RU2039992C1 - Fluid flow speed meter - Google Patents

Abstract

FIELD: measuring equipment. SUBSTANCE: meter has housing, movable rod which is mounted inside the housing, and recorder made up as a resistance strain gauge connected to a bridge circuit. Free end of the rod has a shaped profile. The rod is set in two bearings between which the resistance strain gauges are mounted. The first bearing insulates the resistance strain gauge from fluid to be measured. The second bearing is constructed as screw clamps with spherical faces. Reciprocation of the rod caused by high pressure does not result in bending of the flat part of the rod and, hence, in changing resistance of the resistance strain gage. EFFECT: improved accuracy. 3 cl, 1 dwg

Description

 The invention relates to measuring technique and is aimed at improving devices (sensors) for measuring variable values of speed and direction of flow of a liquid or gas at high pressures.

 A known fluid flow rate sensor [1] which comprises a housing with a movable rod cantilever installed inside it, the free end of which is made with a curved profile, and a recorder made in the form of strain gauges mounted on the rod, are included in the bridge circuit.

 However, such a sensor is not sufficiently reliable in operation, and the placement of strain gages in the zone of the measured medium under high pressure leads to a change in the initial resistance of the latter, which in turn leads to an increase in the error in the measurement results.

 The closest in technical essence to the present invention is a fluid flow rate sensor [2] comprising a housing cantilever mounted inside the housing by means of a membrane rod, the free end of which has a shaped profile and an electromechanical transducer in the form of strain gauges.

 The known device cannot be effectively used for measured media with high pressure, since the design of the sensitive element in the form of a membrane with through radial slots facilitates the penetration of the medium into the region of the strain gauges, which leads to distortion of the recorded signal.

 The purpose of the invention is the improvement of measurement accuracy.

 The goal is achieved by the fact that a second rod support is introduced into the sensor comprising a housing cantileverly mounted inside the housing by means of a membrane, the free end of which has a shaped profile, and an electromechanical transducer in the form of strain gauges, while the first support of the membrane is impermeable and is located on the free side the end of the rod, the second is removed from it deep into the body, and the strain gauges are located on the rod between the supports.

 To increase the sensitivity of the membrane is made with annular grooves of a triangular profile on the end surfaces in the place of attachment of the rod.

 In addition, the second support is made in the form of two screw clamps located on the same axis towards each other.

 The drawing shows a structural diagram of the proposed sensor fluid flow rate.

 The sensor includes a housing 1, in which a movable rod 2 is cantilevered, the free end 3 of which has a figured, for example spherical (spherical) profile and is located in the channel 4 for the flow of liquid or gas, a recorder made in the form of strain gauges mounted on the rod 2 5 and using electrical wires connected to the electrical connector 6. In this case, the rod 2 is mounted on two supports, the first of which is made in the form of a membrane 7 and is made integrally with the rod, and has ring grooves 8, for example, angular profile located on its different sides. The outer sealing surface of the membrane 7 is made spherical and is pressed against the seating surface of the housing 1 by a pressure nut 9. The second support is made in the form of two screw clamps 10 located on the same axis (diametrically) and directed towards each other. While the clamping ends of the screws have a spherical shape, and the part of the rod 2 located above the membrane 7 is made flat, having a rectangular cross-sectional shape.

 The operation of the sensor is as follows. The velocity head of the fluid (gas) flowing in the channel 4, acting on the free spherical end 3, creates a bending moment that deflects the end of the movable rod 2 by a value proportional to the velocity head. In this case, thanks to the annular grooves 8 of the membrane 7 having a triangular profile, bending stresses at the place of fastening of the first support (membrane) with the housing 1 are transmitted to the second, flat part of the rod 2, clamped by the spherical surfaces of the ends of the screw clamps 10, and cause surface stresses in it are also proportional to the pressure head of the liquid (gas) flowing in the channel 4, and are recorded by the strain gauges 5 included in the bridge measuring circuit.

 Given that the second support is made in the form of screw clamps 10 with spherical ends, the reciprocating movements of the rod 2 from the action of high pressures do not lead to bending of the flat part of the rod located between the two supports, and, therefore, to a change in the resistance of the strain gages 5. Therefore, the strain gages only respond to the pressure head of the medium being measured.

 Thus, the use of the proposed sensor eliminates the influence of high pressure on the measurement results of the fluid flow rate and thereby increase the accuracy (reliability) of the measurement results.

Claims (3)

 1. LIQUID FLOW SPEED SENSOR, comprising a housing cantileverly mounted inside the housing through a membrane rod, the free end of which has a shaped profile, and an electromechanical transducer in the form of strain gauges, characterized in that a second rod support is inserted into it, while the first membrane support is impermeable and is located on the side of the free end of the rod, the second is removed from it deep into the housing, and strain gauges are located on the rod between the supports.  2. The sensor according to claim 1, characterized in that the membrane is made with annular grooves of a triangular profile on the end surfaces in the place of attachment of the rod.  3. The sensor according to claims 1 and 2, characterized in that the second support is made in the form of two screw clamps located on the same axis towards each other.

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