WO2017143995A1

WO2017143995A1 - Street light integrating illumination, vehicle recharging, and wireless communication functions and method thereof

Info

Publication number: WO2017143995A1
Application number: PCT/CN2017/074572
Authority: WO
Inventors: 郑红利; 田剑峰; 余颖
Original assignee: 中兴通讯股份有限公司
Priority date: 2016-02-24
Filing date: 2017-02-23
Publication date: 2017-08-31
Also published as: CN107120583A

Abstract

A street light integrating illumination, vehicle charging, and wireless communication functions and a method thereof, the method comprising: installing a road lamp, a charging device, and a wireless communication device on a light post of a street light facility (S101); connecting, by means of the street light facility, to an external power source, and supplying power to the road lamp, charging device, and wireless communication device installed on the light post (S102); and ensuring that the wireless communication device and the road lamp are supplied with power, and simultaneously controlling the charging device to perform a charging action for a corresponding electric vehicle (S103). The invention installs a charging device, a wireless communication device, and other devices on a light post of a street light facility to effectively address difficulties in establishing wireless communication base station coverage and in establishing electric vehicle charging post. The invention thereby improves both land utilization and reasonable space use, and realizes a benefit of multi-functional light posts. The invention is able to accelerate building of a smart, wireless, and green city, reduce construction costs and maintenance expenses, and improve integrated utilization of resources.

Description

Street lamp facility for lighting, car charging and wireless communication functions and implementation method

Technical field

The invention relates to the field of wireless communication, the field of internet of things, the field of electric vehicle charging and the field of smart city, and particularly relates to a street lamp facility and a method for realizing the functions of lighting, car charging and wireless communication.

Background technique

With the continuous development of information technology, the level of application of urban information technology has been continuously improved, and the construction of smart cities has emerged. Building a smart city is of great significance in realizing sustainable urban development, leading the application of information technology, and improving the overall competitiveness of cities. At the same time, with the development of green new energy vehicles, the popularity of charging piles in cities is imperative, and the contradiction of urban resources is becoming increasingly prominent. At present, all fields lack cooperation and resource sharing on the intelligent road. Most of them adopt the self-built and self-use model, with high construction cost, long construction period, high maintenance cost and poor social benefits.

Summary of the invention

The object of the present invention is to provide a street lamp facility and a method for realizing illumination, automobile charging and wireless communication functions, which can better solve the problem of resource sharing on intelligent roads in various fields such as street lamps, car charging and wireless communication.

According to an aspect of the present invention, a method for implementing a streetlight facility that integrates lighting, car charging, and wireless communication functions is provided, including:

Installing a street light, a charging device and a wireless communication device on the light pole of the street lamp facility;

Providing power for the street lamp, the charging device and the wireless communication device installed on the lamp post by using an external power source connected by the street lamp facility;

While ensuring power supply of the wireless communication device and the street lamp, the charging device controls the charging operation of the corresponding electric vehicle.

Preferably, the step of controlling the charging operation of the charging device for the corresponding electric vehicle comprises:

The charging device interacts with the background server by using the wireless communication device to obtain an instruction for the background server to control the charging operation according to the power resource condition;

The charging device is controlled to activate or deactivate the charging operation of the corresponding electric vehicle using the instructions for controlling the charging operation.

Detecting the state of the street lamp;

If it is detected that the street lamp is in an active state, the charging device is controlled to stop the charging operation of the corresponding electric vehicle, and if not detected, the charging device is controlled to turn on the charging operation of the corresponding electric vehicle.

Preferably, the charging device comprises a DC charging post and/or an AC charging post for charging an electric vehicle. It is mounted on the base portion of the pole.

Preferably, the wireless communication device comprises a wireless communication base station and/or a WIFI hotspot mounted on top of the light pole.

Preferably, the method further comprises:

One or more of a data acquisition device, a video monitoring device, and an information display screen are mounted in the middle portion of the light pole.

