DE102015108764A1 - Electricity tariff control and power supply system for a building, electricity tariff control system for a building and billing procedures for powering a building - Google Patents

Abstract

A system for controlling the electricity tariff of a building comprises a power connection with an electricity meter, which is set up to detect at least two amounts of electricity. In this case, a first quantity of electricity is the amount of electricity absorbed by the building from the power grid, and a second amount of electricity is the amount of electricity emitted by the building to the power grid. In addition, the electricity tariff control comprises a connection for a power source with a measuring device that can measure the current that is currently generated, at least two multi-tariff meters that are set up to detect a plurality of amounts of electricity, and a control device. This is connected by data link to the measuring device of the power source, with the electricity meter of the connection to an external power grid and with the multi-tariff meters and adapted to detect the current from the external power supply related current, to capture the current generated by the power source and from these values determine in which tariff the multi-tariff meters are to be switched and to pass on this information to the multi-tariff meters. A corresponding method for power tariff control is also indicated. A power supply for a building includes a power tariff control and at least one power source. In a billing process, the electricity volumes are split between the rates of the multi-tariff meters, in which the tariff for the electricity generated is lower than the electricity price for the electricity obtained from the external electricity network.

Description

The present invention relates to a system for controlling the electricity tariff of a building, wherein the system for electricity tariff control comprises an electricity meter, a connection for a power source, at least two multi-tariff meters and a control device. Moreover, the present invention relates to the power supply of a building, a method for power tariff control for a building and a billing method for the power supply of a building.

To power a building, the building is usually connected to an external power grid. If the amount of electricity consumed is to be collected by different consumers within the building, a separate electricity meter will be provided for each of these consumers. In addition, buildings may have a power source, such as a photovoltaic system. The electricity generated by the internal power source must now be split among the different consumers. There is no collection system and billing model for a fair sharing of the benefits of a power source on owners and tenants possible.

An object of the present invention is to provide an improved system for power tariff control or a power supply, in which the amount of electricity produced by a power source can be divided among different consumers. It is another object of the present invention to provide a method of managing electricity tariff for a building and a billing method in which the amount of electricity produced by an internal power source can be shared by different consumers.

This object is achieved by a system for power tariff control of a building, a power supply of a building, a method for power supply for a building, and a billing method for the power supply of a building according to the independent claims. Further advantageous embodiments of the invention are specified in the dependent claims.

A system for controlling the electricity tariff of a building comprises a power connection, a connection for a power source, a measuring device, at least two multi-tariff meters and a control device. The power connector has an electricity meter. The measuring device is set up to measure the amount of electricity generated by the power source. The multi-tariff meters are set up to record at least two quantities of electricity individually. The control device is connected by means of data connection with the measuring device of the power source, with the electricity meter of the power supply and with the multi-tariff meters. In this case, the control device is set up in such a way that it can detect the amount of current currently drawn from the power grid and the amount of current generated by the current source. In addition, the control device is set up to switch the multi-tariff meters on the basis of the detected amounts of electricity. Switching comprises the steps of determining the quantities of electricity, selecting the tariff, forwarding information about the selected tariff to the multi-tariff meters and switching the multi-tariff meters to the selected tariff.

The control system of the system for controlling the electricity tariff of a building, it is possible to detect the amount of electricity generated by a power source, and to decide from this value and the amount of electricity from the power grid, in which tariff multi-tariff meter to count the amount of electricity consumed by the consumers. Thereby, the amount of electricity generated by the power source can be shared among the consumers.

In the following, further possible details and embodiments of the system for power tariff control of a building are described in more detail.

In one embodiment, the controller is arranged to store a table of amounts of electricity and tariffs in a memory. The control device is set up on the basis of the table stored in the memory to specify in which tariff the multi-tariff counters are to be switched and to pass this information on to the multi-tariff counters.

In one embodiment, the control device is connected by means of a data connection to the measuring device of the power source connection, to the electricity meter of the power supply connection and to the two multitariff counters.

