SU389405A1 - THERMAL FLOW METER - Google Patents

Description

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The invention relates to the field of instrumentation, in particular to heat flow meters operating according to a scheme with a constant heater power.

Known heat flow meters containing a measuring transducer with a measuring tube, heating and temperature-sensitive windings included in a balanced automatic bridge, have a non-linear static characteristic and a small unit measurement range.

The proposed heat flow meter does not have these disadvantages.

This is achieved by the fact that the secondary ledge of the secondary device is connected in parallel with the heat-sensitive winding of the primary converter located behind the heating winding along the medium flow, and the current collector of the slide-motor of the radiochord is connected to the top of the measuring diagonal of the bridge.

Such inclusion enables the conversion of a hyperbolic input signal (change in resistance) into a linear output signal (the position of the slide bar and pointer of the secondary device).

The drawing shows a schematic diagram of a flow meter.

Flowmeter includes primary transducer / with meter tube

2, the heating winding Ri, and the thermosensitive windings RI and located respectively before and after the heater along the course of the flow, the secondary device 3 and the source of stabilized power supply of the heating winding 4. The measuring windings RI and RZ of the primary converter together with the resistance Gf g, g / secondary The device, moreover, forms the bridge circuit fed from source 5. The bridge shoulder is shunted by resistance of a reichord p and constant resistance by a ga- The current collector of the slideboard of the reichord is connected to one vertex of the bridge C and m mechanically resistive motor 6, a controlled amplifier 7, incorporated in a measuring bridge diagonal cd.

The flow meter works as follows.

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Parameters of the primary converter (dimensions of the measuring tube, dimensions and mutual arrangement of the heating and temperature-sensitive windings, thermal insulation

tubes) are chosen in such a way that when the flow rate of the medium changes in a given measurement range from Gmia to Gmai at a constant power of the heater, the resistance of the heat-sensitive winding

R-2 located behind the heater along the way

flow is changed according to the hyperbolic law:

l ao -

where is the initial resistance of the winding, B is a constant for a given converter,

G is the flow rate of the medium flowing through the measuring tube.

In this case, the connection of the secondary tube's reichord p parallel to the resistance and the connection of the current collector of the reichord engine with the top of the bridge C (as shown in the drawing) provides a linear dependence of the position of the reichord engine against changes in the flow rate, which is described by the expression:

g, 2

R,

2o

y «o - rF- G /, + / C, G.

RP

AT

Thus, turning on the reochord parallel to the thermosensitive winding located behind the heater along the course of the flow, and connecting the current collector of the rheochord to the top of the measuring diagonal of the bridge, ensure a linear dependence of the secondary flow meter device.

Subject invention

A heat flow meter containing a measuring tube of a primary converter with heating and temperature-sensitive windings included in a bridge circuit, a secondary device with a reohord and a stabilized power source of the heating winding, characterized in that, in order to obtain a linear dependence of the secondary instrument readings on the change in flow rate and the extension of the measurement limits , the secondary device reochord is connected in parallel with the temperature-sensitive winding of the primary converter located behind the heater th winding on the medium flow direction, and the current collector helipot connects with the top of the measuring diagonal of the bridge.

c-U /

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