According to another aspect of the present invention, a streetlight facility that integrates lighting, car charging, and wireless communication functions is provided, including:

Light pole

a street light, a charging device and a wireless communication device mounted on the light pole;

a power supply device configured to supply power to a street lamp, a charging device, and a wireless communication device mounted on the lamp post by using an external power source connected thereto, and while ensuring power supply of the wireless communication device and the street lamp The charging device controls the charging operation of the corresponding electric vehicle.

Preferably, the charging device comprises a DC charging post and/or an AC charging post for charging an electric vehicle, mounted to a base portion of the light pole.

Preferably, the street lamp facility further comprises: one or more of a data collection device, a video monitoring device, and an information display screen installed in an intermediate portion of the light pole.

Compared with the prior art, the beneficial effects of the present invention are:

The invention installs a charging device and a wireless communication device on the lamp pole of the street lamp facility, effectively solves the problem that the wireless communication base station is difficult to cover, the electric vehicle charging pile is difficult, and the progress in comprehensive utilization of land and rational use space is obtained. It has achieved the effect of multi-purpose, which can speed up the construction of smart cities, wireless cities and green cities, save construction costs and maintenance costs, and improve the comprehensive utilization of resources.

DRAWINGS

1 is a flow chart of a street lamp facility and a method for realizing the functions of lighting, car charging and wireless communication provided by an embodiment of the present invention;

2 is a structural block diagram of a street lamp facility for illuminating, car charging, and wireless communication functions according to an embodiment of the present invention;

3 is a schematic structural diagram of a simplified configuration of a street lamp facility according to an embodiment of the present invention;

4 is a schematic structural diagram of a typical configuration of a street lamp facility according to an embodiment of the present invention;

FIG. 5 is a diagram showing an energy supply frame of a street lamp facility according to an embodiment of the present invention; FIG.

6 is an information architecture diagram of a charging device of a street lamp facility according to an embodiment of the present invention;

7 is an information architecture diagram of a wireless communication base station of a street lamp facility according to an embodiment of the present invention;

8 is an information architecture diagram of a WIFI hotspot of a street lamp facility according to an embodiment of the present invention;

FIG. 9 is an information architecture diagram of video monitoring, information display, street lighting, and data collection of a streetlight facility according to an embodiment of the present invention.

detailed description

The preferred embodiments of the present invention are described in detail below with reference to the accompanying drawings.

1 is a flow chart of a street lamp facility and a method for realizing the functions of lighting, car charging and wireless communication provided by an embodiment of the present invention, as shown in FIG. 1 , including:

Step S101: installing a street lamp, a charging device, and a wireless communication device on the lamp post of the street lamp facility.

Among them, the street lamp is installed on the oblique portion of the pole.

The charging device includes a DC charging pile and/or an AC charging pile for providing a paid power supply service to the electric vehicle and other mobile devices, and is installed on the base portion of the light pole. That is to say, the base portion of the light pole is integrated with the electric vehicle charging pile, thereby effectively utilizing the position space of the light pole.

Wherein, the wireless communication device comprises a wireless communication base station and/or a WIFI hotspot, which is mounted on the top of the light pole. That is to say, the wireless communication base station can be installed on the top of the main part of the light pole to carry out 3G/4G/5G wireless signal coverage in the urban area, and the WIFI hotspot can be installed on the top of the main part of the light pole to realize wireless city WIFI signal coverage. When the wireless communication device includes the wireless communication base station and the WIFI hotspot, the relative positional relationship between the wireless communication base station and the WIFI hotspot may be set according to actual needs, for example, as shown in FIG. 3 and FIG. 4, the wireless communication base station installed on the light pole 1. The position of 31 is lower than the position of the WIFI hotspot 32.

Step S102: The external power source connected by the street lamp facility is used to supply power to the street lamp, the charging device and the wireless communication device installed on the lamp pole.

Step S103: Control the charging operation of the charging device for the corresponding electric vehicle while ensuring power supply of the wireless communication device and the street lamp.

