序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
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61 | Switch | JP31493894 | 1994-12-19 | JP3016344B2 | 2000-03-06 | 孝夫 三橋; 利和 上元; 健一 仁科; 和晴 加藤; 俊一 勝部; 昌二 山口; 悟 山崎; 伸示 山県; 和則 福谷; 逸雄 西山; 廣士 足達; 文明 馬場; 貢 高橋 |
A highly flame-retardant organic and inorganic complex composition without corroding metal parts, and a compact switch with excellent insulation properties after opening and closing electrodes, are provided. An organic and inorganic complex composition wherein the resin content is at 15 to 70 wt % and the content of one or more inorganic compounds capable of dehydration at 150 DEG C or more is at 80 to 30 wt %. When the composition is exposed to combustion, inorganic compounds being capable of dehydration at 150 DEG C or more and being contained in the organic and inorganic complex composition generate steam, which then suppresses combustion. Simultaneously, endothermic reaction during steam generation deprives combustion heat. A switch having a molded article of which the entirety or a part is composed of an organic and inorganic complex composition is provided, wherein the base inside 2a of the base of a box is composed of for example an organic and inorganic complex composition with the resin content at 15 to 70 wt % and the content of one or more inorganic compounds capable of dehydration at 150 DEG C or more at 80 to 30 wt %. |
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62 | Switch and manufacture of base for switch | JP4125999 | 1999-02-19 | JPH11288653A | 1999-10-19 | KATSUBE SHUNICHI; UEMOTO TOSHIKAZU; NISHINA KENICHI; FUKUTANI KAZUNORI; YAMAGATA NOBUJI; TAKAHASHI MITSUGI; KATO KAZUHARU; YAMAGUCHI SHOJI; MIHASHI TAKAO; ADACHI HIROSHI; NISHIYAMA ITSUO; BABA FUMIAKI; YAMAZAKI SATORU |
PROBLEM TO BE SOLVED: To provide a small switch excellent in flame resistance without corroding metallic parts and also in insulation performance after electrodes are opened or closed. SOLUTION: This switch has a base wherein organic-inorganic complex compositions and a structural composition are integrally molded, the organic- inorganic complex compositions containing a resin, an inorganic compound which is dehydrated at 150°C and higher, and reinforcement. For example, the organic-inorganic complex, compositions containing the resin by 15 to 70 wt.% and one kind or more of inorganic compounds which are dehydrated at 150°C or higher, by 80 to 30 wt.%, are molded and placed on the inside 2a of the base 2 of a casing, and the structural composition is molded and placed on the outside 2b of the base. COPYRIGHT: (C)1999,JPO | ||||||
63 | Organic and inorganic composition and switch using it | JP31493894 | 1994-12-19 | JPH08171847A | 1996-07-02 | KATSUBE SHUNICHI; UEMOTO TOSHIKAZU; NISHINA KENICHI; FUKUTANI KAZUNORI; YAMAGATA NOBUJI; TAKAHASHI MITSUGI; KATO KAZUHARU; YAMAGUCHI SHOJI; MIHASHI TAKAO; ADACHI HIROSHI; NISHIYAMA ITSUO; BABA FUMIAKI; YAMAZAKI SATORU |
PURPOSE: To provide an organic and inorganic composition without corroding a metallic part and excellent in the flame resistance, and a small-sized switch excellent in insulating performance after opening and closing of an electrode. CONSTITUTION: A base 2 of a case body is an organic and inorganic composite constituent having resin of 15 to 70wt.% and one or more kind of inorganic component of 80 to 30wt.% to be dehydrated at temperatures above 150 deg.C. When it is exposed to combustion, the combustion is restrained by steam from the inorganic component contained in the organic and inorganic composite constituent, and to be dehydrated at temperatures above 150 deg.C, and simultaneously, combustion heat is removed by the endothermic reaction in generating of the steam. Moreover, in a switch provided with a molded article whose whole part or one part is made of the organic and inorganic composite constituent, for example, the base inner side 2a of the base 2 of the case body is formed of the organic and inorganic composite constituent having resin of 15 to 70wt.% and one or more kind inorganic component of 80 to 30wt.% to be dehydrated at temperatures above 150 deg.C. | ||||||
