DE2052516A1 - - Google Patents

Description

Conveyor arrangement for the transport of magnetic articles, in particular for diverting magnetic metal chips from cooling or lubricating emulsions Die The invention relates to a conveyor arrangement for transporting magnetic articles from a first location to a second location, and in particular for transport of magnetic metal chips, which are in a cooling resp.

Lubricating emulsion are included.

Usually prepares the removal of magnetic particles and especially of magnetic chips from a liquid, such as a cutting and cooling emulsion, difficulties. If no suitable sieves are available for this, for example, once a liquid has been used, it cannot be used again. One Reuse of such a liquid would be particularly in the case of Meaning that this liquid is on the one hand Cooling resp. Lubricating liquid or emulsion is.

The invention is accordingly based on the object to show an eg like magnetic particles and especially in a lubricating or cooling liquid contained magnetic metal chips, from a first point to a second point can be funded.

The object indicated above is achieved with a conveyor arrangement of the type mentioned according to the invention in that in one of a non-magnetic Material existing pipe is housed a conveying element with magnetic poles, from each of which has dissimilar poles spaced from one another along at least one Helical path are arranged in succession so that they are close to the End pipe inner wall and according to the shape of the path of their .Arrangement on a Rotation of the conveying element relative to the pipe magnetic particles around the outside of the pipe permit to be transported.

The invention has the advantage that it is relatively simple wise ferromagnetic particles and especially in a lubricating or cooling liquid contained magnetic metal chips from a first location, such as a corresponding one Acceptance of a machine tool, allowed to be transported to a second location. In this way it is possible to use a cooling system containing magnetic metal chips. or to free the lubricant from ferromagnetic metal chips. Through this the liquid or emulsion in question can then be used several times.

According to an advantageous embodiment of the invention, when using of at least two tracks of diametrically opposite one another on the conveying element Magnetic poles These magnetic poles are formed by the north or south pole of a star magnet. This results in a particularly simple construction when using a relatively small number of magnetic pole helical paths.

According to another expedient embodiment of the invention, can along a magnetic pole helical cock in a specific direction each directly consecutive north and south poles each through the north or South Pole a horseshoe magnet.

As a result, it is possible in a relatively simple manner to adjust the conveying element to be provided with a relatively large number of magnetic pole helical paths.

According to yet another useful embodiment of the invention can at least two tubes with a conveyor element located therein, if necessary Spaced apart. This is a simple way of creating a Large conveyor arrangement for the transport of maanetic particles achieved.

The invention is explained in more detail below with reference to drawings.

Fig. 1 shows a conveyor arrangement according to the invention partially in section.

Fig. 2 shows an enlarged sectional view of the conveyor arrangement according to vig. 1 when using magnets arranged in a single helical path.

Pig. 3 shows the conveyor arrangement in an enlarged sectional view according to Fig. 1 when using rod mannequins for the formation of two magnetic pole helical paths.

The conveyor arrangement shown in Fig. 1 consists essentially from a non-magnetic tube 1, in which a tube 2 here also contains Conveying element 2 is added. The tube 1 is at one end with one Drive motor 12 attached.

A drive shaft 11 of the motor 12 is fixed by a flange part 10 recorded, which is firmly inserted into the pipe 2 belonging to the conveying element 2. At the other end, the tube 1 is sealed by a flange 14 in which there is only one opening for receiving a pin 13, which is on the the end of the tube 2 opposite the previously considered end is provided0 The ear 2 forming the conveying element 2 is thus able to move inside the tube 1 to turn. This rotation is brought about by the plotor 12 via the drive shaft 11.

In the tube 2 are alternating along a helical path Follow north and south poles 3 arranged by corresponding magnets. In Fig. 1 indicated such a helical path. However, it is as it was at the beginning mentioned possible, a plurality of such helical paths or along such North and south poles arranged in alternating order are to be provided for orbits. Will be there the Tfagnetpole 3 carrying tube 2 at a sufficiently high speed in the Tube 1 rotated, so are along the respective magnetic pole cam in the area of individual magnetic poles 3 on the outside of the tube 1 adhering magnetic particles Hike along the curved path in question.

Are the magnetic poles 3 on a left-handed helical line arranged, causes a left-hand rotation of the tube carrying these magnetic poles 3, that the magnetic particles in such a direction along the helical path are moved in the opposite direction to the direction is along the the relevant magnetic poles in the assumed "left-handed" helical path get lost. If the direction of rotation is reversed in the arrangement in question, then also the magnetic particles in the other direction along the helical path moved than before The reason for the transport of the magnetic particles along the Helical cock can be made plausible if one assumes that it is from one Magnetic pole 3 held magnetic particles with sufficiently fast rotation of the tube 2 containing the relevant magnetic poles 3 due to the friction of this movement on the outside of the pipe 1 are not able to follow immediately, but already in the vicinity of an adjacent magnetic pole 3 can then be more easily attracted than from the magnetic pole to which they were previously attracted In this context notes that the slope of the magnetnol helix containing the individual magnetic poles a slope of 45 ° has proven particularly useful. The distance of each Magnetic poles from one another are expediently chosen to be 25 mm.

