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    • 2. 发明授权
    • Optical modulator holder, optical device, and projector
    • 光学调制器支架,光学设备和投影机
    • US07130136B2
    • 2006-10-31
    • US11018500
    • 2004-12-22
    • Motoyuki FujimoriMasami MurataAkira EgawaSatoshi Kinoshita
    • Motoyuki FujimoriMasami MurataAkira EgawaSatoshi Kinoshita
    • G02B7/02
    • H04N9/3141H04N5/7441H04N9/3144
    • Cooling chambers (R1, R2) for accommodating therein a cooling fluid for cooling a liquid crystal panel (441) are formed inside a pair of frame members (4405, 4406) constituting an optical modulator holder (4402). There are provided, in the pair of frame members (4405, 4406), inlet ports (4405D, 4406D) for inletting a cooling fluid into the cooling chambers (R1, R2), outlet ports (4405E, 4406E) for discharging the cooling fluid inside the cooling chambers (R1, R2) to the outside, and a buffer section (Bf1) for temporally accumulating the cooling fluid flowing therein via the inlet ports (4405D, 4406D) and rectifying a flow direction of the cooling fluid to a direction parallel to an optical modulation face and/or to a direction perpendicular to the optical modulation face.
    • 在构成光学调制器保持器(4402)的一对框架构件(4405,4406)内部形成用于容纳冷却液晶面板(441)的冷却流体的冷却室(R 1,R 2)。 在一对框架构件(4405,4406)中设置有用于将冷却流体引入冷却室(R 1,R 2)的入口端口(4405D,4406D),出口端口(4405E,4406E ),用于将冷却室(R 1,R 2)内部的冷却流体排出到外部;以及缓冲部(Bf 1),用于经由入口(4405D,4406D)在其中流过其中的冷却流体暂时积存并整流 冷却流体朝向与光调制面平行的方向和/或垂直于光调制面的方向的流动方向。
    • 3. 发明申请
    • Cooling unit manufacturing method, cooling unit, optical device and projector
    • 冷却单元制造方法,冷却单元,光学装置和投影仪
    • US20060198150A1
    • 2006-09-07
    • US11335527
    • 2006-01-20
    • Satoshi KinoshitaMakoto ZakojiMotoyuki Fujimori
    • Satoshi KinoshitaMakoto ZakojiMotoyuki Fujimori
    • F21V29/00B21D53/02F28F3/12
    • F28F3/12G03B21/16H04N9/3105H04N9/3144Y10T29/4935
    • A cooling unit including a cooling plate in which a cooling fluid is allowed to flow, the cooling plate has a structure that a pair of plate members are oppositely arranged sandwiching a cooling tube the cooling fluid is to flow, manufactured by a method of manufacturing a cooling unit, the method comprising: A method of manufacturing a cooling unit having a cooling plate in which a cooling fluid is allowed to flow, the cooling plate has a structure that a pair of plate members are oppositely arranged sandwiching a cooling tube the cooling fluid is to flow is disclosed. The method includes: forming a groove for receiving the cooling tube, in at least one opposing surface of the one pair of plate members; and joining each of the one pair of plate members and the cooling tube together by receiving the cooling tube in the groove; wherein, in joining, an external force is applied to at least one of the one pair of plate members whereby deformation is caused in an adjacent point to the groove thereby engaging the adjacent point with the cooling tube.
    • 一种冷却单元,包括冷却流体被允许流动的冷却板,所述冷却板具有一对板构件相对设置的结构,所述一对板构件夹着冷却流体将要流动的冷却管, 冷却单元,所述方法包括:制造具有冷却板的冷却单元的制造方法,在所述冷却单元中具有使冷却流体流动的冷却板,所述冷却板具有将一对板构件相对配置的结构,所述冷却板将冷却管 是流量被披露。 该方法包括:在一对板构件的至少一个相对表面中形成用于接收冷却管的槽; 并且通过在槽中接纳冷却管将一对板构件和冷却管中的每一个连接在一起; 其中,在接合时,外力施加到一对板构件中的至少一个,从而在与槽相邻的点处引起变形,从而使相邻点与冷却管接合。
    • 6. 发明授权
    • Optical device and projector
    • 光学设备和投影机
    • US07537349B2
    • 2009-05-26
    • US11262782
    • 2005-11-01
    • Satoshi KinoshitaMakoto ZakojiMotoyuki Fujimori
    • Satoshi KinoshitaMakoto ZakojiMotoyuki Fujimori
    • G03B21/16G03B21/18H04N5/74G02F1/1333
    • G03B21/16
    • An optical device, includes: an optical modulator that modulates a light beam irradiated by a light source in accordance with image information to form an optical image; an optical modulator holder that has a cooling chamber with cooling fluid sealed therein and holds the optical modulator so that heat can be transferred to the cooling fluid in the cooling chamber; a plurality of fluid circulators communicating with the cooling chamber to guide the cooling fluid to the outside of the cooling chamber and again introduces the cooling fluid into the cooling chamber; a cooling fluid accumulator arranged in a flow path of the cooling fluid in each of the plurality of fluid circulators and having a cooling fluid inflow section that flows the cooling fluid to the inside of the cooling accumulator and a cooling fluid outflow section that flows the cooling fluid to the outside of the cooling accumulator so as to accumulate the cooling fluid in the cooling fluid accumulator; and a fluid press-feeder disposed in the flow path of the cooling fluid in each of the plurality of fluid circulators so that the cooling fluid is forcedly circulated via the plurality of fluid circulators, in which the cooling fluid accumulator includes therein: a bubble trapping having a plurality of holes to circulate the cooling fluid toward the cooling fluid outflow section and trap air bubbles contained in the cooling fluid; and a bubble accumulator that accumulates the air bubbles trapped by the bubble trapping.
    • 一种光学装置,包括:光调制器,其根据图像信息调制由光源照射的光束,以形成光学图像; 光学调制器保持器,其具有密封在其中的冷却流体的冷却室,并保持光学调制器,使得热量可以传递到冷却室中的冷却流体; 多个流体循环器,与冷却室连通,以将冷却流体引导到冷却室的外部,并再次将冷却流体引入冷却室; 冷却液储存器,其布置在所述多个流体循环器中的每一个中的所述冷却流体的流动路径中,并且具有将所述冷却流体流向所述冷却储存器的内部的冷却流体流入部分和使所述冷却流体 流体到冷却蓄能器的外部,以将冷却流体积聚在冷却液蓄液器中; 以及设置在所述多个流体循环器中的每一个中的所述冷却流体的流动路径中的流体加压供给器,使得所述冷却流体经由所述多个流体循环器强制循环,其中所述冷却流体蓄积器包括在其中:气泡捕获 具有多个孔,以使冷却流体朝向冷却流体流出部分循环并且捕获包含在冷却流体中的气泡; 以及一个积聚气泡捕获的气泡的气泡蓄积器。