| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 一体式油状态和油位传感器 | CN200880018350.3 | 2008-04-11 | CN101680319B | 2012-08-08 | R·D·凯勒; G·V·贝内克 |
| 提供一种油状态和油位传感器,其包括螺线管主体、线圈、衔铁和磁极件。螺线管主体限定衔铁与磁极件之间的衔铁室。衔铁可响应线圈的通电而在衔铁室中运动。在油状态感测系统,线圈可操作地连接到控制器,该控制器可确定油温、油粘度、油位和换油时间中至少一者。在一个实施例中,可检测到四种油位,包括满油位和过低油位。该传感器称为一体式油状态和油位传感器,因为一个传感器中结合了多个感测功能。 | ||||||
| 2 | 限制物位测量装置 | CN201510816127.5 | 2015-11-23 | CN105698896A | 2016-06-22 | 格尔德·奥迈尔; 约亨·格里斯凯特; 丹尼尔·施伦普 |
| 本发明涉及一种限制物位测量装置(1),以用于监测填料(8)的限制物位,该限制物位测量装置具有能够装配在容器(6)上的限制物位传感器(3),其中,该限制物位传感器(3)具有至少部分包围和/或覆盖机械振动器(9)的保护装置(5)。 | ||||||
| 3 | 一种汽油沾取固定座 | CN201610214635.0 | 2016-04-08 | CN105668061A | 2016-06-15 | 禹伟 |
| 本发明公开了一种汽油沾取固定座,包括插管,插管的一端为自由端,插管的另一端设有安装环,安装环套装有扣座,扣座设有扣槽,扣座的端部设有安装环,插管的轴向设有若干沾取槽。本发明可以将该固定座安装在汽油储液筒的端部,通过沾取槽方便插接沾取杆,通过沾取杆可以探测储液筒内汽油的容量,方便实时检测储液筒内汽油的状况。 | ||||||
| 4 | 还原剂箱及作业车辆 | CN201380002457.X | 2013-09-27 | CN103797192A | 2014-05-14 | 奥田孝造; 大井秀幸 |
| 还原剂箱(9)具有箱主体(91)和液位部件(92)。箱主体(91)储存还原剂。液位部件(92)安装在第一侧板(911)的外侧面上。另外,液位部件(92)为管状,与箱主体(91)的内部连通。液位部件(92)相对于底板(910)倾斜,能够从补给口(93a)对箱主体(91)内进行补给。补给口(93a)和液位部件(92)在俯视时在沿第一侧板(911)的外侧面延伸的方向上并排配置。 | ||||||
| 5 | 还原剂箱及作业车辆 | CN201380002457.X | 2013-09-27 | CN103797192B | 2015-10-21 | 奥田孝造; 大井秀幸 |
| 还原剂箱(9)具有箱主体(91)和液位部件(92)。箱主体(91)储存还原剂。液位部件(92)安装在第一侧板(911)的外侧面上。另外,液位部件(92)为管状,与箱主体(91)的内部连通。液位部件(92)相对于底板(910)倾斜,能够从补给口(93a)对箱主体(91)内进行补给。补给口(93a)和液位部件(92)在俯视时在沿第一侧板(911)的外侧面延伸的方向上并排配置。 | ||||||
| 6 | 一体式油状态和油位传感器 | CN200880018350.3 | 2008-04-11 | CN101680319A | 2010-03-24 | R·D·凯勒; G·V·贝内克 |
| 提供一种油状态和油位传感器,其包括螺线管主体、线圈、衔铁和磁极件。螺线管主体限定衔铁与磁极件之间的衔铁室。衔铁可响应线圈的通电而在衔铁室中运动。在油状态感测系统,线圈可操作地连接到控制器,该控制器可确定油温、油粘度、油位和换油时间中至少一者。在一个实施例中,可检测到四种油位,包括满油位和过低油位。该传感器称为一体式油状态和油位传感器,因为一个传感器中结合了多个感测功能。 | ||||||
| 7 | Integrated sensor for detecting the oil of the state and the level | JP2010502603 | 2008-04-11 | JP2010523893A | 2010-07-15 | ロバート ディーン ケラー,; ジェリット ヴイ. ベネカー, |
| 【解決手段】オイルの状態とレベルのセンサは、ソレノイド本体、コイル、アーマチュア、および極片を含んでいる。 ソレノイド本体はアーマチュアと極片との間にアーマチュアチャンバを形成する。 アーマチュアは、コイルの励起に反応してアーマチュアチャンバ内で移動可能となっている。 オイルの状態を検知するシステムにおいて、コイルは、オイルの温度、オイルの粘性、オイルのレベル、およびオイル交換発生の内の少なくとも一つを決定するコントローラと接続されている。 実施の形態では、入れ過ぎオイルレベルと極端な低オイルレベルを含む、4つのオイルレベルを検知することができる。 センサは、複数の検知機能が一つのセンサの中に統合されているものと同様に、オイルの状態とレベルの検知するセンサが統合されたものとして引き合いに出されている。 | ||||||
| 8 | Liquid level detection system using capillary | JP2002161161 | 2002-06-03 | JP2004003905A | 2004-01-08 | TOKI IKUO |
| PROBLEM TO BE SOLVED: To provide a miniaturizable liquid level detection system having excellent sensitivity. SOLUTION: An upright capillary 20 is arranged over the liquid level moving up and down corresponding to the liquid quantity, and a heat sensor (electrical resistor) 30 is mounted on the capillary 20. When the liquid level 50 rises and reaches the lower end 24 of the capillary 20, the liquid rises in the capillary 20 by capillary phenomenon. When the liquid rising in the capillary 20 reaches the position of the heat sensor 30, the heat sensor 30 senses a temperature change, to thereby detect the liquid level. COPYRIGHT: (C)2004,JPO | ||||||
| 9 | Washer tank | JP15339888 | 1988-11-24 | JPH0741646Y2 | 1995-09-27 | 和彦 永井 |
| 10 | METHOD AND APPARATUS FOR A PRODUCT DISPLACEMENT SENSING DEVICE | EP05854843 | 2005-12-21 | EP1848980A4 | 2009-08-19 | CHADWELL THOMAS J; ROMANYSZYN MICHAEL T; VIRA JOHN |
