NL1019902C2 - Method and device for classified suction of soil material. - Google Patents

Description

Method and device for classified suction of soil material.

The invention relates to a method for classifying sand sucked from a water bottom by means of a pump for separating therefrom the fraction with a small grain diameter and / or a low specific gravity, wherein the sand-water sucked up mixture is brought via a suction tube to a vessel present above the water level, or to the fixed shore.

In the known method, the separated fraction with no economic residual value is also recovered and classified.

This means that part of the sucked-up mixture is usually returned to the starting point via a cumbersome route. This of course causes energy loss and additional wear of the used transport members.

The invention now has for its object to obviate this drawback and to provide such a method that only the desired fraction is recovered, as a result of which less storage capacity is required, the environmental impact is lower and less wear of the transport members occurs.

The method according to the invention is characterized in that the sucked-in sand-water mixture is distributed from a point below the water surface over an area so that the sand present in it sinks down, whereby from a point lower than the distribution point Instead of an upward directed water flow being generated by means of water injection, the fraction with a small grain diameter and / or a low specific gravity will sink outside the sphere of influence of the upward directed water flow and the fraction with a larger grain diameter and / or a higher specific gravity the upwardly directed water stream sinks downwards and is collected there and discharged by means of a suction pipe.

The sucked-up sand-water mixture is thus divided into two fractions almost immediately after suctioning. Only the usable fraction is brought to the mainland.

1019302 2

The invention also relates to a device for applying the described method. This device is characterized by: a pump for sucking in a sand-water mixture; a first suction pipe connecting to the pump and provided with a suction opening; distribution means connected to the suction tube and spaced from the suction opening for distributing the mixture over a certain area; water injection means arranged between the suction opening and the distribution means for generating a water stream directed substantially towards the distribution means; collecting means lying below the water injection means for collecting the sand-water mixture and a second suction pipe connected to these collecting means.

A simple construction is obtained in that the distribution means for the sand-water mixture, the water injection means and the collection means are arranged around the first suction pipe.

For adapting the device to the prevailing conditions, according to a further elaboration of the invention, the device is designed such that the distance between the water injection means and the collection means is adjustable.

In order to always ensure the supply of sand to the suction opening 25, it can be provided that water jets are present near the suction opening.

Since the fraction with the larger grain diameter and / or the higher specific gravity must be able to fall downwards along the water injection means, the water injection means will be formed by nozzles provided with nozzles which extend from the first suction tube. extend radially outwards.

The tubes are hingedly connected to the first suction tube so that they can come close to it. This prevents damage to the tubes when the device is brought in and out of the water and the tubes get stuck in a collapsing sand mass.

The collection means for the fraction with a larger grain diameter can be formed by a suction mouth closed at the bottom, the side walls and the top wall of which are provided with perforations and to which suction mouth the second suction tube connects.

The invention is further elucidated on the basis of an exemplary embodiment of a device for applying the method shown in the drawing, in which:

FIG. 1 schematically shows a device when it is in the position of use at a water bottom; and

FIG. 2 schematically shows a top view of the device of figure 1, wherein certain parts have been omitted for the sake of clarity.

The device shown in the drawing comprises a pump 1, which is driven by the motor 2 and to which a first suction tube 3, provided with a suction opening 4, is connected. Distributing means 5 are connected to the suction tube 3 for distributing the sand-water mixture sucked in by the pump 1 over a certain area 6.

Water injection means 7 are provided at some distance below the distribution means 5, consisting of tubes 8 provided with nozzles 9 for generating a substantially upwardly directed water flow. The tubes 8 are connected by means of the hinges 10 to the suction tube 3 and, when the water flow is switched off, will come to hang along the suction tube 3 under the influence of gravity. When the nozzles 9 are in operation, the tubes 8 are pressed against the stop 11 connected to the suction tube 3 by the impelling of the water nozzles.

Water jets 12 are arranged around the suction opening 4 of the suction tube 3.

