SU1283532A1 - Liquid flow transducer - Google Patents

Abstract

The invention relates to a measurement technique and makes it possible to improve the accuracy of flow measurement. The holder 2, installed in the choke section of the channel, has a plate 3 attached with a protruding blade 4 into the channel, which is twisted full and is installed with an offset of its axis of symmetry relative to the plate 3 along the flow by 1/4 of its width

Description

hh

(L

with

phi5.1

pressure-dependent drag force. Plate 3 is fixed on opposite sides with a gap between the plate and the cover plate, which act as a damper. Arising

1283532

when the fluid flow around the blade 4, the lift force bends the plate 3, causing the appearance of an electrical signal at the strain gauge 14, which is proportional to the flow rate. 4 il.

one

The invention relates to a measurement technique, in particular, to means for measuring the flow rate of a fluid, and can be used in industrial fields associated with transporting fluid through pipelines or in diagnosing hydraulic machines.

 The aim of the invention is to improve the accuracy of flow measurements.

FIG. 1 shows the design of the sensor; in fig. 2 shows section A-A in FIG. one; in fig. 3 - pa: section BB in FIG. one; in fig. 4 shows a section B-B in FIG.

A calibrated channel is formed in the housing 1 of the sensor. In the choke part, the holder 2 is rigidly fixed, to which the plate 3 with the protruding blade 4 is cantilevered. 9 and the plate 10 to the rep screw with the screw 11 and the plates 3 are located on different sides in the zone of the greatest distance from the attachment point of the plate 3. Their flat surfaces facing the plate 3 form narrow slits. Connector 12 is provided for connecting the connecting cable. The electrical outlets 13 are sealed, for example, by epoxy sealant. On plate 3 glued strain transducer, for example, the strain gauge 14.

The sensor works as follows

When the fluid flow around the blade 4, the lift force causes a bend of the plate 3 to be converted into

0

five

0

five

0

five

0

electrical signal proportional to the square of the flow.

When the plate 3 oscillates, moving the fluid in the narrow peaks between the plate 3 and the plate 10 provides damping of the oscillations and stagnation; beating plate 3.

To eliminate the influence of the drag force on the fluid viscosity, the axis of symmetry of the blade 4 is shifted downstream by 4 of its width.

Thus, with the specified asymmetric arrangement of the blade, the forces depending on the viscosity of the liquid, disrupting the operation of the sensor, act in the plane of the plate 3; i.e. under the conditions of greatest rigidity. This minimizes the value of additional errors due to changes in fluid viscosity.

Claims (1)

Invention Formula A fluid flow sensor, comprising a housing with a calibrated channel, a plate with a protruding blade into the channel at an angle of attack of less than 15, and a plate deformation converter into an electrical signal that differs from that in order to improve the accuracy of flow measurements, a bar and an overlay are inserted into it, fixed motionless and with a gap on different sides of the plate, and the blade is made twisted and installed with its axis of symmetry offset relative to the plate by thread th width. X-X fJu9.Z eb srig.Z srik4