64 | Method for preventing defective conductivity failure of electric switch contact caused by silicone vapor | JP18174087 | 1987-07-21 | JPS6424325A | 1989-01-26 | ASAI HIROYUKI; MINE KATSUTOSHI |
PURPOSE:To prevent the defective conductivity failure of an electric switch contact by containing a nitrogen atom-contained basic compound in the organopolysiloxane composition material or its hardened material. CONSTITUTION:A nitrogen atom-contained basic compound is contained in the organopolysiloxane composition material or its hardened material. Methylamine, ethylamine benzotriazole or the like are used for the nitrogen atom-contained basic compound, for actual example. The defective conductivity failure of the electric switch contact is thereby prevented, troubles related to the defective conductivity of a relay, switch, micromotor or the like mounted on the electric equipment used in a closed or semi-closed state are eliminated, and the reliability of the electric equipment is improved. | ||||||
65 | Electric inclined switch | JP24561386 | 1986-10-17 | JPS62103931A | 1987-05-14 | RONARUDO DEBITSUDO KENBARII |
66 | 検査装置および検査方法 | JP2016099855 | 2016-05-18 | JP2017207369A | 2017-11-24 | 新 田 朋 義; 長谷川 透 |
【課題】オンポジションずれを考慮してメタルドームスイッチの良否判定を行う。 【解決手段】実施形態の検査装置1は、メタルドーム51を有するメタルドームスイッチ50を検査する検査装置であって、メタルドームスイッチ50が触覚的にオンしたときのメタルドーム51の変位量を示す触覚的オンポジションを検知する第1の検知部10と、 メタルドームスイッチ50が電気的にオンしたときのメタルドーム51の変位量を示す電気的オンポジションを検知する第2の検知部20と、触覚的オンポジションおよび電気的オンポジションに基づいてメタルドームスイッチ50の良否判定を行う判定部312と、を備える。 【選択図】図1 |
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67 | 住宅オートメーションで使用するための一体化されたSPDTまたはDPDTスイッチのSPDTリレーとの組合せ | JP2016520046 | 2014-10-01 | JP2016532993A | 2016-10-20 | エルバーバウム デビッド |
磁気ラッチングアーマチュアまたは非ラッチングアーマチュアを有するリレーコイルに給電することによってスイッチ手動キーを介して、および遠隔で電気器具を操作するために、リレーおよびスイッチの極を直接、またはPCBアセンブリを含む導電性構造を介して接続するように構造化されたコンタクタを介して、単一または複数のハイブリッドSPDTまたはDPDTスイッチをSPDTおよびDPDTリレーのうちの1つと一体化するための方法および装置であって、CPUプログラムが手動キーを提供し、各SPDTまたはDPDTの手動キーは、光ケーブル、RF、見通し線内でのIR、およびバスラインを介してホームオートメーションネットワークまたはグリッドの負荷のグループおよびすべての負荷のオンオフを切り替えるために一体化されたスイッチ−リレーにトラベララインで接続される、方法および装置。 | ||||||
68 | Brake drive controlling device for quickly changing state of brake from released state to fastened state | JP2012246302 | 2012-11-08 | JP2014096894A | 2014-05-22 | MATSUMOTO YASUYUKI; SUZUKI NAOYUKI |
PROBLEM TO BE SOLVED: To provide a brake drive controlling device capable of quickly changing a state of a brake from a released state to a fastened state.SOLUTION: A diode 23 has an anode connected to the other ends of brake coils 7a and 7a'. and a cathod connected to one end of a smoothing capacitor 3. A diode 24 has an anode connected to the other end of the smoothing capacitor 3 and a cathod connected to one ends of the brake coils 7a and 7a'. By providing the diodes 23 and 24, energy stored in the brake coils 7a and 7a' when at least one of an NPN transistor 21 and an NPN transistor 22 is in an on state is returned to the smoothing capacitor 3 when the NPN transistors 21 and 22 are in an off state. | ||||||
69 | Feed line switching unit and power supply system | JP2012240848 | 2012-10-31 | JP2014093539A | 2014-05-19 | YASUGATA MASAHIRO |
