Classifications

• • E—FIXED CONSTRUCTIONS
  • E04—BUILDING
  • E04F—FINISHING WORK ON BUILDINGS, e.g. STAIRS, FLOORS
  • E04F13/00—Coverings or linings, e.g. for walls or ceilings
  • E04F13/07—Coverings or linings, e.g. for walls or ceilings composed of covering or lining elements; Sub-structures therefor; Fastening means therefor
  • E04F13/08—Coverings or linings, e.g. for walls or ceilings composed of covering or lining elements; Sub-structures therefor; Fastening means therefor composed of a plurality of similar covering or lining elements
  • E04F13/0801—Separate fastening elements
  • E04F13/0803—Separate fastening elements with load-supporting elongated furring elements between wall and covering elements
  • E04F13/081—Separate fastening elements with load-supporting elongated furring elements between wall and covering elements with additional fastening elements between furring elements and covering elements
  • E04F13/083—Hooking means on the back side of the covering elements
• • E—FIXED CONSTRUCTIONS
  • E04—BUILDING
  • E04F—FINISHING WORK ON BUILDINGS, e.g. STAIRS, FLOORS
  • E04F13/00—Coverings or linings, e.g. for walls or ceilings
  • E04F13/07—Coverings or linings, e.g. for walls or ceilings composed of covering or lining elements; Sub-structures therefor; Fastening means therefor
  • E04F13/08—Coverings or linings, e.g. for walls or ceilings composed of covering or lining elements; Sub-structures therefor; Fastening means therefor composed of a plurality of similar covering or lining elements
  • E04F13/0889—Coverings or linings, e.g. for walls or ceilings composed of covering or lining elements; Sub-structures therefor; Fastening means therefor composed of a plurality of similar covering or lining elements characterised by the joints between neighbouring elements, e.g. with joint fillings or with tongue and groove connections
  • E04F13/0894—Coverings or linings, e.g. for walls or ceilings composed of covering or lining elements; Sub-structures therefor; Fastening means therefor composed of a plurality of similar covering or lining elements characterised by the joints between neighbouring elements, e.g. with joint fillings or with tongue and groove connections with tongue and groove connections

Definitions

• the present disclosure relates to an improved plank installation system and method for cladding the exterior of buildings and architectural structures, such as walls, roofing, fencing, and patios.
• Planks are commonly used to clad the exterior of buildings. Typically, installation requires fixing the plank on an exterior wall using fasteners such as nails or screws to hold the plank against the exterior wall. In some cases, the planks have interlocking features such that installation of a first row of planks allows installation of adjacent rows applies or siding using the interlocking features.
• conventional methods of plank installation can be time-consuming, and require careful measurement to install properly. Installation may also require additional personnel in order to do properly.
• the present disclosure relates to an improved plank installation system and method which utilizes mounting structures or hanger posts for all types of planks, such as siding, panels or other types of cladding or covering, and which provides a plurality of regularly positioned or continuously repeating protrusions or extending mounting hooks to receive corresponding features provided on the insulation or inner side of the plank, panel or cladding.
• mounting structures is understood to include mounting structures or hanger posts as disclosed herein for any types of planks, such as siding, panels or other types of cladding or covering.
• the mounting structures comprise a generally U- shaped channel with each extending side of the U-shaped channel providing the regularly positioned, continuously repeating protrusions or extending mounting hooks.
• the regularly positioned continuously repeating protrusions or extending mounting hooks are oriented such that, when installing panels or planks on a vertical wall, or an angled surface such as a roof, gravity causes the planks to naturally stay in position on the extending mounting hooks.
• the mounting structures include interlocking features which allow adjacent rows of the planks to interlock once installed on the mounting structures.
• the interlocking features provided on the planks comprise a receiving slot provided on the bottom of each plank, and a corresponding extending flange which is provided along the top of each plank.
• the receiving slot of a first row of planks receives an extending flange of planks install below it. Once a plurality of rows are installed, each row of plank helps keep all of the adjacent rows of plank to remain securely in position on the mounting structures.
• each plank has a plurality of protruding flanges, each having a latch or hook oriented oppositely to the regularly positioned continuously repeating protrusions or extending mounting hooks on the mounting structures. When installed, each of the plurality of protruding flanges engages a corresponding extending mounting hooks on the mounting structures.
