DE3808269A1 - Method of constructing a retaining dam and prefabricated steel member, in particular for a retaining dam constructed according to this method - Google Patents

Abstract

A base row BR of wall elements 6 are embedded in a trench 16 in the centre of the intended dam body 1. The wall elements 6 each consist of individual W-shaped section plates lashed to one another. The dam soil materials 3-5 are subsequently deposited laterally onto this base row BR and compacted. A first vertical row HR of section plates, if need be lashed to one another to form wall elements 7, is now bolted in an overlapping manner to the base row BR. After that, the dam soil materials 3-5 are again deposited in several layers Sch1-Sch4 on both sides of the vertical row HR and compacted. Following this, further vertical rows HR of individual section plates or of preassembled wall elements 7 are bolted one after the other in individual assembly steps up to the intended dam height, and the dam soil materials 3-5 are deposited in layers in each vertical row HR and are compacted up close to the respective top edge. <IMAGE>

Description

On the one hand, the invention relates to a method for establishing ten of a dam according to the features in the preamble of Claim 1.

On the other hand, the invention is directed to a finished steel part, especially for one built according to this procedure ten dam according to claim 2.

It is used to seal dams that are embanked on both sides known, approximately in the middle of the dam in the longitudinal direction of the Vertical sheet pile walls with an approx trapezoidal beveled cross section. In the The construction of a dam body has so far been carried out that considering an average traffic jam dam height of 20 to 30 m it is aimed at the sheet piling using a maximum rolling length of 15 to 17 m to install. For this purpose, the sheet piling is clamped their longitudinal edge areas rammed into the ground. Here the longitudinal edge areas of the sheet piling are designed that they are pushed into each other only in the longitudinal direction can. Therefore, they must be dimensioned accordingly strong be.  

It is also necessary to be relative after ramming sheet piling protruding far above the surface of the earth de bracing, in particular due to wind-related stress conditions. The credits required for this devices are therefore in the process of further construction Naturally erecting a dam body in the way.

It should also be borne in mind that the in the ground rammed sheet pile walls at least one more roll length must be extended to the final dam height. The associated assembly technology and economy problems increase the already high level of effort more.

Finally, it should be noted that by ramming the Sheet piling and the high formed thereby, a Abdich partition function the work surface for the manufacture of the perineum in two of one another other independent work areas. This thing behavior then complicates, especially with longer embankments, Difficult to understand due to the workflow related between these two areas of work in addition to the Sheet piling and side fillings Compression for reasons of stability on both sides the sheet piling must be done simultaneously.

The invention is based, both a method to build a dam as well as a prefabricated steel to propose part for such a dam, according to which erecting and integrating the precast steel part in the dam body from the mounting side easier and with less effort can be done.  

As for solving the procedural part of this task arrives, so this is in the characterizing part of the Claim 1 specified features seen.

The core idea of the method according to the invention is quasi simultaneous erection of the ver through the dam body running sealing steel partition with the double sided the cut-off wall made in layers and Compaction of the dam floor materials. By using at It is required for pre-assembled wall elements of limited height now possible without ramming and without elaborate ab Tension measures in the event of problem-free contact between work Reach the dam body on both sides of the sealing wall to build in layers. Due to the limited length of the if necessary, can be assembled to form wall panels these now have a lower weight per meter. Furthermore can the torsion and buckling required for ramming to a significant extent, which again leads to a weight saving.

If it is said in the foregoing that both the Profilble individually or as part of a pre-assembled wall elements can be put together, so it should be practical from the practical point of view To form the basic row from wall elements and the rows of heights from successively screwed profile sheets.

Regarding the subject part of the invention underlying task is the solution in the kenn characterizing features of claim 2.

Such a design allows comparison if necessary wise large, yet easy to transport and handle preassembled wall elements in the factory, see above that at the construction site only these wall elements horizontal and  vertically screwed tightly overlapping Need to become. Individual assembly is also a matter of course of the profiled sheets, especially in the rows of heights. The individual asymmetrical, cross-sectionally W-shaped profile sheets by simply hooking the tongue and groove together engaging edge areas. These can cross each other be set. Gaping the joints between the pros filblechen is ver by the lashing of the profile sheets prevents. In addition, the profile sheets are thereby additionally locked and the self-adhesive sealing tapes closed pressed together. The play of the longitudinal edge areas of the profile sheet metal is dimensioned so that it also comes from ground movements Called settlements and strains easily recorded will.

