HUB LASER

Abstract

The present invention is a specialized laser alignment tool for locating at least one roofing penetration point for a conduit installation. The specialized laser alignment tool is fixably mountable to and self-centering on an electrical hub and projects one or more roofing penetration points which are in vertical alignment with the electrical hub.

Claims

1. A specialized laser alignment tool for locating a roofing penetration point for a conduit installation, the laser alignment tool comprising: a cylindrical base having a distal external thread for mounting to an electrical hub; a proximal cylindrical top portion fixedly secured to the cylindrical base, the base and the top portion defining a longitudinal axis of the tool; a laser device secured at least partially within the top portion for projecting a vertical penetration point to an underside of a roofing surface, the penetration point precisely aligned with the longitudinal axis to prevent misalignment of the conduit with the electrical hub.

2. The tool of claim 1, wherein the roofing surface is a soffit and subsequently an underside of a roof deck.

3. The tool of claim 1, further comprising a cylindrical bottom portion having a proximal threaded opening to attach to the cylindrical base and a distal solid surface opposite the threaded opening, the cylindrical bottom protecting the tool.

4. The tool of claim 1, wherein the cylindrical top portion includes a distal first surface with a threaded opening to secure to the cylindrical base, and a proximal second surface configured to accept the laser device when used for locating the roofing penetration point.

5. The tool of claim 1, wherein the cylindrical base includes a hollow accommodating portion between threaded openings on both sides of the hollow accommodating portion, the threaded openings facilitating attachment of the base to the top portion and the bottom portion.

6. The tool of claim 1, wherein the laser alignment tool is fixably mountable to and self-centering on the electrical hub.

7. The tool of claim 1, wherein the cylindrical base has an external 2 inch NPT or larger external thread.

8. The tool of claim 1, wherein the cylindrical base, the top portion, and the bottom portion are made of aluminum.

9. The tool of claim 1, wherein the cylindrical bottom portion is removable.

10. The tool of claim 1, wherein the laser device is removable and encapsulated by a foam within the cylindrical base.

11. The tool of claim 1, wherein the laser device is removable from within the base through the bottom portion and fixedly secured to the top portion when used for locating the roofing penetration point.

12. The tool of claim 1, wherein the laser alignment tool can be turned on or off by rotating an end of the laser device.

13. The tool of claim 1, wherein the laser device includes a proximal end and a distal end, the proximal end projects the vertical penetration point and the distal end is sealed with an adhesive.

14. A method of projecting an indication for vertical alignment using a specialized laser alignment tool, the method comprising: threading a cylindrical base of the laser alignment tool into an electrical hub to align and center the tool within the electrical hub; projecting a penetration point vertically onto a soffit surface above the electrical hub, the penetration point being aligned with the center of the electrical hub; and projecting a second penetration point vertically onto a second surface above the electrical hub without repositioning the laser alignment tool, the second surface corresponding to an underside of a roof deck.

15. The method of claim 14, further comprising removing a cylindrical bottom portion of the laser alignment tool thereby exposing external threads of a cylindrical base.

16. The method of claim 14, further comprising the step of drilling a first hole through the soffit surface at the penetration point.

17. The method of claim 14, further comprising the step of drilling a second hole through the underside of the roof decking at the second penetration point.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0018] The advantages of the invention described above, together with further advantages, may be better understood by referring to the following description taken in conjunction with the accompanying drawings. The drawings are not necessarily to scale; emphasis is instead generally placed upon illustrating the principles of the invention.

[0019] FIG. 1 is an illustrative example of a schematic perspective view of a known meter socket, rigid conduit, and weatherhead installation.

[0020] FIG. 2 is an illustrative example of a side view of a specialized laser alignment tool according to some embodiments disclosed herein.

[0021] FIG. 3 is an illustrative example of a side view of the specialized laser alignment tool with a bottom portion removed according to some embodiments disclosed herein.

[0022] FIG. 4a and FIG. 4b are illustrative examples of side views of the specialized laser alignment tool threaded into an electrical hub according to some embodiments disclosed herein.

