RU224230U1 - STATION FOR ISSUING, ACCOUNTING AND MAINTENANCE OF PORTABLE CHARGERS - Google Patents

Abstract

The utility model relates to the field of electrical engineering, in particular to a station for issuing, accounting and servicing portable chargers, configured to establish a connection, via a GSM network, with a distributed network of monitoring servers, containing a housing and a microcontroller, a communication module and cells installed in its housing, each of which is configured to install, charge, diagnose and hold a portable charger, and each cell contains spring-loaded contacts, one part of which is configured to charge portable chargers, and the other part is interface contacts, and each cell additionally contains RJ- a receiver and an IR transmitter, configured to transmit data between the issuing station and a portable charger installed in a cell, equipped with an IR receiver and an IR transmitter, and the ability to identify portable chargers placed in cells with disabled contact pads. 13 salary f-ly, 2 ill.

Description

The utility model relates to the field of electrical engineering, in particular to stations for issuing and servicing portable chargers.

Charging systems for mobile devices are known under invention patents RU 2737311 and RU 2645748, published on November 26, 2020 and February 28, 2018, respectively. The patents disclose charging systems for mobile devices, consisting of an autonomous station for storing, charging and dispensing mobile chargers, from a central server for managing charging stations and from mobile chargers, each configured with an electrical energy storage device, with one electrical connector for charging the storage device when paired with a reciprocal connector of the charging station and with another electrical connector for connecting the electricity storage device to the battery of the mobile device, when paired with the mating connector of the latter.

In addition, a portable charger, rental system and related methods are known in the art according to US patent US 2020/0410793 A1. The patent discloses a portable charger dispensing system consisting of a dispensing station and at least one portable charger. The portable charger is issued by the dispensing station after the user completes the steps to begin renting the portable charger.

One of the disadvantages of the technical solutions presented in patents RU 2737311, RU 2645748 and US 2020/0410793 A1 is the absence in the design of the station of wired or wireless communication means suitable for transmitting information between the station and the mobile charger. This drawback leads to the fact that the station does not have the ability to collect and retain information about the state of the mobile charger, about the history of discharging/charging by the user (operation statistics), and about the user’s devices charged from the mobile charger. This also results in the station being unable to configure programmable logic for the operation of the mobile charger, such as, for example, blocking the mobile charger after the permitted period of operation has expired. The lack of ability to autonomously lock a device after expiration of the permitted period of use has led to the fact that patents RU 2737311 and RU 2645748 proposed to charge users with a security deposit for the mobile charger before issuing it, which in turn potentially reduces the demand for mobile charger rental services.

Also, a disadvantage of the technical solutions presented in patents RU 2737311, RU 2645748 and US 2020/0410793 A1 is the absence in the design of the station of components that would allow it to be placed outdoors when exposed to various atmospheric factors (station optimization). The absence of such optimization leads to the fact that when installing the station outdoors exposed to atmospheric factors, its service life will be limited.

The advantage of the claimed utility model in comparison with known solutions of the existing level of technology is as follows: providing the ability to collect and store information accumulated by a portable charger, including information about the history of its condition, about the actions of discharging/charging the portable charger by the user, information about charging user devices; the ability to configure the programmable logic of the operating modes of the portable charger, including the ability to autonomously block the portable charger after dispensing; the presence of a set of characteristics that determine the durability of the station when installed outdoors exposed to various atmospheric factors.

In relation to the station for issuing portable chargers, its technical problem is the creation of a station that provides the ability to implement programmable logic into a portable charger, the ability to collect information accumulated by the issued portable charger about its use by the user, and also provides conditions for extending the service life of the station when it is used. installation outdoors exposed to any atmospheric factors.

The technical result of the claimed utility model is to increase the reliability of the station.

