DE4008207A1 - Retention wall construction system - with binding agents or solids fed into trench after cutting - Google Patents

Abstract

The procedure uses a subterranean curtain wall trench cutting machine (1), and the trench (2) is supported in the conventional way by a liq. Binding agents (7) and/or solids (8) are fed into the liq. (3) via a feed tube (4), with outlet (5) below the liq. surface (6). The feed pump (9) of the trench cutter removes the support liq. from the trench, and returns it to the trench via the pump hose (10). The height of the hose outlet (11) is different from that of the pump inlet (12). USE - Cutting trench to make retention wall buried in ground.

Description

The invention relates to a method for producing a Sealing wall.

Through the German OS 36 27 872 a mixing device be with which a bulkhead with high solids content in an existing suspension in a sealing wall slot is brought. The mixing device consists of an elongated Frame in which the bulkhead mass ei a manifold and from there in turn several outlet pipes is fed. By vertical movement of the distributor should ver the mixture of cut-in walls introduced with the support suspension to be mixed.

The main disadvantage of this mixing device is that in addition to the device for producing the earth slot, a diaphragm wall gripper or a trench cutter, an additional device device for introducing the bulkhead mass and for mixing is required. Experiments have also shown that the distributed introduction of the sealing wall mass into the support suspension, even if it is still by stirring tools, as in OS 36 27 872 mentioned, supported, none in all areas of the world slit homogeneous mixing can cause.

The invention has for its object a method for Manufacture of a sealing wall to specify that the use existing which enables devices for the trench wall excavation and thus the Costs essential compared to the prior art method lowers and the quality of the sealing wall mix significantly improved.

This task is accomplished by the characterizing part of the claim 1 solved. Further advantageous embodiments of the invention are specified in the subclaims.

A major advantage of the method according to the invention is that immediately after the trench cutter the off stroke has ended with the addition of binder and / or solid can be started with the essential components ten of the trench cutter, namely the pump and the cutting wheels, be used for the mixing process. Here only the För the hose that enriches the soil material during excavation te suspension leads to the regeneration plant, from the regeneration system and the open end in the earth slot or suspended in the suspension.

Further features and advantages of the invention result from the following description of a preferred embodiment example, which is explained in more detail with reference to the drawing.

Fig. 1 shows an earth slot 2 in a vertical longitudinal section, in which a trench cutter 1, the excavation to the end 14 has completed. The earth slot 2 is filled with a supporting liquid 3 , for example a bentonite suspension, up to the surface 6 . In the upper region of the support liquid 3 , the feed line 4 for introducing egg nes binder 7 and / or solids 8 is immersed. The pump delivery hose 10 is uncoupled from the regeneration system and is also immersed directly next to the feed line 4 in the supporting liquid 3 . The outlet openings 5 and 11 are at the same height. As a result, intensive mixing takes place immediately in this area. The pump 9 of the trench cutter 1 conveys the support liquid 3 from the lower region of the earth slot 2 via the pump hose 10 upwards. Here pump outputs are preferably set between 200 and 300 m ³ / h. In a large-scale test in an earth slot with the dimensions L / W / H = 2.80 / 0.60 / 30 m, that is to say with a suspension volume of approximately 50 m ³ , 12 t of cement were added in 30 minutes via the feed line 4 . The feed pump 9 i. M. 250 m ³ / h, i.e. in the time of 30 min approx. 125 m ³ . During the blowing in of the cement, the suspension volume was pumped around 2.5 times. A very uniform mixing between the supporting liquid 3 and the binder 7 was already achieved. A further homogenization of the mixing was achieved by pumping the mixture for a further 30 min at a pump output of 250 m ³ / h after the cement addition had ended. The trench cutter was moved several times from the lowest position to the highest position and vice versa. By simultaneously turning the cutting wheels 13 in the direction of the inlet opening 12 of the feed pump 9 , it was caused that the suspension was drawn in from all peripheral areas in the pumping process.
Reference symbol list:

1 trench cutter
2 earth slots
3 support fluid
4 feed line
5 outlet opening (of the feed line 4 )
6 surface of the supporting fluid
7 binders
8 solids
9 feed pump
10 pump delivery hose
11 outlet opening (of the pump delivery hose 10 )
12 inlet opening (of the feed pump 9 )
13 milling wheels
14 final depth

Claims (11)

1. A process for producing a sealing wall, characterized by the following process steps:

• a) excavation is carried out using a trench cutter ( 1 ), where the earth slot ( 2 ) is supported in a known manner by a supporting liquid,
• b) via a feed line ( 4 ), the outlet opening ( 5 ) of which is arranged below the surface ( 6 ) of the support liquid ( 3 ), binders ( 7 ) and / or solids ( 8 ) are introduced into the support liquid ( 3 ),
• c) with the feed pump ( 9 ) of the trench cutter ( 1 ), the support liquid ( 3 ) is pumped out of the earth slot ( 2 ) and returned via the pump delivery hose ( 10 ) into the earth slot ( 2 ), the height of the outlet opening ( 11 ) of the pump delivery hose ( 10 ) is different from the inlet opening ( 12 ) of the delivery pump ( 9 ).

2. The method according to claim 1, characterized in that the outlet opening ( 5 ) to the guide line ( 4 ) is arranged in the upper third of the earth slot ( 2 ). 3. The method according to claim 1 or 2, characterized in that the outlet opening ( 11 ) of the pump delivery hose ( 10 ) is arranged at the same height with the outlet opening ( 5 ) of the feed line ( 4 ) with a small horizontal distance GE. 4. The method according to any one of claims 1 to 3, characterized in that the inlet opening (12) of the feed pump (9) in each case below the outlet openings (5, 11) of the supply line (4) and the Pum penförderschlauches (10) is arranged. 5. The method according to any one of claims 1 to 4, characterized in that the feed pump ( 9 ) with the trench cutter ( 1 ) is continuously moved from top to bottom during the mixing process. 6. The method according to any one of claims 1 to 5, characterized in that after completion of the introduction of the binder ( 7 ) and / or solids ( 8 ) the trench cutter ( 1 ) is moved down and up at least once at maximum pump output. 7. The method according to any one of claims 1 to 6, characterized characterized in that during pumping the milling wheels turned to support the mixing process will. 8. The method according to any one of claims 1 to 7, characterized in that the pump capacity is set to approximately 200 to 300 m ³ / h. 9. The method according to any one of claims 1 to 8, characterized in that the entire Stützflüs liquid ( 3 ) in an earth slot ( 2 ) is pumped about 5-10 times during the mixing process. 9. The method according to any one of claims 1 to 9, characterized in that only a binder ( 7 ), for example cement, is introduced via the feed line ( 4 ) into the supporting liquid ( 3 ), the binder ( 3 ) being taken directly from the transport vehicle becomes. 11. The method according to any one of claims 1 to 10, characterized in that such an amount of binder ( 7 ) and / or solid ( 8 ) is added that the sealing wall mixture in the earth slot ( 2 ) has a density of about 1.25 to 1.35 t / m ³ .