专利检索_不可调的液体电阻器专利检索_不可调的液体电阻器专利检索查询

序号	专利名	申请号	申请日	公开（公告）号	公开（公告）日	发明人
21	一种脉冲高功率软管水电阻	CN201910955765.3	2019-10-10	CN110534275A	2019-12-03	王利鸣; 刘小平; 陈楠; 高峰; 戴曼; 戴文华
本发明提供了一种脉冲高功率软管水电阻，用于直线感应加速器、高电压物理、高功率脉冲技术领域。本发明的软管水电阻由电极、锁紧螺母、电阻主体、电解液组成；电阻主体为一个塑料空心管形状结构的软管，两个电极分别位于电阻主体的空心管的两端，电阻主体与电极之间通过尺寸差、锁紧螺母密封连接；在电阻主体与电极之间围成的空间中充填有电解液。本发明的电极头部采用锥形设计，端面形状设置为圆弧形，消除了工作过程中产生的气泡对软管水电阻阻值的影响，能够保证水电阻的性能和使用寿命。本发明脉冲高功率软管水电阻结构紧凑、稳定、可靠，能够长期使用。
22	一种防冻电阻液	CN201310031788.8	2013-01-28	CN103077793A	2013-05-01	于力; 李长春; 戴红民
本发明提供了一种防冻电阻液，通过在传统的碱性水电阻液中添加一定量的乙二醇，能够起到大幅度降低电阻液冰点的效果。
23	一种流动水电阻器及用该电阻器进行在线绝缘检测的装置	CN200910076180.0	2009-01-13	CN101777405A	2010-07-14	张光群
本发明公开了一种流动水电阻器及应用该电阻器进行在线绝缘检测的装置，其中流动水电阻器包括由绝缘材料制成、有一定几何外形、并有进水口和出水口的载体，水电阻液按一定流速和流量从进水口连续流进、从出水口连续流出；在线绝缘检测装置包括水冷槽、带水泵的水箱、流动水电阻器、高压变压器、电压调压器、控制电路、电流检测及报警保护装置，其中水冷槽通过流动水电阻器和水箱连接，流动水电阻器与水箱的连接端接地；电压调压器的输入端连接外部电源，输出端连接变压器的输入端，变压器输出端通过高压线连接水冷槽；电流检测及报警保护装置与电压调压器和高压变压器之间的电路连接；控制电路与电压调压器、电流检测及报警保护装置连接。
24	高压兆瓦级大功率电阻	CN200910251674.8	2009-12-30	CN101763928A	2010-06-30	杨雷; 傅鹏; 冯虎林; 李俊; 茆华风; 蒋力; 潘圣民; 刘保华; 赵士元
本发明公开了一种高压兆瓦级大功率电阻，包括有容器，容器中盛放有水作为电阻介质，还包括有金属电极板，金属电极板分别沿着容器两侧壁插入水中，作为电阻的接线端。本发明的成本低，不会过热损毁。使用时不需要通风、循环和液体冷却设备。本发明的电阻的功率可以超过兆瓦量级，电压能超过10kV，电阻设备放置在户外，不占用室内空间。本发明使用过程中不会产生有毒有害物质，没有废弃物产生，不污染环境，运行时间超过1000秒。
25	Physical quantity sensor device and method of manufacturing the same	US12802089	2010-05-28	US08151649B2	2012-04-10	Masashi Totokawa; Masao Naito; Akihiro Takeichi
A physical quantity sensor device (10) having a structure in which a stress-sensitive body (1) of which the electric characteristics vary depending upon the application of stress and an insulator (2) having electric insulation are formed being closely adhered together, wherein the stress-sensitive body (1) comprises a thin glass film containing an electrically conductive element that is solidly dissolved therein as atoms, a method of manufacturing the physical quantity sensor device, a piezo-resistive film comprising a thin glass film containing ruthenium that is solidly dissolved therein as atoms, and a method of manufacturing the piezo-resistive film.
26	Electrolytic conductor	US44075065	1965-03-18	US3412198A	1968-11-19	RUDOLPH WALLIS NEIL

27	LIQUID RESISTOR FOR PROTECTING SUPERCONDUCTING COIL	JP3143494	1994-03-01	JPH07240304A	1995-09-12	TANAHASHI SHIYUUGO
PURPOSE:To increase the minimum safety factor of the superconducting coil of an electric circuit using a dip-cooling type superconducting coil against the withstand voltage without changing the design of the coil by connecting a battery filled up with an electrolyte in parallel with the coil as a protective resistor. CONSTITUTION:An electrolyte tank 7 is constituted in such a way that semicylindrical parts at both ends of the tank 7 are connected with each other through a passage having a narrow cross section. One end of the tank 7 is composed of a semicylindrical anode 8 and an anode terminal 9 is electrically connected to the anode. A semicylindrical cathode 10 is provided at the other end of the tank 7. At the time of using such a liquid resistor as the protective resistor of a dip-cooling type superconducting resistor, the resistor is connected so that an electric current can flow in the direction in which the charging process of this battery can be utilized. Immediately after making quench- protecting operations, the final temperature of a hot spot becomes 111 K as in the case where a constant resistor is used. The minimum safety factor becomes 9.81 which is larger than the minimum safety factor, 8.93, obtained when the constant resistor is used by 9.8%.
28		JP17102188	1988-07-11	JPH0426763B2	1992-05-08	MATSUMOTO KESAFUMI

29		JP12160582	1982-08-12	JPS622732Y2	1987-01-22

30	METHOD OF SEALING TERMINAL WIRES	JP9998276	1976-08-21	JPS5325858A	1978-03-10	SHIMAMUNE MASAJI

31	ELECTROLYTIC RESISTOR	JP14485076	1976-12-03	JPS5268956A	1977-06-08	JIYAN JIYAKURAN

32		JP10562273	1973-09-19	JPS5055857A	1975-05-16

33	Mechanism for reserving a plurality of channels of a single medium access control and physical layer	JP2006507477	2004-03-23	JP2006521758A	2006-09-21	ヘーベン、マーテン
無線ローカルエリアネットワーク内で、レガシー局とさらに高い帯域幅の信号を送信できる局の間の共存を可能にするための方法及び装置が開示される。一例となる実施形態は、２つまたは３つ以上の共有通信チャネルの組み合わせ上でさらに高い帯域幅の信号を送受できるトランシーバと、局がそれによってさらに高い帯域幅の信号を送信する前に漸次チャネルを予約する拡張（強化された）媒体アクセス制御（ＭＡＣ）プロトコルを利用する。
34		JP4196990	1990-02-22	JP2586166B2	1997-02-26	HIKOSAKA TOMOYUKI

35		JP5382091	1991-07-11	JPH056606U	1993-01-29

36	JPS5714006B2 -	JP13197175	1975-10-31	JPS5714006B2	1982-03-20

37		JP4781973	1973-04-26	JPS5420646B2	1979-07-24

38		JP7300571	1971-08-13	JPS4830375U	1973-04-13

39		JP3668170	1970-04-17	JPS4811629Y1	1973-03-29

40	BREMSWIDERSTANDSANORDNUNG, ÜBERFREQUENZSCHUTZANORDNUNG UND VERFAHREN ZUR BEGRENZUNG EINES FREQUENZANSTIEGS	EP16781066.2	2016-09-22	EP3501078A1	2019-06-26	ARMSCHAT, Christoph; MÜLLER, Holger; SPAHIC, Ervin

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