DE10330418A1 - Method for producing a structural unit and arrangement of permanent magnet pole bodies - Google Patents

Abstract

For rational production and mechanical protection of the assemblies and arrangements of permanent magnet pole bodies with a housing and a number of therein permanent magnet pole bodies in separation and lifting magnet is proposed that DOLLAR A a) the housing (1) divided into drawers and with at least one open side (3) is produced, then DOLLAR A b) the drawers (2) are fitted with the permanent magnet pole bodies (5) of at least one of the open sides (3), then DOLLAR A c) the housing (1) both an orderly recording of permanent magnet pole bodies (5) and a mechanical protection of the same from destruction forms and DOLLAR A d) this assembly is connected in a predetermined number with other assemblies, where DOLLAR A f) the so-joined assembly DOLLAR A - a variable pole arrangement, DOLLAR A - an increase of the field gradient and DOLLAR A - an increased force on magnetizable body e and DOLLAR A - allows adjustability of field strength and field gradient.

Description

The The invention relates to a method for producing a structural unit and an array of permanent magnet pole bodies, such as joined blocks for permanent magnet systems for the Separation technology and for the lifting technique can be used.

Corresponding an internal state of the art are for lifting magnets from the corresponding Materials manufactured polar body magnetized, into blocks formed and positioned on an iron circle and then clamped and finally e.g. potted with epoxy resin on the iron circle. For magnetic drums become the magnetized polar bodies first to blocks glued and then connected to the iron circle by gluing.

To curing of the respective adhesive form the polar body with the iron circle one joined Building unit without destruction of the joint assembly no longer solvable is. Adhesive technology has indeed opposite screw connections between Permanent magnet pole bodies and Eisenkreis advantages, but it also has disadvantages due to further constructive changes or rationalization measures are not readily solvable.

So depending on the adhesive to be used, both the adhesive surfaces consuming too prepare as well as the relatively long curing times exactly for reasons of strength observed. About that have to go out e.g. in the required use of materials such as e.g. Ne Fe B for polar body with magnetic drums they are glued together in a single layer, to absorb the high forces acting on magnetic drums. These forces can be so high that exceeded the strength limit of the ceramic permanent magnets and the permanent magnets themselves in their strength structure mechanically peel or peel off.

Present are the technologies in terms of their effort initially not because it is due to suitable or improved joining options to the iron circle was missing.

Would you However, the technology of assembling said polar bodies change so that still unmagnetized polar bodies connected to the magnetic circuit to this block then later Magnetize, are required Wechselpolungen to bring about the desired magnetic parameters no longer feasible.

Finally has also the use of advanced magnetic materials, for Achieving more diverse magnetic properties due to their inherent detrimental Mechanical properties helped make these brittle, brittle polar bodies despite improved bonding technologies in these composites mechanically always endangered or unprotected are.

Consequently There are improvements, on the one hand, to lowering the technological Times in the production of the above-described components to be joined and on the other hand to a mechanical protection of the permanent magnet pole body for the described Scope of application, not nearby.

All in all is thus the further development of such units for lifting magnets and separation magnets impeded. This also in the sense that once with the adhesive technology positioned magnet configurations or mixed systems without costly or loss-free destruction not more changed can be.

The lookout for adjacent or other fields in which permanent magnets are used, such as magnetic motors or transversal flux machines, which serve other purposes and have not comparable functions with the local situation and problem, only shows that, for example, the DE 195 32 614 A1 the there is another technical effect exerting permanent magnet elements in obviously conventional manner with a so-called base part are connected.

There is also the DE 196 05 730 A1 no suggestion of solving the above-discussed problem, even if a solenoid type permanent magnet motor employs a housing in which a number of permanent magnets are accommodated on a removable board. In this case, however, the housing only serves to guide the solenoid valve, and the magnets are also connected to the plate in a conventional manner.

In summary, it remains so, for example, for lifting magnets according to the SU 1 371 709 that better technologies and designs for permanent-pole bodies than the relatively advanced solutions already implemented according to the internal state of the art are not available.

