| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 41 | Controller Having Reduced Control Key Set and Method for Operating Same in a Learning, Macro, or Cloning Mode | US12417084 | 2009-04-02 | US20090195406A1 | 2009-08-06 | Paul Anson Brown; Aaron Daniel Thieme |
| In some embodiments, a wall-mountable, configurable controller having control keys (e.g., less than eight keys or another small number of keys), a subassembly including circuitry, and a control key insert removably mountable to the subassembly and including at least one of the control keys. The circuitry can include a limit switch that is biased in a default state but moveable into a learning state in response to user-exerted force. In some embodiments, the controller includes an IR emitter and an IR receiver and is operable to clone another device by sending configuring radiation from the emitter to the other device's IR receiver. Preferably, the emitter and receiver are positioned so that a controller's IR emitter aligns with the IR receiver of an identical controller when the controllers are positioned face to face. In some embodiments, the controller provides audible and visual feedback to users when operating in a learning mode. | ||||||
| 42 | Controller Having Reduced Control Key Set and Method for Operating Same in a Learning, Macro, or Cloning Mode | US12417078 | 2009-04-02 | US20090195405A1 | 2009-08-06 | Paul Anson Brown; Aaron Daniel Thieme |
| In some embodiments, a wall-mountable, configurable controller having control keys (e.g., less than eight keys or another small number of keys), a subassembly including circuitry, and a control key insert removably mountable to the subassembly and including at least one of the control keys. The circuitry can include a limit switch that is biased in a default state but moveable into a learning state in response to user-exerted force. In some embodiments, the controller includes an IR emitter and an IR receiver and is operable to clone another device by sending configuring radiation from the emitter to the other device's IR receiver. Preferably, the emitter and receiver are positioned so that a controller's IR emitter aligns with the IR receiver of an identical controller when the controllers are positioned face to face. In some embodiments, the controller provides audible and visual feedback to users when operating in a learning mode. | ||||||
| 43 | Contactor with Connector Module for Control of the Solenoid Mechanism | US10598353 | 2005-02-25 | US20080174391A1 | 2008-07-24 | Jakob Bolz; Wolfgang Kremers; Alfred Michael Wohlang |
| A contactor includes a housing lower section housing a solenoid mechanism, a main contact and a housing upper section, for housing main terminals and a connector module including control terminals which may be connected to the solenoid coil of the solenoid mechanism. The housing upper section includes a recessed step to the front of a housing side, in which the connector module may be fixed. The control terminals are located facing the housing front in front of the plane of the main terminals. Connector lines extending into the main housing from the connector module connect the control terminals to the control pins, connected to the solenoid coil and located in the housing lower section. | ||||||
| 44 | Operating member | US11354837 | 2006-02-16 | US20060196759A1 | 2006-09-07 | Mitsuo Soumi |
| According to the present invention, the operating member is constructed by supporting the button members with the thin sheet member without integrally constructing the button members, and therefore, the device can be downsized and slimmed. According to the present invention, the key tops of the button members can be individually surface-treated before assembly, and therefore, a user can easily recognize the kinds of buttons at the time of operation, and an operation mistake can be prevented. | ||||||
| 45 | Controller having reduced control key set and method for operating same in a learning, macro, or cloning mode | US11146393 | 2005-06-06 | US20050269196A1 | 2005-12-08 | Paul Brown; Aaron Thieme |
| In some embodiments, a wall-mountable, configurable controller having control keys (e.g., less than eight keys or another small number of keys), a subassembly including circuitry, and a control key insert removably mountable to the subassembly and including at least one of the control keys. The circuitry can include a limit switch that is biased in a default state but moveable into a learning state in response to user-exerted force. In some embodiments, the controller includes an IR emitter and an IR receiver and is operable to clone another device by sending configuring radiation from the emitter to the other device's IR receiver. Preferably, the emitter and receiver are positioned so that a controller's IR emitter aligns with the IR receiver of an identical controller when the controllers are positioned face to face. In some embodiments, the controller provides audible and visual feedback to users when operating in a learning mode. | ||||||
| 46 | System and method for auxiliary contact assembly | US10252633 | 2002-09-23 | US20030060071A1 | 2003-03-27 | Christian H. Passow; Kevin B. Tews |
| A contact assembly for use in an electrical switching apparatus has an actuator. An enclosure comprises an interior space housing first and second stationary contacts fixedly mounted in spaced relation with one another in one of a normally closed position or a normally open position. A pusher is movably mounted in the enclosure and is selectively driven by the actuator to move between a normal position and an actuated position. The pusher comprises a top wall, a bottom wall and first and second side walls connected between the top wall and bottom wall to define an opening having respective first and second ends. First and second longitudinally spaced top ribs are on an inside of the top wall proximate the respective first and second side walls. First and second longitudinally spaced bottom ribs are in an inside of the bottom wall proximate the respective first and second side walls and laterally offset from the respective first and second top ribs. A movable contact is received in the opening. A contact spring is captured between the top rib and the bottom rib at either the first or the second end of the opening to bias the movable contact against the top rib and the bottom rib at the other of the first end and second end of the opening. | ||||||
