Reject chamber of a centrifugal cleaner and a centrifugal cleaner

Abstract

A centrifugal cleaner with a reject chamber (1) having a center dilution arrangement (3) with a dilution nozzle (4) to deliver dilution fluid to the reject chamber (1), and a reject outlet (7) at the bottom of the reject chamber (1). The dilution nozzle (4) points outwards to create a crossing outward flow of dilution fluid across an annular space (5) around the dilution arrangement (3) to slow circulating fluid flowing down from a cone (2) of the centrifugal cleaner to the reject chamber (1). The dilution arrangement (3) may have a clearing nozzle (6), directed against the reject outlet (7). The dilution nozzle (4) may be pointed below the bottom end (9) of the cone (2) and the dilution arrangement (3) may not extend higher than the bottom end of the cone.

Claims

1. A reject chamber assembly configured to releasably attached to a centrifugal cleaner, the reject chamber assembly comprising: a reject chamber below a lower region of an inverted cone of the centrifugal cleaner and the reject chamber is configured to receive rejects from a flow moving through the inverted cone; a dilution arrangement at a center of the reject chamber, wherein the dilution arrangement includes at least one dilution nozzle below the inverted cone and the at least one dilution nozzle is configured to discharge dilution fluid directly into the reject chamber; and a reject outlet at a bottom of the reject chamber; wherein the at least one dilution nozzle points outwards of the dilution arrangement and is configured to discharge a crossing outward flow of a dilution fluid directly into and across an annular space around the dilution arrangement and in the reject chamber, wherein the discharge from the at least one dilution nozzle slows circulating motion of fluid flowing down from the inverted cone of the centrifugal cleaner to the reject chamber.

2. The reject chamber assembly of claim 1, wherein the dilution arrangement includes a clearing nozzle below the inverted cone and the clearing nozzle is configured to discharge the dilution fluid towards the reject outlet to keep the reject outlet clear of rejected particles.

3. The reject chamber assembly of claim 2, wherein the at least one dilution nozzle includes a dilution nozzle at an opposite side of the dilution arrangement from the cleaner nozzle.

4. The reject chamber assembly of claim 1, wherein the at least one dilution nozzle includes dilution nozzles arranged symmetrically relative to a plane of symmetry defined by a center axis of the reject outlet and a central axis of the dilution arrangement.

5. The reject chamber assembly of claim 1, wherein the at least one dilution nozzle includes dilution nozzles aligned horizontally and angles between adjacent ones of the dilution nozzles differ by less than 45 degrees from a direction of an inside radius of the dilution arrangement.

6. The reject chamber assembly of claim 1, wherein the at least one dilution nozzle points upwards at an angle of no more than 60 degrees from a horizontal plane.

7. The reject chamber assembly of claim 6, wherein that the at least one dilution nozzle points upward by no more than 45 degrees from the horizontal plane.

8. The reject chamber assembly of claim 2, wherein the at least one dilution nozzle includes a dilution nozzle, wherein the dilution nozzle and the clearing nozzle are aligned with a center axis of the reject outlet.

9. The reject chamber assembly of claim 1, wherein the dilution arrangement is positioned asymmetrically relative to an inner wall of the reject chamber.

10. The reject chamber assembly of claim 1, wherein the at least one dilution nozzle points upward towards a bottom end of the inverted cone.

11. The rejected chamber assembly of claim 10, wherein the at least one dilution nozzle of the dilution arrangement is no higher than the bottom of the inverted cone of the centrifugal cleaner.

12. A centrifugal cleaner assembly comprising: a centrifugal cleaner including an inverted conical chamber; and a reject chamber assembly removably attached to a lower region of the centrifugal cleaner, wherein the reject chamber assembly includes: a reject chamber at least partially below the inverted conical chamber configured to receive rejects from a flow moving through the inverted conical centrifugal cleaner; a dilution channel extending into the reject chamber, wherein the dilution channel includes a flow path configured to receive a dilution liquid and nozzles below the inverted conical chamber, wherein the nozzles are configured to discharge the dilution liquid from the flow path directly into an annular space within the reject chamber, wherein the annular space is below the inverted conical chamber and formed between at least one outer wall of the dilution channel and at least one inner wall of the reject chamber; and a reject outlet extending from a lower region of the reject chamber, wherein the nozzles include at least one upwardly oriented dilution nozzle configured to discharge the dilution fluid directly into the annular space at an upward angle with respect to a horizontal plane.

