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    • 6. 发明专利
    • Apparatus for controlling temperature of exhaust gas sensor
    • 用于控制排气传感器温度的装置
    • JP2003294686A
    • 2003-10-15
    • JP2002096299
    • 2002-03-29
    • Honda Motor Co Ltd本田技研工業株式会社
    • YASUI YUJIIWAKI YOSHIHISA
    • G01N27/409F02D41/14F02D45/00G01N27/406G05D23/19G05D23/24G05D23/27
    • G05D23/2401G05D23/1919G05D23/27
    • PROBLEM TO BE SOLVED: To provide an apparatus for controlling the temperature of an exhaust gas sensor capable of stably controlling the temperature of an element of the exhaust gas sensor at a desired temperature even if the temperature of exhaust gases changes. SOLUTION: The temperature of the exhaust gases flowing through an exhaust passage 3 is estimated or detected, and through an estimated value or a detected value the temperature of the element of the exhaust gas sensor 8 (O 2 sensor) is controlled at a predetermined target temperature via a heater. In the case of estimating the temperature of the exhaust gases in the vicinity of a location at which the sensor 8 is arranged, the exhaust passage 3 to the sensor 8 is divided into a plurality of partial exhaust passages 3a-3d, the temperature of the exhaust gases is sequentially estimated at each of the partial exhaust passages 3a-3d from the side of an exhaust port 2 of an engine 1. The temperature of the exhaust gases is estimated by an algorithm in consideration of heat transfer between the exhaust gases and passage forming objects 6a, 6b, and 7 of the exhaust passage 3 and heat radiation to the atmosphere. COPYRIGHT: (C)2004,JPO
    • 要解决的问题:提供一种用于控制排气传感器的温度的装置,其能够即使废气温度改变,也能够在期望的温度下稳定地控制排气传感器的元件的温度。 解决方案:估计或检测流过排气通道3的废气的温度,并且通过估计值或检测值,排气传感器8的元件的温度(O 2 < SB>传感器)通过加热器控制在预定目标温度。 在估计传感器8所在位置附近的排气温度的情况下,传感器8的排气通道3被分成多个部分排气通道3a-3d, 在发动机1的排气口2侧的各个部分排气通路3a-3d中依次推测排气。考虑到废气和通道之间的热传递,通过算法估计废气的温度 形成排气通道3的物体6a,6b和7,并向大气辐射。 版权所有(C)2004,JPO
    • 7. 发明专利
    • Air conditioning device for vehicle, and method and program for controlling air conditioning device for vehicle
    • 用于车辆的空气调节装置,以及用于控制车辆空调装置的方法和程序
    • JP2010089748A
    • 2010-04-22
    • JP2008264338
    • 2008-10-10
    • Mitsubishi Heavy Ind LtdSuzuki Motor Corpスズキ株式会社三菱重工業株式会社
    • SHIROYAMA MASANARITATSUNOI HIDEAKIIZAWA YUKIOTA YASUSHI
    • B60H1/22
    • B60H1/00642B60H1/00735B60H1/0075B60H1/00814B60H2001/00185B60H2001/00192G05D23/27G06F7/00
    • PROBLEM TO BE SOLVED: To control air-conditioning suitable for a physical feeling of an occupant of a vehicle with simple processing. SOLUTION: An air conditioning device for a vehicle having a vehicle interior split into a plurality of air-conditioning zones, is capable of air-conditioning control for each air-conditioning zone independently. The air conditioning device for the vehicle includes a solar radiation sensor for measuring a solar radiation amount of each of adjacent first and second air-conditioning zones, a determination part 100 for determining whether a difference between the solar radiation amount in the first air-conditioning zone and the solar radiation amount in the second air-conditioning zone is within a predetermined range or not, a first control part 101 for equally controlling the air-conditioning in the first and second air-conditioning zones when the difference is within a predetermined range, and a second control part 102 for independently controlling the air-conditioning in the first and second air-conditioning zones, when the difference is out of a predetermined range. COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:通过简单的处理来控制适合于乘员的身体感觉的空调。 解决方案:一种具有分为多个空调区域的车辆内部的用于车辆的空调装置能够独立地对每个空调区域进行空调控制。 用于车辆的空调装置包括用于测量相邻的第一和第二空调区域的太阳辐射量的太阳辐射传感器,确定部件100,用于确定第一空调区域中的太阳辐射量之间的差异 区域和第二空调区域中的太阳辐射量处于预定范围内;第一控制部分101,用于当差在预定范围内时同步地控制第一和第二空调区域中的空调 以及第二控制部102,用于当该差在预定范围之外时独立地控制第一和第二空调区中的空调。 版权所有(C)2010,JPO&INPIT
    • 9. 发明专利
    • Temperature controller, method, and program
    • 温度控制器,方法和程序
    • JP2008102806A
    • 2008-05-01
    • JP2006285830
    • 2006-10-20
    • Sony Corpソニー株式会社
    • OKAMOTO HIROHARU
    • G05D23/00G02F1/13G05D23/19G05D23/20
    • G03B21/16G01J1/0252G05D23/1919G05D23/27
    • PROBLEM TO BE SOLVED: To properly control the temperature of an optical component regardless of type. SOLUTION: An optical component 11 operates according to incident rays of light 21 from a light source 12. A light quantity sensor 31 detects the light quantity of unnecessary rays of light 22 from the light source 12 or leaked rays of light from the optical component 11 which is not shown by a figure. A control unit 32 generates a control command based on the detected light quantity of the light quantity sensor 31. A temperature control unit 15 heats or cools the optical component 11 according to the control command. Thus, the temperature of the optical component 11 is controlled. For example, this invention may be applied to a system required to control temperature of various types of optical components such as an optical component having large temperature difference between the neighborhood of the center where the light quantity concentrates and the peripheral section where temperature detection is possible or an optical component whose temperature can not be detected. COPYRIGHT: (C)2008,JPO&INPIT
    • 要解决的问题:适当地控制光学部件的温度,而不管类型。 解决方案:光学部件11根据来自光源12的入射光线21进行操作。光量传感器31检测来自光源12的不必要的光线22的光量或来自光源12的泄漏的光线 未图示的光学部件11。 控制单元32基于检测到的光量传感器31的光量生成控制命令。温度控制单元15根据控制命令加热或冷却光学部件11。 因此,控制光学部件11的温度。 例如,本发明可以应用于控制各种类型的光学部件的温度的系统,例如在光量集中的中心附近与可能进行温度检测的周边部分之间具有较大温差的光学部件 或者不能检测温度的光学部件。 版权所有(C)2008,JPO&INPIT