It should be noted that this distance depends on both the relative speed between the tubes 1 and 2 as well as on the strength of the magnets used.

The arrangement shown in Fig. 1 also includes the lower At the end of a collecting ear 16, through which it is possible to collect the magnetic particles or Simply bring magnetic chips to the outside of the pipe 1. Here is incidentally when using the relevant arrangement for the derivation of magnetic Metal chips from a cooling and lubricating emulsion in a machine tool better filtering of the emulsion in question is achieved. The funding order in question Also has a scraper 17 on its upper onde along the magnetic pole helical path magnetic particles transported from the ear 1.

In addition to the elements considered, Pig. 1 still by dash-dotted lines indicated a container 18 in which the conveyor arrangement is inserted. The person in question The conveyor arrangement is supported by a support element 15 at its lower end.

In Fig. 2 is an enlarged sectional view through the conveyor arrangement shown in FIG. The individual parts provided here, which are those shown in FIG Corresponding individual parts are denoted by the same reference numerals as those Individual parts in Fig. 1. A short bar magnet 5 is used here as the magnet. This Bar magnet 5 is traversed by an anti-magnetic fastening bolt 7, the at its end facing away from the tube 2 carries an iron nut part 6 and at its end the end facing the tube 2 the bar magnet 5 by means of an iron nut part 3, which at the same time represents a magnetic pole 3, connects to the tube 2. Between the Tube 2 and the bar magnet 5 are provided with a washer washer. With regard to this arrangement, it should be noted here that the magnet 5 one magnetic leg of a horseshoe magnet can also be the other magnetic leg to the magnet leg just considered along the magnetic pole helical path is adjacent.

But it is also possible to use the other magnetic leg in question of the horseshoe magnet for another magnetic pole helical path.

In Fig. 3 is a sectional view through a conveyor arrangement of the in Fig. 1 shown type shown on an enlarged scale. Here too are those Elements which correspond to the elements provided in the arrangement according to FIG. 1, denoted by the same reference numerals as the corresponding elements in Fig. 1. Far the formation of the magnetic poles 3 is used here, however, in contrast to the embodiment According to FIG. 2, a long bar magnet 9, which extends practically across the tube 2 extends.

The bar magnet 9 is in this case by an anti-magnetic fixing bolt 8 added, by means of accordingly molded iron nut parts 3 is screwed to the tube 2. It is between the inside of the pipe 2 and the bar magnet 9 are each provided with an intermediate iron disk. is help With this magnet arrangement, it is possible to use a double helical path or double magnetic screw to build. It should also be pointed out in this context that e.g. Displacement of bar magnets 9 following one another in the longitudinal direction of the tube 2 a fourfold magnetic screw resp. four magnetic pole helical paths can be formed. In an analogous way wider magnetic pole helical paths can be formed.

Finally it should be noted that it is used for the transport of magnetic Particles on the outer tube 1 is indifferent whether this outer tube 1 or the inner tube 1 with the magnetic poles 3 rotates. Only the relative movement is decisive between the two pipes. In addition, the relevant Fcrdarstellung can in any position be used. Not only small and medium-sized magnetic particles, like magnetic metal chips, along the respective magnetic pole helical path can also be transported, but also nails, nuts, chain links, screws and similar materials are promoted. Finally it should be noted that the Conveyor arrangement in practically any length, in any diameter and in modular form can be produced. It should also be noted that there are several conveyor arrangements of the type considered above can be used side by side. It will an intermediate gap f: ir the between two adjacent conveyor arrangements The liquid containing the magnetic particles is drained, and further the individual magnetic poles along the magnetic pole helical path with it opposite foils arranged opposite one another. In this way, in that relevant intermediate C (elt formed a strong magnetic field.

Claims (5)

P a t e n t a n s p r ü c h e 1. conveyor arrangement for transporting magnetic particles from a first Position to a second position, in particular for the removal of magnetic metal chips from a cooling and / or lubricating emulsion containing these, thereby .qekennzeichne! that in a tube (1) made of a non-magnetic material, a conveying element (2) is housed with magnetic poles (3), each of which has unequal poles at a distance from one another along at least one helical path in such a way one after the other are arranged so that they end near the pipe inner wall and according to the shape the path of their arrangement on a rotation of the conveyor element (2) relative to the Allow the pipe (1) to transport magnetic particles along the outside of the pipe, 2. Conveyor arrangement according to claim 1, characterized in that along the path of the Magnetic poles (3) each have a north pole and a subsequent one in a certain direction South oil are formed by the corresponding magnetic poles (3) of a Hu a gneten. 3. Conveyor arrangement according to claim 1, characterized in that the Conveyor element (2) carries bar magnets (9), the ends of which are close to the inner wall of the non-magnetic Pipe (1) lie. 4. Conveyor arrangement according to one of claims 1 to 3, characterized in that that the magnets (5; 9) are formed by permanent magnets. 5. Conveyor arrangement according to one of claims 1 to 4, characterized in that that at least two non-magnetic tubes (1) each with a conveyor element located therein (2) are arranged side by side.