Patent application number | Description | Published |
20090017362 | Cell Laminate and Fuel Cell Provided with the Same - There is realized a structure particularly suitable for inhibiting deformation of separators having a structure where the shapes of projections and recesses are inverted from each other on the front side and the back side of each separator as in a pressed metal separator. Between adjacent separators, there is formed either a power generation region where MEAs and frame members for holding at least a part of the MEAs are inserted or a refrigerant flow region where neither the MEAs nor the frame members are inserted. A deformation inhibiting region for inhibiting deformation of each separator is formed by a projection provided on the separator. Also, a projection for inhibiting the separator from deforming at the deformation inhibiting region or nearby is formed on each frame member. The projection is projected toward the back side of the deformation inhibiting region, where the deformation inhibiting region is a recess on the back side of the separator. | 01-15-2009 |
20090269640 | SEPARATOR FOR FUEL CELL - Miniaturization is achieved when a membrane-electrode assembly (MEA) is provided with a cutout, and the flow of a fluid is further smoothened. To realize this, in a separator for a fuel cell according to the present invention, a portion of the contour of a manifold formed in the separator corresponding to a cutout of the membrane-electrode assembly is formed into a shape along the cutout, and a reactant gas or a coolant is supplied or discharged through a portion formed into the shape along the cutout. The cutout is, for example, a corner cut provided in the corner of the membrane-electrode assembly and forming the membrane-electrode assembly into an asymmetric shape. A portion of the contour of the manifold facing this corner cut is preferably formed substantially in parallel with the edge of the corner cut. | 10-29-2009 |
20090286136 | FUEL CELL AND SEPARATOR FOR THE SAME - The contraction and deformation of a seal member are inhibited. To realize this, in a separator in which the shapes of projections and recesses forming at least fluid passages are inverted from each other on the front surface and the back surface of the separator and which is provided with a manifold for supplying and discharging a fluid, the separator, when a seal member for sealing the fluid is provided along the edge side of the separator forming the contour of the manifold, a projecting section capable of functioning as a spacer between the separator and another member adjacent to the separator is provided between the seal member and the edge side. | 11-19-2009 |
Patent application number | Description | Published |
20090102918 | MICROSCOPE IMAGE PICKUP SYSTEM - A microscope image pickup system includes: alight source; an object lens; a display device; a record device; a capture device for performing a preview mode in which an image of the test object obtained by the object lens is repeatedly captured and a plurality of captured images are continuously displayed on the display device, or an image record mode in which the image of the test object is captured and the captured image is recorded on the record device; an illumination light amount control device for controlling the amount of light of the illumination light; and a system control device for controlling an operation of the illumination light amount control device depending on the preview mode or the image record mode performed by the capture device. | 04-23-2009 |
20090141127 | IMAGE PROCESSING SYSTEM, IMAGING SYSTEM, AND MICROSCOPE IMAGING SYSTEM - An image processing system comprising an image data acquisition unit for acquiring captured image data, with a first image processing unit for performing first image processing relating to color correction and gradation correction on the image data, a second image processing unit for performing second image processing relating to color correction based on a Color Appearance Model on the image data, a parameter calculation unit for calculating an image processing parameter used in the first image processing from the image data before the second image processing and the image data after the second image processing, and a control unit for setting the image processing parameter to the first image processing unit. | 06-04-2009 |
20090309963 | MICROSCOPE IMAGING SYSTEM, ITS STORAGE MEDIUM STORING EXPOSURE ADJUSTMENT PROGRAM, AND ITS METHOD - A microscope imaging system includes obtaining a second image area being a focus area composed of one or more pixels arbitrarily specified in a first image area indicated by an entire area or a predetermined area of an outputted image; generating a first brightness histogram of the first image area and a second brightness histogram of the second image area; calculating a relative brightness value of the second image area against the first image area by detecting a feature point of the second brightness histogram and calculating a position corresponding to a feature point of the second brightness histogram in the first brightness histogram; and controlling an imaging drive unit for driving an imaging unit until the brightness value reaches the calculated one. | 12-17-2009 |
20100157042 | IMAGE DATA PROCESSING DEVICE, ITS STORAGE MEDIUM, AND ITS METHOD - An image data processing includes: obtaining first image data; outputting the first image data to the image display devices; obtaining an attention area composed of one or more arbitrarily specified pixels from the first image outputted to the image display devices ; displaying a color chart whose hue and chroma are gradually changed toward around the color corresponding to the image data of the attention area; obtaining arbitrarily selected color information from the displayed color chart; obtaining a plurality of combinations of the attention area and the color information corresponding to the attention area and calculating a color parameter on the basis of the obtained plurality of combinations; converting the color of the obtained image data on the basis of the color parameter; and outputting the image data whose color is converted, to the image display devices as a second image. | 06-24-2010 |
20100188497 | MICROSCOPIC IMAGE CAPTURING APPARATUS, MICROSCOPIC IMAGE CAPTURING METHOD, AND STORAGE MEDIUM HAVING A MICROSCOPE IMAGE CAPTURING PROGRAM STORED THEREON - In a correction data storing unit of a digital camera which captures a microscopic image, image data of a light image without a sample, image data obtained by using a filter for removing a defective portion for the light image without a sample, image data where a region without being corrected (or a region being corrected) is set in the light image without the sample, and shading correction data calculated from image data obtained by setting a mask region where data after being corrected is set to 0 are stored. An operator obtains, captures, records, and stores an observation image satisfactory for great-looking by using arbitrary shading correction data. In this way, a captured image satisfactory for great-looking is obtained by making a suitable shading correction according to a shading characteristic, which is caused by an optical system. | 07-29-2010 |
20110102578 | IMAGING APPARATUS AND IMAGE GENERATING METHOD - An imaging apparatus includes: an imaging unit for capturing an image of a fluorescent sample; a pixel shift unit for changing the relative position of the imaging unit for the image; an image correction unit for correcting the gray-scale levels of plural pieces of image data using the histograms of the image data acquired by the imaging unit at different relative positions; and an image combination unit for combining the plural pieces of image data corrected by the image correction unit. | 05-05-2011 |
20130329033 | MICROSCOPE SYSTEM - A microscope system comprises: a stage carrying a sample; an optical system forming an sample image; a driver driving at least the optical system or stage to relatively moves the sample and optical system; an imaging section capturing a reference viewing field image as an image of a predetermined viewing field range of the sample and peripheral viewing field images each being an image of a peripheral viewing field range containing a predetermined region in the predetermined viewing field range and different from the predetermined viewing field range, by the driver moving the relative position of the sample; a correction gain calculator calculating a correction gain of each pixel of the reference viewing field image based on the reference viewing field image and peripheral viewing field image; and a corrector performing shading correction on the reference viewing field image based on the calculated correction gain. | 12-12-2013 |