FR2728712A1 - Electrical energy distribution device for supplying electricity e.g. to electric vehicle recharging point - Google Patents

Abstract

The distribution device includes a fixed part (1) connected to an electrical energy distribution network (6). The fixed part (1) contains a switch (5) connected between the network and a fixed connector (8) for providing an electrical energy supply to a load (3). The device also includes a movable part (2) containing the electrical load (3) connected to a movable connector (13) by a cable (12). The movable connector (13) is designed for insertion into the fixed connector (8) in the fixed part of the unit. The fixed part (1) also includes a control device (9) for controlling the switch (5). The movable connector (13) has configuration device (14), consisting of the digital circuit with the memory, designed to be connected to the control device (9) via fixed connections (16) and a coupling circuit (15) which pass read/write functions to the configuration device (14). The control device includes a protection device (17) having a variable current threshold connected to a device for measuring current circulating in the switch for opening the switch when the measured current value exceeds the threshold value during a predetermined time. A user interface is connected to the control device (9) for entering new electronic payment values and displaying them.

Description

FCTRICAL ENERGY DISTRIBUTION DEVICE
The invention relates to an electrical energy distribution device comprising: - a fixed part connected to an electrical energy distribution network and comprising interruption means connected between the network and fixed connection means for supplying electrical energy to a load, and - a mobile part comprising an electric charge connected to mobile connection means, said mobile connection means being intended to be connected to said fixed connection means,
Known distribution devices are used to supply electrical energy to mobile users. The fixed parts of these devices are generally connection terminals installed for example in parking lots, market locations, campsites, ports. , or charging points for electric vehicles. in most cases users pay a lump sum for connection to distribution terminals.

There are prepayment distribution terminals with an electric meter and a controlled cut-off device. In this type of device, the supply of electricity is interrupted when the meter detects that the quantity of electric energy supplied has reached a value defined by the prepayment. The payment methods usually used are magnetic cards, memory cards allowing electronic payment or more simply devices accepting money or tokens.

It is known to have payment devices in distribution terminals or in central management units common to several terminals. In other known devices, the payment for the supply of electricity is associated with the payment for the parking of vehicles.

In the known distribution devices described above, the connection terminals must have a nearby payment device. The installation of this type of terminal necessarily leads to heavy and costly infrastructure.

Another drawback of the known dispensing devices lies in their mode of use. A user must always have magnetic cards, credit cards and change with them which can be accepted by the various automatic payment devices associated with the distribution terminals.

The known connection terminals supply an amount of electrical energy proportional to the value of the payment made, but do not take account of the electrical characteristics of the load which is connected to them.

The object of the invention is to provide an electrical energy distribution device comprising simple payment means and taking into account the characteristics of the electrical charge of the mobile part.

According to the invention, the fixed part comprises means for controlling the interruption means, and the mobile connection means comprise configuration means, intended to be connected to the control means by means of fixed connection means.

In a first development of the invention, the configuration means comprise a digital memory circuit for storing information, said digital circuit being connected to the control means when the fixed and mobile connection means are connected.

The fixed part includes coupling means connected between the control means and the fixed connection means for reading and writing information in the digital circuit of the mobile connection.

According to a preferred embodiment, the control means comprise protection means having a variable current threshold connected to means for measuring a current flowing in the interrupting means to open the interrupting means when the value of measured current exceeds the variable current threshold for a predetermined time.

The value of the variable current threshold is provided by the configuration means
In a particular embodiment, the interrupting means comprise timing means for supplying electrical energy to the connection means for a predetermined connection duration, the value of the predetermined connection duration being supplied by the control means after reading the digital memory circuit.

According to a development of the particular embodiment, the digital memory circuit comprises payment data representative of electronic payment units, said payment data being read and written by the control means.

The control means comprise calculation means for periodically modifying, during the closure of the interrupting means, the stored values of the payment data in the digital memory circuit.

The fixed part includes a user interface connected to the control means for entering new values of payment data and for displaying stored values of payment data.

