DE10024544A1 - Arrangement for remote reading of a consumption meter - Google Patents

Abstract

The arrangement comprises a data acquisition device coupled to at least one consumption counter, which allocates an absolute time variable from the consumption data received from it and generates transmission data therefrom which have associated time data and consumption data. The transmission data are sent via a long-distance transmission link to a data processing device, which records and evaluates the consumption data depending on the time data.

Description

The invention relates to an arrangement for remote reading at least at least one consumption meter.

The consumption of electricity, water, gas and the like becomes common usually determined using a corresponding consumption meter. Liberalization of the energy market, for example, makes it possible light it to the end user, the electricity from any supplier gladly available. The end user is therefore faster than So far, the suppliers and their tariffs have changed. With that so far the usual reading of the meter by appropriate personnel it is difficult or impossible to revert to short-term changes act, and / or considerable personnel expenditure is necessary agile.

The object of the invention is therefore an arrangement for remote to indicate reading of consumption meters where an automa table reading and further processing of the consumption quantities is possible.

The object is achieved by an arrangement according to claim 1 solved. Refinements and developments of the invention thanks are the subject of subclaims.

The arrangement according to the invention not only has the advantage that remote reading is generally enabled, but also that different, especially time-dependent Consumption quantities can be processed automatically. Farther  is advantageous that for reading on existing remote transmission facilities can be used. In order to can be required for the remote reading according to the invention keep the effort relatively low.

This is achieved in detail with an inventive Arrangement for remote reading of at least one consumption meter through a data collection device that matches the consumption Counter is coupled, which corresponds to the consumption of this appropriate consumption data receives, the consumption data an Abso assigns the time size and the transmission data from it testifies, the transmission data associated time data and consumption data. The data acquisition direction is a long distance transmission line for the transmission of Transmission data downstream over a greater distance. Finally, there is a data link with the long-distance transmission link processing device for receiving and evaluating the over transmission data coupled, which depends on the consumption data captured by the time data.

The coupling of data acquisition device and consumption meter ler can be such that the data directly from the consumption meter to the data, for example, via a corresponding bus acquisition device are handed over. However, in the same cher way a coupling of data acquisition device and Consumption meter reading devices are provided which for example an implementation of in different formats existing data or an optical reading. The data acquisition device assigns the respective Consumption data, d. H. for example the current one Counter reading a corresponding absolute time variable (e.g. time of day  and / or weekday) and uses this to calculate the transfer supply data (for example by subtracting the penultimate Consumption data from the last consumption data) to at for example the one determined in a certain time window Allocate consumption to the appropriate time. In this way can, without much effort, different, in particular time-dependent consumption quantities on the respective consumption be applied.

As a long-distance transmission link, there are preferably already existing ones ne transmission links for use such as ISDN Data transmission lines, Internet connections, analogue Te telephone connections, radio links and other suitable data transmission paths. The data processing device evaluates for example, the data obtained in this way according to time and consumption and / or stores them in a database. So lets also the temporal profile of consumption and / or determine the amount paid.

The data acquisition device preferably has a memory chereinrichtung that collects the transmission data, zwi saved and the collected data to the data acquisition transmission device transmits. The advantage here is that the long distance transmission line does not have to be used permanently and so that it does not have to be operated permanently by the Data not individually but collected on the data processing device are transmitted. The transfer of the total Data can be sent at specific times certain events may be linked or processed by data device or from the data acquisition device (e.g. with a certain amount of data in the data acquisition device)  be initiated.

In a development of the invention, in addition to the over Wear data also identification data for identification and Identification of consumption meters from data collection device transmitted to the data processing device. There can be easily connected when connecting a lot number of consumption meters to a single data processing easily identify the individual counters. This is particularly advantageous if the remote transmission distance itself a clear identification of each current data acquisition device and associated consumption counter not allowed.

Another development of the invention can provide be that the data acquisition device by the Datenbe work facility is controllable. For example the data processing device the data acquisition device control the intervals at which the data acquisition device queries or receives the consumption data. In addition, for example, through data processing device are determined how much transmission data be stored in the data acquisition device.

Data acquisition can be preset with fixed values direction at certain intervals or at a fixed time Receive consumption data from the consumption meter. Between the times when the consumption data from the consumption meter can be transmitted to the data acquisition device the data acquisition device either itself or for example controlled by the data processing device during  these time intervals are in a standby mode, d. H. the data acquisition device is largely passive, whereby the power consumption is reduced to a minimal amount is.