The length of the profile sheets is such that bracing to absorb wind loads and that layer-by-layer pouring and compacting of the dam floor materials on both sides of the steel growing in rows finished part without problems and avoiding work difficulties in communication due to running can be.

Taking into account the usual width dimensions of about W-shaped profile sheets is an advantageous one Embodiment of the invention according to the features of the An Proverb 3 that the length of a wall element to the height is about 3: 2. This is not just one Extensive factory pre-assembly of a wall element possible Lich, but also a perfect land transport, on water or on the rail and also the problem-free Assembly on site. Work on the construction site become both labor and equipment reduced to a minimum.  

A preferred connection of the profile sheets within one Wall element as well as the edge profile sheets from neighboring wall elements consists in the characteristics of Claim 4.

The features of claim 5 ensure flawless Lashing of the profile sheets nevertheless a movement of the one individual profile sheets to each other to ground movements in the mountain area must be sufficiently taken into account. Here is the Tab cross-section dimensioned so that even after exhaustion the length of the elongated holes in the cross brackets a wide re elasticity of the in the longitudinal direction of the perineum finished steel part due to the W-shaped cross section the profile sheet is ensured.

The invention is based on in the drawings illustrated embodiments explained in more detail. It shows

Figure 1 in the scheme of a dam body for a dam in cross section.

Fig. 2 to 4 in enlarged cross-section ver different construction phases during the erection of the dam body of Fig. 1;

FIG. 5 is the view of a wall member for the base of a series of the dam body in the longitudinal direction by pulling steel finished part;

Fig. 6 is a plan view of the wall element of Fig. 5;

FIG. 7 is the view of a wall element for lying above the base series elevation rows of the steel finished part;

Figure 8 is an enlarged horizontal cross-section through the wall element of Figure 7 along the line VIII-VIII.

Fig. 9 is an oblique view of the joint area of four adjacent profile sheets and

Fig. 10 in an enlarged scale a vertical cross section through the representation of FIG. 9 along the line XX.

1 in FIG. 1 denotes an approximately 30 cm high dam body for a dam at the highest point. The dam body 1 has a wall-like prefabricated steel part 2 for sealing in the middle of the dam. While a fill of filter granulate is provided on one side of the prefabricated steel part 2 , there is a fill of cohesive soil 4 on the other side of the prefabricated steel part 2 . In addition to the filter granules 3 and the cohesive soil 4 , washing piles 5 are piled up and compacted while maintaining a predetermined slope angle.

The prefabricated steel part 2 consists of several rows BR and HR arranged one above the other, possibly pre-assembled into wall elements 6, 7, profiled sheets 8 (see also FIGS. 4 to 10). The approximately W-shaped asymmetrical profile sheets 8 are with their hook-shaped longitudinal edge areas Chen 9, 10 (FIGS . 6 and 8) in a tongue and groove manner. Self-adhesive sealing tapes 11 ( FIG. 8) are located between the nested longitudinal edge areas 9, 10 .

Both the profile sheets 8 of each wall element 6, 7 and the edge-side profile sheets 8 of the wall elements 6, 7 to be joined horizontally in a row are screwed together by cross brackets 12 , the profile sheets 8 being locked and the self-adhesive sealing tapes 11 being pressed together ( FIG. 5 till 8). The screw connections are indicated by reference number 21 .

So that the profiled sheets 8 can follow settling of the bottom 13 , 12 elongated holes 14 are provided in the cross brackets and the play of the longitudinal edge areas 9, 10 is correspondingly generous ( Fig. 8).

In the vertical, the profiled sheets 8 or the wall elements 6, 7 are placed overlapping and connected to one another by screwing means 15 ( FIGS. 9 and 10).

The construction of a dam body 1 is carried out approximately in the following way:

First, a trench 16 is dug in the intended direction of extension of the dam body 1 ( FIG. 2). The depth of the fork 16 corresponds to approximately half the height of a base wall element 6 that can be seen in FIG. 5.

Subsequently, in the trench 16, the base wall elements 6 according to FIGS . 5 and 6 are placed horizontally next to one another, lashed together and pounded or concreted in again with the excavated soil material. A base row BR of wall elements 6 is thus formed over the length of the dam body 1 ( FIG. 2).

