子分类:
| 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 | Switch assembly and method of forming the same | US09810681 | 2001-03-19 | US06459344B1 | 2002-10-01 | Anthony M. Pavio; Jenn-Hwa Huang; Wang-Chang Gu |
| A microelectromechanical system (MEMS) switch assembly (10) and a method of forming the MEMBS switch assembly (10) is provided that includes a switching member (12) having a first portion (34) that is at least partially formed with a first material having a first dielectric constant and a second portion (36) that is at least partially formed with a second material having a second dielectric constant. Furthermore, the switching member (12) further includes a first lead (14) spaced apart from a second lead (16) for contacting the switching member (12). In operation, the switching member (12) is configured for movement such that the first portion (34) and second portion (36) of the switching member (12) can provide variable electrical connections between the first lead (14) and second lead (16). | ||||||
| 42 | Switch assembly and method of forming the same | US09810681 | 2001-03-19 | US20020130732A1 | 2002-09-19 | Anthony M. Pavio; Jenn-Hwa Huang; Wang-Chang Gu |
| A microelectromechanical system (MEMS) switch assembly (10) and a method of forming the MEMBS switch assembly (10) is provided that includes a switching member (12) having a first portion (34) that is at least partially formed with a first material having a first dielectric constant and a second portion (36) that is at least partially formed with a second material having a second dielectric constant. Furthermore, the switching member (12) further includes a first lead (14) spaced apart from a second lead (16) for contacting the switching member (12). In operation, the switching member (12) is configured for movement such that the first portion (34) and second portion (36) of the switching member (12) can provide variable electrical connections between the first lead (14) and second lead (16). | ||||||
| 43 | Microelectromechanical rotary structures | US275058 | 1999-03-23 | US6137206A | 2000-10-24 | Edward A. Hill |
| MEMS (Microelectromechanical System) structures are provided that are designed to rotate in response to thermal actuation or the like. In one embodiment, the MEMS rotary structure includes a hub having one or more radial spoke members that impose a rotational force upon the hub in response to applied changes in temperature. The MEMS rotary structure can also include a ring at least partially encircling the hub and connected to the hub by means of one or more hub spoke members. Controllable clockwise, counterclockwise, or both clockwise and counterclockwise rotation of the hub or ring are provided. The MEMS rotary structures can also include thermal arched beam actuators that are operably connected to the spoke member. As the temperature changes, the thermal arched beam actuators move the spoke members in order to rotate the MEMS structure. Various applications are provided for these rotating MEMS structures, including but not limited to rotary actuators, rotary switches and relays, variable capacitors, variable resistors, shutters, and valves. | ||||||
| 44 | Tubular switch package with sliding contacts forming a portion thereof | US750574 | 1985-07-01 | US4613735A | 1986-09-23 | Gerald R. Severson; Richard C. Wade |
| A switch including an elongated tubular base member having a plurality of ring shaped insulators and conductors alternately mounted thereon and having threads formed in the outer surface thereof. A switching control ring having mating threads in the inner surface thereof and a conducting surface in sliding engagement with the outer surface of the ring shaped insulators and conductors so that switching action occurs as the control ring is moved axially along the structure. The elongated tubular base member operates as a housing to receive electronic circuitry therein, which circuitry may be sealed so that the assembled apparatus provides external switching for the internal circuitry of a hermetically sealed unit. | ||||||
| 45 | Unitized breaker point and chip capacitor assembly | US51095274 | 1974-10-02 | US3908102A | 1975-09-23 | SEIKE HELMUT K |
| A unitized breaker point and capacitor assembly for use in engine ignition systems. A chip capacitor is connected in parallel to the breaker point contacts and mounted so that it is substantially within the margins of the assembly and closely overlies the breaker arm.