Below the water injection means 7 is the suction mouth 13, the bottom of which is closed and the side walls and the upper wall are provided with perforations 14. The second suction tube 15 connects to the suction mouth 13. The suction mouth 13 can be arranged on the suction tube 3 in such a way that it is adjustable with respect to it. The distance between the suction mouth 13 and the water injection means 7 can therefore be varied.

The device works as follows. By means of the pump 1, sand-water mixture is sucked through the suction opening 4 from the water bed 17 into the suction pipe 3. The aspirated mixture is distributed over the area 6 by the dividing means 5.

In the region 6, the fraction 18 with a large grain diameter and / or a high specific weight will sink downwards between the tubes 8 of the water-injector 7. The fraction 19 with a small grain diameter and / or a low specific gravity can settle outside the sphere of influence of the water flowing upwards from the nozzles 9 of the tubes 8, as indicated by the arrows P. To this end, the water flow will be directed such that the fraction 19 is pressed away in the direction of the already dredged path.

The downwardly falling fraction 18 ends up at the suction mouth 13 and is sucked from this through the second suction tube 15. This can feed the usable sand-water mixture to a line for transport to the fixed shore.

During the work the device will of course be moved in the horizontal direction in order to be able to suck in new sand. The slope 20 will therefore move.

When suddenly a part of the slope 20 collapses, the water jets 12 at the suction opening 4 will ensure that a mixture can nevertheless be sucked in.

It will be clear that only a single possible embodiment of a device according to the invention is shown in the drawing and described above and that many changes can be made without departing from the inventive concept as it is indicated in the claims.

claims 101 SHU?

Claims (8)

Method for classifying sand sucked from a water bottom (17) by means of a pump (1) for separating therefrom the fraction (19) with a small grain diameter and / or a low specific gravity, wherein the sucked-up sand-water mixture is brought via a suction tube (15) to a vessel present above the water level, or to the fixed shore, characterized in that the sucked-in sand-water mixture from a below-water level point is distributed over an area (6) so that the sand in it is sinking down, whereby from an area lower than the distribution point a water stream directed upwards is generated by means of water injection (7), so that the fraction (19) with a small grain diameter and / or a low specific gravity will sink outside the sphere of influence of the upwardly directed water flow and the fraction (18) with a larger grain diameter and / or a higher specific gravity against the upwardly directed water flow towards b drops and is collected there and discharged by means of a suction pipe (15). Device for applying the method according to claim 1, which device is characterized by: a pump (1) for sucking in a sand-water mixture; a first suction tube (3) connecting to the pump and provided with a suction opening (4); distribution means (5) connected to the suction tube (3) and spaced apart from the suction opening (4) for distributing the mixture over a certain area (6); water injection means (7) arranged between the suction opening (4) and the distribution means (5) for generating a water stream directed substantially towards the distribution means (5); collecting means (13) lying below the water injection means (7) for collecting the sand-water mixture and a second suction pipe (15) connected to these collecting means. Device according to claim 2, characterized in that the distribution means (5) for the sand-water mixture, the water injection means (7) and the collection means (13) are around the first suction pipe (3) applied. : ":" -. ./ •. · J .J) .y. ] Device according to claim 2 or 3, characterized in that the distance between the water injection means (7) and the collection means (13) is adjustable. Device according to one of claims 2 to 4, characterized in that water jets (12) are present near the suction opening (4). Device as claimed in any of the claims 2 to 5, characterized in that the water injection means (7) are formed by tubes (8) provided with nozzles (9) which extend radially outwards from the first suction tube (3) extend to it. Device according to claim 6, characterized in that the tubes (8) are hingedly connected to the first suction tube (3) so that they can come close to it. Device according to one of claims 2 to 7, characterized in that the collection means for the fraction with a larger grain diameter are formed by a suction mouth (13) closed at the bottom, the side walls and the top wall of which are provided with perforations ( 14) and to which suction nozzle the second suction pipe (15) connects.