CN221623579U - Unmanned monitored control system of portable electric pile trouble that fills based on 4G mobile network - Google Patents

Abstract

The utility model provides a mobile charging pile fault unmanned monitoring system based on a 4G mobile network, which comprises a cloud end and a station end, wherein the cloud end is a remote server; the station end comprises an action control system, a charging manager, a state display and a wireless router; the action control system is an action executing mechanism for automatically moving the mobile charging pile to a parking space needing to be charged, and is used for detecting the type of fault occurrence of the action controller and transmitting the type of fault occurrence to the remote server; the charging manager is electrically connected with the mobile charging pile, records real-time data information of charging current and charging voltage of the mobile charging pile in a normal state, and feeds the real-time data information back to the remote server through a wireless network; the status display is placed in the conspicuous position of the charging stake. According to the utility model, the data interaction between the cloud end and the station end is realized through the 4G mobile network, various faults of the mobile charging pile can be monitored remotely, the charging flow is simplified, and the unmanned mobile charging pile regional maintenance is realized.

Description

Unmanned monitored control system of portable electric pile trouble that fills based on 4G mobile network

Technical Field

The utility model relates to the technical field of new energy charging piles, in particular to a mobile charging pile fault unmanned monitoring system based on a 4G mobile network.

Background

With the development of economy, electric automobiles are rapidly popularized, and as a new generation of transportation means, the electric automobiles have incomparable advantages in the aspects of energy conservation and emission reduction, intelligent driving, driving experience and the like. The mobile charging pile integrates the functions of mobile energy storage, automatic driving, intelligent charging and the like, and can provide more convenient, efficient and intelligent charging service for the electric automobile. Under limited electric network capacity and parking space resources, the mobile charging pile runs to the parking space with the charging requirement through an automatic navigation technology, the charging capacity is increased elastically, the time of waiting for charging in a queue of the electric automobile is reduced, the problems of difficult charging, long charging time, complicated charging steps and the like are solved, the user experience is optimized, the charging waiting anxiety is relieved, and the charging requirement of the electric automobile is met.

The pain point of the movable charging pile is mainly concentrated on the maintenance cost, and if the labor participation cost can be reduced, the regional maintenance is realized, and the popularization of the movable charging pile is facilitated.

Disclosure of utility model

The present utility model aims to provide a mobile charging pile fault unmanned monitoring system based on a 4G mobile network, which overcomes or at least partially solves the above-mentioned problems.

In order to achieve the above purpose, the technical scheme of the utility model is specifically realized as follows:

The utility model provides a mobile charging pile fault unmanned monitoring system based on a 4G mobile network, which comprises a cloud end and a station end, wherein the cloud end is a remote server, and the remote server is a control core of the station end, so that the centralized monitoring of networking mobile charging piles under all the same wireless network segments can be realized, the fault of the mobile charging piles in an area is completed, and fault records are stored for subsequent inquiry.

The station end comprises an action control system, a charging manager, a state display and a wireless router.

The action control system is an action executing mechanism for automatically moving the movable charging pile to a parking space to be charged, and corresponding working state judgment is set for one action degree of freedom of the movable charging pile and is used for detecting the fault occurrence type of the action controller and transmitting the fault occurrence type to the remote server.

The charging manager is electrically connected with the mobile charging pile, records real-time data information of charging current, charging voltage, starting time, charging duration, current voltage and current of the mobile charging pile in a normal state, and feeds the real-time data information back to the remote server through the wireless network.

The state display is placed at the conspicuous position of the charging pile, is networked with the action control system and the charging manager, and displays the normal or fault working state of the mobile charging pile in real time.

The wireless router is a wireless communication module at the station end, and each module at the station end is networked with a remote server through a 4G mobile network so as to perform data interaction.

As a further proposal of the utility model, the action executing mechanism comprises any one group of a servo driver and a motor, a stepping driver and a motor or a push rod and a pneumatic valve mechanism, and drives and moves the movable charging pile.

As a further proposal of the utility model, the state display is also connected with a voice loudspeaker which is used for reminding a user through words and voices.

The utility model provides a mobile charging pile fault unmanned monitoring system based on a 4G mobile network, which has the beneficial effects that: the cloud end and the station end are interacted with each other through the 4G mobile network, various faults of the mobile charging pile can be monitored remotely, the charging flow is simplified, and the unmanned mobile charging pile regional maintenance is realized.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed in the description of the embodiments will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a functional block diagram of the present utility model.

Fig. 2 is a flow chart of the operation of the present utility model.

In the figure: 1. a remote server; 2. an action control system; 3. a charge manager; 4. a status display; 5. a wireless router; 6. 4G mobile network.

Detailed Description

Exemplary embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the disclosure to those skilled in the art.

Referring to fig. 1 and fig. 2, the mobile charging pile fault unmanned monitoring system based on the 4G mobile network provided by the embodiment of the utility model comprises a cloud end and a station end, wherein the cloud end is a remote server 1, the remote server 1 is a control core of the station end, centralized monitoring of networking mobile charging piles under all same wireless network segments can be realized, and faults of the mobile charging piles in an area are completed and fault records are stored for subsequent inquiry.

