Patent Grant
9931643
The invention relates to a decanter centrifuge of the type having a scroll conveyor rotatable around a preferably horizontal axis of rotation mounted substantially concentrically within a rotating bowl.
Such systems are known from, e.g., U.S. Pat. No. 5,403,486. The system features scroll conveyor with a scroll hub including an inside surface and an outside surface, at least one passageway between the inside surface and the outside surface and a feed pipe in the center of the hub. A number of extensions form a multispray nozzle. This patent presents a rotating wash feed compartment to improve cake washing and an acceleration system of the feed by using U-shaped channels extending from the inside to the outside surface of a conveyor hub. The U-shaped channel communicates with an inwardly extending L-shaped baffle which opposes the Coriolis force. This design creates sudden feed acceleration by breaking particles or flocs and product accumulation behind baffles by reducing its effect quickly. The U-shaped channels extending to the outside of the conveyor has disadvantages in that the feed slurry is discharged in the pool in the form of concentrated jets which results in a remixing of already separated solids. As these channels are not filled full with liquid the air circulation is not well controlled because these kind of channels work as a fan by putting air under pressure. These systems are very complex and also tend to clog when a more sticky suspension is fed in.
US 2014/0005024 discloses a new feed chamber provided with a proximal cross wall, distal cross wall and wear resistance members which are extend on the all inner surface of the feed chamber. U.S. Pat. No. 3,568,920 presents a dismountable insert concerning a feed chamber for wear resistance. The raw materials are fed into the machine through a rotating feed pipe in a bushing feed chamber. The scroll is provided with an inner rotor fixed with bolts on the outside of scroll conveyor. It is possible to disassembly the inner rotor in order to change the bushing inserts. This scroll is complex to manufacture, the rotating feed pipe is difficult to seal and the nozzles of the feed chamber are not extended inside and outside of the feed chamber.
DE 40 41 868 shows a centrifuge with an insert for all the inside surface of the feed chamber made in one part for wear resistance. This cannot be replaced and this after this insert is worn the whole centrifuge scroll has to be dismantled and refurbished.
U.S. Pat. No. 5,380,266 shows a feed accelerator system with vanes inside a conical feed chamber is presented. This system improves the efficiency of the feed chamber by accelerating the product inside the feed chamber at the rotational speed of the scroll before to discharge in the pool of the centrifuge. Another accelerating system inside the feed chamber is presented in the U.S. Pat. No. 5,401,423.
A traditional decanter runs at high speed and the feeding of the machine is at zero rotational speed of the product. One of the difficulties is to bring the feed at the bowl speed with high efficiency, low shear rate (smooth acceleration to avoid breaking of particles or flocs) and without having important wear. During operation of a centrifuge wear may occur inside of the feed chamber and at the discharge ports. It is often necessary to carry out a cut of the scroll, a new welding and new balancing. Standard feed chambers are made for high hydraulic efficiency or wear protection or easy maintenance but not all these futures in the same time.
The present invention is directed to an improved decanter centrifuge and to an improved feed chamber for a decanter centrifuge.
To avoid the disadvantages of the state of the art, the present invention features a number of nozzles extending from a distribution chamber inside of the scroll hub to the outside and a plurality of accelerator inserts on the inside surface of the distribution chamber, between the nozzles.
These inserts ensure a good and gradual acceleration of feed into the inlet nozzles and in addition provide an effective protection of the feed chamber wall. This arrangement with nozzles and accelerator inserts offers the possibility to effect repairs of the scroll directly on site in a short time. The disclosed distribution chamber feeds the scroll of the scroll conveyor, with high efficiency, smooth product acceleration, wear protection and easy maintenance. With such system it can be ensured that the wear is distributed over all inlet nozzles even.
An advantageous embodiment of the invention is characterized by the nozzles fixed on the hub of the scroll conveyor with bolts. They may be easily dismantled and also exchanged if necessary, e.g., when they are worn.
The accelerator inserts may have a curved or wave shaped form, may be made from polyurethane or may have a smooth surface.
In the disclosed embodiment, the decanter centrifuge comprises a rotatable bowl extending along a centrifuge axis of rotation with a rotatable scroll conveyor mounted coaxially within the bowl. The scroll conveyor includes a hub, a hub inside surface, a hub outside surface, and a helical winding along the outside surface. A feed pipe passes centrally within the hub and leads into a feed chamber within the hub. A plurality of nozzles extend radially outward from an internal wall of the feed chamber to the outside surface of the hub. In a key feature, a plurality of inserts are mounted on the internal wall of the feed chamber, each adjacently between two nozzles.
Each insert is mounted between the feed pipe and the nozzles such that all flow from the feed pipe to the nozzles passes along an internal surface of an insert.
Preferably, the feed chamber includes a conical acceleration chamber followed by a distribution chamber, and the nozzles and inserts are located in the distribution chamber. The distribution chamber is cylindrical, with an axial length, and each insert is mounted circumferentially on the internal wall of the distribution chamber between circumferentially spaced nozzles, with each insert having a length that is at least most of the axial length of the distribution chamber.
As directed to a feed chamber, the invention comprises a rotatable scroll conveyor including a hub and at least one helical winding, the hub including a feed chamber having an inside surface and an outside surface, and a feed pipe in the center of the hub leading to the feed chamber. A plurality of nozzles are spaced circumferentially in and extend from inside to outside of the feed chamber. Accelerator inserts are provided on the inside surface of the feed chamber circumferentially between the nozzles.
Aspects of the invention will described below with reference to the accompanied drawing, in which:
The cross section of the nozzles 10 can be rectangular, oval or round or have any other shape. The outside extension of the nozzles is made up to pond level 9 in order to avoid discharge of the product in the pool 9a as a splash and to avoid air flow through the nozzles 10. This will avoid product re-suspension in the pool 9a in the region of the feed chamber 4 and air under pressure inside the machine, especially for the decanter centrifuges operating at high pond level (close to the scroll hub or submerged scroll conditions). The inner surface 11 of the nozzles 10 is protected with ceramics, tungsten carbide or any other wear resistant protection. The fixation of the nozzles is made with bolts 17, on the hub 8 of the scroll 2. The accelerator inserts 16 are made in polyurethane, stainless steel with wear resistant protection on inner surface or any wear resistant material. The sizes of these accelerator inserts 16 are such that it is possible to install them through the opening of scroll 2 before mounting the nozzles 10. The fixation of such accelerator inserts 16 is made in circumferential direction by the extension inside of two consecutives nozzles 10 inside the feed chamber 4 and axially by end wall 12 and fixation ring 15. This arrangement with nozzles 10 and accelerator inserts 16 offers the possibility to effect repairs of the scroll 2 directly on site in a short time.
The inside extension of the nozzles 10 is made up to the level of the accelerator inserts 16 in order to avoid high shear or stagnation flows inside the feed chamber 4.
The invention is not limited to the embodiments of the drawings but seen in the scope of the claims. Especially the form of the accelerator inserts can be different from the ones shown and the material of the accelerator inserts and nozzles can be different from the ones presented.
| Number | Date | Country | Kind |
|---|---|---|---|
| 15172828 | Jun 2015 | EP | regional |
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| Number | Date | Country |
|---|---|---|
| 40 41 868 | Dec 1990 | DE |
| 3106230 | Dec 2016 | EP |
| Number | Date | Country | |
|---|---|---|---|
| 20160368002 A1 | Dec 2016 | US |
