DE2236598C2 - Variable area flow meter - Google Patents

Description

The invention relates to a variable area flow meter, bi: i which one is the flow corresponding control of its float in the

conically widening upward measuring tube on one The element following the movements of the float can be removed and converted into an electrical signal is, which can be fed to an electrical signal converter stage as an input signal. their outlook

output signal is proportional to the position of the float in the measuring tube.

Such a variable area flow meter is known from German Offenlegungsschrift 1,798,333. If with this well-known facility too

♦ o a proportional dependency between the display and the position of the float exists, that of the float flow meter still remains fundamentally its own non-linear relationship between the flow rate and the

body position received. Since the dependence of the float position in the measuring tube on the flow is not changeable or adjustable as a fixed device constant, requires the known After the establishment of the overall measurement

rich a calibration because due to the fundamentally non-linear and, moreover, of device The display scale for each device has a different relationship between display and flow rate for each device needs to be calibrated.

Furthermore, a variable area flow meter is from the prospectus ET 7 / 1-71 of the applicant known in which the position of the float corresponding to the respective flow in the measuring tube into an electrical in any known manner

Signal is converted, which may be more or less proportional to the position of the float can, which, however, inevitably because of the non-content! between the flow and the float position is non-linear with the flow.

Furthermore, from the German patent specification 881 262 a flow meter with float and inductive long-distance transmission known, in which the cylindrical part of the float made of iron pipe

with a small wall thickness and moves between two coils. This well-known facility is used in particular for remote transmission and / or registration of measured values.

Furthermore, from the German patent specification 1 004 389 em flow meter with in a cylindrical Tube with a capillary gap built-in second tube closed on one side of approx the same length of the outer tube known, which is characterized in that the inner tube in the Außenrohf is arranged displaceably and raised by the flowing medium from below, from the Outer tube protrudes more or less at the top, which increases the length of the capillary channel that the Flow proportional ht, changes and the flow is displayed on a scale.

This known device is in each case in such a way that each of the weight is compensated for the inner tube excess pressure increase by reducing the capillary resistance, and thus increased flow ^ao.

Since the function of the position of the floating body in the measuring tube from the flow of a flowing through the measuring tube medium can not be described by a mathematical ^a 5 function in the known devices, but rather varies from one instrument to another and vnn a process medium to another, it is It is essential to compensate for the fundamentally non-linear characteristic of the variable area flow meter for each measuring tube, taking into account the respective measuring medium, if a certain display characteristic is desired. In order to achieve a linear display with a float flow meter, it is known to control a follower pointer that can be tracked by the float by means of a compensating curve that can be adjusted via adjusting screws so that a linear relationship is established between the output signal and the flow through the measuring tube, for example.

This compensation curve must be for a specific measuring tube and for a specific measuring medium as well can be set for a specific measuring range.

In principle, it is also known to use a compensation curve that can be adjusted by means of adjusting screws to use a fixed cam disk or cam disk.

The invention is based on the object of providing a To create variable area flow meters of the type mentioned at the beginning, in which with a counter Disturbing influences such as corrosion and pollution are as insensitive as possible and at the same time special exact compensation curve element a predeterminable functional dependence of its output signal on Flow can be produced in such a way that preferably a linear dependence of the output signal on the Flow is adjustable.

To solve this problem, the invention provides that the electrical signal converter stage has a plurality of threshold value-dependent circuit elements, the threshold value of which can be set on one of its electronic components in such a way that when the set threshold value is exceeded for the input signal (/ _£ ) a predefinable additional signal ( ΔΙ) additive is such that the output signal (I _A ) has a selectable functional dependence on the flow through the measuring tube.

Advantageous developments and preferred embodiments of the invention emerge from the subclaims.

A major advantage of the arrangement according to the invention is the fact that it is used in both the Production as well as setting requires extremely little effort.

Another advantage is that the arrangement according to the invention is only very small Has space requirements. The invention is also suitable Device advantageous to be manufactured as a robust encapsulated component, which especially when using the variable area flow meter for aggressive media against disturbances is insensitive.

Furthermore, the arrangement according to the invention absolutely maintenance-free.

In addition, the variable area flow meter according to the invention do particularly advantageous! Way with several linearization devices equip that can be optionally switched on, so that a single variable area flow meter can be used for various measuring materials.

