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    • 3. 发明专利
    • 中継ボックス
    • JP2017050912A
    • 2017-03-09
    • JP2015170296
    • 2015-08-31
    • オーム電機株式会社
    • 石川 一見
    • H02G15/113
    • 【課題】ケーブルの接続前処理を中継ボックス外部で行うことを可能にし、かつ施工後にケーブルが強固に保持されるとともに、高い防水・防塵性能が得られる中継ボックスを提供する。 【解決手段】中継ボックス本体11は、ケーブルの長手方向とは直交する方向を分割方向とする端子台部21と蓋部22とによって分割形成される。ケーブル貫通部12は、筒状体13と雄ねじ14とを有する。シール材34は、ケーブル貫通部内に設けられた第1のシール部41と、端子台部と蓋部との合わせ面に沿う第2のシール部42とを有する。締付キャップ31は、分割方向にケーブルを出し入れ可能で、第1のシール部に押圧力を付与する。第1のシール部に押圧力が付与されてケーブル貫通部とケーブルとの間がシールされる。第2のシール部が端子台部と蓋部とにより挟まれることによって、端子台部と蓋部との間がシールされる。 【選択図】図4
    • 5. 发明专利
    • Cooler including drain water evaporation function
    • 冷却器包括排水蒸发功能
    • JP2011145012A
    • 2011-07-28
    • JP2010006624
    • 2010-01-15
    • Ohm Denki Kkオーム電機株式会社
    • MIYATA KEISUKE
    • F25D21/14
    • PROBLEM TO BE SOLVED: To provide a cooler including a drain water evaporation function securely evaporating drain water generated in an evaporator and also considering efficiency of heat radiation.
      SOLUTION: Cold air A2 cooled by the evaporator 20 is sent to a heat generating apparatus by a first fan 12. Drain water 30 generated in the evaporator 20 is made to drop down from an opening 17a of a partition wall 17 to a drain pan 32, is heated by a compressor discharge pipe 26 to which a refrigerant is pressure fed from a compressor 22, and is evaporated by outside air A3 from a second fan 15. Drain water 30 made to overflow from the drain pan 32 is heated by a drain evaporation condenser 27 to which a refrigerant is pressure fed from the compressor 22, and is evaporated by the outside air A3 from the second fan 15. Drain water 30 which cannot be evaporated by the drain evaporation condenser 27 is absorbed by a water absorption body 44 and is evaporated by sending air A4 warmed by the compressor 22 and the condenser 28 to the drain water 30.
      COPYRIGHT: (C)2011,JPO&INPIT
    • 要解决的问题:提供一种包括排水蒸发功能的冷却器,其安全地蒸发在蒸发器中产生的排水并且还考虑热辐射的效率。 解决方案:由蒸发器20冷却的冷空气A2通过第一风扇12被送到发热装置。在蒸发器20中产生的排水水从分隔壁17的开口17a下降到 排水盘32由压缩机排出管26加热,制冷剂从压缩机22被加压制冷剂,并由外部空气A3从第二风扇15蒸发。从排水盘32溢出的排水30被加热 由制冷剂从压缩机22供给的排水蒸发冷凝器27被外部空气A3从第二风扇15蒸发。排水蒸发冷凝器27不能蒸发的排水30被水吸收 吸收体44并通过将由压缩机22和冷凝器28加热的空气A4送到排水30而蒸发。版权所有(C)2011,JPO&INPIT
    • 7. 发明专利
    • Detection apparatus and method
    • 检测装置和方法
    • JP2010025806A
    • 2010-02-04
    • JP2008188733
    • 2008-07-22
    • Ohm Denki Kkオーム電機株式会社
    • OKAZAKI TADAO
    • G01B11/10B41J2/01
    • PROBLEM TO BE SOLVED: To detect a size of a particle which moves at an approximately constant speed in a medium such as gas, liquid or the like, by using a simple configuration and a simple arithmetic processing.
      SOLUTION: A detecting method is provided, which includes: detecting a movement speed U of a droplet; preparing holes 44a, 44b each having a prescribed width L in the flying direction of the droplet; acquiring information of an area plural times at each prescribed timing, which is occupied by the droplet in an effective view field of these holes; averaging the acquired area information values A1-An by acquisition counts n; dividing a total period T which is needed for the plural-time acquisition, by a period L/U needed by the droplet to move across the prescribed width L, thereby obtaining a normalized number N representing the acquisition counts n being normalized; obtaining a real particle size S by multiplying the normalized number N by average area information B; and obtaining a real particle volume V by raising the real particle size to 1.5th power.
      COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:通过使用简单的结构和简单的算术处理,来检测在诸如气体,液体等的介质中以大致恒速移动的粒子的尺寸。 解决方案:提供一种检测方法,其包括:检测液滴的移动速度U; 准备在液滴的飞行方向上具有规定宽度L的孔44a,44b; 在这些孔的有效视野中由液滴占据的每个规定的定时获取多次的区域的信息; 通过获取计数n对所获取的区域信息值A1-An进行平均; 将多个时间采集所需的总周期T除以液滴在规定宽度L上移动所需的周期L / U,从而获得表示采集计数n归一化的归一化数量N; 通过将归一化数N乘以平均面积信息B来获得真实粒子大小S; 并通过将真实粒径提高到1.5倍来获得真实粒子体积V. 版权所有(C)2010,JPO&INPIT
    • 8. 发明专利
    • Dispensing device and dispensation method
    • 分配装置和分配方法
    • JP2009294186A
    • 2009-12-17
    • JP2008150891
    • 2008-06-09
    • Ohm Denki Kkオーム電機株式会社
    • OKAZAKI TADAO
    • G01N35/10B01J4/02G01F13/00G01N1/00
    • PROBLEM TO BE SOLVED: To secure traceability of a dispensation amount. SOLUTION: A variation is obtained, between each state value of a microwave when inserting into a cavity resonator, a chip before and after dispensation when dispensing as many as an optional number of shots from the chip, and a dispensation volume of liquid dispensed by the optional number of shots is obtained by applying the variation obtained by a variation acquisition means to a correspondence relation prepared beforehand. The dispensation volume is recorded, and a variation between each state value of the microwave when inserting into the cavity resonator, the chip before and after dispensation when dispensing temporarily as many as a prescribed number of shots from the chip is obtained as a temporary variation, and the mass of the liquid dispensed by the temporary dispensation is measured by a mass meter, and the volume of the liquid dispensed by the temporary dispensation is obtained as a temporary dispensation volume based on the measured mass and the specific gravity of the liquid, and the correspondence relation is adjusted based on the temporary variation and the temporary dispensation volume. COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:确保分配量的可追溯性。 解决方案:当插入空腔谐振器时微波的每个状态值,分配之前和之后的芯片,当从芯片中分配多达可选数量的发射时,获得变化,以及液体的分配体积 通过将由变化获取装置获得的变化应用于事先准备的对应关系来获得可选数量的拍摄。 记录分配体积,并且当插入到空腔谐振器中时微波的每个状态值之间的变化,在分配期间的分配之前和之后的芯片临时分配从芯片预定数量的拍摄获得作为暂时变化, 并且通过质量计测量由临时分配物分配的液体的质量,并且基于测量的液体质量和比重获得临时分配物分配的液体的体积作为临时分配体积,以及 根据临时变更量和临时分配量调整对应关系。 版权所有(C)2010,JPO&INPIT
    • 10. 发明专利
    • Coolant bacteriostatic apparatus
    • 冷藏细菌装置
    • JP2005305331A
    • 2005-11-04
    • JP2004126811
    • 2004-04-22
    • Ohm Denki Kkオーム電機株式会社
    • OKAZAKI TADAO
    • C02F1/32C02F1/72
    • PROBLEM TO BE SOLVED: To provide a coolant bacteriostatic apparatus capable of performing bacteriostatic action without deteriorating a coolant.
      SOLUTION: In the coolant bacteriostatic apparatus, an optically active catalyst is carried on the side face 23 of a rotating drum 20, thereby serving the side face 23 as a bacteriostatic plate. The rotating drum 20 partially immersed in the coolant rotates, thereby allowing the coolant to form a thin film on the surface of the side face 23. Then, the side face 23 as the bacteriostatic plate is irradiated with excitation light, thereby obtaining a bacteriostatic effect by a photocatalytic reaction. The coolant is made thin film on the side face 23, thereby passing the excitation light through the coolant to allow the photocatalytic reaction to be securely initiated and also increasing a reaction area. Therefore, bacteriostatic efficiency becomes excellent.
      COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:提供能够在不使冷却剂劣化的情况下进行抑菌作用的冷却剂抑菌装置。 解决方案:在冷却剂抑菌装置中,光学活性催化剂被承载在旋转滚筒20的侧面23上,从而为侧面23供给抑菌板。 部分浸入冷却剂中的旋转滚筒20旋转,从而允许冷却剂在侧面23的表面上形成薄膜。然后,用激发光照射作为抑菌板的侧面23,从而获得抑菌效果 通过光催化反应。 冷却剂在侧面23上形成薄膜,从而使激发光通过冷却剂,以使光催化反应得到可靠的启动,同时也增加反应面积。 因此,抑菌效果变得优异。 版权所有(C)2006,JPO&NCIPI