CH585823A5

CH585823A5 - Concrete foundation for waterlogged ground - uses preliminary foundation walls and extending baseplate to form trough

Info

Publication number: CH585823A5
Application number: CH1787273A
Authority: CH
Original assignee: Maurer Alfred
Priority date: 1973-12-20
Filing date: 1973-12-20
Publication date: 1977-03-15

Abstract

Parallel trenches are excavated for a foundation wall (2). A central excavation section (3) between these walls is excavated down to the bottom of the foundations. The trench has sloping walls (4). Into this middle section is made a concrete baseplate (5). The sloping sides are removed to the foundation walls (2). This is facilitated by the support provided by the foundation wall. The central section baseplate is extended to the foundation to form a closed trough. This building method eliminates the use of sheet piling and pumping out of water.

Description

  

  
 



   Die Erfindung bezieht sich auf ein Verfahren zur Herstellung eines Bau-Fundamentes.



   Die Erstellung einer   Baugrube    im Grundwasserbereich erfordert üblicherweise einen erheblichen Aufwand. Gewöhnlich werden senkrechte Spundwände errichtet und das Wasser mit fortschreitendem Aushub abgepumpt. Das Errichten solcher Spundwände ist zeitraubend und verhältnismässig kostspielig.



   Mit dem erfindungsgemässen Verfahren soll ein Weg aufgezeigt werden zur billigeren Erstellung eines Bau-Fundamentes.



   Die Erfindung ist dadurch gekennzeichnet, dass ein die Baugrube zu umfassen bestimmter, mindestens der Baugrubentiefe entsprechender Graben ausgehoben wird, hierauf in diesem Graben eine Fundationswand errichtet wird, ein mittlerer Baugrubenteil bis auf die Gründungssohle ausgehoben wird unter Belassung schräger Böschungen, in diesem mittleren Baugrubenteil eine Grundplatte betoniert wird, hernach die Böschungen bis zur Fundationswand abgetragen werden unter Abstützung der Fundationswand und sodann die Grundplatte bis zur Fundationswand ergänzt wird, so dass ein geschlossener Trog entsteht.



   Auf diese Weise gelingt es, den Aufwand zur Herstellung einer Umfassungswand, namentlich bei Grundwasservorkommen, wesentlich zu reduzieren.



   In der Zeichnung sind als Ausführungsbeispiel die verschiedenen Herstellungsstadien schematisch dargestellt. Es zeigen:
Fig. 1 eine die Baugrube zu umgeben bestimmte Wand,
Fig. 2 die teilweise ausgehobene Baugrube,
Fig. 3 das fertige Bau-Fundament.



   In den aus Lockergestein od.dgl. bestehenden Baugrund 1 wird vorerst ein Graben ausgebogen, der sich entlang den Aussenkonturen des zu erstellenden Fundamentes erstreckt.



  Die Tiefe dieses Grabens reicht mindestens bis zur vorgesehenen Gründungssohle. Hernach werden mit Hilfe einer als Führung dienenden Aufhängevorrichtung Wandelemente in diesen Graben abgesenkt, deren Höhe etwa der Grabentiefe entspricht. Diese Wandlemente werden sodann seitlich untereinander verbunden, so dass sich eine zusammenhängende, dichte Umfassungswand 2 ergibt. Der noch verbleibende Grabenteil wird wieder zugeschüttet.



   Die Wandelemente bestehen vorzugsweise aus zwei zueinander parallel verlaufenden Betonplatten von etwa 5 cm Dikke, zwischen denen ein Abstand von vorzugsweise etwa der fünffachen Plattendicke besteht. Diese beiden Betonplatten werden durch einbetonierte Armierungsbügel im Abstand voneinander starr zusammengehalten. An den vertikalen Stossstellen benachbarter Wandelemente wird ein der Führung dienender Korb aus Armierungseisen in den Zwischenraum zwischen die beiden Betonplatten eingelegt und der Zwischenraum zwischen diesen Betonplatten sodann mit Ortsbeton ausgefüllt, so dass eine massive, zusammenhängende Umfassungs- oder Fundationswand 2 entsteht, welche die Baugrube umgibt.



