DE871726C - Tensile sheet pile wall - Google Patents

Description

Tensile sheet pile wall pile With the known cellular sheet pile construction the sheet piles are put together like a chain. This achieves that the earth pressure acts axially and only causes tensile stresses in: the sheet pile wall will. Accordingly, one uses rolled sheet piles, their webs and also locks can absorb large tensile forces.

The tensile stresses occurring in the sheet pile wall now grow with: the Earth pressure and the cell radius, so the tensile stresses must always be applied to the sheet pile wall - finite = security are recorded, .the. from the greatest earth pressure and result from the cell radius. The greatest earth pressure, however, is liur in a certain one Height present - while it becomes smaller in the other heights and falls to zero. The tensile strength of the sheet piles is therefore at best only at an altitude exploited, at all other heights the sheet pile wall is too strong. From this results in an inevitable waste of material.

The spaces enclosed by the sheet piling form the cells Depending on the cell shape, a distinction is made between circular cells and flat cells. As already mentioned, the tension also grows with the cell radius. Of the The required cell radius is, in the case of circular cells, from the static conditions conditional dimensions of the cell dependent. Becomes the cell radius so large, .that the resulting tensile stress differs from the available Sheet pile wall profiles can no longer be accommodated, then flat cells must be used instead Circular cells are applied. The erection of the flat cells is more complicated than that (of the circular cells, because they have to be .filled in stages The erection of flat cells in moving water is far more difficult than erection of circular cells. Flat cells can even be built in strongly flowing water impossible, so that .possibly on the application and the advantages of Cell construction must be dispensed with. Often the type of building z. B. with single cells, a version 4n flat cells impossible.

The stability of the cells can be reduced when ramming out of the castle cracked planks or destroyed planks. Although the tensile strength. For this reason, sheet piling profiles have good pile driving capabilities especially difficult space conditions for safety reasons from the cell construction away. The latter, however, enables the sheet piles to be reused numerous times, i. H. the planks can be recovered after a building is demolished and otherwise be used. But since the planks wear out over time, from what there is naturally a reduction in tensile strength, they are after a unusable for a certain period of time.

The present invention overcomes the noted difficulties overcome and the existing shortcomings corrected. The invention proposes .the sheet piles to be provided with bars, each of which consists of a web with flanged edge parts. Here, the bars are arranged so that their webs cover the plank webs and their edge parts include the Bohlernschlösser. By, the comprehensive edge parts will be the lock fingers one. Normal plank stored in such a way that its load-bearing capacity changes increased many times. With the additional load-bearing capacity of the edge parts of the transom So there is a multiplied strength of the locks against opening and thus a significantly increased lock tensile strength. Also the tensile strength of the plank webs is increased by the bars of the latch. The bars are arranged at the height in which the normal. The sheet pile cannot absorb the tensile stresses that occur. The strength and shape of the bars must be adapted to the tensile force and the shape of the normal plank. Appropriately, the flanges of the bolt are designed so that they are when occurring Maximum load received the same stresses as the lock parts of the standard pile. Fixing the latch with. the planks can be done in any way. the The required mobility in the locks for the cell construction is achieved by does not interfere with the applied latch in any way.

The sheet piles provided with bars according to the invention have the following advances on: - First of all, significantly lighter planks can be used used turn than before without a bolt, resulting in a very substantial saving of material is achieved. Are the tensile forces of the circular cells so great that they of the available normal sheet piles are no longer accepted then the required tensile strength when equipping the planks with to always achieve the bars according to the invention. The cell construction can therefore even in strong flowing water, if normal sheet piles are without Bars for circular cells are no longer sufficient and the execution in flat cells is not is possible. In the case of difficult pile driving, the plank bridges may be torn open or prevent opening of the plank locks by the pile driving by the Provides planks at the lower end of the plank with a bolt according to the invention, it can Thus, when using the invention, the cell construction is carried out even under the most difficult ramming conditions will. After all, this is how the planks have been used over many years badly worn that the required tensile strength is no longer available, then the tensile strength can be achieved by arranging bars according to the invention produce,. It can therefore also become unusable due to the invention Make planks usable again.

The invention can also be applied to planks whose webs are well strong enough, but whose locks are too weak. Correspondingly, mäh leaves the footbridges here the bolt fall away or they are interrupted.

Instead of a bolt, it can also be used in accordance with the requirements that occur Tensile forces several bars can be arranged in different strengths and heights.

In the drawing, the proposal according to the invention is shown in .den Fig. I and Fig. 2 illustrates in one embodiment.

Fig. I shows a sheet pile wall reinforced by bolts in plan. Here the normal sheet piles are marked with i and R are the reinforcement bars, which -by the web: 2, the edge bundles 3 are formed. As a connection the ledger R with the normal sheet piles i is a weld q here. intended, however, any other type of connection can also be used instead.

Fig. 2 shows the longitudinal section of a sheet pile. Herein mean o the top edge and u the bottom edge of the plank. It is believed that in the part The tensile force of the screed between g and k is so great that it differs from the normal screed i can no longer be recorded. Accordingly, the tensile strength of the screed is in the part between a and h, by the strength of the tensile force that occurs adapted bolt R increased.

Claims (3)

PATENT CLAIMS: i. Tension-resistant sheet pile, characterized by a bolt (1e) connected to a normal sheet pile (i), the web (2) of which covers the web of the sheet pile (i) and the flanges (3) of which enclose the locks of the sheet pile (i). 2. Tensile sheet pile according to Claim i, characterized in that several bolts (R) are different or the same Strength connected to the sheet pile (i). 3. Tensile Spun @ dwandbohle make claim i and 2, characterized in that it is only provided with the edge flanges (3) of the bolt (R). References: French Patent No. 699 77-1; USA. Patent no. 850 O44.