The technical result is ensured by implementing a station for issuing, accounting and servicing portable chargers, made with the ability to establish a connection, via a GSM network, with a distributed network of control servers, containing a housing, and a microcontroller, a communication module and cells installed in its housing, each of which is made with the ability to install, charge, diagnose and hold a portable charger, and each cell contains spring-loaded contacts, one part of which is configured to charge portable chargers, and the other part is interface contacts, each cell additionally containing an IR receiver and an IR receiver transmitter, configured to transmit data between the issuing station and a portable charger installed in a cell, equipped with an IR receiver and an IR transmitter, and the ability to identify portable chargers placed in cells with disabled contact pads.

In this case, in each cell of the dispensing station there is a mechanism for fixing the portable charger, designed to block unauthorized removal of the portable charger from the cell without damaging the dispensing station or the portable charger.

In this case, a radio frequency module is installed in each cell, configured to exchange information between the dispensing station and a portable charger placed in the cell.

At the same time, to ensure the possibility of wireless charging of a portable charger, an induction coil is installed in each cell, allowing induction charging of a portable charger placed in the cell, and configured to transmit data between the issuing station and the portable charger placed in the cell by signal modulation.

At the same time, an RFID tag reader is installed in the issuing station, and in each cell there is an RFID tag reader antenna, made with the ability to identify portable chargers equipped with an RFID tag placed in the cells.

At the same time, a heating device is installed in each cell of the station to prevent overcooling of the portable charger placed in the cell.

Moreover, each cell of the station is equipped with a sealed door to ensure the possibility of isolating the cell from the external environment, both in the absence of an installed portable charger, and in the case of placing a portable charger inside the cell.

At the same time, a screen is hermetically installed in the issuing station, providing the ability to display reference and advertising information, information about rental services for portable chargers.

In this case, the screen is made of a touch screen to enable touch control of the process of issuing portable chargers.

At the same time, a video camera is installed in the station, making it possible to record the space around the issuing station.

At the same time, a terminal is installed at the issuing station to ensure the possibility of accepting non-cash payments by bank card.

At the same time, a radio frequency reading terminal is installed in the issuing station, which provides the ability, using RFID or NFC technology, to identify the user from the user’s identification card or from the user’s mobile device to start renting a portable charger.

At the same time, air cooling elements are installed in the dispensing station to ensure the possibility of preventing overheating of the functional elements of the dispensing station.

At the same time, heating devices are installed in the dispensing station, designed to prevent overcooling of the dispensing station elements.

In fig. 1 shows a diagram of the operation of the station for issuing and servicing portable chargers;

in fig. 2 is an example of the appearance of a station for issuing and servicing portable chargers, optimized for placement outdoors exposed to any atmospheric factors.

In fig. 1 shows: a station 1 for issuing, accounting and servicing portable chargers, a distributed network of monitoring servers 2 and a variety of portable chargers 3.

Station 1 for issuing, recording and servicing portable chargers is a device consisting of a housing 6 with cells 5 designed for installation, charging, diagnostics and storage of portable chargers 3. Cells 5 installed in station 1 provide the ability to store and register portable chargers 3, when placed in cells 5, protect portable chargers 3 from unauthorized removal, charge and diagnose the technical condition of portable chargers 3. Station 1 is configured to connect via a GSM network with a distributed network of control servers 2, which controls the process issuing portable chargers to 3 users. The main functional elements of the dispensing station 1, such as power supply for the dispensing station (not shown in the illustrations) and receiving portable chargers (not shown in the illustrations), are sealed.

The cells 5 of the dispensing station 1 have spring-loaded contacts that enable reliable connection with a group of flat contact pads of the portable charger 3. In this case, one part of the contact pads is used to supply power for charging the portable charger 3, and the other part of the contact pads is an interface (UART, I2C, SPI, CAN, RS232/485, 1-Wire) for data exchange between the microcontroller of dispensing station 1 and the microcontroller of portable charger 3.

The described spring-loaded interface contacts make it possible to identify the portable charger and collect information accumulated by the portable charger 3 during its operation. The accumulated information may include, but is not limited to, the following information: information about the status of the portable charger 3; information about the discharge/charging history of the portable charger 3 by the user; information about the user's mobile devices 4, charged from the portable charger 3.