The station end comprises an action control system 2, a charging manager 3, a state display 4 and a wireless router 5, and is a state monitoring module arranged on each mobile charging pile, reads the running state of the mobile charging pile in real time, and transmits various states and data of the mobile charging pile to a remote server 1 for storage through a 4G mobile network 6 according to the time acquired by the state and the type of the acquired data and the normal working state and the alarm state; the historical data comprise fault information, error information, fault time and other data of the mobile charging pile, and are mainly used for recording the historical record of the fault of the charging pile.

The action control system 2 is an action executing mechanism for automatically moving the mobile charging pile to a parking space needing to be charged, and is used for setting corresponding working state judgment on one action degree of freedom of the mobile charging pile, detecting the fault occurrence type of the action controller and transmitting the fault occurrence type to the remote server 1, wherein the action executing mechanism comprises any one group of a servo driver and a motor, a stepping driver and a motor, a push rod and a pneumatic valve mechanism, and selecting any one group of the servo driver and the motor, the stepping driver and the motor, the push rod and the pneumatic valve mechanism to drive and move the mobile charging pile.

The charging manager 3 is electrically connected with the mobile charging pile, records real-time data information of charging current, charging voltage, starting time, charging duration, current voltage and current of the normal state of the mobile charging pile, judges that corresponding faults occur when the conventional state data of the mobile charging pile are abnormal such as jump and interruption, and feeds the faults back to the remote server 1 through a wireless network.

The state display 4 is placed at the conspicuous position of the charging pile and is networked with the action control system 2 and the charging manager 3, the normal or fault working state of the mobile charging pile is displayed in real time, and the state display 4 is also connected with a voice loudspeaker for reminding a user through words and voice.

The wireless router 5 is a wireless communication module at the station end, and each module at the station end is networked with the remote server 1 through the 4G mobile network 6 so as to perform data interaction.

In the use process of the utility model, firstly, the remote server 1 in the cloud end judges the data through the 4G mobile network 6 detecting each state interaction data of the mobile charging pile in the area, and if all is normal, the state display 4 at the station end displays that the mobile charging pile is in a normal working state and performs charging service for the vehicle needing to be charged.

If the alarm state information is received, the remote server 1 immediately performs fault classification according to the action, classifies the faults into two types of charging faults and action faults, respectively records fault data, and stores the fault data into fault history data.

The fault records mainly contain information: information such as fault time, fault location, fault station pile, fault name, fault cause, etc., the fault cause is an output result after fault diagnosis by the fault diagnosis module of the remote server 1.

After confirming the fault, the remote server 1 can remotely control the mobile charging pile to try to reset and restart, then perform state data interaction judgment, and if the fault is removed, transmit the fault to the state display 4 to display the normal working state to complete the charging service.

If the fault is not removed, the remote server 1 transmits information to the state display 4 to display an abnormal working state to stop the charging service, and the information is sent to the reserved mobile phone of the maintenance personnel to inform the maintenance personnel to process the fault in time.

The foregoing is merely exemplary of the present application and is not intended to limit the present application. Various modifications and variations of the present application will be apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. which come within the spirit and principles of the application are to be included in the scope of the claims of the present application.

Claims (3)

1. The mobile charging pile fault unmanned monitoring system based on the 4G mobile network comprises a cloud end and a station end, and is characterized in that the cloud end is a remote server (1), the remote server (1) is a control core of the station end, centralized monitoring of networking mobile charging piles under all same wireless network segments can be achieved, faults of the mobile charging piles in an area are completed, and fault records are stored for subsequent inquiry;

The station end comprises an action control system (2), a charging manager (3), a state display (4) and a wireless router (5);

The action control system (2) is an action executing mechanism for automatically moving the movable charging pile to a parking space to be charged, and is used for setting corresponding working state judgment on one action degree of freedom of the movable charging pile, detecting the fault occurrence type of the action controller and transmitting the fault occurrence type to the remote server (1);

The charging manager (3) is electrically connected with the mobile charging pile, records real-time data information of charging current, charging voltage, starting time, charging duration, current voltage and current of the mobile charging pile in a normal state, and feeds the real-time data information back to the remote server (1) through a wireless network;

the state display (4) is placed at the conspicuous position of the charging pile, is networked with the action control system (2) and the charging manager (3), and displays the normal or fault working state of the mobile charging pile in real time;

The wireless router (5) is a wireless communication module at the station end, and each module at the station end is networked with the remote server (1) through the 4G mobile network (6) so as to perform data interaction.

2. The unmanned monitoring system for faults of mobile charging piles based on a 4G mobile network according to claim 1, wherein the action executing mechanism comprises any one of a servo driver and a motor, a step driver and a motor or a push rod and a pneumatic valve mechanism, and drives and moves the mobile charging piles.

3. The 4G mobile network-based mobile charging pile fault unmanned monitoring system according to claim 1, wherein the status display (4) is further connected with a voice loudspeaker for reminding a user through words and voice.