BE1019385A4 - CONSUMPTION METER WITH COMMUNICATION MODULE. - Google Patents

Abstract

Communication module (3,12) for a consumption meter (4,13), characterized in that said communication module (3,12) is a heat exchanger, that is to say interchangeable without switching off the electrical voltage on the consumption meter (4,31).

Description

Consumption meter with communication module.

The present invention relates to a consumption meter with communication module.

More specifically, the invention is intended for a consumption meter for electricity, which is provided with a communication module.

It is known that consumption meters such as, for example, electricity, gas and water meters must be read annually in order to know the consumption of a consumer and to be able to draw up his annual final bill.

People already know the so-called smart meters that can be read remotely and are provided with the necessary measuring, information and communication means.

Such a smart meter consists of a measuring device that measures the consumption and a communication module that monitors the consumption and additional data of the smart meter and of the connected peripheral devices.

The aforementioned communication module is provided with means for managing this data, means for exchanging consumption and additional data with the peripheral equipment and means for sending this data to a central server.

To send this data to the central server, the communication module uses the low-voltage network, the cable network and cellular networks such as GSM, CDMA and others.

The communication module uses fixed wiring and / or wireless connections to exchange information with the peripherals. The aforementioned communication module is also provided with means for determining which peripheral devices are supported by it.

It is also known that technologies are used for measuring consumption that change little or no longer, while the communication technologies for transmitting the consumption and additional data are still evolving and must therefore conform to the current state of the art. are being adjusted.

A disadvantage of such a communication module is that in the event of a defect or for its maintenance or for the selective replacement of the communication module by a new one, the electrical voltage on the consumption meter itself must be switched off. If the communication module is part of the smart meter, the meter must be completely replaced in the event of a fault.

Such an intervention, in which the voltage must be applied to the consumption meter afterwards, may only be carried out by a certified technician, which makes intervention by a technician with the associated displacement necessary and also makes the intervention expensive.

In addition, when replacing the communication module, you must re-enter which devices are connected to the smart meter.

An additional disadvantage is that during the period in which it is no longer under voltage, the consumption meter also no longer functions and the measurements are therefore interrupted.

Another drawback of such a communication module is that it is arranged next to the electricity meter and therefore requires more space than a device integrated in the meter.

The present invention has for its object to provide a solution to the aforementioned and other disadvantages in that it provides a data communication module for a consumption meter, such as an electricity meter, said data communication module being heat-exchangeable, i.e. interchangeable without the electrical voltage being applied to the consumption meter. to switch.

An advantage of such a data communication module is that the exchange of such a device can take place without the intervention of a certified technician.

For example, the exchange can be done by the consumer himself or another person who can follow the instructions, which considerably reduces the cost of the operation.

An advantage is also that the consumption meter itself remains in continuous operation and under voltage, also during the intervention on the communication module.

The heat-exchangeable communication module is preferably placed directly on the consumption meter / so that the module occupies a minimum of space, but is still easily accessible.

In some circumstances, the hot-exchangeable communication module is placed on a connection module, which is located next to the consumption meter but is connected to it.

With the insight to better demonstrate the characteristics of the invention, two embodiments of the heat-exchangeable communication module according to the invention are described below as examples without any limiting character, with reference to the accompanying drawings, in which: figure 1 shows diagrammatically and in perspective view of a heat-exchangeable communication module according to the invention; figure 2 represents a block diagram of the communication module according to figure 1; figure 3 represents a variant of figure 1; Figure 4 shows a block diagram of the communication module according to Figure 3.

Figure 1 represents a communication device 1 according to the invention, which consists of a connection module 2 and a communication module 3. The connection module 2 is connected to a consumption meter 4 by means of a cable consisting of two cables 5,6. The consumption meter 4 is connected to the conductor 7 which carries the electrical current that is being measured. The communication module 3 is wirelessly connected to a server 8, and whether or not wirelessly connected to peripheral equipment 9. The peripheral equipment 9 in this case comprises a gas meter 10, a water meter 11 and a display 12.

