KR200319149Y1 - screw conveyor structured cylindrical centrifugal machine capable of separating minutely powdered solid - Google Patents

Abstract

The present invention is to provide a screw conveyor-cylindrical centrifuge that can effectively separate the fine powdery solids remaining in the liquid after the large-sized solid is separated in one screw conveyor-cylindrical centrifuge. The centrifugal separator is a cylindrical-screw conveyor type centrifuge in which the slurry supplied to the liquid is separated into a solid and a liquid through the high-speed rotation of the cylinder and the screw conveyor, and then the solid is discharged to the solid discharge port and the liquid to the liquid discharge port. To the liquid outlet of the first centrifugal separator by connecting a second symmetrical centrifuge of the cylinder and the screw conveyor to centrifuge the liquid separated from the first centrifuge to separate and discharge even the fine powdery solid. It is characterized by such a configuration.

Description

Screw conveyor structured cylindrical centrifugal machine capable of separating minutely powdered solid}

The present invention primarily relates to a screw conveyor-cylindrical centrifuge which enables the effective separation of fine powdery solids remaining in a liquid from which solids are separated.

The screw conveyor-cylindrical centrifuge for slurry is attached to the inner surface of the cylinder by rotating the cylinder and the screw conveyor placed therein in the same direction with a slight difference in rotational speed while supplying the slurry into the warhead rotary cylinder. The solids which have settled down are discharged to the solid outlet formed on the small diameter side and the liquid accumulated at the bottom of the large diameter side of the cylinder is discharged to the liquid outlet.

In such a screw conveyor-cylindrical centrifuge, the liquid separated from the solid is usually mixed with fine solids, so it is practically difficult to separate the fine powdery solids to perfection with only one centrifugation operation.

It is an object of the present invention to provide a screw conveyor-cylindrical centrifuge which can very effectively separate fine powdery solids remaining in a liquid after large-sized solids are separated in one screw conveyor-cylindrical centrifuge.

The problem of the present invention is that the slurry supplied into the cylinder is separated into a solid and a liquid through the high-speed rotation of the cylinder and the screw conveyor in the same direction, and then the solid is discharged into the solid outlet and the liquid is discharged into the liquid outlet. A screw conveyor type centrifuge is used as a first centrifuge, and a second centrifuge which is symmetrical to the cylinder and screw conveyor is connected to the liquid outlet side of the first centrifuge to reconnect the liquid separated from the solid in the first centrifuge. Centrifugation separates fine powdered solids from the liquid and discharges them, so that the separation of solids is more effective and the turbidity of the liquid from which the solids are separated can be significantly reduced.

1 is a partial cross-sectional view of a screw conveyor-cylindrical centrifuge for slurry having a second centrifuge according to the present invention

2 is a reference diagram schematically showing a state in which a cylinder and a screw conveyor are dynamically connected to a plurality of output sides of a gearbox.

3 is a longitudinal side view of a compartment portion;

<Description of the symbols for the main parts of the drawings>

A: first centrifuge

1: cylinder 2: screw conveyor

3: slurry feed line 6: solid outlet

7: liquid outlet

B: second centrifuge

21: second cylinder 22: second screw conveyor

25: second solid outlet 26: compartment

29: (extended) frame

In FIG. 1, a screw conveyor-cylindrical centrifuge for slurry is composed of a rotary cylinder 1, a screw conveyor 2, a slurry feed tube 3, and a drive means 4.

The cylinder 1 is a cylinder 1 in a state in which the tube shaft 13 and the other coaxial axis in the omitted coaxial direction formed at the end of the cylinder 1 at the opposite position of the tube shaft 13 are supported by the frame 14 so as to be rotatable. The solid (cake) from which the liquid is separated from the slurry supplied into the discharge portion has a conical portion (5) resembling a warhead, and the solid separated from the liquid has a solid discharge hole formed on the small diameter portion of the conical portion (5). The liquid exiting 6) and separated from the solid is discharged out of the air through the liquid outlet 7 formed on the large diameter portion.

The screw conveyor 2 is provided in the cylinder 1 concentrically. The spiral feed vanes 8 of this screw conveyor 2 formed along the contour of the inner cross section of the cylinder 1 collect and discharge the solid toward the solid outlet 6 from the rear end of the cylinder 1.

And the slurry supply pipe (3) is supplied from the outside through the open nozzle (10) arranged to penetrate through the center of the rotary shaft (9) radially through the center from the rear end of the rotary shaft (9) of the screw conveyor (2) The slurry is fed into the cylinder 1 as if it were scattered.

Referring to FIG. 2, the driving means 4 includes a tube shaft 13 of the cylinder 1 on two large and small output gears G1 and G2 built in the gearbox 12 using the motor 11 as a power source. And large and small driven gears g1 and g2 provided on the rotary shaft 9 of the screw conveyor 2 to rotate at high speed in the same direction with a differential speed. Rotation is slightly faster for the cylinder 1 than for the screw conveyor 2. For example, if the rotation speed of the cylinder 1 is 2000 rpm, the rotation speed of the screw conveyor 2 is 1950 rpm.

Again in FIG. 1, the present invention uses a screw conveyor-cylindrical centrifuge for slurry as a first centrifuge A, and at the rear end of the cylinder 1 of the first centrifuge A, a second symmetrical to this. A cylinder 21 is connected in the coaxial direction, and at the rear end of the screw conveyor 2, a spiral feed vane 23 of the rotary shaft 24 is formed in a direction opposite to the feed vane 8 of the conventional screw conveyor 2. The screw conveyor 22 is connected in the coaxial direction, and a second liquid discharge port 25 is drilled in the rear end of the second cylinder 21 to form a second centrifugal separator B. And the slurry supply pipe 3 extends by the length corresponding to the length of the rotary shaft 24 of the second screw conveyor 22, the liquid separated from the solid in the second centrifuge (B) is the existing liquid outlet (7) Make it public.

