SK279384B6 - Vibratory separator - Google Patents

Abstract

A vibratory separator has parallelly arranged vibratory surfaces. The vibratory surfaces contains two rows (A, B) of the vibratory surfaces (11, 12) being connected in series. The inclination of the surfaces of the two rows is different. In an advantageous embodiment, the inclination of the surfaces of the first (upper) row (A) with respect to the horizontal is smaller than the inclination of the vibratory direction (f). In another advantageous embodiment, the surfaces of the second row (B) have a flatter and a steeper section and are downwardly concave.

Description

Technical field

The invention relates to a vibration separator.

BACKGROUND OF THE INVENTION

Dividing devices of similar types have long been known and are used in particular for the separation of bulk materials.

For example, DE 2 854 177 discloses an apparatus for separating cut rock into valuable parts and waste. For this purpose, the rock is fed to a substantially horizontal plate housed in a cover which is inclined with respect to the vertical plane, and is vibrated, causing the rock to move to the free edge of the plate and fall from the plate. As a result, the rock reaches a conveyor surface which extends below said free edge and is profiled in the direction of vibration, whereby, depending on the geometric shape, density and adhesion, some rock components travel upwards and others downwards. This leads to separation of the individual rock components.

From the publication Autberertungíechnik ¹ '1988, no. 1, the theoretical treatment of scrap by vibration is known. This theoretical work has resulted in the parallel arrangement of a plurality of vibrating floors, which can increase the performance of the apparatus and improve the efficiency of the separation.

Four vibratory trays were used to separate a mixture of 50% by volume non-ferrous scrap and 50% by volume rubber, and the scrap was recovered in 98% yield. However, the rubber was still present in the scrap at about 20%. The bulk density of the starting material was 800 kg / m ² . The device is filled with material to approximately 45%, the hollow space is approximately 55%. When using a mixture with a lower proportion of cavity, generally worse results are to be expected.

A device for a plurality of floors in succession is also known from EP 139 783. In this case, the last floor is designed as a refracted transport device. The breaking point creates a transition from the vibrating floor to the conveyor belt, beyond this range no longer divides.

In addition, according to this patent, sieves, optionally inclined, are arranged above the upper deck and the falling material is deposited from the lower screen on the upper vibrating deck. In this way, material is supplied in the upper floor area.

A similar device is also known from U.S. Pat. No. 4,267,037, in which case the material is also fed to the vibrating floor at the top of the device.

It is known from US 4 009 833 and FR 78 31596 with publication number 2 407 676 to form vibrational trays as sieves or to provide sieve-shaped sections at certain points. The floors used are therefore permeable, so it is not possible to speak of a series of vibrating floors. Both devices are designed for quite special purposes, one for separating parts of defective batteries and the other for recovering tobacco residues in the manufacture of cigarettes.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a compact apparatus capable of improving the separation of all solid mixtures, while it should be possible to achieve higher performance without deteriorating the separation.

SUMMARY OF THE INVENTION

According to the invention, this object is achieved by a vibratory separator with parallel arranged vibratory trays comprising a first row, a second row of vibratory trays arranged in series, and wherein the oscillating trays of each row are separated from each other and positioned horizontally with a gap, is a. that the inclination of the oscillating floors of the first series is different from the inclination of the oscillating floors of the second series to the horizontal.

In a preferred embodiment of the device according to the invention, the inclination of the first (upper) row of the first row to the horizontal is less than the inclination of the direction of the vibration towards the horizontal. This achieves first of all an improvement of the pre-sorting and further improves the distribution perfection.

In another preferred embodiment, the floors of the second row are angled along a horizontal edge disposed transversely of the vibration direction such that their underside is concave, preferably the flat section is flat and the steep section is steeper than the vibration direction relative to the horizontal. This measure allows the performance of the device to be increased without deteriorating the division.

Advantageously, this embodiment can be further improved so that the material falling from the first row of floors between the levels is directly in the fracture region of the floors of the lower series. This can be easily achieved by adjusting for a given material, a given inclination of both rows and a given vibration frequency by simple experiments and thus obtaining particularly good results.

Instead of the angled shape, the floors may also have an arcuate shape, in which case the impact area preferably extends parallel to the direction of vibration.

The invention will be described in more detail with reference to the accompanying drawing.

Overview of the figures in the drawing

The figure shows a separating device comprising eight vibrating floors.

DETAILED DESCRIPTION OF THE INVENTION

The dividing device 1 shown in the drawing comprises eight vibratory trays 11 in the upper row A and eight vibratory trays 21 in the lower row B. In the embodiment shown, rows A and B are parallel, but they can also be arranged differently.

All 16 vibrating levels are fixed in the housing 131. An unbalanced drive 132 is mounted at the lower end of the separating device 1. In this type of drive, in a known manner, symmetrical rotational movement of two equally sized masses 133 in the opposite direction with respect to common parallel axes. The symmetry plane obtained is the vibration plane of the whole device and is shown by the arrow f.

Thus, the arrow f indicates the vibrational plane and hence the inclination of the vibrations to the horizontal plane h, this inclination being greater than the inclination of the vibrating floors 11 of the A series.

The vibration trays 21 of the B series are angled around the horizontal edge 32 running perpendicular to the vibration direction shown by the arrow f. Upper part 33 vibrating floors 31

SK 279384 Β6 is flatter than the lower part 34 of these vibrating floors. As a result, the vibrating floors are concave in the region of their attachment to the cover brackets.

The top floor 11 'of row A is the point where the split material is fed. This floor has a deflection bar on its side which prevents the floor material from falling over. From there, the vibration retarded material is dropped from one vibration floor 11 to the next floor, with parts of the material falling into the slots 12 between the floors. These slits are predominantly of material that is not prone to rolling and / or jumps and tends to remain lying on the vibrating deck 11. The vibrations release so much that they break up and fall into the slits 12.