[0023] FIG. 5 is a flow chart depicting a method of projecting roofing penetration points in accordance with an embodiment of the invention.

DETAILED DESCRIPTION

[0024] The present disclosure describes a tool for locating a roofing penetration point for a conduit installation in accordance with certain embodiments of the present invention. Several specific details of the technology are set forth in the following description and in FIGS. 1-5. One skilled in the art, however, will understand that the present invention may have additional embodiments and that other embodiments of the technology may be practiced in some circumstances without some of the specific features described below.

[0025] FIG. 1 illustrates an example of a known meter socket, rigid conduit, and weatherhead installation 10. As previously described in the background section, a meter socket or electrical panel 11 is first installed on the exterior of a structure 14. To install a rigid conduit 15 and weatherhead 18 which connects to the electrical hub 17 of the meter socket or electrical panel 11, a first hole must be located and then drilled in the underside of the soffit. A second hole must be located and then drilled on the roof deck. These two holes must be vertically aligned with the electrical hub 17 which the rigid conduit and weatherhead connect to and also must be perfectly plumb with one another. The rigid conduit 15 and weatherhead 18 accept the service entrance conductors (SEC) and ultimately connect to electrical connectors supplying power from the utility 19 to provide utility power to the structure 14.

[0026] FIG. 2 is an illustrative example of a side view of a specialized laser alignment tool 20 according to some embodiments disclosed herein. The specialized laser alignment tool 20 includes a cylindrical base 21, a proximal cylindrical top portion 22, and a laser device 23. The cylindrical base 21 functions as the body of the tool and can be a 2 inch by 5 inch rigid nipple. The cylindrical base 21 includes distal external threads (not shown) for mounting to an electrical hub 17 (as shown in FIG. 1) when the tool is in use or for attaching a cylindrical bottom portion 24 when the tool is not in use. The external threads (not shown) of the cylindrical base 21 can be 2 inch NPT or larger. Opposite the external threads as previously described, the cylindrical base 21 includes a method for securing to the cylindrical top portion 22. One method of securing the two components is with threads, but other methods can be used as well. A hollow accommodating portion between the threaded openings on both sides of the cylindrical base 21 houses the laser device 23 when the tool is not in use. The threaded openings on either side of the cylindrical base 21 facilitate attachment of the cylindrical top portion 22 and the cylindrical bottom portion 24 to the cylindrical base 21.

[0027] The cylindrical top portion 22 includes a distal first surface 26 with a threaded opening to secure to the cylindrical base 21. Opposite the first surface is a proximal second surface 27 configured to accept the laser device 23 when the tool is used for locating the penetration points. The cylindrical top portion 22 and the cylindrical base 21 define a longitudinal axis 25 of the tool.

[0028] The laser device 23 is secured at least partially within the cylindrical top portion 22 when the tool is in use for projecting a vertical penetration point on a roofing surface. The roofing surface can be the underside of a soffit and subsequently an underside of a roof deck. When the laser device 23 is not in use, the laser device 23 is stored within the hollow accommodating portion 28 of the cylindrical base 21. The penetration point projected by the laser device 23 is precisely aligned with the longitudinal axis 25 of the tool to prevent misalignment of the conduit with the electrical hub. The configuration of the laser alignment tool allows the laser alignment tool to be fixably mounted and self-centering on the electrical hub.

[0029] The cylindrical bottom portion 24 can function as a cap for the tool and protects the tool when the tool is not in use. When the tool is not in use the cylindrical bottom portion 24 is attached to the cylindrical base 21. The two components can be threaded together, but other methods can be used to secure them to each other. The laser device 23 can be encapsulated by a molded foam for protection within the cylindrical base 21. This foam also keeps the laser device 23 stationary within the cylindrical base 21.

[0030] The cylindrical base 21, top portion 22, and bottom portion 24 function as both the case for the specialized laser alignment tool 20 and the tool itself. The cylindrical base 21, top portion 22, and bottom portion 24 can be made of aluminum which makes the tool very durable.

