CN115985016A - Distributed remote control system based on network communication for charging station - Google Patents

Abstract

The invention discloses a distributed remote control system based on network communication for a charging station, which comprises: the charging piles and the remote terminal equipment are arranged; fill electric pile and contain: a first control module; the first data display module is used for displaying first information of the charging pile through a set first UI (user interface); the first data transceiving module is used for sending the first UI interface information displayed by the data display module of the charging pile to the remote terminal equipment; the remote terminal device includes: a second control module; the second data transceiver module is used for receiving the first UI interface information sent by the data transceiver module of the charging pile; and the second data display module is used for simultaneously displaying the first UI interface information sent by the charging piles. According to the distributed remote control system based on network communication for the charging station, provided by the invention, through a distributed remote control technology, an operator can remotely operate the charging pile, so that the operation of the operator is more convenient.

Description

Distributed remote control system based on network communication for charging station

Technical Field

The invention relates to a distributed remote control system based on network communication for a charging station.

Background

The current electric pile station that fills builds, fills electric pile construction on filling the electric pile body for site operation personnel are not convenient to go the operation. Secondly, field personnel can not well know the situation on the spot like the situation of some situations of field charging pile. Increasing the maintenance costs and labor costs for field personnel.

Disclosure of Invention

The invention provides a distributed remote control system based on network communication for a charging station, which solves the technical problems and specifically adopts the following technical scheme:

a distributed network communication-based remote control system for charging stations, comprising:

the charging piles are mounted to the charging pile bodies;

the remote terminal equipment is connected to the charging piles through network communication;

the charging pile comprises:

the first control module is used for controlling the charging pile;

the first data display module is used for displaying first information of the charging pile through a set first UI (user interface);

the first data receiving and sending module is used for sending the first UI interface information displayed by the data display module of the charging pile to the remote terminal equipment;

the remote terminal device includes:

the second control module is used for controlling the remote terminal equipment;

the second data receiving and sending module is used for receiving the first UI interface information sent by the data receiving and sending module of the charging pile;

and the second data display module is used for simultaneously displaying the first UI interface information sent by the charging piles.

Furthermore, the second data display module is a touch display screen, and the operation can be performed by clicking the corresponding first UI interface information on the second data display module to control the corresponding charging pile.

Furthermore, the second data transceiver module sends the touch information received by the second data display module to the corresponding charging pile, and the corresponding first control module of the charging pile controls the charging pile according to the received touch information.

Furthermore, the first data transceiver module is further configured to send the monitoring data of the charging pile to the remote terminal device;

the remote terminal device further includes:

the interface switching module is used for switching the display mode of the second data display module, the interface switching module can switch the display mode of the second data display module between a first display mode and a second display mode, in the first display mode, the second data display module displays first UI interface information of each charging pile, and in the second display mode, the second data display module displays monitoring data sent by each charging pile through a set second UI interface.

Further, the remote terminal device further includes:

and the abnormity judgment module is used for judging whether the monitoring data sent by the charging pile is abnormal or not.

Further, if the abnormality judgment module judges that the monitoring data sent by the charging pile is abnormal, an abnormal instruction is sent to the second control module, and the second control module adjusts the color of a display part corresponding to the charging pile in second UI (user interface) information.

Further, the interface switching module can switch the display mode of the second data display module among the first display mode, the second display mode and a third display mode, in the third display mode, the second data display module displays regulation and control selection information through a set third UI interface, and an operator can debug the corresponding charging pile by clicking a corresponding part of the third UI interface on the second data display module.

The second data receiving and sending module sends the touch information received by the second data display module to the corresponding charging pile, and the corresponding first control module of the charging pile debugs the charging pile according to the received touch information.

Further, the interface switching module and the second data display module are both the touch display screen.

Furthermore, the remote terminal equipment is in communication connection with the charging piles in a wireless communication mode.

Furthermore, the remote terminal equipment is in communication connection with the charging piles in a Bluetooth communication mode.

The distributed remote control system based on network communication for the charging station has the advantages that through the distributed remote control technology, operators can remotely operate the charging pile, and the operation of the operators is more convenient.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without inventive exercise.

