DE2931979A1 - ARRANGEMENT FOR CENTRALLY DETECTING THE HEAT ENERGY REQUIRED BY MULTIPLE HEAT CONSUMERS - Google Patents

Description

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CH-6301 TRAIN. Switzerland

Arrangement for the central recording of several heat consumers related thermal energy

^PA2O8 ° 030064 / 05A6

Arrangement for the central recording of several heat consumers related thermal energy

An arrangement of the type specified in the preamble of claim 1 is known (DE-OS 27 22 485), in which the decentralized measuring devices are queried cyclically by the central device and the measured temperature difference is passed on to the central device via a collecting line if the flow meter comes into contact with water the measuring device had responded since the last query. The bus line consists of a clock line, an address line, a data line and a voltage supply line. Addressing is carried out in that each measuring device has an address flip-flop, all flip-flops are connected to a shift register, and the central unit a signal pushes through this shift _register> Is due to a fault or interruption of the power supply of one of these flip-flops no longer functional, then the shift register is interrupted and

: 0 thereby also the transmission of measured values from actually still functional Measuring devices put out of operation.

The invention specified in claim 1 is based on the object of creating an arrangement of the type mentioned at the beginning in the event of a power failure or other malfunctions in one of the measuring devices of the central device are displayed and do not result in a failure of the measured value transmission from the other measuring devices.

) 0 Some exemplary embodiments of the invention are explained in more detail below with reference to the drawings.

1 shows a basic circuit diagram of an arrangement

for central recording of the heat drawn from several heat consumers

energy and

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2 shows a basic circuit diagram of a measuring device.

In FIG. 1, 1, 2 and 3 denote decentralized measuring devices which are connected to a central device via a common collecting line 4 5 are connected. Each of the identically constructed measuring devices 1 to 3 is a heat consumer, not shown assigned and has a flow meter 6, a flow temperature sensor 7 and a return temperature sensor 8 on. The flow meter 6 measures the volume flow V, the flow temperature sensor 7 the flow temperature T and the return temperature sensor 8, the return temperature T of a heat transfer medium in a flow line flows to the relevant heat consumer and in a return line to the heat source.

A computing element 9 determines, for example, the thermal energy drawn from the consumer using the formula Q = k'J V (T-T) dt Q and generates a fixed energy pulse at its output after a given fixed amount of energy has been consumed. A transmission element 10 forms each energy fixed quantity pulse into one containing the address of the energy consumer Code word of type A and sends this code word if the bus 4 is not already through one of the others Measuring devices 2 or 3 is occupied, in the form of a pulse telegram via the bus 4 to an evaluation element 11 of the central device 5. If the bus line 4 is already occupied, the transmission of the code word is delayed, until she is free again. Such transmission methods have the advantage that a call for measured value transmission by the central device 5 and thus a receiver in the individual measuring devices 1 to 3 is not required are. A two-wire line can be used as the bus line 4, which is also used to supply voltage to the measuring devices 1 to 3 is used.

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The central device 5 has several heat quantity counters 12 to 14, each of which is assigned to one of the measuring devices 1 to 3. If a code word of type A arrives in the central device 5, the evaluation element 11 emits a fixed amount of energy pulse to the relevant heat meter 12, 13 or 14 in accordance with the address of the code word. The fixed energy quantity pulses are added up in these, and the thermal energy drawn from the various consumers is displayed.
10

In each of the measuring devices 1 to 3, a timing element 15 is arranged, which is output by each of the computing element 9 Energy fixed quantity pulse is reset and after a predetermined period of time T periodically the transmission

3.

a code word of type B containing the address of the consumer to the central device 5 triggers. If within a Time period T., which is to be selected somewhat longer than T in accordance with the possible delays, in the central device 5 from

an address neither the code word of type A nor the code word of type B arrives, the evaluation element 11 emits a control signal to an alarm member 16, which triggers an alarm, which indicates a malfunction in the relevant measuring device or indicates an attempt at fraud, for example by interrupting the power supply. Advantageously points the central device 5 has a display element in which the address of the non-functional measuring device is displayed.

