DE19940269A1 - Sieve, comprises numerous rod members arranged in parallel in a frame, with a permanent magnet in some of the rods. - Google Patents

Abstract

A sieve arrangement comprises numerous sieve rod members arranged in parallel in a sieve frame. At least some of the rods (3) have a rod shaped permanent magnet (4) which is used to separate out magnetisable fractions.

Description

The invention relates to a screening device with several a screen covering arranged in parallel on a screen frame forming sieve bars.

Such screening devices are such. B. in the form of rod or finger sieves known. While in the former case the sieve bars forming the screen covering on both sides on Sieve frames are attached, the sieve bars are in last mentioned case attached on one side to the sieve frame and first also cover essentially the entire, from Sieve frame spanned sieve surface. The sieve bars can firmly connected to the sieve frame or also swingable the sieve frame and be arranged with a vibrator gan be connected to the generation of forced vibrations. Alternatively, the sieve bars can also be fixed with a medium of a vibration process that can be set in vibration Support frame to be connected. Screening device designed in this way are also known as vibrating screens.

A bulk material screened by means of such screening devices is broken down into two grain size classes, the so-called te separation grain size determined by the distance of the sieve bars  becomes. Particles contained in the bulk material a smaller part in terms of the distance between the sieve bars grain diameter (fine grain) pass through the sieve bars of the sieve topping, while particles with a distance the sieve bars have larger particle diameters (coarse grain) remain on the screen.

With conventional screening devices of the type mentioned it is not possible to use a magne contained in the bulk material tisizable fraction, e.g. B. particles, chips, workpieces or other parts made of a ferromagnetic material or egg nem to separate such a material.

The invention has for its object a Siebvorrich training of the type mentioned at the outset to the effect that that a magne contained in a checked bulk tisizable fraction is separable from the bulk material.

According to the invention, this object is achieved with a screen device tion of the type mentioned solved in that in at least some tubular sieve bars each an essentially rod-shaped permanent magnet for Sepa a magnetisable ba contained in a bulk material ren fraction can be introduced.

It is possible by means of the screening device according to the invention Lich, a magnetizable contained in a bulk Fraction - regardless of their particle size - to separate from the sieve passage (fine grain) by this Fraction through which from the into the tubular Sieve bars introduced, rod-shaped permanent magnets be magnetic field is attracted and to the sieve bars sticks while the non-magnetizable fine grain Screen covering happens. The rod-shaped Parmanentmagnete  enforce the tubular sieve bars appropriately essentially along its entire length.

To remove the magneti adhering to the sieve bars The bar-shaped permanent magnets are a fraction that can be formed can be brought out of the sieve bars, which causes the magneti separable fraction from the sieve bars and depending on par particle size passes through the screen surface or back on it remains. The screening device according to the invention is in particular suitable for sieving abrasive grains, which contaminated by metal particles, chips or workpieces are to separate them from the impurities and to reuse.

Depending on the type of bulk material to be screened, the pipe shaped sieve bars made of a ferromagnetic or egg consist of a non-ferromagnetic material. In the first named case, the magnetic field enters the sieve bars brought permanent magnets reinforced, so that the invented sieving device according to the invention, in particular for separation larger or heavier particles of a magnetizable Fraction is suitable. For separating small or light ter particles of a magnetizable contained in the bulk material The sieve bars can also be made from any fraction non-ferromagnetic material, e.g. B. made of plastic, be stand.

In a preferred embodiment it is provided that the tubular sieve rods of the sieve topping alternately are arranged and between two tubular sieve bars ben the bulk material at the same distance from them the rod-shaped element guiding the tubular sieve bars see is. Due to the alternating arrangement tubular sieve bars equally spaced bars the magnetizable elements contained in the bulk material  Particles closer to the tubular sieve bars introduced to - when the permanent magnets are inserted in the sieve bars - attached to them. On the other hand prevents magnetizable particles of the bulk material between two adjacent sieve bars inserted into them brought permanent magnets and get the same from these be strongly tightened so that they pass through the screen surface.

The longitudinal central axes of the tubular are expedient Sieve bars and the bar elements arranged in one plane, wherein the diameter of the rod elements is preferably smaller than the diameter of the tubular sieve bars. Such the sieve area spanned by the sieve frame is optimal exploited.

Both the tubular sieve bars and the bar elements preferably have a round cross section to a Ver the screen is blocked by wedging sharp-edged ones and abrasive grains between sieve bars and bar elements largely prevent. To wear the screen to reduce lag, the tubular sieve bars and the rod elements preferably in a manner known per se Plastic coating, especially made of polyurethane.

A preferred embodiment provides that the in tubular sieve rods can be inserted rod-shaped gene permanent magnets to form a magnetization unit are interconnected. In this case points the magnetization unit is preferably at least one connected on the face side with the rod-shaped permanent magnets denes holding element, so that the rod-shaped permanent magnets of the magnetization unit together in the tube shaped sieve bars can be introduced or removed from these are. A preferred embodiment is a motor drive  for inserting and removing the rod-shaped permanent magnets provided in or out of the tubular sieve bars (s).

