CS252714B1 - Sensor connection for remote heat measurement - Google Patents

Abstract

The connection solves the conversion of the liquid flow rate and the temperature difference at the input and output of the system into a modulated current signal. The input resistance thermometer and the output resistance thermometer are connected to a bridge, the input of which is connected via a series resistor to the voltage stabilizer and the output to the input of the voltage - current converter. The output of the converter is connected via the contact output of the water meter to the output terminal of the entire circuit. The solution is usable in housing construction and wherever remote measurement of heat transmitted or received via a heat-transfer fluid is required.

Description

The solution relates to the connection of a sensor for the remote measurement of the heat delivered or received by the heat transfer fluid and solves the problem of the transfer of the liquid flow and the temperature difference between the inlet and the outlet from the system to the modulated current signal.

So far, remote heat measurement has been performed using an inlet and outlet thermometer, a water meter and a heat meter with output for remote transmission, or each thermometer and water meter has an electrical output for remote transmission and the heat quantity calculation is performed in a search unit.

The disadvantage is the high set-up costs in each case and the large number of connecting conductors when using sensors with output for remote transmission of each measured quantity.

The disadvantages described are eliminated by the connection of a remote heat sensor, the principle of which is that the input resistance thermometer and the output resistance thermometer are connected to a bridge whose input is connected via a ballast resistor to the voltage stabilizer and the output to the voltage-to-current converter, with the output this transducer is connected via the water meter contact output to the output terminal of the entire circuit.

The essence of the solution is also that the voltage-to-current converter input is connected to the end of the resistance resistance thermometer via correction resistors. Advantages of the solution are that the quantities required for the determination of the amount of heat are processed by one sensor into a mold for the remote transmission, whereby the connection line can be two-wire. With her-

Claims (2)

OBJECT 1. Connection of a remote temperature sensor, characterized in that the input resistance thermometer (1) and the output resistance thermometer (2j are connected to a bridge (3j, the input of which is connected via a resistor (4j to the stabilizer (5j voltage and output to the prevo input) The voltage of the transducer (6j does not include a power source and circuits for calculating the amount of heat, as is required for separate heat meters for remote transmission. The set-up costs are smaller than those known to date. Fig. 1 shows a circuit diagram of a sensor for the remote measurement of heat without correction resistors Fig. 2 shows the same circuit with correction resistors Input resistive thermometer 1 and output resistive thermometer 2 are connected to a bridge 3 of which the input is connected via a ballast resistor 4 to the voltage stabilizer 5 and output to the converter at 6 voltage - current, the output of this converter is connected via the contact output of the meter 7 to the output terminal V of the entire circuit. The wall between the inlet and outlet temperature of the heating fluid is transferred by the resistive thermometers 1, 2 connected to the voltage bridge 3, which is transferred in the voltage-current converter 6 to the current signal modulated by the contact output of the water meter. used to compensate for changes in the amount of heat caused by temperature changes with unchanged temperature difference. The solution can be used with the advantages described above, especially in mass housing construction, but also wherever a remote measurement of heat delivered or received by a heat transfer fluid is required. The invention is connected via a contact of the water meter (7J to the output terminal (V) of the entire circuit). 2. Connection according to claim 1, characterized in that the converter input (6 j voltage - current is connected to both ends of the input resistance thermometer (1j via correction resistors (8). 1 sheet of drawings 252714 Fig. 3 FIG. 2