DE3513690C2 - - Google Patents

Description

The invention relates to a method for aligning and lowering one temporarily floating building on the bottom of a body of water which the structure initially at least one Judging body floated up and with the help of at least two extending in different directions, rigid, variable-length connecting arms connected this judge and then on the The bottom of the body of water is lowered, whereby before putting on the Structure on the water floor by changing the length the link arms have a horizontal orientation of the Building opposite the judge is made.

A method and a device of this type are already available known from DE-OS 20 21 440. The becomes Buildings to be brought down first under one Floating support legs resting platform. At this over Mainstays are platform standing on the water bottom Lowering legs can be moved up and down with which the Buildings are pressed down on the water floor can. On these legs, they are in length variable connecting arms arranged on "ears" can be connected to the ones to be depressed Structures are attached.

This known state of the Technology is structurally relatively complex. In addition, at  him the coupling of the structures to the directional organs complicated and time consuming, especially when it is in flowing or restless waters got to.

The invention is therefore based on the object Procedure of the type mentioned at the beginning to create, with as little as possible constructive effort coupling and lowering the Structure even in case of restless Waters easier, more time-saving and with less Risk of damage can be carried out.

This object is achieved in that a immobile in the water and up to Water-level directing organ, e.g. B. in the Directional albums driven in the water, is used that the connecting arms articulated to the structure with their free ends moved against the directional organ and on this be coupled up and down and that finally the lowering of the building under guidance on it Straightener by sliding the link arms down this is done.

Since thus in the method according to the invention for coupling the connecting arms of the structure to the straightening organ can reach for the judge, the building can only a relatively low accuracy to the judging organ be swam up, which is particularly the case for restless people Waters is very significant. Connecting the Link arms to the directional organ can be faster and easier than connecting the Connecting arms to the structure in the known method. Furthermore, the horizontal alignment of the Structural displacement forces during  Method according to the invention directly via the directional organ removed the bottom of the body of water, creating a high Alignment accuracy with low technical and financial effort is achieved.

Because the alignment of a floating structure sometimes not only horizontally but also vertically Direction is necessary before the structure on the Is lowered, it is with the expedient method according to the invention that at least three connecting arms at an angle to each other in each different directions extending to that Straightener moved and coupled, whereby the connecting arms with their other end on at least three different ones Places of the building are articulated and thereby a vertical alignment of the building allow.

Serves to carry out the method according to the invention a connector that connects to the judge can be moved up and down and rotated, to which at least one of the connecting arms is pivotally coupled. This connector can advantageously a collar-like at least partially comprehensive sleeve.

Further special embodiments of the invention are the subject of claims 4 to 8.  

In the drawing is a particularly useful design Example of the device according to the invention Darge , which is described in more detail below:

Fig. 1, 2 and 3 illustrate this embodiment of he inventive device in a top view in three different working positions ver.

Fig. 4 shows the device in the working position shown in Fig. 3 in plan view on a larger scale, wherein the connecting sleeve is cut in xy planes.

FIG. 5 is a section in the yz plane of FIG. 4.

In Fig. 1 to 3, the device according to the invention is all common designated 1. In the example shown, the building body 2 consisting of a large prefabricated component made of concrete or the like is equipped with two such devices 1 , which are arranged next to one another on the building body at the same or different heights.

Each of these two devices has three connecting arms 3, 4, 5 , which are articulated at three different locations in the construction body. At their end facing away from the structure, these connecting arms are connected to one another.

All these connecting arms consist of telescopic rods which are designed as hydraulic cylinders so that their length can be changed. The connecting arm 3 , which is expediently designed to be torsionally rigid, has at its end facing away from the structure 2 a coupling piece formed by a claw 6 , which is arranged rigidly on the arm and is designed to connect this arm to a straightening hinge 7 standing in the water.

For this purpose, a connector 8 in the form of a connecting sleeve is slid onto the dolphin 7 and is guided on the dolphin in a sliding manner or ascertainable at the desired height. This connecting sleeve has an approximately half of the sleeve circumference extending from saving 9 , in which the telescopic arm 3 can be retracted with its claw 6 , which is so measured that it partially includes the Richtdal ben 7 in the retracted position. In this position, the claw 6 can be attached to the sleeve by means of coupling pins 10 , which is rotatably seated on the dolphin. The coupling pin 10 are mounted with their two ends in bores in the connecting sleeve 8 , wherein they allow a certain pivoting movement of the connecting arm 3 ge compared to the transverse axis of the connecting sleeve (x axis).

The second connecting arm 4 engages the claw 6 of the first connecting arm 3 , while the third connecting arm 5 is articulated on the underside of the most connecting arm. Since all three connec tion arms 3, 4, 5 are articulated at different locations in the construction body 2 , they extend in three different directions. By changing the length of the link arms Ver their orientation relative to the building body can be changed laterally or upwards or downwards in any way within certain limits. The up and down pivoting of the two laterally at the same height next to each other extending upper connecting arms 3, 4 takes place within the limits of the width of the recess 9 in the connecting sleeve 8th All three connecting arms 3, 4, 5 are fastened to the structure via joints 11, 12, 13 . These joints rest on fastening plates 14, 15, 16 , which are fastened on the side of the structure 2 facing the straightening hinge 7 . The attachment of one or more of these plates can be done so that their location on the building body can be changed.

