Abstract:
The Sherpa is the ultimate sheet supporter. It is an apparatus with a method for assembling, supporting, and lifting sheet metal panels and insulation while constructing a pre-engineered steel building that creates a safer and more efficient work environment. It is a two axle trailer base with a telescoping rear extension. An electric winch is used for actuating the support platform between collapsed/travelling and elevated/operating positions. As it lifts the preassembled panel, it supports it without twisting or kinking to a forty-five degree angle where the panel is able to be lifted to a totally vertical position and secured into place.

Description:
CROSS-REFERENCE TO RELATED APPLICATIONS 
     This is part of a Non-Provisional Utility Patent Application with no prior applications. 
     STATEMENT REGARDING FEDERALLY SPONSORED RESEARCH OR DEVELOPMENT 
     This invention was not made with any federally sponsored research or development support so the United States government has no rights in this invention. 
     REFERENCE TO A “SEQUENCE LISTING”, A TABLE, OR A COMPUTER PROGRAM LISTING APPENDIX 
     There are no materials being submitted separately on a compact disc. 
     BACKGROUND OF THE INVENTION 
     In the construction industry, metal buildings consist of a structural steel framing system, which supports a metal roofing system and wall panels. Pre-engineered steel buildings are fabricated off-site, then shipped from the manufacturer to the construction site, where the building is erected by construction personnel. Most steel building erectors are primarily responsible for the actual erection process and not any of the finish work, such as electrical or plumbing. They do install the insulation in the exterior walls and the roof. 
     Currently, once the steel structure is in place, the panels and insulation are put up separately by hand by 4-5 installers using a man lift (a motorized scaffold characterized by a bucket or platform). 
     At the bottom of the structure along the foundation is the base channel (a “C” section secured at the foundation to support wall panels as an alternate to base angle). At the top of the wall is the eave strut (a structural piece spanning columns at the edge of a roof). The horizontal steel supports are girts. 
     To install the insulation and metal wall panels, the layout begins on the ground level and proceeds floor by floor upward until reaching the roof. Double stick tape is applied to the eave strut and the base channel. The insulation is generally 6′ wide and cut to fit the length of the panels. The vinyl side of the insulation goes toward the inside of the building, so the fiberglass side faces outward. It is hung vertically by sticking it to the tape. 
     The metal wall panels are 3′ wide and the length depends on the height of the building. A horizontal layout is marked every 3′ on the base channel. The panels are pre-drilled for layout on the girt members. A rope hooked to a man lift is clamped onto the top side of the panel and it is raised by one corner to a vertical stance. Once vertical, the panel is installed on the horizontal layout and fastened down with screws on all base, eave and girt lines. This process is repeated with the next panel lapping the first to finish covering the insulation. The lap is stitched together with stitch screws every 2 feet. 
     Wind is the worst enemy of the steel erector. When installing the wall &amp; roof panels, they can only safely erect when the winds are 10 miles an hour or less. The wind can grab the insulation and the metal panels and whip them around causing damage to the materials as well as injuries to the installers and take considerably more time. 
     BRIEF SUMMARY OF THE INVENTION 
     Dude Kay Burrell, owner of Ultimate Steel Erection, contracted for the tallest building his company has done to date—100 feet high. While planning the execution of this job, Kay determined he needed a safer, more efficient way to hang the insulation and metal wall panels. In January 2014 he came up with the idea to build a trailer base and to put a supporting and lifting apparatus on it. His wife named it ‘The Sherpa’ and by Mar. 1, 2014 Kay had built a prototype and taken it to use on this big job. 
     The Sherpa allows the crew to transport the metal wall panels to and around the jobsite, assemble the panels and insulation as one complete piece instead of three, and lift them to a 45 degree angle without twisting or kinking the panels. 
     Since they aren&#39;t trying to keep the insulation up while fastening one panel then another, this is more efficient and safer for the crew. The Sherpa also allows the crew to continue to install the pre-assembled panels in winds up to 20 mph, instead of stopping when the wind is at 10 mph. This cuts down on days when work would normally be called off due to wind. 
    
