| 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 | 可自充电的碱性电池 | CN200510088618.9 | 2005-07-28 | CN1866601A | 2006-11-22 | 小畑伸幸; 上野秀男 |
| 本发明公开了一种可自充电的碱性电池。该电池包括:阴极和阳极,至少一个电极是由金属板构成,配置到阴极的电极受体,配置到阳极的电极供体,设置在电极供体和电极受体之间的隔板,包含氢氧化钾水溶液和氢氧化钠水溶液并具有选自氧化铝、氧化镁和氧化硅的至少一种粉末材料的电解质。该电池具有可自充电的能力,稳定的输出特性,以及显著延长的寿命。 | ||||||
| 2 | 可自充电的碱性电池 | CN200510088618.9 | 2005-07-28 | CN100511814C | 2009-07-08 | 小畑伸幸; 上野秀男 |
| 本发明公开了一种可自充电的碱性电池。该电池包括:正极和负极,至少一个电极是由金属板构成,配置到正极的电子受主,配置到负极的电子施主,设置在电子施主和电子受主之间的隔板,包含氢氧化钾水溶液和氢氧化钠水溶液并具有选自氧化铝、氧化镁和氧化硅的至少一种粉末材料的电解质。该电池具有可自充电的能力,稳定的输出特性,以及显著延长的寿命。 | ||||||
| 3 | 水素原料式の動力システムおよび動力生成方法 | JP2011550077 | 2010-02-10 | JP5636004B2 | 2014-12-03 | ミドルマン,エリック |
| 4 | Electrochemical cell module for use in liquid dispensing device | JP2009111627 | 2009-04-30 | JP2009215654A | 2009-09-24 | MAGET HENRI J R; ROSATI ROBERT J |
| PROBLEM TO BE SOLVED: To provide an electrochemical cell module for use in liquid dispensing devices. SOLUTION: The electrochemical cell module (10) has an outer shell (14) of conductive material defining a cavity, and electrolytic membrane (20) located in the cavity, first (21) and second (23) pervious electrodes located on opposite sides of the membrane (20), and seal member (22) located between the second electrode (23) and the outer shell (14). Contacts (40) for connecting a power source across the electrodes are provided on the second electrode (23) and on the outer shell (14) on the same side of the membrane (20) as the second electrode (23), and the outer shell (14) provides a current collector for the first electrode (21) without requiring any external leads across the module. COPYRIGHT: (C)2009,JPO&INPIT | ||||||
| 5 | Fluid dispensing device storage is stable using hydrogen gas generator | JP2005337417 | 2005-11-22 | JP3986533B2 | 2007-10-03 | エイチ. ゴードン、ジョン; ヴィ. ジョシ、アショック; ジェイ. マクエボイ、ジョン |
| 6 | Battery | JP3718197 | 1997-02-04 | JPH10223250A | 1998-08-21 | UMAJI YASUO |
| PROBLEM TO BE SOLVED: To provide a battery of general use using liquid or gas as an active material. SOLUTION: Chemical battery cells 1A, 1B are connected in series with a conductive member 6. A positive electrode 2A of the first chemical battery cell 1A is constituted with a first catalyst for reducing ions in an electrolyte 4A to gas. A negative electrode 2B of the second chemical battery cell 1B is constituted with a second catalyst for oxidizing gas which has been exhausted from the positive electrode 2A to ions to use the gas as a negative active material, ions in the electrolyte 4A of the first chemical battery cell 1A is practically moved to the second chemical battery cell 1B, without mixing the electrolyte 4A or the like of the chemical battery cells 1A, 1B. The second chemical battery cell 1B receives the active material from the first chemical battery cell 1A, and a high-pressure container for storing the active material is dispensed with. | ||||||
| 7 | JPH0141159Y2 - | JP15344183 | 1983-10-04 | JPH0141159Y2 | 1989-12-06 | |
| 1459732 Aqueous electrolyte cells LOCKHEED MISSILES & SPACE CO Inc 17 April 1975 [15 May 1974] 15894/75 Heading H1B An aqueous electrolyte cell comprises a casing 2, an anode 1 which naturally forms on its surface an insulating film in the presence of water, a cathode 6 in contact with a portion 7 of the film, means preventing the electrolyte from contacting any portion of the anode other than its reactive surface portion, and a flexible connector 10 which maintains the cathode in contact with the film portion 7 as the anode is consumed. The anode is made of Na, Li or alloys or compounds of these metals and forms on its surface the film 3, 7, the close fixing of the anode in the casing 2 preventing the electrolyte 8 contacting the sides of the anode. The cathode 6 comprises an iron or nickel screen 6 and the electrolyte in a solution of an alkali metal hydroxide in water to which antifreeze such as ethylene glycol may be added. The electrolyte is supplied via an inlet 11 and overflows from an outlet 12. A current collector 4 is provided in the anode. In a modification the electrolyte is prevented from reaching the sides of the anode by rubber seals between the anode and the casing. Several cells may be connected to form a battery and the electrolyte is circulated through the battery via a heat exchanger to cool the electrolyte. The portion 3 of the film may alternatively be a bonding agent such as epoxy cement. | ||||||
