DE209685C - - Google Patents

Description

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IMPERIAL Äf§l

PATENT LETTERING

- M 209685 CLASS 42 e. GROUP

AKTIEN-GESELLSCHAFT vorm. H. MEINEGKE in BRESLAU-CARLOWITZ.

Woltmann water meter.

Patented in the German Empire on April 4, 1906.

The water knives with Woltmann wings are distinguished from all water knives by that they work with a very low pressure loss, as has been the case with all systems so far could not be achieved. The water meter itself, however, could only be used for pipelines so far larger dimensions are used, which as uniform and uniform water flow as possible had to record.

xo For smaller water meters, which the flowing through Measure water at speed limits that are relatively far apart this water knife has not yet been used despite its advantages. This was because that the speed of rotation of the impeller with the speeds not in have the same relationship as with the well-known impeller water meters, in which the Water flows roughly tangentially against the wings.

It made sense to determine the average speed for this Woltmann wing as well and then to calculate the angle of upstroke of the water flowing through it against the wings. The known regulating devices

S5 gen could not be used in the old form can be used with the present water meter. This would also make the main advantage of the Water knife with Woltmann wing, d. i. the slight loss of pressure, has been destroyed again

be. · ·

By their very nature, however, the known regulating devices could not entirely be avoided will. It was only necessary to modify it so that the water only flowed freely was affected to a minor extent. Form the subject of the present invention that is, devices that are based on the same basic idea, but partially in form differ from each other.

The drawing shows some exemplary embodiments of those known in other knife systems Control devices in use with a water meter with Woltmann wing shown. ■ ■.

The control device according to FIGS. 1 and 2 shows blades q, which are rotatable about radially standing pins m, which are located on the one hand in the housing jacket 11 and on the other hand in the bearing 0 of the impeller axle '. If the wings q are parallel to the axis, then the water flow also flows in the direction of the axis through the water meter. If this flow of water does not correspond to the angle of upstroke against the wings, which determines the average speed of all water speeds, then the wings q must be given a more or less inclined position to the axis. This can be done by giving one, several or all of the wings q the required inclination. This gives the water flow in individual branches or also in the whole a direction of movement deviating from the axis. The altered angle of incidence as a result causes a change in the speed of rotation of the impeller w at the various water speeds. It is clear that this enables regulation without throttling the water flow

the gear of the impeller w can be achieved. The wing q is fixed by means of screws p which press against the pin m.

Instead of the wings, according to Fig. 3, short tubes / occur whose effect differs from the wings in that they cannot have a distracting effect on the entirety of the water flow, but only separate individual water jets, so to speak, from the water flow moving the impeller and undermine them Drive another angle of attack against the blades of the impeller. Here, too, the free flow of water is only impaired to a very small extent, but the separated and deflected water jets are sufficient to bring about a change in the speed of the impeller. The fixing of the tubes I takes place in the same way, as indicated above, by means of screws p.

Finally, the embodiment of FIGS. 4 and 5 is explained, which consists in the fact that a pipe socket c is attached in front of the impeller, the interior of which is guided by axially and radially guided and gestell te walls d, which are made of slightly flexible material, in individual chambers is subdivided without the overall cross-section would have been reduced in any significant way by the walls d. These walls d are on the one hand firmly connected to a ring g , which is immovably fixed in the wall of the pipe socket, for example by screws, but on the other hand with a ring h, which is rotatably mounted to a small extent in the pipe socket. This ring has two or more helically extending guide slots c k, through which screws i are screwed into the jacket of the pipe socket c. The regulation is then effected in the following way:

If all partitions d are in the axial direction, the water also flows in this direction through the nozzle and on through the impeller space. If regulation appears necessary, then the rotatable ring is turned a little in the pipe, and the partitions d are given a crooked surface through which the water flow is deflected from the axial direction. The angle of impact of the water flow against the blades of the impeller w is changed in the same way as described above, and thus the speed of the impeller itself. '

It is of course also possible to attach transmission gears so that the individual parts the control device can also be provided externally in a known manner.

Claims (1)

Patent claim: Woltmann water meter, characterized in that in the freely flowing Water flow adjustable deflector bodies of known design are inserted, which parts of the water flow in a direction deviating from the axial direction against the Woltmannfiügel. 1 sheet of drawings.