WO2017129319A1 - Foundation surrounding means and method for creating a foundation surrounding means - Google Patents

Abstract

The invention relates to a foundation surrounding means and a method for creating a foundation surrounding means, wherein a substantially vertical surrounding wall formed by diaphragm wall panels is created in the ground, the vertical butt joints of which are sealed by a joint sealing band, the ground is excavated within the surrounding wall, and a substantially horizontal base plate is provided adjoining the surrounding wall. According to the invention, a receiving hole extending to the joint sealing band is introduced into the surrounding wall at at least one vertical butt joint between two adjacent diaphragm wall panels, and a sealing element for forming a horizontal seal is introduced into the receiving hole.

Description

 BUILDING CASE CLOSURE AND METHOD FOR CREATING A GROUND CLOSURE LOCK

The invention relates to a method for creating a construction pit enclosure in which a substantially vertical enclosure wall of slot wall panels is created in the ground, the vertical joints are sealed by a joint sealing strip, the soil is excavated within the Umschließungswand, and provided a substantially horizontal bottom plate which adjoins the enclosing wall according to the preamble of claim 1.

The invention further relates to a construction pit enclosure having a substantially vertical enclosure wall in the bottom formed by slot wall panels whose vertical joints are sealed by a joint sealing strip and a substantially horizontal floor plate adjacent to the enclosure wall and sealing the excavation downwardly the preamble of claim 10.

Furthermore, the invention relates to a sealing element for such a method and such Baugrubenumschließ.

From DE 10 2005 052 162 A1 two different methods for producing a Baugrubenumschließ are known. In the first method, the enclosure wall is composed of prefabricated reinforced concrete parts, which are arranged vertically one above the other and clamped together. In the second, generic method, an enclosure wall is first created in the ground. In this case, the enclosure wall is made up of individual stitches or slot wall panels which, when combined, form an annularly closed enclosure. form wall. Subsequently, the soil is excavated within the enclosure wall to form the excavation.

In a lower area, a bottom plate is provided, which seals the pit against a groundwater passage from below. The bottom plate may be formed by a water-barrier bottom layer or made as a structural part. Between the vertical Schlitzwandpanelen form joints, which represent leaking areas.

In EP 2 647 765 A1 a generic method for producing a slot wall for a Baugrubenumschließ is described in detail. To form a slot wall panel, a slot is first created in the ground, which is filled with a curable composition. To connect a laterally adjacent further slot wall panel, a formwork element is used in the not yet cured mass, which is provided with a joint sealing tape. After creating the adjacent trench wall panel, the formwork element is removed leaving the joint sealing strip in a central area along the vertical butt joint between the two trench wall panels thus created. The joint sealing tape ensures that no water flows laterally into the excavated excavation along the joint between the two slotted wall panels.

A similar arrangement with two parallel vertical joint tapes is known from US 6,164,873.

Along the horizontal butt joint, which is formed between the bottom plate and the surrounding enclosing wall, a horizontal seal may be provided. Thus, EP 2 549 021 B1 describes a water reservoir with a shaft wall made of slotted wall panels and a concrete floor slab. The bottom plate is connected via dowels or a projection with the shaft wall. In the corner region between shaft wall and bottom plate, a horizontal annular sealing device is provided.

However, the joint sealing strips and sealing devices are often not sufficient to seal a construction pit enclosure thus created against water penetration. From DE 103 34 730 A1 it is known to provide a second trough-like inner shell within the first construction pit enclosure. However, this is very expensive and also reduces the usable volume of the building.

Furthermore, it is known to provide the lower portion of a Baugrubenumschließ with elaborate sealing measures to selectively eliminate leaks. This is also very time consuming and costly.

The invention is based on the invention of specifying a construction pit enclosure and a method for creating a construction pit enclosure, with which a particularly dense construction pit enclosure can be efficiently provided. It is another object of the invention to provide a sealing element for this purpose.

According to the invention, the object is achieved on the one hand by a method having the features of claim 1, a construction pit enclosure having the features of claim 10 or by a sealing element having the features of claim 13. Preferred embodiments are given in the respective dependent claims.

The inventive method for creating a Baugrubenumschließ is characterized in that at least one vertical butt joint between two adjacent Schlitzwandpanelen in the Umschließungswand a extending to the joint sealing tape receiving bore is introduced and that in the receiving bore a sealing element is introduced to form a horizontal seal.

