GB2239924A

GB2239924A - Double epicyclic gear transmission

Info

Publication number: GB2239924A
Application number: GB9000343A
Authority: GB
Inventors: Colin Reynolds
Original assignee: Alfa-Laval Sharples Ltd; Alfa Laval Sharples Ltd; Alfa Laval Separation Inc
Current assignee: Alfa-Laval Sharples Ltd; Alfa Laval Sharples Ltd; Alfa Laval Separation Inc
Priority date: 1990-01-08
Filing date: 1990-01-08
Publication date: 1991-07-17
Anticipated expiration: 2010-01-08
Also published as: CA2072043A1; GB9000343D0; JPH05502928A; EP0510053A1; WO1991010846A1; GB2239924B

Abstract

A gearbox for transmitting drive from the bowl of a decanter centrifuge to its screw conveyor comprises a double epicyclic gear train in which idler gears (G1) are inserted in the first stage between the sun (S1) and planet gears (P1) thereof to reverse the sense of rotation of the carrier (4) which is fast with the sun gear (S2) of the second stage, in order that the second stage carrier is rotatable in the same direction as the ring gear and at a higher speed.

Description

Centrifuge Gearboxes This invention relates to gearboxes for centrifuges and in particular, but not exclusively decanter centrifuges.

Decanter centrifuges are centrifugal machines employed for separating large quantities of particulate solids from liquids. They comprise a bowl which is rotated at high speed to effect separation, forming an outer layer of solids against the inner surface of the bowl, and a screw conveyor which is rotated relative to the bowl to displace the solids axially towards an outlet at one end of the bowl.

The present invention is concerned with gearboxes for coupling the screw conveyor of a decanter centrifuge to the bowl to provide the desired relative rotation between the bowl and the conveyor.

It has long been known to employ double epicyclic gear boxes for this purpose, but it has been accepted that this imposes the limitation that the screw conveyors will rotate slower than the bowl when the first stage sun gear is stationary or is rotated at less than the bowl speed.

In accordance with a feature of the invention, there is provided a gearbox for a decanter centrifuge, comprising a double epicyclic gear train having a first stage comprising a sun gear, a ring gear coupled to the bowl for rotation therewith and planet gears mounted on a carrier, the second stage comprising a sun gear fast with the first stage carrier, a ring gear coupled to the bowl for rotation therewith, and planet gears mounted on a carrier which is coupled to the screw conveyor, and wherein one of the said stages comprises idler gears which couple the sun gear of that stage to the corresponding planet gears.

In the embodiment described below, the idler gears are incorporated in the first stage.

With this arrangement, it is possible to drive the screw conveyor at a faster speed than the bowl.

In terms of separating efficiency it is often advantageous to drive the conveyor faster than the bowl, primarily to reduce slippage of the solids and liquids when the conveyor rotates slower than the bowl. However, it has not hitherto been possible to achieve this desirable characteristic using an epicyclic gearbox.

One form of the decanter centrifuge gearbox will now be described, by way of example only, with reference to the accompanying drawings, in which: Fig. 1 is a diagrammatic axial cross-section of the gearbox; and Fig. 2 is an end view illustrating the gearing in the first stage of the gearbox.

The gearbox shown in the drawings comprises a housing 1 having a tubular extension 1A fast with the bowl of a decanter centrifuge. The transmission gearing takes the form of a two-stage epicyclic gear train. The first stage comprises a sun gear S1 which is held stationary by virtue of its spindle 3 being fixed by a torque arm (not shown) external of the housing 1. Two (or more) idler gears G1 mounted on a carrier 4 mesh, on the one hand with the sun gear S1 and on the other hand with two (or more) respective planet gears P1, also mounted on the carrier 4. The planet gears mesh with a ring gear R1 fixed to the housing 1. The housing 1 constitutes the drive input member and the output member of the first stage train is the carrier 4.

The second stage comprises a sun gear S2 fast with the carrier and co-axial therewith, planet gears P2 mounted on a carrier 6 and a ring gear R2 fast with the gear box housing. The final drive or output is a driven shaft 7 fast with the carrier 6, fast with the screw conveyor (not shown) of the decanter centrifuge.

With this arrangement, the screw conveyor is coupled to the bowl for rotation in the same direction as the bowl but at a higher speed.

According to the operating requirements of the centrifuge, the difference in speed between the bowl and the conveyor screw might typically be in the range of about 1 r.p.m to 80 r.p.m, although higher differential speeds may be provided for in some applications.

Purely by way of example, the gearing in the illustrated gear box may be as follows, where "t" indicates the number of teeth in the indicated gears: First stage : S1-9t; G1-45t; P1-50t; R1-135t Second stage: S2-10t; P2-28t; R2-68t.

In this case the speed of rotation of the conveyor relative to that of the bowl will be 1.009:1 (more exactly 110.2:109.2). In absolute terms, if the bowl rotates at a typical operating speed of 3000 r.p.m, the conveyor will rotate at 3027 r.p.m. in the same direction.

As described in the foregoing the sun gear S1 of the first stage is held stationary which is usual, but it is also possible for the sun gear S1 to be rotated, which has the affect of altering the speed ratio of the conveyor relative to the bowl. Rotating the sun gear in the same direction as the bowl will cause the speed of the conveyor relative to the bowl to decrease, while rotating the sun gear in the opposite direction will cause the speed of the conveyor relative to the bowl to increase. Usually the speed of the sun gear in any direction will not exceed the speed of the bowl, but when operating in a reverse direction to the bowl, higher sun gear speeds are possible to further increase the speed of the conveyor relative to the bowl.

Claims

Claims:

1. A gearbox for a centrifuge, comprising a double epicyclic gear train having a first stage comprising a sun gear, a ring gear coupled to the bowl for rotation therewith and planet gears mounted on a carrier, the second stage comprising a sun gear fast with the first stage carrier, a ring gear coupled to the bowl for rotation therewith, and planet gears mounted on a carrier which is coupled to a screw conveyor, and wherein one of the said stages includes idler gears which couple the sun gear of that stage to the corresponding planet gears.

2. A gearbox according to claim 1, wherein the said idler gears are incorporated in the first stage of the epicyclic train.

3. A gear box according to claim 1 or 2, wherein said first stage idler gear is rotatable with respect to ground.

4. A gear box according to claim 1, 2 or 3 wherein the speed of the first stage idler gear is controlled to alter the relative speed of the second stage carrier to that of the ring gear.

5. A gearbox for a decanter centrifuge, substantially as herein described with reference to the accompanying drawings.