NL1019029C2 - Device for indicating costs of energy usage by apparatus which uses energy supplies economical parameters, such as tariff, possible load and further details, usage parameters, i.e. quantity of energy - Google Patents

Abstract

The device (10) for indicating costs of energy usage by an apparatus (20) which uses energy supplies economical parameters, such as tariff, possible load and further details, usage parameters, i.e. the quantity of energy used during a specific period. It also includes a time clock (22) and a central processor (16) in which from the time clock indications, the economical parameters and the usage parameters the cost of the energy used is calculated. Devices (18) are provided for communication to the outside world of the results of the calculation. Those for the supply of usage parameters comprise a memory (14) in which earlier determined usage details are stored.

Description

Device for displaying the costs of the energy consumption of an energy-consuming device

State of the art.

5

The invention relates to a device for displaying the energy consumption costs of an energy-consuming device, comprising.

- means for supplying economic parameters such as the rate, possible tax (VAT) and further surcharges, - means for supplying a consumption parameters, namely the amount of energy used during a certain period, - a central processor in which the costs of the energy consumed are calculated from the economic parameters and the consumption parameters, - means for communicating the result of the above calculation to the outside world.

Such a device is known from the PCT publication WO9845718. The purpose of this known device is to make the operator aware of the costs associated with the use of energy-consuming appliances, in particular the larger consumers such as washing machines, tumble driers, irons, heating appliances and the like. To this end, during the operation of the device, the current through the device and the voltage across the device are constantly measured by said means for supplying the consumption parameters. From the time clock data and from the measurement data, the energy consumed over a certain period is calculated. With the help of the received economic parameters, which can be stored in a tanef memory, the costs of energy consumption are calculated expressed in the local currency.

Disadvantages and objectives according to the invention This known device has the drawback that consumption data only become known to the person served after the consumption has taken place. The servant can no longer exercise any influence on that consumption.

The invention now has as its first object to eliminate this drawback.

2

The known device has the further drawback that the energy-supplying authority has little effective influence on the energy consumption by all connected consumers. It is true that the energy-supplying authority can change the rate by, for example, increasing or decreasing the night-rate period or by changing the price per unit of energy, but the effects of this will at best only become visible in the long term and be put into practice. for example anticipated peaks in consumption are not contested.

The second object of the invention is now to at least partially eliminate this disadvantage

The invention

At least the first objective is met in a device of the type described in the preamble because the means for supplying the consumption parameters consist of a memory in which previously determined consumption data of the relevant device are stored.

It is noted that, although the apparatus described in the above-mentioned PCT publication is provided with a memory, it is only used for storing tariff information which is received via a suitable communication path from an undefined transmitter.

Because all necessary data is present in the device before it is switched on for a subsequent consumption period, the operator can be informed in advance about the costs of the next consumption period.

According to a first preferred embodiment, the device is provided with selection means with which an operator can choose a time for switching on the switching on of the device, after which the central processor calculates the costs associated with switching on the device at that time and this value communicates to the outside world through the appropriate means. The operator can then decide whether the costs are acceptable or possibly choose a different time to see if the cost calculation for that time may result in a lower amount.

In order to avoid that the person being served has to search for a cheap period for a long time, it is preferable that the central processor is programmed in such a way that it is able to calculate on the basis of the available data during which period (s) the costs will be lowest and to communicate this period (s) to the outside world through the appropriate means.

Another preferred embodiment is embodied such that the device is provided with selection means with which an operator can select a cost value after which the central processor calculates at which times the device can be switched on in order to incur maximum these costs, which times via the means intended for this purpose. communicated to the outside world. The selected cost value need not be the minimum cost value that can possibly be calculated and communicated by the central processor for comparison.

The above-mentioned second objective can be met in that the device is provided with communication means with which information concerning the switching times of the device set by the operator is communicated with an external receiver which can transmit this data to the energy-supplying institution. As a result, the energy-supplying body receives feedback, as it were, as a result of a possible tariff change. If the tariff is structurally increased for a certain period of the day, it is very likely that at least some of the consumers will respond to this by, for example, washing the washing machine run during the cheaper periods. Thanks to the above-described measures, this also becomes quickly transparent for the energy-supplying authority. The effect of one-off or temporary rate changes also quickly becomes clear thanks to the measures according to the invention. Such measures can be applied, for example, with a frequently watched television program where many viewers start making coffee directly before or after the program, and all of which cause a huge current peak. Price-conscious consumers will prepare the coffee earlier and keep it warm or drink something else.

Additional state of the art.

Before the invention will be described in more detail below, reference is made to EP0727668. This publication describes a system for controlling energy consumption in a residential environment in which at least a part of the household electrical appliances is controlled by a controller which is connected via an interface 4 to a data bus. All controllers are provided with information regarding the instantaneous energy consumption in the home via the data bus and are programmed in such a way that when the maximum permitted energy consumption is exceeded, one or more devices are switched to a position with less energy consumption or to the zero position. The controllers are also supplied with information about "cheap" periods and if appropriately programmed for this purpose, a controller will only switch on its associated device if such a cheap period has started.

