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 | 負荷時タップ切換器および負荷時タップ切換器の定められた切換位置の非常時の運転を調整するための方法 | JP2016526486 | 2014-06-24 | JP2016524348A | 2016-08-12 | フェリクスベルガー・ゲルハルト; ヨプスト・ヨハン |
| 本発明は、非常時の駆動装置を備えた電動モータで駆動される負荷時タップ切換器(1)に関する。電動モータ(3)と負荷時タップ切換器(1)の動力貯蔵機構(13)は、伝動装置ハウジング(90)を備えた伝動装置(5)と機械式に連結されている。伝動装置(5)は伝動装置シャフト(61)を備えており、この伝動装置シャフト上に歯部(55)が形成されている。手動による非常時の運転のために、本発明による伝動装置シャフト(61)は、延長部(62)を形成しており、この延長部は工具(95)を取付けるための自由端(65)を備えている。さらに本発明は負荷時タップ切換器(1)の定められた切換位置の非常時の運転を調整するための方法に関する。 | ||||||
| 42 | Power load switch of the operating device | JP34464999 | 1999-12-03 | JP3574367B2 | 2004-10-06 | 稔正 丸山; 俊文 佐藤; 聖一 宮本; 稔 小林; 孝行 糸谷 |
| 43 | Operating apparatus for power load switchgear | JP34464999 | 1999-12-03 | JP2001160340A | 2001-06-12 | KOBAYASHI MINORU; MARUYAMA TOSHIMASA; SATO TOSHIBUMI; MIYAMOTO SEIICHI; ITOTANI TAKAYUKI |
| PROBLEM TO BE SOLVED: To provide an operating apparatus for power load switchgear that is intended for the improvement in transfer efficiency of force and intended for size reduction. SOLUTION: Rotary motion from the drive shaft 1b of a driving mechanism 1 is transmitted to a operating member 9 fixed to the output shaft 6 as the rotary motion as is, without conversion into a linear motion through input spar gears 3, a cylindrical roller 5, a rotary lever 7 and the like. Transmission of motion between the cylindrical roller 5 and rotary lever 7 is conducted, by making the side face of the cylindrical roller 5 contact with a closed cam hole 6 provided on the rotary lever 7. COPYRIGHT: (C)2001,JPO | ||||||
| 44 | Actuator switch of electrical power tool | JP13628694 | 1994-05-26 | JPH06339875A | 1994-12-13 | RONARUDO SHII MATSUKAREI; ROBAATO II MATSUKURATSUKEN; JIEEMUSU EI KEISU JIYUNIA |
| PURPOSE: To provide an actuator switch for power tool capable of preventing chips and dust occuring during cutting operation from flowing into a housing, preventing a motor from stopping accidentally due to the vibration of a tool, and eliminating the necessity of high degree mechanical precision of constituent parts. CONSTITUTION: A plunger 42 is provided in an opening 32 of a switch main body 28 so as to protrude and recede, and an electric switch is switched to ON position at a recede position of the plunger 42. Protrusion and receding of the plunger are done by the operation of a trigger 22, and an elastic pad 44 is provided at a position covering the opening 32 between the trigger 22 and the switch main body 28. Consequently, the elastic pad 44 blocks the opening to prevent the entry of dust, the vibration of a tool is absorbed or damped by its elastic deformation, and accidental opening of a switch contact is prevented. | ||||||
| 45 | Switch driver | JP26760685 | 1985-11-29 | JPS61135015A | 1986-06-23 | PEETERU HERUTSUITSUHI |
| 46 | Device for driving breaker | JP7548585 | 1985-04-11 | JPS60230325A | 1985-11-15 | GERUHARUTO KERUNAA; BARUTAA HAAN; HORUSUTO PURETSUTONAA |
| 47 | On-load tap changer and method of emergency setting defined switching position thereof | US14899568 | 2014-06-24 | US10074492B2 | 2018-09-11 | Gerhard Felixberger; Johann Jobst |
| The invention relates to an electric motor-operated on-load tap changer (1) comprising an emergency drive. An electric motor (3) and a power store (13) of said on-load tap changer (1) are mechanically coupled by means of a gear (5) that is provided with a gear housing (90). The gear (5) comprises a gear shaft (61) on which a toothing (55) is designed. For manual emergency operation, the claimed gear shaft (61) has an extension (62) which comprises a free end (65) for attaching a tool (95). The invention also relates to a method for adjusting a defined switching position of an on-load tap changer (1) when in an emergency operation mode. | ||||||
| 48 | Method and apparatus for supplying regulated electric power | US15056474 | 2016-02-29 | US10008342B2 | 2018-06-26 | Chandra S. Namuduri; Suresh Gopalakrishnan; Nicholas W. Pinto; Nancy L. Johnson |
| A device for supplying electric power includes a rectifier, an adaptive voltage clamping circuit, and a DC-DC voltage regulator. The rectifier receives electrical power, and is electrically connected to an input line of the adaptive voltage clamping circuit. The adaptive voltage clamping circuit includes a power transistor, a voltage feedback circuit, and a controller. The DC-DC voltage regulator is electrically connected to the adaptive voltage clamping circuit and, in one embodiment an actuator. The controller monitors the voltage feedback circuit and controls the power transistor to a fully open state to transfer electric power to the DC-DC voltage regulator when the voltage level supplied to the DC-DC voltage regulator is less than a threshold. The controller controls the power transistor in a linear state to regulate the voltage transferred to the DC-DC voltage regulator when the voltage level supplied to the DC-DC voltage regulator is greater than the threshold. | ||||||
| 49 | BATTERY POWERED KEYPAD ASSEMBLY | US15342639 | 2016-11-03 | US20180122601A1 | 2018-05-03 | Stan Wisniewski; Russikesh Kumar |
