RU2013335C1 - Arrangement for hydraulically transporting and grading loose materials - Google Patents

Abstract

FIELD: grading and conveying loose materials. SUBSTANCE: arrangement has receiving chamber, grading mechanism in the form of stacks of plastic plates spaced from one another and having pins. The plates extend in parallel with corresponding wall of the receiving chamber. The plates can be fabricated from polyolefins. The plates have pins to ensure preset space between the plates in the stack of plates. The height of pins in one plate differs from the height of pins in neighboring plate. Each stack is made up of plates with uniform pin height to ensure precipitation of known fraction from the solid phase. Stacks with successively reducing spaces between the plates are installed downstream of the flow. EFFECT: enhanced efficiency of grading and transporting loose materials. 5 dwg

Description

 The invention relates to the field of classification and hydrotransport of bulk materials with associated clarification of water and can be used at hydromechanized enterprises, concentration plants and factories.

 In FIG. 1 shows an apparatus for hydrotransporting and classifying bulk material; in FIG. 2 - the same, top view; in FIG. 3 - same, left view; in FIG. 5 is a section BB in FIG. 4.

 The installation includes a receiving chamber 1, classifying device in the form of packages 2 plates 3, installed with a gap and having spikes 4, loading nozzles 5, chamber feeders 6, drain nozzles 7, discharge nozzles 8, pressure pipes 9, water pumps 10.

The plates 3 are installed parallel to the corresponding walls of the receiving chamber 1 to ensure horizontal flow direction and continuous removal of the deposited particles of the solid phase. The plates 3 are made with spikes 4, providing a given gap between the plates in the package 2. The height h of the spikes 4 of one plate 3 differs from the height h of the spikes 4 of the other plate 3 and varies in the interval h _max ≥ h ≥ h _min .

 The height of the spike determines the flow regime of the liquid phase of the pulp in the gap between the plates, ensuring the transition of the turbulent regime to the laminar one. Depending on the height of the tenon, i.e., the value of the specified gap between the plates, and the flow regime, precipitation of solid particles of a certain size is provided, i.e., a qualitative classification of the material and high-quality clarification of water.

 Each bag 2 is assembled from plates 3 with the same height of the spikes 4 to deposit a certain fraction from the solid phase. In the direction of flow install packages 2 with successively decreasing gaps between the plates. This allows you to reduce the energy costs of the movement of the pulp by reducing pressure losses at the same degree of quality of clarification of water.

 Installation works as follows.

 The pulp enters the receiving chamber 1, undergoing electromagnetic processing (for this purpose, an electromagnet 11 is installed in front of the chamber 1), which helps to accelerate the deposition of particles.

 Since in the package 2, installed in the direction of flow first, the plates are installed with the largest gap, the flow regime in it ensures the deposition of the maximum fraction from the solid phase of the pulp. In subsequent packets 2, sedimentation of fractions that decrease in size in accordance with the flow regimes created in these packets 2, which are determined by the gap between the plates and the height of the spikes 4, takes place.

 Thus, a qualitative classification of the solid phase of the pulp is carried out. Each fraction from its package 2, passing the loading nozzles 5, enters one chamber feeder 6 corresponding to this package 2. The chamber feeders operate in antiphase mode. At the time when one of them is loaded with the precipitated fraction, the other is unloaded, that is, the material from it is transported to the slurry line 12 corresponding to this feeder. When this chamber feeder 6 is unloaded, it switches to the opposite operating mode.

Claims (1)

 INSTALLATION FOR HYDROTRANSPORTING AND SORTING OF BULK MATERIALS, containing a receiving chamber with a sorting device with a package of plastic plates installed with a gap, an unloading nozzle and chamber feeders, characterized in that each plate is parallel to the corresponding wall of the receiving chamber and made with spikes with equal height this, the height of each spike on the corresponding package is equal to the gap between its plates.

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