NL1021740C2 - Suction lance, especially for dredging, has water inlet opening which can be sealed at bottom end of lance - Google Patents

Abstract

The inlet opening (13, 29) for water can be sealed at or close to the bottom end of the lance (4). The lance comprises an outer tube (5) and an inner tube (6), at least part of the inner tube being movable in an axial direction relative to the outer tube. Inlet and outlet openings (14, 28) for water are provided in the top and bottom ends of the lance. An Independent claim is also included for a soil removal method using this lance.

Description

4

Suction lance and method for removing soil.

The invention relates to a suction lance and a method for removing soil, in particular for extracting sand and / or lowering soil, above or under water, comprising an inner tube 5 included in an outer tube and, at or near both the upper and lower ends of the lance, inflow and outflow openings for a liquid, such as water or a suspension of water and sand, wherein at least a portion of the inner tube is movable in axial direction relative to the outer tube.

Such a suction lance and method are known from, for example, "Development in hydraulic deep dredging" by Prof. J. de Koning, Delft University of Technology, Mexico City, April 1981. In this publication a brief overview is given of the development of the removal of soil by means of a suction lance and furthermore a lance is described which is provided with a hydraulic cylinder with which the lower part of the inner tube can be moved up and down with a stroke of 6 meters. With this inner tube and with high-pressure water jets around the inflow opening of the lance, the lance is "buried" in a layer of sand that is located under a layer of sludge. During this process, sand is detached from the wall of the well and sucked up (Figure 14). In addition, the water jets contribute to the production and further increase of the well and the soil (Figure 15). The thus fluidized sand carries the soil layers above. Furthermore, the heavy sand particles sink to the bottom and the sludge particles rise, so that the quality and usability of the recovered material is improved.

A similar suction lance is shown and described in a brochure entitled "Deepdredging marks the start of a new era" by Ballast Nedam.

H In practice, such a method H has proved insufficiently stable. The different layers collapse at difficult-to-control moments, the upper H soil layers are disrupted and the material to be recovered is H 5 too much mixed with undesirable material.

The object of the invention is to improve the lance described in the first paragraph.

For this purpose, this lance has the feature that at least H the inflow opening can be closed at or near the lower end of the suction lance. It is preferable that moreover the outflow opening can be completely or partially closable.

With the suction lance according to the invention, as will be explained below, the formed pit can remain stable for longer and the moment at which the removal of soil is started can generally be chosen freely.

In addition, during operation, at times when the cavity from which soil is removed partially collapses and the inflow opening (s) become blocked (or threatens to become blocked), the lance can be temporarily completely or partially closed off.

It is preferable that the lower ends of the inner and outer tube are designed such that the inflow and outflow openings at the lower end can be closed by moving the inner and outer tube relative to each other in axial direction. The lance I can thus be opened without the soil having to be displaced and the chance of a blockage at closing, for example by a stone, being smaller.

It is furthermore preferred that, after closing the inflow opening, the interior of the inner tube communicates with the space between the inner tube I and the outer tube. In this way a circulation can also be kept going in the closed condition of the lance, so that transport of sand still present in the lance will continue and, for example after collapsing and settling down again. from the ground, production will start again quickly after the reopening of the inflow opening.

If the inner tube is rotatably mounted in the outer tube, the outflow opening (s) can be designed such that they can rotate with the inner tube and / or the inner tube can be provided with a drill bit at the lower end.

The invention furthermore relates to a method for removing soil, in particular for extracting sand and / or lowering soil, wherein the soil is layered, comprising a first layer and a second layer below it with the soil to be removed, wherein a suction lance as described above is introduced into the second layer through the first layer and to a certain depth, preferably at least three meters or at least six meters, and subsequently soil is removed and substantially a cavity is formed from bottom to top. As a result, the first layer will be supported for a longer period by the second layer, instead of by a suspension of soil and water as is customary. Removing the soil is then more stable. In addition, extraction can be selective, for example from a layer of coarse sand that is located between two layers of fine sand. If soil is removed from a layer at a depth of more than ten meters, the up-flowing suspension can be supported by adding compressed air to it.

It is preferable for the lance to be rotated through the first layer in the closed position and, after reaching the second layer or the desired depth, to be opened.

The invention will now be explained with reference to the figures, in which a preferred embodiment is shown.

Figures 1-3 show a side, top and front view, respectively, of a rack comprising a suction lance I according to the invention.

