DE1063992B - Shear classifier - Google Patents

Description

Shear classifier Addendum to patent application St 13373 Viel 1 a (Auslegesdirift 1 035 587) The invention relates to a shear classifier according to patent application St 13373 Vill a, with which a liquid together with the solid contained therein Particle is treated.

A classification method has already been proposed in which a liquid together with the solid particles found in it on the concave side a partially cylindrical jacket-like curved surface provided with t) openings tangentially and is fed in the direction perpendicular to the generatrix thereof, the openings Form shear edges facing the direction of movement of the goods and in the direction of the flow of cut material have a diameter that is smaller than that perpendicular to this direction, but at most equal to this, and with the liquid with the solid particles at such a speed of the named surface and it is passed over this that the sheared edges each from the liquid and the particles contained therein a thin, essentially only undersized grain of Shear off the load-bearing layer slightly smaller than half the width of the opening.

This new method will differ from the previously known Classification process referred to as shear-off classification process. To carry out this In the process, a shear classifier is used, which has a curved, partially cylinder jacket-like, has a surface formed from rods or from sheet metal provided with openings, the openings between the rods or in the sheet perpendicular to the generatrix the surface have a diameter which is smaller than that parallel to this generator, but at most equal to this, and a supply device, which is a liquid with the solid particles located therein or at least the liquid tangential to the surface and perpendicular to the generating line of the concave side feeds the surface.

According to the invention, the concave side encloses the shear classifier an angle greater than 18cm0.

This embodiment of the shear classifier has the advantage that you can use a large parting surface with a small footprint and that accordingly can be worked with a large capacity. Appropriately can the parting surface can be arranged symmetrically in relation to a vertical plane.

It is within the scope of the invention for the supply means to be rotatable in this way or are tiltably mounted so that they are tangential to each of the two Can open ends of the parting surface. The supply means can consist of one hollow supply organ, which can be rotated around a horizontal Axis arranged which is located in the aforementioned vertical plane, and can continue to do so Individual parts may be provided for the supply of a slurry in this supply organ to serve. It can be advantageous that the angle of rotation of the supply means between the two operating positions is at least 750 and at most 105 °, accordingly the parting surface includes an angle between 255 and 2850.

According to the invention, the means for collecting the overflow fraction connect at both ends of the interface. It can be advantageous that Funds are provided for the fractions of the first and second half the separating surface separately collect and discharge, these means with control organs are provided, which are coupled to the supply member that both the the first as well as the second passage fraction always passed to the same point will.

The invention will be explained again with the aid of the drawing.

Figs. 1 to 3 relate to a shear classifier according to the invention, which is provided with pivotable supply means. Figs. 1 and 2 are longitudinal sections of the device, and F.ig. 3 shows a cross section of this device according to FIG Line III-III in Fig. 1, the feed member, however, in the central position is located. Figs. 1 and 2 show the two effective positions, which the supply organ can occupy; otherwise there is no difference between both of these drawings.

In FIGS. 1 and 3, 509 represents a container, the side walls of which 510 and 512 are connected to one another by stiffening elements 513 and 514.

Between these side walls 510 and 512 there is a TT'eise. the is not specified in the drawing, a partition 515 is attached. This Separator testicle is circularly curved and forms an arc of about 270 °, whose The symmetry plane is perpendicular and the open part is at the bottom is located. In the mentioned side walls there are also hollow pegs at the same height 516 and 517 are provided whose Litten is in the plane of symmetry of the partition are located and around which a tiltable feed member 518 can rotate. To the A line 519 is connected to hollow pin 516. through at 4 a Turbidity flows into the supply element 518. The hollow pin 517 is through a blind flange 520 completed. The feed member 518 has the function. the turbidity tangential to guide on the partition 515: it is equipped with handles 521 and 522, which protrude through the slots 523 and 524 outside the container 509 and with the help of which the supply member optionally in the one indicated in Fig. 1 or in Fig.2 Position can be changed.

When changing from one position to the other, the supply organ rotated over an angle of about 900-. The space between the side walls 510 and 512 is shut off by a hood 525, which is operated by means of the handles 526 and 527 can be removed. The hood 525 rests on the edge strips 528 and 529, the are attached to the side walls and the seal between the hood and the Get side walls.

The overflow fraction from the separator 515 collects in one Container 530 and is removed from the device at B through line 531. The diarrhea fraction is caught by the hood 525 and collects in the container 509 and exits the device at C through tube 532.

It is possible. that part of the diarrhea fraction of the upper part of the partition 515 by bouncing back from the hood 525 on the convex side of the partition falls. When using the device described here one has because also necessarily for a sufficiently high feed line speed Care must be taken so that the diarrhea fraction with sufficient force through the Gaps in the upper part of the dividing tray flows through.

If the partition floor is normal, one is already sufficient large supply speed in front of course you also have to overcome it of the height difference, a sufficient supply line speed should be used. at a radius of the dividing floor of 50 cm can generally be found with a Velocity content, that of a velocity, which with the help of a column of the feed material can be generated at a height of 2 m. If the forwarded If the product is very viscous, a higher feed rate should be selected; z. B. to a radius of 50 cm hears one generated by a 4 m high column of turbidity Speed. For a larger radius, you also have a greater feed line speed to apply.

It has already been pointed out that it should be recommended can collect the diarrhea fraction from the last part of the separating tray separately. this is also possible when using the device according to the invention. For that you need just split the container 530 in two, each with its own drain line equipped, wherein the cleavage is carried out in such a way that the diarrhea fraction the first half of the partition in one part and the diarrhea fraction of the other half is collected in the other part. If necessary, they can be used Hood 525 provided in the middle with a partition that adjoins the treml model so that the collecting device is also split into two parts on the upper side will; but this is not necessary. Aitohl one has to consider the fact, that the composition of the product collected in one part always changes, when the feed member 518 is brought into the other operative position, so that it is necessary. make a change in the outflow of the collected products to be able to. This can e.g. B. be carried out with the help of flaps, which are coupled to the feed organ that when the feed organ is rotated, too the flaps assume the corresponding position.

PATENT APPROACH 1. Shear grader according to main patent application St 13373 VI / la, characterized in that the concave side has an angle of more than 1800 encloses.

Claims (1)

2. shear classifier according to claim 1, characterized in that this is arranged symmetrically with respect to a vertical plane. 3. Shear classifier according to claim 1 and 2, characterized in that that the feed means are arranged such that they can be rotated or tilted so that they are tangential Way can open onto each of the two ends of the parting surface. 4. Shear classifier according to claim 1 to 3, characterized in that that the supply means consist of a hollow supply member which is rotatable about a horizontal axis is arranged, which lies in the vertical plane, with further Individual parts are provided for the supply of a slurry in this supply organ to serve. 5. Shear classifier according to claim 1 to 4, characterized in that that the means for collecting the overflow fraction connect to both ends of the separation surface. 6. Shear classifier according to claim 1 to 5, characterized in that that means are provided to the fractions of the first and second half the separating surface separately to collect and discharge, this with control organs are provided, which are coupled to the supply member that both the first as well as the second transit fraction always directed to the same place are.