In order to monitor the time intervals between the received code words, the evaluation element 11 can have one for each address Have timing element that is restarted by each incoming code word of type A or B of the address in question and after the time period T. has elapsed, an alarm is triggered. However, a microcomputer is advantageously used as the evaluation element 11, which writes the time of arrival of the last code word in a memory for each address and an alarm

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triggers as soon as a point in time recorded in the memory has exceeded the time period T.

The timing element 15 of the measuring devices 1 to 3 can also be operated in such a way that it is independent of the energy level quantity pulses periodically triggers the transmission of a code word of type B to the central device 5. In this case it has the evaluation element 11 to trigger an alarm if within the time period T, from one of the different addresses in the central device 5 no code word of type B arrives. The previously mentioned option of sending a code word of type B first after there was no energy fixed during the period T

el

Genimpuls has occurred, but has the advantage that the bus 4 is used less frequently.

It is advantageously ensured that the alarm element 16 also responds when the flow temperature sensor 7, the return Temperature sensor 8 and / or other status sensors are irregular Record states or changes. For this purpose, a detector 17 for monitoring is in the measuring devices 1 to 3 the rate of change of the measured values T and T determined by the temperature sensors 7, 8, a detector 18 for Monitoring of the difference between the measured values T and T and a pressure monitor 19 are provided via an OR gate 20 control the transmission element 10 and the transmission of a Trigger code word of type C to central device 5. If a code word of type C arrives in evaluation element 11, it is immediately the alarm element 11 is activated.

In the example shown, the detector 17 consists of differential members 21, 22 to form the time derivatives

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and threshold switches 23, 24 which respond when the time derivative of the measured value T or T is a predetermined one Exceeds threshold. If the measured value T or T changes as a result of a malfunction or attempted fraud e.g. by interrupting the sensor lead or removing the temperature sensor from the measuring point faster than this is possible in regular operation due to the time constants, an alarm is given.

The detector 18 is through a differential element 25 and a Threshold switch 26 is formed. It responds when the temperature difference ΔΤ = T - T is a given, on the Measurement accuracy of the temperature sensors 7, 8 exceeds the coordinated negative value, which indicates a malfunction or a Indicates attempted fraud.

The pressure monitor, which is advantageously arranged in the flow meter 6 19 monitors the static pressure in the heat pipe network and triggers an alarm if the static pressure exceeds a specified level Falls below the minimum value. This also gives an alarm if a consumer fraudulently uses the flow meter 6 Intentionally removed from the heat pipe network.

If the transmission of the code words of type B is independent of the delivery of fixed energy pulses, the alarm can also be passed on from the OR gate 20 to the alarm element 16 in that the OR gate 20 blocks the transmission of the code word of type B, so that after expiration the time period T. the alarm member 16 responds.
30th

The generation of the energy fixed quantity pulses from the measured values of the volume flow rate V, the flow temperature T and the return temperature T_ can also be used instead of in each individual Measuring device 1 to 3 only take place in evaluation element 11 of central device 5. Fig. 2 shows one for this Case specific measuring device 27, the flow meter of which in each case according to the flow rate of a predetermined flow rate

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quantity of the heat transfer medium generates a fixed flow rate pulse. A transmitter element 28 forms each fixed flow rate pulse into a code word of type A and sends this over the bus 4 to the central device 5 (Fig. 1). The timer 15 is reset by each fixed flow rate pulse and triggers periodically after the time period T has elapsed

the transmission of a code word of type B. The analog measured values T and determined by the temperature sensors 7, 8 T are converted into digital signals in an analog-to-digital converter 29 and transferred to the bus via the transmitter element 28 4 coupled.