The invention is based on the finding that when water enters a generously constructed excavation enclosure, the water substantially penetrates along the vertical joints in a region which extends between a substantially centrally located joint tape between the diaphragm wall panels and the floor slab. The water can rise due to capillary forces vertically in the butt joint upwards and thus penetrate past the bottom plate in the excavation. To prevent this, an approximately horizontal receiving bore is introduced at the vertical butt joint between two adjacent Schlitzwandpanelen in the Umschließungswand, which extends to the joint sealing tape. In this receiving bore then a sealing element is introduced, wel- Seals the receiving bore and thus the critical area of the vertical butt joint between the vertical joint sealing strip and the adjacent bottom plate. An upward rising of the water along the vertical butt joint is thus prevented. As a result, a very good seal of the lower portion of Baugrubenumschließ achieved. Thus, the creation of an inner tub omitted, so that the Baugrubenumschließ can serve directly as an inner wall of the building.

A preferred embodiment of the invention is that the at least one receiving bore is introduced at the level of the bottom plate in the Umschließungswand. The receiving bore can preferably be created horizontally or at an oblique angle. This allows the shortest possible and thus efficient bore. The bottom plate may be formed by a water-barrier bottom layer, which is natural or sealed by gel injections, or as a structural part, such as concrete.

In principle, the receiving bore can be introduced directly over an existing base plate in the Umschließungswand.

According to a variant of the invention, it is particularly preferred that the bottom plate is created and that the at least one receiving bore is introduced before the bottom plate is produced. The receiving bore can be created in particular at the height level of the bottom plate. After sealing, a bottom plate can then be made separately, such as by concreting.

According to one embodiment of the invention, it is preferred that the receiving bore is introduced from an inner side of the enclosing wall to the vertical joint sealing tape or beyond in the Umschließungswand. However, the receiving bore extends horizontally or at a certain angle of inclination until the receiving bore comes close to the joint sealing tape or this preferably contacted. The receiving bore thus extends transversely to the vertical butt joint, so that capillary rising of water between the vertical joint sealing strip and the bottom plate is prevented after introduction of the sealing element. In certain cases, the receiving bore can be introduced beyond the sealing strip into the enclosing wall. In doing so, the Gendichtband removed when introducing the bore in this area and then taken over the sealing function of the introduced sealing element. In individual cases, it is also possible to perform the receiving bore to the outside of the enclosing wall, so that the sealing strip extends transversely through the enclosing wall and the vertical butt joint between the two adjacent slot wall panels is sealed over the entire panel width.

Depending on the manner in which the bottom plate is produced, it is not absolutely necessary for a separate seal to be provided in the corner region between the bottom plate and the enclosing wall. For a particularly reliable seal, however, it is advantageous according to an embodiment of the invention that the bottom plate adjoins the enclosing wall to form a horizontal butt joint, which is sealed with a horizontal seal. The horizontal seal may be an annular sealing device, in particular a sealing tape which has been folded over the corner. Preferably, the horizontal seal extends annularly along the edge of the entire bottom plate.

In principle, the vertical joint sealing tape can be arranged between the individual slot wall panels in any suitable manner. Also, the slot wall panels, also called sealing wall panels, can be made in any way by creating and filling a hole in the ground, such as by drilling. The slot or sealing wall thus produced may be referred to as a bored pile wall. A preferred embodiment of the invention is that the trench wall panels are made progressively by means of a trench grab or wall trench by creating slots in the ground which are filled with a curable composition and prior to curing the vertical joint sealant tape is inserted into the slot. The insertion of the vertical joint sealing strip can in particular be effected in a known manner with a shuttering element, by means of which a defined side surface of each slot wall panel is predetermined. The Abschalelement is removed in a known manner again from the slot.

Furthermore, the method according to the invention is further developed in a preferred manner in that the sealing element has a cylindrical outer circumference, which is suitably inserted into the receiving bore. The sealing element has a length which is smaller, equal to or greater than the introduced is bore. Depending on the type of training and the material of the Dichtele- mentes, which may consist of a rigid or flexible material, the sealing element is inserted with a press fit or clearance in the receiving bore.

According to a further development of the invention, it is preferred that the sealing element has a fixed metal sleeve which is fastened with a connecting mass and / or a fastening element in the receiving bore. Preferably, the sealing element is formed overall as a metal sleeve, wherein the metal sleeve may be a tubular body or an at least largely solid rod member. The metal sleeve is preferably used with a defined clearance in the receiving bore, with a clearance between the bore wall and the outside of the metal sleeve is given. In this space, a mortar or other compound and sealant can be injected, through which the metal sleeve is anchored fluid-tight in the receiving bore. In principle, any suitable material, in particular a mortar, can be used as the sealing and anchoring compound. The metal sleeve can extend over the entire length of the receiving bore or only over a partial area. Alternatively or additionally, the metal sleeve can be anchored to the enclosing wall with a fastening element, such as an annular flange.