In one embodiment, the control device is set up to determine the proportion of the quantities of electricity produced and drawn from the power network and passed on to the multi-tariff meters. The multi-tariff meters are set up to use these shares to distribute the electricity consumed as a percentage to the tariffs. As a result, the amount of electricity currently consumed can be determined for each individual consumer according to the proportion of electricity generated by the electricity source and drawn from the electricity network. The multi-tariff meter for the consumer counts the amount of electricity consumed according to the share in the various tariffs.

In one embodiment, the power tariff control system includes a display device. This display device is connected to the control device by means of a data connection, wherein the control device is set up to pass on the amount of electricity currently produced by the power source, the current amount of electricity currently sourced from the external power supply, and / or the distribution of the current quantities. The display device is set to display these values. The display device can be used to visualize the current electricity produced by the power source or its share of the building's total electricity.

In one embodiment, the controller is configured to receive a weather report. In addition, the controller is arranged to calculate from the sunshine forecast and / or the wind forecast of the weather report how much power the building's power sources will produce. In addition, the controller is arranged to pass the prediction for the amount of electricity produced to the display device. The display device is set to display this prediction. By predicting the amount of electricity produced, it becomes possible to turn on electrical loads when sufficient power is available.

In one embodiment, the electricity meter is configured to detect at least two amounts of electricity. A first recorded amount of electricity is the amount of electricity absorbed by the building from the power grid, a second recorded amount of electricity is the amount of electricity emitted by the building to the power grid.

A power supply of a building has a system for electricity tariff control and a power source, wherein the power source is a photovoltaic system, a combined heat and power plant or a wind turbine.

In the following, further possible details and embodiments of the power supply of a building are described in more detail.

In one embodiment, the power supply for a building has multiple power sources, each with its own tariff.

In one embodiment, the multi-tariff meters have a tariff for connection to the external power grid and one tariff for each power source. This makes it possible at any time to capture the amount of electricity generated by the power sources and the amount of electricity purchased from the power grid and to count accordingly in the multi-tariff meters.

In a further embodiment, the power supply has a device for storing electrical energy. By means of the device for storing electrical energy, in the event that the power source produces more power than is currently consumed in the building, this excess power can be stored in the device for storing electrical energy.

In one embodiment, the means for storing electrical energy is a power source. Thus, when the power source is producing more power than is currently being consumed in the building, power may be stored in the means for storing electrical energy. If the other power sources produce less power than is currently consumed in the building, additional electricity can be made available from the means for storing electrical energy without having to purchase power from the external power grid.

In one embodiment, the building is a multiparty building. In a multi-party building, there is usually one electricity meter for each apartment. The installation of multi-tariff meters, which also record the amount of electricity captured by the building, allows the distribution of the amount of electricity generated by the power source to the different dwellings or parties.

In a method for power tariff control for a building, a control device detects which amount of current is generated by a power source and which amount of power is obtained via a power connection. In this case, the control device determines, based on the amount of electricity generated by the power source and the amount of electricity related via the power connection, in which tariff multi-tariff meters are to be switched and forwards this information to the multi-tariff meters. The multi-tariff meters switch to the corresponding tariff.

In the following, further possible details and embodiments of the method for power supply for a building are described in more detail.

In one embodiment, the multi-tariff meters are switched to the different tariffs based on the percentage distribution of the quantities of electricity generated by the power source and sourced from the power supply.

In one embodiment, the amount of electricity flowing through a multi-tariff meter is distributed among the various tariffs of the multi-tariff meter based on the percentage distribution of the quantities of electricity generated by the power source and sourced from the power grid. This can an exact, percentage distribution of the electricity consumed on the basis of the generated and the current drawn are achieved.

In one embodiment, the amount of electricity currently produced by the power source, the amount of power currently drawn from the power grid, and / or the percentage distribution of the amounts of power are passed to a display device. By passing on to a display device, the values can be visualized. In addition, residents of the building can adjust their power consumption to the values, and turn on, for example, electrical consumers when the proportion of the current produced by the power source is large.

In one embodiment, by means of a weather report, a prediction is made for the amount of electricity produced by the power source, and from this a prediction is made for the tariff to be applied. This information is then passed to the display device. This allows electrical loads to be activated when the amount of power produced by the power source is sufficient for operation.