• the receiving slot provided on the bottom of each plank, and corresponding extending flange which is provided along the top of each plank interlock in such a manner so as to prevent moisture from entering between adjacent installed rows of planks.
• the mounting structures when cladding an exterior vertical wall with planks, the mounting structures are oriented vertically with the extending mounting hooks pointing upwards.
• the mounting structures when cladding angled roofing with planks, the mounting structures are oriented perpendicularly to the planks with the extending mounting hooks pointing upwards.
• the mounting structures when cladding a wall or fencing with lengths of planks oriented vertically, the mounting structures are oriented horizontally, such that the extending mounting hooks all point to one side of the structure. Thus, it is not necessary for the mounting structures to be installed vertically for installation to be performed.
• the mounting structures when cladding a flat surface such as the surface of a patio deck with lengths of planks, the mounting structures are oriented in any desired direction which is perpendicular to the planks, such that the extending mounting hooks all point to one side of the patio deck.
• the mounting structures it is not necessary for the mounting structures to be installed in any particular direction on a flat horizontal surface, as long as the direction remains consistent for all extending mounting hooks.
• the mounting structures are installed at regularly spaced intervals, and parallel to each other.
• the interval spacing may be selected so as to provide adequate support for the plank upon installation.
• the present plank installation system and method does not require any fasteners, and the interlocking features between adjacent rows of installed planks prevents moisture from entering and damaging the clotted surface of buildings and architectural structures.
• FIG. 1A shows a photograph of a mounting structure in accordance with an embodiment.
• FIG. 1 B shows an illustrative profile diagram of the mounting structure of FIG. 1 A.
• FIG. 2A shows a photograph of a plank installed on a vertically oriented wall in accordance with an embodiment.
• FIG. 2B shows an illustrative profile diagram of the plank of FIG. 2A.
• FIG. 3A shows a photograph of a plank installed on a vertically oriented wall in accordance with another embodiment.
• FIG. 3B shows an illustrative profile diagram of the plank of FIG. 2A.
• FIG. 4A shows a photograph of a plank installed on a vertically oriented wall in accordance with another embodiment.
• FIG. 4B shows an illustrative profile diagram of the plank of FIG. 4A.
• FIG. 5A shows a photograph of a plank installed on a vertically oriented wall in accordance with yet another embodiment.
• FIG. 5B shows an illustrative profile diagram of the plank of FIG. 4A.
• FIG. 6A shows a photograph of a plank installed on a vertically oriented wall in accordance with still another embodiment.
• FIG. 6B shows an illustrative profile diagram of the plank of FIG. 6A.
• FIG. 7 shows an illustrative diagram of various different plank installation applications, including outer walls, roofing, parapet walls, and fencing.
• FIG. 8 shows a more detailed diagram of roofing installation applications, in which planks are installed horizontally on an angled roof.
• FIG. 9 shows an illustrative example of a parapet wall installation, in which planks are installed horizontally, using a plurality of evenly spaced, mounting structures.
• FIG. 10 shows an illustrative example of a fending installation, in which planks are installed vertically, using a plurality of evenly spaced, mounting structures which are now installed horizontally.
• FIG. 11 shows an illustrative example of an installation of planks on a high rise structure, such as a multi-level building.
• FIG. 12 shows an illustrative example of installation on a high rise structure, in which the planks comprise solar panels which may be installed using extending flanges corresponding to the extending flanges provided on the back of the planks.
• FIGS. 13A to 13C show illustrative alternative designs for the mounting structure for receiving corresponding interlocking clasping members for hanging a plank or panel.
• FIGS. 14A and 14B show illustrative designs for a horizontal mounting base for receiving a mounting structure thereon.
• FIGS. 15A to 15G show an illustrative example of an installation process for multiple planks in a vertical wall cladding installation.
• FIGS. 16A and 16B show an example of a slideable mounting structure in an alternative embodiment.
• FIGS. 17A to 17H show an illustrative example of an installation process for fiber cement LAP siding in accordance with an embodiment.
• FIGS. 18A to 18J show illustrative examples various installation adapters for installing larger sizes of cement panels in accordance with various embodiments.
