SU871003A1 - Pneumatic compensating differential manometer - Google Patents

Description

(54) DIFMANOMETER PNEUMATIC COMPENSATION

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The invention relates to the field of instrumentation and is intended to measure pressure drop, flow of various media in various industries.

Known pneumatic compensated differential pressure gauges.

Closest to the invention is a pneumatic compensating differential pressure meter containing a negative feedback sensitive element, made in the form of a pneumatic adder with two measurement chambers, the power chamber of which is connected to a constant choke, and the adder is connected to the recorder via a power amplifier This choke is to the negative feedback chamber 2.

However, such a device has a low measurement accuracy.

The aim of the invention is to increase the accuracy in a wide range of measurement /

The goal is achieved by introducing a negative chamber into the pneumatic adder of the devices, and a differential meter — a block of indicators, a subband switch, and compensators of the measured pressure, the negative chamber connected to

10 compensators of measured pressure, made in the form of setters for measuring ranges through switches, the control inputs of which are connected to the control inputs of the unit

15 indicators and outputs of the measurement subrange switch, the input of which is connected to the output of the power amplifier.

Increased accuracy is provided by c by dividing the total pressure measuring range into a number of identical sub-bands by introducing an additional negative camera into

3

a pneumatic accumulator and its connections via switches with compensators in the form of pressure setting devices.

The drawing shows a diagram of a pneumatic compensating differential pressure gauge.

The device contains a pneumatic adder 1 with two different polarity measuring chambers to which the measured input signals FC} and Pj are connected. The supply pressure to the adder 1 is connected via the constant choke 2. and the output through the power amplifier 3 is connected to the output PZ line {, |) (and through a divider 4-5 with the negative feedback chamber 6, the switch 7 measuring subbands and the input of the indicator block 8. Additional negative chamber 9 of the adder 1 is connected to compensators "in the form of setters 10, 11, 12 and 13 of the subsequent measurement subbands by switches 14, 15, 16, 17 and 18, the control inputs of which are connected to the outputs K ., K,, K, - K switch 7 and control mi block inputs 8..;

The block 8 of indicators contains several (by the number of subranges) indicators 19, 20, 21, 22, 23 connected to the corresponding control inputs, indicating an arrow 24, mechanically connected to the Rduui line and the scales of 25, 26, 27, 28 and 29 subranges digitized so that the upper limit of the measurement of each one is the beginning of the next:

OD,; AP-SCH-, ..., The operation of the device is as follows.

Measured pressure measurement range) we divide, for example, into five equal subranges,. ,, ,, ... ... We adjust the subband signal with the help of a 4-5 divider differential meter so that a change in the input signal from zero to LR changes the output signal in RP line from 0.02 to 0.1 MPa. At the output of the setting devices 10, 11, 12 and 13, the pressure dP, 2dR, zl, 4AP (MPa) are set respectively.

When the device is turned on at the output of the KL switch 7, a signal appears, the indicator 19 lights up above the scale 25 of the first 0-AP subband of the meter, and the camera 9 is negative034

with the atmosphere. The device operates on the first subrange of measurement and the readings of the arrow 24 should be counted on the first scale 25. When the input signal exceeds ukPy MPa, the pressure in the output line becomes PBJ ,, 1 MPa ,, which will lead to the output of the K switch 7 command. In this case, the indicator 20 lights up above the scale 26 of the second subband, the negative chamber 9 is connected to the DR signal. MPa setting device 10. The pressure in the line Pout is lowered up to 0.02 MPa and the differential pressure gauge 5 is ready for operation on the second subrange of measurement DE (-2D5).

The achievement of a pressure in the output line of 0.01 MPa at the input signal will result in the formation of a Q at the output K of the signal switch 7, as a result of which the indicator 21 lights up above the third scale 27 of the unit 8, the signal 2P is connected. MPa setting device 1 I in the negative chamber 9 sum Sum of mat 1. The pressure in the line Ry |, | y drops to 0.02 MPa, the differential pressure meter is ready for operation on the third subrange of measurement.

In the same way, the occurrence of signals at the outputs K and Kg will lead to switching the differential pressure gauge to the fourth and fifth subranges of measurement.

The reverse switching of the measurement subbands is carried out at a decrease in pressure in the line ОВЫХ ° 0.02 MPa as a result of a decrease in the input pressure to the lower limit of measurement of the corresponding subrange.

The proposed technical solution allows to increase the accuracy of flow measurement, which allows using a differential pressure gauge in the control system to improve plant performance and save raw materials.

Claims (2)

Invention Formula A pneumatic compensating differential pressure gauge containing a negative feedback sensitive element made in a pneumatic adder with two measuring chambers, the power chamber of which is connected to a constant choke, and the output of the adder is connected to the recorder via a power amplifier and through another constant choke, to a negative feedback chamber connected to the atmosphere by means of variable throttle, characterized in that, in order to improve measurement accuracy, a negative chamber is introduced into the pneumatic adder, and a block of indicators, a switch of subranges and compensators are introduced into the pneumatic adder of the measured pressure, the negative chamber being connected to the compensators of the measured pressure, which were made in the transmitter of the setters of the measuring gauges through switches that controlled the inputs s with the control inputs of the display unit, and outputs the measurement switch subbands, whose input is connected to the output of the power amplifier. Hdt04HHKK information taken into account during the examination 1, USSR Author's Certificate 322676,, cl. G 01 L 13/02, 1969. 2.AB.dpcKoe certificate of the USSR 252643, cl. G 01 L 13/00, 1968 (prototype). F Erin tP 44 | L4L Ar.