DE964895C - Magnetic shunt for the current iron of an induction counter to improve the error curve - Google Patents

Description

Magnetic shunt for improving the error curve for The current iron of an induction meter Induction meters are used for improvement def moderate sleep sometimes magnetic shunts. So z. B. for the purpose of lifting the error curve in the area of higher counter loads the current drive magnet with a magnetic Shunt provided to the drive flow path. It is this by air gaps from the poles Magnets separated and begins to saturate at a certain load range.

Since the errors of the counters can only be very small and one such Magnetic shunts act in different ways at the individual load levels must, it is very difficult to mass-produce meters without individual measures Obtaining with consistently the same favorable error curves This is made more difficult by the changing magnetic properties of the sheet metal from which the lamellas of the Shunt punched through the different thickness of the sheet and the insulating intermediate layers and the occurring as a result of tool wear Changes in dimensions. Punching out the relatively uncomfortable small slats, their stacking and their connection, because it must z. B. depending on the Thickness of the sheets the number of lamellas can be changed.

The invention avoids these difficulties.

According to the invention, the magnetic shunt consists of a pressed Powder iron with binder.

This offers the following advantages: By sufficient Mixing of powdered iron in larger quantities, the differences in the magnetic ones are the same Properties of the individual particles perfectly, so that the whole batch has the same magnetic properties throughout. The shunts can be caused by the Pressing process can be produced exactly dimensionally. The punching and the wear and tear the punching tools are no longer necessary, as is the lining up and joining of the lamellas.

So you get magnetically and in the dimensions completely identical Shunts and thus has the best guarantee that in mass production in the common group calibration, all meters have the same error curve.

For such small parts that are used to improve the level of error Such cores are well suited because they do not lead to large rivers to have. Making parts of drive systems from powder cores is not advisable, because these are larger rivers and because of the management of these rivers Due to the small permeability, large-scale powder cores would be required. A The previously known proposal in this regard could therefore not be put into practice Find.

Some exemplary embodiments of the invention are shown in the drawing.

Figs. I and 2 show a current drive magnet with a simple magnetic Shunt in two different views, FIGS. 3 and 4 one zone by zone saturating shunt in different views, Fig. 5 one of two different Existing shunt; Fig. 6 shows the permeability of the two. Iron types depending on the field strength; Figs. 7 and 8 show a magnetic Shunt, which forms pole widening at the same time, in two different views; Fig. G shows a similar arrangement, but with a second magnetic one Shunt is attached.

With I is the main current drive magnet, with 2 its winding designated.

In Figs. 1 and 2, a strip 3 pressed from powder iron is below Intermediate layer of magnetically poorly conductive building material 4, such as brass, on the pole flanks appropriate. In Fig. 3 and 4 are between the insert 4 and the shunt 3 still two pieces of sheet iron 5 underneath, which are shorter than half the shunt length. The sheet iron pieces can also be pressed together with the powder iron shunt be. As the load increases, the one between the inner edges of the saturates Sheets 5 lying part of the shunt, then more and more the other parts of the powder iron shunt and the metal sheets 5, so that the saturation zone by zone progresses.

In Fig. 5, the magnetic shunt consists of two strips 3I, 32, the various magnetization or permeability curves 3Io, 320 (Fig. 6) the strip of low permeability is closer to the current poles.

By combining the shunt from two different types Iron types, different magnetization curves can be combined, like this is known in laminated magnetic shunts.

In Figs. 7 and 8, the magnetic shunt 33 forms at the same time Pole widenings 3ß, which have a favorable effect on the error curve.

In Fig. G, the shunt 33 is still another one made of iron powder pressed strip 36, leaving a gap 6, enclosed. Both parts can glued or splashed together. When using different types of iron the magnetization curve can largely be changed again for the two parts. While in FIGS. 7 and 8, the shunt 33 is attached to the pole edges by means of tabs 37 is, it is inserted in Fig. g with projections 38 in keyways of the poles.

The magnetic shunts can be closed in a known manner Molds are pressed using heat and pressure.

A phenolic resin, for example, serves as a binding agent. In certain circumstances it is advisable to use iron powder of various grain sizes in a known manner to work. The small air gaps between the individual iron particles that otherwise reduce the magnetic conductivity in a disturbing way, have an effect when using the press cores as magnetic shunts are advantageous because they are zonewise Favor one after the other saturation of the individual shunt parts, so that the Shunt has an error-improving effect over a larger load range than it does with the previous shunts was the case. According to Fig. IO one can also do without special air gap at the shunt get by by removing all of the necessary Allowing air gap to form through the flow away in the binder of the iron powder.

PATENT APPLICATION I. Magnetic ones serving to improve the error curve Shunt for the current iron of an induction meter, characterized in that that it consists of pressed powder iron with a binder.

Claims (1)

2. shunt according to claim I, characterized in that the from Powder iron pressed shunt attached directly to the current iron without air gap is. Publications considered: German Patent Specifications No. 472 131, 336 507, 7I6473, 742062.