Solar Slate Plate

Abstract

A slate solar panel installation system and method which allows users to install solar panels on their slate tile roofs wherein one slate tile is removed and the present invention is installed in its place. The current invention does not require drilling any holes in the slate tiles, therefore, not affecting the integrity of the roof and reducing the likelihood of leaks to near zero. The present invention is constructed from galvanized steel that will not bend under 120 mile an hour winds making the current invention extremely secure and usable in many different whether conditions. The present invention can be painted to match the color and style of the surrounding tiles, allowing the homeowner to remove the solar panels and rails and leave the present invention in place.

Claims

1. A system for the application of solar panels to slate roofs comprising: a rectangular plate comprising an upper side and a lower side; angled bracket; a through plate; and a fastening system.

2. The system for the application of solar panels to slate roofs of claim 1 wherein the angled bracket comprises a right-angled bracket attached to the upper side of the rectangular plate.

3. The system for the application of solar panels to slate roofs of claim 2 wherein the angled bracket comprises a pre-cut oval shaped aperture on a portion of the angled bracket that is perpendicular to the rectangular plate.

4. The system for the application of solar panels to slate roofs of claim 1 wherein the rectangular plate comprises two pre-drilled apertures at top corners of the rectangular plate for placement of screws to allow for stability and twisting.

5. The system for the application of solar panels to slate roofs of claim 1, wherein the rectangular plate comprises a pre-cut slit that runs horizontally across a center of the plate to allow for various placement needs for a four-inch screw that is to be drilled into the rafter.

6. The system for fastening solar panels to a slate roof of claim 1 wherein the material for the rectangular plate is selected from the group consisting of polymeric, metallic, alloy, composite, compound metallic-polymeric metal and composite.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0029] FIG. 1A is a top view of the invention;

[0030] FIG. 1B is a side view of the pre-cut slit located in the center of the plate;

[0031] FIG. 2A is an isolated view of the angled bracket;

[0032] FIG. 2B is a side view of the invention with a focus on the angle bracket;

[0033] FIG. 3 is perspective view of the invention;

[0034] FIG. 4A and 4B are perspective views of an additional embodiment of the invention without a pre-cut center slit;

[0035] FIG. 5 is a top view of an additional embodiment of the invention with three pre-cut slits;

[0036] FIGS. 6A-6C are top and side views of the additional simplified embodiment;

[0037] FIGS. 7 is perspective view of an additional embodiment of the mounting bracket system of the instant invention wherein a malleable material and a through plate is utilized;

[0038] FIGS. 8 is top plan view of an additional embodiment of the mounting bracket system of the instant invention wherein a malleable material and a through plate is utilized; and,

[0039] FIGS. 9 is a bottom view of an additional embodiment of the mounting bracket system of the instant invention wherein a malleable material and a through plate is utilized.

DETAILED DESCRIPTION OF THE SEVERAL EMBODIMENTS

[0040] The detailed description set forth below is intended as a description of presently preferred embodiments of the invention and does not represent the only forms in which the present invention may be construed and/or utilized. The description sets forth the functions and the sequence of the steps for producing the system and accompanying apparatus. However, it is to be understood that the same or equivalent functions and sequences may be accomplished by different embodiments also intended to be encompassed within the scope of the invention.

[0041] FIGS. 1A-3 depicts the present invention, which includes a rectangular steel plate 2. The rectangular plate 2 has a right angle bracket 4 with a pre-cut oval shaped hole 12 on the leg of the bracket that is perpendicular to the plate 2. The pre-cut oval shaped hole 12 is used to secure the plate to be attached to the solar panel mechanism.

[0042] The rectangular plate 2 has two pre-drilled holes 8 at the top corners of the plate 2 for stability and twisting. Also, the rectangular plate 2 has a pre-cut slit 6 that runs horizontally across the center of the plate to allow for various placement needs for the four-inch screw 10 that is to be drilled into the rafter.

[0043] To install the present invention, the rafters have to be inspected and the roof deck has to be engineered to withstand the weight. Just like installing solar panels on a traditionally shingled roof, the location of the rafters has to be identified.

[0044] Before installation, the solar array is mapped out on the roof. Once the selected slates are determined a diamond pattern of slate tiles has to be removed over the rafter that is to be drilled into. In the lower row of the pattern one tile is removed, (this is where the SSP is installed), two from the middle row, and one from the top row.

[0045] Then place the plate 2 at the bottom of the diamond pattern and screw two 1 #10 wood screws through the pre-drilled holes 8 at the top corners of the plate. Next, drill a pilot hole directly over the rafter, bore plate accordingly to accept desire flush mount screw and secure the engineered wood screw 10 directly into the rafter through the pre-cut slit 6. The 4 inch screw placement can vary up to 8 inches over the width of the tile based on the location of the pre-cut slit or slot 6. A #13 or any other engineered screw that meets engineer and code requirements may be utilized.