The step S103 specifically includes the following three situations:

Case 1. When the power resources are sufficient, while maintaining the power supply to the wireless communication device and the street lamp, the charging device can provide charging service for the customer who has the charging demand at any time, for example, performing an electric vehicle charging operation.

Case 2: When the power resource is insufficient, the state of the street lamp can be detected. If the street lamp is detected to be in the working state (ie, the street lamp is lit), the charging device is controlled to stop charging operation of the corresponding electric vehicle, otherwise the control charging device is turned on. The charging operation of the corresponding electric vehicle.

Case 3: When the power resource is insufficient, the charging device interacts with the background server by using the wireless communication device, and obtains an instruction for the background server to control the charging operation according to the power resource condition, and uses the method for controlling the charging operation. An instruction to control the charging device to start or stop charging operation of the corresponding electric vehicle. For example, when the charging device A detects that the electric vehicle B has a charging demand, the charging device A transmits its own information and charging request to the background server by using the wireless communication device, and the background server determines the charging device A. In the case of the power resources in the area, if the power resources are sufficient, an instruction to start the charging operation is sent to the charging device A, so that the charging device A charges the electric vehicle B according to the instruction for starting the charging operation, and vice versa. When power resources are scarce, an instruction to prohibit the charging operation is sent to the charging device A, so that the charging device A no longer charges the electric vehicle B according to the instruction for prohibiting the charging operation. Further, the background server can obtain the remaining power capacity based on, for example, the total amount of the power resources and the used power capacity (the power capacity of the device having a high priority such as the street lamp and the wireless communication device), and can be utilized, for example, by distinguishing the following three cases. The remaining power capacity charges the electric vehicle B: 1) when the power resource can satisfy the power capacity required for charging the electric vehicle, then the full capacity is charged; 2) when there is no power resource to charge the electric vehicle, the electric vehicle is not charged; 3) When there is a part of the rich power capacity, but not enough to charge the electric vehicle at full load, how much is used to control the charging of the electric vehicle.

For the above cases 2 and 3, when the street lights are not needed during the day, power is supplied to the electric vehicles and other mobile devices, and the street lamps are powered at night, thereby realizing time sharing power resources and solving the problem of power supply in some areas with insufficient power resources. .

It should be noted that the charging device in case 3 can realize information interaction with the background server by using the wireless communication device installed on the same light pole, or can realize the operation with the background server through the wireless communication device installed on other light poles. Information exchange.

Further, in the above step S101, one or more of the data collector, the video monitoring device, and the information display screen may be installed in the middle portion of the light pole, and the specific installation position and working state may be determined according to actual customer demand conditions. .

2 is a structural block diagram of a street lamp facility for illuminating, car charging, and wireless communication functions provided by an embodiment of the present invention, as shown in FIG. 2, including:

a street light, a charging device and a wireless communication device mounted on a light pole of a street lamp facility;

a power supply device mountable on a base portion of the light pole for powering the street light, the charging device, and the wireless communication device mounted on the light pole with an external power source that is connected thereto, and securing the wireless communication device and the While the street lamp is powered, the charging device controls the charging operation of the corresponding electric vehicle. Specifically, in an area where power resources are abundant, while the wireless communication device and the street lamp are powered, the charging device can charge the corresponding electric vehicle at any time; for an area where power resources are scarce, the Under the premise of power supply of the wireless communication device, the street lamp is preferentially supplied with power, and when the street lamp is in the working state, the charging device is prohibited from supplying power to the electric vehicle and the like, and vice versa, the charging device is allowed to supply power to the electric vehicle or the like, that is, the electric power can be used during the day. The car is powered, and the street lamp is powered at night to solve the problem of power resources in some areas with insufficient power resources.

