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 |
|---|---|---|---|---|---|---|
| 21 | УСТРОЙСТВО ПРОИЗВОДСТВА МОЛНИЙ | UAU201203681 | 2012-03-27 | UA74292U | 2012-10-25 | ONYSCHUK VASYL VARFOLOMIIOVYCH |
| Устройстводляпроизводствамолнийсодержиткубическуюкоробку, вцентрекоторойянтарныйстержневойшестимач. Коробкаимеетдвойнуюобшивкус пространствоммеждустенкамиширинойравной , которыесоединенымеждусобойс помощьюсистемыжесткихдырчатыхперегородок. Пространствомеждустенкамизаполняетсягазомгелияприегодавлении, равном 0,02 атмилинебольшеуказаннойвеличины. | ||||||
| 22 | СВЕТЛОВАЯ ЭЛЕКТРОСТАНЦИЯ | RU2011108333 | 2011-03-03 | RU2011108333A | 2012-09-10 | |
| Светловаяэлектростанция, содержащаяосциллятор, включающийпостоянныемагниты, укрепленныенарычагах, которыеподвешенынавалуустройстваэлектропитания, отличающаясятем, чтовал, накоторомподвешенырычаги, соединенс обгонноймуфтой, котораямеханическисоединенас пружиной, приводом, передающимсвоивращательныедействияизвестнымспособомнароторэлектрогенератора, апитаниеосциллятораи устройств, приводимыхв действиеосциллятором, осуществляетсяотфотопреобразователя. | ||||||
| 23 | УСТРОЙСТВО ДЛЯ ПЕРЕДАЧИ ЭНЕРГИИ БЕЗ ПРОВОДОВ | UAU201001923 | 2010-02-22 | UA52047U | 2010-08-10 | HUMENIUK VOLODYMYR ROSTYSLAVOVYCH |
| 24 | TYPES OF THE EDISON PERPETUAL MOTORS ABOARD A STAR SHIP MAKING STAR WARS | CA2572538 | 2006-12-27 | CA2572538A1 | 2008-06-27 | EDISON PETER |
| The (2) types of THE EDISON PERPETUAL MOTORS was used to show what they could do. That they could be used to make the Propulsion System of a Star Ship and to make Star Wars. Laser Guns shooting at Inter Continental Nuclear Missiles. These Perpetual Motors are Environment Friendly (They run with Magnetism) NOT Crude Oil Products. These Motors will give us the clean air that all the People and Governments of the World is after. These (2) types of THE EDISON PERPETUAL MOTORS will Excel the Industrial World and make a Super Race, and a better World to live in. | ||||||
| 25 | Thermal emitter for energy conversion technical field | US15347961 | 2016-11-10 | US10797633B2 | 2020-10-06 | Bingnan Wang; Chungwei Lin; Jianjian Wang; Koon Hoo Teo |
| A thermal emitter including a substrate and a grating arranged atop the substrate, the grating includes a plurality of equidistant structures having a cross-section with a trapezoid shape. Material of the substrate and the grating converts incoming heat into radiation. | ||||||
| 26 | Ferrite-induced spatial modification of EM field patterns | US12926664 | 2010-12-02 | US20140063676A1 | 2014-03-06 | Michael Sigalov; Alexander Bilchinsky; Eran Ben Shmuel |
| An apparatus for exciting a rotating field pattern in a cavity containing an object, the apparatus comprising a radiating element configured to excite an electromagnetic (EM) field pattern in the cavity, wherein the EM field pattern is excited with EM energy at a frequency in the radio-frequency (RF) range, a field rotating element configured to rotate the EM field pattern, wherein the field rotating element has an anisotropy, the anisotropy selected from magnetic anisotropy, electric anisotropy, and a combination of magnetic and electric anisotropies, and a controller configured to determine the EM field pattern according to value indicative of energy absorbable by the object and to control the anisotropy of the field rotating element in order to rotate the EM field pattern. | ||||||
| 27 | METHOD OF UTILIZING DUAL COMPARATORS TO FACILITATE A PRECISION SIGNAL RECTIFICATION AND TIMING SYSTEM WITHOUT SIGNAL FEEDBACK | US13170443 | 2011-06-28 | US20130002305A1 | 2013-01-03 | Steven Thomas Clemens |
| A method and an associated apparatus for a signal rectification and timing circuit. A variable amplitude input signal is generated. An upper threshold level is determined and a lower threshold level is determined. The variable amplitude input signal and the upper threshold level are input into a first comparator. The variable amplitude input signal and the lower threshold level are input into a second comparator. A first digital output signal is generated in the first comparator using a hysteresis circuit and a second digital output signal is generated in the second comparator using a hysteresis circuit. The first digital output signal and the second digital output signal are input into a logic array. A digital level pulse output signal is generated in the logic array that has a digital transition where the variable amplitude input signal passed through a threshold level. | ||||||
| 28 | DISCHARGE DEVICE AND TEST SYSTEM HAVING THE SAME | US13048572 | 2011-03-15 | US20120161779A1 | 2012-06-28 | Jiau-Cheng Shiau; Chia-Ming Chen |
| A discharge device and a test system having the same are provided. The test system comprises at least one power supply module, a test instrument and a discharge device. The power supply module supplies power to a device under test. The test instrument is connected to the device under test. The test instrument performs a plurality of on-power test procedures on the device under test. The discharge device comprises at least one first constant current discharge unit disposed in the test instrument, at least one second constant current discharge unit disposed in the power supply module and a control module. The control module controls the first and the second constant current discharge units to drain a constant current from the device under test and the power supply module to perform a discharge process when each one of the on-power test procedures is finished. | ||||||
