EP1630297A1 - Method of making concrete underground walls and device therefor - Google Patents

Abstract

The method involves positioning a milling wheel of a slotted barrier milling cutter through a drive in rotary motion. The slotted barrier milling cutter is inserted into the soil (8). Soil material is cleared and a milling slot is produced. The milling slot is padded with a binding suspension. The milling slot is attached to the soil in an acute angle through a linear guiding device (2) and the slot is spurred. Independent claims are also included for the following: (A) a slotted barrier milling device for building a slotted barrier (B) an underpinning in the soil with a slotted barrier.

Description

The invention relates to a method for producing a trench wall in the ground according to the preamble of claim 1, wherein at least one arranged on a trench cutter cutting wheel is rotated by a drive in rotational movement, the trench wall cutter is introduced into the soil, with soil material cleared and made a Frässchlitz is filled, and the Frässchlitz is filled with a settable suspension.

Furthermore, the invention relates to a Schlitzwandfräsvorrichtung for producing a slot wall according to the preamble of claim 5. Such a Schlitzwandfräsvorrichtung consists of a carrier device and a trench wall cutter, which is guided displaceably on this carrier device by means of a linear guide device.

Trench wall cutters serve to introduce vertical subsurface seals into a floor, so-called slot walls. With these seals should be prevented, for example, that the groundwater located in the ground can penetrate into an area enclosed by the slot walls area. For this purpose, a diaphragm wall is milled through the water-bearing soil layers down to a water-impermeable bottom layer. Thus, for example, excavation pits can be sealed against penetrating groundwater, or along waterways, the leakage of water into the environment can be prevented.

These methods require a water impermeable bottom layer to which the trench wall is milled down. If such a bottom layer does not exist, or in depth not achievable for diaphragm walls, then a horizontal base plate or a sealing sole must be created by a complex process.

The invention has for its object to provide a method and a Schlitzwandfräsvorrichtung, with which slot walls for underpinning, water safety or Baugrubenabschließungen can be created very efficient.

The object is achieved by a method having the features of claim 1, a slot wall milling device having the features of claim 5, and an underpinning having the features of claim 9. Preferred embodiments are given in the dependent claims.

An inventive method for producing a trench wall in the ground is characterized in that the Frässchlitz is introduced at an acute angle in the ground and that the trench wall cutter is guided and advanced at an acute angle by a linear guide device.

A basic idea of the invention is not only to mill milling slots vertically in the ground, but to introduce the cutting slot at an acute angle to the ground in this. This offers over the conventional method the advantage that no longer necessarily a waterproof layer of soil must be achieved through the Frässchlitz for sealing. By being able to insert a slot wall at an acute angle into the ground, arias can now also be sealed in a simple manner by inserting inclined slot walls into the ground so as to form a tight underpinning. This offers the advantage over the conventional method that, if no water-impermeable bottom layer within reach of the diaphragm walls is no complex Unterschalung the sealed area is more necessary.

In principle, it is possible to use a solid basic construction for aligning the linear guide device. However, a particularly flexible method can be achieved by using a carrier device to align the linear guide device at an acute angle to the ground. A carrier device is usually already present in a trench wall cutter anyway. This method offers an advantage over the use of a solid support device, since usually not only a slot wall is introduced into the ground, but a whole row. Thus, the support frame does not have to be rebuilt for each Schlitzwandfräsung and dismantled after completion of milling again.

In the production of a Frässchlitzes the weight of the trench wall cutter can be used to achieve sufficient pressure on the ground to be milled. However, it is particularly advantageous, especially in the case of a slot wall, which is not milled vertically but at an acute angle into the ground, to provide an actuator on the carrier device of the slot wall device. By this actuator, the pressure on the substrate to be milled can be varied to adapt the Schlitzwandfräsvorrichtung the properties of the soil. This is particularly necessary because in the method according to the invention does not affect the entire weight of the Schlitzwandfräsvorrichtung on the surface to be milled, and the force acting may not be sufficiently large under certain circumstances. A possible embodiment of the actuator may be a cable pull mechanism.

