| 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 | 用于在定点设备中提供方向补偿的系统和方法 | CN201480007215.4 | 2014-01-15 | CN105103090A | 2015-11-25 | 戈本·梅耶尔 |
| 在一个系统中提供轴方向补偿,其中控制设备的移动被用于通过确定所述控制设备的多个侧中的哪一个为控制设备的作用侧,并根据被确定为是控制设备作用侧的控制设备多个侧面中的一个侧面,通过致使相对于目标装置的X、Y和Z轴中的至少一个的目标装置的导航功能,与控制设备相对于控制设备的A、B和C轴中的至少一个的移动来动态地对齐,从而控制目标设备的导航功能。 | ||||||
| 2 | 用于交互式玩具的水平/位置传感器及相关的电子电路 | CN01803482.9 | 2001-01-05 | CN1418122A | 2003-05-14 | 方瑞麟 |
| 一个传感器,用于一个交互式电子设备。这个传感器包括一个基本组件,在该基本组件中至少形成有一个凹口,该凹口部分地是通过其外围壁而定义的。被放置在这个基本组件的外围墙壁中的至少有一个开关。另外,被放置在这个凹口中的至少有一个触发球,该触发球可以自由地在外围墙壁附近移动。这个传感器可以产生与传感器相对一个参考平面的相应位置相应的至少两个不同的状态。传感器相对参考平面的移动实现了触发球在凹口内的移动,当触发球与这个开关接触时就产生一个状态,而当这个触发球没有与这个开关接触时就产生另一个状态。 | ||||||
| 3 | 井盖无线防盗报警终端 | CN201210417864.4 | 2012-10-26 | CN102930680A | 2013-02-13 | 景晓明 |
| 井盖无线防盗报警终端,具有外盒,外盒由上盖和下盖两部分组成,上盖和下盖螺旋连接,可以很很好的起到防水防潮的作用,外盒的上盖内部设有固定连接结构,固定连接结构通过螺钉分别连接固定电源开关和电路板,外盒的上盖内部设有电源槽,电源槽内装设有电源,电源通过电线与电源开关连接,电源开关通过电线连接电路板,所述电源开关为重力导电球滑轨开关相邻的设有电路板的井盖无线防盗报警终端可以自动组网,电路板通过电线连接天线,上盖内部设有外接电源的连接装置,上盖内部设有连接天线的金属装置,使用重力导电球滑轨开关耗电低,使用安全,可以自动监控井盖的开启状态,根据外界环境自主选择天线的位置,信号好,在恶劣的自然环境下也能正常的使用。 | ||||||
| 4 | 小型倾斜振动传感器及其制造方法 | CN200680038739.5 | 2006-08-17 | CN101292319A | 2008-10-22 | 岛濑照雄 |
| 本发明提供一种小型倾斜振动传感器及其制造方法。该倾斜振动传感器内装有多个电极和导电性球体,利用该球体的移动位移进行接通、断开动作,具体提供一种可大幅度地小型化,并且性能、工作灵敏度较高,且具有耐久性及高可靠性的小型倾斜振动传感器及其制造方法。传感器的壳体主体(1)由壳体主体(5)和气密地封闭该壳体主体的开口部(6)的盖体(7)构成,该壳体主体与盖体分别由可阻止会对由导电性球体的移动位移进行的接通、断开动作带来不良影响的气体透过的、气体屏障性及耐热性优良的非导电性材料形成,及从上述壳体(1)的空洞部(2)内除去会对接通、断开动作带来不良影响的水分及粒子状的杂质,且使该空洞部内成为真空。 | ||||||
| 5 | 开关器件及装备有该开关器件的电子仪表 | CN95108116.0 | 1995-07-07 | CN1053748C | 2000-06-21 | 佐藤宏; 奥山正良; 青木信裕 |
| 当一个电子仪表采取一种预定的姿态时,装在仪表中的一个姿态检测开关19检测该姿态,并输出一个开关信号到CPU15。接着CPU15驱动一个发光器件21去照明一个液晶显示设备17。只在诸如在一个预定的时间间隔内生成了一个预定数目的开关信号脉冲时,或者只在开关信号持续了一个预定的时间隔或以上时,才驱动发光器件21。因此,存在着尽管生成开关信号而不驱动发光器件21的情况。结果,防止了发光器件21操作得过于频繁,并从而延长了其电池的寿命。 | ||||||
| 6 | 井盖无线防盗报警终端 | CN201210417864.4 | 2012-10-26 | CN102930680B | 2015-03-11 | 景晓明 |
| 井盖无线防盗报警终端,具有外盒,外盒由上盖和下盖两部分组成,上盖和下盖螺旋连接,可以很很好的起到防水防潮的作用,外盒的上盖内部设有固定连接结构,固定连接结构通过螺钉分别连接固定电源开关和电路板,外盒的上盖内部设有电源槽,电源槽内装设有电源,电源通过电线与电源开关连接,电源开关通过电线连接电路板,所述电源开关为重力导电球滑轨开关相邻的设有电路板的井盖无线防盗报警终端可以自动组网,电路板通过电线连接天线,上盖内部设有外接电源的连接装置,上盖内部设有连接天线的金属装置,使用重力导电球滑轨开关耗电低,使用安全,可以自动监控井盖的开启状态,根据外界环境自主选择天线的位置,信号好,在恶劣的自然环境下也能正常的使用。 | ||||||
| 7 | 小型倾斜振动传感器及其制造方法 | CN200680038739.5 | 2006-08-17 | CN101292319B | 2011-11-16 | 岛濑照雄 |
| 本发明提供一种小型倾斜振动传感器及其制造方法。该倾斜振动传感器内装有多个电极和导电性球体,利用该球体的移动位移进行接通、断开动作,具体提供一种可大幅度地小型化,并且性能、工作灵敏度较高,且具有耐久性及高可靠性的小型倾斜振动传感器及其制造方法。传感器的壳体主体(1)由壳体主体(5)和气密地封闭该壳体主体的开口部(6)的盖体(7)构成,该壳体主体与盖体分别由可阻止会对由导电性球体的移动位移进行的接通、断开动作带来不良影响的气体透过的、气体屏障性及耐热性优良的非导电性材料形成,及从上述壳体(1)的空洞部(2)内除去会对接通、断开动作带来不良影响的水分及粒子状的杂质,且使该空洞部内成为真空。 | ||||||
| 8 | 倾斜检测器 | CN03104272.4 | 2003-02-08 | CN1222000C | 2005-10-05 | 我妻正; 桑原秀一; 吉田善郎 |
| 本发明提供一种倾斜检测器,能检测多个方向倾斜且能使接触的稳定并提高检测精度。其具有这样的球状可动接点(7),即能滚动地被收纳在第1外壳(1)和第2外壳(4)的收纳部(1a、4a)内,用于和第1固定接点(2)和第2固定接点(5)接触和断开;第1外壳(1)和第2外壳(4)在第1固定接点(2)和第2固定接点(5)互相对置的状态下被固定成一个整体,分开形成第1固定接点(2)和第2固定接点(5)中的任一个,而且可动接点7被布置成横跨在第1和第2固定接点(2、5)上滚动,可动接点(7)和第1及第2固定接点(2、5)的接触部(2d、5d)形成为圆弧状。 | ||||||
