Road structure – process – or apparatus – Apparatus – Block laying
Reexamination Certificate
2001-09-19
2003-07-22
Pezzuto, Robert E. (Department: 3671)
Road structure, process, or apparatus
Apparatus
Block laying
C404S073000
Reexamination Certificate
active
06595718
ABSTRACT:
BACKGROUND OF INVENTION
In the rigid pavement industry, concrete failures often occur in isolated areas. In the past, saw-cutting failed slabs in multiple smaller sections and then individually removing these sub-sections separately accomplished removal of these damaged slabs. This has become known as the “non-impact” method of removal. An alternative to this “non-impact” method is known as the “impact method” in which an air compressor-powered jackhammer mounted on a backhoe is used to “rubble-ize” the damaged slab. This rubble must then be removed, and the underlying base must be repaired before the replacement slab can be installed, costing more time and money. The non-impact method spares the structural integrity of the base layer of the rigid pavement, while the impact method destroys the structural soundness of the base material. The non-impact method is preferred due to the added labor, cost and time of repairing the damaged base material when the impact method is used.
At this point the concrete is placed, finished and cured. Depending on the type of concrete used, curing could require hours to days before reaching design strength and being put back into service. Because the economic cost of stopping vehicular or aircraft traffic, and the inconvenience to the public in shutting down the transportation system, choices had to be made between closing lanes of highways or airport landing fields for long periods of time or, alternatively, using very expensive concrete products which cure in a few hours. These fast setting concretes can be so sensitive and unpredictable that they sometimes set up while still in the transit mix truck; or if certain conditions change slightly they can take 12 hours to set up instead of the usual four to six hours. Another great concern is that if the repair location is more than a short haul distance from a concrete production plant fast-setting concrete mixes were infeasible because of their short set times. One alternative is to set up portable batch plants for on-site preparation of fast-setting concrete, but additional costs are associated with this operation. For these reasons, this method of repair is extremely expensive and problematical.
An alternative to the fast-setting concrete method is to place pre-cast slabs into the holes from which the damaged panels were removed. Then an expanding foam injection process raises the new panel into position. Both methods (fast-setting concrete or pre-cast panels) have saved time, also saving effort, while allowing the repairs to be done in an eight hour shift in the middle of the night, or at a time when the highway, runway, or bridge can be closed or partially shut down. Because of the expense of fabricating and hauling pre-cast panels to the site and using the expensive expanding foam agents, the latter method proved more expensive than using fast-setting concrete but less problematical.
SUMMARY OF INVENTION
This novel invention solves many of the problems of the prior art methods of removing and replacing damaged rigid pavement sections.
The novelty of this invention is in the way it is used to remove, and replace various rigid pavements, in particular, the concrete used in highways and runways at airports. This invention utilizes an external framing (thus “exo” as in “exo-skeletal”), a structural frame to remove broken concrete slabs as single units, and replace the same with new panels. It further acts to externally reinforce the new panels during lifting and aligning in position. It maintains structural support for the replacement slab during its final placement and connection to adjacent slabs, structures, and various other items depending on its application. Support is also maintained while the replacement slab is being bedded and anchored in cementitious or other properly chosen fast-setting materials.
Initially, using a novel tilted guide platform for mounting the concrete saw at a small angle to the perpendicular modifies the saw-cutting process. This allows the concrete joint to be double sawn, once vertically and once at a small angle, to give the concrete slab being removed a beveled edge, which allows it to be removed in a vertical direction without binding to and possibly damaging the rigid concrete pavement to remain. This provides significant savings in time and monetary cost.
After saw cutting around the area to be replaced, the invention is placed over the area of the broken-up concrete. Because it is important to preserve the integrity of the layer just below the concrete layer (which is typically aggregate base, cement treated base, asphalt base, Lean concrete or some similar base material), the broken pieces of slab are individually drilled for anchor installations. The new invention is adjustable both in width and length to accommodate any configuration of cracks in the damaged pavement. Once the frame is bolted to the broken slab, the slab can be removed as a single unit by crane. This saves much time and allows the unit to be hauled off the site and out of the way quickly and efficiently. This invention can save an estimated 10 to 60 percent of the usual time over the current demolition and piecemeal removal methods. The base material is essentially undisturbed, alleviating the need to repair it and thus saving more time and money.
The new invention allows the choice of manufacturing pre-cast replacement panels efficiently at a pre-cast yard. The invention could be attached to these panels at the site of manufacture to facilitate their transportation to the job site. Alternatively, the replacement slabs can be cast at or near the job site. Since the invention reduces the moment loading of the replacement slabs during lifting, transport and installation, it is no longer necessary to include internal steel reinforcement in their manufacture to enable them to withstand the stresses of shipping, lifting, and installation (which are much greater than the stresses encountered during the actual traffic loading of the slab), thus saving time and monetary expense.
Now the slab with the frame attached can be crane lifted into place, where it is aligned with the pavement surrounding it by the extensions of the longitudinal and transverse beams. The replacement slab will also be supported so that it can leave a small void under the new slab. This void produces the prism for the new base support layer, which can be filled with a very small amount of fast-setting grout. The grout can be mixed at the site with no transit mix trucks required. Only 5 to 10 percent of the original volume of the slab would be required to be replaced with this fast setting material. Because of the small volume of materials required, bagged products would become economically feasible for use. (Bagged products being those whose performance and specifications are documented, proven and generally accepted in the industry as acceptable for use in applications similar to the present application.) The use of these “bagged products” opens the door to remote use of this method where only a small mixing drum is necessary to mix products which have a much higher level of quality control inherent in their production. Costs ranging several orders above the fast setting concrete mixes are still economic and actually preferable because there is no question as to material consistency and the water addition is observable at the site by the inspector. Products do not need to be hauled, so much “hotter” mixes—those that set much faster—can be used without problems occurring such as might be encountered with a ready-mix truck hauling over a distance, or a delay occurring in unloading a truck. Such delays sometimes cause the mix to set up in the truck before it gets unloaded. This is known to happen, and it increases costs significantly. It also increases down time, causing major problems for the facility users. When hotter mixes can be used without these problems, lane closure or runway down time can be dramatically reduced. Because the material under the slab would only need to meet a small percentage of the strength of mate
Kolisch & Hartwell, P.C.
Pechhold Alexandra K.
Pezzuto Robert E.
Works R&D, Inc.
LandOfFree
Exo-lift does not yet have a rating. At this time, there are no reviews or comments for this patent.
If you have personal experience with Exo-lift, we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Exo-lift will most certainly appreciate the feedback.
Profile ID: LFUS-PAI-O-3013715