DE3223870C1 - Sheet-pile wall with head beam and anchors - Google Patents

Abstract

The method of producing a sheet-pile wall with head beam and anchors, in particular for a waterway, provides for sheet piles to be driven into the earth. Profiles running in the longitudinal direction of the sheet piles and extending over the height of the head beam are connected to the free head ends of the sheet piles while forming an intermediate space with the sheet-pile wall. The sheet piles and the profiles are connected to one another in a tension-proof manner. The intermediate space between sheet piles and profiles can be filled with concrete. The head beam thereby formed on the sheet-pile wall ensures a good distribution of forces. The sheet-pile wall with head beam and anchors can also be constructed under water from the water surface. <IMAGE>

Description

In the case of the FIG. 1 assumed embodiment is a sheet pile wall 1 with head beam 2 in the area of the embankment 3 of a watercourse, e.g. B. channel 4, be created, the channel 4 carrying water should stay that The water level of the channel 4 has not been lowered and there is also no additional protective wall for the production of the sheet pile wall 1 is to be erected.

The bed to be deepened 5 of the channel 4 can after creating the sheet pile wall 1 with head beam 2 and anchoring by dredging or the like. Be made.

First of all, sheet pile piles 6, 6 'are placed next to one another at the desired Rammed into place. The sheet piles 6, 6 'have such a length that they still protrude slightly above the water surface 7 even after driving in, as shown in FIG. 1 is indicated by dashed lines.

According to FIG. 2, the sheet pile piles 6, 6 'can have a channel-like cross-section Have profile, with adjacent sheet piles 6, 6 'on their outward protruding longitudinal edges 8 are provided with locks 9.

The locks 9 can, for example, as in FIG. 4 trained be. The longitudinal edges 8, 8 'of adjacent sheet piles 6 and 6' have positively interlocking hooks 10, 10 '. These locks 9 allow one more or less tensile strength connection of adjacent sheet piles 6, 6 'through Push into one another. Other known lock shapes can also be used or special locks are made.

The interconnected sheet piles 6, 6 'form for the The head beam 2 to be created is the front wall 11.

According to FIG. 2 have the sheet piles 6, 6 'at the kinks the channel bottom additional, longitudinal lock parts 12. Such lock parts 12 can be produced separately on conventional, channel-shaped sheet piles 6, 6 ', z. B. by welding attached. These lock parts 12, which are attached to each sheet pile 6, 6 'are attached and the same or similar to FIG. 4 shown, hook-shaped can be designed, enable a connection with profiles 13, 13 '. These Profiles 13, 13 'can, as shown in FIG. 2 can be seen, in cross section, channel-shaped be and have lock parts 12 molded or welded to the bends.

The profiles 13, 13 'are of such a length that they are from about the water surface 7, with their lock parts 12 to the rammed sheet pile hollows 6, 6 'can be connected by pushing into lock parts 12 attached there can.

The sheet piles 6, 6 'have stops 14 on their rear side, which limit the insertion and driving in of the profiles 13, 13 '.

Further profiles 15, 15 ', which are designed the same as the profiles 13, 13 ', can be connected in the same way. Have the profiles 13 lock parts in the same way as the sheet piles 6, 6 'on their rear side 16. Furthermore, the profiles 13, 13 'also have stops 17 that allow the insertion and Limit the driving in of the profiles 15, 15 '. The profiles 15, 15 'again have Lock parts 16.

As shown in FIG. 1 can be seen, the profiles 13, 13 'and 15, 15 ', a little should also be rammed into the slope 3.

As shown in FIG. 2 can be seen, is in the area of the head bar 2 in Cross-section formed a honeycomb, with the sheet piles 6, 6 'the front wall 11 and the profiles 13, 13 ', 15, 15' form the rear wall 18.

In the area of the head beam 2 can be on the front wall 11 on the sheet pile piles 6, 6 ', at which the anchor plate 10 of an anchor 20 is to be attached, stops 40 are provided. These stops 40 can be the vertical component of the anchor force and at the same time be the stop for the drilling template. After making the The anchor 20 can be produced at an inclined anchor bore from the surface of the water will.

