EP1589152A2 - High water protection system - Google Patents

Abstract

In order to form a simple and effective flood control system with a plurality of protective elements, an arrangement with obliquely pivotable protective plates (20) for forming a protective wall and a substantially flat surface in a horizontal state is proposed, which is mounted on a horizontal base plate (30). is attached with a hinge. Each two supports for supporting the protective plate (20) in the oblique state, sealing strips (70) for sealing the protective plate (20) against the base plate (30) and for sealing two juxtaposed protective plates (20) against each other form a water protection wall. <IMAGE>

Description

The invention typically relates to a flood protection system with a variety of protective elements, in which by flip-up protective elements a flood protection is being built.

Flood control is particularly densely populated Areas that pass through rivers, lakes or even through their Sea near flood prone, a known problem. But also to protect important civil or even military Facilities and facilities is a working Flood control is becoming an increasingly important task. While in areas with frequent or permanent hazard potential, especially in coastal areas with storm surge danger, usually dikes with a maximum Hazard potential corresponding protection height is used came, was for a long time in areas with only occasional Flood hazard potential on emergency measures, e.g. With the protection of areas with sandbags or exceptionally with dam beams, used in acute danger.

Especially on rivers and other waters with similar Endangerment potential was for a long time also another Flood protection known and customary, namely the flooding of special flooding areas where, e.g. when Meadows, no significant damage was to be feared. By This controlled flooding was the flood level at the massively reduced risk areas and thus the acute Danger potential reduced.

Due to increased civilization pressure but the expulsion from corresponding floodplains increasingly difficult so that in recent years in many places the World floods also populated with unsustainable major damage occurred. In addition, that is also from Rising water hazards increased by especially that rivers are more and more straightened, channeled or otherwise narrowed so that their natural alternative in case of flood were taken.

Basically it is possible with dams and dikes appropriate Height the endangerment of populated area to reduce or completely switch off. However, they are lost the boundaries between the waters from which the danger going out and the vulnerable zones in many cases straight in populated area, so that an obstruction with such Dams and dikes not on the necessary for security Acceptance. In most cases, it is also desired or required that the structural measures are not or only slightly disturbing, if the threat is not acute, so at normal or only slightly elevated water level.

For a long time it has been known with structural measures To create protection zones against flooding, the Protective elements without acute danger in whole or in part can be lowered. There are basically different Protection options, such as vertical extension of protective walls or folding up protective elements, depending on the structural and threat-related conditions - one of the possibilities of preference too give is.

DE-195 14 205 A1 discloses e.g. a structural measure known with hinged elements, in which a receiving chamber on the one hand a floodable floating chamber and on the other hand a Einschwenkkammer includes and the pivoting element is pivoted from the horizontal to the vertical. The structural measures described there are based on the basic idea swinging out by floating up as pontoon parts trained protective wall in the swimming pool too cause or at least support. This has changed though not proved beneficial. Furthermore, the Area of the protective elements at the times when no acute danger takes place for other purposes be used, such as as footpaths, as driveways etc.

From WO 99/24675 A1 a flood protection is known, in the already dispensed with the floating chamber can and in which by means of a drive device the Protective position in the unfolded state or the rest position can be taken. In the unfolded state is while a part of the folding wall lowered into a channel substructure. WO 99/24675 A1 proposes that Drive device in or on the pivot bearing to be effective to let.

From the German utility model DE-202 04 097 U1 is a from WO 99/24675 A1 further developed flood protection known with hinged elements, which also has a channel for lowering a part of the folding elements and for receiving having the drive elements.

In estimating the feasibility of such permanent Flood protection systems has now emerged that the effort - and therefore the cost - for such Flood control can be so significant that a scheduled Installation especially over a longer protection length can not be realized. Thus, the value of the above discussed protection systems not challenged, only with longer Verbauungslinien are also alternatives permanent flood protection barrier with movable, in rest position not disturbing protective elements too search.