In order to achieve better resource sharing, in addition to installing street lamps, charging devices and wireless communication devices on the light pole, a data collector is further installed in the middle portion of the light pole, which may include various sensors for collecting weather data. An RFID reader/writer for reading various types of radio frequency tags may be included; in addition, a video monitoring device and/or an information display screen (ie, an LED information release screen) is further installed in the middle portion of the lamp post. By being independent of each other The wireless communication function, the weather data collection function, the RFID reader function, the video monitoring function, the street light function, the LED information release function, and the electric vehicle charging pile function are deeply integrated, which solves the problem that the equipment in each field adopts the self-built self-use mode. The problem of high construction and maintenance costs, while realizing the comprehensive utilization of land resources.

FIG. 3 is a schematic structural diagram of a simplified configuration of a street lamp facility according to an embodiment of the present invention, as shown in FIG. 3, including:

Light pole 1;

A lighting system comprising a double side street light (ie, a double side light head) and a single side street light (ie, a single side light head), in this example, a single side street light 10 is taken as an example;

The charging device includes a DC charging pile and an AC charging pile. In this embodiment, an electric vehicle AC charging pile 20 is taken as an example;

A wireless communication device that includes a WIFI hotspot 32 and/or a 3G/4G/5G wireless communication base station 31.

Wherein, the oblique portion of the lamp post 1 is used for fixing the lamp head of the city.

The base portion of the light pole 1 is fused with the charging pile 20, and the charging pile 20 utilizes the position space of the light pole 1, and can share the power resources of the street light in a time-sharing manner or at the same time.

Wherein, the top of the light pole 1, that is, the main body of the light pole, is equipped with a wireless communication device for urban 3G/4G/5G wireless signal coverage and wireless city WIFI signal coverage.

4 is a schematic diagram showing a typical configuration structure of a street lamp facility according to an embodiment of the present invention. As shown in FIG. 4, compared with FIG. 3, the present invention further includes a data acquisition device 50 and a video fixedly installed in the middle portion of the lamp post 1 from top to bottom. Monitoring device 60 and information display screen 70.

The data collection device 50 realizes functions of collecting meteorological data, reading and writing RFID tags, and the like;

The video monitoring device 60 is used for video collection, alarm video linkage, and the like;

The information display screen 70 is used to implement location-based information distribution, such as publishing LED advertisements, commercial or public information, and the like.

Further, a light pole number for identifying the geographical location of the light pole and a corresponding electronic label may be attached to the light pole for quick positioning of the geographical position, and an emergency key may be disposed on the light pole.

Further, a traffic light device for urban traffic light control can also be installed on the light pole.

The basic structure of the street lamp facility provided by the present invention is a structure including a street lamp (hereinafter referred to as a smart street lamp) 10, an electric vehicle charging pile (hereinafter referred to as a charging pile) 20, and a wireless communication device shown in FIG. 3, on the basis of the basic structure, In combination with the devices of FIG. 4, other extended series combinations may be further generated, including:

1) a combination of a charging pile, a smart street light, and a wireless communication device;

2) a combination of a charging pile, a smart street light, a wireless communication device, and a data acquisition device;

3) a combination of a charging pile, a smart street light, a wireless communication device, and an information display screen;

4) a combination of a charging pile, a smart street light, a wireless communication base station, and a video monitoring device;

5) a combination of a charging pile, a smart street light, a wireless communication base station, a video monitoring device, and a data acquisition device;

6) a combination of a charging pile, a smart street light, a wireless communication base station, an information display screen, and a data acquisition device;

7) a combination of a charging pile, a smart street light, a wireless communication base station, a video monitoring device, and an information display screen;

8) Combination of charging pile, intelligent street light, wireless communication base station, information display screen, video monitoring device, and data acquisition device.

The invention integrates devices in various fields by using the light pole resources, and completes wireless signal coverage, Internet of Things information collection, video monitoring, electric vehicle charging, information release and intelligent traffic control functions.

The present invention will be further described in detail below with reference to the accompanying drawings:

Embodiment 1

The street lamp facility of the embodiment comprises four parts: a light pole, a lamp holder, a wireless communication device and a charging post, and realizes functions of illumination, wireless communication and charging.

The pole portion is a pure metal component that serves as a mounting support for the base, the wireless communication device, and the charging post.