| A displacement sensing device transduces deflection of a body disposed around a conduit into complementary signals indicative of the amount of displacement experienced by the conduit. The displacement sensing device includes a cuff and a sensor disposed on an outer periphery of the cuff, and may further include a controller in communication with the sensor, such that the controller receives signals from the sensor and compares the current signals to a normal operating range. The normal operating range may be predetermined or derived based on trends, thereby allowing the controller to adapt to any product disposed within the conduit. Once the range is determined, the controller is able to discern when the product system is out of product, or operating at elevated pressures. In alternative embodiments, a pumping device or an inductor may generate a recognizable wave pattern that may be monitored to determine if the product system contains product. | ||||||
| 11 | A LIQUID SENSING APPARATUS FOR A LIQUID CONTAINER FOR SUPPLYING A LIQUID TO A LIQUID CONSUMING APPARATUS, AND A LIQUID CONTAINER IN WHICH THE LIQUID SENSING APPARATUS IS BUILT | EP05809372.5 | 2005-11-15 | EP1812240A1 | 2007-08-01 | USUI, Minoru c/o Seiko Epson Corporation; KOSHINO, Kazuo c/o Seiko Epson Corporation; KIMURA, Hitotoshi c/o Seiko Epson Corporation |
| A liquid sensing apparatus includes a liquid sensing chamber 33 having a liquid inlet port that is in communication with an external liquid container in which a liquid is reserved, and a liquid outlet port that is in communication with a ,liquid consuming apparatus, a movable member 34 movable depending on a liquid level in the liquid sensing chamber 33, a recess portion 33b, 41a for cooperating with a wall surface of the movable member 34 to form a closed space when the movable member 34 is moved to a predetermined position depending the liquid level, and a piezoelectric sensing means 40 for applying a vibration to the recess portion and sensing a state of a free vibration following upon the vibration. (FIG.2) | ||||||
| 12 | Reducing agent tank, and a work vehicle | JP2013547749 | 2013-09-27 | JP5501537B1 | 2014-05-21 | 孝造 奥田; 秀幸 大井 |
| 還元剤タンク(9)は、タンク本体(91)と、ゲージ部材(92)とを備える。 タンク本体(91)は、還元剤を貯留する。 ゲージ部材(92)は、第1側板(911)の外側面に取り付けられる。 また、ゲージ部材(92)は、管状であって、タンク本体(91)の内部と連通する。 ゲージ部材(92)は、底板(910)に対して傾斜している。 タンク本体(91)には、補給口(93a)から還元剤を補給可能である。 補給口(93a)とゲージ部材(92)とは、平面視において、第1側板(911)の外側面に沿った方向に並んで配置される。 | ||||||
| 13 | Control method of condensing steam turbine and the liquid level with the liquid level detection device | JP2010545360 | 2008-11-03 | JP5185398B2 | 2013-04-17 | ベルンハルト・ラーデマッハー; ホルガー・ブッシュマン |
| 14 | Liquid detecting device for a liquid container for supplying liquid to the liquid consuming apparatus, and a liquid container with a built-in liquid detection device | JP2005285813 | 2005-09-30 | JP4706421B2 | 2011-06-22 | 仁俊 木村; 稔 碓井; 一夫 越野 |
| 15 | Control method of condensing steam turbine and the liquid level with the liquid level detection device | JP2010545360 | 2008-11-03 | JP2011517742A | 2011-06-16 | ベルンハルト・ラーデマッハー; ホルガー・ブッシュマン |
| 凝縮蒸気タービンは、当該凝縮蒸気タービンの復水作動流体(10)を貯蔵するための復水貯蔵タンク(1)と、当該復水貯蔵タンク内の液位を検出するための液位検出装置とを備えている。 液位検出装置は、復水貯蔵タンク内の第1の高さの、復水作動流体(10)の第1圧力(P1)を検出するための第1圧力検出装置(2)と、復水貯蔵タンク内の第2の高さ上方の第2圧力(P0)を検出するための第2圧力検出装置(3)と、第1圧力と第2圧力との圧力差(ΔP)を形成しかつ当該圧力差に対応する出力信号を出力するための分析装置とを備えている。 | ||||||
| 16 | Liquid sensor device for liquid storing container supplying liquid to liquid consuming device, and liquid storing container with liquid sensor device | JP2005285813 | 2005-09-30 | JP2006160371A | 2006-06-22 | USUI MINORU; ETSUNO KAZUO; KIMURA KIMITOSHI |
