CN211075591U - Intelligent charging station for battery car - Google Patents

Abstract

The utility model discloses a be applied to storage battery car intelligent charging station that storage battery car field of charging was used, its structure includes the charging station host computer, cloud service platform and the control of charging, the charging station host computer is provided with a plurality of power supply sockets and built-in control mainboard, network communication module, cloud service platform includes data monitoring module, third party payment platform and charging settlement module, the control of charging is including the response magnetic card and/or built-in mobile terminal who has the charge mode selection module, the control of charging is used for realizing the settlement to the power supply socket with the outage operation and realize the power supply expense through third party payment platform. The device utilizes control mainboard and cloud service platform's data exchange to provide the guarantee to the performance monitoring quality of charging station to promoted performance drive efficiency, utilized response magnetic card and mobile terminal to realize the regulation and control variety of the mode of charging simultaneously, easily satisfy different user operation demands, realized providing the guarantee for the flexibility of operation.

Description

Intelligent charging station for battery car

Technical Field

The utility model relates to a storage battery car intelligent charging station that storage battery car field of charging used.

Background

The battery car is also called as an electric car, and is a pure electric motor car which is provided with electric energy by a storage battery and is driven by a motor. The battery car is the only motor vehicle in the world capable of achieving zero emission, and in recent years, the battery car is widely popularized in China, and in addition to the development of new materials and new technologies, the electric vehicle enters a rapid development period. And guarantee that sufficient electric energy is the continuous essential condition who uses of storage battery car, current storage battery car charge mode mainly includes: the power strip is wired and charged; disassembling the storage battery for charging; and charging the charging pile. The wiring and charging mode of the power strip is that the socket of the power strip is moved to the corresponding position of the battery car through the traction of the electric wire, so that the charging operation is realized. But the wiring effect is poor, the wires are easy to scratch and wear with external structures, electric leakage and electric shock accidents are easy to cause, and the charging safety is reduced. And the weight of the storage battery in the storage battery car is large, the storage battery car is heavy to disassemble and is time-consuming and labor-consuming to carry, so that the operation efficiency of the storage battery disassembling and charging mode is low, and part of storage battery users of the storage battery car cannot simply disassemble, so that the operability range is limited. In order to meet the charging requirements of people in public places or on the way of advancing, the application of the charging pile is gradually popularized. The user's accessible is installed in the electric pile that fills of public place and is carried out the storage battery car operation of charging to satisfy people's the demand of charging, guarantee going on smoothly of traffic operation. The utility model CN201721432875.4 discloses an intelligent charging system for an electric storage battery car. The charging management system comprises a charging end, a background end, a third party payment platform and a client, wherein the charging end is used for realizing charging management of the battery car, the background end is used for realizing management of the charging end, and the client is used for performing data interaction with the background end and paying charging cost to the background end through the third party payment platform. The utility model discloses be convenient for manage and use. However, the application of the device requires that the user firstly pay the fee and then perform the corresponding charging operation, and when the fee is zero, the charging operation of the battery car is finished. However, the user cannot estimate the charging fee in advance before charging, so that the phenomenon that the battery car is not fully charged due to zero fee is easily caused, and the cheapness of the user in going out is not facilitated. On the other hand, if the storage battery car is fully charged, the charging station automatically performs power-off operation on the storage battery car, excessive cost is difficult to balance although overcharge damage is avoided, capital waste of users is caused, and practicability of the charging system is reduced. In addition, the charging system is single in application mode, poor in operation flexibility and capable of reducing user experience.

SUMMERY OF THE UTILITY MODEL

The utility model provides a technical problem provide an effectively promote storage battery car charging system of charge control flexibility.

The utility model provides a technical scheme that its technical problem adopted is:

the utility model provides a storage battery car intelligent charging station, includes charging station host computer, cloud service platform and the control of charging, the charging station host computer is provided with a plurality of power supply sockets and built-in control mainboard, network communication module, the control mainboard includes board power, power detection module and current control module, the cloud service platform includes data monitoring module, third party payment platform and charging settlement module, the control mainboard passes through network communication module and realizes the data exchange with cloud service platform, charging settlement module is used for realizing the automatic settlement with power supply socket power supply expense, the control of charging includes response magnetic card and \ or built-in mobile terminal who has charging mode selection module, the control of charging is used for realizing the magnetic card and the outage operation of power supply socket and realizes the settlement to power supply expense through third party payment platform, the charging station host computer is provided with and responds to the magnetic card, the magnetic card of charging the cost with response socket, The mobile terminal comprises a magnetic card induction zone corresponding to the mobile terminal and a unique mark code.

