The present invention relates to a screw centrifuge for wet mechanical separation of solids according to their density.
This is generally implemented by a rotating, cylindrical drum with two conical drums connected to it and openings for discharge of the separated material as settleable solids and floating solids and of the separating liquid. A rotating shaft with openings for infeed of the solids to be separated is provided, where the shaft has two screw flights working in opposite directions. A baffle disc is arranged on the shaft in axial direction between the infeed opening for the substances to be separated and the discharge opening for the settleable solids. The outer flight of the screw for the settleable solids surrounds the inner flight of the screw for the floating solids, and the flights work in opposite directions.
Screw centrifuges of this kind are known from EP 0 553 793 B1. Machines of this type have a limited throughput for the light or floating fraction. If the established throughput is increased, the machine becomes blocked with the product. Other similar machines are known from DE 195 16 636 A1 or EP 1485 205 B1. These types of machine are used for three-phase separation of substance mixtures, e.g. different plastic fractions and a separating liquid. By choosing suitable densities of separating liquid, it is also possible to separate into several different fractions in multi-stage processes. In addition, DE 3134935 A1 describes a decanter centrifuge for separating a solids phase and two liquid phases. In this case, it is not possible to separate a light or floating fraction. The decanter centrifuge in DE 2612696 also cannot separate floating solids. It separates floating and heavy solids that are deposited on or carried by gravity onto the inner circumference of the centrifugal drum. U.S. Pat. No. 2,528,974 describes a centrifugal separator for separating solids and liquids, but three-phase separation is not possible here either. The spiral separator in U.S. Pat. No. 4,781,822 separates two kinds of particles according to density or size.
The object of the present invention is to achieve better separation and higher throughput in three-phase separation.
This is achieved in that the screw for the floating solids is designed as a multi-channel screw. With this feature, the throughput can be increased substantially while maintaining the same separation result and residual moisture in the product, and there is also a significant reduction in plugging/blocking of the machine in spite of the higher throughputs.
A favorable embodiment of the invention is characterized in that the screw flight for the settleable solids extends as far as the drum and the screw flight for the floating solids has a smaller outer diameter than the inner diameter of the screw flight for the settleable solids. With this measure and the two flights working in opposite directions, the light fraction that floats on the separating liquid can be transported from the inner flight to the light fraction discharge while the heavy fraction sinks, collects on the wall of the drum, and is transported by the outer flight to the discharge point at the opposite end. The separating liquid is discharged separately here through nozzles.
A favorable development of the invention is characterized in that the part of the screw flight for the settleable solids that surrounds the flight for the floating solids is also connected to it, preferably by welding. Thus, there are no additional supports required that could obstruct the path of the separated material.
An advantageous development of the invention is characterized in that the screw for the settleable solids is designed as a multi-channel screw. The total capacity of a screw can be increased by selecting suitable channels and pitch.
The quantity of product (the aggregate material in front of the flight) conveyed through the respective flight channel is significantly less than with a single-channel flight. This makes the process more stable as well as helping to separate the product fractions, transport the respective fraction, and separate it from the separating medium at significantly higher throughputs.
Embodiments of the invention will now be described in the following in examples and referring to the drawing, where
The known separating device 10 in
The invention is not limited by the examples in the drawings. The edges of the flights can also be protected against excessive wear by means of wear pieces.
In summary of the present disclosure, a screw centrifuge for wet mechanical separation of solids according to their density that has a rotating, cylindrical drum with two conical drums connected to it, with openings for discharge of the separated material as settleable solids and floating solids and of the separating liquid, and a rotating shaft with openings for infeed of the solids to be separated, where the shaft has two screw sections with respective flights working in opposite directions, where a baffle disc is arranged on the shaft in axial direction between the infeed opening for the substances to be separated and the discharge opening for the settleable solids. In addition, an outer flight of the screw section for the settleable solids surrounds a multi-channel flight of the screw section for the floating solids, where the flights work in opposite directions. The outer flight of the screw section for the settleable solids can also have several channels. This enables a particularly high throughput with continuing, high selective separation and the same low residual moisture content. The invention also relates to a screw conveyor for a screw centrifuge of this kind.
Number | Date | Country | Kind |
---|---|---|---|
A 50367/2016 | Apr 2016 | AT | national |