• FIG. 19A to 19G show an illustrative example of an installation process for solar panels in accordance with an embodiment.
• FIG. 20 shows examples of other mounting structures in accordance with various embodiments.
• FIG. 21 shows examples of mounting structures having an integrated thermal break in accordance with various embodiments.
• FIG. 22A to 22F show examples of mounting structures having an integrated thermal break in accordance with various embodiments.
• FIGS. 23A and 23B show an example of mounting asphalt roofing in accordance with an embodiment.
• FIGS. 24A and 24B show an example of mounting corrugated metal roofing in accordance with an embodiment.
• FIGS. 25A and 25B show an example of mounting corrugated metal siding mounted horizontally in accordance with an embodiment.
• FIGS. 26A and 26B show an example of mounting corrugated metal siding mounted vertically in accordance with an embodiment.
• FIGS. 27A and 27B show an example of mounting a composite decking plank having a clasping base attached thereto in accordance with an embodiment.
• FIGS. 28A and 28B show an example of mounting a composite decking plank having a clasping based embedded therein in accordance with an embodiment.
• FIGS. 29A and 29B show an example of mounting an extruded composite decking plank having a clasping base integrally formed therein in accordance with an embodiment.
• FIGS. 30A and 30B show an example of mounting an engineered wood panel siding in accordance with an embodiment.
• FIGS. 31 A and 31 B show an example of mounting composite LAP siding in accordance with an embodiment.
• FIGS. 32A and 32B show an example of mounting another type of engineered wood panel siding in accordance with an embodiment.
• FIGS. 33A and 33B show an example of mounting fiber cement LAP siding in accordance with an embodiment.
• FIGS. 34A and 34B show an example of mounting another type of fiber cement LAP siding in accordance with an embodiment.
• FIGS. 35A and 35B show an example of LAP wood siding in accordance with an embodiment.
• FIGS. 36A and 36B show an example of vinyl siding in accordance with an embodiment.
• FIGS. 37A and 37B show an example of foam filled vinyl siding in accordance with an embodiment.
• FIGS. 38A and 38B show an example of insulated vinyl siding in accordance with an embodiment.
• the present disclosure relates to a plank installation system and method which utilizes mounting structures which provide a plurality of regularly positioned continuously repeating protrusions or extending mounting hooks to receive corresponding features provided on the insulation side of the plank.
• the mounting structures comprise a generally U- shaped channel with each extending side of the U-shaped channel providing the regularly positioned continuously repeating protrusions or extending mounting hooks.
• the regularly positioned continuously repeating protrusions or extending mounting hooks are oriented such that, when installing panels or planks on a vertical wall, or an angled surface such as a roof, gravity causes the planks to naturally stay in position on the extending mounting hooks.
• the mounting structures include interlocking features which allow adjacent rows of the planks to interlock once installed on the mounting structures.
• the interlocking features provided on the planks comprise a receiving slot provided on the bottom of each plank, and a corresponding extending flange which is provided along the top of each plank.
• the receiving slot or channel of a first row of planks receives an extending flange of planks install below it.
• each row of plank helps keep all of the adjacent rows of plank to remain securely in position on the mounting structures.
• each plank has a plurality of protruding flanges, each having a latch or hook oriented oppositely to the regularly positioned continuously repeating protrusions or extending mounting hooks on the mounting structures. When installed, each of the plurality of protruding flanges engages a corresponding extending mounting hooks on the mounting structures.
• the receiving slot provided on the bottom of each plank, and corresponding extending flange which is provided along the top of each plank interlock in such a manner so as to prevent moisture from entering between adjacent installed rows of planks.
• the mounting structures when cladding an exterior vertical wall with planks, are oriented vertically with the extending mounting hooks pointing upwards.
• the mounting structures are oriented perpendicularly to the planks with the extending mounting hooks pointing upwards.
• the mounting structures when cladding a wall or fencing with lengths of planks oriented vertically, the mounting structures are oriented horizontally, such that the extending mounting hooks all point to one side of the structure. Thus, it is not necessary for the mounting structures to be installed vertically for installation to be performed.