In a particularly preferred method for producing a slot wall in the ground, the carrier device with a linear guide device has a mast which is aligned with a hydraulic adjusting device at an acute angle to the ground. Thus, with a carrier device slot walls can be introduced at different angles in the ground. Thereby For example, a carrier device with a linear guide device can be used for milling slot walls at different angles into the ground, whereby an increased flexibility of this method is achieved.

A slot wall milling device according to the invention for producing a slot wall is characterized in that the linear guide device with the trench wall cutter can be arranged at an acute angle to the ground and that the linear guide device is designed for guiding and inserting the trench wall cutter at the acute angle into the ground.

A basic idea of the trench wall cutter according to the invention is to make trench wall milling in the ground so as to mill slot walls at an acute angle to the ground.

In an advantageous embodiment, the carrier device, on which the linear guide device is displaceably guided, can be aligned at an acute angle to the ground. This makes it possible to align the linear guide device at an acute angle to the ground, so that mills the trench wall cutter at this angle in the ground.

A particularly preferred slot wall milling device is further characterized in that an actuator for moving the linear guide device in the milling direction is provided on the carrier device. By this actuator, it is possible to generate the pressure that lies on the surface to be milled, not only by the weight of the Schlitzwandfräsvorrichtung. It is possible to set this pressure by the actuator both larger and smaller than the weight of the Schlitzwandfräsvorrichtung. Such an actuator can be realized by a cable mechanism.

In an advantageous embodiment of the trench wall cutting device according to the invention, the latter has at least one mast with a hydraulic setting device on the carrier device, to allow the setting of an acute angle between the linear guide device and the ground. Through this support, it is possible to set different angles, which may differ depending on the purpose. Thus, there is an extended field of use of the trench wall cutter.

Advantageously, the trench wall cutting method according to the invention is carried out with the trench wall milling device according to the invention.

According to the invention, an underpinning in the ground is provided with a slot wall, which is characterized in that a first slot wall is made at an acute angle in the ground and a second slot wall is created in the ground, which with the first slot wall enclosing an above lying floor area communicates. By this underpinning, it is now possible to seal soil areas against groundwater without milling the slot walls to a water-impermeable layer. Also, such an underpinning according to the invention avoids the need for a complicated substructure of a ground area for sealing against groundwater when there is no water-impermeable layer.

It is also particularly advantageous if the second slot wall of the underpinning is also created at an acute angle into the ground and if both slot walls form a cross-sectionally V-shaped underpinning. Underpinnings of this type are particularly well suited to seal elongated waters against the surrounding soil. Such elongated waters can be, for example, rivers or canals. An underpinning according to the invention is also suitable for protecting roads, dams etc. with their foundations from penetrating groundwater in a particularly simple manner.

Fig. 1

eine teilweise geschnittene Seitenansicht einer erfindungsgemäßen Schlitzwandfräsvorrichtung beim Ausführen des erfindungsgemäßen Verfahrens;

Fig. 2

eine geschnittene Seitenansicht einer erfindungsgemäßen Unterfangung.

The invention will be further explained by means of preferred embodiments, which are schematically illustrated in the drawings. In the drawings show:

Fig. 1

a partially sectioned side view of a Schlitzwandfräsvorrichtung invention in carrying out the method according to the invention;

Fig. 2

a sectional side view of an inventive underpinning.

In Fig. 1 is a sectional side view of a Schlitzwandfräsvorrichtung invention 1 is shown. The trench wall milling device 1 has a carrier device 7 embodied as a track-mounted construction vehicle. On the carrier device 7, a double, horizontal arm 9 is attached. On the double horizontal boom 9, a triangular base plate 10 is attached, which forms the connecting piece to the mast 4 with the linear guide device 2.

On the triangular base plate 10 of the mast 4 is hinged. Further, a hydraulic actuator 6 is provided for setting the desired acute angle of the trench wall cutter 1 to the ground. The ends of the hydraulic actuator 6 are connected to the mast 4 and the triangular base plate 10. At the end of the mast 4 directed towards the bottom there is a hinged supporting device 11 in order to give the trench wall milling device 1 more stability and to relieve the carrier device 7. By this support device 11, the force acting on the carrier device 7 tilting moment is reduced.