The design of the joint 11 for the connecting arm 3 is designed so that the connecting arm can be pivoted in all directions, that is to say to the side and up and down, but cannot be rotated about its axis (y axis). This ensures that its claw 6 always remains aligned so that it can detect a directional position 7 without the connecting arm 3 having to be correspondingly rotated about the y axis beforehand. On the other hand, the joints 12 and 13 of the connecting arms 4 and 5 not only allow these arms to be pivoted on all sides, but also to rotate them about their longitudinal axis. This also applies to the connection joint 17 at the connection point of the connection arms 3 and 5 . The connection between the connecting arms 3 and 4 , however, can be such that it allows only an angular change of these two arms in the plane receiving them.

By correspondingly changing the length dimensions of the connecting arms 3, 4, 5 , these arms can be pivoted on the structure 2 in the lateral direction and / or upwards or downwards, as is apparent from FIGS. 1, 2 and 3. With this change in length, which are characterized by the angles α , β and γ in FIGS. 4 and 5, the directions of the connecting arms can be changed accordingly. This makes it possible not only to couple the structure, as shown in FIGS . 1 and 2, to straightening albums 7 , but also to move it after its coupling relative to the straightening albums in the direction of the x and y axes shown in FIG. 3.

For this coupling, it may be appropriate that the connection sleeve 8 is fixed in height at the straightening ointments. This can be done, for example, by a gripper device (not shown in the drawing), a device for unplugging the coupling sleeve at different heights at the straightening yoke. However, it is also possible to design the connecting sleeve 8 with the connecting arms as floating. If the connecting arms 3, 4 are formed floating, could obliquely 5 shown in Fig. Maybe omitted downward link arm 5.

Otherwise, it may also be expedient to use not only one but several connecting arms starting from the coupling sleeve obliquely downwards and / or upwards, which are articulated on the structure. These connecting arms can either be connected to the claw 6 or at another point of the connecting arm 3 or to the connecting sleeve 8 itself accordingly articulated.

As shown in Fig. 1 to 3, it is useful for aligning a structure 2 larger dimensions, not only to provide one consisting of several connecting arms Ausrichtvor direction 1 but two or even more than two such alignment devices 1 . In the embodiment shown in Fig. 1-3, two such straightening devices 1 are provided, which are arranged side by side on the structure and to cooperate with two straightening albums, which are fixed in the bottom of the water in which the structure is to be placed or aligned are used or anchored. These straightening albums NEN can also be held at the upper end by a support structure, not shown in the drawing, in order to avoid fluctuations or other evasion of the dolphins in the event of greater lateral force application, which would impair the alignment process.

After aligning or floating the structure 2 using the device according to the invention, the structure can, for. B. can be lowered by ballasting to the bottom of the body of water. Since the previously vorgenomme ne alignment of the structure should remain unchanged, the entire te alignment device with the structure on the straightening ointment must slide down when the structure is lowered. For this purpose, directional bulbs 7 and connection sleeve 8 must be designed so that the connection sleeve can slide smoothly downward on the dolphin.

Of course, the individual parts of the in the drawing tion shown above embodiment also be at least partially different. So can for example, the connector sleeve from a simple ring or consist of a shell, which can be in several parts and to which the link arms are connected.

The two upper connecting arms 3, 4 shown in the exemplary embodiment shown, which extend approximately horizontally , need not lie in the same plane and be articulated at the same height on the structure 2 . Likewise, in Fig. 5 visible obliquely downward third Ver connecting arm 5 does not have to be perpendicular to the lower connecting arm 3 . It is only important that the articulation of the connecting arms on the structure takes place in such a way that they allow the structure to be firmly supported relative to the directional ovum in the horizontal plane (xy plane) and in the vertical plane (yz plane).

Claims (8)

1. A method for aligning and lowering a temporarily floating structure on the bottom of a body of water, in which the structure first swims up to at least one straightening element and is connected to this straightening element with the aid of at least two flexurally rigid, length-adjustable connecting arms extending in different directions and then on the bottom of the body of water is lowered, before the structure is placed on the bottom of the body of water by changing the length of the connecting arms, a horizontal alignment of the body relative to the straightening member is carried out, characterized in that an immovably fixed and reaching to the bottom of the water straightening member, e.g. B. a driven into the water base straightening ointments, is used that the articulated connecting arms are moved with their free ends against the straightening member and coupled to this up and down movable and that the lowering of the body under leadership of this straightening member by sliding down Link arms on this is made. 2. The method according to claim 1, characterized in that that at least three connecting arms at an angle to each other in each different directions extending to that Straightener moved and coupled, whereby the connecting arms with their other end on at least three different ones Places of the building are articulated and allow vertical alignment of the building. 3. A device for carrying out the method according to claim 1, characterized in that on the straightening member ( 7 ) a connecting piece ( 8 ) can be moved up and down and rotated, to which at least one of the connecting arms ( 3, 4, 5 ) can be pivotally coupled is. 4. The device according to claim 3, characterized in that the connecting piece ( 8 ) is a the collar ( 7 ) collar-like at least partially comprehensive sleeve. 5. The device according to claim 4, characterized in that the sleeve ( 8 ) has a lateral recess ( 9 ) in which at least one connecting arm ( 3, 4, 5 ) with its free end facing away from the structure ( 2 ) for engaging and there to be attached to the sleeve so as to be pivotable about an axis extending perpendicular to the axis of the sleeve. 6. The device according to claim 5, characterized in that one of the connecting arms ( 3, 4, 5 ) at its end facing away from the structure ( 2 ) is rigidly connected to a claw ( 6 ) serving to partially include the directional member ( 7 ) which he engages in the sleeve recess ( 9 ) and is articulated in the sleeve. 7. Device according to one of claims 3 to 6, characterized in that the connecting piece ( 8 ) is designed to be buoyant. 8. Device according to one of claims 3 to 7, characterized in that the connecting piece ( 8 ) at different heights on the straightening member ( 7 ) can be fixed.