Apparatus and method for three-dimensional contouring

US 20050265785A1
Filed: 07/21/2005
Published: 12/01/2005
Est. Priority Date: 10/27/1998
Status: Active Grant

First Claim

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1-104. -104. (canceled)

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Abstract

A device and method for contouring three-dimensionally curved surfaces includes an elongated contouring assembly that is supported at two locations by height adjustment mechanisms that raise and lower the two locations of the contouring assembly independently of each other. The contouring assembly creates a three-dimensionally curved surface as it passes over an area to be contoured. The control of at least one location of the contouring assembly is based on a comparison of the measured position of one portion of the contouring assembly with a profile of the surface to be leveled that is stored in a computer memory. Control of the height of the other location is preferably based on the height above a physical reference measured with a proximity sensor. A pivot or tilting controller may control the tilting of the contouring assembly to follow the slope of the profile stored in computer memory.

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120 Claims

1-104. -104. (canceled)

105. A contouring machine control system comprising:
- a contouring member able to contour uncured concrete, said contouring member having first and second ends and able to be moved over an area to be contoured, said contouring member being supported in at least a first location and a second location, said contouring member including a vibrating contouring beam;
  
  a controller for controlling the height of said first and second locations of said contouring member;
  
  an auger positioned adjacent one side of said 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 pivoting device for pivoting said vibrating contouring beam, said auger, and said plow about a pivot axis oriented substantially parallel to said auger;
  
  a target;
  
  a tracking device that tracks said target and measures the position of one portion of said contouring member in three dimensions as said contouring member is moved over the area to be contoured;
  
  one of said target and said tracking device being positioned at said contouring member, and the other of said target and said tracking device positioned remotely from said contouring member;
  
  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 reference as said contouring member is moved over the area to be contoured, said reference being separate from said contouring member;
  
  a stored profile of a desired surface to be contoured;
  
  wherein said controller adjusts the height of said first location of said contouring member as a function of the stored profile and the three-dimensional position of said one portion of said contouring member as determined by said tracking device and target, and said controller adjusts the height of said second location of said contouring member as a function of the current height of the proximity sensor above the reference; and
  
  a tilt controller that activates said pivoting device to tilt said vibrating contouring beam, said auger, and said plow about said pivot axis based upon said stored profile.
- View Dependent Claims (106, 107, 108, 109, 110, 111, 113, 114)
- - 106. The control system of claim 105 wherein said proximity sensor is an ultrasonic sensor.
  - 107. The control system of claim 105 wherein said controller includes a fluid cylinder for changing the height of the first location of said contouring member.
  - 108. The control system of claim 107 further including a second fluid cylinder for raising and lowering said second location of said contouring member.
  - 109. The control system of claim 105 including a base having a cantilevered movable boom on which said contouring member is mounted, said contouring member being able to be moved toward said base on said boom for spreading and smoothing the uncured concrete.
  - 110. The control system of claim 109 wherein said contouring member is telescopingly mounted to said base.
  - 111. The control system of claim 105 wherein said tracking device emits a laser beam that is reflected by said target back to said tracking device, said tracking device able to determine the distance of said target from said tracking device based on the reflected laser beam.
  - 113. The control system of claim 105 wherein said target is positioned on said contouring member, and said tracking device is positioned remotely from said contouring member and measures the position of said target in three dimensions as said contouring member is moved over the area to be contoured;
    - said tracking device including a transmitter for transmitting the three-dimensional position information of said target to said controller.
  - 114. The control system of claim 105 wherein said tracking device is positioned on said contouring member, and said target is positioned remotely from said contouring member.

115. A method for smoothing material to a desired shape, comprising:
- providing a contouring assembly for contouring said material over a given area, said contouring assembly including a longitudinal dimension and having first and second ends and being supported in at least first and second locations;
  
  providing a base upon which said contouring assembly is movably mounted;
  
  providing a target;
  
  providing a tracking device that tracks said target;
  
  providing a proximity sensor adjacent one of the 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 reference as said contouring assembly moves over the given area, said 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 said material;
  
  measuring the position of one portion of said contouring assembly in three dimensions with said tracking device and target as said contouring assembly moves;
  
  adjusting the height of said first location of said contouring assembly as a function of the stored profile and the three-dimensional position of said one portion of said contouring assembly as measured by said tracking device and target;
  
  adjusting the height of said second location of said contouring assembly as a function of the current height of the proximity sensor above the reference; and
  
  calculating a slope of the 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
  
  tilting said contouring assembly about an axis parallel to the longitudinal dimension of said contouring assembly, said tilting based upon the calculated slope of the stored profile.
- View Dependent Claims (116, 119, 120)
- - 116. The method of claim 115 including positioning said target on said contouring assembly, positioning said tracking device remotely from said contouring assembly, measuring the position of said target in three dimensions with said tracking device as said contouring assembly moves, and adjusting the height of said first location of said contouring assembly as a function of said stored profile and the three-dimensional position of said target.
  - 119. The method of claim 116 wherein said measuring of the position of the target further includes emitting an infrared signal from said target, detecting said infrared signal with said tracking device, and adjusting the direction in which said laser beam is emitted from said tracking device based on said detected infrared signal.
  - 120. The method of claim 115 including positioning said tracking device on said contouring assembly and positioning said target remotely from said contouring assembly.

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Current Assignee
Somero Enterprises Incorporated
Original Assignee
Delaware Capital Formation Incorporated (Dover Corporation), Michigan Technological University
Inventors
Kieranen, Carl B., Simula, Glen R., Waineo, James D., Ruonavaara, Nils P., Hallstrom, Charles A.

Granted Patent

US 7,399,139 B2
Time in Patent Office

Days
Field of Search
US Class Current

404/84.200
CPC Class Codes

E01C 19/006 by laser or ultrasound

E01C 19/40 adapted to impart a smooth ...

Apparatus and method for three-dimensional contouring

First Claim

4 Assignments

0 Petitions

Accused Products

Abstract

Citations

120 Claims

Specification

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Apparatus and method for three-dimensional contouring

First Claim

4 Assignments

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0 Petitions

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Accused Products

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Abstract

Citations

120 Claims

Specification

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Solutions

Use Cases

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