| 29 | Electrical line conditioner | US11906435 | 2007-10-02 | US20090001820A1 | 2009-01-01 | George Dewberry |
| An electrical line conditioner or energy conservation device, a process of manufacturing thereof, and a method of use thereof. The energy conservation device, or electrical line conditioner, comprises at least two different electrochemically oxidized aluminum alloy units that may be placed near electrical lines or electrical panels or surround electrical lines to reduce energy consumption without compromising performance of a load. A first electrochemically oxidized aluminum alloy unit may be violet, a second electrochemically oxidized aluminum alloy unit may be black. The electrical line conditioner may further comprise a spacer and a band to secure the electrical line conditioner to electrical lines. The electrical line conditioner is produced using an anodizing process. | ||||||
| 30 | Electrical line conditioner | US11985388 | 2007-11-15 | US20090001811A1 | 2009-01-01 | George Dewberry |
| An electrical line conditioner or energy conservation device, a process of manufacturing thereof, and a method of use thereof. The energy conservation device, or electrical line conditioner, comprises at least two different electrochemically oxidized aluminum alloy units that may be placed near electrical lines or electrical panels or surround electrical lines to reduce energy consumption without compromising performance of a load. A first electrochemically oxidized aluminum alloy unit may be violet, a second electrochemically oxidized aluminum alloy unit may be black. The electrical line conditioner may further comprise a spacer and a band to secure the electrical line conditioner to electrical lines. The electrical line conditioner is produced using an anodizing process. | ||||||
| 31 | Remote structure utility control (RSUC) | US11633101 | 2007-05-29 | US20080296981A1 | 2008-12-04 | David Yaakov |
| The Remote Structure Utility control (RSUC) is a devise that is placed in a home or business that allows the user to turn the power on and off to different outlets remotely. The power can be turned on and off by using a cell phone, a landline, or the internet. | ||||||
| 32 | Four-gate transistor analog multiplier circuit | US11804893 | 2007-05-21 | US20080001658A1 | 2008-01-03 | Mohammad Mojarradi; Benjamin Blalock; Sorin Cristoloveanu; Suheng Chen; Kerem Akarvardar |
| A differential output analog multiplier circuit utilizing four G4-FETs, each source connected to a current source. The four G4-FETs may be grouped into two pairs of two G4-FETs each, where one pair has its drains connected to a load, and the other par has its drains connected to another load. The differential output voltage is taken at the two loads. In one embodiment, for each G4-FET, the first and second junction gates are each connected together, where a first input voltage is applied to the front gates of each pair, and a second input voltage is applied to the first junction gates of each pair. Other embodiments are described and claimed. | ||||||
| 33 | TOOL FOR CLEANING ELECTRICALLY ENERGIZED EQUIPMENT | EP22847747.7 | 2022-07-14 | EP4377021A1 | 2024-06-05 | FLEMING, Brett; HUNTER, Elton |
| A tool for cleaning electrically energized equipment. The tool has an elongate tubular body having a fluid input at a first end and a nozzle adapter at a second end. A first end of a nozzle is securable to the nozzle adapter. A bore extends through the body and terminates at a fluid output at a second end of the nozzle. The bore through the body, the fluid input, and the nozzle adapter has a generally circular cross-section. The fluid input has a fluid input transition to reduce the cross-sectional diameter of the bore therethrough in a direction toward the tubular body. The bore through the nozzle has a transition to alter the cross-sectional shape of the bore therethrough from generally circular to generally rectangular at the fluid output. Pressurized cleaning fluid delivered to the fluid input passes through the fluid output in a stream having a generally rectangular cross-section. | ||||||
| 34 | A FLASH HEAD AND EXTENSION CABLE WITH IDENTIFICATION ELECTRONICS AND A FLASH GENERATOR | EP16759212.0 | 2016-02-25 | EP3265873B1 | 2020-10-28 | FALK, Anton; CARLSSON, Ulf |
| 35 | A FLASH HEAD AND EXTENSION CABLE WITH IDENTIFICATION ELECTRONICS AND A FLASH GENERATOR | EP16759212.0 | 2016-02-25 | EP3265873A1 | 2018-01-10 | FALK, Anton; CARLSSON, Ulf |
| The present disclosure relates a flash generator 10 capable of identifying which type of flash head 20 and flash head extension cables 30 that is connected to the flash generator 20. Further the disclosure relates to a flash head 20 and flash head extension cable 30 that can be identified by the flash generator 20. This object is obtained by a flash generator 10 of providing a power supply to a flash head 20. Further the flash generator 10 comprises a first current generator 13 for charging the capacitor 12. The flash generator 10 further comprises a second current generator or a voltage generator 14 connected to an output 11, 15 of the flash generator 10 and arranged to provide a current or a voltage to create a voltage U|D over a component 22, 32 in a flash head 20 or a flash head extension cable 30 connected to the flash generator 10. Processing means 16 are arranged to identify the flash head 20 or the flash head extension cable 30 by the measured voltage U ID. | ||||||