| 47 | Contact assembly | US09675865 | 2000-09-29 | US06483049B1 | 2002-11-19 | Mehdi Mohtasham |
| A contact assembly comprising a plurality of pairs of spaced apart fixed contacts supported in an electrically insulating body, an actuator displaceable relative to the body between first and second positions, and a plurality of movable contacts mounted on the actuator. Each movable contact is positioned on the actuator so as to interconnect the contacts of one of the pairs of fixed contacts only when the actuator is in one of the first and second positions. Each fixed contact has two limbs defining an L-shape, one limb defining a single leg which extends through an aperture formed in a partition defined by the body and the other limb extending to one side of the leg to define a head supporting a terminal for gripping a wire. Each movable contact is displaceable into contact with the leg of each of the respective pairs of fixed contacts on the side of the leg from which the head extends and on the side of the partition remote from the head. | ||||||
| 48 | Cassette assembly with rejection features | US09512980 | 2000-02-24 | US06313425B1 | 2001-11-06 | Dennis J. Doughty; Julian Monzon; Dave Christensen; Randy Greenberg |
| A cassette assembly for rotary contact circuit breakers utilizing a first electrically insulative cassette half piece and a second electrically insulative cassette half piece which are arranged to mate with each other to form an enclosure. The electrically insulative cassette half pieces include improper installation rejection features for both the rotor and arc chute assemblies. The inner surface of a electrically insulative cassette half piece including a groove and recesses formed therein. A rotor is properly positioned within the electrically insulative cassette half piece by inserting a pin on the face of the rotor into the groove. An arc chute assembly is properly positioned within the electrically insulative cassette half piece by inserting a tab located on a side member of the arc chute assembly into a corresponding recess located in the electrically insulative cassette half piece. | ||||||
| 49 | Vent screen with rejection features | US09603977 | 2000-06-27 | US06291788B1 | 2001-09-18 | Dennis J. Doughty; Randy Greenberg |
| A vent screen for a use in a circuit breaker cassette having structural characteristics that allows it to be assembled correctly within the circuit breaker cassette and where the vent screen allows for the flow of arc gases from the arc chambers. | ||||||
| 50 | Cassette assembly with rejection features | US09627738 | 2000-07-28 | US06239398B1 | 2001-05-29 | Dennis J. Doughty; Julian Monzon; Dave Christensen; Randy Greenberg |
| A cassette assembly for rotary contact circuit breakers utilizing a first electrically insulative cassette half piece and a second electrically insulative cassette half piece which are arranged to mate with each other to form an enclosure. The electrically insulative cassette half pieces include improper installation rejection features for both the rotor and arc chute assemblies. The inner surface of a electrically insulative cassette half piece including a groove and recesses formed therein. A rotor is properly positioned within the electrically insulative cassette half piece by inserting a pin on the face of the rotor into the groove. An arc chute assembly is properly positioned within the electrically insulative cassette half piece by inserting a tab located on a side member of the arc chute assembly into a corresponding recess located in the electrically insulative cassette half piece. | ||||||
| 51 | Current limiting circuit breaker | US95178 | 1998-06-10 | US6008459A | 1999-12-28 | Timothy R. Faber; Marsha F. Jennerjohn; Todd M. Munyon |
| A molded plastic current limiting circuit breaker includes an interrupter assembly that includes an over-molded magnet, arc stack, baffle stack, and a chamber liner in which a trip unit is described. | ||||||
| 52 | Current limiting circuit breaker | US758988 | 1996-12-02 | US5718328A | 1998-02-17 | Timothy Robert Faber; Tak Man Wong |
| A molded plastic current limiting circuit breaker includes an interrupter assembly that includes an over-molded magnet, arc stack, baffle stack, and a chamber liner in which a trip unit is described. | ||||||
| 53 | Arc stack for a circuit breaker | US195233 | 1994-02-14 | US5504292A | 1996-04-02 | Dale W. Bennett; James V. Fixemer; Teresa I. Hood; Joel L. Miller; Charles E. Netolicky; Tamara L. Schultz; Randall L. Siebels; Douglas Van Waart |
| An arc stack for receiving a circuit breaker blade moveable between a closed position and an open position, includes a plurality of arc plates positioned substantially parallel to one another and arranged in a plurality of adjacent groups. Each of the groups includes one or more arc plates having substantially similar respective arc throats formed therein. The respective arc throats progressively decrease in size from group to group along the length of the arc stack in a direction extending away from the closed position of the blade. A connecting support maintains the plurality of arc plates substantially parallel to one another. | ||||||
| 54 | Arc stack for a circuit breaker | US181288 | 1994-01-13 | US5498847A | 1996-03-12 | Dale W. Bennett; James V. Fixemer; Teresa I. Hood; Randall L. Siebels; Douglas Van Waart |