[0031] FIG. 3 is an illustrative example of a side view of the specialized laser alignment tool 20 with the cylindrical bottom portion 24 removed according to some embodiments disclosed herein. The cylindrical bottom portion 24 (not shown) is removable when the tool 20 is ready to be used. By removing the cylindrical bottom portion 24 (not shown) threads 32 of the cylindrical base 21 are exposed which allow for the specialized laser alignment tool 20 to be secured to the electrical hub. The laser device 23 is removable from within the cylindrical base 21 and fixedly secured to the cylindrical top portion 22. The proximal second surface 27 of the cylindrical top portion 22 can include a ½ inch threaded hole 35 in the center of the surface, in which the laser device 23 with recessed threads, can be threaded into. There should be enough threads for two to three rotations of the laser device 23 within the threaded hole 35 of the cylindrical top portion 22. Since the threaded hole 35 is located in the center of the cylindrical top portion 22, the laser device 23 is also centered within the specialized laser alignment tool 20.

[0032] The laser device 23 can be turned on or off by rotating a knurled grip 36 on one end of the laser device 23. Opposite the on/off knurled grip switch 36 of the laser device 23, the laser (not shown) is sealed within the laser device 23 with an adhesive. The adhesive can be a UV glue or similar adhesive.

[0033] FIG. 4a and FIG. 4b are illustrative examples of side views of the specialized laser alignment tool 20 threaded into an electrical hub 17 according to some embodiments disclosed herein. The laser alignment tool as shown in FIG. 3 with the cylindrical bottom portion (not shown) removed can then be threaded into the electrical hub 17. The cylindrical base's external threads 32 are used to align and mount the specialized laser alignment tool to the electrical hub 17. Since the specialized laser alignment tool 20 is threaded directly into the electrical hub 17, the specialized laser alignment tool 20 is self-centered on the electrical hub and fixably mounted. This allows for the laser device (not shown) to project a vertical penetration point which is perfectly vertically aligned with the electrical hub 17.

[0034] FIG. 5 is a flow chart depicting a method of projecting roofing penetration points 50 in accordance with an embodiment of the invention. As shown in FIG. 5, projecting roofing penetration points can include threading a cylindrical base of a laser alignment tool into an electrical hub to align and center the tool within the electrical hub (step 52), projecting a penetration point vertically onto a soffit surface above the electrical hub, the penetration point being aligned with the center of the electrical hub (step 54), and projecting a second penetration point vertically onto a second surface above the electrical hub without repositioning the laser alignment tool, the second surface corresponding to an underside of a roof deck (step 56).

[0035] Prior to step 52, the specialized laser alignment tool is transformed from a tool not in use and in its case, to a tool ready to be used. This transformation can occur by removing a cylindrical bottom portion of the laser alignment tool thereby exposing external threads of the cylindrical base and a laser device. The laser device can then be removed from within the cylindrical base and the protective foam surrounding the laser device. The laser device can be fixedly secured to a top portion of the specialized laser alignment tool. One method to secure the laser device to the top portion is by threading the laser device into the top portion.

[0036] Once the external threads of the cylindrical base are exposed, the cylindrical base, and therefore the tool can be threaded into the electrical hub, at step 52. The laser can be turned on and can project a penetration point onto a soffit surface above the electrical hub, which is vertically aligned with the electrical hub that the tool is threaded into, at step 54. This first penetration point can be drilled from the underside of the roof to create a first hole.

[0037] At step 56, the tool can project a second penetration point vertically onto a second surface above the electrical hub and through the first hole without repositioning the tool. The second surface corresponds to an underside of a roof deck. This second penetration pilot hole can be drilled from the underside of the roof until a drill bit is visible from a top side of the roof and then hole can be completed by drilling from the top side of the roof down to prevent blow out of the roofing material. After these holes are drilled, the rigid conduit and weatherhead can be installed. The specialized laser alignment tool can project vertically aligned and plumb penetration points as long the meter socket or electrical panel has been mounted perfectly plumb and level.

[0038] While the invention has been particularly shown and described with reference to specific illustrative embodiments, it should be understood that various changes in form and detail may be made without departing from the spirit and scope of the invention.