A drawback of this known system is that the system operates entirely autonomously and that no information is provided to the outside world about the states in which the various devices in the system are located. A solution for this system is provided by WO 9943068. It describes a central monitor on which the current state of each of the devices in the system can be displayed. Only technical data is shown and no cost information.

The known system is aimed at controlling electricity consumption in such a way that the maximum permitted consumption is not exceeded and in such a way that spikes in consumption are avoided. This system is therefore in principle in the service of the electricity producers and not in the service of the user. The system does not provide any information to the user. Important for the user is information on costs associated with the consumption of electrical energy. What does an evening watch television? What does a wash on the longest washing program cost? What does a wash on the savings program cost? How much is saved by running the dishwasher in a cheap period? In the known system, no answer is given to all these types of questions. In the device described above, it is assumed that the consumption memory has been previously loaded with correct consumption values so that the device can be used immediately. However, this means that for each different device the memory must be programmed with different values. To avoid this, it is preferable that the device is coupled to a current sensor with which the current flowing through the device can be measured, that the consumption memory is empty before a first use with a certain device and that during the first use of the device device the current is measured, after which the energy consumption is determined from the current measurement, the period over which it was measured and stored in the consumption memory.

Because measurements must always take into account a certain inaccuracy, it is furthermore preferable that the device also measures the current and voltage during one or more subsequent consumption periods of the device in order to adjust the consumption data in the consumption memory.

Measurements can be avoided if the consumption data can be obtained from somewhere else. Consider, for example, an energy-consuming device which, for example, has a memory in its control unit with the required data.

The data can also be made available by the manufacturer on an internet site, for example. The device according to the invention could in that case be equipped with a communication module which is able to retrieve this data via suitable communication channels and to store it in the consumption memory 15.

Figure description.

The invention will be described in more detail below with reference to the accompanying figure.

The accompanying figure schematically shows a device according to the invention 10 which cooperates with an energy-consuming device 20. The device 20 can in principle be any energy-consuming device, for example a washing machine, drying machine, dishwasher, iron, coffee maker, etc. however, obtained with devices that consume a relatively large amount of energy and the devices mentioned earlier are good examples of this.

The device 10 is provided with a memory 12 in which tariff data is stored. That is, the price of a kilowatt hour, any surcharges used by the various governments, VAT tax and the like. Together with the consumption data, the actual consumption costs can be calculated reasonably accurately from this.

6

The consumption costs are stored in a memory 14. The consumption of many machines is known in advance. For example, the following can be stored for a washing machine: - wash white wash 80 degrees with pre-wash consumption 1.67 kWh 5 - wash white wash without pre-wash consumption 1.36 kWh - wash white wash 40 degrees with pre-wash consumption 0.83 kWh - etc.

Such data can also be pre-programmed in the memory for a tumble dryer and a dishwasher.

For appliances whose consumption depends on the period during which the appliance is switched on, such as an iron, vacuum cleaner, heating unit and the like, the consumption per time unit can be stored, such as for an iron:

- position 1 soft fabrics such as silk consumption per hour 0.37 kW

15 - position 2 normal consumption per hour 0.61 kW

- mode 3 steam consumption per hour 0.83 kW

The two memories 12 and 14 supply their data to a processor 16, which calculates the energy consumption costs and makes the result of the calculation visible to the person operating the device 20 via a display unit 18. Alternatively, a display unit 18 can , especially for the blind, a speech generator 18a can be used which makes the outcome in spoken words audible.

Suppose the device is a washing machine and the operator sets the machine for a 40-degree wash with prewash. This setting data is sent to the processor 16, which then retrieves the corresponding consumption data from the memory 14. Together with the tariff data for the current hour of the day from the memory 12, the processor now calculates in advance what this set wash will cost and makes the result of this calculation visible on the display unit 18, for example as: "cost of washing set 6.23 euros". However, the processor preferably does another calculation. A varying rate is currently applied in most countries, with the rate being higher during the day than at night. However, the differentiation can go even further. In the tariff memory, the various tariffs together are the periods for which the tariffs apply. It will be clear that the processor can retrieve the cheapest rate from the rate memory and can calculate what the wash would cost according to that rate. The following can then be displayed on the display unit: "Costs of the set wash 6.23 euros" 5 "Costs of the minimum rate 20: 00-07: 00 4.67 euros"

The operator now has the choice, despite the higher costs, to switch on the device or to wait until the cheaper period has arrived.

