JP3148265U - Charging station that supplies power to electric vehicles with narrow-area communication (DSRC) antennas - Google Patents

Abstract

The present invention provides a charging stand that is installed in a parking area of a convenience store or a large-scale mass retailer, a parking lot of a condominium, a road station, or the like and charges an electric vehicle that is expected to spread. A charging station 5 for supplying electric power to an electric vehicle 8 and the like are connected to a narrow area communication (DSRC) antenna 6, and the electric vehicle 8 that communicates with the narrow area communication (DSRC) antenna 6 of the charging station 5 is connected to the electric vehicle 8. Each charging station 5 includes a communication line such as an optical cable, as well as means for supplying power to the electric vehicle 8 that can provide and obtain information with a communication means such as an on-board short range communication (DSRC) mobile communication terminal. 2 is connected to a life information center (concentrated station) having various information servers such as tourist information, traffic information such as traffic jams, construction, and charging stand maps. Furthermore, communication of life information, company information, shop information, parking lot information, and the like is performed to the life information center via various communication networks such as the Internet. [Selection] Figure 1

Description

  The present invention relates to a desk lamp that is installed in a parking area of a convenience store or a large-scale mass retailer, a parking lot of a condominium, or a road station, and charges an electric vehicle that is expected to spread.

  The practical use and popularization of electric vehicles that are friendly to the global environment is in the foreseeable state. It will be installed in roadside stations and is expected to spread. However, it takes about 15 minutes to charge an electric vehicle even if rapid charging is performed. If this charging time is used and effectively used, a large amount of information can be acquired and transmitted. As an example of the prior art connecting a communication network and a charging stand, there is JP 2007-148590.

  In Japanese Patent Application Laid-Open No. 2007-148590, a charging station and a charging station information providing server are connected by a communication network to extract information on a charging station for an electric vehicle and provide the information to the electric vehicle. However, it takes about 15 minutes to charge at a desk lamp that performs charging even if rapid charging is performed. While charging at this desk lamp, it is not possible to effectively use it for obtaining or transmitting useful information in the car.

  The present invention has been made in order to solve the above-described conventional problems, and includes a charging station that supplies power to an electric vehicle or the like and a narrow area communication (DSRC) antenna connected to the narrow area communication (DSRC) antenna. Information is provided between the charging station and a communication means such as a narrow area communication (DSRC) mobile communication terminal mounted on the electric vehicle that communicates with the narrow area communication (DSRC) antenna of the charging station. Each charging station has various information servers such as tourism information, traffic jams, traffic information such as construction, and charging station maps via a communication line such as an optical cable. It is connected to the living information center (concentrated station) that it has. Furthermore, communication of life information, company information, shop information, parking lot information, and the like is performed to the life information center via various communication networks such as the Internet.

  According to the present invention, since the charging station of an electric vehicle or the like has a narrow area communication (DSRC) antenna, communication is performed with a narrow area communication (DSRC) mobile communication terminal mounted on the electric vehicle or the like, and charging is in progress. In addition, it can be effectively used for obtaining and transmitting useful information in the car. In addition, since the narrow-area communication (DSRC) mobile communication terminal mounted on the electric vehicle or the like has vehicle-specific information (ID), it can vary depending on the vehicle, for example, a service that can run according to the charge amount, Obtain information such as the next charging stand map, or obtain an optimal information service according to the characteristics of the vehicle. In addition, billing processing according to the amount of charge can be completed with the narrow area communication (DSRC) mobile communication terminal. Further, the charging station having the narrow area communication (DSRC) antenna is a life information center having various information servers such as tourist information, traffic information such as traffic congestion, construction, and charging station map via a communication line such as an optical cable. Useful information can be obtained during charging because it is connected to a central station. Furthermore, communication of living information, company information, shop information, parking lot information and the like can be made to the living information center (concentrated station) via various communication networks such as the Internet.