13. The centrifugal cleaner assembly of claim 12, wherein: the reject outlet has a center axis angled downwardly relative to the horizontal plane, and the at least one upwardly oriented dilution nozzle includes a first dilution nozzle aligned with the center axis of the reject outlet.

14. The centrifugal cleaner assembly of claim 12, wherein the at least one upwardly oriented dilution nozzle is a plurality of upwardly oriented dilution nozzles, wherein the plurality of upwardly oriented dilution nozzles are each offset at opposite horizontal angles from a line in the original plane aligned with an axis of the reject outlet.

15. The centrifugal cleaner assembly of claim 12, wherein the at least one upwardly oriented dilution nozzle is a single upwardly oriented dilution nozzle having an axis aligned with the center axis of the reject outlet.

16. The centrifugal cleaner assembly of claim 14, wherein the each of the plurality of upwardly oriented dilution nozzles each have a respective axis which is not aligned with a radius from a vertical axis of the dilution channel.

17. The centrifugal cleaner assembly of claim 12, wherein the nozzles include a clearing nozzle oriented to discharge the dilution fluid towards an inlet of the reject outlet and at a downward angle with respect to the horizontal plane.

18. The centrifugal cleaner assembly of claim 15, wherein the nozzles include a clearing nozzle arranged to direct the dilution liquid downward towards the reject outlet, wherein the upward oriented dilution nozzle is at an opposite side of the dilution arrangement from the cleaner nozzle.

19. The centrifugal cleaner assembly of claim 12, wherein an upper end of the dilution channel is at or below a bottom end of the centrifugal cleaner.

Description

LIST OF DRAWINGS

(1) FIG. 1 illustrates vertically cut view of a bottom area of a centrifugal cleaner and

(2) FIG. 2 illustrates horizontally cut view of a dilution arrangement.

(3) The centrifugal cleaners can be assembled in other than vertical attitudes, but in this disclosure, the mentioned orientations refer to the attached drawings.

DETAILED DESCRIPTION OF THE INVENTION

(4) FIG. 1 illustrates cut view of a bottom area of a centrifugal cleaner. A reject chamber 1 is attached under a cone 2 of a centrifugal cleaner. On the bottom of the reject chamber 1 is a central dilution arrangement 3 and a reject outlet 7. A dilution inlet 8 leads dilution fluid into the dilution arrangement 3. A dilution nozzle 4 of the dilution arrangement 3 is aligned preferably upwards at an angle and will accomplish a sharp outward flow of dilution fluid across an annular space 5 around the dilution arrangement 3. The dilution nozzle should be at the topmost part of the dilution arrangement 3. The bottom end 9 of the cone 2 is at the end of the conical cyclonic part, not at the lowest point of the outwards tapered end of the cone part, which will divert the dilution flow downwards and outwards. The dilution arrangement 3 can be an integral part of the reject chamber 1 or it can be an insert attached to it. The dilution arrangement 3 may not be aligned precisely at the symmetric center of the reject chamber 1. A slightly asymmetric position relative to the inner walls of the reject chamber 1 may further optimize the separation characteristics by minimizing inflow of acceptable particles to the reject outlet 7.

(5) Preferably the dilution arrangement 3 has also a clearing nozzle 6. The clearing nozzle 6 is aligned to produce a sharp flow against a reject outlet 7. Then rejected particles will not build up a blockage on the reject outlet 7. The alignment preferably aims at the center of the reject outlet 7 but may also be aligned a bit upwards or downwards or aside of the center for optimizing the cleaning function. The dilution effect of the cleaning flow is reduced as the flow will go quite directly into the reject outlet 7. For making for example drilling and mould based manufacturing methods easier, the dilution nozzle 4 and the clearing nozzle 6 have the same central axis with the reject outlet 7. The diameters of the dilution nozzle 4 and the clearing nozzle 6 do not have to be equal and their inner shapes can be slightly tapered or have other substantially tubular shapes for optimizing properties of outflow. The clearing nozzle 6 should be at a lower level than the dilution nozzle.

(6) FIG. 2 illustrates an embodiment of three dilution nozzles 4 with horizontal alignments having different pointing angles . The angle is formed between their horizontal central axis and radius R of the dilution arrangement 3. In this embodiment, the dilution nozzles 4 are arranged symmetric. The plane of symmetry is defined by the center of the reject outlet 7 and the central axis of the dilution arrangement 3. The angles of the nozzles may also be pointed differently than illustrated in FIG. 2, for example against a specified vortex direction and to other vertical alignments.