Those protruding above the water surface 7, shown in dashed lines in FIG. 1 indicated parts of the sheet pile piles 6, 6 'or the profiles 13, 13', 15, 15 ' then removed, e.g. B. by flame cutting or the like. It is also possible the individual Profile or sheet pile wall extensions by means of corresponding plug-in extensions then after the sliding connection has been made between the sheet piles and profiles can be removed. It is also possible to use sheet piles only occasionally to be used in full length, whereas shortened sheet piles with only Extensions used for driving in, which are welded on or the like. Are provided can be.

The result is a sheet pile wall 1 with head beams 2, which are under water can be created. In addition, the sheet pile wall 1 in no way affects the remaining one visual appearance of the environment.

Around. the introduction and transmission of forces into the head beam 2 ZU improve, the spaces 21 in the head beam 2 can be filled with concrete.

As indicated in FIG. 3, underwater concrete is preferably introduced.

About the tensile strength of the connections between the adjacent sheet piles 6, 6 'and the profiles 13, 13', 15, 15 'can also be made from steel fiber reinforced concrete 22 are introduced into the spaces 21. As shown in FIG. 3 can be seen the wall sides of the sheet piles 6, 6 'or profiles 13 facing the concrete, 13 ', 15, 15' with shear dowels 23 understand the bond between sheet pile piles, To improve profiles and concrete.

The pulling function of the locks 9, 12, 16 could also, as in Fig. 4, can be improved or replaced by reinforcement 24. To do this will be wires or rods 25 arranged horizontally one above the other at a distance into the concrete embedded, which transmit the tensile forces. They are vertical, at intervals mutually arranged holding rods 26 held.

The in F i g. The structure of the head beam 2 shown in FIG. 5 uses commercially available, z. B. Z-shaped sheet piles 30, 30 'or Z-shaped profiles 31, 31 and web profiles 32.32 '. The connection of the sheet piles and profiles is again made by locks 9, 9 ', 12, 16. The sheet piles 30,30' and the profiles 31,31, 32, 32 'can be provided with anchors 23. The spaces 21 of the honeycomb structure formed can in turn be filled with concrete.

It is also possible to use a head beam 2 instead of a honeycomb structure to form from substantially flat sheet piles 6 and flat profiles, wherein Profiles and planks can be connected to one another via connecting profiles and webs. Any other lock connection can also be used, as there are numerous are known. Planks and profiles that do not have lock parts can also be used have, with lock strips being used separately, in which then the adjacent parts can be inserted.

A very simple production of a sheet pile wall with head beams and Anchor is obtained by attaching Z-shaped sheet piles 30 to the sheet pile wall, 30 ' rear protruding web profiles 32,32 'attached, which in a Concrete backfill between sheet pile wall 30, 30 'and slope 3 at head beam height protrude into the back of the sheet pile wall. The preferred concrete here is steel fiber concrete used. In the area of the anchors 20, longitudinal reinforcement elements can be installed lengthways in the concrete the slope 3, z. B. in the form of rods, profiles or the like. Be provided.

Claims (14)

