DE3026299C2 - - Google Patents

Description

The invention relates to a permanent magnet system according to the Oberbe handle of claim 1, as both from DE-AS 15 64 315 and also known from DE-AS 12 26 397.

In the manufacture of such permanent magnet systems Permanent magnets either close to each other or in a certain one mutual distance attached to the plate. Be here pre-magnetized permanent magnets are used, so prepare it especially with highly coercive magnetic materials and be especially with small magnets due to the opposite Magnetization and the resulting magnetic forces be difficulties, the neighboring magnets exactly befe next to each other at the desired uniform distance increase.

First become unmagnetic instead of pre-magnetized magnets attached to the plate, so it also prepares significant difficulties that ne on the common plate adjacent parts then in opposite  Magnetize directions optimally. Magnetic work in particular substances with a high coercive field strength require very high dimensions gnetizing field strengths that are so close together the underlying magnetization are difficult to achieve.

The invention has for its object a permanent magnet to create stem that is designed so that on the one hand the Attachment of pre-magnetized magnets to the plate ne difficulties, and that on the other hand be Non-magnetic magnetic parts already attached to the plate can then be optimally magnetized.

This problem finds its solution - starting from a permanent magnet system of the type mentioned - according to the invention by the characterizing part of claim 1. Especially before partial developments of the invention are Chen 2 to 5 characterized in claims.

The invention allows both non-magnetic and be already magnetized permanent magnet parts with the same Magnetization direction on the two parts of the divided Plate are attached and, if necessary, Ma gnetisation by simply plugging the two together Plate parts on which the two groups of in each other opposite directions magnetized permanent magnets be are consolidated, arranged in such a way that each other results in a permanent magnet system in which all permanent magnets have one have optimal magnetization. The invention can with the same advantage for both a parallel and an egg ner annular juxtaposition of permanent magnets a shared split plate are used.

A particularly advantageous connection of the permanent magnets with the second part of the plate results according to the invention,  if the projections on the second plate part as from the plat ten material pressed in the direction of the first plate part flat forms are formed, which only partially are firmly connected to the second plate part and the dhow magnet offer a completely flat mounting surface.

The permanent magnet system according to the invention can be advantageous for Adhesive systems are used.

Preferred embodiments of the invention are in the Drawing shown schematically. Show it

Fig. 1 is a permanent magnet system in a perspective view;

Fig. 2 shows a section through the permanent magnet system according to section line II-II of Fig. 1 in a first embodiment;

Fig. 3 shows a corresponding section through a second guide From form of such a permanent magnet system,

Fig. 4 shows the assembly of the permanent magnet system in auseinan dergezogener representation of its parts,

Fig. 5 is a plan view of a further modified form of a permanent magnet from the guide system,

Fig. 6 is a schematic section through the permanent magnet system according to section line VI-VI of Fig. 5,

Fig. 7 is a further section through the permanent magnet system according to section line VII-VII of Fig. 5,

Fig. 8 is a plan view of a permanent magnet system with several concentrically arranged ring magnets and

Fig. 9 shows a section through this permanent magnet system according to section line IX-IX of Fig. 8.

In the embodiments of the invention shown in the drawing, it is in each case permanent magnet systems with a plurality of permanent magnets 1 , 2 , 2 ', as indicated by the letters ben N and S , magnetized in mutually opposite directions and on a plate 3 with common pole plane 4 are attached side by side.

In all the embodiments of the invention shown, the plate 3 is divided into two to the level 4 of the permanent magnets 1 , 2 , 2 'anein other plate parts 5 , 6 . At the top (5), - the first - the two plate parts 5, 6, only the magnetized in egg ner direction of permanent magnets 1 are fixed, and furthermore, the upper plate member 5 in each case between the attached permanent magnets 1 recesses 5 a on the bottom by the - The second - plate part 6 attached, oppositely magnetized permanent magnets 2 , 2 'gene gene.

As can be seen in FIG. 2, the permanent magnets 1 , 2 attached to the two plates 5 , 6 of the divided plate 3 can have different heights, the permanent magnets 2 attached to the lower plate part 6 having a thickness 7 of the upper plate part 5 greater height or thickness of 2 may have a (Fig. 2) than the fixed to the top plate portion 5 Dau ermagnete 1 with the height of 1 b.

