UA150366U - System for automated rental of electric vehicles - Google Patents

Abstract

A system for automated rental of electric vehicles comprises an electric vehicle, a user's electronic device with the ability to transfer data using external Internet networks, a data processing server. The electric vehicle is equipped with a controller with a GSM module and additionally comprises an NFC tag. The user's electronic device is made with an NFC reader that interacts with an NFC tag of an electric vehicle. The data processing server is configured to store, process and automatically exchange data with an electronic user device and a controller with a GSM module of an electric vehicle using external Internet networks.

Description

A useful model is for the rental of electric vehicles, in particular the automated line of electric scooters, and can be applied in the municipal transport system.

From the state of the art, a system for renting electric vehicles using docking stations is known (patent KO 2712145 MPK В62М 6/00 (2010.01), ЕО5В 71/00 (2006.01),

Vb62N 5/00 (2006.01), VbOY 53/10 (2019.01), publ. January 24, 2020, bull. Mo. 3, 2020), in which electric vehicles are installed opposite the docking station, while using a locking mechanism, the electric vehicle is installed in the corresponding slot of the docking station and is blocked by the docking station, limiting the possibility of unauthorized operation of the electric vehicle, and due to the means located at the same level as the locking mechanism, the charging of the power cells of the electric vehicle is ensured.

The known system is not convenient for the average user, who needs to return the electric vehicle to the designated docking stations and additionally to find out how to properly install the vehicle in the docking station.

The useful model is based on the task of expanding the functionality of the automated rental of electric vehicles and simplifying the rental process for users, thereby reducing the time required for the rental of electric vehicles, due to the possibility of locking and unlocking the electric vehicle in any in a place convenient for the user.

The task is solved by the fact that the system for the automated rental of electric vehicles contains an electric vehicle, an electronic user device with the ability to transfer data using external IP networks, a data processing server, according to a useful model, the electric vehicle is equipped with a controller with a CO5M module and additionally contains a MES-tag, and the user's electronic device is equipped with an MES-reader that interacts with the MES-tag of an electric vehicle, the data processing server is designed with the ability to store, process and automatically exchange data with the user's electronic device and a controller with a 5M-module of electric vehicle using external Ipiegpei networks.

З The technical result achieved by the creation of the proposed system is to ensure that the electric vehicle does not interact with the docking stations, while the system for the automated rental of electric vehicles significantly reduces the time required to process the rental of electric vehicles due to the possibility of blocking and unlocking the electric vehicle at any convenient place for the user, thereby making it very simple and clear for any user.

The drawing shows a block diagram illustrating an embodiment of a system for automated rental of electric vehicles.

A useful model is explained by an example of its implementation.

The system for the automated rental of electric vehicles includes an electric scooter 1, which is equipped with a controller with a 55M-module 2 and an MES-tag 3.

The user's smartphone 4, which is made with the possibility of data transmission using external IP networks (mi-i, 40, 30) and is equipped with a MES reader 5, which interacts and reads information from the MES tag of the electric scooter 1. Cloud data processing server 6 made with the possibility of storage, processing and automatic exchange of data with the smartphone of the user 4 and the controller with the Z5M module 2 of the electric scooter 1 using external IP networks.

The system for automated rental of electric vehicles is used as follows.

The user from his smartphone 4 through the mobile application goes to the cloud platform of the system for the automated rental of electric vehicles, where he pre-registers and/or is otherwise identified, for example by phone number, and creates his virtual wallet to which he transfers funds. The user, before starting a trip on the electric scooter 1, brings his smartphone 4 to the MES-tag 3, which is located on the steering wheel of the electric scooter 1. The MES-reader 5 of the smartphone of the user 4 reads information from the MES-tag C about the serial number of the electric scooter 1. Next , the cloud platform of the system for the automated rental of electric vehicles, with the help of 40 Ipiegpei makes a request to the databases located on the cloud data processing server 6 regarding the characteristics of the electric scooter 1 with the specified serial number, and with the help of a special interface displays the information about the electric scooter 1 on user's smartphone 4: health/failure, battery level, etc. If the user decides to use the specified electric scooter 1, he selects the "start trip" function in the mobile application of the system for automated rental of electric vehicles using a special interface, this information is sent to the cloud data processing server 6, which sends a signal to the controller with SOBM module 2 of the electric scooter 1 to unlock the electric motor of the electric scooter 1. The user starts a trip on the electric scooter 1. To end the trip, the user parks the electric scooter 1 in a place convenient for him, which is allowed by the parking rules, and then, in the mobile application of the system for automated rental of electric vehicles, using a special interface selects the "end trip" function, this information is sent to the cloud data processing server 6, which sends a signal to the controller with the O5M module 2 of the electric scooter 1 to block the electric motor of the electric scooter 1 The cost of the trip is immediately debited from the user's virtual wallet.

The next trip of the user of the system for the automated rental of electric vehicles is carried out only by raising his smartphone to the MES tag, which is located on the steering wheel of the electric scooter, provided that there are funds in his virtual wallet, while the procedure for renting an electric scooter takes a few seconds.

It is clear that this example in no way limits the number of possible variants of the system for the automated rental of electric vehicles, but only explains the features of the solution set out in the formula.

The system for automated rental of electric vehicles can be implemented in industrial conditions.

Claims (1)

UTILITY MODEL FORMULA An automated electric vehicle rental system comprising an electric vehicle, a user electronic device capable of transmitting data via external IP networks, and a data processing server characterized in that Because the electric vehicle is equipped with a controller with a Z5M module and additionally contains an MES tag, and the user's electronic device is equipped with a MES reader that interacts with the MES tag of the electric vehicle, the data processing server is designed with the possibility of storage, processing and automatic exchange data with the electronic device of the user and the controller with the OZM-module of the electric vehicle using the external networks of the Internet. PP is and . --------------1 1 и а 00000000 Computer keyboard. Ryabko 00000000 SE "Ukrainian Institute of Intellectual Property", str. Glazunova, 1, m. Kyiv - 42, 01601