Charging and battery swap station monitoring system based on B/S architecture and charging and swapping station

Abstract

The invention relates to the field of battery swap service and specifically relates to a charging and battery swap station monitoring system based on B/S architecture and the charging and battery swap station. The invention aims at solving the problem that according to an existing human-machine interaction system, a software platform is limited by an operating system, the updating and iteration are slow and the development cost is high. In order to achieve the purpose, the charging and battery swap station monitoring system provided by the invention comprises a server side and at least one HMI (Human Machine Interface) side. The server side can obtain real-time operation data of the charging and battery swap station and the server side can convert the real-time operation data into a form capable of being directly accessed by the HMI side. The HMI side can directly access the real-time operation data and the HMI side can monitor and control a charging and battery swap process based on the real-time operation data. The development of the HMI side is not limited by the software platform in the setting mode, the updating and iteration are relatively convenient and fast, the configuration flexibility of the HMI side is increased, and the development cost of the HMI side is reduced.

Description

technical field [0001] The invention relates to the field of battery swapping services, in particular to a B / S architecture-based charging and swapping station monitoring system and the charging and swapping station. Background technique [0002] With the popularity of electric vehicles, the industry of charging and swapping facilities that provide electric energy supplements for electric vehicles has also developed rapidly. Take the charging and swapping station for fast charging of electric vehicles or battery replacement as an example. Usually, the main architecture of the charging and swapping station is designed based on the traditional industrial control architecture, which includes: execution layer (motor, sensor, etc.), interval layer (control logic PLC, etc.), station control layer (data acquisition and subsystem interface) and cloud server, etc. Wherein, the station control layer is provided with a Human Machine Interface (Human Machine Interface, HMI for short) f...

AI Technical Summary

Problems solved by technology

[0005] In order to solve the above-mentioned problems in the prior art, that is, in order to solve the problems that the software platform of the client of the existing human-computer interaction system is limited by the operating system, the update iteration is slow, and the development cost is high, the present invention provides a B / S architecture-based The charging and swapping station monitoring system, the charging and swapping station monitoring system includes a server end and at least one HMI end, wherein, the server end can obtain the real-time operation data of the charging and swapping station, and the server end can collect the real-time The operation data is converted into a form that can be directly accessed by the HMI terminal; wherein, the HMI terminal can directly access the real-time operation data, and the HMI terminal can complete the monitoring and replacement of the charging and swapping process based on the real-time operation data control

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