Furthermore, from that proposed by the present invention Flood protection system must be required that an obstruction can be carried out easily and quickly must and that the "straightening" of the protective elements can be done with simple means.

In DE-A-102 40 687 is a protection system for use been proposed at high tide at which the side by side to be laid elements each from one tilted shield and a horizontal shield, which are connected by joints. The inclination of the inclined Shield is thereby effected by a support, in the end of the horizontal shield is secured by a hinge and the inclined sign with the help of an element of one Angle iron supports. This proposal forms according to the present Invention the closest prior art and is therefore reflected in the preamble of claim 1.

Another problem has been found that the used Protective elements in the ground so well anchored they also need to swell the groundwater level remain firmly in their anchorage. Especially it is desirable that in the folded state of the flood protection system, the construction line street-like should be drivable. When laying are still To provide for measures to freeze rainwater and thus an undisturbed unfolding even in such a Prevent condition. As it turns out, these are Tasks with DE-A-102 40 687 not yet solved.

The above-described problems with existing, So previously proposed flood protection systems, it applies to be solved by the present invention.

The invention achieves the object by a flood protection according to claim 1. The measures of the invention First of all, that results in a relatively simple and low-cost construction implemented in a standardized way can be without compromising on the protection requirements flood threats are made would. As another have the measures of the invention As a result, that on your own, at most vulnerable Drive system for the erection of the protective elements omitted can be, without doing a high manual Effort is necessary. The measures taken by the Invention in their combination at. By the special kind the interaction of the elements is taken into account in particular, that a freezing of the elements by penetrated Rainwater etc. prevents safe opening. With a corresponding interpretation of the thickness of the elements is also a safe driving without damaging the elements in the folded state possible, because - in contrast to the solution proposed in DE-A-102 40 687 - a touching flap surface can be ensured.

The flood protection system according to this solution comprises a variety of protective elements, each at least a first, pivotable protective plate for forming a Protective wall in a tilted in an inclined position Condition and the formation of a substantially flat Surface in a horizontal, protection-free state, a second, approximately horizontally fixed to the ground Base plate, at least two proppants - preferably Heavy duty ceiling supports with top plates - for supporting the Protective plates in the tilted in inclined position Condition, sealant for sealing the protective plate against the base plate and for sealing two side by side arranged protective plates against each other, namely sealing tapes, which can be used without friction surface. The Sealant then act sealing when the protective plates in a swung-open protective state.

The characteristic that should not be underestimated should not be underestimated Protective plates have overlapping joints, which then when Waterproof the water supply by reinforcing the water pressure.

Furthermore, the characteristic should not be underestimated that the base plates below each to the side of the adjacent base plate are chamfered, as they are so reliable with minimum distance through the use of tools (e.g., lift trucks).

Further advantageous details of the invention are in the dependent claims set forth.

The aforesaid and claimed and in the following Embodiments described according to the invention elements to be used are subject to their size, Form design, material usage and technical conception no special conditions, so that the the selection criteria known in the respective field of application be fully applicable.

Further details, characteristics and advantages of the object The invention will become apparent from the following description the accompanying drawings, in which - exemplary - a flood protection system to present Invention is explained.

Figur 1

eine Seitenansicht der Hochwasserschutzanordnung gemäss einem ersten Ausführungsbeispiel zur vorliegenden Erfindung;

Figur 2

eine Vorderansicht von mehreren Elementen nach Figur 1;

Figur 3

eine Ansicht von nebeneinander liegenden Bodenplatten der Hochwasserschutzanordnung gemäss der bevorzugten Ausführung der vorliegenden Erfindung;

Figur 4

eine Detailansicht einer Scharnieranordnung von der Seite zur Hochwasserschutzanordnung gemäss der bevorzugten Ausführung der vorliegenden Erfindung;

Figur 4a

eine Ansicht nach Figur 4 von oben;

Figur 5

eine Ansicht der Stützenauflager in der Grundplatte und der Schutzplatte gemäss der bevorzugten Ausführung der vorliegenden Erfindung;

