NL1018341C2 - Method is for underground installation of prefabricated concrete cellar and involves cellar being fixed to support structure, particularly concrete or steel foundation beam - Google Patents

Abstract

The method is for the underground installation of a prefabricated concrete cellar and involves the cellar being fixed to a support structure, particularly a concrete or steel foundation beam. At least one upright cellar wall is provided with coupling pieces (8), which on their side facing the support structure each have a cylindrical hole (9) with internal screw threads (10). Screw bolts fitted in the support structure are screwed into the holes of the coupling pieces, thus fixing the cellar wall to the support structure. The coupling pieces on their sides turned away from the support structure in a first version are connected with plate-shaped anchoring components (11), whilst those of a second version on their sides turned away from the support structure are connected with concrete iron reinforcement bars.

Description

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METHOD FOR UNDERGROUND APPLICATION OF A PREFABRICATED CONCRETE CELLAR

The invention relates to a method for underground mounting of a prefabricated concrete basement, wherein the basement is attached to a supporting structure, in particular to a concrete or steel foundation beam 10. It is noted that in this context the term "basement" is understood to mean any prefabricated concrete element to be arranged in the ground, such as a (watertight) pit, tank or the like.

Such a method is generally known.

In the known method, a rectangular, prefabricated concrete cellar is lowered into the ground by means of a crane in a pre-dug hole, wherein two opposite upright walls of the cellar are then placed on horizontal piles resting on piles and below ground level. foundation beams are attached. This is done as follows. When manufacturing the known basement, a reinforcement consisting of deflectable cuttings is cast into each of the two aforementioned basement walls. The bendable cuttings lie in the plane of the cellar wall in question and are covered, for example, by a metal strip. After the cellar thus produced has been made in the hole in the ground, the metal strips are detached from the cellar walls 30 with the aid of, for example, a crowbar and a hammer, after which the cuttings from a rest position in which they lie in the plane of the cellar wall in question, are bent to a working position in which the cuttings are positioned approximately perpendicular to the respective basement wall. Subsequently, the foundation beams are poured using concrete formwork around the aforementioned basement walls at the level of the bent cuttings thereof. After the concrete has hardened from the foundation beams and the formwork has been removed, a Π · - - J 1 I, r.

2 sufficient connection has been created between the two mentioned walls of the basement and the adjacent foundation beams.

A drawback of the known method is that manually removing the aforementioned cover strips and subsequently also manually bending out the cuttings of the cuttings reinforcement is physically demanding and therefore unattractive and unhealthy work. Moreover, the disadvantage of the known method is that mounting the concrete formworks further around the bent cuttings and subsequently pouring concrete for the foundation beams is experienced as difficult in practice, in view of the fact that the cuttings are situated outward in a small working space. extend.

It is the object of the invention to obviate the drawbacks of the prior art, in particular to provide a method for underground mounting of a prefabricated concrete cellar, wherein the cellar is fast, reliable and simple to a solid supporting structure, such as a concrete foundation beam, is attached.

To this end, a method of the type mentioned in the preamble according to the invention has the special feature that at least one upright cellar wall is provided with coupling pieces which each have an at least substantially cylindrical hole with internal screw thread on their sides facing the bearing construction, wherein in the screw bolts to be fitted to the support structure are screwed into the holes of the connecting pieces in order to fix the basement wall to the support structure. During manufacture of the basement, the coupling pieces are at least partially cast into the wall thereof, the cylindrical holes provided with internal screw thread being accessible from outside for the screw bolts. Extensive calculations have shown that the coupling pieces are surprisingly resistant to high tensile forces, for example as a result of the influence of y y £ ·· T.

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3 varying groundwater levels tend to fall from the basement.

In a preferred embodiment of a method according to the invention, coupling pieces of a first type are connected on their sides remote from the bearing construction to substantially plate-shaped anchoring members, while coupling pieces of a second type are connected on their sides remote from the bearing construction to reinforcing bars. Both the plate-shaped anchoring members and the concrete irons are cast into the wall thereof during manufacture of the basement. In particular, the coupling pieces of the first type each have an at least substantially cylindrical hole with internal screw thread on their sides remote from the bearing construction, the substantially plate-shaped anchoring members being provided with external screw thread for being inserted into the holes of the coupling pieces screwed. In another preferred variant, the coupling pieces of the second type each have an at least substantially cylindrical hole on their sides remote from the bearing construction, wherein the concrete bars are provided with external ribs for being clamped into the holes of the coupling pieces. The connecting pieces of the second type are hereby pressed on the concrete bars by means of an external force.

In a further preferred embodiment of a method according to the invention, the reinforcing bars reach into an adjacent, other upright cellar wall.

In a further preferred embodiment of a method according to the invention, the screw bolts are screwed into the holes of the coupling pieces before the bearing construction is arranged, in particular before the concrete is poured from the foundation beam. The screw bolts are therefore fitted in the support structure (i.e., cast in the concrete of the foundation beam) after they have already been screwed into the holes of the connecting pieces.

The invention is also related to a, .. · * »4 | (<4 coupling piece apparently suitable for use in a method according to the invention. Furthermore, the invention supervises a prefabricated concrete cellar apparently suitable for being used in a method according to the invention.

