DE343443C - Magnetic zone separator with increasing or decreasing zones in the direction of the flow of raw material - Google Patents

Description

magnetic zone separator with in the direction of the raw material flow Strength increasing or decreasing zones. It is known that with magnetic separators magnetic field in several zones increasing in strength in the direction of the raw material flow to disassemble and the attracted good either collectively or according to its permeability to be discharged separately. The pole subdivided for the purpose of zoning is one common or also subdivided opposite pole, and the Goods are supplied and removed through the field gap. The field gap width is not only dependent on the magnetic properties of the goods, but in any case it must also be larger than the grain size. The good will here with the difference between the attractive forces of the two poles towards the one pole attracted.

The invention relates to a separator in which the field also is divided into several zones, depending on the type in the direction of the raw material flow increase or decrease in strength, and as with the previous zone separators that attracted goods are discharged either together or separately. In contrast to In the previously known zone separators, all magnetic poles are on one side the feeding device.

Magnetic separators are already known in which all magnetic poles lie on one side of the material feed; with these diviners, however, they are not controllable zones are dimensioned the same, creating an equally strong field that is as long as possible is formed and the good attracted in the first field as far as possible from the non-magnetic Should fall well, which incidentally is practically not achieved. at least work these separators are not used as zone separators.

In contrast, according to the invention, the raw material is successively the individual Zones lying on the same side of the material feed are fed and each zone separates part of the raw material. The magnetic material is lifted out in each zone so that the best possible divorce is obtained. In addition, the Zones in terms of their magnetic strength for the separation of raw material after its Permeability can be regulated, whereby the zone fields in the direction of the raw material supply can increase or decrease in magnetic strength. This regulation of the zone field strength takes place here arbitrarily, z. B. by mutual lateral displacement of the the zone poles provided pole shoes or by moving the zone poles against the raw material feed. The lateral displacement of the pole cutting edges is essential Advantage that you can regulate the length of each zone. can, by means of which one has it in hand, the relevant magnetic zone act on each type of property for a certain period of time allow. Also by adjusting the raw material feed in the opposite direction Magnets can partially regulate the effect of the latter on the property. Further can use the zone poles for the purpose of field control arranged to oscillate be. You can also apply several or all types of adjustment combined.

The distance between the cooperating pole pairs is the same with the new separator depends only on the magnetic properties of the good, but not on it Grain size. Such a separator can therefore be of advantage, especially for coarse-grained Good to be applied. With such comparatively heavy grains it is a special advantage of the new Scheider that the cooperating Poles are not with the difference, but rather act with the sum of their attraction. The Separators designed as drum separators as well as ring or belt separators be, so that the removal of the pulled material both in the direction of the raw material flow as well as across to it.

Figs. 1, 2 and 3 of the drawing represent three drum separators different magnetic structure in cross-section. From those shown in Fig. i Zone poles 1, i ', 2 and 3 become the poles i and i' through the coils q. excited. the But excitation can also be done in other ways, e.g. B. only by a coil on one of the four poles, done by coils on poles 3, 1 ', etc. The poles i, i 'and 2 wear laterally displaceable shoes 5, by means of which the zone field strengths are regulated can be. The pole 2 is for the purpose of further regulation against the raw material supply adjustable set up. Pole 3 does not have a control device. Furthermore, the whole magnetic body are rotated in the drum 7 around the pin 6, so that the raw material not only as shown, but also at another point on the discharge drum, if required 7 can be abandoned.

The discharge drum can be made of magnetic or non-magnetic building material consist, or it can alternate magnetic building material with non-magnetic.

The zone fields are here in the direction of the raw material flow Strength set increasing. The weakest zone 2-1 'pulls out of the one in the gutter 8 supplied goods only the most strongly magnetic goods. This is stored on top of it then in zone 1'-3 the weaker and then in the strongest zone 3-1 the weakest magnetic good. The goods are thrown off in such a way that at 9 the non-magnetic, at io and ii weakly magnetic and at 12 the most strongly magnetic good falls. The pole pieces advantageously advertise in the direction of the rotational movement of the drum 7 lying cutting edges, in order to accumulate the lines of force on them. As you can see, the distance between the pole pieces is not related to the grain size. Ex is only from depends on the magnetic properties of the goods.

