SU601049A1 - Flow-through sedimentation centrifuge - Google Patents

Description

gata; in fig. 2 - zone of additional clarification, made in the form: В; one hundred; В1Кн rotor.

The centrifuge contains a cylindrical conical rotor /, whose wide end has windows 2 for the production of a centrifuge, and a narrow end has windows 3 for discharging sediment from the centrifuge. The cylindrical part of the rotor forms a zone of precipitation, and the conical part forms a deflection zone. In the rotor there is an auger, which is a 1-FOLD drum 4, “a-which are fortified coils 5. The drum is connected to the rotor by means of the underside 6 to ensure relative rotation, auger and rotor. The wide end of the rotor and the screw of the screw form between each other: connecting channel 8 with the suspension supply pipe 7 for inlet and separable suspension into the rotor. The cavity of the auger drum through the holes 9 communicates with the cavity of the rotor.

The centrifuge is equipped with two cone-shaped shells 10 and //, which are interconnected by large bases ic to form the aopolis zone of the fugate. Along the lines of the shell connection there are holes 12 to discharge sediment into the rotor cavity. The shells may be connected to the auger drum or to the rotors in one of the variants.

According to the first (Variant (Fig. 1) shell

1011.1.1 The first section of the auger drum 4. O. Bechayka 10 has a smaller base with a section of the auger drum located in the pressing zone, and holes 9 for transferring the centrifuge from the cavity of the rotor 1 IB to the cavity of the drum 4 are located their connecting lines. Shell 11 smaller base facing the popp 2 rotor.

In the second embodiment (FIG. 2), the shells 10 and 1-1 are the rotor insert /. At the same time, the smaller base of the shell // is rigidly connected with the rotor on the side of the windows 2 of the outlet of the centrifuge, and the smaller base of the shell / O is freely located near the opening 9 of the drum 4.

The centrifuge works as follows.

The rotor and the auger rotate in the same direction at slightly different speeds to ensure that the sediment moves in the direction from the wide end of the rotor to the narrow one. The original suspension flows through the pipeline 7 through the channel 8 into the cavity of the rotor /

11 moves along “it. In this case: under the action of centrifugal forces, solid particles are deposited on the walls of the rotor, captured by turns 5 of the screw, transported along the rotor, decontaminated | in its conical section, and through windows 3 are discharged from the centrifuge. Freed from a large part of the taipdog, the liquid phase flows along the cylindrical part of the rotor IB in the same direction to the end of the deposition zone, where through holes 9 it flows into the cavity of the drum 4 shike to the zone of additional clarification of the centrate. At the same time, the remaining IB fugate solid particles are again exposed to centrifugal forces, as a result of which they settle on the inner surface of the shells 10 and 11, slide to their large bases and through holes 12

returning to the cavity of the rotor /, where it is deposited along with the new portion of the dispersed phase of the suspension. The clarified centrifuge is removed from the centrifuge through the windows 2 of the rotor.

Thus, the fugate, which is obtained in

The result of the separation of the suspension in the rotor deposition zone is subjected to additional clarification, and the solid phase separated out at the same time - to secondary sedimentation in the rotor. Due to this, the quality of separation of the suspension in the centrifuge of the proposed design is higher than in the known direct flow centrifuge.

Claims (3)

1. A precision gravity centrifuge containing a cylinder-conic rotor with windows for unloading sediment and discharging a centrate, having a precipitation zone and a spin zone, and the auger, which is a drum with coils fixed on it, having openings for the passage of a clarified centrifuge into its cavity, about the same, with the fact that, in terms of separation quality, a centrifuge has a zone of additional clarification of the output of the fugate formed by two cone-shaped shells placed in the zone of the rotor deposition and connected by large bases, while the lines of the connected shells are spaced with apertures to lead the sediment to the rotor cavity. 2.Tseitrnfuga on. P. 1, characterized in that the shells forming the zone of additional clarification are a portion of the auger drum, wherein the smaller base of one of the shells is conjugated with the portion of the auger drum placed in the spin zone and the holes for the passage of the liquid phase in its The cavity is located along the lipia of the conjugation. 3. A centrifuge according to claim 1, characterized in that the smaller base of the one of the shells is rigidly connected to the rotor, and the holes for introducing the centrifuge into the auger drum are located at the smaller base of the other ooechiki. The source of information taken into consideration in the examination: 1. US Patent .Y 2905379, .cl. 233-14, 60 1959.