SU385629A1 - , CENTRIFUGA - Google Patents

Description

one

The invention relates to the field of zeitrifugal engineering and can be used in the chemical, poor and pulp and paper industry, for example, for the classification of kaolium and for the purification of electrolyte from mechanical impurities.

Centrifuges are known that contain a rotor divided into two cavities that communicate with each other, one of which is equipped with a conveyor screw, a threading tube, and the other with a package of separating plates, nozzles for unloading the thickened phase, a receiving chamber of the centrifuge entering the plates and a collection of condensed phase discharged from the nozzles.

However, prior centrifuges have low separation efficiency.

In order to increase the separation efficiency in the centrifuge, the pressure disk is installed in the receiving chamber of the centrifuge, while the cavity of the rotor with a tray of plates is equipped with a ream contour for the crvated phase, consisting of a chamber for receiving the last distribution tube installed concentrically , a row of tubes, located on the inner surface of the rotor, for supplying recirculated condensate phase directly to the nozzles, and pipelines with valves and a pump, reporting a collection

condensed phase C distribution pipe.

The drawing shows a schematic diagram of the proposed centrifuge, a longitudinal section.

The centrifugal consists of a rotor /, divided into 1 cavity into two cavities, communicating with each other, a transporting auger 2, an introductory pipe 3, a package of separating containers, 1.ok t, nozzles 5 for unloading the condensed phase, a receiving chamber 6 of the fugate, collection 7 of the condensed phase, disk 8 n recirculation circuit for the thickened phase.

The latter consists of a chamber: for receiving a condensed phase, a distribution tube 10, a row of tubes //, located

5 on the inner surface of the rotor U and serving to supply the recirculated condensed phase to the coils 5, and pipelines 12 with stop valves 13 and a pump 14. Lastly, collector 7 of the condensed phase with a distribution tube jO and pulling tube Z reports.

Centrfuga works as follows.

A suspension is fed into the rotating rotor / through the feed tube 3, which is separated by iodine action. With

5 this large solid particles, seated on the inner surface of the rotor, are transferred by screw 2 for unloading.

Purified coarse suspension using a nano disk 8 is inserted into

The bottom of the stack of separating plates 4, where it is subjected to final cleaning. In this case, the condensed solid phase is led out through the nozzles 5 to the collector 7, and the centrate enters the receiving chamber 6..

Next, the condensed phase from collector 7 is returned by pump 14, pipelines 12 and distribution tube 10 to chamber 9. From chamber 9 it is fed again through tubes // to nozzles 5.

After the discharge mode through the nozzles is established, the recirculation is stopped.

In order to obtain a compacted sediment, the condensed phase that is discharged by means of the nozzles 5 can be returned via the feed pipe 3 to the rotor 1.

The subject of the invention is a Centrufug comprising a rotor divided by K. & two cavities communicating with each other, one of which is equipped with a conveyor screw, feed tube, and the other with a package of separating plates, nozzles for

discharging the condensed phase, the receiving chamber of the centrifuge entering the plates, and the collector of the condensed phase discharging from the nozzles, which, in order to increase the separation efficiency, in the receiving chamber

The fugate has a pressure disc, while the rotor cavity with the tray package is equipped with a recirculation loop for the thickened phase, consisting of a chamber for receiving and finally, a distribution tube, mounted concentrically to the feed tube, a row of tubes located on the inner surface of the rotor and used for iodvod recycled condensed phase directly to the nozzles, and pipelines with valves and pump, informing the collection of the condensed phase with the distribution tube.