In one embodiment, the amount of electricity produced by the power source that is not consumed in the building is fed into the grid, stored in a memory. By feeding into the power grid, the excess energy can be made available to other buildings or other consumers. By storing the electrical energy, the electrical energy for the building can then be made available if the amount of electricity produced by the power source is insufficient to cover all the power consumption of the building. Thermal recovery converts the excess amount of electricity into heat, which can then be used for heating or domestic hot water. Likewise, other ways of storing the electrical energy, for example, in a chemical storage conceivable.

In a billing process for powering a building, multi-tariff meters are used to count amounts of electricity at different electricity tariffs, the electricity tariffs being determined by how much power is produced by a power source and the cost of the power source's power consumed is less than the cost of off the external electricity related power.

In one embodiment, the cost of the power source's consumed current is greater than the feed-in fee's revenue for the power generated by the power source.

The invention is explained in more detail below with reference to schematic figures. Show it:

1 a schematic overview of the power supply of a building;

2 a table for fare selection;

3 a flowchart of the method for Stromtarifsteuerung;

4 another schematic overview of the power supply of a building; and

5 another schematic overview of the power supply of a building.

The 1 shows a system for Stromtarifsteuerung 100 for a building 101 , The power supply 100 is by means of a connection 110 connected to an external power grid. This shows the connection 110 an electricity meter 111 which is set up to capture at least two amounts of electricity. In doing so, a first quantity of electricity, the amount of electricity consumed by the building from the power grid, and a second amount of electricity, the amount of electricity emitted by the building to the power grid, are recorded. The system also includes electricity tariff control 100 a connection for a power source 120 , which is a measuring device 121 having. The measuring device 121 is set up, currently powered by the power source 120 measure the amount of electricity produced. With power cables 102 is both the electricity meter 111 of the electricity connection 110 as well as the measuring device 121 the power source 120 with a plurality of multi-rate meters 130 connected, wherein a first multi-tariff counter 131 , a second multi-tariff counter 132 and a last multi-tariff counter 139 are shown. Between the second multi-tariff counter 132 and the last multi-tariff meter 139 can also have other multi-tariff meters 130 be provided. Each multi-tariff meter leads to a consumer in the building 101 , where in the multi-tariff counters 130 the amount of electricity consumed by each consumer is recorded.

A control device 140 of the electricity tariff control system 100 is by means of data connections 141 with the electricity meter 111 of the electricity connection 110 , with the measuring device 121 the power source 120 and with the multi-tariff counters 130 connected. The data connection 141 can be designed as a cable, but also as a wireless connection. Likewise, it is conceivable that the data connection in the power cable 102 is integrated. The control device 140 is set up, the amount of electricity meter 111 of the electricity connection 110 and the amount of electricity produced by the measuring device 121 the power source 120 to investigate. On the basis of the determined amounts of electricity is from the control device 140 set in which tariff the multi-tariff meters 130 to switch. This is done by means of a stored in a memory of the controller means table. In the table, for example, deposited that in the event that from the power source 120 no electricity is produced, the multi-tariff meters are to be switched to a first tariff. If the proportion of electricity produced by the power source is more than 0% to a maximum of 50%, the table indicates that the multi-tariff meters are to be switched to a second tariff. In the event that the from the power source 120 amount of electricity produced is more than 50%, the multi-tariff meters in accordance with the table are to be switched to a third tariff. An example of such a table is in the 2 shown. Likewise, other percentage allocations of the amount of electricity and a different number of tariffs are conceivable.

The information in which tariff the multi-tariff meters 130 to switch is by means of data connections 141 to the multi-tariff meters 130 passed. The multi-tariff meters 130 are set up, the information about the tariff to be selected by the controller 140 is set to receive and switch to the appropriate tariff.

