DE202006016150U1 - Heat quantity measuring arrangement, has transformer to send current via line with specific length, and linked with heat quantity meter via interface converting current equivalent to temperature into resistance equivalent to temperature - Google Patents

Abstract

The arrangement has a heat quantity meter with temperature sensor interfaces (14) for temperature sensors (18, 20) and a resistance thermometer. A measuring transformer is provided for the transmission of the current equivalent to the measured temperature via a measuring line (24) with a length of about 25 to 100 meter. The measuring transformer is connected with the heat quantity meter via 4-20 milli ampere interface. The 4-20 milli ampere interface converts the current equivalent to the temperature into resistance equivalent to the temperature.

Description

The The invention relates to a heat quantity measuring arrangement comprising a heat meter with at least two temperature sensor interfaces for one temperature sensor like resistance thermometer.

to Determining a quantity of heat emitted by a heating device are the volume flow of the heating medium and a temperature difference the heating medium between a flow and a return required. The temperatures are over each recorded a temperature sensor in the flow and return and to a Heat meter forwarded. Also, the volume flow of the heating medium is measured and on transmits the heat meter, in which then with the determined values after a deposited Heat formula the amount of heat generated the heating system is determined.

Usually are resistance thermometers such as Pt100 or Pt500 sensors used because of their large Accuracy are well suited. The resistance of these sensors changes dependent on from the temperature. For example, the resistance of a Pt100 sensor at 0 ° C 100 ohms. As the temperature increases, so does the resistance of the Pt100 sensor.

To The prior art have heat meters such as for example, the PolluStat E from SENSUS Metring Systems two Sensor interfaces for connecting resistance thermometers such as For example, Pt100 sensors with a maximum supply of 2 m. The sensor inputs are for measuring a voltage change designed at a temperature change at the PT-100 or PT500 resistor drops.

Around To avoid measurement errors, the connection should be extended Test lead to the temperature sensor as close as possible the temperature sensor, as the resistance of the lines and the connectors cause measurement errors. An extension the measuring line to the temperature sensor is currently using 4-wire technology only up to one length of 15 m possible. Size Lead distances, due to line resistance, Impedances and possible interference fields to measurement errors.

Further are known from the prior art transducers, which are a change in resistance of the Resistance thermometer in an equivalent current, for example between 4 and 20 mA. The measured value equivalent 4 ... 20 mA signal However, it can not from the known from the prior art heat meters are processed.

From that The present invention is based on the object, a heat quantity measuring arrangement develop the type described above such that at least a temperature sensor over longer distances, d. H. above a measuring line with a length in the range up to 100 m to the heat meter can be connected.

The Problem is inventively achieved in that at least one of the temperature sensors directly with a first Transmitter is connected, with the transmitter for transmission one of the measured temperature equivalent Electricity over a long measuring line with a length in the range of 25 to 100 m over a second transmitter is connected to the heat meter, wherein the second transmitter the temperature equivalent current in one the temperature equivalent Resistance transforms. A particularly preferred embodiment is characterized by the fact that the second transmitter is more integral Part of the heat meter is, preferably at least one of the sensor interfaces designed as a transmitter is.

According to one another preferred embodiment is provided that the second transmitter as external circuitry is formed between the sensor interface of the heat quantity meter and the measuring line is arranged. Commercially available heat meters can be used in this embodiment be, wherein the current signal is converted so that it in the Heat meter on the intended sensor interface can be fed.

According to the invention the measured values over longer distances error-free transmission using the 4 ... 20 mA technology. This is a the Measured value equivalent Current between 4 mA - and 20 mA sent through the measuring line. By regulation of the current this technique is independent of changing impedances of the measuring line, with a maximum Resistance value of about 800 ohms should not be exceeded. For this purpose the temperature sensor is connected to a sensor interface of the Transmitter connected to a 4 ... 20 mA interface the equivalent to the resistance of the temperature sensor current in the range from 4 ... 20 mA.

at The above-described preferred embodiment is at least one Sensor interface of the heat meter as 4 ... 20 mA interface designed so that the measuring line directly can be connected to the heat meter.