In the area of the mast 4 facing the ground there is a further adjusting device 5. This adjusting device 5 serves for moving the linear guiding device 2 in the direction of the milling slot and in the opposite direction. In this embodiment, the adjusting device 5 is realized by a cable mechanism. The linear guide device 2 is once by means of a carriage member 12 slidably mounted on the mast 4. The second attachment of the linear guide device 2 on the mast 4 is realized by a holding and breaking device 13.

On the carriage member 12, a rotary drive 14 is mounted for the linear guide device 2. The linear guide device 2 consists of several tubes attached to each other. By attaching additional pipes of the Frässchlitz the Schlitzwandfräsvorrichtung 1 can be driven to the desired depth. The attachment of additional pipes to the linear guide device 2 takes place with the aid of the rotary drive 14. To disassemble after reaching the desired depth, the linear guide device 2 when pulling this out of the ground again, the holding and breaking device 13 is used. At the lower end of the linear guide device 2 is the trench wall cutter 3. This trench cutter 3 has a plurality of cutting wheels which can move both clockwise and counterclockwise. The interior of the tubes of the linear guide device 2 is used to supply power to the trench wall cutter 3. The settable suspension and / or the overburden can also be conveyed through this interior space.

FIG. 2 shows an underpinning 20 according to the invention, which delimits a floor area 21 in relation to the rest of the floor 22. The underpinning 20 is formed by two slot walls 23, 24, which are introduced at an acute angle in the bottom 22. The two slot walls 23, 24 are connected in such a way that they form a V in cross-section. When making this underpinning 20, care must be taken that the cutting slot of the second slot wall 24 is not connected to the slot wall 23 until the slot wall 23 has hardened.

By means of the method according to the invention and the device according to the invention, an underpinning according to the invention can be created particularly efficiently.

Claims (10)

Method for producing a diaphragm wall in the ground, in which at least one cutting wheel of a trench cutter is rotated by a drive, - The trench wall cutter is introduced into the soil (8), wherein soil material cleared and a Frässchlitz is produced and - the milling slot is filled with a settable suspension,
characterized, - That the Frässchlitz is introduced at an acute angle in the bottom (8) and - That the trench wall cutter at the acute angle by a linear guide device (2) is guided and driven. Method according to claim 1,
characterized,
that the linear guide means (2) is aligned with the aid of a support device (7) at the acute angle to the floor (8). Method according to claim 2,
characterized,
that the linear guide means (2) is moved by a device located on the carrier (7) actuator (5), especially a cable pull mechanism. Method according to claim 2 or 3,
characterized,
in that the carrier device (7) is provided with a linear guide device (2) with a mast (4) which is aligned with a hydraulic adjusting device (6) at an acute angle to the bottom (8). Schlitzwandfräsvorrichtung for producing a slot wall, in particular with a method according to one of claims 1 to 4, with - A carrier device (7) and a trench wall cutter (3), which is displaceably guided on a carrier device (7) by means of a linear guide device (2),
characterized, - That the linear guide device (2) with the trench wall cutter (3) at an acute angle to the bottom (8) can be arranged, and - That the linear guide means for guiding and introducing the trench wall cutter (3) at the acute angle in the bottom (8) is formed. Slit wall milling device according to claim 5,
characterized,
that the support device (7) to which the linear guide means (2) is displaceably guided, can be aligned at an acute angle to the bottom (8). Slit wall milling apparatus according to claim 5 or 6,
characterized,
in that on the carrier device (7) an actuator (5), in particular a cable pull mechanism, is provided for moving the linear guide device (2) in the milling direction. Trench wall cutting device according to one of claims 5 to 7,
characterized,
in that at least one mast (4) with a hydraulic setting device (6) is provided for setting an acute angle between the linear guide device (2) and the base (8) on the carrier device (7). Underpinning in the ground with a slot wall, which is produced in particular by a method according to one of claims 1 to 4,
characterized, - That a first slot wall (23) is created at an acute angle in the bottom (22) and - That a second slot wall (24) in the bottom (22) is created, which is in communication with the first slot wall enclosing an overlying bottom portion (21). Underpinning according to claim 9,
characterized, - That the second slot wall (24) is created at an acute angle in the bottom (22) and - That both slot walls (23, 24) form a cross-sectionally V-shaped underpinning (20).

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