In a method of power tariff control for a building, the control device 140 detects which amount of current is generated by the power source and which amount of electricity is obtained via the power connector. A flow chart of this method is in 3 shown. In a first program step 210 will be over the power connection 110 related amount of electricity determined. In a second program step 220 the amount of electricity produced by the power source is determined. The first program step 210 and the second program step 220 can also be executed in parallel or in the reverse order. The controller calculates from these amounts of current in the third program step 230 the tariff in which multi-tariff meters are to be switched within the building. This information is in a fourth program step 240 passed to the multi-tariff meters and the multi-tariff meters switch to the appropriate tariff. In this case, the tariff into which the multi-tariff meters are to be switched is calculated by means of the table in which the quantities of electricity, shares in the electricity volumes and tariffs are stored. Subsequently, the program sequence is restarted.

In one embodiment, the controller is 140 set up so that the percentage of over the electricity meter 111 of the electricity connection 110 related current and by the measuring device 121 certain proportion of the amount of electricity of the power source 120 is determined. This percentage of the respective amounts of electricity is passed to the multi-tariff meters 130 passed, with the multi-tariff counter 130 based on this percentage distribution of electricity volumes, the amount of electricity consumed by the consumer is based on the tariffs of the multi-tariff meters 130 divide. For example, if the proportion of the power source 120 Amount of electricity is 70% and the proportion of over the power connection 110 electricity is 30%, then the multi-tariff meters 130 set up, for a period of, for example, 1 minute to distribute the electricity on two tariffs. In this case, a first tariff for that of the power source 120 generated electricity for 70% of the period, while for the remaining 30% of the period a second tariff for the connection via the electricity connection 110 is used. The multi-tariff meters 130 In the 1 minute period, 42 seconds are in the first tariff and 18 seconds in the second tariff. Switching periods longer than one minute of the example are also possible.

The method for power tariff control is set up in this embodiment, that is switched on the basis of the percentage distribution of the amounts of electricity generated by a power source and related by a connection to the external power network, in the different tariffs. This means that at each point in time the percentage distribution of the power sources allocated by the house and the amount of power of the external connection is determined, and on the basis of this information the multi-tariff meters in the different tariffs count. In this case, the control device 140 determine the time periods and pass on the information that should be changed between the tariffs to the multi-tariff meters. However, it is also conceivable that the multi-tariff meters automatically switch between the tariffs on the basis of information transmitted as a percentage of electricity volumes.

The 4 shows a building with a system for electricity tariff control, which is essentially the system for Stromtarifsteuerung the 1 equivalent. For every consumer who uses a multi-tariff meter 130 equipped is a display device 150 provided, the display devices 150 with a data connection 141 to the control device 140 are connected. On these display devices 150 can be the percentage distribution of electricity volumes of power sources 120 and the connection 110 , or even the currently produced amount of electricity of the mentioned power sources 120 and the connection 110 being represented. Likewise, on the display devices 150 the current tariff in which the multi-tariff meters 130 count, or the percentage distribution of the electricity consumed on the rates of the multi-tariff meters 130 are displayed. The amount of electricity currently produced by the power source, the current from the external Electricity-related amount of electricity and / or the percentage distribution of electricity to the display devices 150 passed. It is also conceivable that only one display device 150 for the entire building 101 is provided, for example in the hallway.

In a further embodiment, the control device 140 set up to receive a weather report. This weather report, in particular the wind and sunshine forecast, can be used to make a prediction for the next few hours, in which tariff the multi-tariff meters 130 count. This can allow consumers in the building 101 to signal when a larger amount of electricity sources 120 will be available to operate electrical equipment at these times.

By means of a weather report, a forecast for the amount of electricity produced in the next few hours is created. This is done based on the data of the weather report on the predicted wind speed and / or the predicted sunshine duration. This information is sent to the display device 150 or the display devices 150 so consumers in the building can estimate when it's worth putting electrical equipment into operation.

The 5 shows a power supply for a building, which is essentially the 4 equivalent. A store 160 for electrical energy is so integrated into the power supply that the power cable 102 the power source 120 to the store 160 is guided while another power cable 102 from the store 160 to the multi-tariff counters 130 leads. When the from the power source 120 the amount of electricity produced is greater than that currently in the building 101 consumed amount of electricity, the excess amount of electricity in the store 160 saved. The memory 160 can be a battery, which, if that of the power source 120 produced electricity is no longer sufficient, is used to power the building 101 pass.