| A battery powered control device configured to be mounted on a wall comprising a front housing cover comprising a vertical wall and a bezel frame extending therefrom, a button assembly, a circuit board, and a rear housing plate. The button assembly is located within the bezel frame and comprises at least one button protruding through an opening in the bezel frame. The circuit board is located within the bezel frame behind the button assembly and comprises at least one tactile switch configured for being depressed by the at least one button. The rear housing plate is mounted within the front housing cover such that a periphery of the rear housing plate fits within and is surrounded by a peripheral wall of the front housing cover and a rear surface of the rear housing plate is substantially flush with the terminal end of the peripheral wall of the front housing cover. The battery powered control device further comprises a battery receiving channel located on one side of the bezel frame and configured for guiding a battery through a battery receiving opening in the front housing cover and into a battery compartment located between the circuit board and the rear housing plate. | ||||||
| 50 | METHOD AND APPARATUS FOR SUPPLYING REGULATED ELECTRIC POWER | US15056474 | 2016-02-29 | US20180038356A1 | 2018-02-08 | Chandra S. Namuduri; Suresh Gopalakrishnan; Nicholas W. Pinto; Nancy L. Johnson |
| A device for supplying electric power includes a rectifier, an adaptive voltage clamping circuit, and a DC-DC voltage regulator. The rectifier receives electrical power, and is electrically connected to an input line of the adaptive voltage clamping circuit. The adaptive voltage clamping circuit includes a power transistor, a voltage feedback circuit, and a controller. The DC-DC voltage regulator is electrically connected to the adaptive voltage clamping circuit and, in one embodiment an actuator. The controller monitors the voltage feedback circuit and controls the power transistor to a fully open state to transfer electric power to the DC-DC voltage regulator when the voltage level supplied to the DC-DC voltage regulator is less than a threshold. The controller controls the power transistor in a linear state to regulate the voltage transferred to the DC-DC voltage regulator when the voltage level supplied to the DC-DC voltage regulator is greater than the threshold. | ||||||
| 51 | Intelligent lighting control apparatuses, systems, and methods | US15452483 | 2017-03-07 | US09839099B2 | 2017-12-05 | William Lark, Jr.; Ann Claire Lim Chi Cheung |
| The present disclosure provides light switch modules and methods of implementing a light switch module for a lighting control system. The light switch modules include a light switch actuator including an actuation surface. The light switch actuator is movable to connect an electrical flow path and to activate a tactile display housed in the light switch actuator. One or more tactile motions are applied on the actuation surface of the light switch actuator for selecting a lighting setting from among a plurality of lighting settings using the tactile display. | ||||||
| 52 | HOME AUTOMATION ECOSYSTEM DEVICES AND POWER MANAGEMENT | US15368573 | 2016-12-03 | US20170105176A1 | 2017-04-13 | Dean Finnegan; Geoff White; Robert Y. Romano; Tyler Kroymann; Ashish Dua; Daniel Peng |
| Control and automation devices and systems for automatically and/or remotely controlling fixtures such as, for example, light fixtures and/or other electrical and/or electronic devices, by controlling, operating, and/or interacting with existing switches, controls, power sources, and/or other components already present in an environment of interest, and methods for their installation and use; conservation of power in wireless devices while providing capacity for power and bandwidth demanding applications such as, for example, video transmission. | ||||||
| 53 | Switch automation device | US14617020 | 2015-02-09 | US09418802B2 | 2016-08-16 | Robert Y. Romano; Tyler Kroymann; Ashish Dua; Daniel Peng |
| An automation device to control a pre-existing light switch is described which attaches to the light switch by internal magnets at locations corresponding to the magnetic screw heads of the light switch. This makes installation a simple process requiring no hand tools or electrical connections be made with the light switch. The automation device can be wired or wirelessly controlled and works with both toggle light switches and rocker light switches. Additional functionalities include various timed and automated operations as well as device and user location determinations. | ||||||
| 54 | Switch Automation Device | US14617020 | 2015-02-09 | US20150228426A1 | 2015-08-13 | Robert Y. Romano; Tyler Kroymann; Ashish Dua; Daniel Peng |
| An automation device to control a pre-existing light switch is described which attaches to the light switch by internal magnets at locations corresponding to the magnetic screw heads of the light switch. This makes installation a simple process requiring no hand tools or electrical connections be made with the light switch. The automation device can be wired or wirelessly controlled and works with both toggle light switches and rocker light switches. Additional functionalities include various timed and automated operations as well as device and user location determinations. | ||||||