The invention is based on the in the figures of the Drawing illustrated embodiments explained in more detail. It shows:

Fig. 1 shows a general first embodiment of an arrangement according to the invention and

Fig. 2 is a more detailed second Ausfüh approximate shape of an arrangement according to the invention.

In the exemplary embodiment according to FIG. 1, the throughput of water, gas, electricity or other and thus the respective consumption is determined by means of a consumption counter 1 . Via an interface 2 , the respective meter reading is queried at certain times by a data acquisition device 3 and, together with the time of the query, stored in a memory 4 as a corresponding table. To check the data acquisition device 3 , a service interface 5 is provided, to which a load profile display can be connected for control purposes on the basis of an appropriate interface (e.g. RS 232 ).

The data records received by the data acquisition device 3 are received and evaluated in the data processing device 7 and / or (processed or unprocessed) are stored in a database implemented by a storage device. While the data acquisition device 3 has an internal time base 9 , the data processing device 7 is supplied with an external, highly accurate time base 10 .

In the embodiment shown in FIG. 2, three consumption meters 11 , 12 , 13 are connected to a data acquisition device 14 . The consumption meter 11 outputs the consumption data via a corresponding interface 17 (e.g. 50) which is converted by an interface converter 15 into an interface 18 (e.g. M-Bus). The interface 18 is suitable for controlling the data acquisition device 14 . Furthermore, the consumption meter 12 is connected directly to the data acquisition device 14 since it uses the correct interface 18 (e.g. M-BUS). Finally, the consumption meter 13 is coupled via an optical coupling 19 to an optical reading head 16 , which also uses the interface 18 (eg M-Bus) at its output. The optical read head 16 receives suitable optical signals from the consumption meter 13 , each of which represents the current meter reading. These optical signals are evaluated in the optical reading head 16 and coded according to the interface 18 .

The counter readings of the supply counters 11 , 12 and 13 are preferably either queried at fixed time intervals by the data acquisition device 14 or are sent by the supply counters 11 , 12 and 13 to the data acquisition device 14 each time the counter reading changes. The data obtained in this way are selected, evaluated and further processed. In particular, each consumption date provided for further processing is assigned a time date and stored in a temporary storage 20 (e.g. random access memory). The data stored in the buffer 20 records are then fed via a local area network (LAN = Local Area Network) 21, a wide area network (WAN = Wide Area Network) 22 or directly to the wide area network 22nd

The wide area network 22 communicates with the local network 21 and the data processing device 14 by means of a suitable interface protocol 25 (e.g. PPP = point-to-point protocol, ISDN). Furthermore, the wide-area network 22 communicates by means of the interface protocol 25 with a router 23 , which in turn exchanges its data with a server 24 via an interface protocol 26 (eg Internet protocol IP). The data acquisition device 14 finally communicates with the local network 21 by means of a protocol 28 (eg Ethernet).

In the present embodiment, the counters 11 , 12 , 13 are read out, for example, every 15 minutes and stored in the detection device 14 . The detection device 14 automatically sends the stored data to the server 24 after a certain time window. The time window can be programmed, for example, on site via a service interface (as in FIG. 1, for example) or by the server as in the exemplary embodiment here. The frequency of data transmission is also kept variable. In the present case, all activities are controlled by the server 24 serving as the center. For example, certain data such as load profile or energy consumed for at least one year per meter are stored in the detection device 14 . In the present exemplary embodiment, the following data are transmitted to the server:

• - Load profile data (such as time and energy with of a time period)
• - Number of pulses (to calculate the energy consumed depending on the application);
• - meter data (such as meter number, type, medium, Meter manufacturer).

In addition, the detection device can use a protocol via self-generated telephone or data line costs len.

The data acquisition device with its devices for data storage and data backup can have, inter alia, an interface to the M-Bus, an internal database, a service module and an interface for the I-Iost process. With the host process, for example, the data can be transferred via Internet in an Internet format (TCP / IP format). If the start-up and the diagnosis are not carried out via the server 24 , a service interface can be provided for the start-up and the diagnosis of the data acquisition device on site, as in the exemplary embodiment according to FIG. 1.

For example, the Initialization at start-up, control of the whole systems and the provision of data via the service Interface can be influenced. When commissioning can be there with in particular the setting of the pulse factor, the on setting the module address and setting the absolute  Meter reading can be made. As control functions (Sys tem-Check) can be the interface to the supply meters (M-Bus), the transmission protocol (e.g. ISDN) and the hard goods are checked. Furthermore, it can be provided that the data stored in the data acquisition device rates and in particular the load profile via the service Interface can be read out.

Furthermore, an existing internal time base could be set. However, time and date are preferably set by server 24 .