| 8 | Battery | JP10417288 | 1988-04-28 | JPH01276564A | 1989-11-07 | SUDO HAJIME; TAKAHASHI KENICHI; AKIYAMA TOMOYUKI |
| PURPOSE:To obtain a battery which is lightweight, easy to work, compact, and has excellent discharge performance by using carbon as a positive electrode, a normal temperature molten salt as an electrolyte, and a metal as a negative electrode. CONSTITUTION:Carbon is used as a positive electrode, a metal as a negative active material, and a normal temperature molten salt obtained by mixing an alkyl pyridium halide and a halide of the metal used in the negative active material as an electrolyte. As the metal used in the negative active material, aluminium which is lightweight, easy to handle, and has good workability and large capacity per area due to three electron reaction is preferable. As the alkyl pyridium halide, a compound having an alkyl group whose number of carbons is 1-12, especially butyl chloride is preferable. As the metal halide, chloride, bromide, or iodide is used. A battery which is lightweight, easy to work, and has excellent discharge performance is obtained. | ||||||
| 9 | JPS59115572U - | JP15344183 | 1983-10-04 | JPS59115572U | 1984-08-04 | |
| 1459732 Aqueous electrolyte cells LOCKHEED MISSILES & SPACE CO Inc 17 April 1975 [15 May 1974] 15894/75 Heading H1B An aqueous electrolyte cell comprises a casing 2, an anode 1 which naturally forms on its surface an insulating film in the presence of water, a cathode 6 in contact with a portion 7 of the film, means preventing the electrolyte from contacting any portion of the anode other than its reactive surface portion, and a flexible connector 10 which maintains the cathode in contact with the film portion 7 as the anode is consumed. The anode is made of Na, Li or alloys or compounds of these metals and forms on its surface the film 3, 7, the close fixing of the anode in the casing 2 preventing the electrolyte 8 contacting the sides of the anode. The cathode 6 comprises an iron or nickel screen 6 and the electrolyte in a solution of an alkali metal hydroxide in water to which antifreeze such as ethylene glycol may be added. The electrolyte is supplied via an inlet 11 and overflows from an outlet 12. A current collector 4 is provided in the anode. In a modification the electrolyte is prevented from reaching the sides of the anode by rubber seals between the anode and the casing. Several cells may be connected to form a battery and the electrolyte is circulated through the battery via a heat exchanger to cool the electrolyte. The portion 3 of the film may alternatively be a bonding agent such as epoxy cement. | ||||||
| 10 | JPS5417932B1 - | JP446771 | 1971-02-04 | JPS5417932B1 | 1979-07-04 | |
| 1307323 Fuel cells with metal fuel LOCKHEED AIRCRAFT CORP 19 April 1971 [4 Feb 1970] 20851/71 Heading H1B A cell comprising a consumable alkali metal anode and an aqueous electrolyte is provided with a rotating non-reactive electrically conductive cathode, means to urge said anode into contact with said cathode for maintaining a thin gap of electrolyte there-between and a fluid supply means to provide aqueous electrolyte into said gap whereby the speed of rotation of the cathode controls the rate of reaction and removes the reaction products from the gap while maintaining a layer of alkali metal hydroxide electrolyte in said gap. In the first embodiment (Fig. 2) a rod of sodium 22 reacts with water at the conducting surface 20 of a rotor 14 which distributes the reactants and removes the products thereof. The electrical contacts are made via a spring 24 which holds the rod 22 against the rotor