In one embodiment, the excess electrical energy becomes the power source 120 thermally recycled. Thermal recovery converts the excess amount of electricity into heat, either to provide hot water or to heat the building 101 to support.

A power supply for a building comprises a system for electricity tariff control and a power source, wherein the power source is a photovoltaic system, a combined heat and power plant or a wind turbine.

In one embodiment, multiple power sources 120 be provided. It is envisaged that each power source 120 a separate measuring device 121 having. The control device 140 is set up so that by the amount of electricity meter 111 of the connection 110 to the external power grid and the amount of electricity in the measuring facilities 121 determined data of the power sources 120 to use the multi-tariff counter 130 to switch to the appropriate tariff.

In doing so, the multi-tariff meters are switched to the different tariffs based on the percentage distribution of the amount of electricity generated by the one or more power sources and the amount of power received via the external power grid connection. For example, the multi-tariff meters could have two tariff levels, tariff level 1 being used whenever the amount of electricity drawn via the connection to the external power grid is above 50% of the total amount of electricity. The tariff 2 could be assigned if the amount of electricity produced by the one or more power sources of the building is greater than 50%, so that in this case is switched to the tariff 2.

In one embodiment, it is provided that the multi-tariff counter 130 one tariff each for each power source 120 , as well as a tariff for connection 110 to the external power network. It can be determined by the percentage distributions of the amounts of electricity sources 120 and the connection 110 be fixed to the external power grid in which the tariff is the multi-tariff meter 130 to switch. It is also conceivable, based on the percentage distribution, the electricity consumed by the consumer in the multi-tariff meters 130 to split on the respective tariffs. This can also be done as a percentage of the tariffs based on the percentage distribution.

For a building with a power connection, a photovoltaic system and a combined heat and power plant three tariffs are provided. For example, if the amount of electricity produced by the photovoltaic system is 50%, the proportion of electricity produced by the combined heat and power plant is 25%, and the proportion of electricity purchased via the electricity supply is 25%, then the multi-tariff meters become a first for a period of, say, one minute for 30 seconds Tariff for the photovoltaic system, switched to a second tariff for the combined heat and power plant for 15 seconds and into a third tariff for the power connection for 15 seconds.

In an exemplary embodiment, it is provided for the device for storing electrical energy to set up its own tariff in the multi-tariff counters. When power is removed from the electrical energy storage device, this amount of electricity may be sensed via the associated tariff of the multi-tariff meters.

In one embodiment, the building is 101 a multiparty building. The individual consumers in this case are the individual parties of the multi-party building, whereby for each individual party (apartment) its own multi-tariff counter 130 is provided. On this multi-tariff meter, the tariffs for the different power sources 120 and the connection 110 counted to the external power grid.

In a billing procedure for the power supply of a building, electricity volumes in different electricity tariffs are counted by means of a multi-tariff meter. Electricity rates are determined by how much power is produced by a power source associated with the building. The cost of the electricity consumed by the power source allocated to the building is less than the cost of electricity purchased from an external power grid.

In one embodiment of the billing method, the cost of the power source's consumed current is greater than the revenue that can be realized by the feed-in compensation for the power generated by the power source. On the one hand, this billing procedure ensures that the operator of the power source has more revenue than if he would feed the electricity into the external power grid. On the other hand, this reduces the costs of the consumers or parties to the building. This results in an advantageous power billing both for the operator of the power source as well as for the residents of the building.

Although the invention has been further illustrated and described in detail by the preferred embodiment, the invention is not limited by the disclosed examples, and other variations can be derived therefrom by those skilled in the art without departing from the scope of the invention.