The charging application of the charging station can be selectively carried out by utilizing the induction magnetic card and the mobile terminal through the structural arrangement of the device, the diversity of application modes is improved, and the operating requirements of different users can be easily met. Meanwhile, the user can select the charging mode by utilizing the mobile terminal, so that a conventional charging single mode is avoided, and the adjustment flexibility of the charging station is expanded. In the application process, the cloud service platform can realize real-time data exchange with the control mainboard through the network communication module and realize control over charging energy supply operation, bidirectional data interaction is realized, expansion of a regulation and control range is easy to realize, and maintenance and application effects of the charging system are improved. In addition, on the premise of stable data exchange between the cloud service platform and the control mainboard, when the power supply socket corresponding to the charging station host performs power-off operation, the cloud service platform automatically settles the charge and utilizes the third-party platform to settle the charge, and then the charging operation is completed.

Furthermore, the mobile terminal is provided with a real-time power signal checking module and a power supply control module corresponding to the control main board, and the power supply control module is used for realizing power supply and power off control of the power supply socket.

Furthermore, the control mainboard is provided with a current detection module, a short-circuit protection module and an overload protection module.

Further, the network communication module comprises a network interface and a GPRS module which can be connected with the network interface in a plugging and unplugging manner.

Further, the charging station host is provided with a smoke alarm module.

Further, the cloud service platform is provided with a master control monitoring device, and the master control monitoring device is provided with an alarm device for realizing data exchange with the smoke alarm module.

The utility model has the advantages that:

1. according to the structure arrangement of the charging station for the electromobile, the performance monitoring quality of the charging station is guaranteed by utilizing data exchange between the control main board and the cloud service platform, the performance driving efficiency is improved, the practicability of the device is guaranteed, meanwhile, the regulation and control diversity of the charging mode is realized by utilizing the induction magnetic card and the mobile terminal, the operation flexibility of equipment is improved, different user operation requirements are easily met, the guarantee is provided for the realization of the operation flexibility, and the practicability of the charging station is greatly expanded;

2. the structure of the real-time power signal checking and power supply control module of the mobile terminal enables a user to visually check the power supply process, ensures the charging monitoring effect, is easier to ensure the matching effect of power information and client equipment, and can select and control the power supply process by using the mobile terminal, so that remote regulation and control are realized, and the user experience is improved;

3. the combined structure of the network interface and the GPRS module enables the GPRS module to be replaced by a plug-in connection mode under the condition that a control mainboard is not replaced, the compatible effect of the network mode of the device is further improved, and the applicability of the device in different network environments is guaranteed;

4. the alarm device of the master control monitoring equipment is applied in a combined mode with the smoke alarm module, so that the alarm effect is improved, and the efficient adjustment of the alarm condition is realized.

Drawings

Fig. 1 is a schematic structural view of the present invention;

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the following detailed description.

The structure of the electromobile charging station is shown in figure 1 and comprises a charging station host, a cloud service platform and a charging control piece comprising a mobile terminal and an induction magnetic card. The external of this charging station host computer is provided with sixteen power supply sockets, controls mainboard and network communication module's setting simultaneously inside it. Carry out the setting of board year power, power detection module and current control module in this control mainboard, for guaranteeing the steady go on of power supply operation, still carry out the adduction of current detection module, short-circuit protection module and overload protection module in the control mainboard. The power supply socket accessible control mainboard that above-mentioned charging station host computer set up realizes being connected with outside electric wire netting, and then utilizes the control mainboard to realize the control to the power supply of every power supply socket and outage to realize the monitoring and short circuit, the overload safeguard function to the charging current of power supply socket, guarantee the effect stability of the operation of charging. The cloud service platform comprises a data monitoring module, a third party payment platform, a charging settlement module and corresponding total control monitoring equipment. The control mainboard realizes data exchange with the cloud service platform through the network communication module, and in order to ensure stable transmission of network signals, the network communication module of the charging station host adopts the GPRS module, so that the control mainboard can select 2G, 3G, 4G and other network modes according to requirements to be connected to the Internet, thereby reducing the requirement on network environment, improving the application range of the device, and further realizing stable data exchange operation with the cloud service platform. And the GPRS module and a module interface fixedly arranged in the network communication module adopt a plug-in connection mode, and the GPRS module can be directly replaced by an application network mode according to different application environments or communication development, so that the applicability of the device under different network environments is improved, the compatibility of the device to the future 5G network environment is ensured, the structural adjustment of a control mainboard is further avoided, and the practicability of the device is improved. The data information of the charging station host can be uniformly checked by the aid of the cloud service platform through the general control monitoring equipment, when data are found to be abnormal, the power supply port can be controlled through data transmission of the control main board, and the cloud service platform can be contacted with related management personnel, so that the working quality is guaranteed. The power supply and power off operations of the power supply socket are controlled through the charging control part, so that the charging operation of the battery car connected to the corresponding power supply socket is adjusted. The charging control part comprises two types of induction magnetic cards and a mobile terminal, and the charging station host equipment is provided with a corresponding magnetic card induction area and a unique mark code. The unique mark code can form a two-dimensional code corresponding to the power supply socket one by one through two-dimensional code generating equipment. The cloud service platform utilizes the charging settlement module to automatically settle the power supply fee of the power supply socket, so that the charging control part can realize the charging and power-off operation of the power supply socket on one hand, and the third party payment platform can pay the power supply fee calculated by the charging settlement module on the other hand. In the application process of the induction magnetic card and the mobile terminal, the input of corresponding user information can be carried out, so that the application safety is ensured, and the protection operation on users and charging expenses is realized. The mobile terminal is provided with a real-time power signal checking module and a power supply control module corresponding to the control main board, and then the power supply and power failure of the power supply socket are controlled by the power supply control module.

