子分类:
| 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 | 闪光发生器以及具有识别电子器件的闪光灯头和延伸电缆 | CN201680013172.X | 2016-02-25 | CN107430317A | 2017-12-01 | 安东·法尔克; 乌尔夫·卡尔森 |
| 本公开内容涉及一种闪光发生器10,其能够识别连接至闪光发生器20的闪光灯头20及闪光灯头延伸电缆30是哪种类型。此外,本公开内容涉及可以由闪光发生器20识别的闪光灯头20及闪光灯头延伸电缆30。该目标由给闪光灯头20提供功率供给的闪光发生器10获得。此外,闪光发生器10包括用于对电容器12充电的第一电流发生器13。闪光发生器10还包括第二电流发生器或电压发生器14,其连接至闪光发生器10的输出端11,15并且被布置成提供电流或电压以在连接至闪光发生器10的闪光灯头20或闪光灯头延伸电缆30中的部件22,32两端产生电压UID。处理装置16被布置成通过所测量的电压UID来识别闪光灯头20或闪光灯头延伸电缆30。 | ||||||
| 2 | 用于清洁通电设备的工具 | CN202280059283.X | 2022-07-14 | CN117957072A | 2024-04-30 | B·弗莱明; E·汉特 |
| 一种用于清洁通电设备的工具。该工具具有细长管状主体,该细长管状主体在第一端处具有流体输入并且在第二端处具有喷嘴适配器。喷嘴的第一端可固定至喷嘴适配器。孔延伸穿过主体并终止于喷嘴第二端处的流体输出处。穿过主体、流体输入和喷嘴适配器的孔具有大致圆形横截面。流体输入具有流体输入过渡部,以在朝向管状主体的方向上减小穿过其中的孔的横截面直径。穿过喷嘴的孔具有过渡部,以将穿过喷嘴的孔的横截面形状从大致圆形改变为在流体输出处的大致矩形。输送到流体输入的加压清洁流体以具有大致矩形横截面的流的形式传过流体输出。 | ||||||
| 3 | 闪光发生器以及具有识别电子器件的闪光灯头和延伸电缆 | CN201680013172.X | 2016-02-25 | CN107430317B | 2020-07-03 | 安东·法尔克; 乌尔夫·卡尔森 |
| 本公开内容涉及一种闪光发生器10,其能够识别连接至闪光发生器20的闪光灯头20及闪光灯头延伸电缆30是哪种类型。此外,本公开内容涉及可以由闪光发生器20识别的闪光灯头20及闪光灯头延伸电缆30。该目标由给闪光灯头20提供功率供给的闪光发生器10获得。此外,闪光发生器10包括用于对电容器12充电的第一电流发生器13。闪光发生器10还包括第二电流发生器或电压发生器14,其连接至闪光发生器10的输出端11,15并且被布置成提供电流或电压以在连接至闪光发生器10的闪光灯头20或闪光灯头延伸电缆30中的部件22,32两端产生电压UID。处理装置16被布置成通过所测量的电压UID来识别闪光灯头20或闪光灯头延伸电缆30。 | ||||||
| 4 | 印刷线路板液态导热介质中脱焊分离器件的方法及装置 | CN200610039196.0 | 2006-03-23 | CN100496192C | 2009-06-03 | 宋守许; 潘君齐; 刘志峰; 刘光复; 胡张喜 |
| 印刷线路板液态导热介质中脱焊分离器件的方法及装置,其特征是将焊接有元器件的待处理线路板浸没在液态导热介质中,保持液态导热介质在使焊锡熔化的温度上,待焊锡熔化后分别收集焊锡、线路板和元器件。本发明提供了一种可降低能耗、无有毒有害气体的挥发、元器件脱落率高、焊锡去除率高、元器件损坏率低的印刷线路板脱焊分离器件的方法,实施该方法的装置简单易行。 | ||||||
| 5 | 印刷线路板液态导热介质中脱焊分离器件的方法及装置 | CN200610039196.0 | 2006-03-23 | CN1832663A | 2006-09-13 | 宋守许; 潘君齐; 刘志峰; 刘光复; 胡张喜 |
| 印刷线路板液态导热介质中脱焊分离器件的方法及装置,其特征是将焊接有元器件的待处理线路板浸没在液态导热介质中,保持液态导热介质在使焊锡熔化的温度上,待焊锡熔化后分别收集焊锡、线路板和元器件。本发明提供了一种可降低能耗、无有毒有害气体的挥发、元器件脱落率高、焊锡去除率高、元器件损坏率低的印刷线路板脱焊分离器件的方法,实施该方法的装置简单易行。 | ||||||
| 6 | 印刷线路板液态导热介质中脱焊分离器件的装置 | CN200620070833.6 | 2006-03-23 | CN2904571Y | 2007-05-23 | 宋守许; 潘君齐; 刘志峰; 刘光复; 胡张喜 |
| 印刷线路板液态导热介质中脱焊分离器件的装置,其特征是设置可温控的加热槽,导热介质盛放在加热槽中,加热槽的底部设置超声波振子,用于夹持线路板的夹具在加热槽的两侧分别通过夹持臂悬吊在旋转臂的前端,旋转臂的尾端以铰接的方式支承在固定支架上。本实用新型提供了一种可降低能耗、无有毒有害气体的挥发、元器件脱落率高、焊锡去除率高、元器件损坏率低的印刷线路板脱焊分离器件的装置,该装置结构简单,易于实施。 | ||||||
| 7 | 思考を分からなくする方法 | JP2018210941 | 2018-10-01 | JP2020058009A | 2020-04-09 | 三宅 正宏 |
| 【課題】思考を分からないようにするために周波数を520MHzに変換する。 【解決手段】Visual Basicを用いて周波数を520MHzに変換する。 【選択図】なし |
||||||
| 8 | Wire-Based Flat Panel Displays | US11609220 | 2006-12-11 | US20070289768A1 | 2007-12-20 | Chad Moore; Giacomo Piazza |
| An effective method to create very large electronic displays forms the structure using fiber or tube arrays or electroded sheets containing wire electrodes. The electroded sheets are formed by embedding wire electrodes into the surface of a polymer substrate and electrically connecting a patterned transparent conductive electrode lines to the wires. The wire electrodes are used to carry the bulk of the current and the transparent conductive electrode is used to spread the charge or voltage from the wire electrode across the line of pixels. In most display applications, the electroded surface of the electroded sheet has to be flattened. The electroded sheets may be used to form many different types of displays. | ||||||
| 9 | 携帯電話電話 | JP2021201218 | 2021-10-21 | JP2023062649A | 2023-05-08 | TANAKA KANA |
| 【構成】携帯電話【選択図】図1 | ||||||
| 10 | Electric circuit and wave-function expressing method | JP2008079805 | 2008-03-26 | JP2009239402A | 2009-10-15 | NAKAJIMA HIROKI |
