Apparatus and method for three-dimensional contouring
First Claim
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1. A contouring machine control system comprising:
- a contouring member having first and second ends and able to be moved over an area to be contoured;
a target;
a tracking device that tracks the target and measures the position of said target in three dimensions as said contouring member is moved over the area to be contoured, one of said target and said tracking device positioned at said contouring member, and the other of said target and said tracking device positioned remotely from said contouring member;
said tracking device measuring the position of said target in three dimensions by emitting a laser beam that impinges on said target and is reflected back to said tracking device, detecting the reflected laser beam with said tracking device, computing the distance between said target and said tracking device, and determining the angular orientation of the emitted laser beam with respect to said tracking device;
a proximity sensor positioned adjacent one of the first or second ends of said contouring member, said proximity sensor able to detect its height above a physical reference below said proximity sensor, said proximity sensor detecting its height at different positions with respect to the physical reference as said contouring member is moved over the area to be contoured, the physical reference being separate from said contouring member;
a stored profile of a desired surface to be contoured; and
a controller for controlling the height of said first and second ends of said contouring member, wherein said controller adjusts the height of said first end of said contouring member as a function of said stored profile and the three-dimensional position of the one of said target and said tracking device positioned at said contouring member, and said controller adjusts the height of said second end of said contouring member independently from said first end and as a function of the current height of said proximity sensor above the physical reference.
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Abstract
A contouring machine control system, contouring/smoothing method, and kit for enabling a contouring machine to automatically contour three-dimensional surfaces includes a contouring member, such as a screed or dirt grading blade, a target either attached to the contouring member or located at a remote location, a tracking device at the other of the contouring member or remote location that tracks the target and measures the position of the target in three dimensions, a proximity sensor adjacent one end of the contouring member to detect its height above a physical reference, and a controller/computer for controlling the height of the two ends of the contouring member. One of the ends is controlled as a function of a stored profile of the desired surface to be contoured and the target or tracking device position, while the second end is controlled as a function of the current height of the proximity sensor above the reference.
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Citations
24 Claims
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1. A contouring machine control system comprising:
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a contouring member having first and second ends and able to be moved over an area to be contoured; a target; a tracking device that tracks the target and measures the position of said target in three dimensions as said contouring member is moved over the area to be contoured, one of said target and said tracking device positioned at said contouring member, and the other of said target and said tracking device positioned remotely from said contouring member;
said tracking device measuring the position of said target in three dimensions by emitting a laser beam that impinges on said target and is reflected back to said tracking device, detecting the reflected laser beam with said tracking device, computing the distance between said target and said tracking device, and determining the angular orientation of the emitted laser beam with respect to said tracking device;a proximity sensor positioned adjacent one of the first or second ends of said contouring member, said proximity sensor able to detect its height above a physical reference below said proximity sensor, said proximity sensor detecting its height at different positions with respect to the physical reference as said contouring member is moved over the area to be contoured, the physical reference being separate from said contouring member; a stored profile of a desired surface to be contoured; and a controller for controlling the height of said first and second ends of said contouring member, wherein said controller adjusts the height of said first end of said contouring member as a function of said stored profile and the three-dimensional position of the one of said target and said tracking device positioned at said contouring member, and said controller adjusts the height of said second end of said contouring member independently from said first end and as a function of the current height of said proximity sensor above the physical reference. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 10, 11, 12, 13, 14)
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9. A contouring machine control system comprising:
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a contouring member having first and second ends and able to be moved over an area to be contoured; a target; a tracking device that tracks the target and measures the position of said target in three dimensions as said contouring member is moved over the area to be contoured, one of said target and said tracking device positioned at said contouring member, and the other of said target and said tracking device positioned remotely from said contouring member;
said tracking device measuring the position of said target in three dimensions by emitting a laser beam that impinges on said target and is reflected back to said tracking device, detecting the reflected laser beam with said tracking device, computing the distance between said target and said tracking device, and determining the angular orientation of the emitted laser beam with respect to said tracking device;a proximity sensor positioned adjacent one of the first or second ends of said contouring member, said proximity sensor able to detect its height above a physical reference at different positions with respect to the physical reference as said contouring member is moved over the area to be contoured, the physical reference being separate from said contouring member; a stored profile of a desired surface to be contoured; and a controller for controlling the height of said first and second ends of said contouring member, wherein said controller adjusts the height of said first end of said contouring member as a function of said stored profile and the three-dimensional position of the one of said target and said tracking device positioned at said contouring member, and said controller adjusts the height of said second end of said contouring member independently from said first end and as a function of the current height of said proximity sensor above the physical reference; said target being positioned at said contouring member and said tracking device being positioned remotely from said contouring member, said tracking device including a transmitter for transmitting the three-dimensional position information of said target to said controller; said contouring member being able to vibrate and contour uncured concrete; said contouring member being an assembly including an auger positioned adjacent one side of a vibrating contouring beam, said auger oriented substantially parallel to said vibrating contouring beam;
a plow positioned adjacent a side of said auger opposite said vibrating contouring beam such that said auger is intermediate said plow and said vibrating contouring beam, said plow oriented substantially parallel to said auger;
a pivot axis oriented substantially parallel to said auger and a pivoting device for pivoting said vibrating contouring beam, said auger, and said plow about said pivot axis; anda tilt controller that activates said pivoting device to rotate said vibrating contouring beam, said auger, and said plow about said pivot axis based upon said stored profile.