In a preferred embodiment the second transmitter is designed as a current mirror circuit. This has two input terminals for connection to the 4 ... 20 mA measuring line auf, wherein a first positive input terminal preferably via a Resistor with a first terminal as collector of an input transistor is connected, wherein a second negative input terminal preferably via a Resistor with a second terminal as emitter of the input transistor is connected, wherein a base of the input transistor with a Base of an output transistor is connected and wherein a first Connection as collector of the output transistor with a first Input terminal of the sensor input and a second connection like Emitter of the output transistor preferably via a resistor with a second input terminal of the sensor input is connected. In the event of the measured value conversion of a 4 ... 20 mA signal to a sensor interface of the Heat meter is the circuit is designed as a current divider.

Provided the sensor interface is an interface in 4-wire technology are the second input terminals of the sensor input via bridge resistors with each other connected.

The extended Test lead can have a resistance of about 800 ohms.

All in all the arrangement has a temperature error in the range of ± 1 ° C, the however, depends on the component tolerance.

When Temperature sensors can Resistance thermometers such as Pt100 or Pt500 can be used.

Further Details, advantages and features of the invention do not arise only from the claims, the characteristics to be taken for them - alone and / or in combination - but also from the following description of the drawings taking preferred embodiments.

It demonstrate:

1 a heat quantity measuring arrangement according to the prior art,

2 a first embodiment of a heat quantity measuring arrangement,

3 a second embodiment of a heat quantity measuring arrangement and

4 a circuit arrangement of a transducer.

1 shows a heat quantity measuring arrangement 10 according to the prior art, comprising a heat meter 12 with at least two temperature sensor interfaces 14 . 16 , which connect to one temperature sensor each 18 . 20 are designed in the form of a resistance thermometer such as Pt100 or Pt500 sensor .. The temperature sensors 18 . 20 are each via a measuring line 22 . 24 with the temperature sensor interface 14 . 16 connected, which has a maximum length of about 2 m. Further, a flow sensor interface 26 for connection of a flow sensor 28 intended.

For spatially widely distributed measuring points of the temperature sensors 18 . 20 For a flow line and a return line, one encounters limits in the previously used line lengths of 2 m.

It is therefore intended, for example, the temperature sensor 20 with the short measuring lead 24 to a transmitter 30 via a temperature sensor interface 32 connect like this in the arrangement 29 in 2 is shown. The transmitter 30 has a 4 ... 20 mA interface on the output side 34 on which a 4 ... 20 mA signal is applied, which is equivalent to the resistance value of the temperature sensor 20 is.

This current signal is transmitted over a long measuring line 36 with a line length in the range of 20 to 100 m to the heat meter 12 transfer. For this purpose, the invention provides that the measuring line 36 via a second transmitter 38 with the heat meter 12 connected is. In the preferred embodiment, the transmitter is 38 designed as 4 ... 20 mA interface, the integral part of the heat meter 12 is and the usual temperature sensor interface 16 replaced.

The 4 ... 20 mA technology allows the use of the long measuring cable 36 due to the 4 ... 20 mA interface directly on the heat meter 12 is connectable.

An alternative embodiment of a heat quantity measuring arrangement 40 is in 3 shown. Here is between the long measuring line 36 and the commercially available heat meter with integrated temperature sensor interface 16 an external transmitter 42 arranged in the form of a current mirror circuit having an input 44 for the 4 ... 20 mA signal and one output 46 for the temperature sensor signal, which from the temperature sensor interface 16 the heat quantity meter 12 can be processed.