The wall elements 6 thus protrude approximately half their height above the earth's surface 17 . Now in a first layer Sch the dam floor materials (filter granulate 3 , cohesive soil 4 , washing piles 5) are piled up and compacted laterally up to close to the upper edge of the basic row BR ( FIG. 3).

Subsequently, a first series of heights BR from the pre-assembled with respect to the adjacent profile sheets 8 both with respect to the upper edges 18 and the lower edges 19 alternately in height to each other ver set wall elements 7 ( Fig. 7) along the upper edge, 20 in the Height alternately offset profile sheets 8 of the basic series BR ( Fig. 5) screwed overlapping ( Fig. 4). It is also conceivable that the first row of heights HR is formed by putting the individual profiled sheets 8 together.

Then the dam floor materials 3-5 are layered (Sch 1 - Sch 4 ) up to close to the top of the heights HR series and compacted ( Fig. 4).

Subsequent to these operations, the further height rows HR of the prefabricated steel part 2 are then placed one after the other in alternating assembly, pouring and compacting steps up to the final dam height, and the dam floor materials 3-5 are piled up and compacted in layers. Here, as stated above, the individual height rows HR of the prefabricated steel part 2 can be formed by successively placing the profiled sheets 8 one after the other or by assembling the pre-assembled wall elements 7 .

The length L of the profiled sheets 8 is dimensioned approximately 3: 1 to 5.5: 1 in relation to its width B.

The length L 1 of a wall element 6, 7 is dimensioned approximately 3: 2 to its height H.

Claims (5)

1. A method of erecting a dam, in which a wall running in the middle of the dam body, consisting of cross-sectionally bent, closely overlapping vertical profile sheets with its longitudinal edge areas, and on both sides of the wall, dam layers are poured in layers and sealed at a predetermined angle of repose, characterized that in the intended direction of extension of the dam body (1) is first excavated, a trench (16) and a preassembled in the groove (16) for wall elements (6) with respect to their upper edges (20) alternately in the vertical direction of the offset profile sheets (8 zueinan ) an approximately W-shaped cross-section of the existing basic row (BR) with about half its height above the earth's surface ( 17 ) is integrated horizontally, whereupon in a first layer (Sch) dam flooring materials ( 3-5 ) laterally up to close to the upper edge of the basic row ( BR) are poured and compressed, and that then a first te height row (HR) from possibly pre-assembled to wall elements ( 6 ) both with respect to the upper edges ( 18 ) and the lower edges ( 19 ) alternately vertically offset profile sheets ( 8 ) along the upper edge ( 20 ) of the basic row (BR ) is screwed overlapping, whereupon layer-by-layer filling and compaction of further dam floor materials ( 3-5 ) up to close to the upper edge of the first row of heights (HR) , and that now in alternating assembly, pouring and compaction steps further rows of heights (HR) If necessary, profile sheets ( 8 ) preassembled to form wall elements ( 7 ) are attached one after the other or dam materials ( 3-5 ) are layered and compacted in layers. 2. prefabricated steel part, in particular for a dam constructed according to claim 1, characterized by rows in a base row (BR) and in several heights (HR) vertically and horizontally, optionally to pre-assembled wall elements ( 6, 7 ) overlapping screwed sheet metal sheets ( 8 ) approximately W-shaped cross-section with a length (L) , each approximately 3 to 5.5 times its width (B) , the profile sheets ( 8 ) in their longitudinal edge regions ( 9, 10 ) arranged with compression from here self-adhesive sealing tapes ( 11 ) miteinan the straps and with respect to their upper edges ( 18, 20 ) and / or lower edges ( 19 ) in the vertical alternating to each other are arranged offset. 3. prefabricated steel part according to claim 2, characterized in that the length (L 1 ) of a Wandele element ( 6, 7 ) to the height (H) is dimensioned approximately as 3: 2. 4. prefabricated steel part according to at least one of claims 2 or 3, characterized in that the profiled sheets ( 8 ) are screwed together by a plurality of mutually offset transverse straps ( 12 ). 5. Prefabricated steel part according to claim 4, characterized in that the cross brackets ( 12 ) are provided with horizontal horizontal slots ( 14 ) for connecting screws ( 21 ).