Abrading – Precision device or process - or with condition responsive... – Condition responsive control for sandblasting
Reexamination Certificate
2001-03-12
2003-12-02
Choi, Stephen (Department: 3724)
Abrading
Precision device or process - or with condition responsive...
Condition responsive control for sandblasting
C451S005000, C451S008000, C451S092000, C083S177000, C083S928000
Reexamination Certificate
active
06656014
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
This invention relates to material cutting apparatus, and more particularly to mobile water jet arrangements for cutting up rigid structures such as for example, buildings, bridges and roadways and hazardous material structures at their site.
2. Prior Art
Dismantling of bridges and roadways is an expensive, time consuming, dangerous and environmentally hazardous procedure. Structures such as buildings, bridges and the like are often overbuilt to withstand tremor, aging and misuse, which provides difficulties to contractors when those structures are to be torn down and removed from the site.
Overpasses and bridge superstructure typically are removed with knockdown cranes, gas torches which are utilized to cut the steel columns and supporting girders, and manually operated jackhammers, to remove the road surface. Often this structural steel has to be de-leaded or de-painted so as not to contaminate the environment during the cutting operation. Noise, hazardous fumes, dust and environmental contaminants are often the byproduct of this operation.
An advance in the cutting of material is made by a water jet cutting arrangement known as the Bug-o™ System. This arrangement utilizes a high pressure jet of water to cut through the structural material. However this system also requires a rigid rail or track to be placed directly onto the structure to be cut, this track formed to attach and closely follow all the contours and surface curves of the material to be cut. A carriage which holds a water jet nozzle engages and travels on the track over this circuitous course and cuts the material to which the track is attached, as the jet supporting carriage travels over this fixed path. Such a track may be difficult to apply and dangerous depending upon the height and location of the structure being cut, and of course its direction and guidance is not readily changeable.
It is an object of the present invention to overcome the disadvantages of the prior art.
It is a further object of the present invention to provide a novel material cutting arrangement which minimizes the hazards to the environment as well as to the operators of the cutting system, and permit hazardous structures to be safely dismantled in a manner not taught in the art.
It is yet a further object of the present invention, to provide a cutting arrangement which is readily adapted to any structural element being torn down, in a most efficient manner without attached jigs or track networks.
It is yet a still further object of the present invention to provide a material cutting arrangement which is efficient, readily adaptable by wheeled mobility to any structural site and readily movable to subsequent locations with minimal effort and cost.
BRIEF SUMMARY OF THE INVENTION
The present invention comprises a mobile arrangement for cutting buildings and structures and the like apart. This mobile arrangement permits structures such as I-beams, pipes, tanks, girders and road surfaces of bridges to be dismantled in large sections in a clean and efficient manner. It is also particularly suited for hazardous work such as chemical plants, asbestos and concrete assemblies where manipulable robotics is ideal. The mobile cutting arrangement of the present invention comprises a mobile base support such as an operator driven wheeled crane or front-end loader having independent motorized propulsion, and a movable arm articulable with respect to the mobile base support. The movable arm has a distal end which supports a cutter platform. The cutter platform includes a controllable robotic base with a movable first arm thereon. The movable first arm has a distal end to which is attached a movable and controllable second arm.
The second arm has a distal end with a cutting head thereon. The cutting head is articulable with respect to the distal end of the second arm. The cutting head includes a water jet nozzle that is fed high pressure fluid from a high pressure fluid pump via a flexible conduit arranged therebetween. The pressurized fluid is ejected through the cutting nozzle in the head, at a pressure of between thirty thousand psi to sixty thousand psi.
The mobile arm platform may be stabilized by at least one stabilizing arm to assist in minimizing any irregular movement of the cutting nozzle head on the distal end of the furthermost or second arm.
The stabilizing members in one embodiment may be attached to the structural component being cut, or alternatively the stabilizing members may be resting on a ground support close to the structure being cut.
The stabilizing arms may be attached as the first embodiment, to the structure being cut, by a clamping arrangement or by magnetic attachment thereto.
The robotic first and second arms and the articulable nozzle carrying the water jet for cutting the structural material, may in one preferred embodiment be controlled by a pre-programmed controlled system by which the cutting nozzle has been pre-guided along the path of the material to be cut, which path is then placed within the memory of the control system and activated upon the initiation of the disposition of the cutting head against the structural material to be cut, automatically guiding the first and second arms and cutting head supporting the water jet nozzle.
In a further preferred embodiment of the present invention, the articulable cutting nozzle head and first and second arms of the robotic carrier may be guided over a desired cutting path by an operator within the mobile base support.
A camera may be arranged on the first or second arm such as at the upper end of the juncture between the first and second robotic arms, which camera is controlled through a circuit through a monitor within the cab of the mobile base support in a further embodiment. The monitor within the cab of the mobile base support would permit the operator therein to guide the nozzle in the cutting head along the desired path set by the operator without the necessity of pre-programming that path within a memory circuit of a control system.
A further embodiment of the present invention includes a control finger arrangement adapted to the cutting nozzle head wherein angular displacement of a sensor on the distal end of the control finger sends a signal through a proper circuit back to a computer controlling the robotic arms on the platform, to move the articulable cutting nozzle head accordingly, so as to effect a motion of the cutting nozzle jet perpendicular to the material being cut and following its path parallel and adjacent the surface.
Thus what has been shown is a unique arrangement for rapidly and economically cutting structural material in places where it would be difficult for workers to otherwise manipulate a torch or cutting jet onto a structure. The mobility and securability of this cutting nozzle head permits almost any material such as a concrete wall, road bed, hazardous chemical plant piping or structural steel to be severed and removed without endangering the environment or endangering personnel having to actually climb on and work on that structural material being cut.
The invention thus comprises a mobile articulable cutter apparatus for the cutting and dismemberment of a building or rigid structure to permit the environmentally safe removal of such structure from a building site comprising a mobile base support having an articulable lift arm extending therefrom, the arm having a distal end thereon, a guidable cutter head arranged on the lift arm, and a fluid jet nozzle arranged in the cutter head, with a pressurizable fluid source in fluid controlled communication with the nozzle. The nozzle is arranged to be in closely positioned guided travel adjacent the surface of the structure to be cut by a jet of fluid under pressure from the nozzle, the mobile base support being readily movable to a further cut location by the mobile base support after an initial segment of the structure has been removed. A further articulable arm may be arranged between the lift arm and the cutter head to permit extended
Choi Stephen
Halgren Don
LandOfFree
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