Even if according to the invention, the relationship between the output signal of the variable area flow meter and the flow through the measuring tube is selected in many cases in such a way that there is a linear dependence between these two variables exists, it can, however, preferably be provided that a quadratic dependency / wipe this great one, ostest. which is useful when the output signal of the variable area flow meter is to be compared with the output signal of an orifice plate. This beneficial The possibility of application arises preferably with a mixture control of zv> ci flow rates, of the one with a Schwebeköiper flow meter and the other is measured with an orifice plate.

Furthermore, it is omitted in the case of the invention Variable area flow meters the need to to carry out a calibration for a certain device after defining the total measuring range.

The invention is explained below, for example, with reference to the drawing: in this shows

Fig. 1 is a schematic representation of a first embodiment of the variable area flow meter,

Fig. 2 shows a further embodiment of the variable area flow meter and

3 shows a schematic diagram of a signal converter stage.

Since the float is 2a's pointer of the flow meter only then adjusts to the desired scale value if no adjustment force can be expected from it is, according to Fig. 1, the electrical tap system is designed such that the float 2 on his the lower end is equipped with a follower element 4 designed as an extension rod, which immersed in an induction coil S and influences its inductance during its movement. The ends the induction coil 4 are connected to an alternating current measuring bridge 6, the output signal of which an amplifier 7 is supplied. A signal converter stage 9 is connected to the amplifier 7, which is im is described individually with reference to FIG. While the input terminals 8a and 8b of the signal converter stage 9 supplied output signal of the

»Intensifier 7 of the position of the float 2 in the Measuring tube 1 is more or less proportional, but there is between this output signal of the Amplifier 7 and the flow through the measuring tube 1 cannot be clearly determined mathematically functional dependency.

As explained in detail below with reference to FIG. 3 is, the transfer function of the signal converter stage 9 is selected such that at its output terminals 10 «and 10h a linear display characteristic of the variable area flow meter can be achieved is.

According to FIG. 2 is the movable up and down in the measuring tube 1 Float 2 equipped with a magnet 3. When it moves in the measuring tube 1 The magnetic float 2 thus controls a subsequent pointer arranged outside the measuring tube 1 4, which is designed as an extremely low-friction, helical curve. The following pointer 4 is equipped with an armature 4 ', by means of which the inductance of an induction coil 5 can be changed. In this way it is avoided that the float 2 is acted upon by adjusting forces during its movement in the measuring tube 1, which lead to a falsification of the measurement result.

Otherwise, the structure of the exemplary embodiment corresponds to tie measure F i g. 2 according to the arrangement Fig. 1.

According to Fig. 3 is the electronic signal converter stage 9. which is shown in each of FIGS. 1 and 2 schematically in a block diagram. as follows built up:

Transistors T ₁ ... 7 _"r are such hintcreinandergeschaltct. That in each case, the emitter E _n, of a following transistor _Tr is connected to the collector K ₁₁ and that the bases B _n d" he transistors 7 ", in each case between various stages R _{n of} a voltage divider formed from the resistors R ₁ ... R _{n .:} Are connected. The voltage divider R ₁ ... R _n + can be fed with a supply voltage at its ends via the terminals S _{1 and 5} Input terminals 8 "and 8b, to which the input signal /,. Is fed, are connected in such a way that one of the input terminals, namely terminal Sb. , Is led to the collector K _{1 of} the first transistor 7" and, at the same time, to terminal 5 , while the other input terminal 8e is connected to the emitters E ₁ ... E _n via adjustable potentiometers P _x ... P _n . Furthermore, a resistor R, .- is arranged between the output terminals 8a and Sb of the signal converter stage 9. A Zener diode Z is arranged between the input terminal Sb on the one hand and between the penultimate resistor R _{v +} and the last resistor R _{n + 2 of the voltage divider.} The base B _{n of} the last transistor T _n in the chain is led to the connection between the penultimate resistor R _{n + 1} and the third last resistor "of the voltage divider.

As an input signal for the signal converter stage 9, both currents and voltages are fundamentally possible. The circuit arrangement shown in the basic circuit diagram of FIG. 3 operates in such a way that with increasing input signal i _e

ίο progressively connect further transistors T _n , the base B _{n of} which is in each case at a higher set potential. The transistors T ₁₁ increase or decrease the output signal by a certain amount compared to the input signal, and

is dependent on the setting of the associated potentiometer P _n . The voltage drop across the resistor R _f corresponds to the output signal 1 _{A of} the signal converter stage 9. This output signal can be converted into an

ao shaped output current I _A, which can be tapped at the output terminals 10a and 10b. The output signal is preferably an impressed direct current of approximately 0 to 20 milliamperes. Through the resistances R, to R _{n,, of} the voltage

* 5 plates will be. " the operating points of the transistors 7 ″ to T _{n are} each set. The course of the output signal I _A can be set at the potentiometers P ₁ to P _n .