The invention is based on a preferred Aus leadership form with reference to drawings tert. Show:

Fig. 1 is a schematic side view of a screening device according to the Invention and

Fig. 2 is a schematic plan view of a Siebvorrich device with a magnetization unit which can be inserted into tubular sieve bars.

The screening apparatus 1 shown in FIG. 1 has a screen frame 6 with a hopper 7 and a Siebbe was 2. The sieve covering 2 is formed by a plurality of alternately arranged tubular sieve bars 3 and by these rod elements 5 which are each equally spaced apart. The longitudinal central axes of the tubular sieve bars 3 and the bar elements 5 are arranged in a plane 8 . The sieve rods 3 and the rod elements 5 have a circular cross section, the diameter d of the rod elements 5 of the embodiment shown corresponding to approximately a quarter of the diameter of the tubular sieve rods 3 . The screen covering 2 is preferably provided with a (not shown) low-wear plastic coating. The separation grain size is determined by the width of the sieve openings or the distance s between the tubular sieve bars 3 and the rod elements 5 .

As can be seen from FIG. 2, a substantially rod-shaped permanent magnet 4 can be introduced into the tubular sieve rods 3 in order to separate a magnetizable fraction from the fine grain contained in a bulk material. When introducing the permanent magnets 4 into the tubular sieve bars 3 (arrow 11 ), the permanent magnets 4 pass through the sieve bars 3 essentially over their entire length 1 in order to always ensure a sufficient magnetic field for separating the magnetisable fraction from the bulk material. Depending on the type of magnetizable franking to be separated, the sieve bars 3 can consist of a non-ferromagnetic material or preferably of a ferromagnetic material in order to reinforce the magnetic field of the permanent magnets 4 .

The permanent magnets 4 are connected to form a magnetization unit at the end with a holding element 10 , the z. B. screwed so that the permanent magnets 4 of the magnetization unit 9 together in the sieve bars 3 can be brought or brought out from these (arrow 11 ). A motor drive (not shown) for the magnetization unit 9 is provided for this.

Reference list

1

Screening device

2nd

Screen covering

3rd

tubular sieve bar

4th

rod-shaped permanent magnet

5

Bar element

6

Screen frame

7

Filling judge

8th

level

9

Magnetization unit

10th

Holding element

11

Directional arrow

1

Length of the sieve bars
d diameter of the rod elements
D diameter of the sieve bars
s Distance between sieve bars and bar elements

Claims (14)

1. Sieving device with a plurality of sieve bars arranged in parallel on a sieve frame, forming a sieve covering, characterized in that an essentially rod-shaped permanent magnet ( 4 ) for separating a magnetizable fraction contained in a bulk material can be introduced into at least some tubular sieve bars ( 3 ) is. 2. Screening device according to claim 1, characterized in that the rod-shaped permanent magnets ( 4 ) in the tubular sieve rods ( 3 ) these can be introduced essentially over their entire length ( 1 ). 3. Screening device according to claim 2, characterized in that the tubular sieve bars ( 3 ) consist of a ferromagnetic material. 4. Screening device according to claim 1 or 2, characterized in that the tubular sieve bars ( 3 ) consist of a non-ferromagnetic material. 5. Screening device according to one of claims 1 to 4, characterized in that the tubular sieve bars ( 3 ) of the screen covering ( 2 ) are alternately angeord net and between two tubular sieve bars ( 3 ) at the same distance (s) from the same a rod element ( 5 ) is provided to guide the bulk material to the tubular sieve bars ( 2 ). 6. Screening device according to claim 5, characterized in that the longitudinal central axes of the tubular sieve rods ( 3 ) and the rod elements ( 5 ) are arranged in one plane ( 8 ). 7. Screening device according to claim 5 or 6, characterized in that the diameter (d) of the Stabelemen te ( 5 ) is smaller than the diameter (D) of the tubular sieve rods ( 3 ). 8. Screening device according to one of claims 1 to 7, characterized in that the tubular sieve bars ( 3 ) have a round cross section. 9. Screening device according to one of claims 1 to 8, characterized in that the rod elements ( 5 ) have a round cross section. 10. Screening device according to one of claims 1 to 9, characterized in that the tubular sieve bars ( 3 ) and the bar elements ( 5 ) have a plastic coating, in particular made of polyurethane. 11. Screening device according to one of claims 1 to 10, characterized in that the rod-shaped permanent magnets ( 4 ) are interconnected to form a magnetization unit ( 9 ). 12. Screening device according to claim 11, characterized in that the magnetization unit ( 9 ) has at least one end face with the rod-shaped permanent magnet ( 4 ) connected holding element ( 10 ). 13. Screening device according to claim 11 or 12, characterized in that the rod-shaped permanent magnets ( 4 ) of the magnetization unit ( 9 ) together in the tubular sieve bars ( 3 ) can be introduced or from which sen can be brought out. 14. Screening device according to claim 12 or 13, characterized in that a motor drive for inserting or removing the rod-shaped permanent magnets ( 4 ) in or out of the tubular sieve bars (s) ( 3 ) is provided.