As the new second centrifuge B is added to the existing first centrifuge A as described above, the tube axis formed on the opposite side of the tube axis 13 shown in the cylinder 1 is the second centrifuge. It moves to one end of the cylinder 21 of the part B, and attaches it. Reference numeral 28 is that tube axis. The frame 29 is also enlarged to correspond to the length of the second centrifuge B in the existing frame 14 so as to simultaneously support the tube shafts 13 and 28 of the first and second cylinders 1 and 21. .

The plate 26 is attached to the boundary between the rotation shafts 9 and 24. The slab 26 is formed of a disk of a diameter slightly smaller than the inner diameter of the portion where the cylinder 1 is located, leaving a fine gap 27 between the inner peripheral surface of the cylinder 1 of the portion (see FIG. 3). . The minute gap 27 serves as a passage through which the liquid separated from the solid in the primary centrifuge A and the fine powdery solid mixed in the liquid exit to the second centrifuge B.

Reference numeral 30 denotes a suction vane, which is a dehydration accelerator for attaching to an outer portion of the liquid outlet 7 and rotating along the cylinder 1 to promote the discharge of the liquid in the cylinder 1 in which the solid is separated. Suction vanes 30 are an optional addition if needed to promote dehydration.

When the motor 11 is operated, the gearbox 12 rotates the cylinder 1 and the screw conveyor 2 at high speed in the same opposite direction with differential speeds. In this way, a slurry is supplied to the slurry supply pipe 3 during operation. The slurry is blown into the nozzle 10 of the slurry feed pipe 3 and scattered into the cylinder 1.

Solids in the slurry may be precipitated to the bottom of the cylinder (1), and sometimes attached to the inner surface of the cylinder (1) above the water surface. The screw conveyor 2 collects solids and deposits attached to the inner circumferential surface of the cylinder 1 and transfers them to the solid discharge port 6 for discharge. The liquid separated from the solid is naturally located at the lower side of the large diameter portion of the cylinder 1 and then flows into the second centrifuge B through the minute gap 27 formed at the edge of the compartment 26. At this time, fine powdery solid mixed in the liquid is also introduced. The fine solid refers to a size that is smaller than or equal to the size that can flow into the second centrifuge B through the fine gap 27. The liquid mixed with fine powdery solid is turbid.

In the first centrifugation process, the liquid is discharged when the liquid outlet 7 returns to a lower level than the level of the cylinder 1 as the cylinder 1 rotates. Re-separation of solids by (B).

The fine powdery solid in the liquid which is separated from the first centrifuge A and is not discharged and enters the second centrifuge B through the fine gap 27 may be precipitated in the lower portion of the cylinder 21, and some It may be buried on the inner surface of the rotating cylinder 21. In this process, the second screw conveyor 22 collects solids and deposits attached to the inner circumferential surface of the cylinder 21 and transfers them to the second solid outlet 25 for discharge. Here, the liquid in which the fine powdery solid is separated is collected at the lower side of the large diameter portion of the cylinder 21 and discharged to the existing liquid outlet 7. The liquid separated from the fine powdery solid is clearer than the liquid after primary solid separation. Thus, even if discharged to a river, it pollutes much less water.

As described above, the present invention uses a conventional screw conveyor-cylindrical centrifuge as a first centrifuge, and connects a second centrifuge in which the cylinder and the screw conveyor are symmetrical to the first centrifuge, and the first and second screws. At the boundary of the rotation axis of the conveyor, a plate is installed to allow fine powdery solids remaining in the liquid separated from the first centrifuge to flow into the second centrifuge and be removed from the first centrifuge. Since no fine powdery solid can be separated and discharged even in the second centrifuge, the turbidity of the liquid from which the solid is separated can be significantly lowered.

Claims (1)

A warhead type with a solid outlet 6 formed in the small diameter part and a liquid outlet 7 formed in the large diameter part, and the tube shaft 13 placed on the solid discharge port 6 side connected to the relay gear in the gearbox 12. The tube shaft 13 end of the rotating shaft 9 having a cylinder 1 and a spiral feed vane 8 which collects solids in the slurry and feeds them toward the solid discharge port 6 is connected to the other relay gear side of the gearbox 12. A slurry supply pipe provided with a screw conveyor (2) embedded in the cylinder (1) so as to be connected to the cylinder (1), and a nozzle (10) passing through the center of the rotating shaft (9) and radially penetrating the rotating shaft (9) ( A primary centrifuge (A) consisting of 3); A second cylinder 21 symmetrical with the cylinder 1 and having a second solid outlet 25 formed at its distal end; a second rotation shaft 24 coaxially connected to the rotation shaft 9; A fine gap 27 remains between the helical feed vane 23 of the rotating shaft 24 formed in the direction opposite to the helical direction and the inner peripheral surface of the cylinder 1 of the portion at the boundary point of the rotating shafts 9 and 24. Frame extended from the existing frame 14 to support the attached slab 26, the slurry supply pipe 3 extending through the second rotating shaft 24, and the tube shaft 28 of the second cylinder 21. A screw conveyor-cylindrical centrifuge capable of separating fine powdery solids, comprising a second centrifugal separator (B) comprising (29).