SU940846A1 - Hydraulic classifier for separating high granular materials - Google Patents

Description

The invention relates to mineral processing equipment, namely, hydraulic classifiers and can be used in the construction materials industry, for example, to extract 5 air-conditioned cement slurry, as well as in the metallurgical, chemical and other industries.

A hydraulic classifier is known, which includes a housing, a razologeoinos viiu-ria and a classification device, branch pipes for introducing the initial feed and output of separation products 1.

The disadvantages of such a classifier are the filling of slots and 11e; 1, the residual 11a 15 efficiency of classification.

The closest in technology and effect to the proposed classifier is a hydraulic classifier for splitting fine-grained materials, including the Cornus, a slit sorting drum installed inside it, made of interconnected shells, a cleaner with comb, located on the vertical shaft and the slits entering the gaps of the sorting drum, pipes for tangiocial feed of the initial slurry and output and products section 2.

The disadvantages of this classifier are the inefficient distribution of sludge but seeding), its surface and the lack of clarity of separation.

The purpose of the invention is to improve the separation accuracy and reduce energy consumption.

This goal is achieved by the fact that the classifier is equipped with an application chamber with a viit trough fixed on its inner surface and connected to a branch pipe for nodachpn gpdrosmesi, and this chamber is placed above the slot sorting drum, and the cleaner with combs is installed inside the sorting drum coaxially with it.

The optics combs can be installed in the form of removable knives fixed on the curtains of the knives, and the angle between the tangent to the sidewall and the working surface of the comb is 40 to 70. In addition, the branch pipe for removing the incondensable sludge is fitted with a valve and installed on the working surface of the sieve. the drum.

On fng. 1 shows the hydraulic classifier, view from the outside, cut; in fig. 2 - the same, top view; in fig. 3 - section. A.-A fng. one.

The classifier contains a cylindrical housing 1, at the bottom of which is located the pipe 2 for the withdrawal of conditioned sludge. Inside the housing 1 there is a sorting drum 3, made of shells 4, having a traditional trans-transeidal profile in cross section. On the non-working side, they are provided with lugs 5, between which liners 6 are installed, ensuring the required gap size between the shells 4. Using studs 7, they tighten all shells. Such an assembly of the drum 3 allows, during operation, to maintain the optimum size of the slots, which is achieved by replacing the inserts 6 between the lugs 5. At the top of this drum is a cylindrical receiving chamber 8, to which a tangentially inlet 9 is connected on the outside. a screw chute 10 is mounted, the end end of which is connected to the opening of the socket 9 on the one hand, and the other end of it is brought into the working cavity of the drum 3. The design of the input device allows it slime on the surface of the drum along a helical line and reduce the wear of the screening surface. The drum 3 is equipped with two covers 11 and 12. On the top cover 11 there is a mechanical drive 13 (see FIG. 2) of a vertical shaft 14 located in the inner floor of this drum along its axis. On the shaft 14, perpendicular to its axis, the brackets 15 are fixed with the possibility of not displacing them along the shaft during assembly. They are equipped with removable knives 16 in such a way that the working end of them goes into the gaps between the shells 4 to a depth of 2-4mm. Moreover, the angle a (see Fig. 3) between the tangent to the shell 4 and the working edge 17 of the knife is 40-70 °, which ensures the slurry particles stuck in the gaps and foreign solid inclusions (gravel, pebble, etc. ) the ability to move along this edge in contact with them and with the least resistance to go inside the drum 3. Rotate the shaft 14 in the direction of the input slurry flow from the groove 10 to the surface of the drum 3, which reduces the resistance to rotation and reduces the speed nanora. In the bottom cover 12 near the internal screening surface of this drum, an outlet pipe 18 of non-conforming sludge is mounted with a valve 19, which creates a condition that non-conforming sludge particles enter through the opening 20 and allows to reduce the velocity head to static pressure entering the classification of sludge of all standard sludge. In the bottom part of the drum 3, cleaning scrapers 21 are installed, attached to the shaft 14 and made in the shape of an arc of a circle, facing the convex side in the direction of their rotation. In addition to stripping the bottom of the settled sludge sediment, together with the brackets 15, they mix and destroy the coagulation structure of the sludge.

Hydrostatic classifier works as follows.

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The original sludge is fed by gravity through the pipe 9 into the chute 10, which directs it along a helical line to the cylindrical screening surface of the drum 3. The centrifugal action of the node

The partial classification of the sludge begins until the jet reaches the cover 12. In view of the fact that the centrifugal classification allows only 30-40% of the conditioned sludge to be separated from

the total amount of it, then another 45-55% of conditioned and 15-30% of non-conforming cuttings remain in the stream. Therefore, the amount of sludge remaining in the inner cavity of the drum in the amount of 60-70% begins to overwhelm it completely, which causes a change in the centrifugal rate of sludge leakage on the surface of this drum to a creeping speed. Under the action of the weight of the sludge column located inside the drum 3

A container II above it, i.e. hydrostatic pressure, conditional sludge flows through the drums of this drum into the housing 1, which is then discharged through the pipe 2. A small amount of substandard sludge flows out through the opening 20, the connecting pipe 18 and the valve 19.

At steady state operation of the classifier hydrostatic pressure

provides intensive outflow of conditioned sludge from the inner cavity of the drum 3. A new intake of sludge on the working surface of the latter along a helical line creates a condition for its rotation with respect to the drum axis, which is similar to rotation with the free flow of fluid through a vertical hole; this is facilitated by the rotation of the shaft 14 in the same direction. Such a rotation

the sludge in the inner cavity of the drum 3 and its radial flow from the latter cause unconditioned sludge particles and extraneous solid inclusions to settle in the bottom of the drum

3 to its cylindrical surface, where the nozzle 18 is installed. In the same zone, as the shaft is rotated with the blade 14 by the knives 16, the particles are stuck intact, and the scrapers 21 help them enter this

nozzle. In addition, due to the rotation of the shaft 14 with the brackets 15 and scrapers 21, the sludge is mixed, which contributes to the better separation of conditioned particles from it, while the knives 16 destroy the sticking film and the coagulative structure of the sludge in the gaps between the shells 4 slime through them. In the same period, the valve 19 finally establishes the separation of the entire conditioned sludge as a percentage of the total amount of sludge entering the hydrostatic classifier defined by the factory laboratory.

The use of a hydrostatic classifier will improve the classification efficiency in comparison with the known classifiers, increase productivity, reduce energy and metal consumption for sludge treatment.

Claims (3)

1. Hydraulic classifier for separating fine-grained materials, including a housing, a slotted sorting drum installed inside it and made of interconnected shells, a cleaner with combs located on a vertical shaft and entering in the slots of a sorting drum, branch pipes for tangential feed of the initial slurry and removal of separation products, distinguishing and; and in order to increase the accuracy of separation and reduce energy consumption, the classifier is equipped with a receiving chamber with a screw chute attached to its inner surface and connected to a pipe for supplying the initial hydraulic mixture, while the chamber is placed above the slotted sorting drum, and the cleaner with combs mounted inside the sorting drum coaxial to him. 2. Classifier by and. 1, characterized in that the comb-like comb is made in the form of removable knives mounted on the brackets, wherein the angle between the tangent to the sidewall and the working surface of the comb is 40 - 70 °. 3. Classifier according to claim I, characterized in that the nozzle for removing substandard sludge is provided with a valve and is installed at the working surface of the sorting drum. Sources of information taken into account in the examination 1. USSR author's certificate No. 284906, cl. In OZV 5/32, 1968. 2. USSR author's certificate 30 N "345968, cl. In OZV 5/32, 1971.