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| 46 | Electric switch devices for controlling the temperature of the means to be heated byelectrical heating apparatus | US12056861 | 1961-06-29 | US3177320A | 1965-04-06 | STUART ASHE THOMAS; CAVELL THOMPSON GEORGE |
| 47 | Electric-fixture mount | US12463426 | 1926-07-24 | US1664624A | 1928-04-03 | MORRIS HEICHEN |
| 48 | Electromechanical switch | US30036619 | 1919-05-28 | US1339845A | 1920-05-11 | BURCHETT WALTER J |
| 49 | Motor control center subunit having moveable line contacts and method of manufacture | US15178711 | 2016-06-10 | US10083802B2 | 2018-09-25 | Edgar Yee; Robert A. Morris; Scott E. McPherren; Neal Edward Rowe |
| A system and method for connecting supply power to motor control components includes use of a motor control center subunit with moveable supply power contacts. After a motor control center subunit is secured into a motor control center compartment, the supply power contacts may be advanced to engage supply power buses. For disconnection, the supply power contacts may be retracted and isolated from the buses before physical removal of the subunit. | ||||||
| 50 | DEVICE FOR HAPTIC INTERFACE WITH REDUCED NO-LOAD TORQUE | US15514733 | 2015-09-29 | US20180231093A1 | 2018-08-16 | Moustapha HAFEZ; Gwenael CHANGEON; Jose LOZADA; Laurent ECK |
| A device for a rotary haptic interface including: a rotary button and an interaction member interacting with a magnetorheological fluid, the rotary button and interaction member being secured to a shaft for rotation therewith, a chamber defined by walls and containing the fluid and the interaction element, and a mechanism generating a variable magnetic field. The element for interaction with the fluid includes a skirt surrounding the shaft, the skirt being secured to a longitudinal end of the shaft opposite the end to which the rotary button is secured, and extending from the first end towards the rotary button. The shaft passes through a single wall of the chamber and a sealing mechanism is arranged between the shaft and the wall. A mechanism for guiding the rotation of the shaft is arranged around the shaft between the sealing mechanism and the rotary button. | ||||||
| 51 | Methods, systems, and computer readable media for topology control and switching loads or sources between phases of a multi-phase power distribution system | US14037344 | 2013-09-25 | US09865410B2 | 2018-01-09 | Mirrasoul J. Mousavi; Dmitry Ishchenko |
| A switching system for switching between phases in a multi-phase power distribution system includes a switch for selectively connecting a lateral line to feeder conductors of different phases in a multi-phase power distribution system. Feeder terminals of the switch are configured to connect to feeder conductors of the multi-phase power distribution system. At least one output terminal of the switch is configured to connect to the lateral line. The feeder terminals are spaced about the body of the switch. A shaft and a rotatable contact member extending radially from the shaft are configured for rotating within the switch body to selectively connect the at least one output terminal to any one or more of the feeder terminals. At least one controller operates the switch to selectively change connection of the lateral line between the feeder conductors. | ||||||
| 52 | Switching apparatus provided with switches and lever | US13820200 | 2011-09-30 | US09048036B2 | 2015-06-02 | Yukihisa Kikuchi; Yuichi Motoshige; Nobuyuki Kawai; Naoyuki Horii; Ryoji Taneda; Takehide Tone |
| A switching apparatus includes a base, a housing, a main switch for mechanically disconnecting a power supply circuit and an interlock switch for electrically disconnecting the power supply circuit. The switching apparatus also includes a lever which is rotatably supported by one of the base and the housing and also is engaged with an engaging section formed in the other of the base and the housing. The lever causes a wall of the housing to be slid in a depth direction of an annular groove of the base in accordance with a rotation of the lever. The interlock switch is disconnected ahead of the main switch by separating a movable terminal of the interlock switch away from a fixed terminal of the interlock switch when the lever is rotated to cause the housing slid in a direction away from the base. | ||||||
| 53 | Rotation switch and electronic timepiece | US12791189 | 2010-06-01 | US08220987B2 | 2012-07-17 | Soh Kimura; Syuuichi Machida |
| A rotation switch includes an operating member that is operable to rotate, a magnet member that rotates integrally with the operating member, a magnetic sensor that is placed opposite to the magnet member, and a frame-shaped magnetic shield plate that surrounds the periphery of the magnetic sensor. | ||||||
| 54 | Flashlight mounting system | US10624811 | 2003-07-22 | US06923551B2 | 2005-08-02 | Robert Galli |
| A novel attachment and mounting system for a portable handheld flashlight is provided. A universal mounting bracket including a central raised channel portion and mounting tabs connected thereto is configured to slideably receive a flashlight. The bracket includes several configurations that are tailored to the mounting conditions required. For example, the bracket includes fastener, magnetic and strap mounting configurations. Further, the channel section may be mounted in a pivotable fashion to the mounting tab to allow rotation of the flashlight mounted thereto. The flashlight includes a clip on the back thereof that is slideably received in the channel section to facilitate easy mounting and dismounting of the flashlight in the bracket. | ||||||