Figur 6

eine Detailansicht der Verbindung zwischen zwei Grundplatten gemäss der bevorzugten Ausführung der vorliegenden Erfindung, von der Landseite;

Figur 7

eine Ansicht nach Figur 6, vor dem Einbringen der Vergussbetonmasse, mit den Bewehrungselementen;

Figur 8

eine Detailansicht der Verbindung zwischen zwei Grundplatten gemäss der bevorzugten Ausführung der vorliegenden Erfindung, von der Wasserseite, mit Darstellung der Anfasung im Bereich des Scharniersystems;

Figur 9

eine Ansicht nach Figur 8, vor dem Einbringen der Vergussbetonmasse, mit den Bewehrungselementen;

Figur 10

eine Ansicht des wasserseitig eingelegten Fugendichtprofils bei den Grundplatten im Anfasungsbereich.

In the drawings show:

FIG. 1

a side view of the flood protection arrangement according to a first embodiment of the present invention;

FIG. 2

a front view of several elements of Figure 1;

FIG. 3

a view of adjacent floor panels of the flood protection arrangement according to the preferred embodiment of the present invention;

FIG. 4

a detail view of a hinge assembly from the side to the flood protection arrangement according to the preferred embodiment of the present invention;

FIG. 4a

a view of Figure 4 from above;

FIG. 5

a view of the support supports in the base plate and the protective plate according to the preferred embodiment of the present invention;

FIG. 6

a detail view of the connection between two base plates according to the preferred embodiment of the present invention, from the land side;

FIG. 7

a view according to Figure 6, prior to the introduction of the Vergussbetonmasse, with the reinforcing elements;

FIG. 8

a detail view of the connection between two base plates according to the preferred embodiment of the present invention, from the water side, showing the chamfer in the region of the hinge system;

FIG. 9

a view of Figure 8, prior to the introduction of Vergussbetonmasse, with the reinforcing elements;

FIG. 10

a view of the water-side inserted joint sealing profile at the base plates in chamfering.

The designated in Figure 1 as a whole with 100 flood protection system consists of a floor element as on one L-shaped reinforced concrete foundation 60 applied base plate 30 and one on the base plate 30 made of reinforced concrete with a hinge 40 pivotally mounted protective plate 20 - also made of reinforced concrete. On the front side, the in the installation of the dry side corresponds, is a final foundation 210 to see, usually a street or Building completion. At the rear, the installation the water side, forms the final foundation 220 to the plate sides out a channel to a trouble To allow pivoting of the protective plate 20.

In the bottom plate 30 are anchoring holes 36 - Present embodiment, each base plate 30th four anchoring holes to see - with which the Base plate 30 on - in the present embodiment, L-shaped - reinforced concrete foundation 60 with the help of composite anchors is attached. In Figure 2 are in the present Embodiment used to see protective plates 20. in Figure 3 are arranged according to the side by side Base plates 30 shown with each other with a Vergussbetonmasse 72 are sealed. The grouting concrete mass 72 has an E-module that is selected so that the concreting takes place without shrinkage cracks occurring. The Vergusabetonmasse is thereby filled in an area through recesses each at the edges of Base plates 30 are formed and into it Terminal reinforcement brackets stand, which after the finished Assembly of the elements overlap one another. In the transverse direction The concrete elements are called distribution iron used before the concreting with the special grouting concrete is made with sealant.

FIG. 4 shows the hinge device 40 for the pivoting movement the protective plate 20 against the base plate 30. Es has turned out that for a plate with a Length of 6 m (based on the bottom plate 30) two chrome steel hinges with a length of 150 mm and a thickness of 20 mm suffice. In the embodiment are - especially advantageous - anchoring plates 42 and 43 with a Thickness of 20 mm and a depth of typically 70 to 120 mm - in the exemplary embodiment of 90 mm - in the protective plate 20 or in the base plate 30 at an angle of incorporated about 45 °. As can also be seen from FIG. 4, are the two plates 20 and 30 at an angle of approx. 30 ° and a depth of about 370 mm chamfered to an opening area for opening the hinge and thus the Swing open the protective plate 20 to allow. In this Chamfered area, in the described embodiment in approximately in the middle, both on the base plate 30 are like also on the protective plate 20 over the entire length of Plates sealing strips 70 arranged. This connection works also from Fig. 10.