Also, these spring-loaded interface contacts provide the ability to configure the programmable logic of the operation of the portable charger 3 by transmitting data between the microcontroller of the issuing station 1 and the microcontroller of the portable charger 3. The ability to configure the programmable logic, in addition to providing other capabilities, provides the ability to perform autonomous self-locking of the portable charger 3 after the permitted operating time, which allows you to reduce the risk of theft of portable chargers 3 and refuse to make a deposit by the user before renting a portable charger 3, and its presence provides the possibility of autonomous self-locking of the portable charger 3 in the event of a critical loss of capacity, reaching the maximum permissible number of charge cycles / discharge of the battery of the portable charger 3 and exceeding the recommended operating temperature of the portable charger 3.

In addition, cell 5 of station 1 is equipped with an IR receiver and IR transmitter, providing the ability to transmit data between station 1 and portable chargers 3 installed in cell 5, also equipped with an IR receiver and IR transmitter, and also providing the ability to identify placed into cells 5 of portable chargers 3, equipped with a set of IR receiver and IR transmitter, which in turn makes it possible to identify portable chargers 3, which can be damaged by contact pads placed in cells 5 by users.

Installing station 1 in cell 5 in addition to the spring-loaded interface contacts of the IR receiver and IR transmitter makes it possible to increase the reliability of the device as a whole, since if part of the spring-loaded interface contacts fails, the data transmission function will be performed by a working IR receiver and IR transmitter, and the device will work without interruption in data transfer and charging.

The presence in cell 5 of station 1 of a mechanism for fixing the portable charger 3 in cell 5 does not allow unauthorized removal of the portable charger 3 from cell 5 without damaging the issuing station 1 or the portable charger 3.

A typical procedure for issuing portable chargers 3 to a user includes: registering the user in a mobile application and/or on an Internet site and paying for the rental of a portable charger 3 through Internet acquiring. After payment, the distributed network of control servers 2 communicates with the issuing station 1. The dispensing station 1 sends a command to the microcontroller of the portable charger 3 to unlock the portable charger 3, then releases the mechanism that locks the portable charger 3 in the cell 5, and issues the portable charger 3 to the user.

Cells 5 of station 1 are equipped with sealed doors that isolate the cells from the external environment both in the absence of an installed portable charger 3, and in the case of placing a portable charger inside cell 5.

Also, cells 5 of station 1 are equipped with a heating device designed to prevent hypothermia of the portable charger 3.

In cell 5 of station 1, in addition to the spring-loaded interface contacts, a radio frequency transmitter is installed, which makes it possible to exchange data from the microcontroller of dispensing station 1 with the microcontroller of portable charger 3 placed in cell 5.

Also, cell 5 of the dispensing station 1, in addition to spring-loaded contacts for charging, is equipped with an induction coil that allows inductive charging of the portable charger 3 in cell 5, which provides the possibility of wireless charging of the portable charger. Also, the specified induction coil, by modulating the signal, is capable of providing data transmission between the dispensing station 1 and the portable charger 3 placed in cell 5.

Additionally, station 1 is equipped with an RFID tag reader, and cells 5 of station 1 are equipped with an RFID tag reader antenna, which allows identification of portable chargers 3 equipped with an RFID tag placed in cells 5, which allows identification of portable chargers 3 that are out of order , placed in cells by 5 users.

Also, the issuing station 1 is equipped with a screen 7 hermetically installed in it, providing the ability to display reference and advertising information, information about rental services for portable chargers 3. In addition, the specified screen 7 can be touch-sensitive, providing the ability to touch control the process of issuing portable chargers 3 .

In addition, Station 1 is equipped with a video camera that records the area around Station 1 with or without facial recognition. In this case, the video camera and its accompanying equipment are placed in a sealed module together with one of the other functional elements of station 1 or are placed in a separate sealed module.

Also, station 1 is equipped with a terminal for accepting non-cash payments by bank card. In this case, the terminal for accepting non-cash payments and related equipment is placed in a sealed module together with one of the other functional elements of station 1.

The dispensing station 1 may be equipped with a terminal for RFID or NFC reading of the user's ID from the user's ID card or from the user's mobile device to quickly begin renting a portable charger. In this case, the radio frequency reading terminal and related equipment are placed in a sealed module together with one of the other functional elements of the dispensing station 1.

