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2 473 160

(13)

(51)

IPC

H02J17/00(2006-01-01)

H01P3/10(2006-01-01)

(21) (22)

Application

2009144909/07, 2009-12-04

(24)

Start date

2009-12-04

(22)

Actual filing date

2009-12-04

(45)

Published

2013-01-20

(72)

Inventor

Trubnikov Vladimir ZakharovichNekrasov Aleksej IosifovichStrebkov Dmitrij SemenovichKharagezov Evgenij IvanovichKorolev Vladimir AleksandrovichNekrasov Anton Alekseevich

(73)

Holder

Rossijskaja Akademija Sel'Skokhozjajstvennykh Nauk Gosudarstvennoe Nauchnoe Uchrezhdenie Vserossijskij Nauchno-Issledovatel'Skij Institut Ehlektrifikatsii Sel'Skogo Khozjajstva Rossijskoj Akademii Sel'Skokhozjajstvennykh Nauk Viehskh Rossel'Khozakademii)

METHOD AND DEVICE FOR ELECTRICAL ENERGY TRANSMISSION Russian patent published in 2013 - IPC H02J17/00 H01P3/10

Abstract RU 2473160 C2

FIELD: electricity.

SUBSTANCE: between a source and a receiver of electric energy an energy-conducting channel is created in a steel pipe by installation of transmitting and receiving resonance systems on it with electric capacitance covers. Using the transmitting resonance system, resonance oscillations of an electric field are excited in the pipe wall and near its surface in the range of 0.3÷300 kHz, and the field is orthogonally aligned relative to the pipe axis, a vortex magnetic field is induced in the pipe wall and near its surface, electromagnet energy is transmitted along the pipe, it is received in a receiving resonance system with electric capacitance covers, and power is produced for electric loads. The device for transfer of electric energy comprises an energy-conducting steel pipe with receiving and transmitting resonance systems arranged on it with electric capacitance covers. The transmitting resonance system is connected with a source of electric energy via a generator of higher frequency current, and the receiving system with electric capacitance covers is connected via a converter with an electric energy receiver.

EFFECT: reduced costs for electric energy transfer, higher efficiency factor.

7 cl, 6 dwg

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RU 2 473 160 C2

Authors

Trubnikov Vladimir Zakharovich

Nekrasov Aleksej Iosifovich

Strebkov Dmitrij Semenovich

Kharagezov Evgenij Ivanovich

Korolev Vladimir Aleksandrovich

Nekrasov Anton Alekseevich

Dates

2013-01-20—Published

2009-12-04—Filed