Fig. Z shows a drum separator with two zone fields. Of the three poles, those 13 and 15 can be adjusted laterally and in height; the pole 1q. is only adjustable in height. There is a weak field between 13 and 15 and a stronger one between 13 and 1q., So that strongly magnetic goods below 15, weak magnetic goods below 1q. is attracted. The material is thrown off again in such a way that the non-magnetic falls off at 9, while the weakly magnetic up to 10, the strongly magnetic up to 12 is carried by the drum 7.

In the case of the drum separator according to Fig. 3, both of its zone fields go through the poles 17-x8 and 16-17 are formed, 16 and z8 are with laterally adjustable Pole shoes 5 provided. The weaker field is set between 17 and 18.

Fig.q. provides a belt separator with four zone fields represents, in which, for example, the Pole ig laterally and adjustable in height, 2o - are only laterally adjustable and 21 are arranged to swing. The material feed takes place in the direction of the arrow through the belt 23 guided over the rollers 22, from to which the non-magnetic material falls on the right. Removal of magnetic grades takes place through the discharge belt 2q running across the belt 23, which is also divided into several Ribbons can be subdivided, optionally with different, the amount of goods to be conveyed can run at an adapted speed.

Fig. 5 shows the transfer of the invention to a multiple separator, in which four zones divided into zones are arranged in a circle, each fed by a Gutszuführurg 8 and by a common discharge device, which has the shape of a rotating disk 25 , to be served. All poles 26, 27, 28 and 29 have laterally adjustable pole pieces. Pole 26 can also be adjusted in height for the purpose of further field control.

In the separator according to Fig. 6 with several fields arranged in a circle .. of two zones each, the pole 29 is excited and carries a laterally adjustable shoe 5. The poles 30 and 31, which are adjustable in height, can also be fitted with such shoes be provided. A zone field is formed between 3i and 29 and between 3o and 29, so that the strongly magnetic material below the pole 31 and the weakly magnetic material between 30 and 29 are attracted and carried away by the common rotating disk 25.

The separator according to Fig. 7 differs from the previous one only in that not every field is excited individually, but that the excitation of all fields arranged in a circle is carried out by an axially located common coil 32, and that only one pole 29 is provided. which carries a number of laterally adjustable shoes 5 corresponding to the number of main fields, while each main field, as before, is provided with two vertically adjustable poles 30 and 31.

The multiple separator according to Fig. 8 differs from the previous ones especially in that no special discharge body is provided here, but that the height-adjustable pole pieces circling under the poles 32, 33 and 34 35 are formed into rings, which at the same time the discharge of the separated material obtain. These rings, which can also be adjusted in height, are in the Circling disk 36, some of which is made of non-magnetic material, is installed. the Poles 32 and 34 can be adjusted in height for the purpose of zone control. The regulation can- both by this alone and by adjusting the rings or by use of both control devices.

The polarity of the fields arranged in a circle can be the same or be alternating. In the first case, the lines of force run only in the radial direction. On the other hand, if the fields have alternating polarity, so that, for example, the outer P0132 a south pole in one field, but a north pole in the neighboring fields lines of force go from every pole of every field in the corresponding one Ring along to the poles of the neighboring fields corresponding to this ring. In this Case it is recommended not to make the rings 35 from one piece, but to form them from individual magnetic pieces created by air gaps or others non-magnetic material are separated from each other. Corresponding ones are then formed small subfields which, as soon as the relevant point emerges from a main field, lose their magnetism quickly so far that they easily throw off the attracted goods. In the arrangement shown, the force of the magnets acting on the rings acts up. To partially or completely cancel this force, one can use the magnetic poles 32, 33 and 34 and the separation rings against each other in such a way that they are in front especially not on the upper horizontal surfaces of the rings 35, but on their vertical ones Side faces act. With appropriately modified feeding and collecting device the device can also be modified so that the magnets 32, 33 and 34 over the then fixed rings 35 revolve.