Fig. 1 is a schematic diagram of a distributed remote control system for a charging station based on network communication according to the present invention.

Detailed Description

Reference will now be made in detail to the embodiments of the present application, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar functions throughout. The embodiments described below with reference to the accompanying drawings are illustrative and intended to explain the present application and should not be construed as limiting the present application.

Fig. 1 shows a distributed remote control system based on network communication for a charging station according to the present application, which includes: a plurality of electric pile and remote terminal equipment fill. A plurality of electric pile that fill, a plurality of electric pile installation to the pile body that charges. Remote terminal equipment is connected to a plurality of electric pile that fill through network communication. It can be understood that the remote terminal device can be connected with the charging piles in a wired or wireless mode. In the embodiment of the application, the remote terminal device is wirelessly connected to the charging piles. As an optional implementation manner, the remote terminal device may be wirelessly connected to the plurality of charging piles in a bluetooth connection manner.

In an embodiment of the present application, a charging pile includes: the device comprises a first control module, a first data display module and a first data transceiving module.

The first control module is used for controlling the charging pile. The first data display module is used for displaying first information of the charging pile through a set first UI interface. The first data transceiver module is used for sending the first UI interface information displayed by the data display module of the charging pile to the remote terminal equipment.

Correspondingly, the remote terminal device comprises: the device comprises a second control module, a second data transceiver module and a second data display module.

The second control module is used for controlling the remote terminal equipment. The second data transceiver module is used for receiving the first UI interface information sent by the data transceiver module of the charging pile. The second data display module is used for simultaneously displaying first UI interface information sent by the charging piles. Therefore, in the distributed remote control system for the charging station based on the network communication, an operator can obtain a UI display interface on each charging pile through the remote terminal equipment. It is understood that the remote terminal device includes, but is not limited to, a host display, a smart tablet, or a smart phone.

As a preferred embodiment, the second data display module is a touch display screen, and the operation can control the corresponding charging pile by clicking corresponding first UI interface information on the second data display module. And the second data transceiver module sends the touch information received by the second data display module to the corresponding charging pile, and the first control module of the corresponding charging pile controls the charging pile according to the received touch information.

It can be understood that, through the distributed remote control system based on network communication for the charging station of the present application, an operator can not only view the information currently displayed on each charging pile on the remote terminal device, but also control the corresponding charging pile to execute the relevant operation through the corresponding first UI interface of the touch display screen.

As a preferred embodiment, the first data transceiver module is further configured to send the monitoring data of the charging pile to the remote terminal device. The remote terminal device further includes: and an interface switching module.

Specifically, the interface switching module is used for switching the display mode of the second data display module. The interface switching module can switch the display mode of the second data display module between a first display mode and a second display mode. And in the first display mode, the second data display module displays the first UI interface information of each charging pile. And in a second display mode, the second data display module displays the monitoring data sent by each charging pile through a set second UI interface.

Further, as a preferred embodiment, the remote terminal device further includes: and an abnormality judgment module.

The abnormity judgment module is used for judging whether the monitoring data sent by the charging pile is abnormal. Specifically, if the abnormality judgment module judges that the monitoring data sent by the charging pile is abnormal, an abnormal instruction is sent to the second control module, and the second control module adjusts the color of a display part corresponding to the charging pile in the second UI interface information.

The first display mode is the normal display mode, and can tile the first UI interface of each charging pile in the second display module according to the established numbering mode. The second display mode is a station monitoring mode. The monitoring method is an automatic monitoring mode, and can perform statistics and detection on common abnormal states of the charging pile. When the single charging pile appears and other charging piles show inconsistent circumstances, the inconsistent charging pile is specially marked with red. The remote terminal equipment can compare the information transmitted by the charging pile, and if the information exceeds an abnormal value, the information is displayed on a window of the monitoring mode in a highlighted mode. This allows the remote terminal device to more clearly detect abnormal conditions within the charging station.