The invention is based on the object, a method for the production of structural units and an arrangement of permanent magnet Polkör Pern for separating magnets and lifting magnets to create the total allow a rational production of the above-defined modules with any magnet configurations and mixing systems of magnets, the magnetic body mechanically protected and non-destructive interchangeable and the finished assembled unit of permanent magnet pole bodies and respective Eisenkreis also advantageous Shows effects with respect to the specific magnetic properties in terms of function as a lifting magnet or separation magnet, for example, a magnetic drum.

• a) das Gehäuse aus nichtmagnetisierbarem Material und in Schubkästen aufgeteilt sowie mit mindestens einer offenen Seite hergestellt wird, danach
• b) die Schubkästen mit den „dicht bei dicht" gestapelten Permanentmagnet-Polkörpern von mindestens einer der offenen Seiten bestückt werden, sodann
• c) die offene Seite mit einer nichtmagnetisierbaren Wand verschlossen wird, so dass
• d) das Gehäuse sowohl eine ordnende Aufnahme beliebiger und auswechselbarer Konfigurationen und Mischsysteme von Permanentmagnet-Polkörpern darstellt als auch einen mechanischen Schutz derselben vor Zerstörung bildet und schließlich
• e) diese Baugruppe in einer vorgegebenen Anzahl mit einer weiteren Baugruppe verbunden wird, wobei
• f) die so gefügte Baueinheit – eine variable Polanordnung, – eine Erhöhung des magnetischen Feldgradienten und – eine erhöhte Kraftwirkung auf magnetisierbare Körper ermöglicht und – eine Einstellbarkeit der Feldstärke und des Feldgradienten zulässt.

According to the invention, a method is proposed for producing an assembly of permanent magnet pole bodies with a housing and a number of permanent magnet pole bodies arranged therein in conjunction with an iron circuit for permanent systems, such as separation magnets and lifting magnets, in which

• a) the housing is made of non-magnetizable material and divided into drawers and made with at least one open side, then
• b) the drawers are fitted with the "close to tight" stacked permanent magnet pole bodies of at least one of the open sides, then
• c) the open side is closed with a non-magnetizable wall, so that
• d) the housing both an orderly recording arbitrary and interchangeable configurations and mixing systems of permanent magnet pole bodies as well as a mechanical protection of the same from destruction forms and finally
• e) this assembly is connected in a predetermined number with another assembly, wherein
• f) the assembly thus joined - a variable pole arrangement, - an increase in the magnetic field gradient and - allows an increased force on magnetizable body and - allows adjustability of the field strength and field gradient.

The Technique is technologically designed so that in dependence from the respective configuration of the poles, the different mixing systems and / or the one occurring by the arrangement, repulsive or attractive forces the order of introduction of the permanent magnet pole body so selectable is that only a minimal amount of effort to overcome the repulsive or attractive forces must be applied.

ever according to purpose, the assemblies are formed with an iron circle for separation magnets, e.g. Magnetic rotors or holding magnets, connected.

to execution of the method, the respective inventive arrangement according to the Features of the claims 4 to 7 designed.

• a) das Gehäuse aus einem nichtmagnetisierbaren Material besteht und Schubkästen für die auswechselbare und/oder stapelbare Aufnahme der Permanentmagnet-Polkörper und mindestens eine zunächst offene und verschließbare Seite aufweist,
• b) das Gehäuse eine abnehm- und verschließbare Wand für die verschließbare Seite besitzt,
• c) die Baugruppe Gehäuse mit entsprechend den jeweiligen Einsatzbedingungen anpassbaren Polungen, Konfigurationen und/oder Systemen von Permanentmagnet-Polkörpern in den Schubkästen bestückt und verschlossen ist und
• d) diese Baugruppe mit einer weiteren Baugruppe verbunden ist, wobei so
• e) diese gefügte Baueinheit folgende Funktionen kombiniert ermöglicht: – Beliebige Magnetkonfigurationen – Polung für hohe Felder, sowohl mit gleichbleibender als auch mit wechselnder Polarität, – eine so genannte N-Q-S-Polung als Querpolung für hohe Feldgradienten-Werte – Mischsysteme aus verschiedenen Permanent-Magnet-Materialien, – zerstörungsfreier Austausch der verschiedenen Systeme.

