SU1070243A1 - Apparatus for fractionating waste paper pulp - Google Patents

Abstract

1. FRACTIONATOR FOR THE MATERIAL MASS, including a vertical cylindrical body with tangent Short fiber 1 g II of the mass. It is more accidental that the mass supply pipe and waste pipes of the cleaned mass and Waste, mounted on the bottom of the body, differ In order to expand its technological capabilities, it has a guide cone mounted in the upper part of the body for fractioning the cleaned mass with, an outlet opening coaxially with the disk, and above the outlet of the cone, is a branch pipe for removal of short-fibrous purified mass, with the axis of rotation of the disk being displaced relative to the vertical axis of the housing. 2. The fractionator according to claim 1, characterized in that the mass supply pipe is provided with an i turbulence quencher. SP Lromy1na iodine Is3; WITH

Description

The device relates to the centrifugal separation of suspensions by fraction, for example, for pulp and may be used in the pulp and paper industry.

Centrifugal cleaners are known for cleaning paper pulp from inclusions whose density exceeds fiber density. Separation of paper pulp from inclusions in Them is achieved by means of centrifugal forces arising from the rotation of the impeller of the rotor 1.

It is also known a device for dividing suspensions into two fractions — small and large, comprising a cylindrical body with a tangential inlet nozzle located in the lower part of the body, and branch pipes. A drive disk with blades for separation of coarse and fines is installed in the lower part of the housing. To improve the process of separating the suspensions into fractions, the use of two rotors with impellers, as well as the supply of reagents and air, is provided. In order to prevent the coarse fraction from hanging in the conical part of the apparatus, guide plates are installed in it, which protect the lower impeller from abrasive wear 2.

The purpose of the invention is the expansion of the technological capabilities of the fractionator, namely the simultaneous cleaning of the mass from impurities and its separation into fine and coarse fibers.

This goal is achieved by the fact that a fractionator for waste mass, including a vertical cylindrical body with a tangentially located mass supply pipe and branch pipes for discharging cleaned mass and waste, a drive disk with blades mounted in the lower part of the body, has a guide cone mounted in the upper part of the body for fractioning the cleaned mass with an outlet orifice that is coaxial with the disk, and a nozzle for discharging a short fibrous mass above the outlet of the cone; Referring disk rotational offset relative to the vertical axis of the housing.

The mass supply pipe is equipped with a flow turbulence damper.

FIG. 1 shows the basic design of a fractionator, vertical section; in fig. 2 shows section A-A in FIG. one; in fig. 3 - cut. BB in FIG. 2; in fig. 4 shows an embodiment of a flow turbulence quencher.

The fractionator includes a vertical cylindrical body 1 with nozzles: 2 - supply of mass, 3 - supply of washing water, 4 - removal of random heavy

inclusions, 5 - removal of long-fibrous mass, 6 - removal of short-fibrous mass. In the lower part of the housing there is a disk 8 rotating from the actuator 7 with a guide cup 9 and blades 10. The bottom of the housing may be conical. The housing 1 and the disk 8 are located non-axially, while within the housing an area 11 of particle energy gain is formed. In the upper part of the housing 1 a guide cone 12 is installed with a hole 13 coaxially with the disk 8. A suction cone 14 is located coaxially with it and passes into the nozzle b of the outlet for a short fiber mass. In the nozzle 2 mass supply can be installed damper 15 turbulence

 mass flow to the fractionator. The damper can be made tubular or plate type.

The fractionator for waste mass 0 works as follows.

The initial mass through the nozzle 2 is fed into the fractionator at the level of the disk 8, while the cylindrical

5, the guide cup 9 contributes to the vortex formation of the flow core. The disk 8 is driven in rotation by the drive 7. From the total effect of two centrifugal forces arising from the rotation of the disk 8 with blades 10 and due to the tangential

When the mass is applied, the flow is twisted in the form of a vortex, and the accelerated particles of the mass acquire various centrifugal accelerations, which depend on the density and size of the particles. Extraneous inclusions with a density exceeding the density of the fiber are thrown against the wall of the housing 1, the heaviest of them being discharged through the nozzle 4, and the area II of particle energy gain is used to separate the lighter ones. When lifting with a stream lay down. These random inclusions fall into region 11, lose speed, settle, and leave through pipe 4 along with heavy impurities. Under the action of centrifugal forces in the process of moving the flow upwards, the mass is also divided (fractionated) into large and small fibers, with the larger being closer to the walls of housing 1, and the smaller to the vertical axis of the disk 8. the coarse cone 12 is provided with coarse fiber, which ensures their greater dispersal of relatively coarse fiber and penetration into the region of fine fiber and impurities. The coarse fiber (long fiber mass) is discharged through the nozzles 5, and the small fiber (short fiber masses) together with light impurities is discharged through the nozzle 6. If necessary, to remove residual mass, the fractionator

rinsed with water through pipe 3.

The use of the invention will expand the technological capabilities

Aa

fractionator, namely to simultaneously clean the mass of impurities and its separation into fine and coarse fibers.

Claims (2)

1. FRACTIONATOR FOR WASTE MASS, including a vertical cylindrical body with a tangentially located nozzle for supplying mass and pipes for removing cleaned mass and waste, a drive disk with blades mounted in the lower part of the housing, characterized in that, in order to expand technological capabilities, it has mounted in the upper part of the housing guide cone for fractionation of the cleaned mass an outlet, coaxial to the disk, and a branch pipe for removing the short-fiber cleaned mass located above the outlet of the cone, the axis of rotation of the disk being offset relative to the vertical axis of the housing. 2. Fractionator by π. 1, characterized in that the mass supply pipe is equipped with a flow turbulence damper. §