WO1999005367A1 - Method for producing an outer wall of a cellar - Google Patents

Abstract

The invention relates to a method for producing an outer wall of a cellar directly adjacent to an existing wall of a building, whereby sheating beams are placed at a distance to the existing wall of said building inside the building ground, and the outer wall of the cellar is produced by following the advancement of the excavation using several wall sections which rest against the sheating beams. The inventive method is characterized in that the upper area of the sheating beams is configured as a cantilever beam (5) or is maintained by at least one support (6) and propped up by a lower support (7) in the lower area thereof. The supporting members (8) can be horizontally displaced onto the sheating beam (3) and firmly fixed once they are in a final position in order to prevent movement.

Description

 Process for producing an outer basement wall

The invention relates to a method for producing a basement outer wall directly next to an existing building wall according to the preamble of claim 1

When building a building with one or more basement levels, an excavation pit must generally be excavated, the boundaries of which must be supported by a vertical shoring Various methods are known in the prior art for producing a shoring. The building is connected directly to an existing one Buildings are built, the requirements for the shoring method to be paid are more diverse than for shoring without neighboring buildings.In this case, shoring not only has to absorb the lateral pressure but also the loads from the existing neighboring building. Furthermore, such shoring must ensure that settlement under the existing one Neighboring buildings remain so small that damage to this building does not occur, e.g. cracks in load-bearing components

The German patent DE 28 30 264 has disclosed a method for producing a self-supporting concrete wall that is to be inserted flush with an adjacent building into the building ground. With this method, support beams are first inserted into the ground at a distance from the existing building. Then a very complex support structure is attached to the head of the support beam, which then houses a reinforced concrete spar that is to be used to intercept the outer wall of the neighboring building downwards, to which a concrete wall consisting of many wall sections is concreted from top to bottom, whereby all wall sections are connected to each other with connecting reinforcements is supported with supports against the shoring. After the wall is finished, the tensile force of the anchor is placed directly on the wall. Then the shoring beams are relieved and removed as a whole.

The main disadvantage of this prior art is the very complex interception structure with a reinforced concrete spar and the support structures attached to the head of the shoring. This construction method has the particular consequence that considerable loads from the neighboring building are transferred directly to the shoring members. This means that the shoring members must have a correspondingly reinforced foundation to accommodate these vertical loads. Another disadvantage is that the supports that support the concrete wall to be produced against the shoring, have no possibility of adjustment in their longitudinal direction. For each column to be installed, they must be deflected or adapted to the existing distance between the shoring and the concrete wall to be manufactured.

The invention is based on the object of developing a method for producing an outer basement wall which avoids the disadvantages of the above-mentioned prior art and in particular avoids the forwarding of vertical loads from the existing neighboring building into the shoring and furthermore develops support elements which can be adjusted horizontally, are easy to install and remove.

The object is achieved according to the invention in that the shoring supports are formed in their upper area as cantilevers or are held by at least one support and are supported in the lower area by a lower support and the support elements are horizontally displaceably supported on the shoring support and after reaching their end position be fixed immovably. The advantages achieved by the invention are, in particular, that a vertical load on the shoring device is essentially avoided by the existing neighboring building. Furthermore, this manufacturing process is much more cost-effective since there is no need for a complex interception structure for the neighboring building. The installation of the support elements 8, which are required for the production of the basement outer wall, is simple. They can be installed horizontally displaceably and can be fixed locally to the shoring 3 after adjustment.

Further advantageous embodiments of the invention are specified in the subclaims.

For example, the shoring beams 3 are designed as double U-beams. In the space between the two U-profiles, the support elements 8 can then be passed through in a simple manner. In a preferred embodiment, the support elements 8 are π-shaped, the individual legs being made from T-profiles. The two U-profiles of the shoring 8 can for example be provided with support plates 10 which are welded to the U-profiles. On these support plates 10, the support elements 8 can first be held in their height in a simple manner, brought horizontally into their desired position and then fixed to the shoring 3 or to the support plates 10. It is also advantageous that the formwork 12 for concreting the wall sections 4 are attached to the vertical legs 11 of the support elements 8 in a simple manner. After the basement outer wall 1 according to the invention and the other parts of the construction pit sheeting have been produced, the foundations, the base plate 17 of the lower floor and the floor ceilings 16 including the load-bearing supports and wall elements are produced up to the upper edge of the uppermost basement. The basement outer wall 1 according to the invention is now generally horizontally covered by the floor slab 17 and the floor ceilings 16 and / or by the floor walls 15. supports. The support of the basement outer wall 1 via the support elements 8 is now no longer necessary. Thus, the function of the support bracket 3 including its supports 6 and 7 is also eliminated.

