SU549701A1 - Device for measuring alternating pressure drops and overloads - Google Patents

Description

The measuring windings // - 14 sensors / and 2 are connected in series with each other and connected to each other through diodes DZ and. the closed circuit and their midpoints are connected to the pressure recorder 15. The windings // - 14 connected in this way form a highly sensitive pavement measuring circuit for measuring pressure.

The device works in the following way.

Under the action of an overload (± g), the sensors 3 and 4 of the sensors / and 2 are deflected simultaneously in one direction (up or down). As a result, the magnitudes of the air gaps of the MAGNETIC sensor circuits I and 2 and the inductive resistances of the windings 6, 7 and 8 and 9, which are the arms of the bridge, bridge the sign-sensitive measuring circuit.

This leads to the unbalance of the bridge of the specified bridge measuring circuit and the appearance on the recorder 10 of a signal proportional to the value of the overload (± .g.

The effect of pressure reruns (Pm-f.icx) will not affect the records of recorder 10, since the sensors 3 and 4 of the sensors / and 2 deviate in different directions. In this case, for example, the impedance resistance of the winding 6 decreases, and the inductive resistance of the winding 8 increases by the same amount. Accordingly, the inductive resistance of the winding 9 decreases and the inductive resistance of the winding 7 increases by the same amount.

As a result, the resistances of the opposite shoulders of the bridge, which are windings 6, 8 and 7, 9, will remain unchanged. Consequently, the bridge will not be unbalanced and the pressure differential ± (P "3") will not affect the readings of the recorder and the 10 loads.

The pressure drop measurement is as follows.

When the measured (Rsm) and initial (P, cx) pressures are switched on under the action of alternating pressure differential (f IBM –RPSC), the sensitive elements 5 and 4 of the sensors / and 2 deflect in opposite directions.

As a result, the magnitudes of the air gaps of the magnetic circuits of the sensors / and 2 and the output voltages on the measuring windings 11, 12 and 13, 14 change.

Since windings 11, 14 and 12, 13 are the opposite arms of the formed

they bridge the sign-sensitive bridge measurement circuit, this leads to the unbalance of the bridge and to the appearance on the recorder 15 of a signal proportional to the measured pressure differential ± (Pf-RISH) Overload (± g) will not affect the recorder’s readings / 5, so as sensing elements 3 and 4 sensors 1 and 2 are deflected in the same direction (up or down). In this case, the air gaps of the magnetic circuits of the sensors 1 and 2 equally change in the same direction.

As a result, the electrical voltage, for example, on the winding 11 decreases, and on the winding 14 - increases, respectively, the voltage on the winding 13 increases, and on the winding 12 - decreases. Since the windings are opposite shoulders of the bridge formed by the sign-sensitive bridge measuring circuit, the bridge will not be unbalanced and the overload (± g) will not affect the readings of the recorder 15.

F o rm} l and inventions

A device for measuring differential pressure and overloads comprising two differential pressure transmitters with membrane sensors, field windings connected to a sinusoidal oscillator, and measuring windings, a measuring element and an overload recorder, characterized in that, in order to simplify the device, In this case, the field windings of one of the sensors are connected to each other through oppositely connected diodes, and the point of connection of the diodes is connected to one the input of the overload recorder, the second input of which is connected to the common point of the successively connected excitation windings of the second sensor, while the serially connected measuring windings of the sensors through diodes are connected in a closed circuit, and the connection point of the measuring windings of each sensor is connected to the inputs of the measuring element.

Sources of information taken into account in the examination:

1.Nubert G.P. “Measuring converters of non-electric quantities. Energy, 1970, pp. 181-230.

2. Authors' certificate USSR № 427258, G 01 L 9/10 1972 (prototype).