In order to increase the ease of use, a time setting button 22 is preferably provided with which a random time can be selected. After setting any time, the processor 16 calculates the cost of the set wash if the machine were started at the set time. For example, if the operator sets the mechanism 22 to 14:22, the following may appear on the screen 18, for example: "cost of washing set at 6.23 euros" \ 5 "costs at start at 14:22 at 7.14 euros" " costs minimum rate 20: 00-07: 00 4.67 euros ”

Instead of or in addition to the button 22, a cost button 24 may be present on which the operator can set what costs he / she finds acceptable for the wash. Assume that the operator sets the mechanism 24 to 5.90 euros, then the process sensor starts working and determines when the machine can be started to incur a maximum of 5.90 euros in costs. On the screen of the unit 18 it could appear: "switch on between 19: 32-06: 38" 25 In the above it is assumed that the memory 14 is completely pre-programmed for the relevant machine. Also relatively large memories are nowadays so cheap that a memory with data about a large number of different machines can be used without any objection in the device according to the invention.

However, it is also possible to initially supply the memory empty and to provide the device with a current sensor and, if necessary, a voltage sensor to measure the consumption of the device during an initial learning phase. These sensors are shown in the figure in broken lines. The measured current and voltage values 8 are used by the processor to determine the consumption of the device and to store it in the memory 14. This is then done for each mode in which the device can be switched and then the stored data can be used in the manner described above.

Optionally, this initial measurement can be repeated a number of times so that the resulting values can be averaged.

The device according to the invention is preferably provided with a communication module which is indicated in the figure by 26. This communication module can be used, for example, as indicated in the figure, via a communication path which runs through the conductors send messages to a central station from the energy supply network. After all, in processor 16 it is known in advance when electrical devices that consume a relatively large amount of power will be switched on. That is precisely the type of information that the electricity supplier would also like to know in advance. The energy supplier then has the option to start up any production facilities that are intended specifically for that type of peaks in time and to prepare them to withstand the peak. On the other hand, this way the energy supplier has the option of temporarily increasing the tariff, which means that a number of devices may be switched off and reprogrammed at a later, cheaper time. In order to draw the attention of the relevant operators to the tariff change, it is possible, for example, to incorporate a buzzer or another signal generator in the device which, upon the occurrence of such a relatively unexpected tariff change, will emit its signal in order to thereby draw the attention of the operator. operator.

The communication unit 26 can optionally also be used for retrieving tariff data. Sending tariff data via the cables from the electricity network to electricity users is known per se. In many cases the tariff information is stored in the central consumption meter and used there to switch from one tariff to the next at the correct times. In the same simple manner, the tariff information can also be received by a communication module 26 and forwarded to the processor 16, which can thus perform its calculations on the basis of the respective applicable tariff.

Claims (12)

1. Device for displaying the costs of the energy consumption of an energy-using device, comprising: 5. means for supplying economic parameters such as the rate, any taxes (VAT) and further surcharges, - means for supplying consumption parameters, namely the amount of energy used during a certain period, - a time clock, 10. a central processor in which the costs of the required energy are calculated from the time clock data, the economic parameters and the consumption parameters, - means for calculating the result of the above calculation communicating to the outside world, characterized in that the means for supplying the consumption parameters consist of a memory in which previously determined consumption data of the relevant device are stored. 2. Device as claimed in claim 1, characterized in that the device is provided with selection means with which an operator can choose a time for switching on the switching on of the device, after which the central processor calculates the costs incurred with switching on the switching on. device at that time and communicates this value to the outside world through the appropriate means. Device as claimed in claim 1 or 2, characterized in that the central processor is programmed such that it is capable of calculating on the basis of the available data during which period (s) the costs will be lowest and this period (s) n) communicate to the outside world through the appropriate means. Device as claimed in claim 1 or 2, characterized in that the device is provided with selection means with which an operator can select a cost value after which the central processor calculates at which times the device can be switched on in order to incur these costs at most, which times are communicated to the outside world through the appropriate means 5. Device as claimed in claim 1, characterized in that the device is provided with communication means with which information concerning switch-on times of the device set by the operator is communicated with an external receiver which can transmit this data to the energy-supplying institution. Device as claimed in any of the foregoing claims, characterized in that the calculation unit is coupled to a speech generator which makes the calculated values audible in the form of generated words. 7. Device as claimed in any of the foregoing claims, characterized in that the device is coupled to a current sensor with which the current flowing through the device can be measured, that the consumption memory is empty before a first use with a certain device and that during the first use of the device the current is measured, whereafter from the current measurement, the period over which is measured and an assumed fixed voltage value, the energy consumption is determined and stored in the consumption memory. Device as claimed in claim 7, characterized in that the device also measures the current during one or more subsequent consumption periods of the device in order to adjust the consumption data in the consumption memory. 25 Device according to claim 7 or 8, characterized in that the voltage is also measured and the measured value is used instead of the assumed fixed value. Device as claimed in any of the foregoing claims, characterized in that the device is provided with a communication module via which the processor can transmit data about devices to be switched on in the future via a suitable communication path intended for this purpose. 11. Device as claimed in any of the foregoing claims 1-6, characterized in that when applying the device to an energy-consuming device which itself is provided with a memory in which consumption data are stored, the device is provided with means with which the data from the memory of the device can be transferred to the consumption memory in the device. 12. Device as claimed in any of the foregoing claims 1-6, characterized in that the device is provided with a communication module with which contact can be made with an information supplier who can supply at least a part of the consumption data. 15