In this case, the arrangement of an assembly of permanent magnet pole bodies produced by the method mainly comprises the housing and a specific number of permanent magnet pole bodies arranged therein in conjunction with an iron circuit for separation magnets or holding magnets, in which

• a) the housing consists of a non-magnetizable material and has drawers for the exchangeable and / or stackable recording of the permanent magnet pole body and at least one initially open and closable side,
• b) the housing has a removable and closable wall for the closable side,
• c) the housing assembly is fitted and closed according to the respective conditions of use customizable polarities, configurations and / or systems of permanent magnet pole bodies in the drawers, and
• d) this module is connected to a further module, wherein
• e) this assembled unit combines the following functions: - any magnet configuration - polarity for high fields, both with constant and with alternating polarity, - a so-called NQS polarity as a cross-polarity for high field gradient values - mixed systems of different permanent magnets Materials, - non-destructive replacement of various systems.

The Invention provides the premise that such manufactured and / or arranged assemblies of permanent magnet Polkörpern properties be achieved with permanent magnetic separation magnet, the so far could only be achieved with electromagnets.

The Invention causes with surprising simple means and cost-cutting in the possible application areas a mechanical protection and an unfolding of improved magnetic Properties depending on the application.

below The invention will be illustrated by examples of separation magnets for magnetic rotors and lifting magnets explained.

In the drawings demonstrate

• a) in geschnittener Darstellung und
• b) mit verschlossenem Gehäuse,

1 the diagram of an inventive arrangement of permanent Polkörpern as a prefabricated unit,

• a) in a sectional view and
• b) with closed housing,

2 the arrangement of a structural unit according to the invention for a magnetic rotor of a magnetic filter, not shown,

• a) mit gleichbleibender Polarität
• b) mit wechselnder Polarität und
• c) in sogenannter NQS-Anordnung als Querpolung sowie

3 the arrangement of an assembly according to the invention for a lifting magnet,

• a) with constant polarity
• b) with alternating polarity and
• c) in so-called NQS arrangement as a transverse polarity as well

4 the arrangement for a magnet arrangement with interposed cross-polarity.

In 1 is a schematic representation of a unit manufactured according to the method of a housing 1 , the drawers provided therein 2 for receiving the permanent pole body, not shown 5 shown. The housing 1 is made of non-magnetizable material and in a required number of drawers 2 split, with first one page 3 remains open ( 1a ) after being fitted with the permanent magnet pole bodies 5 ( 2 . 3 and 4 ) with a non-magnetizable wall 4 is closed ( 1b ). Thus, the housing exerts both a force-reducing and orderly recording any interchangeable configurations or mixing systems of permanent magnet pole bodies 5 as well as a mechanical protection of the same from destruction or damage. In 1a is shown schematically that the wall 4 with simple means, such as on the housing 1 provided, not designated Biegezargen is closed.

This assembly produced according to the invention is connected in a predetermined according to the intended number with other assemblies and allows for separation magnets and lifting magnets in the sense of the task a variable pole arrangement of the permanent magnet pole body 5 , An increase of the field gradient, an increased force on the magnetizable body and an adjustability of the required field strength and field gradient.

With the inventive solution the basic conditions have been created for the beginning described disadvantages of the prior art are avoided.

Depending on the respective required configuration of the poles and / or the various mixing systems and the repulsive or attractive forces occurring as a result of the arrangement, the order of introduction of the permanent pole bodies becomes 5 chosen so that a minimal effort to overcome the repulsive or attractive forces is applied. The invention allows this, without having to accept the previous disadvantages of the prior art, solely by the division of the housing 1 in drawers in combination with the optional joining or arrangement of the units.

This requires the units with an iron circle 6 , as for separation magnets in the form of magnetic rotors 10 ( 2 and 4 ) or lifting magnets 20 ( 3 ) connected by welding, for example.

Specially in 2 is the example of an arrangement for a magnet rotor 10 of a magnetic filter, which on the one hand recognize the surprisingly simple technological application and structural design for a person skilled in the art and on the other hand can be deduced the resulting high magnetic efficiency.

The invention allows, even with lifting magnet to 3a Units of constant polarity, according to 3b Modules with alternating polarity and accordingly 3c To use assemblies with interposed cross-polarity. It is clear that the invention here with structurally surprisingly simple measures creates a high degree of technological prefabrication and lowers assembly costs and increases the magnetic efficiency.

