DE102010019376A1 - Electricity meter system for power consumption acquisition of electric cars, has electricity meter formed by separating device to release or interrupt power supply based on received data of computerized unit and consumer assigned data - Google Patents

Abstract

The system has a communication interface transmitting meter data to a central computerized unit (1) i.e. power supply, and receiving data from the central computerized unit. A consumer identification unit dynamically identifies information of the consumer. An electricity meter (3) is formed by a separating device to release or interrupt the power supply based on the received data of the central computerized unit and the consumer assigned data. The consumer identification unit and a power consumption device are arranged in a partially, structurally contiguous manner. An independent claim is also included for a method for supplying power to a power consumption unit connected to an electricity meter system.

Description

The present invention relates to an electricity meter system comprising a current consumption device for a power consumer and to an electricity meter, which has a communication interface for transmitting meter data to a computer-aided central processing unit, in particular an energy supplier, and for receiving data from the central processing unit. Furthermore, the invention relates to a method for supplying a power consumer, which is connectable to an electricity meter system according to one of the previous connections, wherein the electricity meter system comprises a current consumer for current consumers and an electricity meter with a communication interface, via the meter data to a computer-aided central unit, in particular an energy supplier transmitted and received via the data from the central unit.

High growth rates are forecast for the sales market for electric vehicles. However, an essential part of the introduction of electric vehicles is their energy supply. Recent studies show that there are only a limited number of power take-off devices for each vehicle. This is contrary to the spread of electric vehicles, which currently have only a short range of a few 100 km.

It is an object of the present invention to provide a system with which the distribution of power take-off devices can be improved.

The object is achieved by an electricity meter system according to claim 1. Furthermore, the object is achieved by a method for releasing current-collecting devices according to claim 20. Advantageous embodiments can be found in the respective subclaims and the following description.

An inventive electricity meter system is characterized in that the electricity meter is assigned a consumer identification unit with which a consumer is dynamically identifiable, wherein the electricity meter is formed by means of a separator for releasing or interrupting the power output due to received from the central unit and the consumer associated data. Through the use of the consumer identification unit, which is associated with a power take-off device, it is possible to selectively deliver power to known and / or paying customers. The power take-off device and associated power meter system may be provided by individuals, businesses as well as public entities. The invention thus provides the incentive to increase the number of supply stations.

The actual identification in terms of personalization is then usually on the part of the central unit, which may be, for example, energy reseller or energy supply company. The operator of the electricity meter system is not necessarily confronted with billing issues. The consumer identification unit receives from the consumer a data packet which identifies it, i. H. can be used to identify a power-requiring device or the owner of the device. About the assignment of the device to the owner can take place an indirect assignment. The assignment can be database-based, for which purpose, for example, a unique consumer ID assigned to the consumer is to be deposited. The data received from the consumer identification unit or queried by the consumer data are transmitted according to the invention via the electricity meter system to a computer-aided central unit, in which it can then be decided whether an enable signal is transmitted to the electricity meter. The electricity meter is formed by means of the separator for releasing or interrupting the power output due to data obtained from the central unit and the consumer associated data. Thus, an already started current drain can be interrupted again.

In one application, for example, an account balance assigned to the consumer on the central unit can have a limited, low credit balance. Then, the electricity meter from the central unit can have a data record with information for the delivery of only a specific, according to the credit limited amount of electricity. Or the electricity meter can after a certain time the power output, which in turn is transmitted from the electricity meter to the central unit, receive another signal from the central unit, due to which then the power output is terminated by the separator.

The electricity meter is for this purpose designed for bidirectional communication with the central unit. On the one hand, the electricity meter transmits the power consumption of the consumer to the central unit, for example for billing or monitoring purposes, on the other hand, the (same) communication interface can also receive the data from the central unit. Instead of using a bidirectional communication interface, two unidirectional interfaces can also be used.

About the preferably provided with an Internet portal computerized central processing unit In a further embodiment of the invention, it is also possible to establish rules for the delivery of specific amounts of electricity or for the time control of the delivery of specific quantities of electricity in a set of rules. The customer or the power company then z. B. the ability to move the power and thus the charging of a connected electric vehicle in certain times. Of course, this does not only apply to electric vehicles but also to other types of electricity consumers. Furthermore, control and monitoring functions can be realized via this portal. A user can, for. B. control consumers or specify desired temperatures of rooms.