| 9 | 用于交互式玩具的水平/位置传感器及相关的电子电路 | CN200410078973.3 | 2001-01-05 | CN1600405A | 2005-03-30 | 方瑞麟 |
| 一个传感器,用于一个交互式电子设备。这个传感器包括一个基本组件,在该基本组件中至少形成有一个凹口,该凹口部分地是通过其外围壁而定义的。被放置在这个基本组件的外围墙壁中的至少有一个开关。另外,被放置在这个凹口中的至少有一个触发球,该触发球可以自由地在外围墙壁附近移动。这个传感器可以产生与传感器相对一个参考平面的相应位置相应的至少两个不同的状态。传感器相对参考平面的移动实现了触发球在凹口内的移动,当触发球与这个开关接触时就产生一个状态,而当这个触发球没有与这个开关接触时就产生另一个状态。 | ||||||
| 10 | 倾斜检测器 | CN03104272.4 | 2003-02-08 | CN1437207A | 2003-08-20 | 我妻正; 桑原秀一; 吉田善郎 |
| 本发明提供一种倾斜检测器,能检测多个方向倾斜且能使接触的稳定并提高检测精度。其具有这样的球状可动接点(7),即能滚动地被收纳在第1外壳(1)和第2外壳(4)的收纳部(1a、4a)内,用于和第1固定接点(2)和第2固定接点(5)接触和断开;第1外壳(1)和第2外壳(4)在第1固定接点(2)和第2固定接点(5)互相对置的状态下被固定成一个整体,分开形成第1固定接点(2)和第2固定接点(5)中的任一个,而且可动接点7被布置成横跨在第1和第2固定接点(2、5)上滚动,可动接点(7)和第1及第2固定接点(2、5)的接触部(2d、5d)形成为圆弧状。 | ||||||
| 11 | 开关器件及装备有该开关器件的电子仪表 | CN95108116.0 | 1995-07-07 | CN1127373A | 1996-07-24 | 佐藤宏; 奥山正良; 青木信裕 |
| 当一个电子仪表采取一种预定的姿态时,装在仪表中的一个姿态检测开关19检测该姿态,并输出一个开关信号到CPU15。接着CPU15驱动一个发光器件21去照明一个液晶显示设备17。只在诸如在一个预定的时间间隔内生成了一个预定数目的开关信号脉冲时,或者只在开关信号持续了一个预定的时间隔或以上时,才驱动发光器件21。因此,存在着尽管生成开关信号而不驱动发光器件21的情况。结果,防止了发光器件21操作得过于频繁,并从而延长了其电池的寿命。 | ||||||
| 12 | Inclination sensor for riding means | JP2004128476 | 2004-04-23 | JP2005308640A | 2005-11-04 | SUZUKI MICHIYUKI |
| PROBLEM TO BE SOLVED: To provide an inclination sensor for a riding means capable of detecting width-directional and longitudinal-directional inclinations of the riding means by one sensor, and capable of dispensing with sensitivity regulation for the inclination detection for respective width and longitudinal directions. SOLUTION: In this inclination sensor for the riding means provided with an inclination sensor main body 1 fixed to a two-wheeled vehicle, a pendulum 2 supported swingably by the inclination sensor main body 1, and swung in response to the inclination of the two-wheeled vehicle, and a magnetic sensor 6 for detecting the presence of the inclination in the two-wheeled vehicle by detecting the swing of the pendulum 2, the pendulum 2 is swung along two axes of the width direction and the longitudinal direction in the two-wheeled vehicle, and width-directional sensitivity is higher than longitudinal-directional one. COPYRIGHT: (C)2006,JPO&NCIPI | ||||||
| 13 | Remote control transmitter | JP19508490 | 1990-07-25 | JP2866162B2 | 1999-03-08 | KURAUSU DEYURUSUTO; RIHYARUTO KURAMAA |
| 14 | Inclination sensor | JP29321895 | 1995-10-05 | JPH08226816A | 1996-09-03 | RIHIARUTO BAURU; PEETERU HOORA; HAINTSU SHIFURU; HANSU SHIYUPIISU; GUIDO BUETSUTSUERU |
| PROBLEM TO BE SOLVED: To obtain an inexpensive sensor for detecting inclination of an apparatus with respect to the horizontal direction effectively comprising at least one sensor element having main sensitivity axis. SOLUTION: The sensor comprises at least two sensor elements 2a, 2b having main sensitivity axes A1, A2 extending on the inclining planes defined by the inclination angles αS 1, αS 2 to be detected. The sensor elements 2a, 2b are arranged at the same angles as the inclination angles αS 1, αS 2 to be detected with respect to the reference plane of the sensor and produce sensor signals related to