| <P>PROBLEM TO BE SOLVED: To detect the residual amount of liquid reduced to a predetermined amount or lower. <P>SOLUTION: This device comprises a liquid detecting chamber 33 provided with a liquid inlet communicating with an external liquid storing part having liquid stored therein and a liquid outlet communicating with a liquid consuming device, a moving member 34 moved in response to a liquid surface level in the liquid sensor chamber 33, recesses 33b, 41a forming a closed space in cooperation with the wall surface of the moving member 34 under a state when the moving member 34 is moved to a predetermined position in response to the liquid surface level, and a piezoelectric detecting means 40 for applying vibration to the recesses and detecting a free vibrating state accompanying the vibration. <P>COPYRIGHT: (C)2006,JPO&NCIPI | ||||||
| 17 | KONDENSATIONSDAMPFTURBINE MIT FÜLLSTANDSFASSUNGSEINRICHTUNG UND VERFAHREN ZUR REGELUNG DES FÜLLSTANDES | EP08872370.5 | 2008-11-03 | EP2443323B1 | 2016-08-03 | RADEMACHER, Bernhard; BUSCHMANN, Holger |
| 18 | Grenzstandmessanordnung | EP14197005.3 | 2014-12-09 | EP3032229A1 | 2016-06-15 | Ohmayer, Gerd; Grischkat, Jochen; Schrempp, Daniel |
Grenzstandmessanordnung (1) zur Überwachung eines Grenzstands eines Füllgutes (8) mit einem an einem Behälter (6) montierbaren Grenzstandsensor (3), wobei der Grenzstandsensor (3) eine den mechanischen Schwinger (9) wenigstens teilweise umgreifende und/oder übergreifende Schutzeinrichtung (5) aufweist.
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| 19 | A LIQUID SENSING APPARATUS FOR A LIQUID CONTAINER FOR SUPPLYING A LIQUID TO A LIQUID CONSUMING APPARATUS, AND A LIQUID CONTAINER IN WHICH THE LIQUID SENSING APPARATUS IS BUILT | EP05809372 | 2005-11-15 | EP1812240A4 | 2009-04-29 | USUI MINORU; KOSHINO KAZUO; KIMURA HITOTOSHI |
| A liquid sensing apparatus includes a liquid sensing chamber 33 having a liquid inlet port that is in communication with an external liquid container in which a liquid is reserved, and a liquid outlet port that is in communication with a <SUP>,</SUP>liquid consuming apparatus, a movable member 34 movable depending on a liquid level in the liquid sensing chamber 33, a recess portion 33b, 41a for cooperating with a wall surface of the movable member 34 to form a closed space when the movable member 34 is moved to a predetermined position depending the liquid level, and a piezoelectric sensing means 40 for applying a vibration to the recess portion and sensing a state of a free vibration following upon the vibration. (FIG.2) | ||||||
| 20 | METHOD AND APPARATUS FOR A PRODUCT DISPLACEMENT SENSING DEVICE | EP05854843.9 | 2005-12-21 | EP1848980A2 | 2007-10-31 | CHADWELL, Thomas, J.; ROMANYSZYN, Michael, T.; VIRA, John |
| A displacement sensing device (100) transduces deflection of a body disposed around a conduit into complementary signals indicative of the amount of displacement experienced by the conduit. The displacement sensing device includes a cuff (105) and a sensor (106) disposed on an outer periphery of the cuff, and may further include a controller in communication with the sensor, such that the controller receives signals from the sensor and c,τ- spares the current signals to a normal operating range. The normal operating range may be predetermined or derived based on trends, thereby allowing the controller (112) to adapt to any product disposed within the conduit. Once the range is determined, the controller is able to discern when the product system is out of product, or operating at elevated pressures. In alternative embodiments, a pumping device or an inductor may generate a recognizable wave pattern that may be monitored to determine if the product system contains product. | ||||||
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