In order to reduce power consumption, parts or the entire data acquisition unit are switched to a standby mode (sleep mode). If necessary, such as requesting meter data or sending load profiles, etc., the data acquisition device is woken up again. This is done in particular in the case of data acquisition devices by a processor 29 . In addition, memory modules for the internal memory can also be deactivated in the idle state.

The data transmission between the data acquisition device 14 and the server 24 can take place via different communication interfaces, depending on the requirement and application. For example, analog telephone connections, ISDN connections, Internet network connections, powerline connections and radio transmission come into consideration. A modular structure means that, for example, different communication objects can be used.

The cuts listed below are preferred put to use.

The transmission between the data acquisition device 14 and the server 24 provided as a data processing device can take place, for example, via an ISDN interface (ISDN = Integrated Services Digital Network) in the B channel. The SO interface is used here. The data exchange is based on the TCP / IP protocol. The data acquisition device 14 is thus network-compatible and can also be connected to the Internet as shown. With the TCP / IP protocol, communication is also possible via the a / b interface of an analog telephone when using a modem, for example according to the V24 standard. The connection to the different transmission media is made possible, for example, by a modular structure taking into account various hardware and software components.

The M-bus is preferably provided for the communication between the supply counters 11 , 12 , 13 and the data acquisition device 14 . However, an SO pulse interface or another interface can be provided in the same way.

A preferred service interface works according to the RS 232 standard.

A potential-free can be used for general error signaling Switch contact are provided. This is used for control external signaling. Different types can show used and all error states in one  Log file to be logged. If the power supply fails supply, the data acquisition device cannot be addressed. However, the saved data is retained. The duration of the Power failure is logged and can be called up at any time become. After a power failure, for example, the Da the current date and the current Time on and transmitted to the data processing device a message that a power failure has occurred. The in internal memory cells for the counter data are from the beginning of the power failure is filled with zeros. So is anytime understand how long the power failure took place. The interface protocols come here in particular TCP protocol and the IP, PPP protocol for use. (PPP = Point-to-point protocol).  

Reference list

1

Consumption meter

2

interface

3rd

Data acquisition device

4

Storage

5

Service interface

6

Remote data transmission device

7

Data processing facility

8th

Storage device

9

Time base

10th

Time base

11

Consumption meter

12th

Consumption meter

13

Consumption meter

14

Data acquisition device

15

Interface converter

16

Optical read head

17th

interface

18th

interface

19th

Optical coupling

20th

Cache

21

Local network

22

Wide area network

23

Router

24th

server

25th

Interface protocol

26

Interface protocol

27

processor

28

Interface protocol

Claims (9)

1. Arrangement for remote reading with at least one consumption meter
a data acquisition device ( 3 , 14 ), which is coupled to the consumption meter ( 1 , 11 , 12 , 13 ), which receives consumption data corresponding to the consumption, which allocates an absolute time variable to the consumption data and generates transmission data therefrom, the transmission data being included which have assigned time data and consumption data,
one of the data acquisition devices ( 3 , 14 ) downstream transmission link ( 6 , 21 , 22 , 23 ) for transmission of the transmission data over a greater distance and
a data processing device ( 7 , 24 ) coupled to the remote transmission link ( 3 , 21 , 22 , 23 ) for receiving and evaluating the transmission data, which detects the consumption data as a function of the time data. 2. Arrangement according to claim 1, wherein the data acquisition device ( 3 , 14 ) includes a storage device ( 4 , 20 ) which collects the transmission data and transmits the collected data to the data acquisition device ( 3 , 14 ). 3. Arrangement according to claim 2, wherein the transmission of the collected data from the data acquisition device ( 3 , 14 ) is initiated. 4. Arrangement according to claim 3, wherein the transmission of the collected data from the data processing device ( 24 ) is initiated. 5. Arrangement according to one of claims 2 to 4, in which the transmission of the collected data at a specific point in time ten. 6. Arrangements according to one of the preceding claims, in which, in addition to transmission data, identification data of the consumption meter ( 11 , 12 , 13 ) are also transmitted from the data acquisition device ( 14 ) to the data processing device ( 24 ). 7. Arrangement according to one of the preceding claims, wherein the data acquisition device ( 14 ) by the data processing device ( 24 ) is controllable. 8. Arrangement according to one of the preceding claims, in which the data acquisition device ( 3 , 14 ) receives consumption data from the consumption meter ( 1 , 11 , 12 , 13 ) at certain time intervals. 9. The arrangement according to claim 8, wherein the data acquisition device ( 3 , 14 ) is in the standby mode during the certain time intervals.