As a more preferred embodiment, the interface switching module is capable of switching the display mode of the second data display module among a first display mode, a second display mode and a third display mode. The first display mode and the second display mode are the same as described above. And in a third display mode, the second data display module displays regulation and control selection information through a set third UI interface, and an operator can debug the corresponding charging pile by clicking a corresponding part of the third UI interface on the second data display module. The second data receiving and sending module sends the touch information received by the second data display module to the corresponding charging pile, and the first control module of the corresponding charging pile debugs the charging pile according to the received touch information.

The third display mode is a debug mode. Debug mode is more of a maintenance tool. When charging pile goes wrong, an operator can manage some charging piles in a debugging mode to upgrade, refresh and the like. The field worker can have some graphical control modes aiming at some simple exceptions.

In a preferred embodiment, the interface switching module and the second data display module are both touch display screens. Namely, the touch display screen integrates the function of the interface switching module, and a user performs touch control at the corresponding position of the touch display screen to switch the current display mode of the display screen.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It should be understood by those skilled in the art that the above embodiments do not limit the present invention in any way, and all technical solutions obtained by using equivalent alternatives or equivalent variations fall within the scope of the present invention.

Claims (10)

1. A distributed remote control system for a charging station based on network communication, comprising:

the charging piles are mounted to the charging pile bodies;

the remote terminal equipment is connected to the charging piles through network communication;

the charging pile comprises:

the first control module is used for controlling the charging pile;

the first data display module is used for displaying first information of the charging pile through a set first UI (user interface);

the first data receiving and sending module is used for sending the first UI interface information displayed by the data display module of the charging pile to the remote terminal equipment;

the remote terminal device includes:

the second control module is used for controlling the remote terminal equipment;

the second data receiving and sending module is used for receiving the first UI interface information sent by the data receiving and sending module of the charging pile;

and the second data display module is used for simultaneously displaying the first UI interface information sent by the charging piles.

2. The distributed remote control system for network-based communication of charging stations according to claim 1,

the second data display module is a touch display screen, and the operation can be realized by clicking the corresponding first UI interface information on the second data display module to control the corresponding charging pile.

3. The distributed remote control system for network-based communication of charging stations according to claim 2,

the second data receiving and sending module sends the touch information received by the second data display module to the corresponding charging pile, and the first control module of the corresponding charging pile controls the charging pile according to the received touch information.

4. The distributed remote control system for network-based communication of charging stations according to claim 2,

the first data transceiver module is further used for sending the monitoring data of the charging pile to the remote terminal equipment;

the remote terminal device further includes:

the interface switching module is used for switching the display mode of the second data display module, the interface switching module can switch the display mode of the second data display module between a first display mode and a second display mode, in the first display mode, the second data display module displays first UI interface information of each charging pile, and in the second display mode, the second data display module displays monitoring data sent by each charging pile through a set second UI interface.

5. The distributed remote control system for network-based communication of charging stations according to claim 4,

the remote terminal device further includes:

and the abnormity judgment module is used for judging whether the monitoring data sent by the charging pile is abnormal or not.

6. The distributed remote control system for network-based communication of charging stations according to claim 5,

and if the abnormity judgment module judges that the monitoring data sent by the charging pile is abnormal, sending an abnormal instruction to the second control module, and adjusting the color of a display part corresponding to the charging pile in second UI (user interface) information by the second control module.

7. The distributed remote control system for network-based communication of charging stations according to claim 5,

the interface switching module can switch the display mode of the second data display module among the first display mode, the second display mode and a third display mode, in the third display mode, the second data display module displays regulation and control selection information through a set third UI interface, and an operator can debug the corresponding charging pile by clicking a corresponding part of the third UI interface on the second data display module.

The second data receiving and sending module sends the touch information received by the second data display module to the corresponding charging pile, and the corresponding first control module of the charging pile debugs the charging pile according to the received touch information.

8. The distributed remote control system over network communication for charging stations of claim 7,

the interface switching module and the second data display module are both the touch display screen.

9. The distributed remote control system over network communication for charging stations of claim 1,

the remote terminal equipment is in communication connection with the charging piles in a wireless communication mode.

10. The distributed remote control system for network-based communication of charging stations according to claim 9,

the remote terminal equipment is in communication connection with the charging piles in a Bluetooth communication mode.

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