DE4033506C2 - Method and device for laying underwater geotextiles in water - Google Patents

Description

The present invention relates to a method according to the preamble of claim 1 and a Device for the underwater laying of geotextiles in Waters, especially in inland waterways or ships channels, in which ships enter the construction site during the Pass laying work at a short distance, using pontoons, where from a pontoon the geotextile from a roll wrapped, lowered in the water and then with pouring stones is complained. A procedure of this kind is over DE-OS 36 35 272 known.

The use of geotextiles has increased over the years proven process in hydraulic engineering has become a fe Most common term in the area of slope and ground protection work in connection with subsequent stone fillings according to the state of the art.

The heart of every revetment of this type is the as Filter serving geotextile that prevents soil particles be eroded and the shore line washed out in an uncontrolled manner becomes. Geotextiles have been used as optimal filters for many years were used in revetment construction. They have the advantage that they are thin (little order size), but the disadvantage that they are difficult under water due to their small mass can be installed.

Special requirements for underwater laying of Geotextiles are used in such coastal waters, inland waterways or shipping canals where during the construction work ships the construction site in small Distance.

The methods of stiffening or locking the mats against flow influences have so far not been satisfactory. When installing filter mats on the bottom of inland navigation Experience has shown that channels result from the backflow and screw flow passing ships problematic  "Warps" of the mats in the lowering. The Effectiveness of a building system and filter mats is in Asked if individual areas are ineffective.

The flow influences on mats are in the course of laying considerably because e.g. B. in the case of the Mittelland Canal approx. 40% of the cross section with one hanging vertically in cross section the mat is closed. In such a narrow place Cross-section of a canal develops the reverse current generated by mass of water displaced by a passing ship, one considerable inflow compared to that behind the laying Ponton under water hanging filter mat. Even that had lying on the water bed is under the effect the mat moved by the flow mentioned above sen and / or relocated. The cause of the flow can follow Experience also not sufficiently reduced due to "slow travel" be decorated.

There are therefore various requirements for a practical System for the controlled laying of geotextile sheets put under water.

The conventional installation of geotextiles is done with a Laying pontoon, which is perpendicular to the bank to be occupied the water surface is arranged. He will anchor and Winches held in place. On this pontoon will be a depending on the length of the slope slope Elongated mat strips sewn together along the sides and through Warping the pontoon in the direction of installation lowers. This creates an endless filter belt over the total length of construction site. This laying process follows in a stone pontoon at a certain distance. This is a double pontoon in which  A lamellar floor is attached in between. Dar an approx. 40 cm thick pouring stone layer is applied and by opening the slat bottom specifically on the misplaced geotextile. Only now is the geotextile fixed. The problem with this method is the intermediate space between the laying pontoon and the stone dump pontoon. The distance can be between 10 m and 50 m. In the The geotextile's position is very unstable in this distance range bil. Every movement of water - resulting from the ship traffic - changes the position of the floating geotextile. Since there is no visibility from a certain water depth can prevail more, the last check before loading pour stones with only done by divers, what in the Rule is omitted. Damage is therefore inevitable. The Main disadvantages with this conventional installation method are connected, in particular, are that with two different pontoons must be worked are relatively far apart. Thereby again, it is necessary that the conventional with these regulations on geotextiles during the lowering process and up to the point of fixation with bulk stones in are stable and their position due to hydraulic influences can change. This is an exact position in the final state not guaranteed.

The object of the present invention is therefore a Ver drive and a device for underwater laying Geotextiles in waters of the type mentioned at the beginning To make available to ensure that during the Lowering an optimal guidance of the geotextile instead finds and the dwell time of the unloaded geotextile is as short as possible. In addition, during the A guide is available for the pouring of stones.  

This task is solved procedurally by the Features of claim 1 and device by the features of claim 4.

According to the invention a multipurpose pontoon, from which both the Underwater laying of the geotextile as well as the Be the geotextile is filled with pouring stones. Here the geotextiles are preferably laid underwater no longer in the longitudinal direction of the channel, but lower right to the longitudinal axis of the channel, d. H. the geotextile will in relatively short pieces from the top of the slope to the Relocated to the center of the duct. Of course you can also work in the longitudinal direction of the channel, provided that ver adds a multipurpose pontoon of appropriate width.

The geotextile to be laid is wound on a roll, which is introduced into the laying device. Here it can be beneficial if the role is just that much has running meters of geotextile, like a through is relocated. Of course, the role can also have a multiple thereof. In this case one then, after subtracting the predetermined number of the meters, cut them off.

According to the invention it is thus achieved that, due to the combined geotextile laying with the stone build on a multipurpose pontoon and by guiding the lower one Web edge through the movable laying arms the dwell time of unloaded geotextile in water extremely minimal is. With appropriate braking devices on the roller tension is transferred into the geotextile, which folds free location guaranteed, so that extremely short term when the geotextile is laid, the stones are poured can. In addition, one reaches an extreme in this way Positional accuracy of the geotextile underwater. Further the installation method according to the invention is essentially host more economical, because instead of two separate pontoons only the multipurpose pontoon according to the invention is still required.

Embodiments of the invention are explained with reference to FIGS. 1 and 2.