The system has special advantages due to the location-independent allocation of the electricity consumer to a person. The communication between the electricity meter, which is formed for example on the basis of a smart household meter, with the central unit can be made wireless or wireless. Advantageously, for example, a communication via the power cable, which minimizes the number of lines to be laid, a wireless communication or communication via an already existing, wired Internet connection. Usable communication paths, for example via the Internet are known in the art. Particularly advantageous, however, is a combination of the connection techniques with which a connection to an in-house DSL connection is made from the location of the electricity meter via the power line.

In an advantageous embodiment of the invention, the electricity meter and the consumer identification unit are at least partially structurally separated and connected to each other via at least one data connection, wherein the electricity meter is designed to establish a connection to the central unit and to transmit a consumer identification data packet. It is furthermore particularly advantageous if the consumer identification unit and the power take-off device are arranged at least partially structurally coherently. Arranged in a structurally coherent manner is, in particular, the arrangement in a housing, on a circuit board or an arrangement via modules which can be attached to one another.

The electricity meter, which occupies a central and interface position due to the communication with the central unit and optionally any other consumers and the power take-off device can be arranged in such a training in a secure area, for example, within a house, while the consumer identification unit and the current removal device, for example outside of the house can be installed near a car parking space.

The consumer identification unit can be partially assigned to both the current-collecting device and the electricity meter and each partially structurally connected with these. For example, between the power take-off device and the power meter, a power line communication, i. H. a switched to the supply line communication, be present so that a received from a first part of the consumer identification unit, the consumer identification data packet is transmitted via the power line communication to the electricity meter and there is passed from a second part of the consumer identification unit the electricity meter.

The consumer identification unit and the electricity meter can also be structurally connected in a further embodiment of the invention, d. H. plugged together, od in a housing or in a board. Like. Be located. Such a design is particularly interesting in applications that have low safety requirements.

The current removal device is designed in particular for connection of an electric vehicle. In this case, the power take-off device is preferably suitable both for a single-phase 230 V connection and for a three-phase 400 V connection, which is designed, for example, for a current output of up to 63 A. The current drain device can also provide a communication interface between the charging station and the vehicle, via which, for example, in addition to the activation of an immobilizer and a data exchange on the state of charge of the vehicle and / or can be done with the Internet. Such data exchange may additionally or alternatively also take place via the consumer identification unit.

In particular, the electricity meter system can have a consumer identification unit with at least one controller, which is preferably designed as a power line controller, and / or at least one microcontroller, which is designed for combination with a further consumer-side controller, in particular a power line controller and / or a microcontroller. About this type of communication with the consumer, preferably an electric vehicle, a network can be formed with the consumer and there existing identification number, which in turn allows conclusions about the consumer, in particular the vehicle owner, are read out and transmitted to the utility become. Preferably, so-called neuron microprocessors from Echelon can be used for this purpose.

If the corresponding vehicle is not equipped with such a technology, the electricity meter system can have as an identification unit an RFID receiver, which can additionally be equipped with an RFID transmitter unit for generating an electromagnetic field. Thus, data serving for identification from a driver's license or other document or chip card of the vehicle owner may be read out and sent to the central unit. In a further embodiment of the invention, the identification data serving records can also be present directly on the electricity meter, so that the identification can take place faster.

In a further advantageous embodiment of the electricity meter system, this is provided with a further electricity meter, wherein the at least one consumer identification unit is assigned to this further electricity meter, to the previously described electricity meter and / or both. The communication between the two electricity meters can also be done again as described above wired or wireless. The central electricity meter described above then serves as a mediator, in particular with a large number of further electricity meters, which centralizes communication with the central unit.

The consumer identification unit assigned to the further electricity meter is preferably at least partially structurally connected with it and / or with the current removal device. This has already been described above for the case of a single electricity meter.

