RU195598U1 - CENTRIFUGA WITH FILTER ROTOR RINSING - Google Patents

Abstract

The utility model is used in mining, chemical, food, pulp and paper and other industries for the separation of heterogeneous liquid systems. The centrifuge contains a housing with filtering rotor and sieve installed in it, nozzles for supplying a suspension, washing liquid and for draining the liquid phase, receivers the liquid phase with circular plates with arc slots, solid phase receivers mounted above the nozzle for the removal of the liquid phase deflector, a nozzle is used to supply the washing liquid and coolant, connected with a rotating hollow frame located inside the filter rotor, with nozzles mounted at an angle to the body of the nozzle. The declared centrifuge is of interest to the national economy, as it allows to reduce its washing time and, therefore, to increase productivity during centrifugation of various heterogeneous liquid systems.

Description

The utility model relates to devices for separating liquid heterogeneous systems and can be used in mining, chemical, food, pulp and paper and other industries.

A known centrifuge (RF Patent No. 2251459, IPC B04B 1/08, 3/00, published May 10, 2005), comprising a housing with liquid and solid phase receivers, a device for feeding suspensions, a drive, a shaft and a conical filtering rotor mounted on it with an accelerator-distribution device with a trap placed coaxially inside it. The centrifuge is equipped with a stabilizing cone covering the trap with annular thresholds on its inner surface. The accelerator-distributing device is equipped with an accelerator bowl rigidly fixed inside the conical trap, as well as a ring located between the trap and the stabilizing cone.

The disadvantages of this analogue are the lack of a system for washing a conical filter rotor, which does not allow to completely remove residual raw materials from the filter sieve of the rotor, and also increases the washing time due to the need to disassemble and assemble the centrifuge, which together leads to a decrease in its performance.

The closest in technical essence and the achieved effect is a centrifuge (RF Patent No. 2252823, IPC B04B 3/00, published May 27, 2005, Bull. No. 15), which contains a housing, a drive, filtering rotor and sieve, and solid and liquid phase receivers , nozzles for supplying a suspension, washing liquid, coolant and for draining the liquid phase. In the annular cylindrical receiver of the liquid phase, circular plates with arc slots are placed on its inner side wall, and a deflector is installed on the bottom above the nozzle for the removal of the liquid phase.

The disadvantages of the above centrifuge are the uneven washing of the surface of the rotor filter sieve and the increased flow rate of the washing liquid, which increases the washing time of the centrifuge and, as a result, reduces its performance.

The objective of this utility model is to develop a centrifuge, in which during the washing process there is a uniform distribution of the washing liquid over the entire surface of the filter rotor, the flow rate required for washing the liquid is reduced, and, consequently, the washing time is reduced, which together will increase the performance of the centrifuge.

The problem is achieved in that the centrifuge containing the housing with the filter rotor and sieve installed in it, nozzles for supplying a suspension, washing liquid and for removing the liquid phase, a liquid phase receiver with circular plates with arc slots, a solid phase receiver mounted above the nozzle for the liquid phase outlet with a deflector, unlike the prototype, uses a pipe connected to a rotating hollow frame located inside the filter rotor to supply washing liquid and coolant, at an angle mounted to the housing which nozzle, and feeding wash liquid coolant directly onto the wall of the filter rotor and allow it evenly wash the entire inner surface by the rotation of the hollow frame due to the action of the jet of washing liquid and forces coolant.

The technical result of the improved centrifuge is to increase its productivity, which is achieved by using a nozzle connected to a rotating hollow frame, at an angle to the body of which nozzles are installed that feed the washing liquid and coolant directly to the walls of the filter rotor and allow washing it over the entire inner surface due to the rotation of the hollow frame arising under the influence of the reactive force of the jet of washing liquid and heat carrier.

In FIG. a centrifuge is presented, consisting of a housing 1 containing a filtering rotor 2, a nozzle 4 for supplying a suspension, a nozzle 5 for supplying a washing liquid and a coolant, a receiver 8 of the liquid phase, circular plates 9, a receiver 10 of the solid phase, a nozzle 12 for draining the liquid phase, above which is the deflector 11. Inside the filter rotor 2 there is a filter sieve 3 and a hollow frame 6, designed to wash the inner surface of the filter rotor 2. On the frame 6 are nozzles 7 at an angle to its body, providing the creation of reagents th power of the jet of washing liquid and coolant.

The centrifuge operates as follows. Through the nozzle 4 located in the housing 1 for supplying the suspension, the centrifuged mass is fed into the conical filter rotor 2. In this case, under the action of the normal component of the centrifugal force, the centrifuged mass is divided into liquid (outflow) and solid (precipitate) phases. The solid phase flies from the upper edge of the filter rotor 2 into the receiver 10 of the solid phase, and the liquid, passing through the filter sieve 3, enters the receiver 8 of the liquid phase in the form of a rapidly rotating ring of aerosols and small droplets that settle on the cylindrical wall of the receiver 8 of the liquid phase and flow down the plates 9 and slots, and then along the pipe 12 are discharged from the receiver 8 of the liquid phase.

Arranged oblique circular plates 9 with arc slots and a deflector 11 provide the discharge of the liquid phase and aerosols to the lower part of the receiver 8 of the liquid phase and further to the nozzle 12, which prevents the penetration of aerosols of the liquid phase into the receiver 10 of the solid phase.

After the centrifugation cycle is completed along the nozzle 5 for supplying the washing liquid and the coolant under pressure, the washing liquid is supplied into the hollow frame 6 with nozzles 7 mounted at an angle to its body, which ensures the creation of a reactive force of the washing liquid jet. Under the influence of reactive force, the hollow frame 6 rotates in the direction opposite to the direction of the nozzles 7, which ensures a uniform washing of the filter rotor 2 over the entire surface. After washing the centrifuge with the washing liquid, the coolant is supplied to the hollow frame 6 to complete the washing of the centrifuge.

The use of an improved centrifuge is of interest to the national economy, as it allows to reduce the time for washing it, and, therefore, to increase productivity during centrifugation of various liquid heterogeneous systems.

Claims (1)

A centrifuge containing a housing with a filter rotor and sieve installed in it, nozzles for supplying a suspension, washing liquid and for removing the liquid phase, a liquid phase receiver with circular plates with arc slots, a solid phase receiver mounted above the nozzle for removing the liquid phase with a deflector, characterized the fact that a nozzle is used to supply the washing liquid and coolant, which is connected to a rotating hollow frame located inside the filter rotor, and nozzles are installed at an angle to the casing of the rotor.

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