Finally, it is still in 4 a further variant of the invention with an interposed transverse polarity to the adjacent units shown, which advantageously illustrates the application of magnet arrangements in separation devices.

• – eine rationellere Fertigung und den Austausch der Baugruppen mit beliebigen Magnetkonfigurationen und Mischsystemen und deren mechanischen Schutz sowie
• – eine Verbesserung der magnetischen Wirkungen der jeweils angestrebten Einsatzzwecke.

The invention provides a total for industrial practice in the fulfillment of the task set out

• - A more rational production and replacement of assemblies with any magnet configurations and mixing systems and their mechanical protection and
• - An improvement of the magnetic effects of the respective intended purposes.

1

casing

2

drawer

3

open page

4

wall

5

Permanent magnet pole bodies

6

iron circuit

7

casing 1 with permanent magnet polar bodies in transverse polarity

10

magnet rotor e.g. For magnetic filter

20

Aushebemagnet

Claims (7)

Method for producing an assembly of permanent magnet pole bodies with a housing and a number of permanent magnet pole bodies arranged therein for permanent magnet systems, characterized in that a) the housing ( 1 ) of non-magnetizable material and in drawers ( 2 ) and with at least one open page ( 3 ), then b) the drawers ( 2 ) with the "close to tight" stacked permanent magnet pole bodies ( 5 ) of at least one of the open pages ( 3 ), then c) the open side ( 3 ) with a non-magnetizable wall ( 4 ) is closed so that d) the housing ( 1 ) both an orderly recording of arbitrary and interchangeable configurations or mixing systems of permanent magnet pole bodies ( 5 ) as well as a mechanical protection of the same from destruction forms and finally e) this assembly is connected in a predetermined number with other assemblies, where f) the assembly so joined - a variable pole arrangement, - an increase of the field gradient and - an increased force on allows magnetizable body and - allows for adjustability of the field strength and field gradient. A method according to claim 1, characterized in that depending on the respective configuration of the poles and / or the various mixing systems and the repulsive or attractive forces occurring by the arrangement, the order of introduction of the permanent magnet pole body ( 5 ) is chosen so that a minimal effort to overcome the repulsive or attractive forces is applied. A method according to claim 1 or 2, characterized in that the units formed with an iron circle ( 6 ), as for separation magnets or holding magnets are connected. Arrangement of an assembly of permanent magnet pole bodies for carrying out the method according to claim 1, comprising a housing and a number of permanent magnet pole bodies arranged therein in conjunction with an iron circuit for separation magnets or holding magnets, characterized in that a) the housing ( 1 ) consists of a non-magnetizable material and drawers ( 2 ) for the exchangeable and / or stackable recording of the permanent magnet pole body ( 5 ) and at least one initially open and lockable page ( 3 ), b) the housing ( 1 ) a removable and lockable wall ( 4 ) for the page ( 3 ), c) the assembly housing ( 1 ) with the permanent magnet pole bodies ( 5 ) and customizable poles, configurations and / or systems in the drawers ( 2 ) is equipped and sealed and d) this assembly is connected to another assembly, whereby e) this joined assembly combines the following functions: - Any magnet configurations, - Poling for high fields, both with constant as well as with alternating polarity, - NQS -Polung for high field gradient values, - mixed systems of different permanent magnet materials and / or - non-destructive exchange of different systems. Arrangement according to claim 4, characterized in that the assembly with the iron circle ( 6 ) of separation magnets such as magnetic rotors ( 10 ) and / or lifting magnets ( 20 ) and holding magnet is connected. Arrangement according to claim 4 or 5, characterized in that in magnetic rotors ( 10 ) the assembly of a plurality of parallel interconnected housings ( 1 ) with the respective ones in the drawers ( 2 ) stacked premanent magnetic pole bodies ( 5 ) and the housings ( 1 ) with the iron circle ( 6 ) are connected. Arrangement according to claim 4 or 5, characterized in that in magnetic rotors ( 10 ) between the assemblies of a plurality of radially on the iron circle ( 6 ) arranged housings ( 1 ) with in it in of housing ( 1 ) to housing ( 1 ) changing polarity more housings ( 1 ) in their drawers ( 2 ) stacked permanent magnet pole bodies ( 5 ) in transverse polarity ( 7 ) are provided ( 4 ).