 used to provide angle adjustment of the prop 100, as shown in area A3. The prop in area A3 is also shown supporting a member 2 through its flange 111 as described above, said member 2 providing a locating indexing feature 10 formed into an upper surface thereof. It will be appreciated that said member may instead support a locating jig 300 and/or intermediate member as shown in
It will thus be appreciated that some or all of the components described in this specification may be provided together as a kit of parts for assembling a plurality of tiles to form a tiled floor on or atop a substructure positioned above, and/or or supported by a substrate. This kit of parts may be used by a tradesman or other suitable skilled person for assembly of a tiled floor as required to suit a particular application. Such a kit of parts may include, for example, a plurality of tile footing pads configured to support one or more tile of a plurality of tiles, each pad comprising a pad indexing feature; with the plurality of tile footing pads being arrangeable by a user to locate and connect the plurality of tile footing pads to the substructure through engagement of the pad indexing features of each pad with a locating indexing hole of an array of locating indexing holes provided by or forming part of the substructure, with the plurality of tiles being supported by the plurality of tile footing pads and affixable thereto to form said tiled floor.
The kit of parts may also include a plurality of intermediate members and/or a plurality of height-adjustable props as described hereinbefore, in which case the kit of parts are arrangeable by the user or tradesman to locate and connect the plurality of tile footing pads to the plurality of intermediate members, the plurality of height-adjustable props and/or to the substructure itself through engagement of the pad indexing features of each pad with a locating indexing hole of an array of locating indexing holes provided by or forming part of the intermediate members, the height adjustable props and/or the substructure itself, with the plurality of tiles being supported by the plurality of tile footing pads and affixable thereto to form said tiled floor.
Number | Date | Country | Kind |
---|---|---|---|
747858 | Oct 2018 | NZ | national |
753917 | May 2019 | NZ | national |
The present application is a continuation-in-part of and claims the right of priority to PCT application no. PCT/IB2019/059326 having a filing date of Oct. 31, 2019, which claims the right of priority to New Zealand application nos. NZ 747858 having a filing date of Oct. 31, 2018 and NZ 753917 having a filing date of May 27, 2019. The entirety of the contents of each of these respective applications are hereby incorporated by reference in their entireties.
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Number | Date | Country | |
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Parent | PCT/IB2019/059326 | Oct 2019 | US |
Child | 17245580 | US |