The thermal energy Q drawn from the various consumers is calculated in the evaluation element 11 (Fig. 1), e.g. according to the formula Q = kj V (T - T) dt calculated and in the associated heat quantity counter 12, 13 or 14 are displayed. Advantageously, it is also checked in the evaluation element 11 whether the flow temperature sensors 7 measured values of the flow temperature T recorded by the various measuring devices are similar. Exceeds the deviation of the flow temperatures T a predetermined Value, which in turn suggests a malfunction or attempted fraud, an alarm is triggered. The checking of the rate of change of the temperature sensors 7, 8, which is explained with reference to FIG. 1 Measured values and the check of the sign of the temperature difference ΔΤ = T - T can also take place in the evaluation element 11.

The temperature sensors 7, 8 in the measuring devices 27 can be omitted if, instead, the flow temperature is measured with a flow temperature sensor common to all consumers and the determination of the thermal energy Q to be paid by the consumer is based on a fictitious return temperature T, e.g. according to the formula Q = k / V ( T -T) dt takes place. The substitution of the actual return temperature T _r by the fictitious return temperature T affects the measurement result in such a way that consumers who want their

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Operate heat consumers with a low temperature difference ΔΤ, Have to pay a comparatively higher energy price than consumers who have to pay a high temperature difference ΔΤ to an optimal utilization of the capacity of the 5 heat conduction network and a good efficiency of the heating plant contribute.

The digital operations to be carried out in the measuring devices 1 to 3 and 27 can advantageously be carried out by means of a Realize 10 microcomputers.

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Claims (10)

PATENT CLAIMS j 1. Arrangement for the central recording of several heat consumers related thermal energy, with several measuring devices, each assigned to one of the consumers, which over a common manifold are connected to a central device, each measuring device having a flow meter contains and a computing element is arranged either in each measuring device or in the central device, which in each case after the consumption of a fixed amount of energy a fixed amount of energy pulse generated, which is added up in a heat quantity counter assigned to the consumer, and the fixed energy quantity pulses or fixed flow rate pulses generated by the flow meter in the form of the address of the Consumers contained code words of a first type from the measuring device via the bus to the central device are transmitted, characterized in that a timing element (15) is arranged in the measuring device (1 to 3; 27), which periodically triggers the transmission of a code word of a second type (B) to the central device (5), and that in the central device (5) an alarm element (16) is present which responds if within a predetermined period of time no code word arrives at an address. 2. Arrangement according to claim 1, characterized in that the timing element (15) by each energy fixed quantity pulse or Fixed flow rate pulse is reset. 3. Arrangement according to claim 1 or 2, characterized in that the alarm element (16) responds when a flow temperature sensor (7), a return temperature sensor (8) and / or other condition sensor (19) of the measuring device (1 to 3; 27) record irregular conditions or changes. 4. Arrangement according to claim 3, characterized by a detector (17) for monitoring the rate of change the measured values determined by the temperature sensors (7; 8) <V ^T r). ./. pa 2080 Q30064 / 0546 ORIGINAL INSPECTED 5. Arrangement according to claim 3, characterized by a detector (18) for monitoring the difference of the Temperature sensors (7; 8) determined measured values (T; T). 6. Arrangement according to one of claims 3 to 5, characterized by a pressure monitor arranged in the flow meter (6) (19). 7. Arrangement according to one of claims 3 to 6, characterized in that the measuring device (1 to 3; 27) for Generation of a code word of a third type (C) is set up and this via the bus (4) to the central device (5) transmits if the flow temperature sensor (7), the return temperature sensor (8) or other status sensors (19) record the irregular conditions or changes. 8. The arrangement according to claim 3, characterized in that the alarm member (16) responds when the deviation of the flow temperature sensors (7) of the measuring devices (1 to 3; 27) recorded flow temperatures (T) a specified Value exceeds. 9. Arrangement according to one of the preceding claims, characterized in that the collecting line (4) is a two-wire line is. 10. Arrangement according to claim 9, characterized in that the measuring devices (1 to 3; 27) from the two-wire line (4) are fed. 30th PA 2080 03006A / 0546