An embodiment of the present invention is shown in FIG. The narrow-area communication (DSRC) antenna 6 shown in FIG. 1 is composed of a planar patch antenna or the like for performing bidirectional communication with a radio wave of 5.8 MHz so that communication can be performed in a narrow area with a limited communication area. I have to. The charging stand 5 includes the narrow area communication (DSRC) antenna 6. Even if the charging station 5 and the narrow area communication (DSRC) antenna 6 are integrated, a narrow area communication (DSRC) antenna column 10 is provided separately, and the narrow area communication (DSRC) antenna 6 is connected to the narrow area communication (DSRC) antenna 6. (DSRC) The antenna post 10 may be attached. The narrow-area communication (DSRC) antenna 6 is bidirectionally connected to the DSRC in-vehicle antenna 26 of the narrow-area communication (DSRC) mobile communication terminal 27 shown in FIGS. Communication is performed. Although not shown, each charging station 5 is supplied with necessary power from various power sources and connected to a life information center (concentrated station) 1 having various information servers via a communication line 5 such as an optical cable. Is done. The living information center (concentrated station) 1 is connected to an Internet network or the like via another communication line 3. For this reason, all kinds of information are connected through the living information center (concentrated station) 1, and information on living from the government, corporate information, various advertisements, paid contents, weather / traffic information, destination information, tourist spots / products Obtaining sales information and transmitting information can be obtained in the electric vehicle 8 being charged at the charging stand 5.
FIG. 2 is a block diagram showing details of the charging stand 5 of the present invention. In FIG. 2, a narrow communication (DSRC) antenna 6, a transmission / reception circuit 22 including modulation / demodulation, a control circuit 21 including a CPU and a memory, and a communication interface circuit 20 having an optical input / output A regional communication base station is configured. The communication base station may not be built in the charging stand 5. The communication interface circuit 20 is connected to the communication line 2 composed of an optical cable or the like, and is connected to a life information center (concentrated station) 1 having the various servers. The control circuit 21 is connected to a charging control means 23 and a charging means 25 having a settlement server function. Although the charging control means 23 is not shown, necessary power is supplied from various power sources and charging control is performed on the battery 28 of the electric vehicle 8 via the charging cable 9. A human interface means 24 such as a display constituted by a touch panel or the like is connected to the charging control means 23 and is used as an input means for selecting a charging method such as rapid charging and a settlement method. Further, the charging unit 23 outputs the amount of electric power charged to the electric vehicle 8 to the charging unit 25. The charging means 25 receives the payment amount by the control circuit 21, communicates with the narrow area communication (DSRC) antenna 6 via the transmission / reception circuit 22, and the narrow area communication mounted on the electric vehicle 8. (DSRC) The credit card attached to the IC card reader 32 in the mobile communication terminal 27 is charged.
The communication with the life information center (concentrated station) 1 having the various servers is performed by the communication line 2, the communication interface circuit 20, the control circuit 21, the transmission / reception circuit 22, the narrow area communication in the charging station 5. (DSRC) It is performed with the narrow area communication (DSRC) mobile communication terminal 27 mounted on the electric vehicle 8 via the antenna 6.
FIG. 3 is a block diagram showing details of the short-range communication (DSRC) mobile communication terminal 27. The narrow-area communication (DSRC) mobile communication terminal 27 has vehicle-specific information (ID), and can be charged according to authentication and the amount of charged power, or service information that is different for each vehicle. A DSRC in-vehicle antenna 26 connected to the narrow area communication (DSRC) mobile communication terminal 27 is connected to a transmission / reception circuit 30. A control circuit 31 composed of a CPU or the like is connected to an IC card reader 32, and controls reading and writing of IC card information such as an inserted credit card (not shown). Further, the control circuit 31 displays information obtained via the 5.8 GHz radio wave 7 from the narrow area communication (DSRC) antenna 6 on a display 33. Although not shown, the display 33 is equipped with touch panel input so that input operations for obtaining various services can be performed. In addition, various service information obtained via the DSRC in-vehicle antenna 26 is downloaded to the memory 34 connected via the control circuit 31. Further, the interface means 35 connected to the control circuit 31 is constituted by an infrared communication or a short-range wireless interface of Bluetooth. For example, sightseeing spot information or the like is entered into a mobile phone via the interface means 35, and a tourist guide is obtained by walking according to the mobile phone navigation of the mobile phone. Although not shown, the short-range communication (DSRC) mobile communication terminal 27 also has a car navigation function, and can transmit the travel behavior history and the like obtained by the electric vehicle 8. Furthermore, the vehicle service information according to the vehicle type of the electric vehicle 8 obtained from the vehicle specific information (ID) and the amount of charged power, the map information of the next charging station 5 and the like are transmitted.
In addition, although this invention demonstrated the electric vehicle, the electricized electric bike and electric bicycle may be sufficient.