Figure 4 shows a bottom and side view of a drill chuck, which forms the lower end of the suction lance.

Figure 5 shows a cross-section through the suction lance I near the lower end of the suction lance.

Figure 6 shows a longitudinal section through the lower end of the suction lance.

Figures 7 and 8 shows a cut-away perspective view of the lower end of the suction lance.

Figure 9 shows how sand is extracted with the suction lance according to the invention.

Figures 1-3 show a side, top and front view, respectively, of a rack 1 for extracting sand from a layered bottom. The rack 1 comprises two parallel guide rails 2, which are supported by a frame 3 and in which a suction lance 4 according to the invention is mounted. In this example, the rack 1 is placed directly on the bottom, but it is also possible to attach the rack, for example, to a mobile crane or dredger. The suction lance 4 comprises an outer tube 5 in which an inner tube 6 is mounted movably and rotatably. The upper end of the outer tube 5 is provided with two shoulders 7, the ends 8 of which each fall into a rail 2.

The upper end of the inner tube 6 is provided with a housing 9 in which a drive, such as a hydromotor known per se, is accommodated for rotatingly driving the inner tube 6 and which is provided with two guide cams 10. These cams too 10 each fall into a rail 12, so that the inner and outer tube 6, 5 can each be moved up and down in the rack 1 individually, and thus the suction lance 4 as a whole, with a cable 11 (connected to a hoist (not shown) and two hydraulic cylinders 12, each attached to one of the shoulders 7 and 5 on the housing 9. The outer tube 5 and the inner tube 6 are provided in a manner known per se with an inflow opening 13 for the supply of so-called make-up water, and possibly also jet water, with a pump and an outflow opening 14 for a mixture of water and, for example, extracted sand.

Figure 3 also shows how a frusto-conical plug or collar 17 is attached around the outer tube 5. This collar 17, as will be explained in more detail below, can move freely in the axial direction along the outer tube 5.

The extreme end of the inner tube 6 and the suction lance 4 is formed by a drill head 18, shown in figure 4. This drill head 18 comprises a cone, which is provided with a number of knives 19, in this example sixteen, 15 the drill bit 18 are welded. Immediately above each of the blades 19, viewed in the cutting direction, and near the end thereof is an opening 20 with a relatively small diameter. The openings 20 communicate, via the interior of the drill bit 18, with the space 21 (Fig. 6) 20 between the inner and the outer tube 6, 5, so that water that is pressed in this space 21 will come out of the openings 20 at high speed. flows and will contribute to the loose soil The drill bit according to the invention makes drilling through soil layers possible without the necessity of using jet water in all cases.

Figures 5 and 6 show, respectively, a cross-section and a longitudinal section through the lower end of the suction lance 4. The inner tube 6 can, by means of the said hydraulic cylinders 12, between a first (closed) position P1, indicated by solid lines, second (opened) position P2, indicated by broken lines, can be moved up and down. A first cylinder 23 is welded against the inner wall of the outer tube 5 by means of radially extending baffles 22 which closely encloses the inner tube 6. The inner tube 6 is provided with a number of H wide openings 24 distributed evenly over the circumference of the inner tube 6 and, at the bottom, with a round plate 25 which extends on all sides beyond the outer circumference of the outer tube 5. The plate 25 is provided with a number of openings 25A through which the interior of the drill bit 18 communicates with the space 21. A half cylinder 26 is welded to the plate 25, the outer wall of which closely connects to the inner wall of the outer tube 5. As is also shown in Figure 6, the half cylinder 26 together with two vertical partitions 27 defines the bottom of the inner tube 5 and is welded. on the plate 25 two outflow openings 28 for water and an inflow opening 29 for a mixture of water and, for example, sand.

In the first position P1 (see also Figure 7), the openings 24 in the circumference of inner tube 6 are located above the cylinder 23 such that the space 21 between the inner tube and the outer tube 6, 5 communicates with the interior of the inner tube 6. In the second position P2 (see also Figure 8) the openings 24 are covered by the cylinder 23 and the space 21 communicates with the outflow openings 28.

