Composite wood flooring

Stock material or miscellaneous articles – Longitudinally sectional layer of three or more sections

Reexamination Certificate

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C428S055000, C428S058000, C428S077000, C428S297400, C428S298100, C428S299100, C428S299400, C428S511000, C428S537100, C442S413000

Reexamination Certificate

active

06558766

ABSTRACT:

BACKGROUND OF THE INVENTION
This invention relates to an improved laminated wood flooring for van-type truck trailers. Fiber reinforced polymeric composite materials are used in conjunction with edge-glued laminated wood flooring to provide improved mechanical properties, moisture protection, fatigue resistance and light weight.
Conventional wood flooring for over-the-road truck trailers is normally manufactured with hardwoods such as oak, maple, birch, beech, etc. The green lumber used as a starting material in such manufacture is suitably dried in special drying chambers under controlled conditions. The dried lumber is then sawed into strips of rectangular cross-section and defective portions are eliminated by cross cutting the strips. During the cross-cutting process, “hooks” are formed at the ends of the lumber strips. The relatively defect-free lumber strips are smeared on their vertical sides or edges with an adhesive such as urea-melamine formaldehyde or polyvinyl acetate. The uncured edge-glued lumber strips are then assembled on a conveyor by placing them side to side and behind other strips which were previously assembled. The adhesive is cured by applying heat and edge pressure to large sections of the assembled lumber strips thus forming a unitary panel. During the assembly of the lumber strips, “hook joints” are formed at each end of every strip. These joints are simple mechanical couplings with no significant adhesive bonding. Often times, due to imperfect assembly, a readily visible gap is formed at the hook joints which can be seen from the top and bottom surfaces of the completed laminated wood floor.
The cured laminated wood is cut to a desired length (up to about 60 feet) and width (about 6 to 18 inches) to form boards. The boards are then planed to a desired thickness and shiplaps and crusher beads are machined on its sides. A shiplap is a rectangular projecting lip running along the length on each side of a floor board. The crusher bead is a small semi-circular projection running along the length on each side of a board and placed over or below a lip. When the floor boards are assembled in a trailer such that the side edges of corresponding boards are squeezed together, the shiplaps of adjacent boards overlap to form a seam. The crusher beads provide spacing between adjacent boards and help in preventing buckling of the boards due to expansion on wetting. A wood putty is applied at the hook joints on the top and bottom surfaces of the boards to fill any resident gaps. Finally, the underside of the floor boards are coated with a polymeric substance termed as “undercoating” to provide moisture protection. The finished floor boards are assembled into a kit of about eight boards for installation in trailers. Normally, a kit consists of two boards with special shiplaps so that they will fit along the road and curb sides of a trailer. The other boards may be identical in design and they are placed between the road and curb side boards. All the boards are supported by thin-walled cross-members of I, C or hat sections, each having an upper flange, which span the width of the trailer and are regularly spaced along the length of the trailer. Each floor board is secured to the cross-members by screws extending through the thicknesses of the board and the upper flanges of the cross-members.
Hardwood-based laminated wood flooring is popularly used in truck trailers since it offers many advantages. The surface characteristics of hardwoods such as high wear resistance and slip resistance are most desirable. The strength and stiffness of the flooring is important for efficient and safe transfer of the applied loads to the cross-members of the trailer. The shock resistance of wood is useful to withstand any sudden dropping of heavy cargo on the floor. Nail holding capability and ability to absorb small amounts of water, oil or grease without significantly affecting slip resistance are yet additional favorable properties of hardwood flooring.
Although the conventional hardwood flooring has many desirable features, it also suffers from certain disadvantages. For example, water from the roads is known to leak into trailers through the gaps of the hook joints that exist in the flooring. The reasons for the water leaks are believed to be the capillary action of the gaps and the tendency of the end grain of wood to absorb and store water. Although the undercoating is supposed to provide a barrier to the path of water, it may not properly cover larger gaps thus exposing them to moisture. Wetting and drying cycles can degrade the undercoating leading to its cracking and peeling away from the wood. Bending of the floor between two adjacent cross-members due to any applied load on the top of the floor also has a tendency to open the hook joints and enlarge the gaps.
A lift truck is often used on the trailer floor to load and unload cargo. The dynamic action of a moving lift truck placing heavy cargo on the trailer floor creates severe stress concentration in the flooring and some of the cross-members. A very large proportion of the weight of the lift truck and that of the cargo is transferred to the flooring through the wheels of the front axle of the lift truck due to the momentary raising of the rear axle when the lift truck is dynamically placing a heavy cargo on the floor. The effect of repeated lift truck operation on the conventional wood floor causes considerable fatigue damage including: delamination of the edge glue lines near the hook joints leading to the “pop-out” of the lumber strips; crack initiation and propagation in wood on the underside of the floor due to longitudinal tensile stresses; and edge glue line delamination due to shearing, transverse bending and twisting of the floor. The combination of moisture attack and fatigue damage to the wood floor shortens its life thus necessitating its replacement. In some cases, catastrophic structural failure of the trailer flooring system may occur leading to the unacceptable injury of working personnel and damage to machinery.
To alleviate the above-mentioned problems, a novel fiber reinforced composite wood flooring was designed, tested and refined to be an improvement over conventional wood flooring. This new composite wood flooring consists of conventional laminated wood with an underlay of fiber reinforced plastic (FRP). The top surface of the composite wood flooring is essentially the same as that of the conventional wood flooring. Since the FRP is impervious to the passage of water, it completely seals the bottom of the wood floor and solves the problem of leaky hook joints. The fiber reinforcement improves the mechanical properties of the flooring and therefore the thickness of the laminated wood can be reduced. Thus, a thinner and lighter composite wood flooring can be produced with equivalent strength when compared to a thicker conventional wood flooring. Since the reinforcement provides an excellent barrier to the “pop-out” of lumber strips, the fatigue resistance of the composite wood flooring can be improved over that of the conventional wood flooring.
Technologists are constantly trying to find ways to improve the mechanical properties, reduce weight and improve moisture resistance of wood flooring. Fouquet, U.S. Pat. No. 5,143,418 describes the use of composite plywood panels as flooring in truck trailers. The plywood was composed of veneers of wood with a majority of the veneers oriented with the wood grain along the longitudinal direction while the remaining veneers were oriented with the wood grain along the perpendicular direction. The top and bottom surfaces of the plywood panels were overlaid with resin impregnated cellulose sheets for providing moisture and slip resistance. Clearly, Fouquet has not considered a floor design involving the FRP to provide higher strength and moisture protection.
Another area of related art is the use of FRP to improve the mechanical properties of structural wood members, such as beams, columns and trusses. Theakston (Canadian Agricultural Engineering, January 1965, Pages

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