• the mounting structures when cladding a flat surface such as the surface of a patio deck with lengths of planks, the mounting structures are oriented in any desired direction which is perpendicular to the planks, such that the extending mounting hooks all point to one side of the patio deck.
• the mounting structures it is not necessary for the mounting structures to be installed in any particular direction on a flat horizontal surface, as long as the direction remains consistent for all extending mounting hooks.
• the mounting structures are installed at regularly spaced intervals, and parallel to each other.
• the interval spacing may be selected so as to provide adequate support for the plank upon installation.
• the present plank installation system and method does not require any fasteners, and the interlocking features between adjacent rows of installed planks prevents moisture from entering and damaging the clotted surface of buildings and architectural structures.
• each mounting structure 100 comprises a generally U-shaped channel with each extending side of the U-shaped channel providing the regularly positioned continuously repeating protrusions or extending mounting hooks.
• the regularly positioned continuously repeating hooks are oriented such that, when installing panels or planks on a vertical wall, or an angled surface such as a roof, gravity causes the planks to naturally stay in position on the extending mounting hooks.
• it is not necessary to install the mounting structure 100 vertically.
• they may be oriented horizontally if it is desired to mount planks in a vertical orientation, for a fending application for example. It is also possible to install the mounting structure 100 in any direction on a flat surface, such as a patio deck, as long as all of the mounting structures 100 are oriented the same way.
• FIG. 1 B shows an illustrative profile diagram of the mounting structure 100 of FIG. 1A. As shown, this profile illustrates a plurality of evenly spaced protrusions or extending mounting hooks 110, which are all oriented in one direction. In this illustrative example, the extending mounting hooks 110 are all angled upwards in FIG. 1 B.
• the extending mounting hooks may have an angled inner profile, which provides an interconnection with corresponding latches or angle brackets on a plank, and allows the plank to be seated securely onto the mounting structure 100.
• the particular shape of the extending hook is illustrative, and not necessarily limiting. If some of the extending mounting hooks 110 have broken off, given the redundant mounting features of the planks, they may still be securely mounted to the mounting structure 100.
• FIG. 2A shown is a photograph of a first plank design 200A installed on a vertically oriented wall in accordance with an embodiment. As shown, this first plank 200A is installed in rows such that each row interlocks with an adjacent row above and/or below.
• this first plank has a profile with specific features adapted for installing this plank onto the mounting structure 100 of FIG. 1A and FIG. 1 B.
• These specific features include a plurality of flanges with latches 210A - 210C spaced apart vertically to align with each corresponding extending hook 110 provided in the mounting structure 100,
• Another feature includes a lower end slot 220 for receiving a top edge of another adjacent plank 200A, or alternatively a horizontal base or trim for finishing the bottom of a wall.
• Another feature is an upper end slot 230 for receiving a lower edge or wall of an adjacent plank 200A above. As these adjacent planks 200A overlap, they form a continuous moisture barrier which prevents rain and snow from penetrating the formed wall as illustrated in FIG. 2A.
• the first mounting structure 100 and corresponding planks 200A include interlocking features which allow adjacent rows of the first plank 200A to interlock with an adjacent row, as rows of the first plank 220A are installed on the mounting structures 100 one after another.
• the interlocking features provided on the first plank 200A comprises a receiving slot provided on the bottom of the first plank, and a corresponding extending flange which is provided along the top of the first plank.
• the receiving slot of a first row of the first plank receives an extending flange of the row of plank install below it.
• each row of plank helps keep an adjacent row of plank to remain securely in position on the mounting structures 100 by interlocking with each other, as illustrated in FIG. 2B.
• the first plank further includes a plurality of protruding flanges, each having a latch or hook oriented oppositely to the regularly positioned continuously repeating protrusions or extending mounting hooks 110 on the mounting structures 100.
• each of the plurality of protruding flanges engages a corresponding extending mounting hooks 110 on the mounting structures 100.
• FIG. 3A shown is a pho second plank 200B installed on a vertically oriented wall in accordance with another embodiment.