Fig. 1 shows a schematic representation of an inventive device.

Fig. 2 shows a schematic representation of a further embodiment of the Vorrich device according to the invention.

In FIGS. 1 and 2, the reference numerals have the following meanings:

1 multipurpose pontoon
2 geotextile
2 a roll
3 one side of the multipurpose pontoon
4 opposite side of the multipurpose pontoon
5 telescopic extension arm
6 clamp holding device
7 clamping profile
8 guide device
9 Transport endless chain
10 stone bulk goods

On an existing stone dump pontoon, a supply roll 2 a with geotextiles is attached to the land-side end 3 . The position of the roller 2 a corresponded in the longitudinal axis of the multipurpose pontoon 1 thus formed with the dumping width plus a one-sided overlap. On the opposite side 4, ie to the water-side end of the floating body of the multipurpose pontoon, te extendable laying arms 5 are pivotally attached on both sides. The ends of these laying arms 5 are provided with clamp-holding devices 6 , in which, in the horizontal position, the geotextile web coming from the roller 2 a is clamped at its side edges. By rotating the downward movement of the laying arms 5 , the geotextile web 2 is rolled out and pulled down from the top to the bottom of the embankment. If the laying arms 5 have reached the almost horizontal position of the lower end of the embankment, standstill occurs and the pouring stones applied to the multipurpose pontoon 1 are crashed onto the laid and fixed geotextile by opening the slat bottom. Due to the different lengths of the laying arms 5 during the pulling process, the laying arms 5 must be telescopic. The control and positional accuracy of the geotextile web 2 is given by the location of the multipurpose pontoon 1 above water. After this process, the laying arms 5 are raised again to the starting position, the multipurpose pontoon 1 is pulled forward by a crash width and the same process is repeated. The same operation is possible also with transport endless chains 9, corresponding to both sides of the multi-purpose pontoons 1 in a triangular guide to order the geotextile 2 draw out swivel castors from the slope steep place. Instead of the clamping device at the corners of the geotextile, a clamping profile 7 , which covers the entire front edge of the geotextile and which is attached to the laying arms 5 or the transport endless chains 9 , can be used.

The laying device can thus have two telescopically extendable laying arms 5 , which are either equipped with a clamp holding device 6 for the geotextile or in which the two telescopically extensible Ver laying arms 5 are connected to one another by means of a clamping profile 7 for the detection of the entire width of the geotextile web.

According to a further embodiment, the Verlegeein direction can have two telescopically extendable laying arms 5 , which are equipped with guide devices 8 , over the all-round, provided with a clamping profile 7 for the geotextile transport endless chains 9 .

The geotextiles used are preferably those which consist of two geotextile layers and one in between sensitive heavy material layer exist, the layers are needled together. The heavy layer exists preferably made of quartz sand and / or quartz powder.

However, geotextiles can also be used that of three geotextile layers and two heavy material layers exist, each separately between two geotextile layers are located, all layers are needled together. There is preferably the one layer of heavy material facing the ground is made of a swellable clay, in particular bentonite, and the layer of heavy material facing the water Quartz sand and / or quartz flour.

Claims (6)

1.Procedure for the underwater laying of geotextiles in water, especially in inland waterways or shipping channels, in which ships pass the construction site at a short distance during the laying work, with the geotextile first being angled from a roll, lowered in the water and then loaded with pouring stones is characterized in that the (a 2) angled geotextile (2) (1) may be from the roll on one side (3) of a multi-purpose pontoons in the water and by means of a laying device below the entire bulk stone surface of the multi-purpose pontoons (1 ) to the opposite side ( 4 ) on the bottom of the body of water, with the geotextile membrane ( 2 ) fixed on both ends, the geotextile membrane ( 2 ) laid exactly in this way over the entire surface except for an overlap condition with the stone fill ( 10 ) from the multipurpose -Pontoon ( 1 ) complained and then either the geotextile ( 2 ) from the roll (2 a) truncated or set up a new roll, the traversing device again brought into the starting position, after which the multi-purpose pontoon (1), offset by the Abstürzbreite and the same operation is repeated. 2. The method according to claim 1, characterized in that as Goetextiles uses those that consist of two geotextile layers and there is a layer of heavy material in between, the layers being needled together.   3. The method according to claim 1, characterized in that one uses geotextiles made of three geotextile layers and two layers of heavy material, which are are located separately between two geotextile layers, whereby all layers are needled together. 4. multipurpose pontoon for performing the method according to claim 1, characterized in that the multipurpose pontoon consists of a conventional stone-bulk pontoon and a geotextile underwater laying device, which has two telescopically extendable laying arms ( 5 ) with a clamp holding device ( 6 ) for the geotextile web ( 2 ) are equipped. 5. Multi-purpose pontoon according to claim 4, characterized in that the laying arms ( 5 ) are connected to one another by means of a clamping profile ( 7 ) for the detection of the entire width of the geotextile web ( 2 ). 6. Multi-purpose pontoon according to claim 4, characterized in that the laying arms ( 5 ) are equipped with guide devices ( 8 ), via the all-round, with a clamping profile ( 7 ) for the geotextile ( 2 ) provided transport endless chains ( 9 ) will.