| 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 | Breaker secondary terminal block isolation chamber | US14987335 | 2016-01-04 | US09754753B2 | 2017-09-05 | Daniel Edward Hrncir, Jr.; David Aaron Metcalf |
| The disclosed concept pertains generally to secondary terminal blocks and, more particularly, to apparatus and methods for isolating the secondary terminal blocks and associated wiring in electrical switching assembly enclosures. The apparatus includes a housing having an outer surface structured to form a cavity therein. The apparatus is positioned in an enclosure which includes an electrical switching apparatus and one or more secondary terminal blocks. The one or more secondary terminal blocks are positioned in the cavity such that the apparatus at least substantially isolates the one or more secondary terminal blocks from the electrical switching apparatus. Further, the apparatus is effective to substantially isolate the secondary terminal blocks from temperature and pressure effects resulting from an arcing fault occurring in the enclosure. | ||||||
| 2 | Protective environment for keyboard actuatable switches | US33737473 | 1973-03-02 | US3829632A | 1974-08-13 | KLEHM W |
| Relates generally to the production of electricial signals from a keyboard, each key of which is individually operatively associated with a switching device whose activation to electrical conductive condition is controlled by the displacement of the key. These switches are hermetically sealed from the atmosphere and are electrically scanned in succession at relatively high speeds and at a repetitious rate such that several scanning cycles occur during the normal activation of a selected key. The keyboard mechanism also includes a shift register having one more bit position than the number of switch devices and into which a bit is introduced into the ''''one'''' position at the instant the scan encounters a closed switch of the keyboard. This bit is then shifted through the register in timed relation to the scan of the remaining key switches and unloaded into the last bit position of the register. A detector senses the presence of a bit in both the ''''one'''' position and the last position of the shift register and upon detection of a bit solely in the one position it delivers a signal indicative of the character represented by the actuated key and upon detecting bits in the two extreme positions of the shift register it nullifies the delivery of such a signal.
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| 3 | Breaker secondary terminal block isolation chamber | US13937441 | 2013-07-09 | US09230766B2 | 2016-01-05 | Daniel Edward Hrncir, Jr.; David Aaron Metcalf |
| The disclosed concept pertains generally to secondary terminal blocks and, more particularly, to apparatus and methods for isolating the secondary terminal blocks and associated wiring in electrical switching assembly enclosures. The apparatus includes a housing having an outer surface structured to form a cavity therein. The apparatus is positioned in an enclosure which includes an electrical switching apparatus and one or more secondary terminal blocks. The one or more secondary terminal blocks are positioned in the cavity such that the apparatus at least substantially isolates the one or more secondary terminal blocks from the electrical switching apparatus. Further, the apparatus is effective to substantially isolate the secondary terminal blocks from temperature and pressure effects resulting from an arcing fault occurring in the enclosure. | ||||||
| 4 | BREAKER SECONDARY TERMINAL BLOCK ISOLATION CHAMBER | US13937441 | 2013-07-09 | US20150016084A1 | 2015-01-15 | DANIEL EDWARD HRNCIR, JR.; David Aaron Metcalf |
| The disclosed concept pertains generally to secondary terminal blocks and, more particularly, to apparatus and methods for isolating the secondary terminal blocks and associated wiring in electrical switching assembly enclosures. The apparatus includes a housing having an outer surface structured to form a cavity therein. The apparatus is positioned in an enclosure which includes an electrical switching apparatus and one or more secondary terminal blocks. The one or more secondary terminal blocks are positioned in the cavity such that the apparatus at least substantially isolates the one or more secondary terminal blocks from the electrical switching apparatus. Further, the apparatus is effective to substantially isolate the secondary terminal blocks from temperature and pressure effects resulting from an arcing fault occurring in the enclosure. | ||||||
| 5 | High speed serial scan and readout of keyboards | US544383 | 1975-01-27 | USRE31942E | 1985-07-09 | William G. Klehm, Jr. |
| Relates generally to the production of electrical signals from a keyboard, each key of which is individually operatively associated with a switching device whose activation to electrical conductive condition is controlled by the displacement of the key. These switches are hermetically sealed from the atmosphere and are electrically scanned in succession at relatively high speeds and at a repetitious rate such that several scanning cycles occur during the normal activation of a selected key. The keyboard mechanism also includes a shift register having one more bit position than the number of switch devices and into which a bit is introduced into the "one" position at the instant the scan encounters a closed switch of the keyboard. This bit is then shifted through the register in timed relation to the scan of the remaining key switches and unloaded into the last bit position of the register. A detector senses the presence of a bit in both the "one" position and the last position of the shift register and upon detection of a bit solely in the one position it delivers a signal indicative of the character represented by the actuated key and upon detecting bits in the two extreme positions of the shift register it nullifies the delivery of such a signal. | ||||||