The lamp cap portion is fixed at the top end of the upper end side bent portion of the lamp post, and the connecting cable is internally routed for the municipal lighting function.

The wireless base station is fixedly installed at the upper end of the main body of the lamp post, and is connected to the wireless base station by using a flange. The direction of the base station antenna can be adjusted through the flange to solve the 3G/4G/5G wireless broadband signal of the urban road or various parks. cover. Further, the top of the wireless base station can selectively install the WIFI hotspot device and the antenna, and serve as a WIFI hotspot of the wireless city or the smart park to implement WIFI signal coverage.

The charging pile part is a charging device of the electric vehicle, and is fixedly mounted on the bottom of the light pole in the form of a semi-clamping rod, and also includes a power distribution part of the entire light pole and an output input interface unit of the light pole signal.

Embodiment 2

The street lamp facility of the embodiment comprises five parts of a lamp pole, a lamp holder, a wireless communication device, a charging pile and a data collection device, and realizes functions of illumination, wireless communication, charging and weather data collection.

The pole portion is a pure metal component that serves as a mounting support for the lamp head, wireless communication device, data acquisition device, and charging post.

The charging pile portion is a charging device for an electric vehicle, and is fixed at the bottom of the light pole in the form of a semi-clamping rod, and also includes a power distribution portion of the entire light pole and an output input interface unit of the light pole signal.

The data acquisition device is installed in the middle of the lamp pole by means of a hanging rod, and mainly includes a wind speed and direction sensor, a temperature and humidity sensor, a PM2.5 sensor, a pressure sensor, a noise sensor, a brightness sensor, etc., for collecting weather related data, and Other physical quantities can also be detected and acquired by adding other sensors.

Embodiment 3

The street lamp facility provided in this embodiment includes a light pole, a lamp holder, a wireless communication device, a charging pile, and an information release screen. Five parts for lighting, wireless communication, charging and information distribution.

The pole portion is a pure metal component that serves as a mounting support for the lamp head, wireless communication device, information display, and charging post.

The wireless base station is partially fixedly mounted on the upper end of the main body of the lamp post, and is connected to the base station portion by using a flange. The direction of the base station antenna can be adjusted through the flange. The top of the base station can selectively install the WIFI hotspot device and the antenna for solving the urban road. Or 3G/4G/5G wireless broadband signal coverage of various campuses, and WIFI hotspots as wireless cities or smart campuses.

The information display screen is installed in the middle of the light pole by means of a hanging rod, and can be opposite or the same as the light head, and is mainly used for publishing various commercial advertisements or public information, and can edit and modify the display content in the background manner.

Embodiment 4

The street lamp facility of the embodiment comprises five parts of a lamp pole, a lamp holder, a wireless communication device, a charging pile and an RFID reader, and realizes functions of illumination, wireless communication, charging, and reading and writing of radio frequency tags.

The pole portion is a pure metal component that serves as a mounting support for the lamp head, wireless communication device, charging post, and RFID reader.

The RFID reader is installed in the middle or upper side of the pole by means of a pole. It can be used to read and write various electronic labels. It can be used for the following purposes: 1) road and bridge, parking lot charges; 2) vehicles (materials) Track tracking and monitoring; 3) electronic license plate recognition; 4) burglar alarm.

Embodiment 5:

The street lamp facility of the embodiment comprises six parts: a light pole, a lamp base, a wireless base station, a charging pile, a data collecting device and an information display screen, and realizes functions of illumination, wireless communication, charging, weather data collection and information release.

The pole part is a pure metal part, and serves as a mounting support member for the lamp holder, the wireless base station, the charging pile, the weather data collecting device, and the information display screen.

Embodiment 6

The street lamp facility of the embodiment comprises six parts of a lamp pole, a lamp holder, a wireless communication device, a charging pile, an information display screen and an RFID reader, and realizes functions of illumination, wireless communication, charging, information release, and radio frequency tag reading.

The pole part is a pure metal part, and serves as a mounting support member for the lamp holder, the wireless communication device, the charging post, the information display screen, and the RFID reader/writer.