PROBLEM TO BE SOLVED: To dispense with supply of electric power to a feed line of a branch transmission line from a branch station for the restoration of the supply of electric power, upon the occurrence of a cable opening fault.SOLUTION: A feed line switching unit 121 includes a relay RL1 that is brought into an excitation state when a supply current flows in the first direction of a feed line and that is brought into a nonexcitation state when the supply current flows in the second direction opposite to the first direction or when the supply current does not flow. The relay RL1 connects the feed line and a ground together in the nonexcitation state, and does not connect the feed line and the ground together in the excitation state. | ||||||
70 | Switching equipment | JP2008196203 | 2008-07-30 | JP5131842B2 | 2013-01-30 | 利光 鵜飼 |
71 | Insulating parts and a manufacturing method thereof of the high-voltage device | JP2004564159 | 2003-11-21 | JP2006511915A | 2006-04-06 | ツィールケ、エバーハルト |
本発明は、高電圧装置、特に高電圧用遮断器の、導電率を処理で変化させた少なくとも1つの構成成分(3)を含む絶縁部品(1)並びにその製造方法に関する。 この処理は、例えば化学的又は機械的処理或いはα線、β線又はγ線等の高エネルギー放射線の照射により行う。 本発明の絶縁部品(1)は、少なくとも一部が処理した構成成分(3)と処理しない構成成分(4)とからなっており、この結果絶縁部品(1)は大きな絶縁並びに機械的強度を示す。 | ||||||
72 | Key sheet module | JP2003300209 | 2003-08-25 | JP2005071808A | 2005-03-17 | IDE HIDEHIKO; MIYASHITA ISAO |
PROBLEM TO BE SOLVED: To provide a key sheet module capable of improving illumination efficiency of key pad illumination by removing restriction of arrangement of electric elements such as resistors and capacitors for composing a circuit in structuring a key sheet module by using a single-sided printed wiring board and thereby optimizing the arrangement positions of the electric elements. SOLUTION: This key sheet module is provided with: the single-sided printed wiring board 2 having a plurality of wiring patterns 4a, 4b and 4c formed on its one side; dome-like contact switches and LEDs for executing key pad illumination mounted on the wiring board 2; and a switch fixing sheet for covering the upper surfaces of the contact switches. Insulation layers 17 are formed between the separated both-side wiring patterns 4a and 4c out of the plurality of wiring patterns 4a, 4b and 4c; and a printed jumper 18 is formed by printing conductive paste on top of them to three-dimensionally cross-connect the separated wiring patterns 4a and 4c to each other. COPYRIGHT: (C)2005,JPO&NCIPI | ||||||
73 | Circuit breaker | JP26743095 | 1995-10-16 | JP3390112B2 | 2003-03-24 | 利和 上元; 俊一 勝部; 悟 山崎; 伸示 山県; 和則 福谷 |
74 | Circuit breaker-based method of manufacturing | JP4125999 | 1999-02-19 | JP3387435B2 | 2003-03-17 | 孝夫 三橋; 利和 上元; 健一 仁科; 和晴 加藤; 俊一 勝部; 昌二 山口; 悟 山崎; 伸示 山県; 和則 福谷; 逸雄 西山; 廣士 足達; 文明 馬場; 貢 高橋 |
75 | Circuit breaker having a housing made by molding a high thermal conductivity, low shrinkage wet unsaturated polyester resin composition | JP14156592 | 1992-06-02 | JP2925402B2 | 1999-07-28 | OCHIAI ATSUSHI; MURAKAMI SADATOSHI; HOSOGAI SETSUO |
76 | Manufacture of switch and crossbar for switch | JP15385397 | 1997-06-11 | JPH113648A | 1999-01-06 | KATSUBE SHUNICHI; FUKUTANI KAZUNORI; UEMOTO TOSHIKAZU |
PROBLEM TO BE SOLVED: To provide a switch of high reliability by enhancing strength and a creep characteristic of a crossbar for a switch and to provide a manufacturing method for the crossbar. SOLUTION: A molded crossbar 30 having a high-temperature creep characteristic and strength is provided by molding a material comprising 26 to 35 wt.% of a phenol resin, 41 to 49 wt.% of a glass fiber and 21 to 29 wt.% of an inorganic material by injecting it into a die from its longitudinal end part. Further, a high-quality switch can be manufactured at a low cost by integrally molding a shaft engagement part, a side wall part and a barrier part to reduce the number of part items and assembling man-hours. A long-term heat resisting strength of the crossbar 30 can be further enhanced by using clay as the inorganic material. | ||||||