| 55 | SWITCH AND CONTROL METHOD THEREOF | US14246813 | 2014-04-07 | US20140346026A1 | 2014-11-27 | Yasuhiro SAKASHITA; Yasuhiro KIYONO |
| A switch and a method for controlling the switch, the switch including a movable touch piece configured to be turned by manual operation of an operation button, a movable contact that is provided in the movable touch piece and configured to be brought into contact with and separated from a fixed contact to close and open a contact, and a remote control unit configured to be able to operate the operation button by remote control, the remote control unit including a stepping motor, and a transmission member configured to transmit turning action of the stepping motor to the operation button to close and open the contact. | ||||||
| 56 | Wirelessly powered secondary electrical distribution equipment | US12246974 | 2008-10-07 | US07948352B2 | 2011-05-24 | Le Tang; Mohamed Y. Haj-Maharsi; Ernst Scholtz |
| A wireless secondary assembly is disclosed for use in an electrical distribution network. The secondary assembly may include a wireless source electrically connected to a first electric cable and adapted to emit an electromagnetic power signal. A wireless receiver is electrically connected to a secondary device and adapted to receive the electromagnetic power signal and convert the electromagnetic power signal to electricity to power to secondary device. | ||||||
| 57 | Activating assembly for a power switch assembly | US10998620 | 2004-11-30 | US06989502B1 | 2006-01-24 | Wen-Feng Lu |
| An activating device for a switch assembly includes a control panel having a guiding track defined therein, a first arm pivotally connected to the control panel for connection to the first switch, a second arm pivotally connected to the control panel for connection to the second switch, a sliding block slidably received in the guiding track such that the first switch and the second switch are selectively switched on/off; a push rod pivotally received in the sliding block to alternately engage with the first arm and the second arm such that the first switch and the second switch are selectively switched off/on and a driving device to drive the sliding block to move in both the first direction and the second direction. | ||||||
| 58 | Switch having integral remote actuating device | US10037368 | 2002-01-04 | US06714106B1 | 2004-03-30 | Neil A. Czarnecki; Francis W. Camps; Ray C. Wojtak |
| A manually operable switch has an opening handle pivotally mounted on a housing for moving a set of contacts in the housing from one position to another. A force generating arrangement is mounted outside the switch housing, and a force translation system extends between the housing and the force generating arrangement. The force translation system has a first end structure movable into and out of contact with the operating handle, and a second end structure disposed for movement in the force generating arrangement. | ||||||
| 59 | Remotely operable switch actuator and method for retrofitting a manually operated enclosed electrical disconnect switch | US08993068 | 1997-12-18 | US06181256B2 | 2001-01-30 | George Fitzsimmons; David Emerson Greer |
| A remotely operable switch actuation module for retrofitting a manually operated disconnect switch. The switch actuation module includes a linear operator which produces a linear movement in response to an external signal and a mechanical interface shaft which translates the linear movement into rotational movement required by the switch operating mechanism to change the ON or OFF state of the disconnect switch. The ends of the mechanical interface shaft are provided with engagement means complementary to the engagement means provide on switch operating mechanism pivot shaft and the operating arm of the manually operated disconnect switch. Therefore, the mechanical interface permits the switch operating mechanism to be engaged by either the remote switch actuation module or the manual operating arm. The switch actuation module also includes a switch status indicator which produces an electric signal indicating the ON or OFF state of the disconnect switch. The switch status signal is sent to a remote device for displaying or monitoring the disconnect switch ON or OFF status. | ||||||
| 60 | Control device | US18823 | 1993-02-18 | US5381080A | 1995-01-10 | Klaus Schnell; Gunther Hahlganss |
| A control device, particularly a rotary controller for manual entry of information into an electronic device, has a setting member the position of which can be changed under the effect of an actuating force. The setting member is connected with a generator for producing electric signals which characterize the position of the setting member. A drive element is connected with the setting member and, under the control of the electric signals, exerts a force on the setting member which acts in the same direction as or in the direction opposite to the actuating force, depending on the position of the setting member for haptic acknowledgement of the operation of the setting member. | ||||||
QQ群二维码
意见反馈
意见反馈