NL2001901C - DEVICE AND METHOD FOR APPLYING AN EXCAVATION. - Google Patents

Description

Device and method for applying an excavation.

The present invention relates to a device for manufacturing an excavation in the ground comprising an elongated tubular body 5, the outer circumference of which corresponds to the desired excavation, drive means for displacing said tubular body and ground receiving arranged at the front of said tubular body and discharge means comprising a dredging pump.

Such a device is generally known in the prior art. Depending on the soil condition, material is removed from the soil and tunnel elements and the like are placed in its place. Drilling techniques are generally used with a stony soil material. This will result in a circular excavation. Drilling techniques are complicated and for many applications a circular tunnel is not optimal.

Under certain circumstances where water is present, such as when working in a weak soil below groundwater level, special measures must be taken to prevent water entering the working space immediately behind the drill bit. Another option is the removal of water by pumping but this can lead to subsidence of existing buildings and the suction of contaminated groundwater. Moreover, governments often object to this.

JP 2-13698 describes a method and device for manufacturing a passage with relatively small dimensions. A single funnel-shaped body is provided with a shield drilling machine near the front end of the funnel. The device is pressed through the bottom with the aid of jacks that are supported on lining elements to be applied. At the end of the stroke, concrete mortar is applied between the wall and the lining and then compressed by jacks. When this concrete is hardened, the rear lining ring is dismantled and assembled again at the front. With such a construction, it is possible to manufacture non-prestressed tunnels with limited dimensions. With larger dimensions of the device 30, an inactive construction results. In addition, this method is not suitable in non-load-bearing surfaces, as the tunnel is only lightly reinforced. In soft soil it is also not possible to provide sufficient force through the jacks to push the drill bit forward and the soil will be pressed aside.

200 1901-2

This non-watertight construction is only suitable for permanent settlement-free soil. This basis is almost non-existent in the Netherlands. This method is not suitable for connecting to a larger tunnel cross-section, as each tube consists of four concrete walls: to be coupled only two walls may be made, which must also be able to be connected watertight,

The object of the present invention is to provide a device which is particularly suitable for working in relatively soft soil material and which requires few further measures to carry out the bore and which is easy to use.

This object is achieved in a device described above in that said soil receiving and discharge means comprise a funnel-shaped part tapering in the direction of said drive means, which funnel-shaped part comprises a number of parts, mechanical ground displacement means comprising a cutter and a dredging pump being arranged in each of those parts and soil collection and discharge means connecting to each of those parts 15 of the funnel-shaped part in the tubular body.

According to the present invention, no use is made of a drill bit, but of a cutter (digging wheel). This is not necessary with the relatively soft soil materials for which the device according to the invention is intended. With soft soil materials, sand, clay, peat and the like are envisaged.

The front of the device, i.e. the side which first comes into contact with the soil to be removed, is funnel-shaped. That is, when moving further into the soil, the soil material will be compacted by being smaller in the available cross-sectional area of the hopper or hoppers. As a result, a ground-water-tight plug plug is obtained, whereby the space immediately behind the funnel-shaped part where the tunnel and the like is built up is flooded with water. The material of the bottom actually forms the seal between the front of the device according to the present invention and the working space located behind it. This process is controlled in that a dredge pump, screw jack or the like (liquid-tight) is connected directly to the outlet of the funnel for displacing the compacted soil material, possibly mixed with water. This material can then be discharged through the already constructed tunnel and can also comprise drilling fluids such as bentonite, foam, polymers and / or water glass.

3

It must be understood that the device according to the invention can be used not only for the manufacture of tunnels, but also for the production of slots.

Due to the rectangular shape, for example, the later slot, tunnel or underpass can take shape that is optimized for its use.

Depending on the soil conditions, it may be necessary to promote transport in the funnel-shaped part of the soil material. For this purpose, the mechanical soil displacement means described above may be present in the funnel-shaped part and may consist of, for example, rotating heads. These rotating heads can for instance be arranged on steerable shafts, whereby the entire cross-sectional area of the funnel can be covered in a controlled manner. It is of course also possible to arrange one or more rotating mechanical soil displacement means in the hopper, the position thereof being stationary.

As indicated above, depending on the size of the device 15, the front side can be constructed from a funnel-shaped part but also from a number of funnel-shaped parts.

Further displacement of the bottom material can be promoted by arranging water injectors in the funnel-shaped part, whereby the transport along the wall of the funnel-shaped part is promoted.

For the control of the device, at the front thereof along the control valves arranged around it can be present. These can be hydraulically controlled and equipped with pressure or placement sensors.

Drive of the device can take place with the aid of jacks which on the one hand engage on cams arranged in the housing or body of the device and on the other hand support on already installed tunnel elements. At the start of the method according to the invention, the support will not take place on tunnel elements but, for example, on a specially arranged support point.

According to a special embodiment of the present invention, a dewatering installation is present which removes the soil from water received in the work space. This water can be both groundwater and water originating from the injection described above. This water can either be pressed back into the soil in any conceivable way but can also be used with the injectors. In this way, displacement of the groundwater is prevented as much as possible.

4

With the present invention it is possible in a simple manner to manufacture relatively large tunnels in a step, such as with a transverse dimension of, for example, 7 x 11 meters.

The invention also relates to a method for manufacturing an excavation in the soil, comprising moving an elongated tubular body in said soil, the external shape of which corresponds to the desired excavation, displacing soil to be removed in said tubular body arranging a wall maintaining the excavation behind it in the direction of movement of the tubular body, wherein the bottom material is compacted upstream of said tubular body in the direction towards that tubular body by reducing the cross-sectional area available for that purpose and pumping is becoming.

