DE3615186C2 - - Google Patents

Description

The invention relates to an electro-spreading magnet system for stacked Iron sheets consisting of a U- or E-shaped iron core made by a yoke and protruding pole shafts is formed, the pole current-carrying windings surrounding the shafts, and one the pole shafts covering non-magnetizable plate.

By a Such a magnet arrangement generates electromagnetic fields that repulsive forces between adjacent ones in an iron sheet stack Generate iron sheets, thereby spreading the stacked iron sheets, d. H. be kept apart.

Permanent magnetic spreading magnets are known, which have the same polarity of the sheets magnetize and thus generate repulsive forces between the sheets (US-PS 17 16 602). This effect is used to separate iron sheets.

In known electro-spreading magnets, problems result from the fact that the iron sheet stack a magnetic short circuit, especially in lower part, where the stacked sheets are not spread, at Spreading magnet system generated. Thus, the sheet spreading effect becomes strong reduced, and only sheet metal stacks with low stack heights can be used be effectively spread.

The invention has for its object an electro spreading magnet to develop a system that allows higher sheet stacks to be effective to spread.

According to the invention, an electro-spreading magnet is used to achieve this object System proposed with the features of claim 1. Preferred Refinements are characterized in the subclaims. That invented The electrical spreading magnet system according to the invention solves the task, because due to the segmented construction of the pole shafts and pole shoes there is no magnetic short circuit in the expansion magnet system as in known magnet systems impact.  

The air gaps between the pole shafts and pole shoes act a magnetic short circuit within the magnet system opposite.

In the drawing are exemplary embodiments of the invention Electro-spreading magnet system shown. It shows

Fig. 1 is a plan view of a Elektrospreizmagnetsystems of U-shaped iron core,

Fig. 2 shows a section AA of the system of Fig. 1,

Fig. 3 is a section BB of the system of Fig. 1,

Fig. 4 shows a cross section of a system having an E-shaped iron core,

FIG. 4a is a plan view of a system having an E-shaped iron core,

FIG. 5 shows a top view of a sheet stack with the electro-spreading magnet system and arranged laterally therefrom

Fig. 6 is a view of the stack of sheets with a laterally arranged electro spreading magnet system.

The same parts are in the different figures with the same reference characters. Designate it

1 - Eisenjoch
2 - pole shank
3 -pole shoe
4 - non-magnetic cover plate
5 - encapsulation (non-magnetizable material)
6 - live winding
7 - air gap
8 - pole face.

The individual pole pieces 3 and pole shafts 2 are segmented in the axial direction of the magnet system with the formation of air gaps 7 and thus magnetically decoupled in such a way that the magnetic flux generated by the upper poles is not sucked off into the lower pole and sheet iron areas.

Particularly flawless spreading of the sheets with higher sheets stacking is achieved if the following distances are observed:

L _ab = 1 to 8 mm,
L _seg = 20 to 50 mm,
L _sp = 2 to 8 mm.

If these dimensioning regulations are observed, a magnetic short circuit can be avoided with certainty. The additional air gap L _Sp , which can be set with the non-magnetic cover plate 4 , also counteracts the magnetic short circuit. In order to exclude any influence from the winding head forth, it is preferable in the invention, the pole pieces 3a on both end sides of the system over the pole shaft 2 extend to allow (Fig. 1). As a result, a good sheet spread is achieved up to the last (top) sheets.

Claims (3)

1. electro-spreading magnet system for stacked iron sheets, consisting of a U-shaped or E-shaped iron core, which is formed by a yoke and pole shafts projecting therefrom, windings flowing through current flowing around the pole shafts, and a non-magnetisable plate covering the pole shafts, characterized in that that the pole shafts ( 2 ) are segmented in the vertical direction to form air gaps ( 7 ). 2. Elektrospreizmagnetsystem according to claim 1, characterized in that the pole face of the pole shafts ( 2 ) are covered by in the same way segmented pole pieces ( 3, 3 a) and that the distance (L _ab ) between the adjacent segmented pole shafts ( 2 ) and pole pieces ( 3 ) is 1 to 8 mm and the segment length (L _seg ) of the pole shafts ( 2 ) and pole shoes ( 3 ) is 20 to 50 mm and the distance (L _Sp ) between the surface of the pole shoes ( 3 ) and the pole face ( 8 ) Is 1 to 8 mm. 3. Elektrospreizmagnetsystem according to claim 1 or 2, characterized in that each pole piece ( 3 a) protrudes laterally on both ends of the system on the pole shaft ( 2 ).