and the rotor itself. Magnets 38 and 39 acting on the current-carrying rotor form a motor which after initial rotation of the rotor can be used to maintain the rotation and provide mechanical output. In the second embodiment (Fig. 6) liquid sodium is fed by means of several U-shaped feed heads such as 56 to opposite surfaces 58, 60 of the flange 53 of rotor 52. The feed heads comprise laminated sheets with closed and open apertures which when assembled together form open pipes which distribute the liquid sodium and water at determined relative positions and drain off the reactive products. A heating coil 122 is provided to facilitate the initial flow of sodium. Various control devices such as valves to control the feed rates are incorporated. Alternative metals suggested are potassium, lithium, or alloys or metallic solutions of these metals. | ||||||
| 11 | Battery | JP6862676 | 1976-06-11 | JPS5284426A | 1977-07-14 | AANESUTO RUSHIASU RITSUTAUAA; ROJIYAA POORU OORANZUWAASU; KEE CHI TSUAI |
| 12 | JPS50118229A - | JP2030675 | 1975-02-18 | JPS50118229A | 1975-09-16 | |
| 13 | The fluid delivery device reservoir is stable using hydrogen gas generator | JP51431597 | 1996-09-25 | JP3821850B2 | 2006-09-13 | エイチ. ゴードン、ジョン; ヴィ. ジョシ、アショク; ジェイ. マクエボイ、ジョン |
| 14 | Storage-stable, fluid dispensing device using hydrogen gas generator | JP2005337417 | 2005-11-22 | JP2006138019A | 2006-06-01 | JOSHI ASHOK V; GORDON JOHN H; MCEVOY JOHN J |
| <P>PROBLEM TO BE SOLVED: To provide a fluid delivery device where a long storage service life and the suitable utilization efficiency of hydrogen in fluid delivery are attained, further, the flow-out of hydrogen from a gas chamber after that is possible without resistance, thus, even in a short time after the completion of a dispensing process, hydrogen hardly remains. <P>SOLUTION: The fluid delivery device having a hydrogen generation cell as a constituent for gas generation comprises: a continuous solid electrically active metal anode (such as zinc) 90 structurally assembled as a part of a cell housing (a can or a cap); a cathode 92; a suitable aqueous electrolyte 94 contacted with at least a part of the anode and the cathode; an electric insulator 93 insulating the cathode and the anode from each other and connecting the anode and the cathode in an ionic way through the electrolyte; a circuit means of electrically connecting the anode and the cathode; and an exhausting means of allowing the generated gas to go out from the cell and enter a chamber for collecting the gas for acting force on fluid. <P>COPYRIGHT: (C)2006,JPO&NCIPI | ||||||
| 15 | Electrochemical cell module for a liquid dispensing device | JP2000567266 | 1999-08-17 | JP2002523627A | 2002-07-30 | ヘンリ ジェイ. アール. マジェット; ロバート ジェイ. ロサティ |
| (57)【要約】 電気化学セルモジュール(10)は、空洞を規定する導電性材料の外側シェル(14)、空洞内に位置する電解膜(20)、電解膜(20)の反対側に位置する第1(21)および第2(23)透過電極、第2電極(23)と外側シェル(14)の間に位置するシール部材(22)を有する。 電極をわたって電源を接続する端子(40)は、第2電極(23)、第2電極(23)と同じ側にある膜(20)上の外側シェル(14)に接触して提供される。 そして外側シェル(14)は、モジュールをわたる外部導線の必要なしに、第1電極(21)の電流コレクタを提供する。 | ||||||
| 16 | Fluid dispensing device storage is stable using hydrogen gas generator | JP51431597 | 1996-09-25 | JPH11512785A | 1999-11-02 | エイチ. ゴードン、ジョン; ヴィ. ジョシ、アショク; ジェイ. マクエボイ、ジョン |
| (57)【要約】 流体送達装置は、水分(水)がガス発生反応に関与するガス発生器(26)を有する。 外部のガス室シェル(1)は、水の損失を防止または遅延するために用いられる。 可撓性隔膜(3)は、装置の恒久的部品であってよく、ガス発生器と結合して用いてよい。 そのような装置によって送達される流体は、代表的には、何らかの特定の効用をその環境に有する液体である。 分与される液体は、動物もしくはヒトの患者に対して有益または治療的な効果を有する製剤、または他の何らかの液体であってよく、あるいは殺虫剤、燻煙剤、芳香剤のような液体、または比較的高い蒸気圧を有するその他の液体であってよい。 | ||||||
| 17 | Battery | JP3718197 | 1997-02-04 | JP2956027B2 | 1999-10-04 | UMAJI YASUO |
| 18 | JPS6340357B2 - | JP13884979 | 1979-10-29 | JPS6340357B2 | 1988-08-10 | RONARUDO AIRA KURUTOITSUKU |
| 19 | Power module case | JP13885279 | 1979-10-29 | JPS55166870A | 1980-12-26 | RONARUDO AI KURUUTOUITSUKU; ROORENSU JIEEMUZU PEEJIENDAAMU |
| 20 | Power module assembly | JP13884979 | 1979-10-29 | JPS55166867A | 1980-12-26 | RONARUDO AIRA KURUUTOUITSUKU |
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