Instead of permanent magnets 1 , 2 of different thicknesses or heights, planar projections 6 a can also project from the lower plate part 6 in the fastening area of the respective permanent magnets 2 , which, as shown in FIGS. 3, 4, 6, 7 and 9, show such a thickness or height 6 b have that they extend to the mounting level 5 b of the permanent magnets 1 arranged on the upper plate part 5 , so that the permanent magnets 2 , 2 'attached to the lower plate part 6 ' have the same height 2 b as the magnets 1 arranged between the upper plate part 5 with the height 1 b . In the preferred embodiment of the invention, the projections 6 a on the lower plate part 6 are pressed out of the plate material upward planar embossments, which are firmly connected only at their two front ends 6 a 'to the material of the lower plate part 6 , in particular the sectional view from Fig. 7 he knows.

While in a parallel juxtaposition of rod magnets, as shown in Fig. 1 to 7, each a partial permanent magnet 1 , 2 of the same or different length can be attached to the two plate parts 5 , 6 of the plate 3 , there is an annular arrangement of more than two concentrically surrounding ring magnets 1 , 2 , 2 '..., as shown in FIGS . 8 and 9, only the possibility, the two inner magnets 1 , 2 and the other attached to the upper plate part 5 further outward magnet Te 1 form as closed rings, while the permanent magnet on the bottom plate part 6 permanently attached permanent magnets are formed as circular ring segments 2 ', the tween their opposite end faces 10 , 11 have such a distance that in this area on the upper plate te 5 each have a radial web portion 12 , which the existing next to the concentric recesses 5 a on the top plate 5 kr ice ring-shaped plate parts connected.

As preferred materials for the permanent magnets 1 , 2 , 2 'come men coercive magnetic materials, in particular of the type barium ferrite and / or samarium-cobalt alloys in question.

Claims (5)

1. Permanent magnet system with a plurality of permanent magnets, which are fastened next to one another on a plate, with adjacent magnets being magnetized in mutually opposite directions, characterized in that the plate ( 3 ) is divided into two plate parts ( 5 , 6 ) parallel to the plane of the plate and that on the first ( 5 ) of the two plate parts ( 5 , 6 ) fixed in one direction magnetized permanent magnets ( 1 ) and between these permanent magnets ( 1 ) recesses ( 5 a ) are present, in the area of which magnetized in the opposite direction and on the second plate part ( 6 ) attached permanent magnets ( 2 , 2 ') are arranged. 2. Permanent magnet system according to claim 1, characterized in that the attached to the second plate part ( 6 ) magnets ( 2 , 2 ') by a material thickness ke ( 7 ) of the first plate part ( 5 ) greater thickness ( 2 a ) perpendicular to the plate plane than the magnets ( 1 ) attached to the first plate part ( 5 ). 3. Permanent magnet system according to claim 1, characterized in that from the second plate part ( 6 ) projections ( 6 a ) for fastening the permanent magnets ( 2 , 2 ') to the fastening plane ( 5 b ) of the permanent magnets arranged on the first plate part ( 5 ) ( 1 ) protrude and that on the two plate parts ( 5 , 6 ) ten th magnets ( 1 , 2 , 2 ') each have the same thickness ( 1 b , 2 b ) perpendicular to the plate plane. 4. Permanent magnet system according to claim 3, characterized in that the projections ( 6 a ) on the second plate part ( 6 ) are formed as pressed out of the plate material in the direction of the first plate part, which are only partially fixed to the second plate part ( 6 ) are connected. 5. Permanent magnet system according to one of claims 1 to 4, characterized in that in an annular arrangement in which the permanent magnets are designed as ring magnets ( 1 , 2 , 2 ') and in which more than two ring magnets ( 1 , 2 , 2 ' ) surround each other concentrically, only the two inner ( 1, 2 ) and the rest of the first plate part ( 5 ) attached magnet ( 1 ) are formed as closed rings, while the radially further externally lying permanent magnets attached to the second plate part ( 6 ) as circular ring segments ( 2 ') are formed, which have such a distance between the circular ring segments that in this area on the first plate part ( 5 ) each have a radial web section ( 12 ) is present, which between the concentric recesses ( 5 a ) existing on the first plate part which connects annular plate sections.