DE1931543A1 - Measuring device for gases and liquids - Google Patents

Description

Measuring device for gases and liquids The invention relates to measuring devices for gases and liquids, namely so-called turbine meters, in which one of The turbine wheel driven by the flow of the medium to be measured serves as a measuring element, whose number of revolutions is displayed on a display device as a measure of the flow will.

With such turbine knives, the speed of the in the pipeline must be used angoorderon turbine wheel detected and transmitted to the display device. Therefor The most diverse arrangements are known "which, however, usually more or have fewer major defects.

The invention aims at a particularly simple and operationally safe arrangement create, which is also not very expensive. The invention sees for this purpose with a measuring device of the type mentioned for measuring gases, Liquids and the like with one arranged in the flow of the medium to be measured Turbine wheel, the revolutions of which are transferred to a display device as a measure of the flow rate and be indicated by this, before that with the turbine wheel a dependent of the speed of which an oscillator influencing control element is coupled and that detectors responsive to changes in the oscillator are provided, that control the display device. Such an arrangement offers the possibility that The only control element on the turbine shaft is a control flag or disk, a control cam or the like needs to be arranged that or on a in In the immediate vicinity arranged be influenceable part of the oscillator acts. It do not need to transmit any rotary movements through the pipe wall to the outside see below and there are therefore no sealing difficulties, since only electrical Lines need to be led through the pipe wall to the outside. Also need in the flow pipe, apart from the turbine wheel, only the control flag and coupled to it the part of the oscillator that is influenced by this can easily be assessed can be poured liquid-tight in plastic or synthetic resin.

The control disk can control the oscillator in a variety of ways and influence, for example, a frequency-determining part of the oscillator and change its capacitance and / or inductance. You can also by increasing it or reducing the damping change the oscillation amplitude of the oscillator. The Detectors responding to the oscillator changes can, if necessary, have amplifier devices be connected downstream and these in turn can change the oscillator changes detected by the detectors convert into IMpulses that can be forwarded to the display device.

The invention allows the most diverse implementation possibilities. In the drawing, an embodiment is an example with the essentials for understanding Parts shown schematically, namely: Fig. 1 shows the arrangement schematically in longitudinal section through the measuring line and Fig. 2 is a section approximately along line 2-2 of FIG. 1.

In the drawing, a pipeline is illustrated with 11, in which is arranged as a measuring element, a turbine wheel, which is carried by the two blades 12 is indicated. The turbine wheel 12 is rotatable with its shaft 13 at 14 and 15 stored.

On the shaft 13 of the turbine wheel 12 there is also a control flag 16 arranged, which is with each revolution of the turbine wheel 12 through a gap 171 moved in an element 17, which can be designed in a wide variety of ways.

It must only be ensured that by immersing the Control pan 16 in the Spslt of the element 17, which is in a housing that is sealed on all sides an electrical one that can be changed in its electrical values by the control disk Contains component whose electrical value is sufficient for the intended purpose Dimensions is changed. For example, the element 17 can be an inductor are formed, which comprises two partial inductances, which through the gap 171 from each other are separated, so that by immersing the disk 16 in the gap, the total inductance will be changed. This inductance in turn can be a part of the frequency-determining Form a circle of an oscillator 18, they sit through the line 20 connected is so that itself its frequency each time the control disk is immersed 16 in the gap 171 and thus with each revolution of the shaft 13 of the turbine wheel 12 changes. at 19 connected to the oscillator 18 frequency-sensitive detector, For example, an electrical oscillating circuit tuned to the deviation frequency, then delivers an impulse for the display by the with every revolution of the shaft Display device.

For parts 17, 18 and the elements to be connected at 19 manifold, coordinated embodiments in the trade.

Claims (5)

Expectations 1. Meter to measure gases, liquids and the like with a turbine wheel arranged in the flow of the medium to be measured, its revolutions as a measure for the flow transferred to an indicator device and displayed by this are, characterized in that with the turbine wheel a function of whose speed is coupled to an oscillator influencing control element and that detectors responding to the changes in the oscillator are provided, that control the display device. 2. Measuring device according to claim 1, characterized in that the control disc affects the frequency-determining part of the oscillator and its capacity and / or Inductance changes. 3. Measuring device according to claim 1, characterized in that the control disc affects the oscillation amplitude of the oscillator. 4. Measuring device according to claim 1, 2 or 3, characterized in that the detectors responsive to the oscillator changes are amplifying devices are downstream. 5. Measuring device according to claim 4, characterized in that the amplifier devices the oscillator changes detected by the detectors can be passed on to the display device Convert impulses. L e r s e i t e