the inclination angle of the reference plane with respect to the horizontal direction. In order to detect different inclination angles on the same plane, a plurality of pairs of sensor are provided with at least two sensor elements being provided for each inclining plane. The sensor element includes an acceleration sensor, e.g. a G sensor, or a capacitive acceleration sensor and the sensor is used for a land vehicle, a vessel, an aircraft or a crane. COPYRIGHT: (C)1996,JPO | ||||||
| 15 | Small tilt and vibration sensor and a method of manufacturing the same | JP2007531056 | 2006-08-17 | JP4805934B2 | 2011-11-02 | 照雄 嶋瀬 |
| 16 | Inclination detecting device | JP2002030991 | 2002-02-07 | JP2003234050A | 2003-08-22 | AZUMA TADASHI; KUWABARA SHUICHI; YOSHIDA YOSHIO |
| <P>PROBLEM TO BE SOLVED: To provide an inclination detecting device which can carry out detection in multiple directions, and which can achieve improvement in detecting precision with a stable contact property. <P>SOLUTION: A spherical moving contact 7 which is stored in storing parts 1a and 4a of a first case 1 and a second case 4 to be able to be rotated and brought into contact with and separated from a first fixed contact 2 and a second fixed contact 5 is provided. The first case 1 and the second case 4 are fixed integrally in a state where the first fixed contact 2 and the second fixed contact 5 face each other. Either one of the first fixed contact 2 or the second fixed contact 5 is formed divided and the moving contact 7 is installed to be rolled stepping over the first and the second fixed contacts 2 and 5. The contacts 2d and 5d of the moving contact 7 and the first and the second fixed contacts 2 and 5 are formed in arcs. <P>COPYRIGHT: (C)2003,JPO | ||||||
| 17 | Remote control transmitter | JP19508490 | 1990-07-25 | JPH0359923A | 1991-03-14 | KURAUSU DEYURUSUTO; RIHIYARUTO KURAMAA |
| PURPOSE: To transmit/recei a radiation in a desired optional direction by constructing a transmitter to radiate at least four different selecting signals according to the inclination of a housing and attaching the same to the housing. CONSTITUTION: A plurality of inclination switches 7, 8 and 9 and an evaluation circuit 10 for forming a transmission element 4, a transmitter 5, a push button 6 and a function selector 17 are provided on a circuit board 3 connected to a transmitter housing 1. If one or more of the inclination switches 7, 8 and 9 are provided on the circuit board 3 of a remote control transmitter such that operation lines 15 thereof direct different directions, the selector 17 identifies the inclination of the remote control transmitter from a horizontal position as a reference operation position therefor from its output signal regarding all inclining movements for controlling a remote controlled electric device. Thus, no receiver for direct selection is needed for receiving its signal. COPYRIGHT: (C)1991,JPO | ||||||
| 18 | Remote-control transmitter radiating control instruction | JP31312089 | 1989-12-01 | JPH02244898A | 1990-09-28 | KURAUSU DOURUSUTO; GERUTO RAIME |