4 shows a possible embodiment of the transmitter 38 . 42 , The entrance 44 for the 2 ... 20 mA signal includes a first, positive input terminal 48 that have a resistance 50 with an input transistor 52 with a collector of an input transistor 52 connected is. A second, negative input terminal 54 is about a resistance 56 with an emitter of the input transistor 52 connected. One Base 58 of the input transistor is on a base 60 an output transistor 62 and connected to the collector of the input transistor. On the output side is a collector of the output transistor 62 with a first entrance 64 the heat quantity meter 12 connected while an emitter of the output transistor 62 about a resistance 66 with a second entrance 68 the temperature sensor interface 16 connected is. Further input terminals 70 . 72 the temperature sensor interface 16 are about resistors 74 . 76 connected with each other.

Claims (11)

Heat quantity measuring arrangement ( 29 . 40 ) comprising a heat meter ( 12 ) with at least two temperature sensor interfaces ( 14 . 16 ) for each one temperature sensor ( 18 . 20 ) like resistance thermometers, characterized in that at least one of the temperature sensors ( 18 . 20 ) directly with a first transmitter ( 30 ), that the transmitter ( 30 ) for the transmission of a measured temperature of the equivalent current over a long measuring line ( 36 ) with a length in the range of 25 to 100 m via a second transmitter ( 38 . 42 ) with the heat meter ( 12 ), wherein the second transmitter converts the temperature equivalent current into a temperature equivalent resistance. Heat quantity measuring arrangement according to claim 1, characterized in that the measuring transducer ( 38 ) integral part of the heat meter ( 12 ), is preferably designed as a temperature sensor interface. Heat quantity measuring arrangement according to claim 1 or 2, characterized in that the measuring transducer ( 42 ) is formed as an external circuit arrangement, which the long measuring line ( 36 ) with the temperature sensor interface ( 16 ) of the heat quantity counter ( 12 ) connects. Heat quantity measuring arrangement according to at least one of the preceding claims, characterized in that the measuring transducer ( 38 ) as one in the heat meter ( 12 ) integrated 4 ... 20 mA interface is formed, wherein the 4 ... 20 mA interface is preferably a current mirror circuit. Heat quantity measuring arrangement according to at least one of the preceding claims, characterized in that the external measuring transducer ( 42 ) is a current mirror circuit. Heat quantity measuring arrangement according to at least one of the preceding claims, characterized in that the long measuring line ( 36 ) in 2-wire or 4-wire technology for transmitting a 4 ... 20 mA signal is formed. Heat quantity measuring arrangement according to at least one of the preceding claims, characterized in that the long measuring line ( 36 ) has a resistance up to 800 ohms. Heat quantity measuring arrangement according to at least one of the preceding claims, characterized in that the current mirror circuit ( 42 ) two input terminals ( 48 . 54 ) for connection to the 4 ... 20 mA test lead ( 36 ), that a first positive input terminal ( 48 ) preferably via a resistor ( 50 ) with a first terminal as a collector of an input transistor ( 52 ), that a second negative input terminal ( 54 ) preferably via a resistor ( 56 ) with a second terminal such as emitter of the input transistor ( 52 ), whereby a base ( 58 ) of the input transistor ( 52 ) with a base ( 60 ) of an output transistor ( 62 ) and wherein a first terminal such as collector of the output transistor ( 62 ) with a first input terminal ( 64 ) of the sensor input and a second terminal such as emitter of the output transistor ( 62 ) preferably via a resistor ( 66 ) is connected to a second input terminal of the sensor input. Wärmemengemnessanordnung according to at least one of the preceding claims, characterized. when the 4-wire sensor interface is used, two additional input terminals ( 70 . 72 ) of the sensor interface ( 14 . 16 ) about resistances ( 74 . 76 ) are interconnected. Heat quantity measuring arrangement according to at least one of the preceding claims. characterized in that the arrangement ( 29 . 40 ) has a temperature error in the range of ± 1 ° C. Heat quantity measuring arrangement according to at least one of the preceding claims, characterized in that the temperature sensors ( 18 . 20 ) Resistance thermometers such as Pt100 or Pt500 are.