Claims: 1. Sheet pile wall with head beams and anchors, in particular for a waterway, with the head beam made of steel sections parallel runs in the longitudinal direction of the sheet pile wall and at the sheet pile head end with the sheet pile wall is connected, characterized in that the head beam (2) from in the longitudinal direction of the sheet pile piles (6, 6 '; 30, 30') extending over the height of the head beam extending profiles (13, 13 ', 15, 15'; 31, 31 ', 32, 32') is formed with the sheet pile piles (6,6 '30, 30') and with each other by means of sliding guides (9, 9 ', 12, 16) are connected. 2. Sheet pile according to claim 1, characterized in that the Sheet pile piles (6, 6 '; 30, 30') and the profiles (13, 13 ', 15, 15'; 31, 31 ', 32, 32 ') connecting sliding guides are sheet pile wall locks (9, 9', 12, 16). 3. sheet pile according to claim 1 and 2, characterized in that the Sheet piles (6,6 '; 30, 30') and the profiles (13, 13 ', 15, 15'; 31, 31 ', 32, 32 ') of the head beam (2) form a honeycomb cross-section. 4. sheet pile according to claim 1 to 3, characterized in that the Channel-shaped sheet pile piles (6, 6 ') have additional sliding guides at their bends (12) and that the channel-shaped profiles (13, 13 ') at their kinks also have additional sliding guides (16). 5. sheet pile according to claim 1 to 3, characterized in that the Z-shaped sheet pile piles (30 30 ') have additional sliding guides at their kinks (12) for retractable web profiles (32,32 ') and that the Z-shaped profiles (31, 31 ') also have additional sliding guides (16) for have these web profiles (32, 32 '). 6. sheet pile according to claim 1 to 5, characterized in that the Sheet piles (6,6 '; 30, 30') and profiles (13, 13 ', 32,32') stops (14, 17) for the profiles (13, 13 ', 15, 15', 31,31 ', 32,32'). 7. Sheet pile according to claim 1, wherein the section steels of the head beam are poured with concrete, characterized in that the space (21) between the sheet pile piles (6,6 '; 30, 30') and the profiles forming the head beam (2) (13, 13 ', 15, 15'; 31, 31 ', 32, 32') is filled with concrete. 8. sheet pile according to claim 7, characterized in that the concrete is an underwater concrete 9. sheet pile according to claim 7, characterized in that the concrete is a steel fiber concrete (22) 10. sheet pile wall according to claims 7 to 9, characterized in that in the concrete in the region of the sliding guides (9, 9 '; 12, 16) bridging reinforcements (24) are installed. 11. Sheet pile wall according to Claims 7 to 10, characterized in that that sheet piles (6, 6 '; 30,30') and the profiles (13, 13 ', 15, 15'; 31,31 ', 32, 32 ') are provided with shear dowels (32) on the concrete side. 12. Sheet pile wall according to Claims 1 and 7, characterized in that that the profiles (13, 13 ', 15, 15'; 31, 31 ', 32, 32') forming the head beam (2) are rammed into the slope (3). 13. Sheet pile wall according to claim 7, characterized draws that instead of the profiles (31, 31 ') the slope (3) forms the rear formwork for the concrete 14. Sheet pile according to one of claims 1 to 13, characterized in that on the sheet piles (6, 6 '; 30, 30') and on the profiles (13, 13 ', 15, 15'; 31, 31 ', 32, 32') plug-in extensions are pushed on, which extend up above the water surface (7) range. The invention relates to a sheet pile wall with head beams and anchors, especially for a waterway, with the head beam formed from sectional steels runs parallel to the longitudinal direction of the sheet pile wall and at the sheet pile head end with the Sheet piling is connected to sheet piling with headed beams for anchoring in the ground known from Fig. 88 of the book "Die Stahlspundwand Hoesch". The free head ends of the sheet piles are connected by profiles running in the longitudinal direction of the sheet piling. The creation of such head beams can only be carried out above water. When building sheet pile walls under water, auxiliary walls had to be erected so that the location of the sheet pile wall behind it is made water-free could be or the water level had to be lowered to an appropriate level will. The invention is based on the object of designing a sheet pile wall in such a way that that the production of the head beam can also be easily carried out under water and has a simple construction, therefore can be manufactured cheaply. The invention solves this problem with the features of the characterizing part of the claim 1. The invention offers the advantage that the creation of the head beam profiles necessary for the sheet pile wall can be formed simply, simply can be joined together and ensure a good distribution of forces. Thus, a Sheet pile wall with head beam and anchor even under water without lowering the water level largely from the surface of the water without permanent visual disturbance to the environment to be created. Further refinements of the invention emerge from the subclaims 2 to 14. The invention is illustrated below with reference to in the drawing Embodiments described in more detail. In the drawing, F i g. 1 a schematic Section along the line I-I in FIG. 2 through a sheet pile wall with the inventive Head beam for the embankment of a watercourse; F i g. 2 is a schematic plan view on the sheet pile wall with head beams; F i g. 3 shows a schematic partial vertical section of the head beam; 4 shows a schematic horizontal section of a lock connection and with tension-resistant bridging reinforcement; F i g. 5 is a schematic plan view on a head bar modified embodiment.