DE2409224C3 - Device for classifying solid components of a liquid mixture - Google Patents

Description

The invention relates to a device for classifying solid components of a liquid mixture with a frustoconical container which is rotatably mounted about its vertical axis and its small one End surface forms the bottom of the container, with feed devices for the mixture to be classified Bottom of the container and with several, axially in the so Settling zones arranged at a distance from one another and provided with outlet openings in the container side wall, which can be rotated together with the container.

In a known device of this type (US-PS 73421) the mixture is along the container side wall out until it meets projections protruding into the interior of the container. The space below the Projections serve as a settling zone. These settling zones do not have a clear demarcation from the inside of the container on. The consequence of this is that in these settling zones, in which the flow of the mixture is directed, there is considerable turbulence this turbulence will partly be constituents that are actually classified in the corresponding settling zone and should be led to the outside, further promoted upwards and on the other side components, the sedimentation zones that are only at a height! · classified should be outwardly in the wrong classification

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tion discharged An optimal, fine classification is therefore not possible with this known device. In addition, the necessary arrangement of retaining plates to avoid an unhindered Exit of the components on the one hand and the water distribution device for introducing jets of water through nozzles into the individual outlet slots between the respective retaining plate and the outer side of the respective side wall section for the controlled On the other hand, discharge of the constituents is quite expensive in terms of apparatus and relatively imprecise in terms of function and prone to failure

In other known devices for classifying solid components of a liquid mixture (DT-PS 4 22 615 and DT-AS 11 43 761) the settling zones are fixed in place through the outlet openings In the known devices, lighter solid components are usually ejected from the containers, which should not be classified at these openings, so that the fineness of the classification is only is relatively low. The one provided in DT-PS 4 22 615 A jet of liquid can only inadequately prevent this. With these known devices is therefore a Chiseled removal of certain fractions at predetermined times is not possible.

The object of the present invention is therefore to overcome the shortcomings of the known device to avoid and an apparatus of simple construction and not susceptible to failure of the initially called type, which enables an optimal fine classification of solid components. This object is achieved according to the invention in that the settling zones for receiving a predetermined Set of solid components and their outlet openings can be closed with valves, parts of the container side wall being arranged in each case between the settling zones. By delimitation between the settling zones designed to receive a predetermined amount of solid constituents and the interior of the container, according to the invention, the turbulence in the settling zones can be reduced considerably which brings about an improvement in the classification When the classification starts the individual settling zones are initially filled with appropriate parts of the mixture to be classified the mixture flows essentially past the settling zones, the mixture within the Settling zones, so to speak, forms a filter barrier for the flow of material into the settling zone, the heavy components are separated from the flow and enter the respective settling zone and then are deposited in the outer end sections of the settling zone oriented towards the outlet opening. Since there is only very little turbulence in the settling zones, deposits are once deposited in the settling zone solid constituents which, due to the filter barrier, also belong to the group to be classified in this settling zone of solid components belong, not thrown back into the main flow inside the container, which significantly improves the accuracy of the classification. This accuracy is ultimately also ensured by the Outlet openings closable with valves are increased, as this increases the discharge of the in the respective settling zone Deposited constituents can be carried out in a targeted manner, so that an undesired leakage of solid components that are not fermented in the relevant settling zone is prevented.

From US-PS 33 53 378 is a device per se

for the treatment of dirty washing water of a washing machine, in particular for separating the dirt from the water is known which is mounted rotatably about a vertical axis of rotation and having feed means for the dirty washing water to the bottom of the device and settling zones in dy wall of the device together with the device are rotatable and the outlet openings can be closed with valves, parts of the container side wall being arranged between the settlements. However, this known device is not suitable for a fine and precise classification of solid components

Advantageous embodiments of the invention, in particular for controlling the in the outlet openings provided valves are listed in subclaims

To further explain the invention, reference is now made to the drawings. In these drawings mean

Fig.! a schematic side view of the invention Classifying device ,,

Fig. 2: a section along the line 11-11 of Fig.l.

In the drawings, the reference numeral 10 denotes a classifying device, which consists of a container 12 consists, which can be set in rotation about the vertical axis 13. The container 12 has a feed end 14 and side walls 16 which diverge from the feed end. Several settling zones 30 are provided at different heights on paragraphs arranged at a distance from one another in the longitudinal direction.

The drive shaft 20 is rotatably mounted in a frame 22 and supported in suitable bearings 17; he is driven by a pulley 24 which is connected to a drive motor 26. The container 12 is connected to the drive shaft 20 via the radial arms 28. Radially protruding baffle plates 29 are firmly connected to the shaft 20, as are the walls 16 of the container 12.

As one can see from FIGS. 1 and 2, the settling zones 30 are at different heights in the longitudinal direction paragraphs arranged at a distance from one another are provided and have closable openings 31 on. In the settling zones 30 sensors 33 are provided which are operative with the valves 32 in the openings 31 are connected.

A stationary outer housing 34 surrounds the container 12. In the outer housing 34 there are baffle plates 36 arranged, which control the flow of the removed classified or sieved components. A stationary storage container 15, which surrounds the shaft 20 and the feed end 14 of the container 12, and a seal 37 has is also provided.

An inner wall 50 can also be provided, which is indicated in the drawing in dashed lines which is used to assist in directing the mixture into the settling zones

In use, into the device a mixture of, for example, sand particles that are suspended in water, added to the reservoir 15 and from there to the feed end 14 of the container out a result of the stirring action of the baffles 29 a centrifugal force acts on the mixture and moved it upwards in Direction of arrows 38 after the container has been set in rotation The heavier or larger portions of the sand settle in the lower settling zone and the lighter or smaller portions settle in the upper settling zones until essentially solid-free water flows off at 40 As soon as a certain amount of sand has settled in the settling zones, this is indicated by the sensors 33, whereupon the valves 32 open. As a result of the centrifugal force, the different sand fractions are emptied at different heights onto the stationary baffle plates 36, where they can be collected with the aid of suitable means (not shown).

With the aid of the device according to the invention, sand particles of less than 325 mesh (which corresponds to a size that ^{passes through a DIN test sieve with over 15,600 mesh / cm 2} ), which were suspended in water, could be separated.

By changing the width of the settling zones, the height of the same, the number of zones in a longitudinal shoulder or the speed of rotation, the number and quality of the fractions can be changed.

1 sheet of drawings

Claims (5)

Patent claims: 24 L Device for classifying solid components of a liquid mixture, with a cone-shaped container which is rotatably mounted about its vertical axis and whose small end surface forms the bottom of the container, with feed devices for the mixture to be classified towards the bottom of the container and with several, axially Settling zones arranged at a distance from one another and provided with outlet openings in the container side wall, which can be rotated together with the container, characterized in that the settling zones (30) are designed to receive a predetermined amount of solid components and their outlet openings (31) can be closed with valves (32) are, with parts of the container side wall (16) being arranged in each case between the settling zones (iO). 2. Device according to claim 1, characterized in that that each settling zone (30) has a sensor (33) for sensing the volume of the deposited Has components and the valves (32) of the settling zones (30) coupled to the sensors (33) are wherein the outlet openings (31) of the settling zones (30) are to be opened automatically when the volume of the deposited constituents exceeds the predetermined value 3. Device according to claim 1, characterized in that that the valves (32) are to be opened periodically at predetermined time intervals. 4. Device according to claims 1 to 3, characterized in that the outer end portions the settling zones (30) extend radially further outwards with increasing height. 5. Device according to claims I to 4, characterized in that the container (12) inner, having radial baffles (29) for stirring the mixture within the container (12) 40