| PROBLEM TO BE SOLVED: To provide an electric circuit that basically executes the description of both steady state and time evolution of a quantum-mechanical wave function by the same circuit configuration while also expressing a wave function in a potential barrier. SOLUTION: The electric circuit has a first voltage source 5, which is connected on a first main signal line between a first terminal 1 and a second terminal 2 so as to output a prescribed voltage based on a value of a current flowing through a third terminal 3, a second voltage source 6, which is connected on a second main signal line between the third terminal 3 and a fourth terminal 4 so as to output a prescribed voltage based on a value of a current flowing in the first terminal 1, a first current source 9 connected between the second terminal 2 and the ground so as to output a prescribed current based on a value of a voltage of the fourth terminal 4, and a second current source 10 connected between the fourth terminal 4 and the ground so as to output a prescribed current based on a value of a voltage of the second terminal 2. First/second electric capacities 7, 8 each having a prescribed capacity value are connected between the second terminal 2 and the ground and between the fourth terminal 4 and the ground, respectively. COPYRIGHT: (C)2010,JPO&INPIT | ||||||
| 11 | Gas Insulated Bus and Particle Removal Method for Gas Insulated Bus | US13462974 | 2012-05-03 | US20120281332A1 | 2012-11-08 | Tatsuro KATO; Toshiaki Rokunohe; Hisashi Urasaki; Ryoichi Shinohara |
| The present invention is provided to satisfy insulation and conductivity performance requirements, to reduce the size of a gas insulated bus, and also to make conditioning for a particle more reliable. In a gas insulated bus having a conductor supported in a cylindrical metal container via an insulator, insulating gas being contained in the metal container, the metal container has an expanded diameter part formed over a given range in an area of the metal container in which the insulator is positioned and a reduced diameter part formed over the entire area of the metal container except for the expanded diameter part. Thus, when the temperature of the insulator increases during conduction, heat from the insulator is transferred to the metal container via a large space in the expanded diameter part and released to the air through a large outer surface of the expanded diameter part of the metal container. | ||||||
| 12 | Vaux box | US11724693 | 2007-05-18 | US20080285206A1 | 2008-11-20 | Kelsey Leacroft Brown |
| This invention uses the new concept of converting RCA or YCbCr to your computer monitor (SCSI). Although all computers are different, the connection for the computer monitor may differ depending on the computer brand. | ||||||
| 13 | Generation of multipolar electromagnetic energy | US11599624 | 2006-11-15 | US20080112111A1 | 2008-05-15 | Vasily Lensky |
| A method and system of generating multipolar electromagnetic energy from bipolar electromagnetic energy, comprising supplying bipolar electromagnetic energy to plural cascades in a bipolar electromagnetic circuit such that at least a portion of said bipolar energy is converted into multipolar energy therein and separating said multipolar energy from other forms of energy produced by said circuit. | ||||||
| 14 | A FLASH HEAD AND EXTENSION CABLE WITH IDENTIFICATION ELECTRONICS AND A FLASH GENERATOR | EP16759212.0 | 2016-02-25 | EP3265873A4 | 2019-01-02 | FALK, Anton; CARLSSON, Ulf |
| 15 | GENERATION OF MULTIPOLAR ELECTROMAGNETIC ENERGY | PCT/US2007/017071 | 2007-07-31 | WO2008060342A2 | 2008-05-22 | LENSKY, Vasily |