The present invention will be explained in more detail below with reference to an exemplary embodiment shown in the drawing. In the drawing: FIG. 1 schematically shows the device according to the invention in cross-section; and

FIG. 2 shows the device according to the invention in front view.

The device according to the present invention is indicated in its entirety by 1. This consists of a ground displacement part 2 built up of four funnels 3. These funnels are closed off from the remaining part of the device, being the housing 20 in which a working space 19 is accommodated. The only connection between the hoppers and the working space 19 is formed by the part with the smallest opening where dredging pumps 12 are placed.

In the funnel-shaped parts 3, cutters 8 are arranged with a rotating shaft 6 and a head attached thereto. The direction of rotation is indicated by 9. Arrow 10 indicates the ability of the cutter to move in forward / backward direction while arrow 11 indicates that these cutters can be moved in different positions. Of course, a number of such cutters may be provided per hopper 3, which may or may not be stationary. These cutters serve for loosening the bottom material entering the hoppers 3. This loosening of soil can be promoted even further by water which is supplied to injectors 7 in a manner not shown and which is injected into the funnel along the wall thereof.

In the working space 19 there are cams connected to the housing 20 on which jacks 14 can engage. On the other hand, these can be supported on tunnel elements 15. Material from the dredging pump pump 12 is removed from the device via lines indicated schematically with 16. Thereby, as indicated above, water separating means may be present to bring the water present in the bottom material directly back into the bottom, inter alia via the injectors 17.

For controlling the device, control valves 4 are provided along the circumference of the funnel-shaped parts which can move back and forth in the direction of the arrows 5,

The movement device of the device is indicated by 18.

The device described above works as follows: an excavation is made in any way known in the state of the art in which the device according to the present invention is placed. Moreover, a supporting point such as a sheet pile wall is provided behind the device. The jacks 14 support against such a sheet pile wall or the like. A force is then applied with the aid of the jacks 14, so that the device is driven in the direction of arrow 18. With the aid of the control valves 4 and possibly further controls, the device is either used as a device for manufacturing a hole for a tunnel or a slot for a container. Combinations are of course also possible. By moving the device in the direction of arrow 18 when the cutters 8 and dredging pump 12 are active, soil material in the hoppers is compacted in the direction of the dredging pump 12. Due to this compaction, whether or not in combination with the dredging pumps, the groundwater pressure can be absorbed, ie a safe seal with respect to workspace 19 is provided. As a result, it is not necessary to take further radical measures to prevent groundwater entering workspace 19. . Moreover, it is not necessary to change the groundwater level from the environment so that damage to surrounding buildings and the like cannot be feared.

If the jacks 14 have made a sufficiently large stroke, that is, if the device is moved along the length of at least one tunnel element 15, the jacks (or some of the jacks) are moved back and the first set of tunnel elements 15 is placed . The jacks 14 then rest on those tunnel elements and make a next stroke. In this way, the soil can be moved step by step during the gradual construction of the tunnel.

6

Thereby measures can be taken for the density of the tunnel in a manner known in the state of the art, for instance by placing foil material between the tunnel elements 15 and the surrounding bottom which is applied from the working space to the outside of the housing 20 in the ground material. is becoming. Bo-5 can also be provided in support and foundation of the placed tunnel elements.

After reading the above, the person skilled in the art will come up with suitable variants that are within the scope of the appended claims. In addition, rights are explicitly requested for implementation variants that are within the scope of the subclaims without combination with the independent claims.

200 1901-

Claims (13)

Device (I) for manufacturing an excavation in the ground comprising an elongated tubular body (20) whose outer circumference corresponds to the desired excavation, drive means (14) for displacing said tubular body (20) and on soil receiving and discharging means arranged on the front side of said tubular body and comprising a dredging pump, characterized in that said soil receiving and discharging means 10 comprise a number of funnel-shaped part (3) tapering in the direction of said drive means, which funnel-shaped part comprises a number of parts wherein each of said parts of mechanical soil displacement means (12) comprising a cutter and a dredging pump are arranged and soil collection and discharge means connecting to each of those parts in the tubular body. 15 Device according to claim 1, wherein said parts of the funnel-shaped part together define a rectangle. 3. Device as claimed in any of the foregoing claims, comprising water injectors (17) arranged at said funnel-shaped part. Device according to one of the preceding claims, wherein said mechanical soil displacement means (12) are arranged downstream of the funnel-shaped part. 25 Device as claimed in any of the foregoing claims, comprising two funnel-shaped parts (3) arranged next to each other, each in the respective funnel-shaped part thereof provided with said mechanical soil displacement means (6). 30 Device according to one of the preceding claims, comprising control valves (4) for controlling the direction of movement of said tubular body. 200 1901- Device according to claim 6, wherein said control valves are arranged at the upstream end of said funnel-shaped part (3). Device as claimed in any of the foregoing claims, wherein said drive means (14) comprise hydraulic jacks. 9. Method for manufacturing an excavation in the soil, comprising moving an elongated tubular body in said soil, the external shape of which corresponds to the desired excavation, displacing soil to be removed in said cup-shaped body, arranging behind the movement direction (18) of the tubular body a wall (15) that maintains the excavation, characterized in that the bottom material upstream of said tubular body is compacted at a number of places simultaneously with a number of parts in the direction towards that tubular body 15 by reducing the cross-sectional area available for that purpose and being pumped. The method of claim 9, wherein said fabricating said excavation comprises fabricating a slot. 20 The method of claim 9 or 10, wherein said manufacturing said excavation comprises a tunnel. 12. Method as claimed in any of the claims 9-11, wherein water is supplied to it during the compacting of said bottom material. A method according to any one of claims 9-12, which is carried out at least partially below groundwater level. 200 1901-