Fig. 9 is a zone separator with several working fields and with one Discharge drum 38 rotating about a vertical axis. Each main field consists of two zones, which are provided by the poles 39, 40 and 41 are formed. The pole 41 is excited by the coil 4. That through the Channel 8 supplied magnetic material is attracted and when falling through the zones falls between two main fields according to type separately or together, or it is rinsed there or removed from the drum 38 with the aid of other devices.

In the case of the multiple separator shown in Fig. 10, one moves conical, circling feed and discharge body q2 over the fields that are in can generally be generated and controlled in the same way as in Fig. 9.

Instead, as in the case of the separators described, the goods come first If it gets into the weakest and then into the stronger zones, the good can be the strongest Go through zone first. This will be the case with separators who work with free-falling material, z. B. achieved in that attracted by the whole in the first and strongest zone magnetic good only the strongly magnetic good as soon as it falls through the first zone and has got into the weaker zone, diverted from it from its fall trajectory becomes, while the effect on the weakly magnetic material is no longer sufficiently strong is to distract it. This is how the two types of magnetic fall separated from each other and can also be collected separately.

In separators with a movable discharge body, e.g. B. Fig. I to 3, will achieves the same effect, regardless of whether the raw material from below to the discharge body comes up, or whether the magnet is turned and the raw material on top of the discharge body is launched. In the first case, the raw material is only up to the first and strongest Zone where all magnetic goods are attracted. The non-magnetic good falls immediately off the first zone. By rotating the discharge body, the Strongly and weakly magnetic attracted goods from the strongest zone to the weaker one Zone brought where the attraction is less. So falls in this zone Part of the weakest magnetic material attracted in the strongest field and can be absorbed by itself. The still - adhering strongly magnetic good becomes carried on by the discharge body and falls off at another point. on this way one has to do it at adjustable zone fields in hand, to divide the goods attracted in the strongest field into as many types of goods as there are zones are available and to allow each type of estate to diverge as far as desired from the other.

If you put the raw material z. B. on top of the rotating discharge drum, after the magnet in the drum is brought into the appropriate position by rotation is, so one can use the effect of centrifugal force to eject the non-magnetic Use good in the first and strongest zone, while in the following weaker ones Zones partly the weaker magnetic material due to the effect of centrifugal force separated from the strongly magnetic material that is still firmly adhering in the weaker zone will. How flexible and strong one makes each zone that the magnetically attracted runs through depends entirely on the character of the ore and how long you run the magnetic attraction force on the attraction or the falling off of the magnetic Want to make something good work, what with zone fields whose length in the direction of the Gutszuführ or removal of the magnetic material is adjustable, particularly easy can be done.

Claims (7)

PATENT CLAIMS: i. Magnetic zone separator, the zones of which increase or decrease in strength in the direction of the Robgutstromes and are formed by separate poles of a common magnetic yoke body, characterized in that all magnetic poles, which are expediently fully or partially adjustable for the purpose of zone control, lie on one side of the feed device . 2. Magnetic Zone separator according to Claim i, characterized in that the magnetic poles are one above the other are arranged so that the material to be cut from the free fall path in the same direction is attracted separately into strongly and weakly magnetic material. 3. Magnetic zone separator according to claims i and 2, characterized in that the distance between two Magnetic poles can be regulated in one or more zone fields in the direction of the movement of the goods is, so that both the time of the magnetic action on the good and the magnetic strength of each zone adjusted according to the character of the raw material can be. q .. Magnetic zone separator according to claims x to 3, characterized characterized in that the pole pieces, which are used to regulate the zone field length in the direction the movement of the goods are adjustable, also vertically in a manner known per se can be adjusted to move the goods. G. Magnetic zone separator according to the Claims i to q., Characterized in that between the magnet system and the Gutszuführ wholly or partially magnetizable rings are arranged, which circling under the poles of the magnets. 6. Magnetic zone separator according to claim g, characterized in that the magnetic poles (32, 33 and 34) that the rings (3g) influence, change their polarity in the direction of the material feed. 7. Magnetic Zone separator according to Claims 1 to 6, characterized in that the magnetic poles and the separation rings are arranged against one another in such a way that the in in a known manner laterally entering the rings of the vertical force lines magnetic pull on individual or all rings is partially or completely canceled. -