| 36 | CONTROL DEVICE WITH ACCESSIBLE SYMMETRICAL INPUT CONNECTOR | CA3181422 | 2022-11-02 | CA3181422A1 | 2024-05-02 | DESMEULES ALAIN |
| A control device for mounting in electrical heated wearables for controlling power to electrical heating wires secured in the heated wearables and capable of charging one or more portable batteries associate therewith and communicating data relative thereto. The control device has a finger-operable switch integrated with electronic circuits mounted on a pcb board. The electronic circuits include a communication circuit to interface with a wearer person to provide message information to the wearer person. The electronic circuits has power input terminals adapted to receive operating voltage from the one or more portable batteries. The pcb board with the finger-operable switch, the wiring connections and the electronic circuits are encapsulated by waterproof material. A female USB symmetrical input connecting port is mounted at a user accessible location on the control device and isolated from the pcb board and the electronic circuits by a further waterproof material. The female USB symmetrical input connecting port has a cable connection capable of transmitting power and data to the electronic circuits and power input terminals. The female USB symmetrical input connecting port is oriented to provide access to a symmetrical male plug connector secured to a power supply cable capable for supplying voltage from an auxiliary battery supply or charger and for the transmission of data information. | ||||||
| 37 | VEHICLE-SHAPED LIGHT-EMITTING SENSING DEVICE | CA3157587 | 2022-05-04 | CA3157587C | 2024-04-30 | HUANG WEN-HSIEN; LIU CHI-KUANG; LIN SHIH-TSUNG; CHEN TAI-YI |
| A vehicle-shaped light-emitting sensing device includes a vehicle-shaped shell, a circuit board, a light-emitting component and a wireless communication chip. The vehicle-shaped shell has a light-exiting portion. The circuit board is arranged in the vehicle-shaped shell and includes an antenna. The light-emitting component is arranged in the vehicle-shaped shell and electrically connected with the antenna. The antenna is configured to generate an induced current to the light-emitting component to drive the light-emitting component to generate light exited from the light-exiting portion. The wireless communication chip is electrically connected to the antenna. | ||||||
| 38 | TOOL FOR CLEANING ELECTRICALLY ENERGIZED EQUIPMENT | AU2022316602 | 2022-07-14 | AU2022316602A1 | 2024-02-15 | FLEMING BRETT; HUNTER ELTON |
| A tool for cleaning electrically energized equipment. The tool has an elongate tubular body having a fluid input at a first end and a nozzle adapter at a second end. A first end of a nozzle is securable to the nozzle adapter. A bore extends through the body and terminates at a fluid output at a second end of the nozzle. The bore through the body, the fluid input, and the nozzle adapter has a generally circular cross-section. The fluid input has a fluid input transition to reduce the cross-sectional diameter of the bore therethrough in a direction toward the tubular body. The bore through the nozzle has a transition to alter the cross-sectional shape of the bore therethrough from generally circular to generally rectangular at the fluid output. Pressurized cleaning fluid delivered to the fluid input passes through the fluid output in a stream having a generally rectangular cross-section. | ||||||
| 39 | AUTOMATIC STERILIZATION AND CHARGING OF WEARABLE DEVICE | CA3114805 | 2019-09-30 | CA3114805C | 2023-08-22 | LENTVORSKI ANDREW; KAMKE JAMES |
| Methods, systems, devices and apparatuses for sterilizing and charging a wearable device. The sterilizing and charging apparatus includes one or more light sources. The one or more light sources are configured to detect or sterilize the wearable device. The sterilizing and charging apparatus includes a wireless charging device. The wireless charging device is configured to charge the wearable device. The sterilization and charging apparatus includes a controller coupled to the one or more light sources and the wireless charging device. The controller is configured to determine, using the one or more light sources, that the wearable device is within an enclosure. The controller is configured to sterilize the wearable device using the one or more light sources and/or wirelessly charge the wearable device using the wireless charging device. | ||||||
| 40 | CONVENIENCE OUTLET WITH LED BAR ARRAY AND PIEZOBUZZER | PH22022050689 | 2022-07-25 | PH22022050689U1 | 2022-09-16 | VELA LEO AGUSTIN P |
| The present utility model discloses a convenience outlet linked with LED bar array for load current monitoring and piezobuzzer for overload alarming mechanism and are being governed by a micro controller. It solves the problem of overloading of electrical equipment and composed of two assemblies namely casing assembly and outlet assembly. The casing assembly comprising of sensor connected to the branch circuit and the signal port supply ports connected to the input port of the micro controller per convenience branch circuit wherein said micro controller is powered by a portable power source. The outlet assembly is comprising of a convenience outlet connected to the power supply, an LED bar array connected to an IC pin socket and resistor and a piezobuzzer situated beside the convenience outlet. | ||||||
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