In a different embodiment, the mobile part includes additional connection means, intended to receive the mobile connection means when said mobile connection means are not connected to the fixed connection means, and additional processing means connected to the means additional connections for reading, writing or modifying data in the digital memory circuit of the mobile connection means.

The digital circuit can be integrated on an interchangeable card, for example of the "smart card" type.

In a second development of the invention, the mobile part is an electric vehicle comprising charge control means connected to the mobile connection means, an electric energy storage battery connected to the charge control means, representative data electrical characteristics of the storage battery being stored in the configuration means of the mobile connection means.

The additional processing means are connected to the storage battery for reading the state of charge of the battery and comprise calculation means for calculating a maximum predetermined connection duration as a function of the state of charge of the battery and means for storing said maximum connection duration in the configuration means.

Other advantages and characteristics will emerge more clearly from the description which follows, of particular embodiments of the invention, given by way of nonlimiting examples, and represented in the appended drawings in which
Figure 1 shows a known distribution device.

FIG. 2 represents an embodiment of a dispensing device according to the invention.

FIG. 3 represents a block diagram of a configuration device which can be integrated into the device of FIG. 2.

FIG. 4 shows a particular embodiment of the connector of FIG. 2.

FIG. 5 represents a second particular embodiment of the mobile part of a device according to the invention.

A continuous electrical energy distribution device is shown in FIG. 1. I1 comprises a fixed part 1 having for example the form of a public connection terminal, a mobile part 2 comprising an electric charge 3 situated for example on a vehicle automobile, and a connection device 4 for electrically connecting the load 3 of the mobile part to the fixed part.

The fixed part 1 comprises a device 5 for interruption, connected to a network 6 of electrical distribution. an electrical energy meter 7 at an input connected to an output of the interrupting device 5 and an output connected to an electrical outlet 8. socket 8, accessible from outside the fixed part, allows the mobile part to be connected to the fixed part. A processing unit 9, connected to the counter 7, to the interruption device 5, to a man-machine interface 10 and to a payment device 11, controls the passage of current through the device 5. A connected remote transmission line 26 to the processing unit 9 is used for electronic payment when using a credit card in the payment device 11.

The mobile part 2 is connected to the fixed part 1 by a connecting cable 12 connected between the electrical load 3 and a connector 13. the connector 13 is intended to be connected to the socket outlet 8.

The operation of the device of Figure 1 is as follows. A user having a moving part, for example a motor vehicle, inserts the connector 13 into the socket 8.

Then, it proceeds to a payment operation, following the predefined instructions in the interface 10, using the payment device 11, for example a credit card reader. The processing unit 9 calculates the quantity of electrical energy required during the payment operation and controls the closing of the interruption device 5. The electrical current from the network 6 then passes through the device 5, the counter 7, the socket 8, the connector 13 and the cable 12 to supply the electrical load 3. The counter 7 sends information representative of the electrical energy consumed by the load. when the energy consumed reaches the value of the energy requested during payment, the processing unit commands the opening of the interruption device 5.

The distribution device described above does not take into account the electrical characteristics of the load and requires complex installation at each fixed part or connection terminal.

In a distribution device according to the invention, shown in FIG. 2, a configuration device 14 associated with the connector 13 makes it possible to supply the processing unit 9 with information concerning the command of the protection and control device 5.

The fixed part 1 comprises a coupler 15 connected to the configuration device of the mobile part through additional connection points 16 of the connector 13. the coupler 15, connected to the processing unit 9, can receive information from the configuration device and send some. The information read is transferred by the coupler 15 to the processing unit and information coming from the processing unit and transmitted by the coupler 15 can be introduced into the configuration device or modify the information that it contains.

The information provided by the configuration device is, in particular, representative of payment data. These payment data are processed by the processing unit which interprets them, for example, as connection durations. The processing unit controls the closing and then the opening of the interrupt device 5 according to the payment data provided by the configuration device.

The maximum duration of closure of the interrupt device 5 depends on the value of the payment data. In continuous operation, the processing unit decrements the value representative of the payment data at each predetermined time interval. When the distribution of electrical energy is finished, a new value representative of the payment data is stored in the configuration device. in this case the user proceeds himself at the end of the connection.