• FIG. 3B shows an illustrative profile diagram of the plank of FIG. 3A. While the profile of the second plank 200B is different in that its outer surface is more angled in comparison to the first plank 200A, the interlocking features provided along the top and bottom edges of the second plank 200B are substantially the same as for the first plank 200A shown in FIG. 2B. Therefore, it will be understood that both the first plank of FIG. 2B and the second plank of FIG. 3B can both use the same mounting structure 100 interchangeably.
• both the first plank 200A and the second plank 200B have the same extending flanges 210A, 210B, 210C with latches or clasping members positioned to engage corresponding extending mounting hooks provided on the mounting structure 100.
• the mounting structure 100 can be common to a number of different plank profiles such that the installation steps for any particular plank profile is identical to any other plank profile.
• the first plank can interlock with the second plank below it, or vice versa.
• the installation steps are also exactly the same.
• FIG. 4A shown is a photograph of a third plank 200C installed on a vertically oriented wall in accordance with another embodiment.
• FIG. 4B shows an illustrative profile diagram of the third plank 220C of FIG. 4A.
• the third plank 200C has interlocking features provided along the top and bottom edges which are common to both the first plank 200A and the second plank 200B.
• the third plank 200C can also interconnect with either the first plank 200A or the second plank 200B, whether above or below.
• different plank profiles can be used to clad different sections or rows of a wall, fence, roof, or other installation application.
• FIG. 5A shown is a photograph of a fourth plank 200D installed on a vertically oriented wall in accordance with yet another embodiment.
• FIG. 5B shows an illustrative profile diagram of the fourth plank 200D of FIG. 4A.
• the fourth plank 200D has a different profile from the first, second and third planks 200A, 200B, 200C, it also shares common features with the first, second and third planks 200A, 200B, 200C including the interlocking features provided along the top and bottom edges, and the extending flanges having latches or angle brackets to engage corresponding hooks provided on a mounting structure 100.
• all four planks 200A, 200B, 200C and 200D can be used with the same mounting structure 100, and are interchangeable with each other.
• the different planks can be installed interchangeably, or alternatingly in different patterns or configurations.
• FIG. 6A shown is a fifth plank 200E installed on a vertically oriented wall in accordance with still another embodiment.
• FIG. 6B shows an illustrative profile diagram of the fifth plank 200E of FIG. 6A.
• the fifth plank 200E has a different profile from the first, second, third and fourth planks 200A, 200B, 200C and 200D, it also shares common features with the first, second, third and fourth planks 200A, 200B, 200C and 200D, including the interlocking features provided along the top and bottom edges, and the extending flanges having latches or angle brackets to engage corresponding hooks provided on a mounting structure 100.
• planks 200A, 200B, 200C, 200D and 200E can be used with the same mounting structure 100, and are interchangeable with each other.
• the different planks can be installed interchangeably, or alternatingly in different patterns or configurations.
• FIG. 7 shows an illustrative diagram of various different plank installation applications, including outer walls, roofing, parapet walls, and fencing.
• the mounting structure 100 it is not necessary to install the mounting structure 100 in a particular orientation, so it may be installed vertically for mounting the planks horizontally, for example.
• the mounting structure 100 may also be installed horizontally, such that the planks can be installed vertically, such as in a fencing installation.
• Other orientations are possible for roofing, parapet wall, fencing, or high rise installation applications, for example.
• FIG. 8 shown is a more detailed diagram of roofing installation applications, in which planks are installed horizontally on an angled roof.
• the mounting structures 100 are installed at regularly spaced intervals, and perpendicularly to the plank being installed horizontally on the roof.
• the panels are installed on the mounting structures 100 without the need for fasteners, as the installed rows interlock with each other and help the planks remain installed in position.
• the planks can be staggered, such that their ends do not all line up, but instead form a random pattern or repeating pattern for visual appeal.
• FIG. 9 shown is an illustrative example of a parapet wall installation, in which planks are installed horizontally, using a plurality of evenly spaced, mounting structures 100 that are installed vertically. Similar to the roofing application, the mounting structures 100 are spaced apart evenly, and are installed to allow the planks to be horizontally level across all of the rows. In this example, the plank is installed starting from the bottom row, and each subsequent row installed above the previous one.
• FIG. 10 shows an illustrative example of a fencing installation, in which planks are installed vertically, using a plurality of evenly spaced, mounting structures 100 which are now installed horizontally.