An advantageous embodiment of an electricity meter system according to the invention thus has a central electricity meter, which is provided with a series of a separator, a current extraction device and a consumer identification unit having further electricity meters. The communication between the other meters and the central meter takes place via a wireless standard. On the one hand, the central counter receives the consumption and identification data from the other meters via this communication. On the other hand, the other counters receive the commands for enabling and / or disconnecting the power connection via this communication. A current pick-up device having an RFID receiver is arranged structurally separate from the further meter and preferably connected thereto via a power line communication. This requires a power line controller on the side of the additional electricity meter and another controller on the side of the RFID receiver, via which the received data is sent to the other meter. In addition, the power line controller of the further electricity meter can be designed for communication with a powerline controller present on the vehicle, so that it is also possible to receive a data packet that allows identification. For this purpose, the power line controllers can additionally be interconnected with respective microcontrollers which use the established power line network for the transmission of data packets. Instead of communicating via Power Line, which is one way to reduce the number of lines used, other connection techniques such as Ethernet or radio can be used. Overall, this creates a simply structured network of current-collecting devices, via which the supply of mobile electrical consumers can be improved.

Preferably, the communication between the central electricity meter and the other electricity meter (s) takes place via the ZigBee radio standard, which enables trouble-free communication of the electricity meters over the available distances and which requires no additional cables between the meters outside the cables required for the power supply , The further electricity meter thus also has a communication interface or a communication module. Accordingly, the central electricity meter can have a further communication unit.

By at least one other, in particular a plurality of other counters, a three-stage network can be formed, in which the topmost level has the central unit, the middle level the central electricity meter and the lowest level the one or more electricity meters to which (then) a consumer identification unit and a respective current removal device is assigned.

The central unit is preferably also accessible to the customer via an Internet portal. The portal, which can be operated in particular by an energy provider, may preferably have or generate accounting functions, observation dialogues and, in particular, a set of rules for inputting consumption rules. The middle layer is the central electronic electricity meter, which communicates on the one hand with the portal in the uppermost layer and transfers its consumption values there or receives the switching commands of the energy supplier, but can also accept switching specifications of the customer. About this central electricity meter and the connection to other electrical consumers, for example, a household is present, which are assigned to the lowest layer and, for example, about a fieldbus (preferably ION or EIB) can be addressed. The central electricity meter also provides routing functions for other users of the power network. The consumers arranged in the lower layer are then also controllable via the central electricity meter. For this purpose, the central electricity meter advantageously have input and display means over which, for example, consumption rules can be defined. At the same time can be made via the electricity meter, a regulation of the current removal device and the other consumers. The central electricity meter therefore has routing or gateway functions over which an internal network can communicate and which can also be accessed from the side of a portal to the individual devices.

The administration of a plurality of further electricity meters with associated current-collecting devices, consumer identification units and separation devices can take place from such a central electricity meter, if necessary via a web interface realized thereon. The entered parameters can be transmitted from the electricity meter, if necessary, in addition to the central unit to bring about a parameter adjustment with the existing data on the central unit. From the other electricity meters originating data such as the identification of the consumer serving information or status data of an electric vehicle are forwarded from the central counter to the central unit. The data received from the central unit of the central electricity meter are used by this for releasing or disconnecting the individual current collecting device (s). In addition, the data received from the central electricity meter can be used to bill the charging process of an electric vehicle and generally for billing the household or consumer network connected to the central electricity meter.

In order to keep the production costs of an electricity meter system according to the invention small, the electricity meter and the other electricity meter differ in a further inventive design only in the modular assembly. Accordingly, both the electricity meter and the other electricity meter modular are modular, so that they differ in their function only due to the different modules installed. In particular, the electricity meter may comprise a module having a display unit.

Particularly advantageously, the electricity meter system is formed when the current removal device is designed not only for the delivery of electricity to the consumer, but also for the removal of electricity from the consumer. Excess energy that is no longer needed can thus be fed back into the grid and charged again. The power meter system according to the invention can thus also serve to use any memory of electric vehicles as external network memory.

