SU682284A1 - Apparatus for classification of granular materials - Google Patents

Description

The slits formed by the plates may have a section that increases towards the bottom.

FIG. 1 shows the proposed device; in fig. 2 - section AA on fng. one; on fng. 3 - view A on the fng. one; on fng. 4 - set of verticals. nlastnn in axonometry.

The device consists of stand EE 1, on which in supports 2 and 3 there is a cylindrical spring 4 of non-thrust pitch of turns with an inter-turn gap 5. The lower part of its coils the spring rests on a set of plastic 6 that form an element of expansion 11, carried I1 7. The width of each section and the frame 7 is equal to the width of the adjacent section of the interturn gap 5. Under the set of the plastic 6, collections 8 are placed, coordinated with the set of platinum 9. The device is equipped with a chute 10 for feeding the granular material II.

The device works as follows.

Bulk material 11 along the chute 10 is fed into the internal cavity of the spring 4 and, if it is mixed, the material moves to the opposite end of the spring, i.e., in the direction of enlarged holes, the two sides of which are the edges of adjacent turns of the spring, and the other two are the upper edges of two adjacent plates 6. As the spring 4 rotates, each hole gradually increases and at the same time moves along the spring. When a particle reaches an orifice of the appropriate size, it falls out of it into a collection of 8 separate fractions.

FIG. Figure 2 shows two particles, one n.i of which is above the section of the inter-turn gap with a width equal to its minimum size, and the second reaches a section with an opening equal to the maximum particle size.

The particle, stuck in one of the slots of the complementary plate set, coils of the spring smoothly moves in the direction of increasing the width of the slot, where it falls into the hole. If the particle gets stuck in the inter-turn gap and begins to rotate together with the spring, not moving forward, then its protruding part enters into the sound from one of the set plates, as a result of which the particle moves

relative to the spring in the direction of increasing the inter-turn gap, where it appears in the corresponding collection. For this purpose, the springs are recommended to be wound from a ribbon, orienting it with a wide side along the generator and dinner. It is also possible to use springs from a wire of a round cross-section with the joints of the material of the turns of the coil and the depth and the diameter of the rotor.

Plates in the kit are mounted with a small discrepancy downwards.

Such a design allows particles precipitated from the holes in the jadeiii in

The collection does not get stuck between platinas. Thus, the presence of nlaetin in the set in contact with the lower part of the spring eliminates clogging and classifies materials into two dimensions, which provides increased separation accuracy.

Claims (2)

1. Device for the classification of bulk materials, including a frame with a horizontally positioned rotating drum mounted on it, made in the form of a cylindrical spring with an increasing interturn clearance, loading device, reinforced by the minimum inter-turn gaps, and collection of individual fractions, characterized in that, in order to improve the separation accuracy by eliminating driving and classifying individual particles of material but in two dimensions, it is equipped with a frame fixed between the spring and spring a set of vertical set irstines, the upper edges of the coils of the spring in contact with the lower edges, while the distance to the plates increases in the direction of unloading depending on STI from Schirin adjacent inter-track gap of the spring. 2. A device according to claim 1, characterized in that the slots formed by the plates have a section increasing downwards. Sources of information taken into account in the examination 1. USSR author's certificate No. 435864, cl. B 07B 1/22, 1972. FIG 4