According to a further embodiment of the invention, it is advantageous that the sealing element has a flexible hose sleeve which is inserted with play in the receiving bore, and that the hose sleeve is filled with a filling compound which expands the hose sleeve and anchored firmly and sealingly in the receiving bore , In a basic state, the hose sleeve has a clearance fit to the diameter of the receiving bore, so that the hose sleeve can be easily used. The hose may be formed of rubber, a plastic or a textile material. By introducing a filling compound, in particular a swellable and curable filling compound, the outer circumference of the hose sleeve is widened and pressed tightly against the wall of the receiving bore. After hardening of the filling compound, a sealing element fitting tightly in the receiving bore is produced. The hose sleeve preferably extends over the entire length of the receiving bore or only over a partial area. INS special may also be provided a combination of hose sleeve and metal sleeve, wherein one or more length ranges of the sealing element are each formed of a hose sleeve or a metal sleeve.

The invention further comprises a construction pit enclosure, which in particular is produced according to the method described above. The construction pit enclosure according to the invention is characterized in that at at least one vertical butt joint between two adjacent Schlitzwandpanelen in the Umschließungswand a extending to the joint sealing tape receiving bore is formed, and that in the receiving bore a sealing element is introduced for forming a horizontal seal. As a result, a Baugrubenumschließ is achieved in which a particularly good seal against liquid entry is given by the vertical butt joint.

A preferred development of the construction pit enclosure according to the invention is that a receiving bore with sealing element is arranged on each vertical butt joint. By sealing elements is thus prevented in particular groundwater along the vertical joints on the bottom plate over by the capillary forces rises and so can get into the pit.

A particularly reliable sealing is achieved according to a development of the invention in that the sealing element extends from an inner side of the enclosing wall at least as far as the joint sealing strip along the vertical butt joint. By the sealing element, which is arranged horizontally or with a certain helix angle to the horizontal, so a reliable blocking of the vertical butt joint against rising water is achieved.

Furthermore, the invention comprises a sealing element for a method or a construction pit enclosure, which have been described above. This is according to the invention characterized in that the sealing element is cylindrical and adapted to a receiving bore in a Umschließungswand a Baugrubenumschließ. With the sealing element according to the invention, the advantages described above can be achieved in a construction pit enclosure and a method for creating a construction pit enclosure. A preferred embodiment according to the invention is that the sealing element has a solid metal sleeve. The metal sleeve is fitting, in particular with a clearance fit, formed to the diameter of the receiving bore. The solid metal sleeve is firmly and sealingly anchored in the receiving bore by means of a sealant.

Alternatively or additionally, it may be provided according to a development of the invention that the sealing element has a flexible hose sleeve, which is preferably filled with a swellable filling compound. By swelling the filling compound, the elastic hose sleeve, which may be a rubber or plastic hose in particular, defined in diameter widens, so that the outer circumference of the hose sleeve tight and water-tight against the wall of the receiving bore. The swellable filling compound can harden, so that a reliable and stable anchoring of the sealing element takes place in the enclosing wall.

The invention will be further elucidated on the basis of preferred exemplary embodiments, which are illustrated schematically in the drawings. In the drawings show:

Figure 1 is a cross-sectional view from above of a portion of a Umschließungswand with butt joint.

Fig. 2 is a cross-sectional view through the section A-A of Fig. 1 with the

 Corner area to the adjacent floor slab;

3 shows a schematic cross-sectional view through an enclosing wall with an inserted tubular sealing element;

4 shows a cross-sectional view corresponding to FIG. 3 with an inserted sleeve-shaped sealing element;

5 is a cross-sectional view through a Umschließungswand with an introduced first receiving bore.

6 shows a cross-sectional view through an enclosing wall with an introduced second receiving bore; 7 is a partial view of a construction pit enclosure from above according to the prior art; and

Fig. 8 is a partial cross-sectional view from the side to the cutout of a

 Construction pit enclosure according to FIG. 7

According to Figures 1 and 2, a construction pit enclosure 10 according to the invention is shown in fragmentary form. The construction pit enclosure 10 has an annularly closed enclosure wall 12, of which only two slotted wall panels 14 according to FIG. 1 are shown partially. The slot wall panels 14 have a substantially rectangular cross section. However, it is also possible to provide oval-shaped or circular cross-sections. Due to the process, the individual slot wall panels 14 are produced separately, with a vertical butt joint 16 forming between two adjacent slot wall panels 14. The vertical butt joint 16 extends from a bottom portion to the upper end of the respective adjacent slot wall panels 14. In a central region of the slot wall panels 14 extends transversely to the vertical butt joint 16, a joint tape 18. The joint tape 18 is placed in the creation of the slot wall panels 14, even before the Slot wall panels 14 are cured. The slot wall panels 14 are made in a conventional manner from a mortar or concrete and are optionally provided with a metal reinforcement.