A task solving the task is characterized as partially above by the fact that a consumer identification unit associated with the electricity meter receives information or identification data from a consumer, transmits these identification data to the central unit and used for the dynamic identification of the consumer. Subsequently, the electricity meter receives data for enabling or interrupting the power output from the central unit, whereupon a disconnecting device, which is designed to interrupt or release a current output, is correspondingly driven. The communication between a power consumer, such as an electric vehicle can not only extend to the central electricity meter but also into the level of the power company, so that even from a power company, which has an interest in an evaluation of the data of any consumer such as electric vehicles, this Can receive data. This data can be retrievable, for example, by the owner of the electricity meter, both from the electricity meter itself and via the portal.

Further advantages and details of the invention can be taken from the following description of the figures. In the schematic figures shows:

1 an overview of an inventive electricity meter system,

2 an electricity meter of an electricity meter system according to the invention,

3 a further electricity meter with a current extraction device of an electricity meter system according to the invention.

Equal or similar parts are - if appropriate - provided with identical reference numbers. Individual technical features of the exemplary embodiments described below can also lead to developments of the invention with the features of the above-described embodiments.

An inventive electricity meter system is according to 1 constructed in three stages, with double arrows 10 generally identify bidirectional communication. At the top level the utility company is a central computer 1 arranged over a cloudy Internet connection 2 bidirectional with an electricity meter 3 can communicate. This electricity meter has a display unit 4 on, on the information of the electricity meter system are available. In particular, the consumption of individual consumers can be represented there. Via an installation bus cable 6 a number of non-illustrated consumers, for example, a private household can be controlled. A dashed line power line 7 can the electricity meter 3 with further electricity meters arranged on the lower level 8th and 9 connect according to supply. Incidentally, the other electricity meters communicate 8th and 9 , each having a disconnecting device, not shown, by means of a likewise cloudy local radio network 11 bidirectional with the central electricity meter 3 , Alternatively, the other electricity meter instead of the power line 7 be powered directly from the utility, with the data exchange still centrally on the counter 3 he follows.

The other electricity meters 8th and 9 , which are designed essentially identical, are intended for the consumption of electric vehicles. The respective departure pages of the other electricity meters 8th have a power line controller that provides information flow to the electric vehicles 12 can produce. Thus, a communication with the vehicle is established via the supply line. By using intelligent components present on both sides, for example neuron microprocessors, a unique identification number, for example the neuron ID of the vehicle, can be determined and thus the vehicle owner can be identified, preferably via the central unit. Due to the communication between the consumer (ie the pantograph), the other electricity meter 8th (or 9 ), the electricity meter 3 and the central computer 1 can thus be decided whether the vehicle energy to be delivered.

A detallierter shown current extraction device / identification device, which also corresponding to the electricity meters 8th can be assigned, is the electricity meter 9 assigned. A plug-shaped current-collecting device 23 is in a housing with an RFID receiver 13 arranged over which, as described above, a current searcher can be identified. The examination of the data is thus again via the communicable electronic electricity meter, which serves as a router in the upper portal layer. Thus, other vehicles, which are possibly older date and have no corresponding communication technology, are also supplied with power in a release situation. Over the plug 23 Alternatively, a network connection between a counter 9 assigned controller and a vehicle-side controller can be made on the also serving the identification data - if available on the vehicle - can be read.

The electricity meter system according to the invention can also be used in such a way that also credits can be loaded on the central computer via the identification unit or can be retrieved therefrom from any EC or other cash cards. Thus, the electricity meter system according to the invention can serve for the direct payment of a local power delivery.

A modular structure of an electricity meter of an electricity meter system according to the invention is in 2 shown. In a series of modular benches 13 several platinum-like modules are arranged. A first module 14 includes a display unit 15 , by means of a transparent housing cover 16 Information is readable. Another module unit 17 is used for communication between the individual electricity meters and provides, for example, the functionality for communication by means of the ZigBee standard. About the board 18 a communication with an electric vehicle can be provided. The separator is like the actual consumption detection on the module unit 19 realized. The electricity meter is powered by an input 21 , while the electrical outlet at the connection 22 is arranged. The arrangement of the individual modules is designed such that the billing-critical modules behind the module 14 with the display unit 15 are thus better protected against external influences.

