DD201196A1 - SENSOR ELEMENTS FOR SWIVEL DETECTION ON A SWIVEL FLOWMETER - Google Patents

Abstract

The invention relates to a sensor element as a transducer of a vortex flow meter for liquid, vapor or gaseous measuring media. The invention has the object and object to provide a sensor element with constructive-technological design and favorable vibration behavior, which simultaneously provides a low-noise measurement signal high intensity and is largely insensitive to contamination and corrosion. This object is achieved according to the invention, that after a flow resistance body a resilient plate with internal transducer is arranged, the Seitenflaechen are preferably continuously tapered in width to the free-swinging end, so that a triangular, trapezoidal or parabolic-shaped structure is formed. This embodiment achieves favorable mass reduction and center of mass displacement with favorable traction, eigenfrequency, and dither behavior. Field of application: for technological process management in the water industry, the chemical industry and the energy supply. Fig. 1

Description

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Sensor element for 'irbel detection on a vortex flowmeter'.

Application area of the

The invention relates to a sensor element as a transmitter on a vortex flow meter for liquid, vapor and gaseous measuring media. The field of application of such devices is in the measurement and control of technological process processes, preferably in the chemical industry, water management and energy supply.

Char akteristik the known technical Losu ngen

A measuring device is known in which a sensor element in the form of a resilient η plate perpendicular to the flow direction and rigidly attached to the pipeline is arranged in the flow direction at a distance behind a flow resistance body. The resilient plate has over the entire length extending in the flow direction constant width, its thickness, however, is continuously reduced towards the freely movable end.

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Such a .FUhlerelement has the disadvantage that for the deflection and EigenfrequenzYerhalten only about 30 % of their, rome free-running end of calculated, length is critical «Abey in this' area the resilient plate due to their lower modulus and the relatively high resistance acting forces is deflected by the incident vertebral large amplitude, there is _s yon Bückstorangen the vortex street and Festigkeitsprobleoien apart., mainly. , at high flow velocities as a result of their shaping corresponding to unfavorable damping ratios to form nodes of vibration ·

This phenomenon erroneously causes a multiplication of the vibrations to be picked up by the transducer, which have no relation whatsoever to vortices detached in a velocity-proportional manner and adversely affect the measurement accuracy and the linearity behavior of the measuring device.

Also known is an embodiment "according to US - PS 4069708 and DE - OS 2651746, which has a perpendicular to the flow direction and at a distance behind a flow resistance body arranged and attached to one side of the piping elastic plate for vortex detection" The! Fulfill of this arrangement lies in the ' small, due to the shaping due to low natural frequency with high damping character is ti.k, - possible applications

In a further embodiment according to the US - PS 4O69,7O8 | and DE - OS 2651746 is z \ ir Wirb elerf as a solution arranged perpendicular to the flow direction and spaced behind a flow resistance body and cantilevered at the .Rohrwand resilient plate with a constant thickness used

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The salient part of this embodiment is, due to the shaping conditionally low natural frequency with simultaneously high damping characteristic, in the small realizable speed work area.

In another embodiment, at a distance behind a flow resistance body as a sensing element perpendicular to the flow direction and on a, projecting into the flow and the tube interior tapered expiring, round support rod attached with a relatively large diameter resilient plate used. In this embodiment, the flow-unfavorable shape and arrangement of the retaining rod in particular has an effect. As a result of the flow influence occurring as a result of reflective cross flows to disturb the vortex road formation and thus to incorrect measurements and unfavorable Linearitatsverhalten.

Object of the invention

The aim of the invention is to carry out the sensor element in a structurally and technologically simple design so that it delivers a high-intensity measuring signal with low interference-Hauscheap and low Liniaritätsverhalten without mechanical or electronic additional equipment.

Explanation of the essence of the invention

The invention has for its object to provide a sensor element as a transmitter of a vortex flow meter, the speed detached from a flow resistance body sproportional vortex by favorable vote of natural frequency and damping of a resilient plate

detected with high accuracy and at the same time largely insensitive to contamination and corrosive behavior of the medium to be measured *

The solution of the problem is achieved in that a resilient plate is conveniently perpendicular to a Strömungsriohtung in, at or behind a flow resistance body rigidly connected to this or the pipe is arranged, the side surfaces are tapered in width to the freely movable end and in the contour a dreieok-, trapezoidal or parabolic-shaped structure arises. On the other hand, the thickness of the resilient plate is to be kept constant over both the length and the width. A thickening of the resilient plate from the attachment point to the bending zone is in accordance with the measurement task to be solved for reducing the free-running length and thus increasing the natural frequency -lieh. The Verdiokung but should be 'designed so giinst aerodynamically that no influence on the Wirbelaus education arises or formed on this part itself no disturbing vortex.

The wide tapering shape of the spring-elastic Plat te is identical to a straight spiral spring of the same Durcjt: bend and has vibration technology the advantage that due to the Flächenredusierung the free-swinging end and the attacking force due to vortexing decreases and thus over the entire plate length approximately a constant bending moment This ensures at the same time that at higher flow velocities the oscillation amplitude does not exceed the micro-small area and thus no "whip-like overshoot ¹ " occurs.

