| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 101 | Process for separating ferrophosphorus and phosphorus furnace slag from one another in a casting bed | US3720506D | 1970-07-08 | US3720506A | 1973-03-13 | MULLER F; WERNER H; NOLDEN W; THUMMLER U |
| Process for separating ferrophosphorus and phosphorus furnace slag from one another in, and removing them from, a casting bed receiving a ferrophosphorus/phosphorus furnace slag-mixture. The mixture is poured into the casting bed, allowed to remain therein for a period of 2 to 2.5 hours and then cooled; after a period of between 4 and 5 hours after pouring, the phosphorus furnace slag is crushed from above by subjecting it to mechanical breaking stresses or impact stresses and the crushed slag is removed from the downstream end of the casting bed; and, after a period of between 5 and 6 hours after pouring, the ferrophosphorus is crushed away from above by subjecting it to mechanical impact stresses and the crushed ferrophosphorus is removed from below. Apparatus for use in carrying out the process. The apparatus may be a digger provided with a telescopic arm which is arranged so as to be rotatable around its longitudinal axis and has interchangeable crushing means, slag removing means or ferrophosphorus removing means mounted on the head end of the said telescopic arm.
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| 102 | Dictating and transcribing apparatus with rapid transcriber alignment and movement facilities | US3588119D | 1968-01-19 | US3588119A | 1971-06-28 | CATER JACK; JOHNSON FRED W; WEHMER BRUNO F |
| THE INVENTION CONCERNS DICTATING AND TRANSCRIBING APPARATUS USING A MAGNETIC BELT RECORD MEDIA AND HAVING A VARIETY OF AUTOMATIC AND SEMIAUTOMATIC FEATURES. THE DICTATING UNIT HAS AN ASSOCIATED MICROPHONE WITH CONTROL BUTTONS FOR ESTABLISHING MODES OF OPERATION, INITIATING FORWARD AND BACKSPACING MOVEMENTS, CONTROLLING THE MARKING OF AN INDEX SLIP, AND SIMILAR OPERATIONS. THE TRANSCRIBING UNIT HAS AN ASSOCIATED HEAD SET AND FOOT CONTROL AND VARIOUS OPERATING CONTROLS, PROVIDED ON THE FRONT OF THE TRANSCRIBING UNIT. TRANSCRIBING OPERATIONS ARE UNDER CONTROL OF A FOOT PEDAL AND INCLUDER STARTING AND STOPPING OF THE BELT MOVEMENT, A SYMMETRICAL FORWARD AND REVERSE REVIEW WHICH IS REPEATABLE, AND OTHER OPERATIONS REQUIRED FOR TRANSCRIBING. EACH UNIT IS PROVIDED WITH INDEPENDENT MECHANISMS FOR RESTORING THE SOUND TRANSDUCER WHEN A BELT IS UNLOADED, CONTROL MEANS FOR ESTABLISHING ONE INITIAL MARGIN DURING RECORDING AND ANOTHER INITIAL MARGIN DURING PLAYBACK, AND MEANS FOR RAPIDLY ALIGNING THE SOUND HEAD IN RELATION TO THE RECORD MEDIA FOLLOWING A MANUAL SCAN OPERATION. APPROPRIATE WARNING SIGNALS TO INDICATE END OF BELT, BELT POSITIONING, ETC. ARE PROVIDED.
