DE736197C - Magnetic holder for measuring instruments based on the Ferrari principle, especially for Ferrari counters - Google Patents

Description

Magnetic holder for measuring instruments based on the Ferraris principle, especially for Ferraris counters Magnetic halogenation based on the Ferraris principle Measuring instruments, especially for Ferrari meters, should b. Take up little space and above all be stable so that the air gap or the air gaps of the magnetic pole pieces not change, neither by momentary nor by long-term temporal influences. In addition comes the fact that in the field of electrical measuring instruments one strives to To use magnets of high coercive force, so magnets from due to great hardness Material that is difficult or impossible to work with, especially material that cannot be drilled.

The invention relates to one based on the Ferrari principle Measuring instruments suitable magnetic holder, which meet the above conditions is equivalent to.

According to the invention, the carrier is off with the new magnet holder a piece of pipe made on two legs, which by one in the axial direction extending recess are formed, opposing magnetic pole pieces wearing. The legs can hold the pole pieces by clamping, or the Pole pieces can be held on the support legs by screws be. The Klemmxnirkullg can be wedge-shaped pieces in the direction of the legs, which are driven between the edges of the support legs.

The pole pieces can also be attached to the Carrier legs not be held.

The section of a pipe that supports the pole pieces of a magnet to use, has the main advantage that the carrier is tight and with little Own space requirement is connected to the shape of the magnetic pole pieces, from which one is conceivable results in a small space requirement for such a magnet holder. The carrier is also extremely stable and completely free from any tension or temperature influences, so that the once determined air gap is preserved once and for all. Also the creation such a carrier is very simple because it is only cut from a profile piece or needs to be cut and partially slit to get its basic shape obtain.

The drawing shows several exemplary embodiments of the invention in FIG more schematic way.

Fig. I illustrates the basic principle; Fig. 2 illustrates a second Embodiment with disassembled items, including Fig. 3 a Compilation is; Fig. 4 shows a third embodiment in cross section; Figures 5, 6 and 7 illustrate different ones on a holder by clamping action based exemplary embodiments; Fig. 8 shows parts of an embodiment that is based on a screw connection of the pole pieces with the support legs, and Fig. 9 shows a further exemplary embodiment representing a screw connection.

According to the first embodiment, I is a section of a square tube. By an axially and parallel to two opposing walls of the Square tube I extending recesso two legs 3 are formed. In these Legs 3 are pole pieces 4 made of magnetic material, for example such a high one Coercive force, used. The parts 4 can, for example, using a Putty to be held on the legs 3. 5 is a hole in the lower wall of the tube 1 for attaching the connecting means between the magnet holder and a structural part of the instrument concerned.

The magnetic pole pieces 4 can be cast and ground, one Processing that is also possible with material with high coercive force.

According to the embodiment according to FIGS. 2 and 3 is in each the leg 3 is the same as the pipe 1 according to the first Ausführungsuiigsbeispiel created carrier a hole 6 is provided. 7 are two pole pieces made of magnetic Material, preferably such a high coercive force, which are placed on edge and have depressions S extending from their pole faces 7a. g is a yoke represent the intermediate piece that fits with lugs 10 in the wells S and has a screw hole (not visible on the drawing).

The yoke g lies between the pole pieces 7 and these between the Edges 11 of the leg 3. One through the hole 6 in the screw hole of the yoke introduced screw 12 presses by means of the approaches lo the pole pieces i on the legs 3 (Fig. 3).

In this example, too, the pole pieces 7 are cast parts accepted. those on their pole faces and advantageously also on those opposite them The front surface is ground. The intermediate yoke piece 9 can be made of metal, for example Brass, or from molding compound, e.g. B. synthetic resin compound, be formed.

According to the embodiment shown in FIG. 4 are prism-shaped Pole pieces 13 by a prism-shaped intermediate piece 1 4 between the edges 1 1 of the leg 3 of the square tube held. The facing each other run here Contact surfaces of the pole pieces 13 and the intermediate piece 14 in the direction transverse to the pole faces of the pole. pieces 13 wedge-shaped, so that by means of the intermediate piece 14 gripping screw 12 a tight fit of the pole pieces 13 on the leg 3 is achieved will.

In the embodiment of FIG. 5, pole pieces 15 are pure Islemmwohlullg held on leg 3 of the support tube Here the edges ii are somewhat inclined inward, and an intermediate piece 16 is corresponding in cross-section weakly wedge-shaped.