FIG. 5 shows the configuration of the support supports 52 shown. The support supports 52 have a side Holder 58, in which the head plates 56 of the heavy duty ceiling supports 50 are inserted. In the present embodiment are heavy duty ceiling props according to DIN 4424 provided, if necessary, to use a standard part can. The support supports 52 are in the protection plates 20 as well as in the floor panels 30 with the help of the head bolt dowels 54 anchored and have in the present embodiment an angle of 30 ° to 45 ° relative to the disk surface on to support the top plates 56 of the heavy duty ceiling props 50 can support.

In the present embodiment are in the floor panels 30 recesses for receiving the heavy-duty ceiling supports 50 provided at rest of the flood protection system.

From the geometric relationships described above results in the particularly advantageous protective mechanism of the flood protection system according to the invention, in which namely a pivoting of the protective plate 20 by about 60 ° is provided. If this angle is to be changed, must - in addition to the length of the below described. Support 50 and the installation arrangement - to the angle of the chamfer the two plates 20 and 30 are changed. Indeed has turned out to be a panning up of the Protective plates 20 by 55 ° to 65 °, preferably in about 60 ° the best static conditions possible.

The erection of the protective plates 20 is according to the present Invention by means of a lifting device (slewing crane) provided that the individual protection plates 20 of the Flood protection system erects one after the other and thus creates a protective barrier. In the present embodiment must of course the protective plates 20 with the widening formed above first erected become. Basically, for the one described here Flood control system also a manual erecting of the Protective plates 20 possible, but this requires one Use of some people. After erecting the Guard plates 20 are then each two of the above heavy duty ceiling props 50 per guard plate 20 inserted into the holder for the top plates and can possibly still by a securing element (fasteners such as bolts, split pin or similar) be secured.

Below is described how the flood protection elements laterally connected to existing buildings etc. can be. The buildings, for example, with Provided facilities that provide the joint seals between correspond to the individual protective plates 20 or the same effect are. This can be done by oblique projections as in the Protective plates 20 are effected. Possible and intended but it also, that the obliquely erected protective plates after erecting temporarily sealing with the corresponding Buildings are connected, e.g. through metal angles etc. These are then threaded elements in the outer protective plates 20 provided to such angles on the protective plates to fasten tightly.

When changing the direction of the flood protection system according to the embodiment described here The present invention is intended to Place the base plates one of the reclining height of the protective plate corresponding foundation, e.g. with the intended angle the direction change to provide. Furthermore, for such a section provided with prefabricated, accordingly the change of the lining line shaped sheet metal plates to close the corresponding protection gap. Such Sheet metal plates are as above for the metal angles described screwed to the erected protective plates.

LIST OF REFERENCE NUMBERS

20

protection plate

24

overlapping joint

26

widening

28

widening

30

baseplate

36

anchoring holes

40

hinge

42

anchor plate

43

anchor plate

50

Heavy duty ceiling anchors

52

Stützenauflager

54

Shear studs

58

bracket

60

Reinforced concrete foundation

70

sealing tape

72

Recess (potted)

210

completion of foundation

220

completion of foundation

Claims (18)