In another operating mode, maximum connection duration values may depend, for example, on total values of the payment data, on a predefined maximum value per connection or on predefined values according to the characteristics of the load.

In a particular embodiment, the configuration device also includes calibration information to limit the current flowing through the device 5. The calibration information depends on the electrical characteristics of the load. They limit the maximum current supplied to the load. The processing unit receives the calibration information, then defines a current threshold S.

A current sensor arranged in series with the interrupting device 5 supplied to the processing unit a signal I representative of the current supplied to the fixed part. If the value of the current signal I exceeds the value of the current threshold S, the processing unit commands the opening of the interruption device after a time defined by predetermined tripping curves.

The processing unit receives the information from the payment and calibration data and processes it independently. The payment data are used to define a connection duration T, and the calibration information is used to determine the threshold S.

In another operating mode, the processing unit determines the duration T as a function of the calibration information and the payment data. For example, for a determined value of the payment data, the duration T corresponding to the closed state of the device 5 is longer if the calibration data indicate a lower current threshold. This operating mode makes it possible to keep a proportionality between the energy supplied and the value of the payment data. The signal S representative of a current threshold can, like the signal T, be determined as a function of the two types of information.

A preferred embodiment of a configuration device 14 is shown in FIG. 3. The configuration device comprises a digital circuit 22 advantageously composed of a microprocessor 23 and a memory 24. The microprocessor communicates through the connector 16 with the coupler 15 and the processing unit of the fixed part. The memory 24 connected to the microprocessor 23 makes it possible to store payment data and the configuration of the load.

FIG. 4 represents a particular embodiment of the connector 13 of the connection device 4. The connector 13 comprises the configuration device 14 in the form of a card 25 supporting the digital circuit 22 and contacts 26. The card 25 has preferably dimensions identical to payment cards of the smart card type. The data from the memory 24 of the circuit 22 located on the card 25 can, in this embodiment, be loaded by inserting the card 25 into an independent recharging device, external to the distribution device. Another advantage of this embodiment is the easy replacement of the card in the event of deterioration or after a predefined number of connections.

In a more complex embodiment, a user interface 10 and a payment device 11 are connected to the processing unit 9. The function of the user interface is to display the information, configuration and payment data stored in the configuration device 14. It also allows modification or loading of said information. For example, using the payment device 11, a user can purchase payment data which will then be loaded into the device 14. This type of distribution device allows full compatibility with devices of known type. 9, the interface 10 and the payment device can also operate in a conventional manner and control the supply of electrical energy as a function of direct payment without taking account of the data of the configuration device or in their absence.

The movable part 2 of Figure 6 has a complex electrical charge. It comprises a converter 27 and an alternating current load 28 both connected to the connecting cable 12, a battery 29 connected to the output of the converter 27 and a direct current load 30 connected to the battery 29. The converter 27 is used to transform the alternating voltage supplied by the fixed part into DC voltage and current to charge the battery 29 and supply the load 30.

When the mobile part is not connected to a fixed part, the connector 13 of the mobile part is connected to a rest socket 31 located on the mobile part. the configuration device is then connected through a connector 32 to a mobile processing device 33 for reading, writing or modifying data in the digital circuit 22 of the configuration device 14. The mobile processing device 33 is connected to the converter 27 and to the battery 29 for taking data representative of the electrical characteristics and of the state of charge of the battery.

The mobile part of Figure 6 is particularly suitable for electric vehicles. The processing device 33 takes, for example, data representative of the voltage and nominal recharge current in the converter and data representative of the state of charge on the battery. The sampled data are processed by the device 33 which calculates the maximum charging time required and the maximum charging current to be used.

Then the data taken and the calculated values are introduced into the digital circuit 22. The processing unit will use this data from the circuit 22 to define the threshold
S and the connection duration T.

In the distribution devices described above, the electrical connections with the network 6 and the charging of the mobile part are carried out by means of electrical contacts.

