Stock material or miscellaneous articles – Longitudinally sectional layer of three or more sections – Next to unitary sheet of equal or greater extent
Reexamination Certificate
2000-11-24
2002-04-09
Thomas, Alexander S. (Department: 1772)
Stock material or miscellaneous articles
Longitudinally sectional layer of three or more sections
Next to unitary sheet of equal or greater extent
C428S105000, C428S903300, C156S095000, C156S256000
Reexamination Certificate
active
06368690
ABSTRACT:
FIELD OF THE INVENTION
This invention relate to the recycling of scrap automobile and truck tires into useful products.
BACKGROUND OF THE INVENTION
Disposing of scrap tires has become a very large environmental problem. Millions of worn out automobile and truck tires are presently being stored in enormous piles or filling canyons. These piles result in visual pollution and sometimes catch fire, with the resulting large, dense, smoke plumes polluting the air for miles down wind. In addition liquid hydrocarbons may be released into the ground water due to pyrolitic reactions as the tires are heated, then burned. These tire pile fires are very difficult to extinguish.
Tires are presently being recycled on a very limited scale. Some are ground into particles useful in road building. Others are used in the creation of artificial reefs to improve lake and ocean fishing. Some are used for barriers around go-cart race tracks. Presently, recycling is consuming fewer tires than are being added to the waste stream.
Attempts have been made to recycle at least parts of tires into structural beams and the like. For example, Snyder in U.S. Pat. No. 5,096,772 describes a beam forming process in which the sidewalls of tires are cut away, the rubber tread portion is sliced away from the steel belts. A thin layer of rubber is vulcanized to the belts and the belts are laminated together. However, this process uses only a small percentage of the tire, requires a complex layup to assure that the tire cords are arranged in different directions in succeeding layers and is quite costly.
Tripp in U.S. Pat. No. 5,340,630 describes a process for recycling the tread portion of tires in which the sidewalls are cut away, the tread portions are joined end to end to form two elongated continuous plies, then the two plies are bonded together to form a long two-ply member. This member can be used as a building material. However, this process is limited to a two ply thickness, is subject to delamination and is not directly useful as a product other than in fabricating other structures.
Similarly, in U.S. Pat. No. 5,412,921, Tripp describes a method of making a structure similar to an I-beam from the elongated plies made in his earlier patent, with plies forming the faces of the I-beam and two plies together forming the I-beam flange. This is a complex, difficult to secure together, assembly. FIG. 6 of the Trip '921 drawing clearly shows the curvature of tire treads that makes difficult the bonding of two plies together to form a double-ply member.
Miller discloses, in U.S. Pat. No. 5,472,750, a method of producing large, thick, mats from tires which includes the steps of slitting the sidewalls and pressing the tire flat to form a preform having a rectangular center area conforming to the tread and a saw-toothed edge corresponding to the sidewalls, then stacking and bonding these preforms. Problems remain in truly flattening the preforms due to lesser sidewall thickness relative to tread thickness. In particular, obtaining tight interlocking of the saw-toothed edges is difficult, since this pattern conforms to the sidewall diameter and sidewall diameters vary greatly.
In U.S. Pat. No. 5,834,083. Pignataro, Jr. describes a tire recycling process including removing sidewalls from the tires, cutting the tread transversely to form strips, fastening the strips with interlocking dovetails and bonding strips together. This process is difficult and requires high accuracy in cutting dovetails. Due to the curvature of the inner surface of the tread material, bonding is difficult and likely to result in bubble formation or central separation of the lamination.
In general, the bonding together of tire tread strips to form two or more ply laminations has been very difficult and likely to result in delamination in use as a structural member. The edges of the tread strips, which curve toward the sidewalls, have a lesser circumference. Or, said another way tread strip edges have a shorter length than the strip centerline when laid flat. This difference makes flattening the tread very difficult.
Therefore, there is a continuing need for improvements in guard rail systems that recycle portions of used tires, that are strong and resilient, are highly resistant to impact damage, that will not deteriorate when exposed to severe weather and freeze/thaw cycles and that can be provided with a reinforcing surface coating having any desired color.
SUMMARY OF THE INVENTION
The above-noted problems, and others, are overcome by recycling scrap automobile, truck, etc., tires into a structural member which is superior to present similar structural members. The basic structural member, or “slat”, is a tread strip cut from worn out tires, cut to a predetermined width with slits formed along the long edges of the strip and extending transversely toward the strip centerline. Slats of this sort may be laminated in a variety of ways to construct larger structures, such as parking stops, guard rails systems, walls (such as for tornado rooms or the like), floor panels or mats, etc.
The first step in constructing a larger structural member is securing two slats together face-to-face manner with similar sides in contact, i.e., tread surface to tread surface and inside surface to inside surface. Any suitable means may be used to secure the strips together. Typically, adhesive bonding and/or mechanical fasteners such as staples and ring nails may be used.
Useful structures can be made using these two layer laminates. A mat may be made by arranging a layer of slats in a parallel relationship, then laminating a second layer over the first layer with slats in the two layers lying at an angle to each other, typically about 90°. These mats can have any desired dimensions. Uses include horse stall mats, mats for diary cows, etc. Where mats having uniform thickness are desired, the mats may be trimmed to the desired thickness or the slats may be trimmed to half of the desired mat thickness. Planing or abrading are preferred methods of trimming thickness.
A number of such unitary pairs of slats can be laminated to produce a beam-like structural member having any desired thickness. Typically, the slats have widths of about six to eight inches. The slats have lengths typically in the range of about five to eight feet. Structural members of any length can be produced by trimming the slats for shorter structural members or laminating slats in a staggered manner for longer ones.
The completed structural member may be coated with any suitable coating having any desired color. The polyurethane based coatings of the sort presently used for coating pick up truck beds is preferred for adding strength and sealing to the lamination. In another preferred embodiment a coating or layer of a material such as a recycled rubber compound may be molder over the structural member.
The structural members are made by a process that comprises the steps of removing the tire sidewalls (which can be ground for road building particles or other uses), cutting the tread portion transversely to form an elongated strip, trimming the strip to a selected width and/or thickness, slitting the strip edges transversely inward toward the tread longitudinal centerline to a depth of from about one inch to about the full depth of the tread longitudinal centerline, with these slits located every 1 to 4 inches along the strip. The slits are preferably evenly staggered, with a slit on one side spaced equally between slits on the opposite side.
These strips may then be secured together in unitary pairs, then additional slats(individual or added unitary pairs) may be secured to both sides of the first unitary pair to provide any suitable number of tread laminations to produce the desired product thickness. While adhesive bonding of slats is optimum in most cases, producing an outstanding combination of strength, resiliency and resistance to separation, mechanical fasteners, such as staples or ring nails, may be used if desired. In some cases both adhesive bonding and mechanical fasteners may be used.
It
Harms Donn K.
Thomas Alexander S.
LandOfFree
Laminated structures made from recycled tires does not yet have a rating. At this time, there are no reviews or comments for this patent.
If you have personal experience with Laminated structures made from recycled tires, we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Laminated structures made from recycled tires will most certainly appreciate the feedback.
Profile ID: LFUS-PAI-O-2823322