Example 7

The street lamp facility of the embodiment comprises six parts of a lamp pole, a lamp holder, a wireless communication device, a charging pile, a data collecting device and an RFID reader, and realizes functions of illumination, wireless communication, charging, weather data collection and radio frequency tag reading and writing.

The pole portion is a pure metal component that serves as a mounting support for the lamp head, wireless communication device, charging post, data collection device, and RFID reader.

Example eight

The street lamp facility of the embodiment comprises seven parts: a light pole, a lamp holder, a wireless communication device, a charging pile, a data collecting device, an information display screen, and an RFID reader, which realize illumination, wireless communication, charging, weather data collection, information release, The function of reading and writing radio frequency tags.

The pole portion is a pure metal component that serves as a mounting support for the lamp head, wireless communication device, charging post, data collection device, information display, and RFID reader.

The data acquisition device is installed in the middle of the lamp pole by means of a hanging rod, and mainly includes a wind speed and direction sensor, a temperature and humidity sensor, a PM2.5 sensor, a barometric pressure sensor, a noise sensor, a brightness sensor, etc., for collecting and Meteorological data, as well as other physical quantities can be detected and collected by adding other sensors.

FIG. 5 is a diagram of an energy supply frame of a street lamp facility according to an embodiment of the present invention. According to the power supply architecture shown in FIG. 5, the power supply device further includes a power distribution unit and a surge lightning protection unit. Specifically, after the external AC input, the surge protection is performed by the surge lightning protection unit. The protection level is required to meet the C level, then enter the power distribution unit for AC power distribution, and finally enter the video monitoring device and the data acquisition device respectively. Intelligent data acquisition terminal), information display screen, charging post, lighting head, wireless base station and backup interface, each part of the equipment is configured with a suitable air switch according to the capacity.

The signal management of the invention is divided into four parts: 1) charging pile; 2) wireless base station; 3) WIFI hotspot; 4) illumination, information display, video acquisition, data acquisition and other units. FIG. 6 is an information architecture diagram of a charging device for a street lamp facility according to an embodiment of the present invention. As shown in FIG. 6, the charging post exchanges information with a background server through its internal 3G/4G/5G communication module. The server exchanges information with the smart charging APP on the mobile phone via the wireless internet. Specifically, when charging by the card swiping method, the charging post sends the card swiping information to the background server through 3G/4G/5G wireless communication, and the background server sends a command to start charging to the charging post after the background authentication, and starts charging. At the end of charging, the charged electricity fee is sent to the background to complete the background charging deduction; when charging with the mobile APP, the mobile phone scans the charging QR code on the charging pile, and the mobile APP sends the information of the pile to the background server, the background server The charging start command is sent to the corresponding charging pile to start charging. After the charging is completed, the tariff information is fed back to the background server to complete the charging and deduction work, and the deduction information is fed back to the mobile phone APP. FIG. 7 is an information architecture diagram of a wireless communication base station of a streetlight facility according to an embodiment of the present invention. As shown in FIG. 7, the information of a radio base station (Radio Remote Unit (RRU)) is derived from A baseband unit (BBU) near the pole, this information is transmitted through the fiber. FIG. 8 is an information architecture diagram of a WIFI hotspot of a streetlight facility according to an embodiment of the present invention. As shown in FIG. 8, the signal of the WIFI hotspot part is from a nearby Power over Ethernet (POE) switch. The POE cable provides signals and energy.

FIG. 9 is an information architecture diagram of video monitoring, information display, street lighting, and data collection of a street lamp facility according to an embodiment of the present invention, as shown in FIG. 9 , including a video monitoring device (ie, a video capture device, IP camera), and an information display. Screen (LED screen), street lighting system (including light control board and street light), data acquisition device (including environmental tester for collecting meteorological data, wind speed and direction instrument, noise sensor), information display and data acquisition device connection wisdom The control board (ie smart board), intelligent control board, RFID reader, video monitoring device, street lighting system are connected to the wireless router through the network cable, and the wireless router is connected by wireless bridge or by wire. The connection mode is connected by a dedicated server, and the information of each device is packaged according to the TCP/IP protocol and then sent to the background server to complete the recording, display, and analysis of the data.