Claims (16)

System for electricity tariff control ( 100 ) of a building ( 101 ) with: a connection ( 110 ) for a power grid having an electricity meter ( 111 ), a connection for a building associated power source ( 120 ), a measuring device ( 121 ), which is set up by the power source ( 120 ), at least two multi-tariff meters ( 130 ), which are arranged to count several amounts of electricity, and a control device ( 140 ), wherein the control device ( 140 ) with the measuring device ( 121 ) of the power source connection, with the electricity meter ( 111 ) of the power supply ( 110 ) and with the two multi-tariff counters ( 130 ), and the amount of electricity drawn from the grid and that 120 ) and to record the tariff for the multi-tariff meters ( 130 ) to switch. System for electricity tariff control ( 100 ) for a building ( 101 ) according to claim 1, wherein the control device ( 140 ), the proportion of the power source ( 120 ) and the proportion of the power connection ( 110 ) and to the multi-tariff meters ( 130 ) and where the multi-tariff meters ( 130 ) are set to switch based on the shares of electricity volumes in different tariffs. System for electricity tariff control ( 100 ) for a building ( 101 ) according to one of the preceding claims with a display device ( 150 ), the display device ( 150 ) with a data connection ( 141 ) to the control device ( 140 ), the control device ( 140 ) is currently set up by the power source ( 120 ) produced electricity that is currently being transmitted via the 110 ) the amount of electricity related to the electricity network and / or the distribution of electricity to the display device ( 150 ) and the display device ( 150 ) is currently set up by the power source ( 120 ), which is currently being exported via the 150 ) indicate the amount of electricity related to the electricity network and / or the distribution of electricity volumes. System for electricity tariff control ( 100 ) for a building according to claim 3, wherein the control device ( 140 ) is configured to receive a weather report, to calculate, based on the forecast of the duration of the sunshine and / or the wind forecast of the weather report, the amount of electricity in the following hours by the power source ( 120 ) will be calculated from it, which tariff will be applied and this information to the display device ( 150 ), the display device ( 150 ) is arranged to display the forecast for the calculated amounts of electricity and / or the tariff. System for electricity tariff control ( 100 ) for a building ( 101 ) according to one of the preceding claims, wherein the electricity meter ( 111 ) is arranged to detect at least two amounts of current, with a first 101 ) is taken from the power grid amount of electricity and wherein a second amount of electricity from the building ( 101 ) is the amount of electricity delivered to the power grid. Power supply for a building ( 101 ), which is an electricity tariff control ( 100 ) according to one of claims 1 to 5 and a power source ( 120 ), the power source ( 120 ) is a photovoltaic system, a combined heat and power plant or a wind turbine. Power supply for a building ( 101 ) according to claim 6, wherein the power supply comprises a plurality of power sources ( 120 ), each with its own tariff. Power supply for a building ( 101 ) according to one of claims 6 or 7, wherein the power supply is a device ( 160 ) for storing electrical energy that is used as a power source ( 120 ) can be used. A method for controlling electricity tariff for a building, wherein is detected by a control device, which amount of current is generated by a power source and which amount of electricity is obtained via a power connection, the controller determines based on the amount of electricity generated by the power source and the amount of electricity related to the power supply, in which tariff of a table multi-tariff meters are to be switched, passes this information to the multi-tariff meters and switch the multi-tariff meters in the appropriate tariff. The method of claim 9, wherein the multi-tariff meters are switched to the different tariffs based on the percentage distribution of the quantities of electricity generated by the power source and sourced from the power supply. The method of claim 9, wherein for each power source and for the power connection, a tariff is stored in the multi-tariff meters, wherein the amount of electricity of a multi-tariff meter on the percentage distribution of the amounts of electricity generated by the power source and the power connection is distributed to the different tariffs , Method according to one of claims 9 to 11, wherein the currently produced by the power source amount of electricity, the currently from the external power network related amount of electricity and / or the percentage distribution of the amounts of electricity are passed to a display device. Method according to one of claims 9 to 12, wherein by means of weather forecast, a prediction for the amount of electricity produced by the at least one power source is created and from this a prediction for the tariff to be applied, this information is passed to the display device. Method according to one of claims 9 to 13, wherein the amount of electricity produced by the power source that is not consumed in the building and is not fed into the power grid, stored in a memory. A billing method for powering a building, wherein multi-tariff meters determine amounts of power according to any one of the methods of claims 9 to 14, wherein the cost of the power of the power source is less than the cost of power drawn from the power grid. The billing method of claim 15, wherein the cost of the current from the power source is greater than the revenue from the feed-in remuneration for the power generated by the power source.

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