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| 103 | Magnetic switch | US76158458 | 1958-09-17 | US2971068A | 1961-02-07 | CLAUDE WEGNER |
| 104 | schmidt | US2899513D | US2899513A | 1959-08-11 | ||
| 105 | Electric switch | US36590740 | 1940-11-16 | US2248362A | 1941-07-08 | KRIEGER ALVIN W |
| 106 | Electric switch | US7294136 | 1936-04-06 | US2209918A | 1940-07-30 | HAMMERLY HERMAN J |
| 107 | Switch | US1714531D | US1714531A | 1929-05-28 | ||
| 108 | Tumbler switch | US6660725 | 1925-11-03 | US1714526A | 1929-05-28 | SMITH RALPH R |
| 109 | Switch | US75491324 | 1924-12-10 | US1588515A | 1926-06-15 | BARANY EDMUND R |
| 110 | Apparatus And Methods For Remote Control Of Input Devices | US15898373 | 2018-02-16 | US20180174782A1 | 2018-06-21 | Taehyun PARK; Hyodong KIM; Hyojae SON; Yongsuk CHOI; Jinsu CHOI |
| An apparatus includes communication circuit; an actuator electrically coupled with the communication circuit; and a switch engagement component mechanically coupled with the actuator. The apparatus is configured for mounting adjacent to a switch (e.g., a rocker switch, a toggle switch, a button switch, etc.). The communication circuit is configured to activate the actuator in response to one or more instructions received by the communication circuit. The actuator is configured to rotate the switch engagement component. Rotating the switch engagement component while the switch is in a first state places the switch in a second state that is distinct from the first state. | ||||||
| 111 | Apparatus and methods for remote control of input devices | US15624536 | 2017-06-15 | US09934918B2 | 2018-04-03 | Taehyun Park |
| An apparatus includes communication circuit; an actuator electrically coupled with the communication circuit; and a switch engagement component mechanically coupled with the actuator. The apparatus is configured for mounting adjacent to a switch (e.g., a rocker switch, a toggle switch, a button switch, etc.). The communication circuit is configured to activate the actuator in response to one or more instructions received by the communication circuit. The actuator is configured to rotate the switch engagement component. Rotating the switch engagement component while the switch is in a first state places the switch in a second state that is distinct from the first state. | ||||||
| 112 | LIGHT ADJUSTING DEVICE | US15444702 | 2017-02-28 | US20180063921A1 | 2018-03-01 | Shaotong Zheng |
| A light adjusting device includes a housing, a light adjusting assembly and a circuit switching mechanism. The circuit switching mechanism is connected to the light adjusting assembly. The light adjusting assembly can be in communication with a first circuit and a second circuit respectively by means of the circuit switching mechanism, so as to control light-emitting elements in the first and second circuits by one light adjusting device. | ||||||
| 113 | Techniques to Route Power to a USB Host in Dead Battery Condition | US15495940 | 2017-04-24 | US20170293338A1 | 2017-10-12 | SCOT LESTER |
| Examples may include routing power between a Universal Serial Bus (USB) host and a USB device. In some examples, the power may be routed from a power source at the USB device while the USB host is in a dead battery condition. Various switches at the USB host may be capable of selectively switching to route power from the power source to provide operating power to circuitry at the USB host. | ||||||
| 114 | Apparatus And Methods For Remote Control Of Input Devices | US15624536 | 2017-06-15 | US20170287658A1 | 2017-10-05 | Taehyun PARK |
| An apparatus includes communication circuit; an actuator electrically coupled with the communication circuit; and a switch engagement component mechanically coupled with the actuator. The apparatus is configured for mounting adjacent to a switch (e.g., a rocker switch, a toggle switch, a button switch, etc.). The communication circuit is configured to activate the actuator in response to one or more instructions received by the communication circuit. The actuator is configured to rotate the switch engagement component. Rotating the switch engagement component while the switch is in a first state places the switch in a second state that is distinct from the first state. | ||||||
| 115 | Zero moment switch mechanism | US15223682 | 2016-07-29 | US09721740B1 | 2017-08-01 | Scott Carpenter |
| A magnetically-triggered proximity switch includes an actuator assembly disposed within a switch body, and the actuator assembly includes an actuator body extending along an actuator axis. A primary contact and a secondary contact is each coupled to the actuator body and may be separated from a center contact along the actuator axis. The actuator assembly is pivotable between a first switch position and a second switch position about a pivot axis. In the first switch position, the center contact is in contact with a common contact and the first contact is in contact with a primary contact, thereby completing a circuit between a common arm and a primary arm. In the second switch position, the center contact is in contact with the common contact and the second contact is in contact with a secondary contact, thereby completing a circuit between the common arm and a secondary arm. | ||||||
