DE3216353A1 - Method for aligning the magnetic axis to the geometric axis of bar magnets - Google Patents

Abstract

The invention relates to a method for aligning the magnetic axis of a cylindrical or cubic bar magnet to its geometric axis, in which method in each case at least one ferromagnetic pole piece is pushed or rotated so far on the pole surface or surfaces of the bar magnet that the magnetic axis lies on the geometric axis. Furthermore, the invention relates to a cylindrical bar magnet having means for aligning the magnetic axis to the geometric axis, at least one ferromagnetic pole piece with a smaller outline than the bar magnet pole surface being inserted such that it can be displaced radially in a pot consisting of material which cannot be magnetised and is inverted over the end or ends of the bar magnet. Alternatively, two pole pieces, having contact surfaces running obliquely with respect to the axis of the bar magnet, are placed one on top of the other on the pole surface of the bar magnet such that they can rotate with respect to one another and with respect to the pole surface.

Description

Procedure for aligning the magnetic axis with the

geometric axis of bar magnets.

The invention relates to a method for aligning the magnetic Axis of a cylindrical or cubic bar magnet on its geometric axis and bar magnets having means for performing this alignment.

Bar magnets with a round or square cross-section can be found in a wide variety Wise application. Due to production-related influences, e.g. inclusions or cavities in the magnet, unevenly ground surfaces or imperfect execution the heat treatment as well as non-linear magnetization fields that occur in series production cannot be ruled out, the magnetic axis is often not on the geometric axis Axis. However, this is used in certain applications, e.g. in the rotors of flowmeters, demands. In these cases one has so far helped oneself in such a way that one only such magnets used whose magnetic axis was on the geometric axis. The remaining magnets were either used for other purposes or scrapped.

The invention is now based on the object of taking measures and to specify means that make it possible to use such bar magnets make where the magnetic axis is different from the geometric axis of the bar magnet deviates in this way an expensive sorting out only of the well-found Avoid bar magnets.

To solve this problem is arorgeschlagen according to the invention, at least one on the pole face or faces of the bar magnet ferromagnetic To move the pole piece with a smaller outline than that of the bar magnet pole face, until the magnetic axis coincides with the geometric axis. That way you can bar magnets can also be used with relatively simple means, whose magnetic axis was not originally on the geometric axis. A prerequisite for the measure according to the invention is a measurement of the position of the magnetic Axis. If a deviation from the position of the geometric axis is determined, then by the proposed according to the invention moving a pole piece on the pole face of the bar magnet brought the magnetic axis into congruence with the geometric axis will. The pole piece can be at the point in question, e.g. B. by gluing permanently be connected to the bar magnet.

According to a preferred embodiment of the invention is in one cylindrical bar magnets in a pot made of non-magnetizable material, the is placed over the end or the ends of the bar magnet, at least one ferromagnetic Pole piece of smaller outline than that of the Stnbm¼gnet-Pofläehe radially displaceable used. By turning the pot in relation to the bar magnet, the position of the pole piece in the circumferential direction of the pole face.

By moving the pole piece radially, e.g. along a radial slot in the bottom of the pot, through which an approach of the pole piece is led to the outside, the Radial position of the pole piece on the bar magnet pole face can be changed. By the pot can be permanently attached to the bar magnet by suitable means. By suitable clamping connections can be the set position of the pole piece relative to the Pot and that of the pot are fixed in relation to the bar magnet.

According to another preferred embodiment of the invention are at a cylindrical bar magnet on its pole face two at an angle to the bar magnet axis running contact surfaces, against each other and opposite the bar magnet pole face rotatable pole pieces placed one on top of the other. In this embodiment the outline corresponds of the two pole pieces that of the bar magnet. By twisting the wedge-shaped pole pieces against each other and possibly against the bar magnet can its magnetic on his geometrical axis can be aligned. This version can also be used simple structural design a permanent connection between the bar magnet and reach the pole pieces. For example, a central pin can be attached to the bar magnet be attached, which extends through center brackets in the pole pieces and around which the pole pieces are rotatable.

The pole pieces be fixed in the adjusted position opposite the bar magnet.

The invention is explained in more detail with the aid of the drawing. Show it Fig. 1 schematically shows a flow meter with a rotating built into a line Bar magnet, FIG. 2 shows an embodiment of a bar magnet according to the invention with means for aligning the magnetic on the geometric axis and Fig. 3 another embodiment of a cylindrical bar magnet with pole pieces for aligning the magnetic to the geometric axis.

A rotating bar magnet 2 is inserted into a pipe 1, whose magnetic and geometric axis 3 must be aligned.

The flow measurement is indicated via the pointer 5 via a driving magnet 4 on the scale 6.

According to FIG. 2, over one or both ends of the bar magnet 2 a pot 7 made of non-magnetizable material, e.g. 13. Plastic, with its edge put inside. In the pot 7 is a ferromagnetic pole piece 8 along a slot 9 inserted in the pot 7 in a radially displaceable manner on the pole face 10 of the bar magnet 2. The pot 7 is rotatable in the direction of arrow 11 relative to the bar magnet 2 and thus the circumferential position of the pole piece 8 on the pole face 10.

By radial displacement of the pole piece 8 relative to the pot 7 in the direction of the arrow 12, the radial position of the pole piece 8 on the pole face 10 can be changed. The location of the pole piece 8, in which the magnetic with the geometric axis of the bar magnet 2 coincides, can be fixed by simple structural means not shown will.

In the embodiment according to Fig. 3 are on the pole face 10 of the cylindrical Bar magnets 2 two pole pieces 13, 14 placed one on top of the other.

The pole pieces 13, 14 have the same diameter as the bar magnet 2 and are beveled in a wedge shape on their contact surfaces 15. By twisting of the pole pieces 13, 14> e.g. made of soft iron, facing each other in the direction of arrow 16 and possibly also with respect to the bar magnet 2, its magnetic axis can be congruent Bring position with its geometric axis.

Claims (3)

Claims 1. ffi method for aligning the magnetic axis of a cylindrical or cubic bar magnet on its geometric axis, thereby characterized in that on dex or the pole faces of the bar magnet in each case at least a ferromagnetic pole piece is shifted or twisted until the magnetic lies on the geometric axis. 2, Cylindrical bar magnet with means for aligning the magnetic on the geometric axis, characterized in that in a pot (?) made of non-magnetizable Material that is slipped over the end or the ends of the bar magnet (2), at least a ferromagnetic pole piece (8) of smaller outline than that of the bar magnet pole face (10) is inserted radially displaceable. 3. Cylindrical bar magnet with means for aligning the magnetic on its geometric axis, characterized in that on its pole face (10) two pole pieces provided with the contact surfaces (15) extending obliquely to its axis (13, 14) placed one on top of the other and rotatable with respect to the pole face (10) are.