The further electricity meter 9 (VIZ) communicates with one on a plug 23 connected vehicle 12 using a PowerLine communication (PLC). About this communication is a unique vehicle ID to the other electricity meter 9 and from there to the electricity meter 3 and from there on to the central unit.

At the same time, the consumer identification unit with an RFID receiver 13 provided, which also communicates via a PLC module with the power meter side of the consumer identification unit. Thus, the other electricity meter 9 equipped with a consumer identification unit that can communicate via RFID as well as directly with a suitably equipped vehicle or can receive corresponding data.

Claims (20)

Electricity meter system with a current drain device for a power consumer and with an electricity meter, which has a communication interface for transmitting meter data to a computer-aided central unit, in particular an energy supplier, and for receiving data from the central unit, characterized in that the electricity meter system comprises a consumer identification unit, with the information a consumer is dynamically identifiable, wherein the Electric meter is designed by means of a separator for releasing or interrupting the power output due to received from the central unit and the consumer associated data. Electricity meter system according to claim 1, characterized in that the electricity meter and the consumer identification unit are arranged structurally separated and connected to each other via at least one data connection, wherein the electricity meter is designed to establish a connection to the central unit and to transmit a consumer identification serving data packet. Electricity meter system according to claim 1 or 2, characterized in that the consumer identification unit and the current removal device are arranged at least partially structurally coherent. Electricity meter system according to one of the preceding claims, characterized in that the consumer identification unit and the electricity meter are arranged at least partially structurally coherent. Electricity meter system according to one of the preceding claims, characterized in that the current removal device is designed for connection of an electric vehicle. Power meter system according to one of the preceding claims, characterized in that the electricity meter system comprises a consumer identification unit with at least one powerline controller and / or at least one microcontroller, wherein the powerline controller or the microcontroller for communicating with a consumer side, in particular an electric vehicle side, further powerline or microcontroller is formed. Electricity meter system according to one of the preceding claims, characterized in that the consumer identification unit has an RFID receiver. Electricity meter system according to one of the preceding claims, characterized by a central unit which is designed to deliver data as a function of the data transmitted by a consumer identification unit or an electricity meter and a regulation assigned to the consumer. Electricity meter system according to one of the preceding claims, characterized in that the electricity meter has a network interface and / or a web interface. Electricity meter system according to one of the preceding claims, characterized in that the central unit and the electricity meter are designed for communication by means of a supply line. Electricity meter system according to one of the preceding claims, characterized in that the electricity meter has routing and / or gateway functions. Electricity meter system according to one of the preceding claims, characterized in that the electricity meter has a fieldbus interface, in particular a LON or EIB interface. Electricity meter system according to one of the preceding claims, characterized in that the electricity meter is connectable to a plurality of identifiable consumers. Electricity meter system according to one of the preceding claims with a further electricity meter, characterized in that the two electricity meters are designed for particular wireless communication with each other. Electricity meter system according to claim 14, characterized in that the further electricity meter is associated with the consumer identification unit. Electricity meter system according to one of claims 14 or 15, characterized in that the electricity meter and / or the further electricity meter are modular, so that they differ in their functions only due to a different module assembly. Electricity meter system according to one of the preceding claims, characterized in that the electricity meter comprises a display unit having a module. Electricity meter system according to one of the preceding claims, characterized in that the current-collecting device is designed for the delivery of electricity to the consumer and for the removal of electricity from the consumer. Electricity meter system according to one of the preceding claims with a central unit, characterized characterized in that the central unit has a web portal. A method for supplying a power consumer, which are connectable to a power meter system according to any one of the preceding claims, wherein the electricity meter system comprises a current drain device for the power consumer and an electricity meter with a communication interface are transmitted via the meter data to a computer-aided central unit, in particular an energy supplier and the data are received by the central unit, characterized in that a consumer associated with the electricity meter identification unit receives from a consumer identification data, transmitted this identification data to the central unit and used for dynamic identification of the consumer and then receives the electricity meter data for enabling or interrupting the power output from the central unit and a disconnect device configured to interrupt or enable a current output is driven accordingly becomes.

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