DE198439C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

Vr 198439 CLASS 21 e. GROUP

Measuring device based on the Ferräris principle. Patented in the German Empire on May 2, 1907 .

In the construction of Ferraris measuring devices, the iron core of the shunt magnet was often provided with laterally encompassing legs e , which closed the magnetic circuit except for a narrow air gap and thus formed a magnetic shunt. A large phase shift of the shunt field was thereby achieved from the outset

ίο the main draw.

Such an arrangement shows z. B. Fig. I. Because of various disadvantages, which brought the close approach contacting said magnetic shunt on the rotating disc and the cores of the main current magnets having itself, it has repeatedly given to the motor reaction force lines, as shown in Fig. 2 can be seen through one or more projecting parts (a) the magnet core is separated from the ineffective motor and directed against the armature disk.

However, it is much more expedient to use a shunt magnet, in which the keeping away of the magnetic shunt from the armature disk and the main ^{current magnet is not achieved by means of X 7} steps for the active shunt field, but the separation of the active motor field from the ineffective motor field by a special one or to bring about a plurality of paramagnetic bodies s introduced between the iron core of the shunt magnet and the armature disk.

Such an arrangement with such an inserted body is shown, for example, in FIG. 3.

The advantages of this arrangement are as follows:

1. By moving this insert sideways in the direction of movement of the disk this can generate additional torque to compensate for the friction, so that another starting device is saved.

2. An approximately ¹ * short-circuit ring to be used will advantageously be attached to this'verschiebbaren insert piece and not on the magnetic iron of the shunt magnet, since in the former case only the motor-driven lines of force through the short-circuit ring, the displacement of which is all important, in the Phase are held back, while when the ring is placed on the magnetic iron, the number of considerably larger, non-motorized -55 lines of force or all of the lines of force generated would be shifted in phase.

Since holding back a magnetic field in the phase requires energy, so is the Possibility of low self-consumption of the meter.

One way of attaching such a short-circuit ring is also through the in Fig. 3 sketched example recognizable.

The short-circuit ring also serves to attach the insert to the Base plate of the meter and for holding together the slats from which it is made known causes is established.

3. The attachment of the short-circuit ring on the movable iron piece has the other Advantage that when setting the counter

Claims (3)

for a certain number of periods the exchange of the short-circuit ring in the simplest way Way by inserting a new piece of iron with a differently dimensioned throttle ring can be done without any connection being broken at the meter needs. Godfather NT-A ν Proverbs: i. Measuring device according to Ferrari's principle, in which the core of the shunt stator is provided with laterally encompassing legs that the magnetic circuit except for narrow air gaps close, characterized in that the separation of the effective motor field from the ineffective motor through A special body made of paramagnetic material, arranged between the magnetic iron core and the armature disk, is achieved will. 2. ■ measuring device according to claim i, characterized characterized in that the insert is arranged to be laterally displaceable for the purpose the improvement of the counting range curve with low load and start-up. 3. Measuring device according to claim 1 and 2, characterized in that the for the purpose of achieving a large phase shift Serving short-circuit ring is attached to the insert. 1 sheet of drawings.