DE19748175C2 - Floating breakwater - Google Patents

Description

The invention relates to a construction of floating Breakwaters with the in the preamble of claim 1 specified features.

The protection of maritime objects from damage by the influence of wave motion is caused by wave deflectors. These breakwaters can be built in or in floating construction can be realized. The floating one Molded wave deflectors can be made from a single Element or from several interconnected Elements.

At locations with the risk of winter ice formation it, special measures to protect the breakwater itself before being damaged. The special form of the Breakwater allows an additional automatic icebreaking function.

The basis of the invention specified in protection claim 1 problem lies in the characteristics of the Claims 1 to 3 specified features solved.

The special thing about the wave-breaking float are Bevels on all edges of the breakwater available. The bevels start at the amount of Waterline and continue underwater. This Bevels serve to redirect the forces resulting from the Ice pressure arise.

The invention is described below with reference to the figures:

Show it:

Fig. 1 is a perspective view of the float

Fig. 2 representation of the forces acting

Fig. 3 is a side view with the coupling element not shown

Fig. 4 shows a cross section through the floating body

The outer shape of the floating body 1 is characterized in cross section by a modified U-profile ( Fig. 4). At the end faces 1 a there is a closure with a coupling element 2 , not shown. The material for manufacturing the jacket 4 of the floating body 1 consists essentially of reinforced concrete. The trough-like cavity created by this construction is filled with a filler 5 . The essential function of this filler 5 is that the water diffusing through the concrete can fill the cavity.

The acting forces are shown in FIG. 2 as force arrows. The effect is described as follows:

The ice pressure lifts the floating body 1 out of the water. As a result, less water is displaced by the floating breakwater and thus the buoyancy is reduced. The horizontally acting ice pressure is broken down into two orthogonal partial forces. The relationship between these two partial forces is determined by the size of the angle, which is predetermined by the bevels 3 on the modified U-profile of the floating body 1 . The reduction in buoyancy is compensated by the ice pressure, and there is again a balance of forces.

The weight of the floating body 1 is unaffected by these processes and remains constant.

If the float 1 is further lifted out of the water by the ice pressure, the weight and the sum of the buoyancy and the vertical component of the ice pressure keep the balance. If the breakwater is completely lifted out of the water by the ice pressure, there is no more buoyancy. However, if the force of gravity outweighs these force components, the ice on the edge is broken by the weight of the float 1 , and the float 1 sinks back into the water until the equilibrium situation returns.

FIG. 3 shows a side view of the floating body 1. On the end faces of the floating body 1 , bevels 3 are also attached. The functionality is the same as that previously described for the side surfaces. The coupling element 2 , not shown, serves to connect individual floating bodies 1 to larger units.

FIG. 4 shows a cross section through the floating body 1. The design of the wall thickness 4 in the beveled part is to be dimensioned such that the expected ice pressure can be absorbed and part of the force can be redirected for the desired functionality.

Claims (3)

1. Floating breakwater for securing maritime objects, consisting of individual floating bodies ( 1 ) which are connected to one another at their end faces via coupling elements ( 2 ), characterized in that each floating body ( 1 ) has a modified U-profile in cross section, the Edges all around are bevelled in such a way that the bevels ( 3 ) begin at the level of the water line and continue under water, and that the angle of the bevels is dimensioned so that the forces acting on the bevels ( 3 ) arise as a result of ice pressure , cause the float ( 1 ) to be lifted out of the water. 2. Floating breakwater according to claim 1, characterized in that the jacket ( 4 ) of the floating body ( 1 ) consists of a sufficiently stable reinforced concrete layer. 3. Floating breakwater according to claim 1 and 2, characterized in that the trough-shaped cavity of the floating body ( 1 ) formed is filled with a filler ( 5 ).