Figure 9 shows how the described theorem 1 is used for extracting sand and lowering a flood plain. Here, too, the rack 1 is erected on the bottom, for example of the floodplain to be lowered, which bottom here comprises at least a first layer 31 of, for example, clay and a second layer 32 with the sand extracted. The suction lance 4 is initially in the first, closed position P1 and is rotated at the upper end with said hydromotor. By letting the suction lance 4 I 30 down with the cable 11, the drill bit 18 I will drill through the first layer 31, whereby jet water under H influence of the pump for jet and make-up water and propulsion I in the interior of the drill bit 18 flows forcefully out of the openings 20. The collar 17 will follow the drill bit 18 over a certain distance and just before the start of the I-n? 1 7 /; 7) suction process must be mechanically pressed into the borehole and sealed. After the drill bit 18 has reached the desired depth, for example ten meters, in the second layer 32, the outer tube 5 with the hydraulic cylinders 12 is pulled upwards relative to the inner tube 6 until the open position P2 is reached. The make-up water flows out of the openings 28 in two powerful jets and sand the sand at the bottom of the well. Moreover, because this water flows tangentially and in a rotating manner, the entire water mass 10 is driven into the cavity, which contributes to agitating and keeping the sand in the cavity in suspension. The suspension thus obtained is pressed upwards through the generated overpressure through the inflow opening 29 and the inner tube 6 to the outflow opening 14 on the top of the lance 4.

Gradually a cavity 33 filled with water forms from bottom to top, the top side of which will partially collapse while forming sand bridge vault 34. The sucking is stopped before the first layer 31 is no longer supported by curvature, or after this layer 31 subsides with the collapse of the upper part of the second layer 32. In the latter case, the rack remains suspended in the hoist or crane and it comes loose from the submerged soil.

The invention is of course not limited to the embodiments described above. Thus, the make-up water can be pumped down through the inner tube, the mixture of soil and water flowing up through the space between the inner and outer tubes.

Claims (14)

Suction lance (4) as claimed in claim 1, wherein the outflow opening (s) (28) can also be fully or partially closable. Suction lance (4) according to claim 1 or 2, wherein the lower ends of the inner and outer tube (6, 5) are shaped such that the inflow and outflow opening (28, 29. at the lower end can be closed by the inner and outer tube (6, 5) in axial direction relative to each other. Suction lance (4) according to one of the preceding claims, wherein, after closing the inflow and / or the outflow opening (29, 28), the interior of the inner tube (6) communicates with the space (21) between the Inner tube (6) and the outer tube (5). Suction lance (4) according to claim 4, wherein the outer tube (5) is provided with a cylinder (23) with which one or more openings (24) in the inner tube (6) can be covered. 6. Suction lance (4) according to any one of the preceding claims, wherein the inner tube (6) is rotatably mounted in the outer tube (5). Suction lance (4) according to claim 6, wherein the outflow opening (s) (28) can (can) rotate with the inner tube (6). 8. Suction lance (4) according to claim 7, wherein the entire inner tube (6) can rotate in the outer tube (5). Suction lance (4) according to one of claims 6-8, wherein the inner tube (6) is provided with a drill bit (18) at the lower end. 10. Suction lance (4) according to claim 9, wherein the drill head (18) is provided with a number of knives (19), which are preferably attached to the drill head (18) along a helix. 11. Suction lance (4) as claimed in claim 9 or 10, wherein the drill head (18) is provided with one or more additional openings (20) with an effective diameter that is relatively small compared to the outflow opening (s) (28). 12. Suction lance (4) as claimed in any of the foregoing claims, wherein means (17) are secured around the outer tube (5) for sealing the space between the outer tube (5) and the upper surface of the bottom (31) from which the soil is removed. 13. Suction lance (4) according to claim 12, wherein said means comprise an at least approximately frusto-conical collar (17), the circumference of which increases upwards. 14. Method for removing soil, in particular for extracting sand and / or lowering soil, wherein the soil has a first layer (31) and a second layer (32) below it with the soil to be removed 30 wherein a suction lance (4) according to any one of the preceding claims is brought through the first layer (31) and to a certain depth in the second layer (32) and wherein subsequently soil is removed and a cavity (substantially from bottom to top) 33) is formed. i Πl! The method according to claim 14, wherein the suction lance (4) is introduced into the second layer (32) to a depth of at least three meters. Method according to claim 14 or 15, wherein the lance (4) is drilled and rotated through the first layer (31) in the closed state (P1). A method according to any one of claims 14-16, wherein the lance (4) is opened (P2) after reaching the second layer (32) or the desired depth. 18. A method according to any one of claims 14-17, wherein water is pumped down through the space (21) between the outer tube (5) and the inner tube (6). H ~ - / /