| Patent application number | Description | Published |
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| 20100242455 | PARTICULATE MATTER CONCENTRATION MEASURING APPARATUS - A particulate matter concentration measuring apparatus configured to measure a particulate matter concentration in exhaust gas includes an exhaust gas extraction line that is branched from an exhaust line and has a flow passage cross-sectional area smaller than that of the exhaust line, a particulate matter detection filter provided in the exhaust gas extraction line and configured to catch particulate matter, a heating unit configured to heat the caught particulate matter, and a differential pressure detection unit configured to detect a differential pressure generated between an inlet and an outlet of the particulate matter detection filter. The heating unit is configured to apply about 50% or more of a calorific value for heating the particulate matter to an area making up about 30% of the particulate matter detection filter on an upstream side of an exhaust gas flow. | 09-30-2010 |
| 20100242456 | PARTICULATE MATTER CONCENTRATION MEASURING APPARATUS - A particulate matter concentration measuring apparatus configured to measure concentration of particulate matter in exhaust gas passing through an exhaust line includes an exhaust gas collecting line branched from the exhaust line, a particulate matter detection filter provided in the exhaust gas collecting line, a differential pressure sensor configured to sense differential pressure between an inlet and an outlet of the particulate matter detection filter, a passage wall disposed so that the exhaust gas flows to a downstream side of the particulate matter detection filter, an inlet side passage through which the exhaust gas flows into the particulate matter detection filter in the passage wall, and an outlet side passage through which the exhaust gas flows out from the particulate matter detection filter. The outlet side passage has an outlet side cross-sectional area approximately 1.0 times or more larger than an inlet side cross-sectional area of the inlet side passage. | 09-30-2010 |
| 20100242457 | PARTICULATE MATTER CONCENTRATION MEASURING APPARATUS - A particulate matter concentration measuring apparatus is configured to measure a concentration of particulate matter in exhaust gas flowing through an exhaust line of a diesel engine. The apparatus includes an exhaust gas extraction line diverging from the exhaust line and having a flow passage cross-sectional area smaller than a flow passage cross-sectional area of the exhaust line. A particulate matter detection filter has a cell wall and is provided in the exhaust gas extraction line. A flow velocity of the exhaust gas passing through the cell wall is more than or equal to approximately 0.02 m/s and less than or equal to approximately 2.0 m/s. A differential pressure sensing part is configured to sense a differential pressure generated between an inlet and an outlet of the particulate matter detection filter. | 09-30-2010 |
| 20100242463 | PARTICULATE MATTER CONCENTRATION MEASURING APPARATUS - A particulate matter concentration measuring apparatus configured to measure a concentration of a particulate matter in an exhaust gas that flows through a diesel engine exhaust line includes an exhaust gas collecting line, a particulate matter detection filter, and a differential pressure detecting unit. The exhaust gas collecting line branches from the diesel engine exhaust line and includes a flow path cross-sectional area smaller than a flow path cross-sectional area of the diesel engine exhaust line. The particulate matter detection filter is disposed in the exhaust gas collecting line. The differential pressure detecting unit is configured to detect a differential pressure between an inlet and an outlet of the particulate matter detection filter and disposed apart from a downstream end of the particulate matter detection filter in a direction of a flow of the exhaust gas. | 09-30-2010 |
| 20110018077 | SEMICONDUCTOR PRESSURE SENSOR AND ITS MANUFACTURING METHOD - A semiconductor pressure sensor includes a single crystal silicon substrate, a diaphragm, four diaphragm side walls enclosing the diaphragm, and a bridge circuit. The diaphragm is formed in the silicon substrate by etching the silicon substrate from a lower surface side of the silicon substrate. The diaphragm has a (110) plane orientation and a substantially parallelogram shape. The four diaphragm side walls have a (111) plane orientation and form two pairs of substantially parallel and opposite surfaces. The bridge circuit is formed on an upper surface of the silicon substrate. The bridge circuit includes a lead conductor and a strain gauge resistor. The bridge circuit is configured to detect pressure applied to the pressure sensor based on a change in an output value of the bridge circuit corresponding to an amount of flexure produced in the diaphragm by the pressure. | 01-27-2011 |
| 20110061368 | PARTICULATE MATTER SENSOR AND EXHAUST GAS PURIFYING APPARATUS - A particulate matter sensor includes a detection filter, a differential pressure detecting unit, an on-off valve, and a valve control unit. The detection filter is installed in an exhaust passage connected to an internal combustion engine and is configured to detect particulate matter contained in an exhaust gas passing through the exhaust passage. The differential pressure detecting unit is configured to detect a pressure difference between an upstream side and a downstream side of the detection filter. The on-off valve is installed on the upstream side of the detection filter in the exhaust passage and is configured to control a flow of the exhaust gas toward the detection filter. The valve control unit is configured to control the on-off valve to be opened and closed. | 03-17-2011 |
| 20110072789 | PARTICULATE MATTER SENSOR AND EXHAUST GAS PURIFICATION APPARATUS - A particulate matter sensor includes a first detection filter provided in an exhaust gas flow passage and capable of collecting particle matter. A second detection filter is provided on a downstream side of the first detection filter in the exhaust gas flow passage and capable of collecting the particle matter. A first differential pressure detection unit is configured to detect a first differential pressure between pressures of an upstream side and the downstream side of the first detection filter. A second differential pressure detection unit is configured to detect a second differential pressure between pressures of an upstream side and a downstream side of the second detection filter. A particle matter amount detection unit is configured to detect an amount of particle matter based on a detection result of the first differential pressure detection unit and a detection result of the second differential pressure detection unit. | 03-31-2011 |