The invention will be further elucidated on the basis of figures shown in a drawing, wherein figure 1 schematically shows a basement mounting construction according to the state of the art in cross-section; Figure 2 shows a schematic and perspective view of a coupling piece of the first type according to the invention; figure 3A relates to a schematic side view of a coupling piece of the second type according to the invention provided with a screw bolt and reinforcing steel attached thereto, while figure 3B shows a longitudinal section of the coupling piece of figure 3A; and figure 4 shows a schematic and perspective view of a basement attached to a foundation beam in accordance with the invention.

Figure 1 distinguishes a concrete foundation beam 2 poured onto piles 1, which extends below ground level 3 in the horizontal direction and on which a floor 4 and inner and outer walls 5 of a building (not shown) rest. A highest groundwater level is indicated by reference number 6. A prefabricated concrete, "box-shaped" basement of one piece, of which an upright wall is indicated by reference numeral 7, is connected to the foundation beam 2 by means of cuttings. It will be clear that the cuttings must be able to withstand high tensile forces if, in the event of a fall in the groundwater level, the cellar is subject to high downward forces. The cuttings must also be able to withstand high tensile forces if the basement tends to tilt due to variation of the groundwater level. In the left-hand drawing of figure 1 the situation is shown in which the foundation beam 2 has been poured onto the basement wall 7, while the right-hand drawing thereof relates to a situation in which the foundation beam 2 is also partly crashed against the basement wall 7. However, in both cases the basement is suspended from the foundation beam 2 using cuttings according to the prior art.

A coupling piece of the first type is indicated in Fig. 2 by reference numeral 8. The coupling piece 8 has on its side facing the foundation beam 2 a cylindrical hole 9 provided with internal screw thread 10, while on the opposite side (i.e. the side which is cast into the basement wall 7 in operating condition) an anchoring member in the the shape of a plate 11 perpendicular to the longitudinal direction of the coupling piece 8 is welded. Instead of being welded to the coupling piece 8, the plate 11 can also be screwed to the coupling piece 8. To this end, the coupling piece 8 has a cylindrical hole with an internal thread on its previously mentioned side facing away from the foundation beam 2, while the plate 11 has a projection with an external thread perpendicular thereto for screwing into the latter hole of the coupling piece 8. A screw bolt (not shown) to be fitted later in the foundation beam 2 is screwed into the hole 9 of the coupling piece 8 in order to fix the basement wall 7 to the foundation beam 2. As stated, the screw bolts are therefore screwed into the holes 9 of the coupling pieces 8 before the concrete is poured from the foundation beam 2.

Figure 3A shows a coupling piece 12 of the second type. Like the coupling piece 8, this coupling piece has on its side facing the foundation beam 2 a cylindrical hole 13 provided with internal screw thread 14, into which a screw bolt 15 which is also to be fitted later in the foundation beam 2 is screwed with external screw thread 16. However, the difference with the coupling piece 8 is that the coupling piece 12 is connected on its side remote from the foundation beam 2 to a reinforcing bar 17. For this purpose, the reinforcing bar 17 provided with external ribs 18 is inserted into a smooth cylindrical hole 19 of the coupling piece 12 on its side remote from the foundation beam 2. By means of an external force, the coupling piece 12 is then pressed on site onto the reinforcing bar 17. The reinforcing bar 17 preferably extends into an other wall of the basement perpendicular to the cellar wall 7. In addition to or instead of the concrete bars 17 use is made in another preferred variant of screw bolts and / or threaded ends which are screwed into the coupling pieces 12 of the second type. To this end, the coupling pieces 12 of the second type have cylindrical holes with internal threads on their sides remote from the foundation beam 2.

Figure 4 once again shows a perspective view of a basement suspended from foundation beams according to the invention. Parts corresponding to those of earlier figures are designated by the same reference numerals.

The invention is not limited to the variants shown above, but also extends to other embodiments that fall within the scope of the appended claims. It is noted that features of the present invention mentioned in the claims 25 and described in the description of the figures can be used individually or in combination.

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Claims (8)

1. Method for underground mounting of a prefabricated concrete basement, wherein the basement is attached to a supporting structure, in particular to a concrete or steel foundation beam, characterized in that at least one upright basement wall is provided with connecting pieces which are connected to their the sides facing the support structure each comprise an at least substantially cylindrical hole with internal thread, wherein screw bolts to be fitted in the support structure are screwed into the holes of the coupling pieces in order to fix the basement wall to the support structure. 1, i 2. Method as claimed in claim 1, wherein coupling pieces of a first type are connected on their sides remote from the bearing construction to substantially plate-shaped anchoring members, while coupling pieces of a second type are connected on their sides remote from the bearing construction 20 to reinforcing bars. 3. Method as claimed in claim 2, wherein the coupling pieces of the first type each have on their sides remote from the bearing construction an at least substantially cylindrical hole with internal screw thread, wherein the substantially plate-shaped anchoring members are provided with external screw thread in order to the connectors to be screwed. 4. Method as claimed in claim 2 or 3, wherein the coupling pieces of the second type each have an at least substantially cylindrical hole on their sides remote from the bearing construction, wherein the concrete bars are provided with external ribs for clamping into the holes 35 of the coupling pieces to be applied. The method according to claim 2, 3 or 4, wherein the Λ concrete irons extend into an adjacent, other upright cellar wall. A method according to any one of the preceding claims 1 to 5 and 5, wherein the screw bolts are screwed into the holes of the coupling pieces before the supporting structure is fitted, in particular before the concrete is poured from the foundation beam. Coupling piece apparently suitable for use in a method according to one of the preceding claims 1 to 6. 8. Prefabricated concrete cellar apparently suitable for use in a method according to any one of the preceding claims 1 to 6.