EP1291466A2 - Protection device - Google Patents

Abstract

The system to reinforce and strengthen coastlines and the like, against erosion, has at least two reinforcements (1) of a ferrous silicate rock, coupled together. At least one reinforcement has a conical shape, with a base surface (2) and a coupling (3) as a metal half-hoop. The link (4) between them is an extended ring of metal or high tensile synthetic fibers.

Description

The invention relates to a device for fastening of transitional areas between land and water, the consists of at least two fasteners that of at least one connecting element are coupled.

Such devices are used, for example Fortification of coastlines, islands, structures on Sea, canals, rivers, port accesses and ports as well used by water substrates. An essential one Such devices are required to permanent protection against swell, ship-generated waves and currents guarantee. Known devices are For example, designed as revetments that in Area of banks or free-standing structures are placed, are also embodiments as Breakwaters, groynes or tail units are known.

Revetments applied in the area of banks are in usually in the area of shallow coastal waters used, applications in the area of Rivers and canals known. As revetment materials are typically natural stones, asphalt, concrete blocks or silicate rocks used. These are in shape applied by fillings.

In the area of coastal fortifications are common Breakwaters, groynes, or tail units are used perpendicular and parallel to the shore in the open sea or the open fairway to be built in To bundle or direct currents. Based on these Placement in deep water or at least near the Deep water are the devices of high current and Exposed to shaft loads that are high Dead weight and a corresponding size of the Make devices necessary.

Typical devices for coastal protection applications have individual dimensions of up to several meters and up to 100t individual weight. Despite this big Dimensions and the high weight are subject to Devices by the acting flow as well as the considerable forces of the waves are constant Rearrangements leading to partial or total Destruction of the devices. This does permanent rework is required.

A particular problem when performing such Reworking is great Units usually only with special ships and Cranes can be positioned, their use in the The area of coastlines that have already been paved is often not or is only possible with considerable effort. The Repair of existing fastening devices with small units are easier to implement, due to the acting flow forces as well as the However, it is usually exposed to waves just a short satisfactory operability in front.

The object of the present invention is a Device of the type mentioned in the introduction construct that use with relatively little apparatus expenditure is possible and that in particular a repair of existing fastening devices is facilitated.

This object is achieved in that the fasteners at least in part Iron silicate rock are formed.

The formation of the device from individual Fasteners made from iron silicate rock are realized, it allows larger ones Complete furnishings from the individual Assemble fasteners and through the Use of the iron silicate rock a relatively high Total weight with relatively small external dimensions to reach. Iron silicate rock typically exhibits a specific weight in the range of 3.7kg / l, so that already by gravity a high Position stability after submerging in water is achieved. The construction of the device individual fasteners and the intended Fasteners also represent a high Flexibility ready so that when acting locally Forces due to waves or currents only slight Effects on the overall network become.

For applications in the area of coastal protection especially thought that at least one of the Fasteners a cone-like design having.

A high stability is supported by the fact that the fastener has a base that is provided with a coupling element.

An advantageous combination of materials is that the coupling element as a metal bracket is trained.

To provide high structural flexibility it is proposed that the connecting element as a straight ring is formed.

It also turns out to be high Resilience as advantageous that the Connecting element is made of metal.

This can further increase flexibility done that the connecting element made of plastic fibers is trained.

It also contributes to great overall flexibility in that the connecting element is movable with the Coupling element is assembled.

A construction of an overall device from one This will result in a plurality of individual fastening elements supports at least two fasteners are coupled to a central element.

This can result in an additional increase in flexibility achieved that the connecting elements are movable are coupled to the central element.

A flexible compliant and flexible structure in three spatial dimensions is supported by that the central element is ring-shaped.

For applications in the area of river beds, for example from ports, outer ports and locks especially thought that at least one of the Fasteners a plate-like design having. Avoid the proposed plates in particular a direct influence from A main propeller propeller jets Ship or a transverse radiator on the Water underground.

A simple flexible connection from Fasteners in the form of plates can do this done that the fastener in the area at least one side surface with at least one Coupling element is provided.

Fig. 1

Eine Vorrichtung aus vier Befestigungselementen, die beweglich miteinander verbunden sind,

Fig. 2

eine Draufsicht auf Befestigungselemente, die deckwerkartig miteinander verbindbar sind,

Fig. 3

einen Längsschnitt gemäß Schnittlinie III-III in Fig. 2,

Fig. 4

eine gegenüber Fig. 1 modifizierte Ausführungsform mit fünf Befestigungselementen,

Fig. 5

eine weitere Ausführungsform unter Verwendung von tropfenförmigen Befestigungselementen,

Fig. 6

eine Ausführungsform unter Verwendung von zylindrischen Befestigungselementen,

Fig. 7

eine gegenüber Fig. 6 abgewandelte Ausführungsform mit vier zylindrischen Befestigungselementen,

Fig. 8

eine weitere Ausführungsform unter Verwendung von würfelförmig begrenzten Befestigungselementen und

Fig. 9

eine Ausführungsform unter Verwendung von kegelartigen Befestigungselementen.

