DE1208088B - Flow meter - Google Patents

Description

Flowmeter There are already flowmeters known which one freely rotatable in the axis of a calibrated pipe through which it flows Have fluid screw, this fluid screw through the flowing through Liquid is driven.

The screw is generally stored in two bearings, which are upstream and are arranged downstream of the screw.

In the known devices, a stop is also provided, which absorb the axial thrust exerted on the screw by the liquid Has.

The axial stop creates an undesirable friction generated which reduces the sensitivity of the flow meter; on the other hand the axial stop is used under the action of the adjacent end of the rotor off very quickly. The signs of wear and tear are greater than the axial fluid pressure on the screw is.

The invention is based on the object by the liquid to absorb forces generated in the axial direction in a manner that the above-described Disadvantages are avoided. Starting from a flow meter with a piece of pipe and with a micrometer mounted in this piece of pipe, that is according to the invention Flow meter characterized by at least one magnet near the Micrometer, whose magnetic flux in the axial direction on the micrometer against the thrust acts that a liquid flowing through the pipe section exerts on the micrometer.

In one embodiment of the invention, the flow meter is thereby characterized in that a magnet is combined with a micrometer and that this Magnet arranged opposite at least one other magnet with such polarity is that a stop force counteracting the liquid thrust is generated.

The figures explain the invention. It shows Fig. 1 a longitudinal section through a flow meter according to the invention, FIG. 2 shows a cross section along the line A-A of Figure 1.

The in Fig. I illustrated flowmeter is composed from a pipe section 1, in the inner part of which a calibrated channel 11 is exposed is.

In the calibrated channel i, a screw 2 is mounted, which assumes a speed proportional to the flow rate of the liquid.

The storage of the screw is taken care of by a shaft 3, whose both ends in central storage trestles are stored. With screws 41 and 5> the shaft is held in its axial position.

The bearing blocks 4 and 5 are in turn in the axis of the calibrated Channel 1 arranged centered and held by blade rings 6, which in longitudinal slots the inner wall of the calibrated channel 1 intervene.

The screw 2 is arranged with a concentric to its shaft 3 Magnet 7 of an annular shape combined. In the bearing blocks 4 and 5 are also Ring magnets 8 and 9 are used.

The polarity of the magnets 8 and 9 with respect to the magnet 7 of the screw 2 is chosen so that the magnet 7 counteracts the action by the magnetic forces of the dynamic fluid pressure is held on the shaft 3 and thus the Screw 2.

The two ring magnets 8 and 9 thus play the role of a magnetic one Stop, d. i.e., the screw 2 is held in place without loosening it requires a mechanical stop, which inevitably leads to wear and tear a deceleration would have to lead.

When liquid flows in the direction of arrow F, it is looking for the screw 2 to move the two magnets 7 and 8 closer together. As a result this Approaching the gap between the magnets 7 and 8 decreases, and at the same time the repulsive force that the magnet 8 on the screw 2 combined with increases Magnet wields.

As a result, a state of equilibrium is formed on which the rotating screw adjusts in the axial direction.

The screw 2 thus rotates on the shaft 3 without mechanical axial support, d. H. without wear and without braking.

The magnets 7, 8 and 9 are made of ceramic masses, so that there is no need to worry about eddy current braking of the screw.

Theoretically it is possible to use a magnetic stop alone the use of the magnet 8 to create. Meanwhile, in the embodiment the F i g. 1 in addition to the magnet 8, a magnet 9 is also provided. Both are in the Bearing blocks 4 and 5 of the liquid flow device arranged.

The polarity of the magnets 8 and 9 with respect to the magnet 7 is chosen so that both have a repulsive effect on the magnet 7 and thus the screw 2 exercise. This makes it possible to bring the screw into any position, because it is "suspended" between magnets 8 and 9.

The magnets 8 and 9 can also be controlled by electromagnets magnetic flux are replaced. The controllable magnetic flux can be dependent on from the throughput of the flowmeter.

Claims (6)

Claims: 1. Flow meter with a pipe section and with one stored in this pipe section Micrometer, characterized by at least a magnet (8) in the vicinity of the micrometer (2), whose magnetic flux in the axial direction acts on the micrometer (2) against the thrust that is passed through the pipe section (1) flowing liquid exerts on the micrometer (2). 2. Flow meter according to claim 1, characterized in that a magnet (7) is combined with the micrometer (2) and that this magnet (7) opposite at least one further magnet (8) is arranged with such polarity that one the impact force counteracting the liquid thrust is generated. 3. Flow meter according to one of claims 1 and 2, characterized in that that the micrometer (2) on a fixed, in bearing blocks (6) with both ends held shaft (3) is rotatably mounted. 4. Flow meter according to one of claims 1 to 3, characterized in that that the stop force generating magnets (8) at least partially as ring magnets formed and arranged on the shaft (3) of the micrometer (2). 5. Flow meter according to one of claims 1 to 4, characterized in that that on both sides of the screw (2) a magnet (8 and 9) is arranged, each of which on the magnet (7), which is combined with the micrometer (2) itself, a repelling one Exerts force. 6. Flow meter according to one of claims 1 to 5, characterized in that that the magnets (7, 8 and 9) are made of ceramic mass.