| 116 | Device for operating multiple functions in a motor vehicle | US14881205 | 2015-10-13 | US09672994B2 | 2017-06-06 | Michael Bleckmann; Corinna Machatzke |
| A device for operating multiple functions includes an operating element and a base. The base has side bearings with guide slots, hinge joints with pivot pins, and an actuator. The operating element is mounted in the guide slots to pivotably be mounted to the side bearings about an axis of rotation to thereby be movable between positions. At least one of the positions is assigned to a switching function. The operating element is mounted to the base on a centered bearing between the side bearings. The operating element is supported on the pivot pins. Upon the operating element being actuated to trigger a switching function, the actuator produces a haptic feedback by generating an actuating force on the operating element which causes the pivot pins to pivot in a direction parallel to the axis of rotation thereby causing the operating element to axially displace along this same direction. | ||||||
| 117 | SWITCH MODULE OF BUILT-IN ANTI-SURGE DISCONNECTION STRUCTURE | US14824211 | 2015-08-12 | US20170047180A1 | 2017-02-16 | YI-HSIANG WANG; I-YING WANG |
| A switch module of built-in anti-surge disconnection structure mainly comprises an overcurrent protection switch and has anti-surge and disconnection structures ingeniously built inside a fire-proof and heat-resisting housing. The present invention comprises a switch area formed by a binary alloy conductive spring leaf and two connecting points, an anti-surge area formed by at least one bare metal oxide varistor placed in the housing and a plurality of conductive plates, and a disconnection area formed by a spring element, a band, and a thermo-sensitive piece. When the connecting points in the switch area are contacting with each other—turning on the switch—and an overvoltage occurs, the temperature of the metal oxide varistor would suddenly rise up to a degree higher than a pre-determined number, melting the thermo-sensitive piece, loosening and displacing the band, thus ejecting the spring element and forcing the connecting points detaching from each other to turn off the switch, so as to ensure more of electricity safety. | ||||||
| 118 | Modular electronic detection device | US14112104 | 2012-04-16 | US09331688B2 | 2016-05-03 | Katell Moreau; Benoit Dantin; Nicolas Chevassus |
| A modular electronic detection device comprises a mechanical actuator connected to a target through a front surface of a panel. The device further comprises a plurality of sensors for detecting the position of the target, which are connected to a printed circuit board. The modular detection device of the present invention can be incorporated into an aircraft and can be used in aircraft assembly. | ||||||
| 119 | FISHING ALARM APPARATUS | US14885758 | 2015-10-16 | US20160106086A1 | 2016-04-21 | Dan Braaten; Gary Skogman; Mario Carrillo |
| Fishing alarm apparatuses are described herein. One apparatus can include an electrical circuit for receiving power from a power source, a set of contacts that, when they are connected to each other, cause an alarm component to be actuated, a shut off mechanism to turn off the actuated alarm component, a mechanism to turn on a light for illumination of an area around the apparatus, and wherein a fishing line is held between the set of contacts while waiting for an animal to pull on the line and remove it from between the set of contacts and once removed, the set of contacts connect with each other to cause the alarm component to be actuated. | ||||||
| 120 | Electrical device with axial control | US13906390 | 2013-05-31 | US09202648B2 | 2015-12-01 | Alberto Volpato; Antonio Cavalli |
| Electrical device with axial control, such as switch, double-pole switch, toggle switch, inverter or the like, including a box-like containment structure (20) in insulating material, in which are housed: at least two connection terminals (31, 32), at least one fixed electrical contact (35) connected to one (31) of the connection terminals, at least one rocker arm element (36) carrying at least one mobile electrical contact (37) and connected electrically to another (32) of the connection terminals, and an axial actuation member (70) kinematically connected via a first oscillating support (50) to the rocker arm element (36), so as to make it oscillate between two predetermined stable positions, wherein on the first oscillating support (50) acts a second oscillating support (60) which is made to oscillate in one direction or in the other at each actuation of the axial actuation member (70). | ||||||
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