| An arc stack for receiving a circuit breaker blade moveable between a closed position and an open position, includes a plurality of generally rectangular are plates having substantially similar length and width dimensions and positioned substantially parallel to one another. The straight edges of the arc plates are in line with one another so that the are stack is generally rectangular in shape. The arc plates have respective arc throats formed therein having a plurality of sizes so as to form a longitudinal passageway extending through the arc throats following the arc generated by the blade moving between the closed and open positions. The arc plates include sets of arc plates with the arc plates in each set having identical arc throats. The sets of arc plates are arranged in order of decreasing arc throat size with the set having the largest arc throats being positioned adjacent the circuit breaker blade in the closed position. The arc stack is formed in two sections with each section including a selected number of arc plates. The arc plates in each section are interconnected by a pair of side fibers engaging associated edges of the arc plates. The two sections are connected to form the arc stack by engaging the inner edges of the pair of side fibers of one section with mating inner edges of the pair of side fibers of the other section. | ||||||
| 55 | Electric switch | US3079035 | 1935-07-11 | US2071149A | 1937-02-16 | WILMS GUSTAV O; HANS PETERSEN |
| 56 | Circuit interrupters and electrical enclosures with rejection features | US15287095 | 2016-10-06 | US09842716B2 | 2017-12-12 | James Gerard Maloney; Tony Ray Benson; Eric Alan Samuelson |
| A set of circuit interrupters and electrical enclosures that are configured to permit an electrical enclosure having a current rating to have connected therewith a circuit interrupter having a current carrying rating no greater than the current rating. However, a current interrupter having a current carrying rating less than the current rating of the electrical enclosure potentially may be connected therewith. Such electrical interruption equipment employs threaded studs on bus bars that are of varying sizes and/or are separated by varying distances in order to resist an electrical enclosure having a current rating from being electrically connected with a circuit interrupter having a current carrying rating greater than the current rating. Alternatively or additionally, the circuit interrupter and/or the electrical enclosure may have interference elements that physically interfere with the mounting and/or the electrical connection of a circuit interrupter having a current carrying rating with an electrical enclosure having a current rating less than the current carrying rating. | ||||||
| 57 | Circuit interrupters and electrical enclosures with rejection features | US13963359 | 2013-08-09 | US09496690B2 | 2016-11-15 | James Gerard Maloney; Tony Ray Benson; Eric Alan Samuelson |
| A set of circuit interrupters and electrical enclosures that are configured to permit an electrical enclosure having a current rating to have connected therewith a circuit interrupter having a current carrying rating no greater than the current rating. However, a current interrupter having a current carrying rating less than the current rating of the electrical enclosure potentially may be connected therewith. Such electrical interruption equipment employs threaded studs on bus bars that are of varying sizes and/or are separated by varying distances in order to resist an electrical enclosure having a current rating from being electrically connected with a circuit interrupter having a current carrying rating greater than the current rating. Alternatively or additionally, the circuit interrupter and/or the electrical enclosure may have interference elements that physically interfere with the mounting and/or the electrical connection of a circuit interrupter having a current carrying rating with an electrical enclosure having a current rating less than the current carrying rating. | ||||||
| 58 | ELECTROMAGNETIC CONTACTOR AND ASSEMBLY METHOD FOR THE SAME | US13519759 | 2010-12-20 | US20130076463A1 | 2013-03-28 | Kouetsu Takaya; Koji Okubo; Yasuhiro Naka; Kenji Suzuki |
| There is provided a drive lever incorrect assembly detection portion (9d) and (14) which causes another end portion (9a) of a drive lever (9) to protrude to a position, of a case (4), to which a cover (5) is attached such that the cover (5) cannot be attached to the case (4) in a state where the drive lever (9) is assembled in an incorrect direction. | ||||||
| 59 | RIVERSIBLE ELECTROMAGNETIC CONTACTOR | US13322035 | 2010-06-14 | US20120133461A1 | 2012-05-31 | Yasuhiro Naka; Toshikatsu Ohgami; Koji Okubo; Kouetsu Takaya; Kenji Suzuki |
| An electromagnetic contactor (1a) is provided with an erroneous mounting prevention unit (8) which permits an entry of a connection piece when a connection piece (6f) of a reversible unit (6) attempts to enter a normal position (NP) inside a display window (3a) where the connection piece is connectable to an operation display piece (4a), and prevents the entry of the connection piece when the connection piece attempts to enter a position inside the display window (3a) deviated from the normal position (NP). | ||||||
| 60 | Illuminating Push Button Switch Having a Mistake Proof Design for Installing a LED into Said Switch | US12692657 | 2010-01-25 | US20110180377A1 | 2011-07-28 | Hong-Ming LIAO |
| An illuminating push button switch having a mistake-proof design to avoid improper installation of a light emitting diode (LED) consists essentially of a body portion (2), a cap portion (1) attached above said body portion (2), and a LED (6) inserted into the body portion (2) from the bottom. Said push button switch is characterized in that said body portion (2) incorporates a light cap (22), and a slot (23) for receiving the LED (6). A frame portion (30) is reciprocating along the light cap (22) for activating/deactivating the switch. Said mistake-proof design is provided at an inner wall of the slot (23). | ||||||
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