• planks are installed in a vertical orientation as for a wall installation or roof installation, as long as all of the extending mounting hooks 110 on the mounting structures 100 are oriented in the same direction.
• the planks are installed in a left to right direction.
• FIG. 11 shows an illustrative example of an installation of planks on a high rise structure, such as a multi-level building.
• the mounting structures 100 may be preinstalled as the high rise structure is built, and installation of the planks can take place all at one or in stages, such as one floor at a time.
• the installation is the same as for a single level or two level structure, and the planks do not require any additional installation steps apart from safety precautions for working at significant heights.
• planks comprise solar panels which may be installed using extending flanges corresponding to the extending flanges provided on the back of the planks. These solar panels may be similar extending flanges with latches or angle brackets which allow the solar panels to be installed on preinstalled mounting structures 100.
• the solar panel installations can be performed as a final finishing step, rather than as the high rise structure is built.
• FIGS. 13A to 13C shown are illustrative alternative designs for the mounting structure 100 for receiving corresponding interlocking latches or clasping members for hanging a plank or panel 1300A, 1300B, 1300C.
• FIG. 13A the curved shape of the protrusions or extending mounting hooks 110 are matched to a correspondingly curved interlocking clasping member provided on the insulation or inner side of a plank 1300A.
• the shape of the protrusions or extending mounting hooks 110 includes a notch which locks a corresponding interlocking clasping member of plank 1300B in position.
• FIG. 13C shows a further modified protrusion or extending hook having a notch which interlocks with a corresponding clasping member of plank 1300C in position.
• FIGS. 14A and 14B show illustrative designs for a horizontal mounting base for receiving a mounting structure 100 thereon. As shown, different types and styles of planks 1400A and 1400B may installed using the same mounting structure 100.
• FIGS. 15A to 15G show illustrative examples of an installation process for multiple planks 1500 in a vertical wall cladding installation.
• the mounting structures 100 are installed directly onto a wall using screw fasteners.
• a horizontal base may be installed to align the bottom edges of the mounting structures 100, and to help support the mounting structures 100 as they are being installed one after another.
• FIGS. 15E to 15G illustrate how the planks 1500 interlock upon installation.
• the mounting structure 100 is instead slideably received in the adjustment base 1600, such that it may be slideably adjusted prior to being fixed in position.
• the protrusions or extending mounting hooks 110 on each of the mounting structures 100 to be leveled with each other, so as to provide a level base to receive the planks.
• a mounting structure 100 is slideably received in the adjustment base 1600. With the adjustment base 1600 attached first to a wall, roof, or other surface being cladded, the mounting structure 100 is then slideably inserted within the adjustment base 1600.
• the mounting structure 100 can be first slideably inserted into the adjustment base 1600, and the adjustment base 1600 can be mounted on a wall, roof, or other surface being cladded through apertures or holes provided along the length of the mounting structure 100.
• apertures or holes are provided along the length of the mounting structure 100, and the extending mounting hooks 110 oriented in one direction. If some of the extending mounting hooks 110 break off, as there are multiple redundant attachment points for each plank, one or two hooks that have been broken off will not affect the ability to mount a plank onto the mounting structure 100.
• the mounting structure 100 and adjustment base 1600 may be formed separately, and different sizes and shapes of mounting structures 100 may be formed to be slideably received in the adjustment bases 1600 for different types of planks.
• FIGS. 17A to 17H shown an illustrative example of an installation process for fiber cement LAP siding 1700 in accordance with an embodiment.
• the cement LAP siding 1700 is first provided with a clasping member on its inner side, which may be fastened to it by screws or other types of fasteners. Once installed, the cement LAP siding 1700 is placed against the mounting structure 100 and lowered until the clasping members engage on or more extruding hooks 110 of the mounting structure 100,
• FIGS. 17E to 17G show the progressive installation of a number of cement panels, one installed on top of another, such that the cement panels form an overlapping, moisture proof barrier against rain and snow.
• FIG. 17H shows a perspective view of the installation process.
• FIGS. 18A to 18J shown are illustrative examples various installation adapters 1800A, 1800B, 1800C, 1800D, 1800E for installing larger sizes of cement panels or the like in accordance with various embodiments.