In addition to the setting method, the cloud service platform can simultaneously apply the master control monitoring equipment and the user service equipment, so that the master control monitoring equipment is a service end which can be operated by management technicians, and the user service equipment is a user service end. The user can contact with the control host through the internet through the user service equipment to operate the power supply socket, check historical power supply orders and operation details and pay and settle accounts through the third-party payment platform. The user service end can be set as a recharging operation fixed device corresponding to the induction magnetic card, and when a user uses the mobile terminal to carry out charging operation, the user service end corresponds to the mobile terminal. The user can directly check the current and the open-close state detection of the real-time power supply socket through the mobile terminal, and if the current exceeds the rated current or the overload condition, the user can be immediately informed, so that the function of safer power utilization is achieved. Meanwhile, the cloud service platform can settle the order of the user by using the user service end, charges according to the actual use time or degree, and refunds the redundant prepayment cost to the user account. When a user conducts charging and discharging operations on the induction magnetic card, charging running water records can be checked through the charging operation fixing equipment, and charging operation of the magnetic card is conducted, so that flexibility of application information can be checked.

In the application process, after the user communicates the battery car with the power supply socket, the user uses the mobile terminal or the induction magnetic card to perform code scanning or card swiping charging operation. In order to guarantee the safety maintenance effect of the charging operation, the code scanning operation of the mobile terminal can utilize a registered third party such as a payment treasure, a WeChat and the like to scan the unique code of the corresponding power supply socket, so that the information of the third party is read and stored, and the charging operation is corresponding to the code scanning operation, so that the safety of the power supply operation is guaranteed. In addition to the setting method, the code scanning operation of the mobile terminal can also register user information through a specific program application, and further perform reading operation on the unique code. The induction magnetic card can be set as a value-stored IC card of which the information is stored in the cloud service platform, so that the operation of power supply and power failure is realized by utilizing the magnetic card induction area set by the charging station host, the operation is convenient and fast, and the application flexibility is improved. After the user finishes charging connection and issues a charging instruction through unique code scanning or magnetic card induction, the cloud service platform transmits the corresponding charging instruction to the charging station host, and then the charging station host starts to switch on a power supply of the power supply socket port selected by the user, so that charging operation is performed. Meanwhile, the charging station host starts to detect the port power of the corresponding power supply socket, if the power is not detected within 50 seconds, the user is considered not to switch on the charger or the charger fails, the port power supply is closed, and the power utilization risk is further reduced. In the charging process of the power supply socket, the charging station host collects electric power data (including current, voltage, active power and the like) once every 5-7 minutes and reports the electric power data to the cloud service platform. The detection data can be integrated and displayed on the real-time data through the master control monitoring equipment, so that the real-time data detection of the electric power is realized. In the process, if the active power is close to 0, the user is considered to disconnect the charger or the charging station to stop, the port power supply is immediately closed, the power utilization risk is reduced, and the cloud service platform can automatically settle the cost of the power supply process. When the power supply socket supplies power to the port, the charging station host detects power data in real time by using the control mainboard, when the power of the charger is judged to be reduced to a specified range (for example, about 20-30 watts, the parameter can be adjusted by the cloud service platform), the charger is considered to enter a full-charging stage, corresponding detection data is reported to the cloud service platform, full-charging automatic stop information is issued, and the power supply socket of the charging station host is further controlled to perform power-off operation. In addition, the detection operation of the real-time power data of the charging station host is also used for judging whether the power of the charger exceeds the specified power, and if the power exceeds the specified power, the port power supply is immediately disconnected, so that the power utilization risk is further reduced, and the requirement of safe power utilization is met. When a user scans a code and charges a charging station host through the mobile terminal, the cloud service platform performs data interaction with the mobile terminal, and then pushes the real-time charging state of the power supply socket to the user, and the state page can be used for setting information modules such as power failure protection, full automatic stop, overload protection and charging completion, so that the user can check conveniently. In addition, when the user performs code scanning charging operation through the mobile terminal, the power supply mode can be selected through the corresponding mobile terminal control page, if the full charge mode and the power supply timing mode can be set, the user can perform corresponding charging mode selection according to requirements so as to meet different application requirements, and then payment of prepaid fee and power supply operation of the power supply socket are performed. In order to ensure the application safety of the power supply timing mode, the cloud service platform can predict the full charge time of the battery and predict the total cost, and then the time selectable range of the power supply timing mode is controlled within the full charge time range, so that overcharging is avoided. The power supply time keeping mode can settle the fee in minutes. The user utilizes the mobile terminal to look over the in-process to power supply socket state and power supply current value, also can carry out the remote and close the power supply operation, carries out the settlement operation of expense so far, satisfies remote control demand. When the card swiping power supply of the induction magnetic card is carried out, in addition to the self-powered-off operation, the power supply operation of the power supply socket can be informed through the card swiping operation again, namely the magnetic card re-induction operation of the magnetic card control area, and at the moment, the cloud service platform carries out the fee settlement and deduction operation on the self-powered-off magnetic card. In the process, the system judges the information of the induction magnetic card firstly, so that the consistency of the information of the magnetic card of the corresponding power supply socket is ensured, and the control reliability of the power supply operation is ensured.