In a lower region of the enclosing wall 12, the construction pit enclosure 10 has a base plate 20. The bottom plate 20 is also made of concrete in the illustrated embodiment of FIG. 2 and is connected via a projection 22 form-fitting manner with the Umschließungswand 12. In the adjacent region between the bottom plate 20 and the enclosing wall 12, a horizontal butt joint 24 is formed, which forms in an annular manner along the enclosing wall 12 to the bottom plate 20.

To prevent the ingress of moisture and the infiltration of water along the vertical joint 16 between the joint tape 18 and the bottom plate 22, a receiving bore 15 is introduced before creating the bottom plate 22 in the enclosing wall 12 in the region of the vertical butt joint 16. In the receiving bore 15, a cylindrical sealing element 30 is inserted through wel- Ches the vertical joint 16 is sealed horizontally. Adjacent to the sealing element 30, in the illustrated exemplary embodiment, a horizontal seal 28, which is formed as an annular sealing strip, is provided in the lower area of the base plate 20 along the horizontal butt joint 24. The horizontal seal 28 prevents ingress of moisture or water along the annular horizontal butt joint 24 on the bottom plate 20.

In Fig. 3 is a detail view of the seal according to the invention is shown, wherein in the receiving bore 15 in the slot wall panel 14, a sealing element 30 is inserted, which is designed as a hose sleeve 34. The hose sleeve 34 is completed on the one hand with a bottom. The receiving bore 15 is brought down to the joint tape 18. Between the hose sleeve 34 and the joint tape 18 in the slot wall panel 14, a sealing washer 36 may be provided from an elastic material. In principle, it is possible to introduce the sealing disc 36 before the creation of the receiving bore 15 with the joint tape 18 or in the created receiving bore 15. The hose sleeve 34 is provided with a fillable filling material, through which the flexible hose sleeve 34 is widened in its circumference and is pressed so tight against the wall of the receiving bore 15.

An alternative embodiment of the sealing element 30 is shown in Fig. 4. The sealing element 30 is formed as a tubular metal sleeve 32 with a closed bottom portion. The bottom region adjoins the joint tape 18 in the slot wall panel 14 via a sealing washer 36. In the illustrated embodiment, the metal sleeve 32 is inserted into the receiving bore 15 substantially by means of a press fit, wherein on the outer circumference a sealant, not shown, for sealing the gap between the wall of the receiving bore 15 and the metal sleeve 32 may be provided. In addition, the metal sleeve 32 is additionally anchored to the slot wall panel 14 at its end pointing to the inside of the enclosing wall 12 or to the interior of the excavation by means of an annular fastening element 33. The fastener 33 is formed as a flange-shaped retaining ring.

One way of introducing the receiving bore 15 with particular protection of the joint sealing strip 18 is explained in connection with FIG. 5. It will the receiving bore 15 is initially introduced only to an intermediate portion 13 in the Umschließungswand 12. Subsequently, a probing bore 19 with a small diameter, wherein the probing bore 19 is preferably carried out by hand. Once the joint sealing tape 18 is reached, the probing hole 19 is terminated and the receiving bore 15 is performed up to the final depth according to the probing hole 19. Then, a sealing washer 36 for sealing any damage to the joint sealing strip 18 and then the sealing element 30, not shown, are used.

An alternative arrangement variant is shown in FIG. The receiving bore 15 is created by the joint sealing tape 18 through. In this case, the joint sealing strip 18 is pierced, so that the sealing element to be used takes over the function of the joint sealing strip 18 with.

To illustrate the invention, a conventional excavation enclosure 10 'is shown in FIGS. 7 and 8 with an enclosing wall 12', shown only partially, of slotted wall panels 14 'and a floor panel 20'. The vertical butt joints 16 'between adjacent Schlitzwandpanelen 14' are each sealed by a vertical joint sealing strip 18 ', so that no water from the bottom can penetrate into the pit laterally. A horizontal butt joint 24 'formed between the horizontal bottom plate 20' and the vertical enclosing wall 12 'is sealed by means of a horizontal seal 28'. According to FIG. 8, the enclosing wall 12 'ends flush with the bottom plate 20'. Preferably, the enclosure wall 12 'extends deeper.