| 6 | BREAKER SECONDARY TERMINAL BLOCK ISOLATION CHAMBER | US14987335 | 2016-01-04 | US20160225570A1 | 2016-08-04 | Daniel Edward Hrncir, JR.; David Aaron Metcalf |
| The disclosed concept pertains generally to secondary terminal blocks and, more particularly, to apparatus and methods for isolating the secondary terminal blocks and associated wiring in electrical switching assembly enclosures. The apparatus includes a housing having an outer surface structured to form a cavity therein. The apparatus is positioned in an enclosure which includes an electrical switching apparatus and one or more secondary terminal blocks. The one or more secondary terminal blocks are positioned in the cavity such that the apparatus at least substantially isolates the one or more secondary terminal blocks from the electrical switching apparatus. Further, the apparatus is effective to substantially isolate the secondary terminal blocks from temperature and pressure effects resulting from an arcing fault occurring in the enclosure. | ||||||
| 7 | High speed serial scan and read-out of keyboards | US3745536D | 1971-03-01 | US3745536A | 1973-07-10 | KLEHM W |
| Relates generally to the production of electrical signals from a keyboard, each key of which is individually operatively associated with a switching device whose activation to electrical conductive condition is controlled by the displacement of the key. These switches are hermetically sealed from the atmosphere and are electrically scanned in succession at relatively high speeds and at a repetitious rate such that several scanning cycles occur during the normal activation of a selected key. The keyboard mechanism also includes a shift register having one more bit position than the number of switch devices and into which a bit is introduced into the ''''one'''' position at the instant the scan encounters a closed switch of the keyboard. This bit is then shifted through the register in timed relation to the scan of the remaining key switches and unloaded into the last bit position of the register. A detector senses the presence of a bit in both the ''''one'''' position and the last position of the shift register and upon detection of a bit solely in the one position it delivers a signal indicative of the character represented by the actuated key and upon detecting bits in the two extreme positions of the shift register it nullifies the delivery of such a signal.
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| 8 | Thin flexible magnetic switch | US56607766 | 1966-07-18 | US3383487A | 1968-05-14 | ROBERT WIENER |
| 9 | Transparent panel switch structure and switch unit | JP14460081 | 1981-09-16 | JPS5846532A | 1983-03-18 | YONEKURA HEIHACHIROU |
| 10 | Drucktastenschalter für Haushaltsgeräte | EP96108473.8 | 1996-05-28 | EP0810619A1 | 1997-12-03 | Imer, Klaus |
Bei einem Drucktastenschalter für Haushaltsgeräte werden die den Programmablauf steuernden galvanischen Kontakte in einem verklebten und nach außen versiegelten Laminat eingebettet, das aus einer Leiterplatte (26), einer Distanzfolie und einer Schaltfolie (24) besteht. Jede Drucktaste wirkt mit ihrem Tastenstößel (18) auf eine Kontaktfläche der Schaltfolie (24) ein und drückt diese auf die Kontaktflächen der Leiterplatte (26), welche dadurch überbrückt werden. In gedrückter Stellung wird ein dauerhafter galvanischer Kontakt zwischen den Kontaktflächen der Schaltfolie (24) und den Kontaktflächen der Leiterplatte (26) aufrechterhalten. Zur Aufnahme des durch den Rastmechanismus bestimmten Rückhubes weist die Drucktaste einen im Schieber (16) abgefederten Schaltstößel (18) auf. Die Distanzfolie weist Druckausgleichskammern auf, die mit den Stanzlöchern über den Kontaktflächen in Verbindung stehen. Diese sind vorzugsweise als Verbindungsschlitze der Stanzlöcher ausgebildet. |
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| 11 | Drucktastenschalter für Haushaltsgeräte | EP96108473.8 | 1996-05-28 | EP0810619B1 | 2000-09-13 | Imer, Klaus |
| 12 | TRANSPARENT PLANAR SWITCH STRUCTURE AND SWITCH UNIT. | EP82902741 | 1982-09-14 | EP0088132A4 | 1985-11-07 | YONEKURA HEIHACHIRO - KAMODO-C |
| 13 | TRANSPARENT PLANAR SWITCH STRUCTURE AND SWITCH UNIT | EP82902741.6 | 1982-09-14 | EP0088132A1 | 1983-09-14 | YONEKURA, Heihachiro 22-5, Kamodo-cho |
In a switch structure of a sandwich construction in which an anisotropic conductor (2) is interposed between two electrodes (1) and (3), with an insulator (6) which can keep the electrode (1) and the conductor (2) insulated from each other interposed therebetween during the non-operating period, the conductor (2) and the electrode (1) of at least the operation side are made to be transparent, thereby displaying the operation contents on the electrode (3) on the non-operating side so that no displayed characters are omitted, and no contamination can occur. When the electrode (3) is also made to be transparent, the switch structure can be placed directly on the display surface of a planar display unit (10), thereby enabling a switching operation of the display positions of the display unit. |
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