In a camera to which the present invention is applied, a camera body having a pop-up ST unit attached thereto is sandwiched between front and back covers. A plugged rubber arranged inside the back cover is pressed by a front cover rib provided on the front cover in the state in which the front and b
In a camera to which the present invention is applied, a camera body having a pop-up ST unit attached thereto is sandwiched between front and back covers. A plugged rubber arranged inside the back cover is pressed by a front cover rib provided on the front cover in the state in which the front and back covers are joined to each other, whereby the front and back covers are kept liquid-tight to each other. Moreover, an ST rubber arranged on the periphery of the ST body is pressed by the front cover rib in the state in which the ST body is sandwiched between the front and back covers, whereby the front cover, the back cover, and the ST body are kept liquid-tight to one another. Simultaneously, the ST rubber is pressed by a cover rib provided on the back cover, whereby the back cover and the ST body are kept liquid-tight to each other. Thus, the water-proofing function can be secured among the three members, that is, the front cover, the back cover, and the ST body.
대표청구항▼
In a camera to which the present invention is applied, a camera body having a pop-up ST unit attached thereto is sandwiched between front and back covers. A plugged rubber arranged inside the back cover is pressed by a front cover rib provided on the front cover in the state in which the front and b
In a camera to which the present invention is applied, a camera body having a pop-up ST unit attached thereto is sandwiched between front and back covers. A plugged rubber arranged inside the back cover is pressed by a front cover rib provided on the front cover in the state in which the front and back covers are joined to each other, whereby the front and back covers are kept liquid-tight to each other. Moreover, an ST rubber arranged on the periphery of the ST body is pressed by the front cover rib in the state in which the ST body is sandwiched between the front and back covers, whereby the front cover, the back cover, and the ST body are kept liquid-tight to one another. Simultaneously, the ST rubber is pressed by a cover rib provided on the back cover, whereby the back cover and the ST body are kept liquid-tight to each other. Thus, the water-proofing function can be secured among the three members, that is, the front cover, the back cover, and the ST body. measuring space; a viewing subsystem for collecting the light reflected by said object in said measuring space and for generating a three-dimensional topography of said object using in depth chromatic coding of said object; and an image processor for processing a registered image into a digitized contour line. 2. The optoelectronic system of claim 1 wherein said illuminating subsystem includes: a polychromatic light source; a source slit illuminated by said light source; optics for imaging said light source onto said source slit; and a dispersing element for passing said slit image into said measuring space with a continuum of monochromatic images, wherein said object located in said measuring space. 3. The optoelectronic system of claim 2 wherein said viewing subsystem includes an imaging spectrograph having a viewing slit for forming an image plane, whereby an image of the surface of said object aligns with said image plane, and an imaging array located in said image plane for registering said image. 4. The optoelectronic system of claim 3 further comprising relay optics positioned in said image plane for projecting said image onto said viewing slit. 5. The optoelectronic system of claim 1 further comprising a mechanical means for translating said object within said measuring space, wherein said object is fastened to said mechanical means, and an electronic controller for driving and synchronizing said mechanical means. 6. The optoelectronic system of claim 3 wherein a z-axis is defined in said measuring space along the depth dimension of said object, wherein said source slit and said viewing slit are in parallel alignment by rotating said viewing subsystem 90° about said z-axis, thereby utilizing the entire spectrum of wavelengths from said light source to determine a depth measurement of said object. 7. The optoelectronic system of claim 3 wherein said viewing subsystem includes: a first beam splitter interposed in said image plane between said viewing slit and said dispersing element for generating a direct slit image; and at least one imaging array for viewing both a dispersed image having passed through said dispersing element and said direct slit image, whereby said direct slit image is used to compensate for apparent wavelength shifts in said dispersed image. 8. An optoelectronic device for surface digitization of an object using spatiochromatic triangulation, said device comprising: a polychromatic light source; relay optics positioned in an illuminating plane of said light source for imaging said light source onto a source slit; a concave diffraction grating for illuminating a measuring space with a continuum of monochromatic images along a measuring cutting plane providing in depth chromatic coding of said object, wherein said object located in said measuring space; an imaging spectrograph having a viewing slit whose image plane aligns with an image generated by the intersection of said cutting plane and the surface of said object; and a grayscale imaging array located in said image plane of said spectrograph for registering said image. 9. The optoelectronic system of claim 8 wherein said source slit is further defined as a pinhole for forming point images. 10. The optoelectronic system of claim 8 further comprising a telecentric relay lens for projecting said image onto said viewing slit. 11. The optoelectronic system of claim 8 further comprising a relay lens for projecting said image onto said viewing slit and an image processor for correcting perspective distortion. 12. The optoelectronic system of claim 8 further comprising an image processor coupled to said imaging array for processing said registered image using spectrophotometric analysis and generating a digitized contour line from said object. 13. The optoelectronic system of claim 8 further comprising a mechanical means for translating said object within said measuring space and an electronic controller for driving and synchr onizing said mechanical means, wherein said object is fastened to said mechanical means and by translating said object a plurality of images are registered along successive parallel cutting planes to reconstruct a topography of said object. 14. A method for surface digitization of an object using spatiochromatic triangulation, comprising: imaging a light source onto a source slit; illuminating a measuring space with a continuum of monochromatic images by passing said slit image through a dispersing element; providing in depth chromatic coding of said object, where said object located in said measuring space; and registering an image of the surface of said object which aligns with image plane on an image spectrograph. 15. The method of claim 14 wherein said imaging spectrograph includes an imaging array located in said image plane for registering said image. 16. The method of claim 14 further comprising the step of generating a digitized contour line from said object using spectrophotometric analysis. 17. The method of claim 16 wherein an image processor is coupled to said imaging array for processing said image into a digitized contour line. 18. The method of claim 14 further comprising the step of translating said object within a measuring space using a mechanical means, whereby translating said object a plurality of images are registered along successive parallel cutting planes to reconstruct a topography of said object.
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이 특허에 인용된 특허 (1)
Okumura Koichi,JPX ; Kawaji Tomohiko,JPX, Waterproof mechanism, sealing member, and camera including the same.
Lawson, Rebecca; Rayeski, Jonathan B.; Holmes, Larry; Smith, W. Travis; Fitzgerald, John P.; Weller, Lucas B.; Witter, Kevin W.; Gronewoller, Peter J., Protective case with compartment.
Liu, Feng S.; Popa, III, George N.; Clarke, Alan D.; Brown, Rodney; McCray, Dennis J.; Borra, Jeffrey M., Waterproof housing for mobile electronic device and waterproof adapter for accessory device.
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