Embodiments of the invention are shown in the drawings and are described in more detail below.

Show it:

Figure 1 shows a vertical section through a completed basement wall;

Figure 2 shows the first phase of the production of an outer cellar wall;

Figure 3 shows a horizontal section in the area of a shoring with support element 8;

Figure 4 is a view of a support element 8;

5 shows a plan view of a support element 8.

In Figure 1, an already finished basement outer wall 1 is shown with all supporting elements in a vertical section. The shoring 3, which is designed in this embodiment as a double U-beam 9, is held horizontally by supports 6 and 7, the supports 6 being formed by ground anchors and the support 7 being formed by clamping in the ground. The basement outer wall 1 which has already been produced is supported horizontally against the shoring support 3 by the supporting elements 8. After the basement outer wall 1 has been produced, the base plate, the storey walls and ceilings are produced. As a rule, the outer wall is lap ceilings, sole plate and / or storey walls supported horizontally. A horizontal support via the support elements is then no longer required. The support elements 8 can now be removed in a simple manner by separating the horizontal legs 13 directly on the surface of the basement outer wall 1 and by loosening the attachment to the shoring 3. Before that, the shoring anchors have to be relaxed. The shoring anchors 20 are then either removed and removed in their full length or only the part protruding into the basement. Then the shoring beams are removed either in their entire length or also only with the parts protruding into the basement.

Figure 2 shows the initial phase of the production of the basement outer wall 1. Here you can see in particular how the horizontal legs 13 of the support elements 8 are supported on the support plates 10 of the shoring 3. In this exemplary embodiment, a stiffener 19, for example a steel profile beam, is used for the horizontal support of the shoring beams.

Figure 3 shows a horizontal section in the area of a shoring 3, which is designed as a double U-beam 9. The reference number 2 denotes the existing building wall in front of which the basement outer wall 1 is produced. The horizontal legs 3 of the support element 8 are supported on the support plates 10, which are fastened to the shoring 3. The shoring was inserted into borehole 18 that was cased or uncased. After setting the shoring 3 in the borehole 18, the cavity is usually filled with soil or delivered gravel material.

Figure 4 shows the side view of a support element 8 consisting of a vertical leg 11 and two horizontal legs 13. The legs are made of T-profiles in this embodiment. The horizontal legs 13 are welded to the vertical legs 11. In the vertical Legs 11 are drilled holes 21 through which the horizontal reinforcement of the basement outer wall 1 is passed.

FIG. 5 shows the support element 8 in a plan view of an upper horizontal leg 13.

Reference list

Existing basement wall of existing building

Shoring

Wall section

Cantilever

Support lower support

Support element

Double U beam

Support plate vertical leg of the support element 8

Formwork horizontal leg of the support element 8

Basement

Floor wall

Floor ceiling

Base plate

Borehole

stiffness

Shoring anchor

Boreholes

Claims

Expectations

1. A method for producing a basement outer wall directly next to an existing building wall, with shoring devices being introduced into the building site at a distance from the existing building wall and the basement outer wall being supported against the shoring device from several wall sections in accordance with the progress of the excavation, characterized in that the shoring (3) is designed in its upper area as a cantilever (5) or held by at least one support (6) and supported in the lower area by a lower support (7) and the support elements (8) can be moved horizontally on the shoring (3) supported and fixed after reaching their end position.

2. The method according to claim 1, characterized in that double U-beams are used as shoring (3).

3. The method according to claim 1-2, characterized in that the support elements (8) are π-shaped and are made of T-professionals.

4. The method according to claim 1-3, characterized in that the support elements (8) by the support bracket (3) attached support plates (10) are held in their desired position.

5. The method according to claim 1-4, characterized in that the formwork (12) for concreting a wall section (4) on the vertical legs (11) of the support elements (8) is attached.

6. The method according to claim 1-5, characterized in that after completion of the basement outer wall (1), the supports (6) in the upper region removed and the horizontal legs (13) of the support elements

(8) flush with the inner surface of the basement outer wall (1), the vertical leg (11) of the supporting elements (8) remaining in the basement outer wall (1) so that the shoring (4) is removed at least in the area of the basement (14) and the horizontal support of the basement outer wall (1) is taken over by the storey walls (15) and / or storey ceilings (16) and the base plate (17).