• a plurality of flanges with clasping members may be installed at various intervals so as to engage the extruding members of the mounting structure 100, for example as shown in detail in FIGS. 18B and 18C.
• FIGS. 18D to 18G show perspective views of how a plurality of such flanges with clasping members may be mounted to the inner side of a cement panel or other type of heavier panel for installation on the mounting members.
• FIGS. 18H to 18J show additional side views of the cement panels or similar heavier panels being mounted using a plurality of flanges with clasping members.
• an angle bracket 1910 may be mounted to a frame of the solar panel 1900, such as a lower frame, so as to allow the solar panel 1900 to be mounted to the mounting structure 100 using a plurality of angle brackets 1910 fastened onto its back.
• the angle bracket 1910 may extend along the entire width of the solar panel and fastened thereto by a plurality of fasteners in order to keep the solar panel 1900 securely mounted to the mounting structure 100.
• FIG. 19G shows how a solar panel 1900 may be mounted across a plurality of mounting structures 100 to provide support and distribute the load.
• FIG. 20 shown are examples of various types of mounting structures 100A, 100B, 100C, 100D, 100E and 100F in accordance with various embodiments.
• various other types of mounting structures such as square or rectangular shaped rods 100E, 100F having evenly spaced apertures of different shapes and sizes along their length may also be used.
• FIG. 21 shown are illustrative examples of mounting structures 2100A, 2100B, 2100C and 2100D having an integrated thermal break 2110 in accordance with various embodiments.
• the thermal break 2110 may be formed from an insulating material which prevents thermal transfer between a front portion having the extending mounting hooks 110, and a rear portion which is adapted to be mounted to a wall or other structural surface.
• FIG. 22A to 22F show additional examples of mounting structures 100 having an integrated thermal break 2110 in accordance with various embodiments. In use, these thermal breaks 2110 prevent heat or cold from being transferred from the outer portion to the inner portion of the mounting structure 100, and therefore can provide additional insulation for a building wall or other structure being covered.
• FIGS. 23A and 23B show an example of mounting asphalt roofing in accordance with an embodiment.
• FIGS. 24A and 24B show an example of mounting corrugated metal roofing in accordance with an embodiment.
• FIGS. 25A and 25B show an example of mounting corrugated metal siding mounted horizontally in accordance with an embodiment.
• FIGS. 26A and 26B show an example of mounting corrugated metal siding mounted vertically in accordance with an embodiment.
• FIGS. 27A and 27B show an example of mounting a composite decking plank having a clasping base attached thereto in accordance with an embodiment.
• FIGS. 28A and 28B show an example of mounting a composite decking plank having a clasping based embedded therein in accordance with an embodiment.
• FIGS. 29A and 29B show an example of mounting an extruded composite decking plank having a clasping base integrally formed therein in accordance with an embodiment.
• FIGS. 30A and 30B show an example of mounting an engineered wood panel siding in accordance with an embodiment.
• FIGS. 31 A and 31 B show an example of mounting composite LAP siding in accordance with an embodiment.
• FIGS. 32A and 32B show an example of mounting another type of engineered wood panel siding in accordance with an embodiment.
• FIGS. 33A and 33B show an example of mounting fiber cement LAP siding in accordance with an embodiment.
• FIGS. 34A and 34B show an example of mounting another type of fiber cement LAP siding in accordance with an embodiment.
• FIGS. 35A and 35B show an example of LAP wood siding in accordance with an embodiment.
• FIGS. 36A and 36B show an example of vinyl siding in accordance with an embodiment.
• FIGS. 37A and 37B show an example of foam filled vinyl siding in accordance with an embodiment.
• FIGS. 38A and 38B show an example of insulated vinyl siding in accordance with an embodiment.
• the present mounting system and method provides a fast, efficient, and cost effective way to install planks on various cladding applications, including outer walls, roofing, fencing, decking, and other cladding applications.
• planks including outer walls, roofing, fencing, decking, and other cladding applications.
• a plank installation system comprising: a mounting structure having a plurality of extending mounting hooks; and a plank having extending flanges with latches corresponding to the positions of the plurality of extending mounting hooks on the mounting structure, the latches adapted to interconnect with one or more of the plurality of extending mounting hooks; whereby the plank is securely mountable to the mounting structure by the interconnection between the latches and the plurality of extending mounting hooks.