This material preferably falls immediately into the region of the horizontal edge 32 of the vibration trays 21 of the second row B, which is shown in the drawing as a particle veil.

In the upper row A, a material capable of rolling movement is received, preferably at the lower end of this row, from where it falls into the lower part of the lower row B.

That portion of the material that moves up in the row B against the gravity force in the individual vibration trays 21, i. j. the low-density portion with good adhesion, leaves the trays of the lower row B at the upper end each and reaches through the slots 36 between the trays above the cover divider 34.

Other, heavier parts or parts capable of rolling, leave the device below the separating strip 34. These parts reach the bottom row B from floor to floor and therefore do not fall into slots 36 between floors 21 because of their horizontal speed.

Control of the movement of the material between the two rows can be easily accomplished according to special process conditions. For example, it is possible to make one of the two rows movable so that the material falling from the slot 12 can be correctly fed to the desired impact point on the vibrating floors 21.

In one embodiment of the device according to the invention, an air stream, preferably directed upwards, can be used between the two rows A and B when separating suitable materials, for example using a blower or a compressed gas supply, thereby obtaining further particle sorting which places of impact on the lower floors lead to further performance and improved sorting.

Of course, it is also possible to use a different number of levels in each row, in particular it is possible to extend the lower row B downwards.

The cutting device according to the invention can be used, for example, for sorting stone and other solid and hard materials, such as sawdust or chipping in the production of particle board, but also, for example, for separating glass fragments from humus. In particular, the use of the undesirable material is absolutely removed so as not to disturb or damage the desired material during its further processing, but at the same time it is important to minimize the loss of the desired material together with the undesirable material in order to .

The device according to the invention operates at a vibration size of 1.6 to 12 mm and at 300 to 1000 vibration per minute, with higher vibration frequencies to be assigned to smaller vibration sizes. In this way it was possible to separate sand and sawdust perfectly.

The cutting device according to the invention can easily be adapted by any person skilled in the art for marginal and special applications. For example, it is possible to use an additional row of floors if desired, and it is also possible to provide a plant for continuous use, wherein individual streams of screened material are continuously discharged for further processing. It is also possible, for example, to only feed the obtained middle fraction to the third or fourth row of floors, the upper and lower fractions being then removed from the apparatus.

It is also possible to arrange the floors of the lower row so that their shape is not kinked but arched, so that a spectral division around the impact site can be achieved. The upper row trays may also be of a different size than the lower row trays, their length in the vibration direction being preferably a multiple of the length of the lower row trays.

In a wide range of applications, it is advantageous to mount the vibration trays 11,21 in the frames in a rotatable manner so that the pre-division in the upper row A can also be provided. grooves and the like. In order to adjust the impact point on the trays 12, it is also possible to adjust the lower trays 12 in a movable manner.

It is also possible to use extending portions in individual floors to vary the size of the floors, whereby it is also possible to vary the width of the slots as desired. It is also possible to rotate the trays together, each tray rotating about a fixed horizontal axis perpendicular to the direction of vibration, rotating together or, for example, using an articulated parallelogram.

The material flow through the slits 12 must be adjusted by selecting the width of the slots and the inclination of the upper floors so that the material feed to the lower floors is approximately equal to all floors.

In this embodiment, it is possible to provide the individual floors of the row A and the lower row B with the same or almost the same slope, however, in contrast to the known devices, the floors of both rows always have different slopes. In the case where more than two rows of floors are used, the measures concerning the separating device according to the invention apply only to adjacent rows of floors, while additional rows, identical to neighboring rows, can be added without restriction.

The rows may also deviate from the ideal linear arrangement, for example in the simultaneous pneumatic sorting of falling material, with the floors of both rows furthest from the gas inlet having the greatest vertical distance to each other.

When using pneumatic sorting, the horizontal arrangement of the lower row floors is preferably adjusted with respect to the slits between the upper row floors so that the falling material falls due to the pneumatic sorting at the lower row floor fracture location.

Claims (8)

PATENT CLAIMS A vibration divider with parallel arranged vibration trays comprising a first row (A), a second row (B) of a vibration trays (11, 12) arranged in series, and wherein the oscillating trays (11, 12) of each row (AB) are separated from one another and positioned horizontally with a gap, characterized in that the inclination of the oscillating floors (11) of the first row (A) is different from the inclination of the oscillating floors of the second row (B) to the horizontal . Vibration separating device according to claim 1, characterized in that the inclination of the first upper row (A) to the horizontal is less than the inclination of the vibration direction (f) to the horizontal. Vibration separating device according to claim 1 or 2, characterized in that the floors of the second row (B) have a flatter and steeper section and are concave from below, wherein the flatter section is preferably flatter and the steep section is preferably steeper than the vibration direction with respect to the horizontal . Vibration separating device according to claim 3, characterized in that the vibration trays (11, 21) of both rows (A, B) are arranged such that the material falling from the first row of trays (12) between the vibration trays (12). by the steps (11) in the form of a veil, it reaches the transition zone between the two sections of the vibrating floors (21) of the lower row (B). Vibration separating device according to claims 1 to 4, characterized in that the width of the slots (12) between the upper floors is adjustable. Vibration separating device according to claims 1 to 5, characterized in that the upper and / or lower trays (11, 21) are mounted rotatably individually or in groups around a horizontal axis perpendicular to the vibration direction. Vibratory separating device according to claims 1 to 6, characterized in that the air or gas flow is guided in the direction of the vibrations (t) or transversely with respect to the veil of material or between both directions, thereby causing pneumatic sorting of the falling material. Vibration separating device according to Claims 1 to 7, characterized in that at least one floor of the row (A, B) is not coaxial.