77 | Insulator composing material for switchgear | JP31325994 | 1994-12-16 | JPH08171831A | 1996-07-02 | KATSUBE SHUNICHI; UEMOTO TOSHIKAZU; YAMAZAKI SATORU; FUKUTANI KAZUNORI; NISHINA KENICHI; YAMAGATA NOBUJI |
PURPOSE: To provide an insulator composing material as a formed product which can stand pressure rise in the inside of a switchgear due to decomposed gases evolved from a box body, inner part composing organic materials at the time of shutting high capacity current of the switchgear, which has a function to prevent the switchgear box body and the inner part composing parts from being deformed, cracked, damaged, and at the same time which is made of an organic-inorganic compounded composition having high heat resistance, low humidity absorbance, good formability, and processibility by containing an impact moderating component in the insulator composing material as a formed product for a switchgear. CONSTITUTION: An insulator composing material as a formed product made of an organic-inorganic compounded composition consisting of 26wt.% of nylon 6, 24wt.% of nylon 66, 7wt.% of an ionomer of a polyolefine copolymer as an impact moderating component, and 43wt.% of a reinforcing material is used as a box body or an inner structural material of a switchgear. The organic-inorganic compounded composition may be an organic-inorganic compounded composition consisting of 35-39wt.% of nylon 6, 8-12-wt.% of nylon 66, 1-3wt.% of nylon MXD6, 7-9wt.% of ethylene-α-olefine copolymer, 40-45wt.% of a reinforcing material. | ||||||
78 | How to prevent the conductive failure failure of the electrical switching contacts due to the organopolysiloxane gas | JP26134586 | 1986-10-31 | JPH0746541B2 | 1995-05-17 | 勝利 峰; 博史 松岡; 博之 浅井 |
79 | Highly thermally conductive and lowly shrinking, wet-type unsaturated polyester resin composition, and circuit breaker made therefrom | JP14156592 | 1992-06-02 | JPH05202277A | 1993-08-10 | OCHIAI ATSUSHI; MURAKAMI SADATOSHI; HOSOGAI SETSUO |
PURPOSE:To obtain the title compsn. usable as a housing material of electric equipment and manufacture a circuit breaker excellent in heat radiation by using a housing made from the compsn. CONSTITUTION:A highly thermally conductive powder is used in place of a part of the filler conventionally used for producing a lowly shrinking, wet-type unsatd. polyester resin compsn., such as calcium carbonate, to give the title compsn., which is used as the material of a housing, such as a base, a cover, or a heat-shielding member, of a circuit breaker. Thus, a highly thermally conductive molded article is obtd. without detriment to the appearance and mechanical strengths, and the circuit breaker thus manufactured radiates heat well, enabling the production of down-sized, high-performance electric equipment. | ||||||
80 | Multipole crossbar assembly for circuit breaker | JP2425792 | 1992-01-16 | JPH0512976A | 1993-01-22 | DEBITSUDO AANORUDO; ROJIYAA NIIRU KIYASUTONGEI |
PURPOSE: To provide an apparatus to assemble common module type crossbar units into multiple poles of the molded case circuit breaker. CONSTITUTION: The module type crossbar units of molded case circuit breaker make possible interconnection of multiple contact arm assembly 45 by a single module unit. To increase acceleration to moving a contact arm 25, a contact arm acceleration lever 36 is connected to the contact arm of and crossbar assembly 45 is connected. To improve the acceleration to the break position of the moving contact arms 25, the moving contact arm 25 of the multiple-pole circuit breaker is shifted from an alignment line of rotation in each pole on the crossbar assembly. |