Effects of the embodiment

  According to the embodiment of the present invention, since the charging station of an electric vehicle or the like has a narrow area communication (DSRC) antenna, communication is performed with a narrow area communication (DSRC) mobile communication terminal mounted on the electric vehicle or the like. In addition, it is possible to effectively utilize information for obtaining and transmitting useful information in the vehicle during charging. In addition, since the narrow-area communication (DSRC) mobile communication terminal mounted on the electric vehicle or the like has vehicle-specific information (ID), it can vary depending on the vehicle, for example, a service that can run according to the charge amount, Obtain information such as the next charging stand map, or obtain an optimal information service according to the characteristics of the vehicle. In addition, billing processing according to the amount of charge can be completed with the narrow area communication (DSRC) mobile communication terminal. Further, the charging station having the narrow area communication (DSRC) antenna is a life information center having various information servers such as tourist information, traffic information such as traffic congestion, construction, and charging station map via a communication line such as an optical cable. Useful information can be obtained during charging because it is connected to a central station. Furthermore, communication of living information, company information, shop information, parking lot information and the like can be made to the living information center via various communication networks such as the Internet.

  It is a figure which shows one Embodiment of this invention.   It is a block diagram which shows the detail of one Embodiment of this invention.   1 is a block diagram of a narrow area communication (DSRC) mobile communication terminal. FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Living information center (central station) which has various servers 2 Communication line 3 Communication line 4 Internet network 5 Charging stand 6 Narrow area communication (DSRC) antenna 7 Radio wave 8 Electric vehicle 9 Charging cable 10 Narrow area communication (DSRC) antenna support | pillar 20 Communication interface circuit 21 Control circuit 22 Transmission / reception circuit 23 Charging control means 24 Human interface means 25 Billing means 26 DSRC in-vehicle antenna 27 Narrow band communication (DSRC) mobile communication terminal 28 Battery 30 Transmission / reception circuit 31 Control circuit 32 IC card reader 33 display 34 memory 35 interface means

Claims (6)

Charging power is supplied to electric vehicles and the like, and it has a narrow area communication (DSRC) antenna and is connected to a life information center (concentrated station) having various servers via a communication line such as an optical cable. A charging station that supplies power to an electric vehicle or the like having a narrow area communication (DSRC) antenna. The electric vehicle-specific information (ID) possessed by a narrow area communication (DSRC) mobile communication terminal or the like mounted on an electric vehicle or the like is acquired via a narrow area communication (DSRC) antenna, and The charging station for supplying electric power to an electric vehicle or the like having a narrow area communication (DSRC) antenna according to claim 1, wherein different information is provided to the narrow area communication (DSRC) mobile communication terminal. 2. The narrow area communication (DSRC) according to claim 1, wherein life information such as sightseeing information, traffic information, weather information and the like can be obtained through a narrow area communication (DSRC) mobile communication terminal mounted on an electric vehicle or the like. ) A charging stand that supplies electric power to an electric vehicle or the like having an antenna. Charging the electric vehicle by acquiring vehicle-specific information (ID) held by an ETC or a short-range communication (DSRC) mobile communication terminal mounted on the electric vehicle or the like via a narrow-area communication (DSRC) antenna The charging stand for supplying electric power to an electric vehicle or the like having a narrow area communication (DSRC) antenna according to claim 1, wherein charging is performed for the amount. Performs short-range communication (DSRC) via a short-range communication (DSRC) mobile communication terminal mounted on the electric vehicle, transmits action history information, maintenance information, etc. of the electric vehicle from the electric vehicle, and The charging stand for supplying electric power to an electric vehicle or the like having a narrow area communication (DSRC) antenna according to claim 1, wherein information on maintenance contents, timing, etc. is obtained. The narrow-area communication (DSRC) mobile communication terminal mounted on the electric vehicle performs narrow-area communication (DSRC), and travel service information corresponding to the vehicle type and charge amount obtained from the vehicle-specific information (ID), or 2. The charging station for supplying electric power to an electric vehicle or the like having a narrow area communication (DSRC) antenna according to claim 1, wherein map information of the charging station for supplying electric power to the electric vehicle or the like is obtained.

Images