Show metadata Hide metadata

(19)

(11)

2 691 386

(13)

(51)

IPC

B60L53/50(2019-01-01)

H02J7/34(2006-01-01)

H02J9/06(2006-01-01)

(21) (22)

Application

2018129986, 2018-08-17

(24)

Start date

2018-08-17

(22)

Actual filing date

2018-08-17

(45)

Published

2019-06-13

(72)

Inventor

Grigorev Aleksandr SergeevichGrigorev Sergej AleksandrovichMelnik Dmitrij AleksandrovichFilimonov Mikhail NikolaevichLosev Ostap Gennadevich

(73)

Holder

Federalnoe Gosudarstvennoe Byudzhetnoe Uchrezhdenie Issledovatelskij Tsentr Institut"

CHARGING STATION FOR ELECTRIC TRANSPORT Russian patent published in 2019 - IPC B60L53/50 H02J7/34 H02J9/06

Abstract RU 2691386 C1

FIELD: electrical engineering.

SUBSTANCE: invention relates to the field of electrical engineering, in particular to hybrid and/or electric transport charging systems. Electric transport charging station is comprising at least three charging units, each of which is connected to separate energy storage module, which are connected in series through a charge and power distribution controller, connected through a power monitoring and metering device to an external power grid, with separate generation modules, respectively made on solar panels at least one windmill, hydrogen fuel cells and a module on imported fuel cells, charge and distribution controller is connected to an electrolytic cell, which is connected to a reservoir with water by separate pipelines and through a hydrogen tank with a hydrogen fuel cell generation module, connected by a pipeline to the water tank, generation module on imported fuel is connected via pipeline with fuel tank.

EFFECT: possibility to charge several electric cars and trucks, as well as buses/electric buses, without connection to air wire or cable power networks of high power.

3 cl, 1 dwg

Similar patents RU2691386C1

Title	Year	Author	Number
ARCTIC ENERGY COMPLEX	2021	Kozlov Valerij Nikolaevich Berdnikov Aleksandr Yurevich Kukankov Sergej Nikolaevich	RU2775104C1
ELECTRIC TRANSPORT CHARGING SYSTEM	2019	Grigorev Aleksandr Sergeevich Melnik Dmitrij Aleksandrovich Losev Ostap Gennadevich	RU2722894C1
AUTONOMOUS MODULAR POWER PLANT	2022	Usenko Andrej Aleksandrovich Dyshlevich Vitalij Aleksandrovich Badygin Renat Askhatovich Shtarev Dmitrij Olegovich	RU2792410C1
SYSTEM FOR CONTROL OF LIGHT URBAN ELECTRIC TRANSPORT, ITS OPERATION METHOD AND BATTERY MODULE	2020	Ginzburg Andrej Gennadevich Pishch Pavel Vladimirovich	RU2782154C2
SYSTEM OF LOCAL CONSUMERS ENERGY SUPPLY	2018	Grigorev Aleksandr Sergeevich Grigorev Sergej Aleksandrovich Melnik Dmitrij Aleksandrovich Tutnov Igor Aleksandrovich Losev Ostap Gennadevich	RU2679685C1
UNINTERRUPTED POWER SUPPLY SYSTEM	2013	Kozlov Sergej Fedorovich	RU2524355C1
AUTONOMOUS POWER SUPPLY SYSTEM WITH KINETIC ENERGY STORAGE	2020	Grigorev Aleksandr Sergeevich Melnik Dmitrij Aleksandrovich Losev Ostap Gennadevich Melnik Aleksandr Dmitrievich	RU2749148C1
AUTONOMOUS POWER PLANT	2017	Grigorev Aleksandr Sergeevich Grigorev Sergej Aleksandrovich Melnik Dmitrij Aleksandrovich Filimonov Mikhail Nikolaevich Losev Ostap Gennadevich	RU2686844C1
STAND-ALONE HYBRID POWER SUPPLY SYSTEM FOR ELECTRIC EQUIPMENT AND SYSTEM CONTROL UNIT AND METHOD	2012	Munier Erik Burgeas Dzhin-Mari De Dzhentil Marion	RU2589889C2
DISTRIBUTED ELECTRIC POWER GRID SYSTEM OF MOBILE ELECTRIC TRANSPORT INFRASTRUCTURE	2018	Talalaj Viktor Vyacheslavovich Kochetkov Andrej Viktorovich Asoyan Artur Rafikovich Kokodeeva Nataliya Evsegneevna Ermolaeva Veronika Viktorovna	RU2727221C1

RU 2 691 386 C1

Authors

Grigorev Aleksandr Sergeevich

Grigorev Sergej Aleksandrovich

Melnik Dmitrij Aleksandrovich

Filimonov Mikhail Nikolaevich

Losev Ostap Gennadevich

Dates

2019-06-13—Published

2018-08-17—Filed