[0046] Then reinstall the two original slate shingles to the middle row and nail the slate in the standard location and fashion. As a result, there is an additional slate tile that is spared during the process.

[0047] The top row or last piece can be reinstalled in a few ways depending upon the method used by the slate roofing professional.

[0048] The plate 2 can be painted to match the existing slate color and style of the tiles.

[0049] FIGS. 4A and 4B depict an additional embodiment of the present invention and its components. In this embodiment, the rectangular plate 2 has no pre-cut slit and the pre-drilled holes 8 are moved from the top of the plate 2 to the center. This is to accommodate different roof and tile placement locations.

[0050] FIG. 5 depicts an additional embodiment of the present invention and its components. In this embodiment, the plate 2 has three pre-cut slits 14 that run diagonally across the center of the plate 2 to allow for various placement needs for the four-inch screw 10 that is to be drilled into the rafter.

[0051] FIGS. 6A-6C depicts an additional embodiment of the present invention. It is a simplified version of the present invention made of aluminum. In the embodiment, the plate 22 has two pre-drilled holes 28 in the top corners 2 on center of the plate 22. This is for quick installation of the product and most exterior all weather screws can be used to secure the plate. The two screws keep the plate 22 from twisting and/or racking prior to securing into the rafter.

[0052] The plate 22 also has a pre-cut hole 24 in the middle of the left half of the plate center 26. A stainless steel screw 20 is placed through this pre-cut hole 24 for effortless installation of most mounting brackets. The use of a small bead of aluminum silicone or rubber O ring around the screw is recommended. Since the product is made out of aluminum on site drilling into the rafter is much easier than other metals. The user should be sure burr, countersink or bevel the onsite hole so that the engineered screw used sits flush.

[0053] In embodiments utilizing steel construction, a center screw which will be tapped may be utilized. Within this embodiment, the protruding screw may be grinded and welded underneath. The threaded screw may utilize 3/16 steel instead of inch steel and there will be two apertures in top corner and one screw in the rafter, which may be a inch 6061

[0054] To install this additional embodiment of the present invention, once the solar system is laid out, like above, identify approximately where the rafters are located. Then remove a three-row diamond pattern of slate shingles over rafter area. Once the diamond pattern is removed the rafter location will be easily identified. Then install the plate 22 (at the bottom row of the diamond pattern) using the two easy mount screws in the pre-cut top corners 28 to keep the plate 22 from twisting during on site drilling. Identify where the rafter is and drill a pilot hole directly through the plate 22 and into the rafter. Once this is done bur the pilot hole so that the stainless steel screw 20 lays flush on the face of the plate 22.

[0055] It must be noted that there are many styles and exposures of slate shingles and this will depend where the engineered wood screw is to be placed. For example, if the slate tile is twelve (12) feet wide by eighteen (18) inches in thickness, then the screw will be placed ten (10) inches from the bottom, which is just above the top of the tile below it.

[0056] Then install the remaining two rows of slates as they would normally be installed. Last continue installation of the instant invention, according to plans, to the rest of the roof.

[0057] It is preferred for this embodiment that the instant invention be spaced 48 inches apart for inland adaptations and 32 inches apart coastal adaptations. Furthermore, the instant embodiment may be engineered and constructed to withstand up 105 MPH coastal wind speeds and 120115 MPH inland wind speeds. The preferred screw for installation of the instant embodiment may include Fasten Master Headlock HLGM334.

[0058] FIG. 7 is perspective view of an additional embodiment of the mounting bracket system 40 comprising a base plate 41 which may be constructed from a malleable material, and angular support bracket 43, a through plate 42 and a fastening system 44.

[0059] FIG. 8 is top plan view of the mounting bracket system 40 further illustrating the base plate 41, the angular support bracket 43, the through plate 42 and a fastening system 44.

[0060] FIG. 9 is a bottom view of an additional embodiment of the mounting bracket system 40 illustrating the base plate 41, the through plate 42 and the fastening system 44. In the instant configuration, the through plate 42 may be retained with in base plate 41 via press fit, a webbing apparatus, material expansion and contraction via heating or any other system known in the art.

[0061] In a further embodiment, a center screw ( 5/16 or ) is drilled and tapped in order to alleviate rotation or spinning of the screw during installation of other mounting brackets.

[0062] A further embodiment is to be able to pre-drill the aluminum plate on site using a special flush mount bit to use a Simpson SDW 22438 structural wood screw.

[0063] There has thus been outlined, rather broadly, the more important features of solar slate plate in order that the detailed description thereof that follows may be better understood, and in order that the present contribution to the art may be better appreciated. There are additional features of the system that will be described hereinafter and which will form the subject matter of the claims appended hereto.