A method and system of generating multipolar electromagnetic energy from bipolar electromagnetic energy, comprising supplying bipolar electromagnetic energy to plural cascades in a bipolar electromagnetic circuit such that at least a portion of said bipolar energy is converted into multipolar energy therein and separating said multipolar energy from other forms of energy produced by said circuit. |
||||||
| 16 | A FLASH HEAD AND EXTENSION CABLE WITH IDENTIFICATION ELECTRONICS AND A FLASH GENERATOR | PCT/SE2016/050143 | 2016-02-25 | WO2016140611A1 | 2016-09-09 | FALK, Anton; CARLSSON, Ulf |
The present disclosure relates a flash generator 10 capable of identifying which type of flash head 20 and flash head extension cables 30 that is connected to the flash generator 20. Further the disclosure relates to a flash head 20 and flash head extension cable 30 that can be identified by the flash generator 20. This object is obtained by a flash generator 10 of providing a power supply to a flash head 20. Further the flash generator 10 comprises a first current generator 13 for charging the capacitor 12. The flash generator 10 further comprises a second current generator or a voltage generator 14 connected to an output 11, 15 of the flash generator 10 and arranged to provide a current or a voltage to create a voltage U|D over a component 22, 32 in a flash head 20 or a flash head extension cable 30 connected to the flash generator 10. Processing means 16 are arranged to identify the flash head 20 or the flash head extension cable 30 by the measured voltage UID. |
||||||
| 17 | VEHICLE-SHAPED LIGHT-EMITTING SENSING DEVICE | CA3157587 | 2022-05-04 | CA3157587A1 | 2023-11-04 | HUANG WEN-HSIEN; LIU CHI-KUANG; LIN SHIH-TSUNG; CHEN TAI-YI |
| A vehicle-shaped light-emitting sensing device includes a vehicle-shaped shell, a circuit board, a light-emitting component and a wireless communication chip. The vehicle-shaped shell has a light-exiting portion. The circuit board is arranged in the vehicle-shaped shell and includes an antenna. The light-emitting component is arranged in the vehicle-shaped shell and electrically connected with the antenna. The antenna is configured to generate an induced current to the light-emitting component to drive the light-emitting component to generate light exited from the light-exiting portion. The wireless communication chip is electrically connected to the antenna. | ||||||
| 18 | QUANTUM KINETIC WELL | CA3114593 | 2021-04-12 | CA3114593A1 | 2021-10-13 | LEE MCKANE B |
| Provided herewith is a closed loop circuit including a transistor operable as a microscopic switch device to amplify electron pressures. The transistor has a collector connected to a positive voltage source. An optocoupler is provided, connected in parallel to the positive voltage source, and triggered in response to a triggering unipolar pulse from a network. An output of the optocoupler is connected to a base of the transistor. A capacitor is provided, connected between the emitter of the transistor and a ground, and having an anode and a cathode for receiving a capacitive dielectric medium therebetween, such that, electrons flow through dielectric medium to the transistor from a ground state in order to break down the dielectric material. In the preferred embodiment, the dielectric material includes water which is dissociated into hydrogen and oxygen. | ||||||
| 19 | Free flowing melamine cyanurate agglomerate, a method for its production and a polymer composiiton containing it | IL16128704 | 2004-04-04 | IL161287A | 2014-11-30 | |
| 20 | PROTON AND ELECTRON LINEAR TRANSISTOR CIRCUITS | RSP20100166 | 2010-04-13 | RS20100166A3 | 2012-12-31 | |
QQ群二维码
意见反馈
意见反馈