Figure 2 shows the block diagram of Figure 1 with the connection module 2 and the communication module 3.

The connection module 2 is provided with a wiring 6 which is connected to a control unit 13 in the communication module by means of an optical communication channel 14 between a connector 15 on the connection module 2 and a connector 16 on the communication module 3.

The control unit 13 of the communication module 3 is in turn, on the one hand, wirelessly connected to a central server 8 via a first communication means 17, and, on the other hand, via a second communication means 18, whether or not wirelessly connected to the peripheral equipment 9.

The control unit 13 is provided with an encryption means 19 for data transport to the central server 8. In addition, the control unit 13 is also provided with a permanent memory 20, part of which contains the data on the supported peripheral equipment 9, and with a permanent memory 22, which is located in the connection module 2.

The connection module 2 is further provided with a second cabling 5 which is connected to an electrical supply 23 of the communication module 3 by means of a connector 24 on the connection module 2, and a connector 25 on the communication module 3. The electrical supply 23 is further connected with the electrical equipment of the. communication module 3 (not shown).

The operation of this embodiment of the data communication module according to the invention can be explained as follows.

Measurement data and additional data from one or more consumption meters 10, 11 forming part of the peripheral equipment 9 are routed via a connecting means 18 to the control unit 13, wherein the connecting means 18 uses fixed wiring and / or a wireless connection such as, but not limited to Mbus and Zigbee.

The measurement data and additional data can be stored in the memory 21 of the communication module. This data can also be displayed on a display 12 at the consumer.

The measurement data and additional data can be transmitted to a central server 8 by means of the control unit 13 and a second connecting means 17 of the communication module 3. For sending the data to the server 8, the second connecting means 17 can make use of, but not limited to the low-voltage network, the cable network and of cellular networks such as GSM, CDM and others.

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The control unit 13 is also provided with an encryption means 19 which encrypts and decodes the data from and to the server 8 and the peripheral equipment 9, in order to protect the communication.

Parameters are stored in the permanent memory 20 of the control unit 14, necessary for the proper functioning of the communication module 3. Part of these parameters are the installation data which indicate which peripheral devices are supported by the communication module 3 and this component is stored in the sub-memory 21 saved.

According to the invention, the connection module 2 is also provided with a permanent memory 22 which contains a copy of the parameters stored in the memory 21 of module 3. Such a mirroring of data makes it possible to replace the communication module 3 with a new one, without having to re-enter all the data that has already been mirrored in memory 22 into a new memory 20 of the new communication module 3.

If the communication module 3 needs to be replaced in the event of a defect or renewal, this can be done without interrupting the electrical voltage on the meter (s). To this end, the connection module 2 should preferably be provided with a blocking means 26 which blocks access to the connection module 2 when the communication module 3 is removed.

This blocking means 26 preferably consists of a safety catch (not shown) which physically blocks access to the connection module 2 and a mechanism that operates the safety catch. The mechanism may preferably be provided with two contact points (not shown) which, when touched at the same time, causes the safety catch to slide away, thereby allowing access to the connection module 2.

The housing of the connection module 2 is provided with two holes 27,28 behind which the contact points and the safety catch are located. The connector 25 of the communication module 3 is preferably provided with two pins 29,30 which slide into the holes 27,28 of the housing of the connection module 2. Via the holes 27,28 the pins press on the contact points, so that the safety catch is is shifted away and access to the connection module 2 is enabled.

If the communication module 3 is pulled out of the connection module 2, whereby the connectors 24, 25 between the connection module 2 and the communication module 3 are disconnected, the detached communication module 3 is no longer under voltage and can be removed.

A new communication module 3 can now be fitted by sliding it into the connection module 2 with its connectors 24.25. The optical connection 14 between the connectors 15 and 16 sets up without contact.

