DE9211781U1 - Device for electronic monitoring and evaluation of measured values - Google Patents

Description

Device for electronic monitoring and evaluation of measured values .

The present invention relates to a device for
electronic monitoring and evaluation of measured values, and in particular a device for monitoring and evaluating consumption of all kinds, such as water, heat, electricity, etc., in large residential complexes, department stores, shopping centers, industrial plants or the like.

When monitoring and evaluating the above-mentioned types of consumption, meter readings must be determined regularly. There are separate determinations for electricity,
Heat and water, which must be read and evaluated for each individual consumer based on a current meter reading.

However, such individual procedures are for larger plants,
such as department stores, shopping centers, industrial plants,
but also larger residential complexes or similar. In such larger facilities there is usually a supply facility for each energy source concerned.
One way of calculating the total cost is to calculate the total cost per square meter and thus give each consumer
This is the case in residential complexes where a fairly even consumption is expected.
of all residents can be assumed. In
However, in shopping centres, where consumption actually varies considerably between individual customers, such billing can be of great disadvantage to the individual customer.

In addition, it is extremely time-consuming to evaluate and calculate each individual supply source separately for each consumer.

Regardless of the question of cost distribution, the disadvantage of individual evaluation and monitoring is that it is hardly possible to monitor performance peaks.

The object of the present invention is therefore to create a device of the above-mentioned type with which central monitoring and evaluation of all consumption measurements can be carried out.

The problem is solved by the features of claim 1.

Further advantageous embodiments of the invention are set out in the subclaims.

With the device according to the invention it is possible to bill different types of consumption for individual consumers and to monitor power peaks in large facilities such as department stores, shopping centers and industrial facilities or the like.

An embodiment of the present invention is described in more detail below with reference to the drawings. They show:

Fig. 1 is a schematic overview of a monitoring and evaluation device according to the present invention;

Fig. 2 is a block diagram of the measuring device according to the present invention;

Fig. 3 is a block diagram of a monitoring device according to the present invention;

Fig. 1 shows a schematic overview of the device of the present invention. An evaluation device 100 comprises, for example, a PC 101 to which a modem 103, a mouse 105, a barcode reader 107 and a printing device are connected.

device 109. Such an evaluation device 100 is generally known and will therefore not be described further.

In Fig. 1, a monitoring device 200 is also shown, which is electronically connected to the evaluation device 100 via a line 1. At least one detection core 201-206 is provided in the monitoring device 200. In the embodiment presented here, six detection cores are preferably provided. The line path between the monitoring device 200 and the evaluation device 100 is approximately 300m. For better transmission of the signals from the monitoring device 200 to the evaluation device 100, an amplifier (not shown) can be integrated.

In Fig. 2, a measuring device 300 is shown schematically in a block diagram. The measuring device 300 is connected to a power supply 301. A measuring element 303 is connected to a conversion device 305 integrated in the measuring device 300, so that a measured value recorded by the measuring element 303 is sent to the conversion device 305. The conversion device 305 converts the measured value into a signal to be monitored in the monitoring device 200. Such a signal can be in the form of a pulse.

In detail, the conversion device 305 comprises an analog/digital converter 307 (hereinafter referred to as A/D converter) and a voltage/frequency converter 309 (hereinafter referred to as U/F converter) arranged downstream of the A/D converter 307. An amplifier 311 is connected upstream of the conversion device 305, so that a measured value recorded by the measuring element 303 is first amplified and only then is it sent to the conversion device 305, i.e. the A/D converter 307. An output stage 313 is connected downstream of the conversion device 305, i.e. the U/F converter, so that the signal in the conversion device 305

converted signal is fed to the monitoring device 200 via the output stage 313. The converter ratios can be changed via the system inputs.

The monitoring device 200 monitors the pulse received from the measuring device 300 as follows. Each detection core 201-206 (Fig. 1) is assigned at least one counting device 207. Each counting device 207 can be provided for counting a specific type of consumption, so that the counting of the types of consumption can be mixed within a detection core 201-206.

In addition to the inputs of the metering device 207, another input is provided, which has a pulse that is used to measure peak values in electrical consumption. This pulse can either be provided by the utility company or generated by the utility company itself. The pulse preferably has a 15-minute cycle.

The counting devices 207 convert the incoming pulses into numerical values. For recording and intermediate storage, a bit bus system 209 is arranged downstream of the counters 207, with an intermediate storage 209a, a readout unit 209b and a bit bus 209c. Depending on the number of values accumulating, the counter values can be stored for up to 3 days at 96 values per day without further querying, e.g. by a PC. After that, only the daily values are stored. In the event of a power failure, the values remain stored in the bit bus core.

A pulse amplifier 211 and an optocoupler 213 are connected upstream of the counters 207. The pulse amplifier and the optocoupler are connected together to a power supply 215. The counters 207 and the Bitbus system are connected to a power supply 217 and are also connected to a battery in order to bridge a possible power failure.

Claims (10)

Protection claims 1. Device for electronic monitoring and evaluation of measured values, with at least one measuring device (300) for generating a measuring signal depending on a detected measured value, with a monitoring device (200) which monitors the measured value depending on the measuring signal generated in the measuring device (300), with an evaluation device (100) which evaluates the measured value depending on the measuring signal monitored in the monitoring device (200). 2. Device according to claim 1, characterized in that the measuring device (300) comprises a measuring element (303) for detecting a measured value and a conversion device (305,307,309) for converting the measured value into a measuring signal to be monitored by the monitoring device (200). 3. Device according to claim 1 or 2, characterized in that the measuring device (300) has an amplifier (311) for amplifying the detected measured value. 4. Device according to one of claims 2-3, characterized in that the conversion device (305) comprises an analog/digital converter (307). 5. Device according to one of claims 2-4, characterized in that the conversion device (305) comprises a voltage/frequency converter (309). 6. Device according to claim 5, characterized in that the voltage/frequency converter (309) is arranged downstream of the analog/digital converter (305). 7. Device according to one of claims 1-6, characterized in that the measuring device (300) comprises an output stage (313) for outputting the measuring signal to the monitoring device (200). 8. Device according to one of the preceding claims, characterized in that the monitoring device (200) has at least one detection core (201-206). 9. Device according to claim 8, characterized in that each detection core (201-206) has at least one counting device (207). 10. Device according to claim 8 or 9, characterized in that each counting device (207) is assigned a bit bus system (209).