Also, the issuing station 1 is configured to communicate with a network of distributed servers 2 via a GSM network, and (or) Wi-Fi, and (or) Ethernet, and (or) Bluetooth, and (or) LoRa WAN, and (or) UWB. In this case, the equipment for communication with a network of distributed servers is placed in a sealed module together with one of the other functional elements of the issuing station 1, or is placed in a separate sealed module.

In addition, the station 1 is equipped with air cooling elements installed therein to prevent overheating of the functional elements of the dispensing station 1.

Additionally, the elements of station 1 are equipped with heating devices installed in it to prevent overcooling of the station elements.

Thus, the station 1 for issuing and servicing portable chargers 3, claimed as a utility model, ensures reliable operation of the station, with the simultaneous possibility of introducing programmable logic into the portable charger, collecting information accumulated by the issued portable charger about its use by the user.

Claims (14)

1. A station for issuing, recording and servicing portable chargers, configured to establish a connection, via a GSM network, with a distributed network of monitoring servers, containing a housing, a microcontroller, a communication module and cells installed in its housing, each of which is capable of installation, charging, diagnosing and holding a portable charger, and each cell contains spring-loaded contacts, one part of which is configured to charge portable chargers, and the other part is interface contacts, and each cell further contains an IR receiver and an IR transmitter configured with the ability to transmit data between the issuing station and a portable charger installed in a cell, equipped with an IR receiver and an IR transmitter, and the ability to identify portable chargers placed in cells with disabled contact pads. 2. The station according to claim 1, characterized in that in each cell of the dispensing station there is a mechanism for fixing the portable charger, designed to block unauthorized removal of the portable charger from the cell, leading to damage to the dispensing station or portable charger. 3. Station according to any one of paragraphs. 1 and 2, characterized in that each cell contains a radio frequency module configured to exchange information between the dispensing station and a portable charger placed in the cell. 4. Station according to any one of paragraphs. 1-3, characterized in that to enable wireless charging of a portable charger, an induction coil is installed in each cell, allowing induction charging of a portable charger placed in the cell, and configured to transmit data between the issuing station and the portable charger placed into the cell by modulating the signal. 5. Station according to any one of paragraphs. 1-4, characterized in that an RFID tag reader is installed in the issuing station, and in each cell there is an RFID tag reader antenna, made with the ability to identify portable chargers equipped with an RFID tag placed in the cells. 6. Station according to any one of paragraphs. 1-5, characterized in that a heating device is installed in each cell of the station to ensure that the portable charger placed in the cell can be prevented from overcooling. 7. Station according to any one of paragraphs. 1-6, characterized in that each station cell is equipped with a sealed door to ensure the possibility of isolating the cell from the external environment both in the absence of an installed portable charger, and in the case of placing a portable charger inside the cell. 8. Station according to any one of paragraphs. 1-7, characterized in that a screen is hermetically installed in the issuing station, providing the ability to display reference and advertising information, information about rental services for portable chargers. 9. The station according to claim 8, characterized in that the screen is touch-sensitive to enable touch control of the process of issuing portable chargers. 10. Station according to any one of paragraphs. 1-9, characterized in that a video camera is installed in it, which makes it possible to register the space around the dispensing station. 11. Station according to any one of paragraphs. 1-10, characterized in that a terminal is installed at the issuing station to ensure the possibility of accepting non-cash payments by bank card. 12. Station according to any one of paragraphs. 1-11, characterized in that a radio frequency reading terminal is installed in the issuing station, providing the ability, using RFID or NFC technology, to identify the user from the user’s identification card or from the user’s mobile device to start renting a portable charger. 13. Station according to any one of paragraphs. 1-12, characterized in that air cooling elements are installed in the dispensing station to ensure the possibility of preventing overheating of the functional elements of the dispensing station. 14. Station according to any one of paragraphs. 1-13, characterized in that heating devices are installed in the dispensing station, designed to prevent overcooling of the dispensing station elements.