   Anschliessend wird der mittlere Teil der Baugrube 3 bis auf die Gründungssohle ausgehoben, wobei auf allen Seiten Böschungen 4 aus Erde verbleiben, so dass eine pyramidenstumpfförmige Grube entsteht. Sodann wird im mittleren Teil der Baugrube eine üblicherweise rechteckige, horizontale Bodenplatte 5 aus Ortsbeton hergestellt.



   Nach dem Erhärten der Grund- oder Bodenplatten wird auch die schräge Böschung 4 bis auf Gründungssohlentiefe abgetragen, so dass schliesslich eine prismatische Baugrube entsteht. Damit die Fundationswand 2 nicht einstürzt, wird sie von der Grube her durch schräge Spriessen 6 ringsherum abgestützt. Hernach wird die Bodenplatte 5 ringsherum bis zur Fundationswand 2 betoniert und mit dieser verbunden. Dadurch entsteht ein Wasserdichter Betontrog oder -Wanne als Baufundament, der den Wasser- und Erddruck aufnimmt. Es ist auch möglich, dass die Fundazionswand 2 etwas tiefer in das Terrain hinabreicht als die Bodenplatte.

 

   PATENTANSPRUCH



   Verfahren zur Herstellung eines Bau-Fundamentes, dadurch gekennzeichnet, dass ein die Baugrube zu umfassen bestimmter, mindestens der Baugrubentiefe entsprechender Graben ausgenommen wird, in diesem Graben eine Fundationswand (2) errichtet wird, ein mittlerer Baugrubenteil (3) bis auf die Gründungssohle ausgehoben wird unter Belassung schräger Böschungen (4), in diesem mittleren Baugrubenteil eine Grundplatte (5) betoniert wird, hernach die Böschungen bis zur Fundationswand (2) abgetragen werden unter Abstützung der Fundationswand und sodann die Grundplatte bis zur Fundationswand ergänzt wird, so dass ein geschlossener Trog entsteht.

**WARNUNG** Ende DESC Feld konnte Anfang CLMS uberlappen**.



   



  
 



   The invention relates to a method for producing a building foundation.



   The creation of a construction pit in the groundwater area usually requires considerable effort. Usually vertical sheet piling is built and the water is pumped out as the excavation progresses. The erection of such sheet piling is time consuming and relatively expensive.



   The method according to the invention is intended to show a way to create a building foundation more cheaply.



   The invention is characterized in that a trench intended to encompass the building pit and at least corresponding to the building pit depth is dug, a foundation wall is then built in this trench, a middle building pit part is excavated down to the foundation base, leaving inclined slopes, one in this middle building pit part The base plate is concreted, after which the slopes are removed up to the foundation wall with the support of the foundation wall and then the base plate is added to the foundation wall, so that a closed trough is created.



   In this way, it is possible to significantly reduce the cost of producing a surrounding wall, especially in the case of groundwater deposits.



   In the drawing, the various manufacturing stages are shown schematically as an exemplary embodiment. Show it:
1 shows a wall intended to surround the excavation,
Fig. 2 the partially excavated construction pit,
Fig. 3 the finished building foundation.



   In the loose rock or the like. existing subsoil 1, a trench is first excavated, which extends along the outer contours of the foundation to be created.



  The depth of this trench extends at least to the intended foundation level. Thereafter, wall elements are lowered into this trench with the help of a suspension device serving as a guide, the height of which corresponds approximately to the depth of the trench. These wall elements are then laterally connected to one another, so that a coherent, tight surrounding wall 2 results. The remaining part of the trench is filled in again.



   The wall elements preferably consist of two mutually parallel concrete slabs of about 5 cm thick, between which there is a distance of preferably about five times the plate thickness. These two concrete slabs are held together rigidly at a distance from one another by means of reinforcement stirrups embedded in concrete. At the vertical joints of adjacent wall elements, a cage made of reinforcing iron is inserted into the space between the two concrete slabs and the space between these concrete slabs is then filled with in-situ concrete, so that a massive, coherent surrounding or foundation wall 2 is created which surrounds the excavation .



   The middle part of the construction pit 3 is then excavated down to the base of the foundation, with earth slopes 4 remaining on all sides, so that a truncated pyramid-shaped pit is created. Then a usually rectangular, horizontal floor slab 5 made of in-situ concrete is produced in the middle part of the construction pit.