• the mounting structure is an elongate, generally U- shaped structure having a plurality of extending mounting hooks which along each extending wall of the U-shaped structure, the plurality of extending mounting hooks being aligned.
• the plurality of extending mounting hooks are evenly spaced, and positioned such that latches provided on a plank to be mounted may interconnect at multiple redundant attachment points to the mounting structure.
• plank having extending flanges with latches corresponding to the positions of the plurality of extending mounting hooks all share a common mounting structure.
• the plank has a receiving slot provided on the bottom of each plank, and a corresponding extending flange provided along the top of each plank, whereby, a plank interconnects with an adjacent plank above or below the plank by these receiving slots and extending flanges.
• the receiving slot provided on the bottom of each plank includes a channel or slot for receiving the corresponding extending flange provided along the top of an adjacent plank.
• the extending flange provided on the bottom of each plank is adapted to be received in a corresponding receiving slot provide on the bottom of an adjacent plank.
• system further comprises an adjustment base for slideably receiving the mounting structure, whereby the mounting structure may be slideably adjusted even after the adjustment base is securely mounted to a surface being cladded.
• the adjustment base includes channels for receiving corresponding edges of the mounting structure.
• the mounting structure includes apertures along its length to allow the adjustment base to be mounted with the mounting structure slideably received in the adjustment base.
• the mounting structure includes a thermal break between an inner portion and an outer portion, such that the mounting structure minimizes thermal energy transfer therebetween.
• a plank installation method comprising: providing a mounting structure having a plurality of extending mounting hooks; providing a plank having extending flanges with latches corresponding to the positions of the plurality of extending mounting hooks on the mounting structure, the latches adapted to interconnect with one or more of the plurality of extending mounting hooks; and mounting the plank securely to the mounting structure by the interconnection between the latches and the plurality of extending mounting hooks.
• the mounting structure is an elongate, generally U- shaped structure having a plurality of extending mounting hooks which along each extending wall of the U-shaped structure, the plurality of extending mounting hooks being aligned.
• the plurality of extending mounting hooks are evenly spaced, and positioned, and wherein the method further comprises interconnecting the latches provided on a plank to be mounted at multiple redundant attachment points to the mounting structure.
• plank having extending flanges with latches corresponding to the positions of the plurality of extending mounting hooks all share a common mounting structure.
• the plank has a receiving slot provided on the bottom of each plank, and a corresponding extending flange provided along the top of each plank, whereby, a plank interconnects with an adjacent plank above or below the plank by these receiving slots and extending flanges.
• the receiving slot provided on the bottom of each plank includes a channel or slot for receiving the corresponding extending flange provided along the top of an adjacent plank.
• the extending flange provided on the bottom of each plank is adapted to be received in a corresponding receiving slot provide on the bottom of an adjacent plank.
• the method further comprises slideably adjusting the mounting structure even after the adjustment base is securely mounted to a surface being cladded.
• the adjustment base includes channels or slots for receiving corresponding edges of the mounting structure.
• the mounting structure includes apertures along its length to allow the adjustment base to be mounted with the mounting structure slideably received in the adjustment base.
• the mounting structure includes a thermal break between an inner portion and an outer portion, such that the mounting structure minimizes thermal energy transfer therebetween.

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• Engineering & Computer Science (AREA)
• Architecture (AREA)
• Civil Engineering (AREA)
• Structural Engineering (AREA)
• Finishing Walls (AREA)
• Cultivation Of Seaweed (AREA)
• Preparation Of Compounds By Using Micro-Organisms (AREA)

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• 2021
  • 2021-01-25 CA CA3165728A patent/CA3165728A1/en active Pending
  • 2021-01-25 US US17/794,824 patent/US20230147713A1/en active Pending
  • 2021-01-25 EP EP21743644.3A patent/EP4093928A4/de active Pending
  • 2021-01-25 WO PCT/CA2021/050078 patent/WO2021146819A1/en unknown
  • 2021-01-25 AU AU2021210826A patent/AU2021210826A1/en active Pending

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