However, this intermediate piece is also still in the direction of the pole faces of the pole pieces 15 wedge-shaped, and the fastening of the pole pieces 15 on the leg 3 is achieved by driving the intermediate piece 16 between the pole pieces.

FIG. 6 shows an embodiment according to which the leg 3 a single pole piece r7 is arranged. It has a dovetail cross-section and is somewhat wedge-shaped in the direction of its pole faces 17 ", so that it drifts between the closely speaking inclined edges 1 1 of the leg 3 by the latter Clamping effect is secured.

The embodiment of FIG. 7 represents something in between the versions according to Fig. 5 and 6. The attachment is by pure clamping effect achieved, but when using two pole pieces 18, 19 is a Intermediate piece avoided. The contact surfaces with which the pole pieces 18, 19 lie against one another. run slightly different from the longitudinal direction of the pole pieces, so that when drifting one of the pole pieces between the other pole piece and the edge 1 1 of the Scheukel a wedge effect is created.

According to the embodiment of FIG. 8, there is a single pole piece 20 designed as a block with a central opening 21.

Starting from the pole faces 20a of this block, there are depressions 22 (only the front one is visible on the drawing), in which approaches 23 of a yoke-shaped intermediate piece 24 fit. The same is with a screw hole 25 provided and holds, penetrating the block 20 in the opening 21, this by means of one inserted through a hole 26 of the pipe leg 3, not in the drawing screw shown, lying between the edges 1 1 of the leg 3, on the latter fixed.

This block 20 is also, as is also the case with the pole pieces I3, I5, 17, I8 and 19 are thought to be cast, and he has on the surface 20b with the it rests against the leg 3, depressions 26a, which have the purpose of being reduced in size this area or dissolving the same into several smaller areas this more easily to be able to grind.

In the embodiment according to FIG. 9, there is again a single pole piece 27 made of molded material of high coercive force. This is, at stop edges 28 and the edges II of the pipe leg 3 resting, by means of a screw on the Leg 3 held, the screw 29 protruding through a hole in the part 27 and a nut sits on it, which is seated in a recess 30 on the pole side of part 27 and so does not affect the air gap of the magnet system.

In all the exemplary embodiments described, the pipe section is which forms the carrier of the magnetic pole pieces, thought to be made of a square tube. However, the tube can also have a different cross-section; B. circular or be oval. Accordingly, the magnet holder according to the invention is also suitable for the semicircular magnetic pole pieces that have been used in many cases in recent times, which can be cemented into the legs of the pipe section like the pole pieces according to the first embodiment.

The tube from which the section 1 in the various embodiments is formed, can be metallic, for example made of iron. But CE: s can too be made of molding compound, for example synthetic resin.

PATENT CLAIM SEARCH: r. Magnetic holder for on the Ferrari principle based measuring instruments, in particular for Ferrari meters, characterized in that, that the magnet carrier consists of a piece of pipe that is attached to two legs that through a recess extending in the axial direction are formed, opposite one another Carries magnetic pole pieces.

Claims (1)

2. Magnet holder according to claim 1, characterized in that the Legs hold the pole pieces by clamping. 3. Magnet holder according to claim 1, characterized in that the Pole pieces are held by screws on the legs of the carrier. 4. Magnet holder according to claims I and 3, characterized in that that the pole pieces are held on the legs by the screws via spacers are. 5. Magnet holder according to claims I, 3 and 4, characterized in that that the pole pieces each consist of a block, which is penetrated by a yoke part: which engages under it at its pole face plane. 6. Magnet holder according to claim 1, characterized in that on each leg has two or more pole pieces instead of a one-piece pole piece are appropriate. 7. Magnet holder according to claims 1, 2 and 6, characterized in that that the clamping effect by wedge-shaped in the direction of the legs and between Edges of the support legs driven pieces is effected. 8. Magnet holder according to claims I, 3, 4 and 6, characterized in that that the intermediate pieces held by the screws on the support legs are prisms which, like the pole pieces, are wedge-shaped in the direction transverse to the pin surfaces get lost. 9. Magnet holder according to claims I, 3, 4 and 6, characterized in that that the intermediate pieces are yokes, which are the pole pieces arranged laterally from them reach under their pole faces.