The in the F i g. The circuit arrangement shown in FIG. 3 is basically for changing the curvature of the curve suitable for the display characteristic in a certain direction. It is evident, however, that a change in the curvature of the curve in the opposite one Direction is achievable on the same principle.

Furthermore, the arrangement according to FIG. 3 can easily be modified in such a way that according to the requirements the two-wire technology of the circuit arrangement does not have its own supply voltage

4c leads is. that they are rather with "living zero point" works and is supplied from the constantly flowing base current of about 4 milliamps. On this all the time existing base current builds up the signal current, for example about 4 to 20 milliamperes can be.

It can be seen that instead of the one shown in FIG principle shown, in which the threshold: i-value-dependent Circuit elements transistors are used, also any other suitable ones

Switching elements can be used to make the transfer function of the signal converter stage 9 adjustable in such a way that a predeterminable functional dependence of the output signal Z ₄ on the input signal / _E can be achieved.

1 sheet of drawings

Claims (7)

Patent claims: 1. Float flow meter, in which a position of its float corresponding to the flow in the measuring tube which widens conically upwards can be tapped on an element following the movements of the float and can be converted into an electrical signal which an electrical signal converter stage as an input signal! whose output signal is proportional to the position of the float in the measuring tube, characterized in that the electrical signal converter stage (9) has a plurality of threshold-value-dependent circuit elements (R ₁ , T ₁ , P ₁ ... R _n , T _n , P _n ) , the threshold value of which can be set on emfm of their electronic components (P ₁ ... P _n ) in such a way that a predefinable additional signal (AI) can be _{added to the input signal (/ t} ) when the set threshold value is exceeded, such as that the output signal (/,) has a selectable functional dependence on the flow through the measuring tube. 2. Variable area flow meter according to claim 1, characterized in that the on the components> P ₁ ... P _n ) adjustable functional dependence of the output signal (I _A ) on the input signal (/ _t j is chosen such that the output signal (I _A ) changes linearly with the flow in the measuring tube (1). 3. Variable area flow meter according to one of the preceding claims, characterized in that several threshold value-dependent circuit elements (R ₁ , T ₁ , P ₁ ... R _n , T _n , PJ are coupled to one another in such a way that with a steadily increasing input signal ( I _E ) progressively one after the other with successive threshold value-dependent circuit elements (R _n , T _n , P _n ) the threshold value is exceeded and an additional signal (Al _n ) is added to the input signal (I _E ) in each case π depending on the set threshold value , through which the functional dependence of the output signal (I _A ) on the input signal (I _E ) can be influenced. 4. variable area flow meter according to claim 3, characterized in that the SchweHenwert-dependent circuit elements are formed essentially from transistors ( T ₁ ... T _n ) which are connected in series in such a way that the emitter (E _111. ) With the collector ( K _n ) of a following transistor (T.) is connected and its bases (B _n ) each with different stages (R ₁₁ ) of a voltage divider (/ ?,) defining the operating points of the transistors (T ₁ ... T,) .. /? „ _<2 ), whose ends (S ₁ , S ₂ ) are supplied with a supply and voltage. 5. float .Oflowmeter according to claim 4, characterized in that the input signal (/ _£ ) the Si ^ nalwandlerstufe (9) to the transistor chain (T, ... T _n ) on the one hand from the one input terminal (Sb) directly to the Collector (E ₁ ) of the first transistor (T ₁ ) and on the other hand from the other input terminal (8a) each via an adjustable potentiometer (P ₁ ... P _n ) to the emitter (E _n ) of each transistor (7 ", .. . I _n ) ge leads is. , _Λ 6 variable area flow meter according to claim 5, characterized in that the output signal of the signal converter stage (9) is generated by the voltage drop at one of the input terminals (Sa) _{connected to the one voltage supply terminal (S 1} ) and the side connected to the other input terminal (8b) of the first transistor (T) connected to the emitter (e ₁₎ potentiometer (P ₁₎ arranged resistor (R _t:) is formed. 7 variable area flow meter according to one of the preceding claims, characterized in that that the signal converter stage (9) constructed according to the two-wire technology and from one constantly flowing basic current is fed. S variable area flow meter according to claim 7, characterized in that the base current is about 4 milliamperes on the a signal current of up to about 20 milliamperes is built up.