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15. A contouring machine control system comprising:
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a contouring member having first and second ends and able to be moved over an area to be contoured; a target; a tracking device that tracks the target and measures the position of said target in three dimensions as said contouring member is moved over the area to be contoured, one of said target and said tracking device positioned at said contouring member, and the other of said target and said tracking device positioned remotely from said contouring member;
said tracking device measuring the position of said target in three dimensions by emitting a laser beam that impinges on said target and is reflected back to said tracking device, detecting the reflected laser beam with said tracking device, computing the distance between said target and said tracking device, and determining the angular orientation of the emitted laser beam with respect to said tracking device;a proximity sensor positioned adjacent one of the first or second ends of said contouring member, said proximity sensor able to detect its height above a physical reference at different positions with respect to the physical reference as said contouring member is moved over the area to be contoured, the physical reference being separate from said contouring member; a stored profile of a desired surface to be contoured; and a controller for controlling the height of said first and second ends of said contouring member, wherein said controller adjusts the height of said first end of said contouring member as a function of said stored profile and the three-dimensional position of the one of said target and said tracking device positioned at said contouring member, and said controller adjusts the height of said second end of said contouring member independently from said first end and as a function of the current height of said proximity sensor above the physical reference; said target being positioned at said contouring member and said tracking device being positioned remotely from said contouring member, said tracking device including a transmitter for transmitting the three-dimensional position information of said target to said controller; and a pivot adjustment mechanism that pivots said contouring member by rotating said contouring member about an axis extending linearly from said first end to said second end of said contouring member, said pivotal rotation based on said stored profile of the surface to be contoured.
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16. A method for smoothing material to a desired shape, comprising:
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providing a target having a reflector; providing a contouring assembly for contouring said material over a given area, said contouring assembly having first and second ends and being supported in at least a first location; providing a base upon which said contouring assembly is movably mounted; providing a tracking device that tracks said target; providing a proximity sensor adjacent one of said first and second ends of said contouring assembly, said proximity sensor being able to detect its height above a physical reference below said proximity sensor, said proximity sensor detecting its height at different positions with respect to the physical reference as said contouring assembly moves over the given area, the physical reference being separate from said contouring assembly; storing a profile of the desired shape of the material to be smoothed; positioning one of said target and said tracking device at said contouring assembly and the other of said tracking device and said target remotely from said contouring assembly; moving said contouring assembly over the material; measuring the position of said target in three dimensions with said tracking device as said contouring assembly moves, said measuring the position of said target including emitting a laser beam from said tracking device so that the laser beam impinges on said reflector on said target, detecting the reflected laser beam with said tracking device, computing the distance between said target and said tracking device, and determining the angular orientation of the emitted laser beam, with respect to said tracking device with said tracking device; adjusting the height of said first end of said contouring assembly as a function of said stored profile and the three-dimensional position of the one of said target and said tracking device positioned at said contouring assembly; and adjusting the height of said second end of said contouring assembly independently of the adjustment of said first end and as a function of the current height of said proximity sensor above the physical reference. - View Dependent Claims (17, 19)
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18. A method for smoothing material to a desired shape, comprising:
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providing a target having a reflector; providing a contouring assembly for contouring the material over a given area, said contouring assembly having first and second ends and being supported in at least a first location; providing a base upon which said contouring assembly is movably mounted; providing a tracking device that tracks said target; providing a proximity sensor adjacent one of said first and second ends of said contouring assembly, said proximity sensor being able to detect its height above a physical reference at different positions with respect to the physical reference as said contouring assembly moves over the given area, the physical reference being separate from said contouring assembly; storing a profile of the desired shape of the material to be smoothed; positioning one of said target and said tracking device at said contouring assembly and the other of said tracking device and said target remotely from said contouring assembly; moving said contouring assembly over the material; measuring the position of said target in three dimensions with said tracking device as said contouring assembly moves, said measuring the position of said target including emitting a laser beam from said tracking device so that the laser beam impinges on said reflector on said target, detecting the reflected laser beam with said tracking device, computing the distance between said target and said tracking device, and determining the angular orientation of the emitted laser beam with respect to said tracking device with said tracking device; adjusting the height of said first end of said contouring assembly as a function of said stored profile and the three-dimensional position of the one of said target and said tracking device positioned at said contouring assembly; and adjusting the height of said second end of said contouring assembly independently of the adjustment of said first end and as a function of the current height of said proximity sensor above the physical reference; wherein said target is positioned at said contouring assembly and said tracking device is positioned remotely from said contouring assembly; wherein said contouring assembly includes a longitudinal dimension, said method further including; calculating a slope of said stored profile in the direction of movement of said contouring assembly; moving said contouring assembly in a direction transverse to said longitudinal dimension of said contouring assembly; and rotating said contouring assembly about an axis extending linearly from said first end to said second end of said contouring assembly, said rotating based upon the calculated slope of said stored profile.
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20. A kit for enabling a contouring machine having a contouring member to automatically contour three-dimensional surfaces, said contouring member having first and second ends and able to contour material over a given area, said contouring machine further including a height adjustment mechanism able to adjust the orientation of said contouring member such that the first and second ends of the contouring member may be positioned at different heights, said kit comprising:
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a target able to be attached to said contouring machine at a known position relative to said first end of said contouring member; a tracking device that tracks said target as said target moves and measures the position of said target in three dimensions, said tracking device positionable remotely from said contouring machine at a known location, said tracking device measuring the position of said target in three dimensions by emitting a laser beam that impinges on said target and is reflected back to said tracking device, detecting the reflected laser beam with said tracking device, computing the distance between said target and said tracking device, and determining the angular orientation of the emitted laser beam with respect to said tracking device; a proximity sensor able to be attached adjacent said second end of said contouring member, said proximity sensor able to detect its height above a physical reference below said proximity sensor, said proximity sensor detecting its height at different positions with respect to the physical reference as the contouring member is moved over the given area, the physical reference being separate from the contouring member; a computer that operates the height adjustment mechanism and that includes a stored profile of a desired contour, said computer programmed to operate the height adjustment mechanism such that the height of the first end of the contouring member is adjusted based upon both the three-dimensional position of said target as measured by said tracking device and a desired height stored in said stored profile for the first end of said contouring member, said computer further programmed to operate the height adjustment mechanism such that the height of the second end of the contouring member is adjusted independently of the first end based on the current height detected by said proximity sensor of the second end of the contouring member above the physical reference. - View Dependent Claims (21, 22, 23, 24)
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Specification
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Current AssigneeSomero Enterprises Incorporated
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Original AssigneeSomero Enterprises Incorporated
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InventorsHallstrom, Charles A, Waineo, James D, Simula, Glen R, Ruonavaara, Nils P, Kieranen, Carl B
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Primary Examiner(s)ADDIE, RAYMOND W
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Application NumberUS11/040,398Publication NumberTime in Patent Office683 DaysField of Search404/84.05, 404 841- 845, 404/84.8, 404/75, 404/83, 404/109, 404/114, 404/101, 404/102, 404/118, 701/50US Class Current404/84.1CPC Class CodesE01C 19/006 by laser or ultrasoundE01C 19/40 adapted to impart a smooth ...
