Data processing: generic control systems or specific application – Specific application – apparatus or process – Electrical power generation or distribution system
Reexamination Certificate
2002-11-19
2004-06-01
Picard, Leo (Department: 2125)
Data processing: generic control systems or specific application
Specific application, apparatus or process
Electrical power generation or distribution system
C134S018000, C134S038000
Reexamination Certificate
active
06745108
ABSTRACT:
FIELD OF THE INVENTION
This invention relates to a method and apparatus for removing paint/surface coating from a manufactured component for assembly, finishing or resurfacing via the utilization of a computer controlled robotically manipulated ultra-high pressure waterjet.
1. Background of the Invention
Many raw materials used in manufacturing require surface coatings to aid in the manufacturing process. Finished products that reach the consumer often have surfaces coated with paint, varnish, shellac, or numerous other protective coatings. It is highly likely that sometime during the life of these products at least some of their components will need a surface coating to be removed for application of a different surface coating.
From the mills, metals are often coated with corrosion or oxidation inhibitors to protect the material during shipping and storage. Many manufacturing processes require the protective coating on the raw material to be removed in order to apply a different coating. Die lubricants, cutting fluids, waxes, layout dyes and other coatings are often to materials during different stages of the manufacturing process. These surface coatings must be removed from the manufactured component prior to assembly or applying surface coatings such as paint to the final product.
After manufacturing, many products or components require resurfacing due to age, oxidation, personal preference, normal wear or defects in the original or existing surface coating. Generally, in order to properly resurface these products/components it is necessary to strip the original or existing coating from the substrate.
However, stripping the broad diversity of surface coatings available from the numerous substrate materials currently used in manufacturing has presented quite a challenge to manufacturers and consumers alike. Currently, a combination of hazardous chemicals, abrasive blasting and scraping or sanding by hand have been employed to adequately remove a surface coating without damaging the substrate.
Solvents are one type of technology used to strip away surface coatings. Solvent-based chemical stripping has typically accomplished the removal of coatings such as alkyd primers, alkyd topcoats, acrylic nitrocellulose topcoats, grease, oil, machining fluids and waxes from metallic manufactured components.
However, the environmental and worker health problems associated with using chemical strippers are of epidemic proportions. Chemical strippers typically contain methylene chloride, chlorinated solvents, caustics, peroxides or similar chemicals as a major component, and the use of these materials is now restricted or prohibited by OSHA/EPA as toxic or ozone depletion materials.
As a result, all of the major automobile manufacturers have issued disclaimer notices to their dealerships that prohibit the use of chemical strippers and outline that the only approved method for stripping the paint/surface coating from their automobiles is by using a single edge razor blade.
Chemical strippers are also inappropriate for the removal of protective coatings from non-metallic organic matrix composite materials, for example rubber, plastic, carbon fiber and fiberglass as well as others. Chemical cleaners or strippers typically cannot be used for surface coating removal from such composite materials because of the high risk of the stripper chemically attacking organic components of the material.
One alternative to the use of chemical stripping is the use of abrasive blasting techniques. Techniques which include the utilization of abrasive media such as crushed corn cobs, glass beads, plastic beads, walnut shells, synthetic diamond dust, garnet particles, and dry ice carbon dioxide pellets have been employed in abrasive blasting stripping processes.
However, it is often undesirable to use an abrasive blasting process because the erosive nature of abrasives may contaminate or damage the surface being stripped. The abrasive also creates additional hazardous waste requiring proper disposal.
Another alternative to chemical stripping is high pressure waterjets. High pressure waterjets have been used successfully for cleaning as well as removing a variety of surface coatings. However, the current techniques are labor intensive and attempts at automation require extended set-up time and have met with limited success.
Accordingly, a cost-effective and versatile arrangement utilizing three dimensional mapping for robotically manipulating ultra-high pressure waterjets to safely and effectively remove paint/surface coatings from the inner and outer surfaces of manufactured components without injuring the underlying substructure would satisfy a long felt need in the art.
2. Description of the Prior Art
U.S. Pat. No. 6,413,322 discloses a machine for removing greases, oils and machining fluids in a atmosphere container, using an inert gas to purge the oxygen in the container and a heat source to vaporize the flammable chemical degreasing fluid.
U.S. Pat. No. 6,402,857 discloses a non-flammable, non-corrosive and non-hazardous chemical solvent mixture and a method of cleaning an article in a vapor degreaser using the chemical solvent mixture. Oil, grease, rosin and flux can be readily removed using the chemical mixture.
U.S. Pat. No. 5,954,890 discloses a composition and method for removal of polymeric coatings especially suited for the nonporous surfaces of airplanes. The method comprises the mixing of two stock solutions, a peroxide/acid solution and an alkaline solution. The mixture is then immediately applied to a surface to be stripped of coating. The applied mixture causes the coating to become softened. A further step of washing or blowing with water, air, cornstarch, or plastic media will remove the softened coating.
U.S. Pat. No. 4,182,000 teaches a hand held scraper-sander, as does U.S. Pat. No. 4,466,851 which teaches a hand held scraper that is especially suited for removing fragments of a gasket from automobile engine components.
U.S. Pat. No. 5,468,178 discloses a paint removing adapted for attachment to a hand held rotary grinder for fast, efficient removal of paint from a surface. The device includes a disc with abrasive platelets arranged in a ring around the periphery of the disc, leaving a central area free from abrasive particles. Rotation of the disc at high speeds removes paint from the entire area encompassed by the disc.
U.S. Pat. No. 4,443,271 concerns an apparatus and method used for cleaning floor grates employing high-pressure water jets.
U.S. Pat. No. 4,858,264 is directed toward an ultrasonic assisted protective coating removal system, particularly for removing paint or similar coatings from aircraft.
U.S. Pat. No. 5,986,234 teaches a laser-based coating removal system for removal of surface coatings.
U.S. Pat. No. 6,013,308 discloses a method for removing coating defects from a vehicle body. The surface defect is marked by an operator, who then must target the marked surface position as well as specify a working plane. The patent makes no disclosure or suggestion of utilizing a computer containing three dimensional information about vehicle body or automotive components to accurately control the removal of surface coatings.
U.S. Pat. No. 6,287,389 issued to the present inventor discloses the removal of paints from an automobile surface solely by the use of ultra-high pressure waterjets using a robotically controlled system of operation.
None of the prior art patents address the issue of utilizing three dimensional mapping for robotically manipulating ultra-high pressure waterjets for precision removal of surface coatings and contaminates from the inner and outer surfaces of manufactured components.
SUMMARY OF THE INVENTION
The present invention provides a computerized method useful for cleaning or stripping surface coatings and contaminates from the inner and outer surfaces of manufactured components. This device utilizes ultra-high pressure waterjet technology in conjunction with a method and apparatus for creating and storing, in a database, three dimensional digitized maps or tem
Kosowski Alexander
McHale & Slavin P.A.
Picard Leo
UltraStrip Systems, Inc.
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