The voltage that is still on the connection module 2 is hereby automatically re-routed to the new communication module 3.

The electrical voltage on the electricity consumption meter 4 must never be disconnected for this purpose. In this way it is prevented that the measurements of consumption by the electricity meter or by other meters in the peripheral equipment would be interrupted.

Figure 3 represents another embodiment of the invention, with an electricity meter 31, and a communication module 32 mounted directly on it.

Figure 4 shows the block diagram of Figure 3 with the communication module 32 mounted on the electricity meter 31.

The connection between the two is via an optical connection 14 and an electrical connection 33. A switch 34 for power interruption on the electricity meter 31 is connected to the communication module 32 via the optical connection 14 between the two.

The design of the housings of the electricity meter 31 and the communication module 32 is designed so that both parts slide smoothly into each other. The communication module 32 is functionally identical to the communication module 3.

The operation of this variant embodiment of the communication module 32 according to the invention is analogous, as described for the first embodiment. The only difference is that the communication module 32 can be slid into the electricity meter 31 itself, forming the optical 14 and the electrical 33 connection, and can be removed therefrom, while the consumption meter 31 already contains the functions previously performed by the connection module 2 fulfilled.

The communication modules 3.32 are not only capable of transmitting data from consumption meters, but are also able to send commands to the consumption meters to the extent that the consumption meters are equipped to respond to this.

For example, the communication module 32 can transmit an order from, for example, the central server 8 to the consumption meter 31 via the optical connection 14 to change the position of the switch 34, as a result of which the consumer can no longer draw any electrical current, and this position can be changed remotely at a later moment in the event of a changed situation.

The present invention is by no means limited to the embodiments described as examples and shown in the figures, but such a heat-exchangeable data communication module can be implemented in various variants without departing from the scope of the invention.

Claims (11)

A communication module (3.32) for a consumption meter (4.31), characterized in that said communication module (3.32) is heat-exchangeable, i.e. exchangeable without switching off the electrical voltage on the consumption meter (4.31) . Communication module (3.32) according to claim 1, characterized in that the consumption meter (4.31) is an electricity meter, a gas meter, a water meter, or any other meter that registers the throughput of a measured consumption. Communication module (32) according to claim 1, characterized in that the communication module (32) is placed directly on the consumption meter (31). Data communication module (3) according to claim 1, characterized in that the data communication module (3) is placed on a connection module (2), which is located next to the consumption meter (4) but is connected to it. The communication module (3.32) according to claim 1, characterized in that a copy of parameters stored in a permanent memory (20) of the communication module (3.32) is also stored in a permanent memory (22) of the connection module ( 2) or from the consumption meter (31) itself if the communication module (32) is mounted directly on the consumption meter (31). Connection module (2) according to claim 4, characterized in that the connection module (2) is provided with a blocking means (26) which blocks access to the connection module (2) when the communication module (3) is removed from the connection module (2) . Consumption meter (31) according to claim 3, characterized in that the consumption meter (31) itself is provided with a blocking means (26) which blocks access to the consumption meter (31) when the communication module (32) is removed from the consumption meter (31) ). Blocking means (26) according to claim 6 or 7, characterized in that the blocking means (26) consists of a safety catch that physically blocks access to the connection module (2) or the consumption meter (31) itself by means of a mechanism that safety catch. A mechanism that operates a safety catch according to claim 8, characterized in that the mechanism consists of two pins (29, 30) that slide into holes (27, 28) of the housing of the connection module (2) or of the consumption meter (31) self. The pins (29, 30) press through the holes (27, 28) at contact points, so that a safety catch is pushed away. Communication module (3.32) for a consumption meter (4.31) according to claim 1, characterized in that, in addition to data, commands can also be passed on to the consumption meter (4.31, 1.10) given remotely. Communication module (3.32) for a consumption meter (4.31) according to claim 10, characterized in that an order can be passed to a switch (34) to cut off or reconnect the user's electricity supply.