| PURPOSE: To enable a user to adjust the operating state or operating function of a device controlled from a remote-control transmitter even when the user is inexperienced by providing a transmitting element which radiates a control instruction selected by means of the entrance device of a transmitter based on a transmitting signal generated from a signal converter in a transmitter housing. CONSTITUTION: Gravitational switches 7-9 operate when a transmitter housing is inclined on one side from the horizontal state and, when the inclined angle of the housing is larger than a trigger angle a 0, generate output signals. When none of the switches 7-9 generates their output signals even when a push-button 6 is pressed, a direction signal converter 10 generates the output signal assigned to the standing still position of a remote-control transmitter, because the converter 10 decides that the transmitter is at its reference operating position. The output signal is also used as a control instruction and transmitted to a signal converter 5 so that the signal can be transmitted to a remote-controlled device. Therefore, even an inexperienced user can adjust the operating state or operating function of the remote-controlled device. COPYRIGHT: (C)1990,JPO | ||||||
| 19 | Vibration-sensitive switch | JP2009133203 | 2009-06-02 | JP4912428B2 | 2012-04-11 | 添銘 周 |
| 20 | Vibration sensing switch | JP2009133203 | 2009-06-02 | JP2010135292A | 2010-06-17 | CHOU TIEN-MING |
| <P>PROBLEM TO BE SOLVED: To provide a vibration sensing switch having sufficient detection accuracy, without being excessively sensitive. <P>SOLUTION: This vibration sensing switch includes a housing constituted so that a hollow part is partitioned into a plurality of divisions and the plurality of these divisions are respectively divided into an ordinary position and an abnormal position, a plurality of conductive balls arranged one by one in the plurality of divisions, constituted as the housing in its size, existing in the ordinary position existing in a corresponding division when there is no vibration and operating by moving to the abnormal position existing in the corresponding division or reciprocating between both positions in response to vibration when there is the vibration, and a plurality of sets of terminal units respectively inserted by a pair into the abnormal position in the plurality of divisions from the outside of the housing and transmitting an electric signal by electrically continuing both these insertion end sides by contacting with the corresponding conductive balls when the plurality of conductive balls operate, and is provided for sensing the vibration by electrically continuing both the plurality of conductive balls by contacting with the insertion end side of the terminal unit of the corresponding set when receiving the vibration. <P>COPYRIGHT: (C)2010,JPO&INPIT | ||||||
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