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Likewise, the mass can be reduced due to this shape at the same natural frequency and favorable damping behavior and the moment of inertia can be reduced by simultaneous displacement of the mass center of gravity in the direction of the bending zone. It is desirable that the resilient plate in its length as small as possible, but in the range of a sufficient Nutzsignales, and then their width and Uicke is optimized from the bending zone. "In order to reduce the moment of resistance and to the amplitude correction can in the region of the bending zone, a small weakening of the width or thickness, preferably by parallel cutting. It has been found that the spring-elastic plate works in its optimal range in terms of its vibrational behavior when approximately the ratio of the thickness to the width to length is 1 to 3 ... 10 to 10. .. 25 is respected.

Due to the inventive design, the mutually exclusive vibration requirements for high natural frequency f by appropriate choice of the mass m and the spring constant c for transverse vibrations according to the mathematical relationship f _Q = --- with optimal damping D can be largely met and the favorable conditions

f / f ₀ μ 0.1 to 0.2 and D / f _Q = 0.5 to 0.7

will be realized. It is very important to ensure that the natural frequency and the damping is not too low and above all, the amplitude is not too large, otherwise the forced by the vortexing vibration movement of the sensor is very strongly influenced and from a certain range even in opposite directions can turn over.

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To avoid annoying vortex formations on the elastic plate seibat this is known to round off or zuzuspitzen in their üioke. The sensor element designed according to the features of the invention is simultaneously free of torsional vibrations due to its shape and the associated favorable width ratio to the distance between two separating vortices, which superpose the useful signal as harmonics, which contributes to a high η useful signal ratio Anger signal is taken from a transducer, which is preferably designed as a piezo oscillator and arranged centrally in the spring-elastic plate, and fed to a signal-processing electronic unit.

For use at high temperatures, the transducer can be routed to the outside of the pipeline, as is well known.

Execution example

The invention will be explained in more detail with reference to a Ausführungsbeiispieles with the aid of the drawings. In the figures show:

Fig. 1: measuring device in a longitudinal section schematically dargeatel

Fig. 2j measuring device according to Fig. 1 in section schematically provided there.

3 shows a further embodiment of a sensor element in longitudinal section in the measuring device schematically shown.

According to Fig. 1 and Fig. 2 is in a fluid flow Rohi line 1 in the flow side of a flow resistance body 2 in an axially incorporated hat 3 egg elastic plate 4 with internal piezoelectric transducer ler 5 on the pipe 1 in a pressure-tight closable opening 6 rigid fixedly arranged «

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The resilient plate 4 has an approximately trapezoidal forging in the embodiment that the bending zone 7 with the flow-side facing away and rounded side 8 forms approximately a right angle. The elastic plate 4, at its free-swinging end 9 and the amplitude correction at the point 10 rounded abgeflaoht, with about 2/3 of their width in the hat 3 in and sohwingt with micro-small amplitude without the flow resistance body 2 to touch physically.

Fig. 3 shows another embodiment of the resilient plate 4, which is considered in the projection plane perpendicular to the flow direction and the flow resistance body 2 ,. has an approximate triangular shape in its width. "Both sides 8 j 11 form approximately the same angle with the bending zone 7 and can be flattened parallel to the amplitude correction at the location 10 near the bending zone 7. This embodiment is advantageously arranged at a distance behind the flow resistance body 2, wherein the sides 8j 11 are designed to be favorable in terms of flow in a known manner by rounding or tapering.

Claims (5)

31 Λ Brfindungsanspruch A sensing element for vortex detection on a vortex flowmeter for liquid, vapor and gaseous measuring media, which is assigned to a resistive body as a resilient plate fastened on one side , characterized in that the side surfaces of the resilient plate (4) extend in width along their length constant thickness, so that they taper towards the end, so that a triangular, trapezoidal or parabolic shape is created. 2 · feeler element naoh? Wk-f 1 ₈ ^ ek ejina ei without t dad ur οη _ιΛ that the spring-elastic plate (4) with its strömungoabgewandten side (8) and the bending zone (7) approximate, a right. Angle forms «. 3. Feeler element according to apt., In which the side facing away from the flow (8) and the side facing the flow (11) of the resilient plate (4) face the bending zone (7) form approximately the same angle. 4 sensor element according to PMNKt 2 and 3, characterized in that by the free-floating ünde (9) is shortened by an amount parallel to the bending zone (7), so that the fede] elastic plate (4) receives a trapezoidal shape « Sensor element according to FIGS. 1 to 4, characterized in that the spring load is arranged before the plate (4) in its longitudinal flow direction. - »-23-4314 4 6. Sensor element according to § 1 to 4, characterized in that the resilient plate (4) is arranged perpendicular to the Strömungsriohtung. 7. Sensor element according to sparks ¹ to 6, / characterized in that the resilient plate (4) is rigidly mounted on one side in or on the flow resistance body (2). 8, feeler element according to fimlff 1 to 6, characterized by «that the resilient plate (4) on one side rigidly attached to the pipe (1). 9 · Sensor element according to Pttnkf ^{1 to a} «characterized in that more than one elastic spring plate (4) in the Abs ¬ tand parallel to each other, at a distance in None to each other or as a combination of parallel or series arrangement are mounted. 10. Sensor element according to W ^ kt 1 to 9, characterized marked characterized in that the resilient plate (4) one or more internal or external transducers (5) are associated. Hierau 2 pages drawings