    
     
       BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWING 
         FIG. 1 —Shows a rear, side, top view of the supporting and lifting apparatus mounted on a trailer base with the rear extension partially extended. 
         FIG. 2 —Shows a simplified overhead view of the supporting and lifting apparatus with the supporting platform retracted in a collapsed/transport position and the extensions barely extended. 
         FIG. 3 —Shows a simplified front, top view of the supporting and lifting apparatus trailer base with one adjustable trailer hitch, one trailer jack and two d-rings attached. 
         FIG. 4 —Shows a simplified view of the rear of the supporting and lifting apparatus trailer base with two trailer jacks, two d-rings and trailer lights attached to the extension. 
         FIG. 5 —Shows a simplified rear, side view of the supporting and lifting apparatus in an upright position. 
     
    
    
     DETAILED DESCRIPTION OF THE INVENTION 
     The invention will now be described in further detail by reference to the accompanying drawings. It is to be understood that the particularity of the drawings does not supersede the generality of the preceding description of the invention. 
     The Sherpa is a supporting and lifting apparatus mounted on a trailer base with adjustable extensions that support the metal wall panels while they are assembled to the insulation and then raised, without getting twisted or kinked, for installation onto the steel building structure. 
     Assembling the trailer base with a supporting and lifting apparatus is as follows: 
       FIG. 2  shows 10″ square steel tubing  5  cut and welded to make the trailer skeleton 8′ wide and 25′ long. The hitch assembly  2  is 6″ steel tubing cut and welded to the front of the trailer skeleton in a T shape with an adjustable hitch  1  welded to the front end of it adding another 5 feet to the length of the trailer. Two pieces of 4″ steel tubing  3  were welded in between the skeleton and the hitch for support. Two pieces of flat 4″ steel  6  were welded inside the front of the skeleton for support. 
       FIG. 2  also shows two brackets  4  for holding the spreader bars or other materials, two lockable toolboxes  7  were attached with screws, one on each side about in the middle of the trailer skeleton. Steel fenders  8  were welded on each side towards the back of the trailer skeleton, behind the toolboxes, and extended out from the trailer skeleton. Twelve D-rings  20  were attached to the trailer skeleton tubing; four on each side, two on front, and two on rear to allow for transporting sheets and/or other ancillary materials. 
       FIG. 3  shows one 8 foot steel guide  21  was welded to the top of the front and the rear skeletal tubing with notches cut out to match up with the shape of the metal wall panels.  FIG. 3  also shows a trailer jack  22 , an adjustable trailer hitch  1  welded onto the front hitch assembly  2 , and the support tubing  3 . Two D-rings  20  and two brackets  4  were welded on the front of the trailer skeleton. 
       FIG. 4  shows the rear axle  24  attached to the trailer skeleton. There is another set right in front of it. Two sets of wheels and tires  23  were added.  FIG. 4  also shows two more trailer jacks  22  and two more D-rings  20  were welded onto the back of the trailer extension. Trailer lights  13  were later attached to the back of the trailer extension. 
     In  FIG. 2 , inside both of the long 10″ steel tubes  5  there is 20′ of thick 6″ round pipe  10 . The pipes are welded at the rear end to the 10″ piece of square steel tubing  5  that is the back of the trailer skeleton. The pipes slide in and out of the trailer skeleton square tubing to make two telescoping extensions. The pipes roll between hard rubber wheels  11  attached to all four corners at intervals along the inside of the steel tubing  5 . Not only do the wheels facilitate pulling out the extensions, but they also stabilize the extensions while being transported. There are 1″ bolts  9  on each side of the tubing where the extensions roll out that can be tightened to lock the extensions in place. Before extending out the extensions, the trailer lights plug  14  need to be unplugged. 
     As shown in  FIG. 5 , the supporting apparatus was constructed of square steel tubing  25  cut and welded together in a rectangle with a middle crossbar. Beneath the steel tubing rectangle  25  another row of steel tubing  26  was attached with more steel tubing  27  welded every few feet for support. Angle iron  28  was welded in an X inside both sides of the rectangle of square tubing and flat iron was welded as corner braces  29 . At the top of the supporting apparatus is a long plastic roller  31  which rotates beneath the panels as the support is raised. 
