SU901863A1 - Pneumatic pressure transducer - Google Patents

Description

The invention relates to instrumentation, namely to pneumatic measuring pressure transducers, the principle of which _{5 is} based on power compensation.

Known pneumatic pressure transducer with> extended measuring range [1].

Closest to the proposed is a pneumatic pressure transducer containing a sensing element, a pneumatic force transducer with a nozzle-flapper type indicator, a feedback element, a zero corrector, a pneumatic relay and an output lever device to which the sensing element is connected. · Feedback, zero corrector and mismatch indicator. The converter also has a measuring range switching mechanism [2].

The disadvantages of the known Converter are the design complexity and low accuracy of regulation.

The purpose of the invention is to simplify the design and improve the accuracy of regulation of the Converter.

This goal is achieved by>> that in a pneumatic pressure transducer containing an elastic sensor connected to the lever system, a misalignment indicator such as nozzle-nozzle, feedback bellows, zero spring associated with the lever, and a pneumatic relay, feedback bellows with an adjusting finger and a sleeve with two symmetrical screw protrusions with springs placed on them, while the sleeve is mounted to rotate in the hole made in the bottom of the bellows on, and is connected by one spring with a lever, and the other with an adjusting finger brought out through the bellows cover.

In FIG. 1 shows a converter, a general view; in FIG. 2 - feedback bellows.

The transducer consists of a measuring elastic sensing element 1, which is mounted on; the flange 2 of the housing 3 and is connected by a flexible plate 4 to the lever device 5. The lever device 5 passes through the block 6. Two brackets are fixed on the opposite sides of the block 6 (front bracket is not shown), parallel to the plane of movement of the lever device 5.

Along the middle part of the bracket 7 there is a groove 8 for moving the crosshead 9 of the feedback node with the bellows 10. 5

The air supply is through the nozzle 11. Between the transverse sides of the brackets 7 is a traverse with an indicator of the position of the nozzle 12 - the valve 13 and the traverse with the device 10 ’zero corrector 14.

Pneumatic relay 15-, to which the supply pressure Р _{ииТ is connected (} installed on the board 16, which is mounted on the flange 17. The pneumatic (5 relay has a hole for supplying the supply pressure and an opening for withdrawing the output pneumatic signal. One relay nipple through a rubber tube A it is connected to the nozzle chisel 12, and the other through a rubber tube B with a choke 11 of the feedback unit.

The feedback bellows 10 is provided with a baffle 18, through which a sleeve 19, axially fixed, passes. The springs 20 and 21 are fixed on the finger 22 and the sleeve 23: and inserted into the screw grooves of the same pitch, cut: on the protrusions 24 and 25. of the sleeve 19. The finger 22 is axially moved and fixed in the crosshead 9 with a set screw 26. The feedback unit is sealed with gaskets 27 and 28.

The converter operates as follows.

Measured parameter - pressure is supplied through the fitting of the flange 3 to the 'elastic sensing element 1 (UEC), which converts it into a proportional force transmitted to the lever device, which is rotated by an angle relative to the axis of rotation. The elastic damper 13 monitors the position of the lever device and approaches the end edge of the nozzle 12. This increases the pressure in the control channel of the pneumatic relay 15 and accordingly increases the pressure at the output of the transducer and in the bellows 10 of the feedback node. Thus, on the lever device, relative to the axis of its rotation, counterpropagating moments of forces act from the controlled pressure and from the pressure in the bellows of the feedback unit. If the acting moments are equal, the pressure in the bellows, and therefore on. The transmitter output will be a measure of the controlled pressure.

In the proposed converter, in addition to adjusting by moving the bellows of the feedback unit relative to the axis of rotation of the lever device, it becomes possible to smoothly and accurately adjust the range by rotating the sleeve 19 and changing the stiffness of the spring 21 accordingly. When the sleeve is rotated, the stiffness of the feedback unit remains constant. In addition, by moving the finger 22 with the spring 20, the bellows 10 of the feedback unit is compressed or stretched to obtain a predetermined, including linear, output characteristic of the converter.

Claims (1)

7 (front bracket not shown), parallel to the plane of movement of the lever device 5. Along the middle part of the bracket 7, there is a groove 8 for moving the yoke 9 of the feedback unit with the bellows 10. Air is supplied through fitting 11, between the transverse sides of the brackets 7 traverse with position indicator nozzle 12 - flap 13 and traverse with corrector zero device 14, pneumatic relay 15, to which supply pressure P is applied, is mounted on board 16, which is fixed to flange 17, is located with a hole for supplying the feed pressure and an opening for withdrawing the output signal Pneumatic whom. One fitting of the relay through rubber tube A is connected to the fitting of the nozzle 12, and the other through the rubber tube B to the coupling 11 of the feedback assembly. The feedback bellows 10 is provided with a baffle 18 through which the sleeve 19 passes, fixed in the axial direction. Springs 20 and 21 are fixed on Finger 22 and sleeve 23 and inserted into helical grooves of the same pitch, cut: on protrusions 24 and 25. Sleeve 19, Finger 22 moves axially and is fixed in traverse 9 with set screw 26, Feedback unit is sealed -blocks 27 and 28, the Converter operates as follows. Measured parameter — pressure is applied through a flange fitting 3 on. resilient sensing element 1 (ACC), which converts it into a proportional force transmitted to a lever device that rotates at a certain angle relative to the axis of rotation. The resilient flap 13 monitors the position of the lever device and approaches the end edge of the nozzle 12. This increases the pressure in the control channel of the pneumatic relay 15 and, accordingly, increases the pressure at the output of the inverter and in the bellows 10 of the feedback unit. Thus, on a lever device, on the basis of its rotation, there are opposing moments of forces from the controlled pressure and from the pressure in the sylphane of the feedback node. If the effective moments are equal, the pressure in the bellows, and consequently, the output of the measuring transducer will be a measure of the pressure being controlled. In the proposed transducer, in addition to adjusting the feedback node's bias through the rotation axis of the linkage device, the range can be smoothly and accurately adjusted. by rotating the sleeve 19 and varying the stiffness of the spring 21 respectively. When the sleeve rotates, the stiffness of the feedback unit remains constant. In addition, by moving the finger 22 with the spring 20, the feedback node BELL 10 10 is compressed or extended to obtain a given, including linear, output characteristics of the transducer, Invention Formula Pneumatic Measuring Pre-. a pressure generator comprising an elastic sensing element associated with the lever system, a nozzle-flap type error indicator, feedback BELL, a zero setting spring associated with the lever, and a pneumatic relay, which is (for example, control accuracy of the converter and simplification of the design, in it the BELLOW feedback is equipped with an adjusting finger and a sleeve with two screws and torsional screw lugs with springs on them, while the sleeve is installed with the possibility of in the hole in the bottom of the bellows, and one spring is connected to the lever, and the other is to the adjusting finger, the finger extended out through the bellows cover. Sources of information taken into account during the examination 1. USSR author's certificate number 417701, cells, G 01 L 13/02, 1972, 2, USSR Copyright Certificate No. 436252, class G 01 L 13/02, 1971 (prototype),