초록 ▼

Apparatus for optically checking both the gap between two adjacent parts such as the hood-to-fender fit of a vehicle and the surface flushness of the parts employs a hand-held fixture which is adapted to engage edges of the part in order to orient the fixture in a preselected position relative to th

Apparatus for optically checking both the gap between two adjacent parts such as the hood-to-fender fit of a vehicle and the surface flushness of the parts employs a hand-held fixture which is adapted to engage edges of the part in order to orient the fixture in a preselected position relative to the gap. A laser and related optical system mounted on the fixture directs a line of collimated light onto the parts and across the gap. The optical system and a television camera on the fixture pick up light reflected from the parts surfaces and generate an image using the triangulation technique which contains measurement information relating to the size of the gap and the degree of surface flushness. A computerized controller converts the image to measurement data that is displayed on a CRT. The control system is used in a part fitting method to select and display the identity of any of a plurality of shims which on an assembly person may employ to create proper fit between the parts.

대표청구항 ▼

1. Apparatus for determining the magnitude of the gap between two adjacent, spaced apart surfaces and/or for determining the height of one of said surfaces relative to the other of said surfaces, comprising: a base adapted to be removably supported on at least one of said surfaces first means mo

1. Apparatus for determining the magnitude of the gap between two adjacent, spaced apart surfaces and/or for determining the height of one of said surfaces relative to the other of said surfaces, comprising: a base adapted to be removably supported on at least one of said surfaces first means mounted on said base for delivering a line of collimated light onto said surfaces and transversely across said gap; means for aligning said line of light relative to said gap, said aligning means including means for orienting said base in a preselected position on one of said surfaces; second means mounted on said base for sensing reflections of said line of light from said surfaces and for converting said reflections to electrical signals; means for inhibiting the operation of one of said first and second means until said base is in said preselected position thereof; and third means for calculating the magnitude of said gap and/or the height of said one surface relative to the other of said surfaces using said electrical signals. 2. The apparatus of claim 1, wherein said aligning means includes at least one stop on said base for engaging an edge on at least one of said surfaces, and said inhibiting means includes an electrical switch mounted on said base and operated by the movement of said stop into engagement with said edge. 3. The apparatus of claim 2, wherein said inhibiting means includes an optical shutter for selectively blocking the delivery of collimated light to said surfaces, said shutter being controlled by said electrical switch. 4. The apparatus of claim 1, including a pair of handles connected with said base and adapted to be gripped by a user for moving said base into and away from said preselected position. 5. The apparatus of claim 1, wherein said first means includes a laser source, and said second means includes a video camera. 6. The apparatus of claim 5, wherein said laser source includes a first optical axis along which said collimated light beam is delivered and said video camera includes a second optical axis along which reflected light is received, said first and second optical axes extending substantially parallel to each other. 7. The apparatus of claim 1, including a cathode ray tube for displaying data related to said magnitude of said gap and said height of said one surface and wherein said third means includes a programmed computer. 8. Apparatus for optically inspecting the position of two surfaces relative to each other, said surfaces being spaced apart to define a gap therebetween, comprising: a hand held, portable assembly adapted to be supported on said workpiece surfaces, said assembly including a base plate having a surface engagable with each of said surfaces, a plurality of stops mounted on said base for engaging edges of said surfaces and holding said base plate in a preselected position relative to said surfaces, a source of collimated light, means for directing collimated light from said source onto said workpiece surfaces, means for receiving light reflected from said workpiece surfaces and originating from said source, means for converting the reflected light received by said receiving means to electrical signals; means for converting said electrical signals into data representing the positions of said surfaces relative to each other. 9. The apparatus of claim 10, wherein: said source includes a laser, said converting means includes an array of photosenitive electrically responsive elements each outputting an electrical signal upon receipt thereto of light reflected from said surfaces, said receiving means includes an optical element for directing said reflected light onto said array, and said assembly includes means for mounting said laser and said receiving means on said base plate. 10. The apparatus of claim 9, wherein said laser and said optical element include optical axes along which light is respectively transmitted and received, said optical axes extending substantially parallel to each other. 11. The apparatus of claim 10, wherein: said optical axes extend substantially parallel to said workpiece, and said assembly includes first and second mirrors respectively associated with said optical axes, said first mirror being oriented to reflect light at an angle relative to the corresponding optical axis toward said workpiece surfaces, said second mirror being oriented to reflect light reflected from said workpiece surfaces along the corresponding optical axis toward said optical element. 12. The apparatus of claim 10, including: means for sensing when said base plate is in said preselected position thereof and for producing an electrical control signal when said base plate is in said preselected position thereof, and means responsive to said control signal for controlling the operation of said light source. 13. The apparatus of claim 8, wherein said means for converting the reflected light received by said receiving means to electrical signals includes: means for computing said data in accordance with preprogrammed instructions, a set of preprogrammed instructions for controlling said computing means, and means for displaying said data. 14. Apparatus for successively checking the surface flushness and/or gap between a plurality of pairs of spaced apart surfaces, comprising: a hand held optical checking fixture having surfaces for engaging edge portions of said surfaces to orient said fixture in a preselection position relative to said gap; a pair of handles for shifting said fixture toward and away from said surfaces, means carried by said fixture for directing a line of collimated light onto said part surfaces and across said gap; means carried by said fixture for receiving the light reflected from said surfaces originating from said directing means, the angle of reflection of said reflected light and the width of said reflected light on opposite edges of said gap being respectively related to the flushness and size of said gap; and means for converting said reflected light into data corresponding to the degree of said flushness and/or magnitude of said gap includes a programmed computer and display means for displaying said data, said display means and said computer being mounted stationarily relative to said fixture. 15. For use in assembling a vehicle having a hood or the like positioned between and slightly spaced from a pair of fenders or the like, apparatus for checking the fit between said fenders and said hood, comprising: first and second optical checking fixtures respectively movable into contact with said fenders and portions of said hood for checking the size of the gap between said hood and the corresponding fender and the degree of surface flushness between said hood and the corresponding fender, each of said checking fixtures including means for directing collimated light onto a portion of the surface of said hood and the corresponding fender, means for receiving light reflected from said hood surface and corresponding fender, and means for generating said electrical signals corresponding to position on said surface from which the light is reflected using said reflected light, each of said fixtures includes means for locating the corresponding fixture in a preselected location relative to said hood and the associated fender, said locating means includes at least a pair of stops for respectively engaging an edge of said hood and an edge of the corresponding fender; and means for converting the electrical signals from each of said checking fixtures into data corresponding to the size of said gap and said degree of surface flushness between said hood and each of said fenders. 16. The apparatus of claim 15, wherein said directing means includes means for directing said colimated light into a line of light impinging on said surface and extending transversely across said gap. 17. The apparatus of claim 15, wherein said converting means includes a programmed computer mounted stationary relative to said first and second fixtures. 18. The apparatus of claim 15, including a pair of graphic displays respectively associated with said fixtures for displaying data associated with the corresponding fender-to-hood fit.