| 55 | Waterproof flashlight assembly | US10729399 | 2003-12-05 | US06814464B2 | 2004-11-09 | Robert Galli |
| A novel construction and method for manufacturing a flashlight housing is provided. The housing includes two interior compartments wherein a lighting assembly is installed into a first compartment and a power supply is installed into a second compartment. The lighting assembly includes two contacts that extend from the first compartment into the second compartment and are in electrical communication with the power source thereby providing power for the lighting assembly. The housing is configured to include a faceplate that is permanently sealed to the housing to create a positively sealed assembly that prevents infiltration of water or other contaminants into the housing. | ||||||
| 56 | Method of manufacturing a waterproof flashlight assembly | US10601924 | 2003-06-23 | US06763584B2 | 2004-07-20 | Robert Galli |
| A novel construction and method for manufacturing a flashlight housing is provided. The housing includes two interior compartments wherein a lighting assembly is installed into a first compartment and a power supply is installed into a second compartment. The lighting assembly includes two contacts that extend from the first compartment into the second compartment and are in electrical communication with the power source thereby providing power for the lighting assembly. The housing is configured to include a faceplate that is permanently sealed to the housing to create a positively sealed assembly that prevents infiltration of water or other contaminants into the housing. | ||||||
| 57 | Manual input device | US10691335 | 2003-10-22 | US20040087403A1 | 2004-05-06 | Takuya Maeda |
| A manual input device contains a rotatable operating member, a motor that exerts a rotational force on the operating member, a planet gear mechanism having a sun gear fixed to an output shaft of the motor, planet gears engaging and moving around the sun gear, a ring gear engaging the planet gears on the inner peripheral side thereof, a carrier rotatably supporting the planet gears and rotating along with the planet gears, and a carrier shaft rotating integrally with the carrier and the operating member. A motor holder has at least one projection which abuts against at least one side surface of an end portion of the motor, is disposed on a side of the motor holder opposite from an output shaft side of the motor holder, and is configured to hold the motor. | ||||||
| 58 | Magnetic rotary switch mechanism | US10395908 | 2003-03-24 | US06670874B1 | 2003-12-30 | Robert D. Galli |
| A novel construction for a multifunctional rotary switching device is provided. The body of the switch includes a radial array of magnetic field effect sensors arranged on a base switch component such as a printed circuit board switching substrate. Each of the sensors is connected via circuit traces with a central logic chip also mounted on the circuit board. An array magnets is installed into a rotatable actuator in close proximity to the surface of the sensors whereby the magnetic force causes the corresponding sensors to switch to an open position when one of the magnets is in their proximity. In this position, the logic chip can detect which of the sensors are open and execute a set of pre-programmed instructions corresponding to the sequence of open sensors. | ||||||
| 59 | Method of manufacturing a waterproof flashlight assembly | US10601924 | 2003-06-23 | US20030230470A1 | 2003-12-18 | Robert Galli |
| A novel construction and method for manufacturing a flashlight housing is provided. The housing includes two interior compartments wherein a lighting assembly is installed into a first compartment and a power supply is installed into a second compartment. The lighting assembly includes two contacts that extend from the first compartment into the second compartment and are in electrical communication with the power source thereby providing power for the lighting assembly. The housing is configured to include a faceplate that is permanently sealed to the housing to create a positively sealed assembly that prevents infiltration of water or other contaminants into the housing. | ||||||
| 60 | Automatic switching of motion control with tactile feedback | US364274 | 1989-06-12 | US4947097A | 1990-08-07 | Douglas K. Tao |
| A rotary control knob is adapted to provide for automatic switching between two modes of movement control for a tape transport. An insulative ring surrounds a conductive knob, and the conductive knob is electrically connected to an oscillator circuit. Changes in the oscillator frequency due to operator contact with the conductive knob during movement of the knob are sensed to produce one mode of movement control, while movement of the knob due to operator contact with the insulative ring do not affect the oscillator frequency and indicate an alternative, default mode of movement control. A stepper motor is mechanically coupled to the control knob, and is electrically engaged in the default mode and disengaged in the one mode. In the default mode when the control knob reaches a predetermined control limit, a brake signal is generated that increases the current in the coils of the stepper motor, the increase in current resulting in increased resistance to movement of the control knob to provide tactile feedback to the operator. | ||||||
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