DE19513845A1 - System for underground vertical sealing wall construction - Google Patents

Abstract

The construction system involves the crossing strips, of the sealing wall to be erected, being stepped out on the wall's axis at definite intervals. Barrier walls (a) are inserted into the transverse plates (m). The sections between the crossing strips are raised by means of claws or cutters (f) in an interlaced, woven sequence. The raised masses are used again to fill the sections and the number of plates between the crossing strips is variable.

Description

The slot is known according to DD 97 244 and DD 1 10 323 milling process for continuous sealing wall production. This is done with a double led on the guide post Continuous auger cutter in 1.5 m long single cuts an approximately 1.0 m wide earth slit is produced. The open earth slot is due to the installation of concrete elements separated into work and filling rooms. The earth slot is filled with clay suspension that seal the de form clay crust. The earth masses released during milling are directly in the soil filled with clay suspension flushed slot and finished the sealing wall. This process is used to shut off groundwater inflows to opencast mines for use and has the after part that the device technology with direct flushing one large space requirement in the construction phase and there with especially for small and medium-sized construction projects and is uneconomical in inner-city construction.

The most famous process for the production of sealing walls when shutting off groundwater and vertical Enclosure of landfills and underground structures is the pillar / section technology. Here is using The earth slot is gripped or milled discontinuously as in the magazine bbr, Wasser und Rohrbau, 3/93, page 104.

The disadvantage of this method is that when sinking the Single slots deviations can arise. Here comes it does not overlap or overlap Single slots.

At these points, so-called windows are created cause a leak in the sealing wall.  

Another disadvantage is that when gripping or Milling accumulating soil materials are disposed of in landfills have to.

The invention has for its object a method to create, which ensures that the pillar / Ab Cutting technology in the gripper and / or milling process a homogeneous continuous sealing wall is produced. In particular, permeable defects must be excluded will be.

Furthermore, it should be achieved that by the production of transverse slats and the installation of shut-off elements the sedimentation spaces that arise as a result be filled again with the excavated material.

This problem is solved in that in advance in ent speaking distances on the route axis lamella crosses be dredged. Then the installation of Reinforced concrete slabs or similar elements in the cross lamellas or backfilling with a self-curing Suspension.

The area between the lamellar crosses is then forward preferably in pillar / section technology with Grei removed or milling removed. It is with the clearance ensures that those filled with support fluid Primary slats always a guide when picking out the Represent secondary fins. The distances of each Lamellar crosses from each other and thus the length of the one individual sections are from the geotechnical boundary conditions conditions dependent.

A clay flour base rinse is used as a support liquid required rheological properties used. During the entire manufacturing and filling process the diaphragm wall is the slot and the pre-worked ones Keep the lamella crosses full of support fluid.  

When excavating the 1st area between 2 lamella crosses (Digestion operation) is the dredged earth material to depo kidneys, this creates a sedimentation space.

In regular operation are suitable funding and Aufbe the previously cleared sedimentations fill the rooms again with the excavated material. The sealing effect of the manufactured in this form The sealing wall is known to be caused by a colation crust reached. The method can be used to advantage that with the complete shutdown of groundwater inflows to opencast mines, with the secure sealing of Landfills, especially pollutant landfills, at the Ein encapsulation of contaminated areas and closed and homogeneous containment and sealing of building sites ben.

The application of the invention is based on exemplary embodiments explains:

The accompanying figures show:

Fig. 1 cross slats with built-in shut-off element in the transverse sipe

Fig. 2 separation block of self-hardening suspension,

Fig. 3 Preparation scheme of the pulping and Regelbe drive when using a cross slats with built-in shut-off element in the transverse sipe

Fig. 4 Preparation scheme of the pulping and control operation during application of the cleavage block of self-hardening suspension,

Fig. 5 Schematic representation of the slot gripper and Ver filling process in the bulkhead production.

At the beginning of the cut-off wall production (digestion operation), with a slotted gripper or a milling machine (hit on a basic excavator), at specified intervals, 2 slats on the route axis are to be ripened or milled out to the required final depth and kept constantly filled with supporting fluid. Then the cross-slats m are offset / milled out by 90 °. The lamellae are created crosswise, as shown in FIG. 1.

After the lamella cross has been completed, the barrier wall a must be installed. Thus, according to Fig. 5 b is a separation between the working and sedimentation tion space C created. In a further consequence of the digestion operation, the 1st section with the gripper / milling machine f is now cleared according to FIG. 3 and manufactured until it is integrated into the lamella 6 . The axial lamella le l of the lamella crosses 6 , 12 , 18 and ff serves as a guide for the gripper / milling cutter f for easy integration of the entire section.

In the following regular operation, the excavation of the individual lamellae in the sequence shown in FIG. 3 must be observed. The number of slats depends on the spacing of the slat crosses specified in the geotechnical boundary conditions. This guarantees technological security for a consistently manufactured sealing wall.

Another effective method for separating working spaces b and sedimentation spaces c can be achieved by producing a specially dimensioned separating block h from the self-hardening of the flushing, as shown in FIG. 2.

Digestion and control mode are shown in Fig. 4. The sequences specified here must also be observed for the guarantee of a consistently manufactured sealing wall.

In the production of the 1st section in the Aufschlussbe the milled / milled soil is removed transport and deposit.

For normal operation, according to FIG. 5, the lifting masses are flushed directly into the sedimentation rooms c via special preparation d and conveying devices e. The support liquid displaced in this process is suctioned off, cleaned in a desanding system g and returned to the work area. Losses are replaced by fresh support suspension.

Reference list

a barrier wall
b workspace
c Sedimentation room
d conditioning device
e conveyor
f Gripper or milling machine
g Sand removal system
h Separating block made of self-curing suspension
i Integration lamella
j guide wall
k secondary lamella
l axial lamella
m cross lamella

Claims (4)

1. Method for opening vertical continuous sealing walls in the pillar / section process, the sealing wall is filled with a clay base flush and is separated by shut-off walls (a) into work spaces (b) and sedimentation spaces (c), characterized in that lamella crosses for opening the sealing wall on the sealing wall axis at defined intervals and inserting barrier walls (a) into the cross lamellae (m). 2. The method according to claim 1, characterized in that the sections between the lamella crosses by means of Gripper / cutter (f) in the digestion operation in the rows follow 1-3-5-4-2 and usually operate in the order 8-10-11-9-7-14-16-17-15-13, where the excavated masses to be filled in again of the sections used and the number of La mell between the slat crosses is variable. 3. The method according to claim 1, characterized in that the axial lamellae (l) the gripper / milling machine (f) Integration of the sections between the lamella crosses lead the way. 4. The method according to claim 1, characterized in that instead of the lamella crosses with the barrier walls (a) Separation blocks (h) filled with self-curing suspension are used, the sections between the Separation blocks (h) in the digestion mode in the order 5-3-1-2-4 and in normal operation in the order 7-9-11-10-8-13-15-17-16-14 and the excavated masses again to fill the section te can be used.