DE1291523C2 - Inductive flow meter for liquids in open channels or channels, especially in sewers - Google Patents

Description

I 291 523 ->

1 2

The invention relates to an inductive flow-off waste water quantity also given by a control room remote from the knife for liquids in open channels, Uerin measurement location,
nen or the like, especially in sewers with a. see remote transmission device used. On an electrical winding that generates a magnetic field, the control can be carried out independently of the wire, which is carried out on the measuring location of the medium flowing through.

facing away from the electrodes are arranged, expediently, both electrodes in

to determine the mean flow rate i _{0 of} the channel wall attached or similar to the

as well as with Einrici -. ^ ngen for determining the magnet winding.

Levels, whereby from the widths of the flow- In a further embodiment of the flow-

speed and level the flow rate mes? "rs it is provided that one of the two electric

is determined and displayed in the open channel. the uus several, each with the help of

In known systems Vorrich- already arrived i ₅ stands cascaded partial electrodes obligations apply to the general currents there. Thus, depending on the level of the liquid metering technology are taken. For example, a larger or smaller voltage level was installed in a sewer, an overflow weir was installed, waste was dammed up between the two opposing Elekdas of the sewage stations and the water level was increased. In this way it is possible to use the measures. Such an arrangement requires an additional ₂ o electrode arrangement alone both the flow construction effort and has the disadvantage that the speed through the channel cross-section and the contamination are deposited at the measuring location. the height of the liquid level increases at the same time

It is also known to register the amount of waste water, so that after a suitable calibration

determine by the measuring device directly determining the amount of wastewater at certain time intervals.

Flow profile manually with the help of an impeller 35 averages and displays ν'erden without a

Counter or the like. Is measured. This device requires additional equipment for level determination

gen have the disadvantage that the monitoring is similar. These partial electrodes and the resistors

cannot take place continuously and the measurement and levels can be arranged within the duct wall

Evaluation is very time consuming. being.

Furthermore, inductive flow meters for 30 Da pouring electromagnetic win-pipe currents are known. A magnetic field is generated perpendicular to the cross-fertilization of the pipe in the concrete, which may be difficult to cut, and in addition, if there is no pipe flow, a voltage is induced that causes interference at the exact parallelism of the individual windings, two diametrically arranged in the pipe wall for the electromagnetic field electrodes is tapped. The connecting line of the 35 can arise in the measuring plane, if one electrode is again perpendicular to the direction of the further embodiment only a single turn of the magnetic field. Such a flow meter is also arranged as an electromagnetic flow sensor in the measuring cross section of the electrical winding. While this makes a higher feeding forms were, which also allows the flow of electrical energy necessary, but the trainees Herstelprofil is an arbitrary kind of flow of the flow meter ₄₀ lung greatly simplified
measure up. It is particularly favorable if the coil structure

The invention has for its object to be operated with low voltage, as this provides a

inductive flow meter with the better insulation to earth mentioned at the beginning or on

To create a type that is suitable.

Nen canals, channels or the like prevailing under- _{45 45} can be dispensed with in concrete, so that

different and strongly changing water levels in this way a significant simplification

to be used and also results in the winding wires of the manufacture of the device,

The invention is shown in the drawing with the aid of some

protect, as well as this is illustrated in a simple way on the channel examples. It shows

piece to be attached without interfering with the electrical 50 F i g. 1 a schematic representation of the invented

tric field affects the measurement process. according to the invention in a portion of a

According to the invention, this object is achieved by an open channel, the walls of which are transparent , in that the electrodes are located at the bottom of the channel,

up to the point of the maximum liquid level F i g. 2 shows a cross section through the channel section

extend and the electrical winding wires at 55 according to Fig. 1 in the measuring plane,

or are arranged in the duct wall and also include FIG . 3 shows a cross section in the measuring plane

Another particularly advantageous embodiment runs half of the measuring plane on or in the channel bottom

fen, in such a way that a trough in the flow direction of the invention,

shaped coil structure results. 4 shows a cross section through the measuring plane

The inventive measures 60 of an open channel with a trapezoidal cross-section,

the advantage achieved that the flow of the flow In F i g. 1 is in a rectangular channel 1 «ine

speed-dependent measuring voltage of the inductive- electromagnetic winding 2 cast in, soft

ven flow meter regardless of the height of the at 3 and 4 to one of the transformer 5 controlled

Liquid level can be measured and the entire AC voltage field is connected. the Coil formation or the measuring unit directly in the 65 Kar al 1 is flowed through in the direction of arrow 10. Channel wall, or in a prefabricated channel piece The winding 2 consists essentially of in

can be poured. Furthermore, the possible flow direction running wires 6 or 7,

wedge for constant and safe monitoring of the vertical ducts in the lateral duct walls

of
for <
out of
Pure

are arranged one below the other, so that when an alternating electric field is applied in the measuring plane "ll a magnetic field perpendicular to the direction of flow 10 is generated. Outside the measuring plane and at a sufficient distance therefrom, the wires 6 and 7, respectively, are at right angles to the channel floor bent towards each other and through the perpendicular to the direction of flow in the channel bottom Wires 8 and 9 connected, which in the cezeiaten embodiment parallel to the measuring plane, dJi. perpendicular to the wires 6 and 7 respectively. This results in a view of the flow direction channel-shaped coil structure, which is similar to the one shown here Rectangular channel cross-section adapted and in the channel piece consisting, for example, of concrete 1 is cast.