According to a finding of the invention, despite these known sealing measures moisture and water can penetrate along the vertical joints 16 'over an area between the joint sealing tape 18' and the bottom plate 20 'from below into the excavation, as indicated schematically by the arrow P1 is. The water can rise due to capillary forces along the vertical butt joint 16 upwards. This ingress of water is prevented by the solution according to the invention.

Claims

claims

Method for creating a construction pit enclosure (10), in which

 a substantially vertical enclosure wall (12) of slotted wall panels (14) is created in the floor, the vertical joints (16) of which are sealed by means of a joint sealing strip (18),

 the bottom is excavated within the containment wall (12) and a substantially horizontal bottom plate (20) is provided adjacent to the containment wall (12),

 characterized,

 in that at least one vertical butt joint (16) between two adjoining slotted wall panels (14) is introduced into the enclosing wall (12), a receiving bore (15) extending to the joint sealing strip, and

 in that a sealing element (30) for forming a horizontal seal is introduced into the receiving bore (15).

Method according to claim 1,

 characterized,

 the at least one receiving bore (15) is introduced into the enclosing wall (12) at the height of the base plate (20).

Method according to claim 1 or 2,

 characterized,

 that the bottom plate (20) is created and

the at least one receiving bore (15) is introduced before the bottom plate (20) is produced.

4. The method according to any one of claims 1 to 3,

 characterized,

 in that the receiving bore (15) is introduced from an inner side of the enclosing wall (12) to the vertical joint sealing strip (18) or beyond into the enclosing wall (12).

5. The method according to any one of claims 1 to 4,

 characterized,

 in that the bottom plate (20) adjoins the enclosing wall (12) to form a horizontal butt joint (24) which is sealed with a horizontal seal (28).

6. The method according to any one of claims 1 to 5,

 characterized,

 that the slotted wall panels (14) are made stepwise by means of a trench wall grab or a trench wall cutter by creating slots in the ground which are filled with a hardenable mass, and

 before curing, the vertical joint sealing strip 15 is inserted into the slot.

7. The method according to any one of claims 1 to 6,

 characterized,

 in that the sealing element (30) has a cylindrical outer circumference, which is suitably inserted into the receiving bore (15).

8. The method according to any one of claims 1 to 7,

 characterized,

 in that the sealing element (30) has a fixed metal sleeve (32) which is fastened with a connecting mass and / or a fastening element (33) in the receiving bore (15).

9. The method according to any one of claims 1 to 8,

 characterized,

in that the sealing element (30) has a flexible hose sleeve (34) which is inserted into the receiving bore (15) with play, and in that the hose sleeve (34) is filled with a filling compound which expands the hose sleeve (34) and anchors it firmly and sealingly in the receiving bore (15).

10. excavation enclosure, in particular created by a method according to one of claims 1 to 9, with

 a substantially vertical enclosure wall (12) in the bottom, which is formed of Schlitzwandpanelen (14) whose vertical joints (16) are sealed by means of a joint sealing strip (18), and

 a substantially horizontal bottom plate (20) which adjoins the enclosing wall (12) and seals the excavation downwards, characterized

 in that a receiving bore (15) extending to the joint sealing strip (18) is formed on at least one vertical butt joint (16) between two adjacent slot wall panels (14) in the enclosing wall (12), and

 in that a sealing element (30) for forming a horizontal seal is introduced into the receiving bore (15).

11. excavation enclosure according to claim 10,

 characterized,

 in that a receiving bore (15) with sealing element (30) is arranged on each vertical butt joint (16).

12. construction pit enclosure according to claim 10 or 11,

 characterized,

 in that the sealing element (30) extends from an inner side of the enclosing wall (12) at least as far as the joint sealing strip (18) along the vertical butt joint (16).

13. Sealing element for a method according to one of claims 1 to 9 or a construction pit enclosure (10) according to one of claims 10 to 12,

characterized, in that the sealing element (30) is cylindrical and fits to a receiving bore (15) in an enclosing wall (12) of a construction pit enclosure (10).

Sealing element according to claim 13,

characterized,

in that the sealing element (30) has a fixed metal sleeve (32).

Sealing element according to claim 13 or 14,

characterized,

the sealing element (30) has a flexible hose sleeve (34) which is filled with a swellable filling compound.