FIELD: electrical engineering.
SUBSTANCE: field of application: electrical engineering. Mobile device charging system includes charging stations (1) with lockable places (for example, individual cells) (2) for individual installation, charging and storage of removable mobile chargers (3) (PB), made each with an electric power storage device (not shown), with one electrical connector (4) for charging its storage when docked with reciprocal connector (5) of cell (2) of charging station (1) and with another (standard) electrical connector (not shown) for connecting power storage of device (3) to mobile device (gadget) battery (6) when docked with the reciprocal connector of the latter. System comprises central server (7) for managing charging stations (1) having with a processor and configured to calculate collateral value and rent for using any of the mobile chargers (3). Each charging station (terminal) (1) is equipped with a controller (not shown) connected to central server (7) and configured to interact with mechanism (means) (14) of controlling access to removable mobile charging device (3) ready for use, rotated (by an angle of up to 180°) door (15), means (not shown) of testing the serviceability of mobile chargers (3) placed in the charging station (1), and a counter (not shown) of the time taken to withdraw and return mobile chargers (3). Mechanism (means) (14) can have locking pin (17) which is inserted into the side part of PB (3). Each charging station (1) is preferably, in form of autonomous automated terminal (1) and is equipped with a backup uninterruptible power supply, and the controller of each of charging stations (1) is connected t server (7) via Internet (8). As a result, a system has been created that ensures long-term storage in a state of readiness and continuous monitoring of serviceability and readiness for use and return of chargers (PB 3) on the users' route.
EFFECT: ensuring reliable and fast recharging of user's mobile device.
11 cl, 4 dwg
Title | Year | Author | Number |
---|---|---|---|
MOBILE DEVICE CHARGING SYSTEM | 2017 |
|
RU2737311C1 |
TERMINAL FOR SELLING AND LEASING EXTERNAL ACCUMULATORS OF MOBILE DEVICES | 2018 |
|
RU2699448C1 |
CELL OF THE STATION FOR ISSUING, RECEIVING, SERVICING AND ACCOUNTING OF PORTABLE CHARGERS | 2023 |
|
RU2811496C1 |
CHARGING STATION AND SYSTEM | 2012 |
|
RU2623996C2 |
DISTRIBUTED ELECTRIC POWER GRID SYSTEM OF MOBILE ELECTRIC TRANSPORT INFRASTRUCTURE | 2018 |
|
RU2727221C1 |
FACE PROTECTION DEVICE AGAINST HAZARDOUS GAS MEDIUM | 2022 |
|
RU2801062C1 |
MOBILE TERMINAL AND INTERFACE CONNECTION METHOD THEREFOR | 2012 |
|
RU2587159C2 |
DEVICE, METHOD, MOBILE TERMINAL AND COMPUTER SOFTWARE FOR SUPPLYING USERS WITH ELECTRIC ENERGY | 2014 |
|
RU2658348C9 |
AUTONOMOUS MOBILE DEVICE FOR GENERATING, STORING AND DISTRIBUTING ELECTRICITY | 2017 |
|
RU2749548C2 |
METHOD FOR CHARGING ACCUMULATOR BATTERIES OF UNMANNED AERIAL VEHICLES | 2015 |
|
RU2593207C1 |
Authors
Dates
2018-02-28—Published
2017-04-10—Filed