In a measuring plane, rod-shaped electrodes 12 and 13 are attached to the side of the canal walls and extend from: the bottom of the car: to almost the entire height of the canal walls: - ¹ . Between these two electrodes, ■ in! the movement of the liquid wedge in the direction ■ = <■ '''jiieslO induces a voltage that can serve as a measure of the flow velocity. The advantage is, however, that the liquid acts like a conductor moving in an iras: - 'table field when it flows through the measuring plane;

. L 2 is - schematically shown - a Vo '' -htung 14 for determining the height d '"s^Flü-; -: provided ukeitsspiegels 15, soft beispiels- \ st \ - consist of a float whose kanr .. Ho The display can be electronically transmitted by means not shown to an appropriate controller, on which the voltage values of the voltage given by electrodes 12 and 13 can be registered 13 induced span HUR. Is converted in the voltmeter 19 into remote readings, which are passed through the line 20 to a measuring or conical control room (not shown) A resistance bridge switch can be connected, whereby the deflection necessary to compensate the bridge is caused by a zero motor on the resistance to be adjusted a remote transmission facility, e.g. B. a regulating transformer, or an inductive or photoelectric variable voltage or current source, which sends signals to the control room according to this deflection.

The measuring device shown is adjusted or adjusted by suitable means before it is put into operation calibrated. The winding wires 6 and 7 are behind the electrodes 12 and 13 on their from the flowing Arranged side facing away from the medium.

In Fig. 3, one of the two electrodes is rod-shaped (16), while the opposite Electrode consists of individual partial electrodes 17, which are connected one behind the other via resistors 18 are switched. Depending on the height of the liquid level, there are therefore more or less resistances in the Meßkre'j switched, so that depending on the height of the liquid level 15 a more or less large voltage drop occurs. The resistors 18 connected between the partial electrodes 17 are chosen in their size so that they have about 100 times the fluid resistance. the between the electrodes 16 and 17 induced voltage is in this embodiment via a

Voltage divider measured. The voltage on the voltmeter 19 is linear with the flow rate and depends on the water level. In Fig. 4, an open channel 21 is trapezoidal Cross section shown in which on one side

ίο a rod-shaped electrode 22 is arranged, and on the other hand, partial electrodes 23, which, similar to FIG. 3, have resistors 24 one behind the other are switched, and depending on the water level, a different voltage drop in the measuring circuit

cause. Since the casting of the winding wires 6 or 7 in the concrete can cause difficulties, in the embodiment according to FIG. 4 only one turn 27, each with a piece of wire 25 or Z6 running in the direction of flow for generating the

ao magnetic field provided. It is therefore necessary to generate a certain field strength eir.e larger Current strength to feed, and the field wild in front of all diners near the edges of the canal no be more homogeneous, but rather in direction

direction of the arrows 28 run, but these disadvantages are due to the significantly simpler manufacture outweighed.

Claims (6)

Patent claims: 1. Inductive flow meter for liquids in open channels, channels or the like. In particular in sewers with two extending in a measuring plane and perpendicular to Rod-shaped electrodes standing in the direction of flow and running in the direction of flow, an electrical winding generating a magnetic field Lung wires, which are arranged on the side of the electrodes facing away from the flowing medium are to determine the mean flow rate, as well as with devices for Determination of the level of the medium flowing through the channel, with the values of the The flow rate and the level are determined and the flow rate in the open channel is displayed, characterized in that the electrodes (12,13) from 5 ^ bottom of the channel (1) up to the point of the maximum Extend liquid level and the electrical winding wires (6, 7) on or in the Are arranged in the duct wall and outside the measuring plane (11) on or in the duct floor. fen, dera.i that a flow direction trough-shaped coil structure (2) results. 2. Inductive flow meter according to claim 1, characterized in that for display the flow rate a voltage measuring apparatus (19) including remote electrical transmission equipment serves. 3. Inductive flow meter according to claims 1 and 2, characterized in that that the rod electrodes (12, 13) are also attached in the duct wall. 4. Inductive flow meter according to claims 1 to 3, characterized in that one of the two electrodes (16 or 17) from several partial electrodes, each connected in series with the aid of resistors (18) consists 5. Inductive flow meter according to claims 1 to 4, characterized in that the coil structure (25,26) for generating the magnetic field from just a single turn (27) consists. 6. Inductive flow meter according to claims 1 to 5, characterized in that the coil structure (6 to 9.25 to 27) is operated with low voltage. 1 sheet of drawings