SU286290A1 - - Google Patents

Description

Heat meters that contain a pulse flow sensor, key circuits, thermal sensors installed in forward and reverse heat conductors with heat carrier, pulse-width modulators, and a discrete-analog integrator with a zero indicator and voltage source are known.

These heat meters are bulky and unreliable.

The proposed heat meter differs from the known ones in that the input of one pulse-width modulator in it is connected to the thermal sensor of the direct heat pipe through a key circuit. The input of another pulse-width modulator is connected via the second key circuit to the thermal sensor of the return heat conductor. The outputs of the pulse-pulse modulators are connected via a ban circuit to one of the inputs of the discrete-analog integrator, the second input of which is connected to the output of the zero-reference reference voltage source. Such an implementation of the tenlomer improves the accuracy and extends the range of measurements.

The drawing shows the block diagram of the heat meter.

The device contains a direct pipeline / and return heat pipe 2, through which the heat-transfer fluid flows. A spiral flow meter 3 with a 4-pulse generator is placed in the forward pipeline, the following frequency

which is proportional to the flow rate. The flow output 5 of the flow meter is connected to and controls key circuits 6 and 7.

Thermal sensors S and I are placed in pipelines, for example, in the form of thermal protection. The input of one pulse-width modulator 10 is connected to the thermal sensor 8 of the direct heat conductor via key circuit 6, and the input of the other pulse-width modulator //

connected to the thermal sensor 9 of the return heat conductor 2 via the key circuit 7. The outputs 12 1-1 13 of the pulse-width modulators through the circuit 14 "ban are connected to one of the inputs of the discrete-analog integrator 15,

the second input of which is the control input of the current generator is connected to the source 16 of the reference voltage of the zero indicator 17 of this integrator.

Pulse-width modulators generate square-wave pulses, the frequency of which depends on the flow rate, and the duration on the value of the temperature of the heat transfer medium in the forward and reverse heat conductor.

The prohibition of “prohibits the subtraction of impulses by duration, and the difference signal, proportional to the amount of consumed heat, is fed to the integration, the result of which can be read as one.

A heat meter containing a pulse flow sensor, key circuits, thermal sensors installed in the forward and reverse heat pipes with heat carrier, pulse-width modulators and a discrete-analog integrator with a zero indicator and a source of reference voltage, characterized in that accuracy and increase the measurement range, in it the input of one pulse-width modulator is connected to the thermal sensor of the direct heat pipe through a key circuit, and the input of the other pulse-width modulator is connected through a second key A circuit with a thermal sensor of the return heat conductor, the outputs of the pulse-width modulators are connected through the prohibition circuit to one of the inputs of the discrete-analog integrator, the second input of which is connected to the output of the zero-indicator reference voltage source.