     In  FIG. 2 , it shows an electric winch  16  was attached to the inside of the apparatus skeleton at the rear beneath the bottom end of the supporting apparatus. Two long hardened steel pins were attached to the trailer skeleton &amp; supporting apparatus on either side of the winch as hinge pins  15 . Along the inside of the trailer skeleton where the supporting and lifting apparatus fits, angle iron has been welded  17  which acts as a support to hold the supporting and lifting apparatus in place when it is down and traveling. Across from the winch on the inside of the front end of the apparatus skeleton, a snatch block  19  was attached. The winch is rigged using this snatch block as a double-line pull. This doubles the pulling power of the winch and cuts the line speed in half. 
       FIG. 5  shows the supporting apparatus in a raised position. The lifting support  32  was constructed of a steel tubing rectangle with angle iron crossing in an x for support  33 . At the top of the lifting support are two pins  30  which rotate to allow the two steel wheels  34  attached at the bottom of the support to move from the rear to the front and back again along the angle guides  17 . As the winch pulls in, the bottom of the lifting support  32  is pulled away from the winch, thereby raising the supporting apparatus. 
     In  FIG. 2 , the electric winch  16  requires a 240 volt power source. It has an electric limit switch  18  that is mounted to the trailer skeleton under the supporting and lifting apparatus to stop the lift up at 45 degrees. The wiring  12  for the electric winch  16  and the trailer lighting  13  was attached to the rear mid-rail tubing. 
     This supporting and lifting apparatus on a trailer base was powder coated black. 
     To use the Sherpa, it is transported to the job site via the trailer hitch attached to a company vehicle. It is not attached to the vehicle while in operation. It uses the three trailer jacks for stability. 
     A crew of 5 is used to safely and efficiently operate the Sherpa including: 2 assemblers, 2 installers &amp; 1 boom operator. 
     Once the trailer is set up and extended to the length of the metal wall panels, the insulation is rolled out on it vertically, vinyl side down. Two metal panels are laid on top of the insulation and lap stitched together. The insulation is cut a few inches bigger than the panels, the excess fiberglass insulation is cut to the edge of the panel, and the remaining vinyl is rolled over to create a protected edge. 
     The insulation is attached to the back side of the metal panels, with backers at the top and the base, with lathe screws thru the high ribs. Three holes are drilled into the backers—a few inches down from the top, one inch in from each side and one in the center. A spreader bar is hooked to the panels with carabiners clipped thru the holes and attached to the hook on the boom truck. Tag lines are attached at each bottom corner of the assembled wall panel, making it ready to hoist into position. 
     Due to the weight of the assembled panel, picking it up flat runs the risk of twisting or kinking it. The center of the assembled panel is supported by the trailer supporting apparatus until it reaches a 45 degree angle, at which time the assembled wall panel is able to be lifted to a totally vertical position and moved into place. 
     One installer rides in the boom lift as the boom truck operator hoists the assembled panel. The assemblers each control a tag line to stabilize the assembled panel as it is moved into place. The other installer controls the winch on the supporting and lifting apparatus. 
     The installers then fasten the assembled panel at the bottom and top—across the base channel and eve struts—using self-drilling screws in the flats. The assembled panel is completely secured to the girts every foot in the flats throughout the panel or as per engineering specifications. 
     While the installers are securing the panel, the assemblers are prepping the next assembled panel on the supporting and lifting apparatus. 
     The Sherpa has been working very well since being put on the job. The crew has been able to work safer, more efficiently and in stronger wind conditions. 
     While in order to comply, the invention has been described in language more or less specific as to structural features, it is to be understood that the invention is not limited to the specific features shown, but that the means and construction herein disclosed comprise but one of several modes of putting the invention into effect and the invention is therefore claimed in any of its forms or modifications within the legitimate and valid scope of the appended claims.