Through the description of the above embodiments, those skilled in the art can clearly understand that the foregoing embodiment method can be implemented by means of software plus a necessary general hardware platform. Based on such understanding, the technical solution of the present invention may be embodied in the form of a software product stored in a storage medium (such as a ROM/RAM, a magnetic disk, an optical disk), including a plurality of instructions for making a terminal. The device (which may be a cell phone, computer, server, air conditioner, or network device, etc.) performs the methods described in various embodiments of the present invention. The above are only the preferred embodiments of the present invention, and are not intended to limit the scope of the invention, and the equivalent structure or equivalent process transformations made by the description of the present invention and the drawings are directly or indirectly applied to other related technical fields. The same is included in the scope of patent protection of the present invention.

Although the invention has been described in detail above, the invention is not limited thereto, and various modifications may be made by those skilled in the art in accordance with the principles of the invention. Therefore, modifications made in accordance with the principles of the invention are to be understood as falling within the scope of the invention.

Industrial applicability

The invention is applicable to the fields of wireless communication, the field of Internet of things, the field of charging electric vehicles and the field of smart cities, and is used to accelerate the construction of smart cities, wireless cities and green cities, save construction costs and maintenance costs, and improve the comprehensive utilization rate of resources.

Claims

A method for implementing a streetlight facility that integrates lighting, car charging, and wireless communication functions, including:

Installing a street light, a charging device and a wireless communication device on the light pole of the street lamp facility;

Providing power for the street lamp, the charging device and the wireless communication device installed on the lamp post by using an external power source connected by the street lamp facility;

While ensuring power supply of the wireless communication device and the street lamp, the charging device controls the charging operation of the corresponding electric vehicle.
The method of claim 1 wherein said step of controlling said charging device for charging operation of a respective electric vehicle comprises:

The charging device interacts with the background server by using the wireless communication device to obtain an instruction for the background server to control the charging operation according to the power resource condition;

The charging device is controlled to activate or deactivate the charging operation of the corresponding electric vehicle using the instructions for controlling the charging operation.
The method of claim 1 wherein said step of controlling said charging device for charging operation of a respective electric vehicle comprises:

Detecting the state of the street lamp;

If it is detected that the street lamp is in an active state, the charging device is controlled to stop the charging operation of the corresponding electric vehicle, and if not detected, the charging device is controlled to turn on the charging operation of the corresponding electric vehicle.
A method according to any one of claims 1 to 3, wherein said charging means comprises a DC charging post and/or an AC charging post for charging an electric vehicle, mounted to a base portion of said light pole.
A method according to any of claims 1-3, wherein the wireless communication device comprises a wireless communication base station and/or a WIFI hotspot mounted on top of the light pole.
The method of any of claims 1-3, further comprising:

One or more of a data acquisition device, a video monitoring device, and an information display screen are mounted in the middle portion of the light pole.
A streetlight facility that integrates lighting, car charging and wireless communication functions, including:

Light pole

a street light, a charging device and a wireless communication device mounted on the light pole;

a power supply device configured to supply power to a street lamp, a charging device, and a wireless communication device mounted on the lamp post by using an external power source connected thereto, and while ensuring power supply of the wireless communication device and the street lamp The charging device controls the charging operation of the corresponding electric vehicle.
The street light installation of claim 7 wherein said charging means comprises a DC charging post and/or an AC charging post for charging an electric vehicle, mounted to a base portion of said light pole.
The street light installation of claim 7 wherein said wireless communication device comprises a wireless communication base station and/or a WIFI hotspot mounted on top of said light pole.
The street lamp installation according to any one of claims 7-9, wherein the street lamp facility further comprises: one or more of a data collection device, a video monitoring device, and an information display screen installed in an intermediate portion of the lamp post One.