However, these connections can just as easily be electrically isolated connections. The connection device 4 can, for example, include high frequency magnetic couplings having the advantages of a small footprint and galvanic isolation. The connection between the coupler 15 and the device can also be isolated using electromagnetic or optical couplings.

The interrupting device 5 may include a circuit breaker with a variable current threshold.

In this case, part of the current limiting functions is provided by the circuit breaker.

The processing unit supplies the value of the current threshold S to the circuit breaker which causes the opening of the device 5 if the current supplied to the mobile part exceeds the threshold S for a predetermined time. If the circuit breaker is of the remote-controlled type, the processing unit can directly control closing and opening after a connection duration T defined in the configuration means 14.

Claims (14)

 DREAM: NDICATIONS  fixed connection means (16).  configuration, intended to be connected to the control means (9) via  - The mobile connection means (13) comprise means (14) for  the fixed part (1) comprises means (9) for controlling the means (5) of interruption, and  device characterized in that  connected fixed means audit (8),  mobile connection, said mobile connection means being intended to be  - a mobile part (2) comprising an electric charge (3) connected to means (13) of  fixed connections to supply electrical energy to a load, and  comprising means (5) of interruption connected between the network and means (8) of  - a fixed part (1) connected to a network (6) of electrical energy distribution and i. Electric power distribution device comprising 2. Distribution device according to claim 1 characterized in that the means of  configuration include a digital memory circuit (22) for storage  of information, said digital circuit being connected to the control means (9) when the  fixed and mobile connection means are connected. 3. Distribution device according to claim 2 characterized in that the fixed part  comprises coupling means (15) connected between the control means (9) and the  fixed connection means (16) for reading and writing information in the  digital circuit of the mobile connection. 4. Dispensing device according to any one of claims 1 to 3 characterized in  that the control means (9) include protection means (17) having a  variable current threshold (S) connected to means for measuring a current (I)  circulating in the interrupting means (5) to open the interrupting means  when the value of the measured current (I) exceeds the variable current threshold (S) for  a predetermined time. 5. Distribution device according to claim l characterized in that the threshold value  (S) of variable current is supplied by the configuration means (14). 6. Dispensing device according to any one of claims 3 to 5 characterized in  that the means (5) for interrupting include delay means for  supply electrical energy to the connection means for a period of  predetermined connection, the value of the predetermined connection duration being supplied  by the control means (9) after reading the digital circuit (22) with memory. 7. Dispensing device according to any one of claims 2 to 6 characterized in  that the digital memory circuit (22) includes payment data  representative of electronic payment units, said payment data being  read and written by the control means (9). 8. A dispensing device according to claim 7 characterized in that the means of  control (9) include calculation means for periodically changing during the  closing of the interrupting means (5) the stored values of the data of  payment in the digital memory circuit (22).  9. Distribution device according to one of claims 7 and 8 characterized in that the  fixed part comprises a user interface (10) connected to the control means (9)  to enter new payment data values and to display values  stored payment data. 10. Distribution device according to any one of claims 2 to 9 characterized in  that the mobile part includes additional connection means (31, 32),  intended to receive the mobile connection means when said means of  mobile connections are not connected to the fixed connection means, and  processing means (33) - additional connected to the connection means  additional for reading, writing or modifying data in the circuit (22)  digital memory of mobile connection means. 11. Distribution device according to any one of claims 2 to 10 characterized  in that the digital circuit (22) is integrated on an interchangeable card (25). 12. Distribution device according to any one of claims 1 to 1 1 characterized  in that the mobile part is an electric vehicle comprising means (27) for  charge control connected to the mobile connection means, a battery (29) of  storage of electrical energy connected to charge control means,  data representative of the electrical characteristics of the storage battery being  stored in the configuration means of the mobile connection means. 13. A dispensing device according to claim 12 characterized in that the means  (33) additional processing are connected to the storage battery for reading  the state of charge of the battery.  configuration.  means for storing said maximum connection time in the means of  maximum predetermined connection depending on the state of charge of the battery and  additional processing includes calculation means for calculating a duration of  14. A dispensing device according to claim 13 characterized in that the means of