Flood protection system with a plurality of protective elements, the protective elements at least include a first, pivotable protective plate (20) for forming a protective wall in a state tilted in an inclined position and for forming a substantially flat surface in a horizontal, protection-free state, a second base plate (30) fixed approximately horizontally to the floor, the protective plate (20) and the base plate (30) being pivotally connected to a pivot bearing means (40) and the base plate (30) being anchored in the floor having, Support means (50) for supporting the protection plate (20) in the tilted state, a first sealing means (70) for sealing the protective plate (20) against the base plate (30), wherein the sealing means acts sealingly at least when the protective plate (20) is in the pivoted-on protective state, characterized in that the base plate (30) has means with which it can be connected to a respective adjacently arranged base plate, wherein the means comprise at least one recess at the edge of the base plate and reinforcing elements projecting into the recess, the recess is dimensioned so that two adjacent base plates can be joined together by grouting concrete. Flood protection system according to claim 1, characterized in that the reinforcing elements are provided as Anschlussarmierungsbügel and the base plates are connected to each other by Vergussbeton that the Armierungsbügel and the recesses are potted. Flood protection system according to claim 2, characterized in that as cast concrete a material with respect to the modulus of elasticity is selected so that the concreting can be performed without occurrence of shrinkage cracks. Flood protection system according to one of the preceding claims, characterized in that the base plate are chamfered down to the side of the adjacent base plate. Flood protection system according to one of the preceding claims, characterized in that the base plate and the protective plate are each chamfered in the region of their connection line against each other about the intended pivoting angle. Flood protection system according to one of the preceding claims, characterized by a second sealing means (70) for sealing two juxtaposed protective plates (20) against each other, wherein the second sealing means then acts sealing when the protective plates (20) are in the pivoted protective state. Flood protection system according to one of the preceding claims, characterized in that the sealing means comprise sealing strips (70). Flood protection system according to one of the preceding claims, characterized in that the protective plates (20) have overlapping joints (24). Flood protection system according to claim 8, characterized in that the second, as sealing strips (70) formed sealing means in an overlapping joint (24) between each two protective plates (20) is formed. Flood protection system according to claim 8 or 9, characterized by protection plates (20) of different types, one type of protection plate (20) on both sides having a widening (26) projecting in a lying state below and the other type of protection plate (20) on both sides in the lying state above outstanding widening (28) and wherein the widenings (26, 28) in about half the thickness of the protective plates (20) occupy. Flood protection system according to one of the preceding claims, characterized in that the support means (50) are each designed as a heavy-duty ceiling support with top plates (56). Flood protection system according to claim 11, characterized in that the protective plate (20) and the base plate (30) each support supports (52) with head bolts (54) and a holder (58) for the top plates (56) of the supports (50). Flood protection system according to one of the preceding claims, characterized in that the base plate (30) has a Wasserabfluesrinne (32). Flood protection system according to one of the preceding claims, characterized in that each base plate (30) is fastened with composite anchors to a foundation, wherein the foundation is preferably formed as L-shaped reinforced concrete round tower (60). Flood protection system according to one of the preceding claims, characterized by a plurality of adjusting devices on the base plates (30) for adjusting the plates on the foundation (60). Method for displacing protective elements of a flood protection system, wherein the protective elements at least comprise a first, pivotable protective plate (20) for forming a protective wall in a state tilted in an inclined position and for forming a substantially flat surface in a horizontal, protection-free state, a second base plate (30) fixed approximately horizontally to the floor, the protective plate (20) and the base plate (30) being pivotally connected to a pivot bearing means (40) and the base plate (30) being anchored in the floor having, Support means (50) for supporting the protection plate (20) in the tilted state, a first sealing means (70) for sealing the protective plate (20) against the base plate (30), wherein the sealing means acts sealingly at least when the protective plate (20) is in the pivoted-on protective state, characterized in that the base plate (30) is connected to a respective adjacent base plate, wherein a recess at the edge of the base plate is connected to each other with protruding into the recess reinforcing elements by grouting concrete. A method according to claim 16, characterized in that are used as reinforcing elements Anschlussarmierungsbügel and the base plates are joined together by grouting, wherein the Armierungsbügel and the recesses are potted. A method according to claim 17, characterized in that a material with respect to the modulus of elasticity is used as Vergussbeton that the concreting can be performed without the occurrence of shrinkage cracks.

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