   After the base or floor slabs have hardened, the inclined slope 4 is also removed down to the foundation base depth, so that a prismatic construction pit is ultimately created. So that the foundation wall 2 does not collapse, it is supported all around from the pit by inclined struts 6. Thereafter, the floor slab 5 is concreted all around up to the foundation wall 2 and connected to it. This creates a waterproof concrete trough or tub as a building foundation that absorbs the water and earth pressure. It is also possible that the foundation wall 2 extends a little deeper into the terrain than the floor slab.

 

   PATENT CLAIM



   A method for producing a building foundation, characterized in that a trench intended to encompass the building pit and at least corresponding to the depth of the building pit is excluded, a foundation wall (2) is built in this trench, a central building pit part (3) is excavated down to the foundation base leaving inclined embankments (4), a base plate (5) is concreted in this middle part of the construction pit, then the embankments are removed up to the foundation wall (2) with the support of the foundation wall and then the base plate is added to the foundation wall, so that a closed trough arises.

** WARNING ** End of DESC field could overlap beginning of CLMS **.

Claims

** WARNING ** Beginning of CLMS field could overlap end of DESC **.

The invention relates to a method for producing a building foundation.

The creation of a construction pit in the groundwater area usually requires considerable effort. Usually vertical sheet piling is built and the water is pumped out as the excavation progresses. The erection of such sheet piling is time consuming and relatively expensive.

The method according to the invention is intended to show a way to create a building foundation more cheaply.

The invention is characterized in that a trench intended to encompass the building pit and at least corresponding to the building pit depth is dug, a foundation wall is then built in this trench, a middle building pit part is excavated down to the foundation base, leaving inclined slopes, one in this middle building pit part The base plate is concreted, after which the slopes are removed up to the foundation wall with the support of the foundation wall and then the base plate is added to the foundation wall, so that a closed trough is created.

In this way, it is possible to significantly reduce the cost of producing a surrounding wall, especially in the case of groundwater deposits.

In the drawing, the various manufacturing stages are shown schematically as an exemplary embodiment. Show it: 1 shows a wall intended to surround the excavation, Fig. 2 the partially excavated construction pit, Fig. 3 the finished building foundation.

In the loose rock or the like. existing subsoil 1, a trench is first excavated, which extends along the outer contours of the foundation to be created.

The depth of this trench extends at least to the intended foundation level. Thereafter, wall elements are lowered into this trench with the help of a suspension device serving as a guide, the height of which corresponds approximately to the depth of the trench. These wall elements are then laterally connected to one another, so that a coherent, tight surrounding wall 2 results. The remaining part of the trench is filled in again.

The wall elements preferably consist of two mutually parallel concrete slabs of about 5 cm thick, between which there is a distance of preferably about five times the plate thickness. These two concrete slabs are held together rigidly at a distance from one another by means of reinforcement stirrups embedded in concrete. At the vertical joints of adjacent wall elements, a cage made of reinforcing iron is inserted into the space between the two concrete slabs and the space between these concrete slabs is then filled with in-situ concrete, so that a massive, coherent surrounding or foundation wall 2 is created which surrounds the excavation .

The middle part of the construction pit 3 is then excavated down to the base of the foundation, with earth slopes 4 remaining on all sides, so that a truncated pyramid-shaped pit is created. Then a usually rectangular, horizontal floor slab 5 made of in-situ concrete is produced in the middle part of the construction pit.

After the base or floor slabs have hardened, the inclined slope 4 is also removed down to the foundation base depth, so that a prismatic construction pit is ultimately created. So that the foundation wall 2 does not collapse, it is supported all around from the pit by inclined struts 6. Thereafter, the floor slab 5 is concreted all around up to the foundation wall 2 and connected to it. This creates a waterproof concrete trough or tub as a building foundation that absorbs the water and earth pressure. It is also possible that the foundation wall 2 extends a little deeper into the terrain than the floor slab.

PATENT CLAIM

A method for producing a building foundation, characterized in that a trench intended to encompass the building pit and at least corresponding to the depth of the building pit is excluded, a foundation wall (2) is built in this trench, a central building pit part (3) is excavated down to the foundation base leaving inclined embankments (4), a base plate (5) is concreted in this middle part of the construction pit, then the embankments are removed up to the foundation wall (2) with the support of the foundation wall and then the base plate is added to the foundation wall, so that a closed trough arises.