In order to improve the application installation performance of the charging station host, the charging station host is provided with the smoke alarm device. The device can utilize MQ-2 series smoke sensors to detect surrounding smoke data in real time, further compare with a set threshold value, then inform related management personnel through the Internet, and can open an alarm horn, so that the attention of surrounding personnel is attracted, and the timeliness of alarm is improved. In addition, the total control monitoring equipment of the cloud service platform carries out corresponding equipment of the alarm device, so that the working state of the charging station host is stopped and an alarm signal is transmitted in time by utilizing the total control monitoring equipment, meanwhile, the telephone contact with 119 can be realized, and the rescue quality is ensured. And informing a charging station manager.

The above-mentioned embodiments, further detailed description of the objects, technical solutions and advantages of the present invention, it should be understood that the above-mentioned embodiments are only specific embodiments of the present invention, and are not intended to limit the present invention, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (6)

1. An intelligent charging station for a battery car is characterized by comprising a charging station host, a cloud service platform and a charging control piece, wherein the charging station host is provided with a plurality of power supply sockets, a built-in control mainboard and a network communication module, the control mainboard comprises an onboard power supply, a power detection module and a current control module, the cloud service platform comprises a data monitoring module, a third party payment platform and a charging settlement module, the control mainboard realizes data exchange with the cloud service platform through the network communication module, the charging settlement module is used for realizing automatic settlement of power supply cost of the power supply sockets, the charging control piece comprises an induction magnetic card and/or a mobile terminal internally provided with a charging mode selection module, the charging control piece is used for realizing charging and power-off operations of the power supply sockets and realizing settlement of the power supply cost through the third party payment platform, the charging station host is provided with a magnetic card induction area corresponding to the induction magnetic card and the mobile terminal and a unique mark code.

2. The intelligent charging station for the battery cars as claimed in claim 1, wherein the mobile terminal is provided with a real-time power signal checking module and a power supply control module corresponding to the control main board, and the power supply control module is used for realizing power supply and power off control of a power supply socket.

3. The intelligent charging station for the battery cars as claimed in claim 1 or 2, wherein the control mainboard is provided with a current detection module, a short-circuit protection module and an overload protection module.

4. The intelligent charging station for battery cars as recited in claim 1, wherein said network communication module comprises a network interface and a GPRS module that can be plugged into and unplugged from said network interface.

5. The intelligent electric vehicle charging station as claimed in claim 1, wherein the charging station host is provided with a smoke alarm module.

6. The intelligent charging station for the battery cars as claimed in claim 1, wherein the cloud service platform is provided with a master control monitoring device, and the master control monitoring device is provided with an alarm device for realizing data exchange with the smoke alarm module.

Images