Exemplary embodiments of the invention are shown schematically in the drawings. Show it:

Fig. 1

A device consisting of four fastening elements which are movably connected to one another,

Fig. 2

2 shows a plan view of fastening elements which can be connected to one another like a revetment,

Fig. 3

2 shows a longitudinal section along section line III-III in FIG. 2,

Fig. 4

1 modified embodiment with five fasteners,

Fig. 5

another embodiment using teardrop-shaped fasteners,

Fig. 6

an embodiment using cylindrical fastening elements,

Fig. 7

6 modified embodiment with four cylindrical fastening elements,

Fig. 8

a further embodiment using cube-shaped fasteners and

Fig. 9

an embodiment using cone-like fasteners.

Figure 1 shows a perspective view a device consisting of four fasteners (1) is formed. The fasteners (1) have a substantially in this embodiment conical design and are in the range of one Base area (2) with coupling elements (3). The coupling elements (3) can, for example, as Metal bracket to be formed in the base (2) are embedded. The fastener (1) consists at least partly of iron silicate rock.

Grip into the coupling elements (3) Fasteners (4), the Couple the fasteners (1) together. In the illustrated embodiment are the Fasteners (4) not directly with each other connected, but engage in a central element (5) one that can be formed as a metal ring. The Connecting elements (4) are shown in the Embodiment realized as stretched rings and can be made of steel or high-strength Plastic ropes can be realized.

Both in the transition area between the Coupling elements (3) and the connecting elements (4) as well as in the area of transition Connecting elements (4) in the central element (5) a flexible connection between the individual parts realized. This ensures a high degree of flexibility Entire device provided. This leads to in the case of locally acting forces, a single one Fastening element (1) can be moved without movement of the other fasteners (1) is caused. This creates high leverage and avoided torsional forces leading to damage of the entire facility. Also will avoided loosening the Overall device comes in the area of a substrate.

Fig. 2 shows an embodiment in which the Fastening elements (1) are realized in plate form. Such an embodiment proves especially for bank fortifications both in Sea water area as well as in fresh water area as appropriate. The fasteners (1) are in here Area of side surfaces (6) of the coupling elements (3) arranged and a connection of the coupling elements (3) is done again using Connection elements (4). Again there is one flexible connection of the individual Fasteners (1) in front so that the individual Fastening elements (1) relative to each other Can perform compensatory movements. As with the Embodiment according to FIG. 1 can Connecting elements (4) also here, for example Steel loops or via high-strength plastic ropes be realized.

In the embodiment shown in Fig. 2 point the fasteners (1) essentially one rectangular base structure, and are in the area each side surface (6) with two Provide coupling elements (3). In dependence of the respective application requirements are also different Fastening elements (1) can be designed.

According to a further embodiment is also on it thought depending on the particular Application requirements designed differently Fastening elements (1) flexible with each other To couple connecting elements (4). It is also part of it thought fasteners (1) with relative different weights to each other combine.

In the embodiment according to FIG. 2 there is one typical dimensioning in it, a length of Fastening elements (1) of about 50cm and a width of about 30cm. A plate thickness can be about 3cm. Basically there are others here, too Dimensioning possible.

A typical weight of an individual Fastening element (1) according to the embodiment in Fig. 1 is about 10t to 15t.

The plate-shaped design of the fasteners (1) according to FIG. 2 and the arrangement of the Coupling elements (3) is from the Recognize cross-section in Fig. 3 again.

According to the embodiment in FIG. 4, there are five Fasteners (1) used. The Connecting elements (4) can either as in Fig. 1st represented via coupling elements (3) with the Fasteners (1) may be connected, but it is also possible, the connecting elements (4) directly in the Fix the area of the fasteners (1). It is also the same in the embodiment according to Fig. 4 conceivable, the connecting elements (4) over a Central element (5) to connect, but is also a immediate interlocking of the Connecting elements (4) conceivable.

Fig. 5 shows the use of teardrop-shaped Fasteners (1), the Connecting elements (4) in the range of Tapered areas of the teardrop-shaped Fastening elements (1) are arranged. With regard there is therefore an opposite to the tapering course Fig. 1 and Fig. 5 reverse arrangement.

Fig. 6 shows an embodiment in which the cylindrical Fasteners (1) are used. It will here three fasteners (1) as an example connected with each other. In the embodiment according to Fig. 7 is a coupling of four Fasteners (1).

Figure 8 illustrates the use of cuboid or cube-shaped Fasteners (1). The connecting elements (4) can be in the area of sides or in the area of corners be fixed to the fastening elements (1). Fig. 9 shows an embodiment using cone-like fasteners (1). The Connecting elements (4) are in the range of Cone tips with the fastening elements (1) coupled.

Basically, in all embodiments either the connecting elements (4) directly or under Use of coupling elements (3) with the Fastening elements (1) can be connected. Is also it is conceivable in all embodiments that Connecting elements (4) using a Central element (5) or directly together couple. Basically, it is also conceivable that Connecting elements (4) at any point with the Fastening elements (1) to connect. Both shown embodiments, the coupling takes place the connecting elements (4) with the Fastening elements (1) with each other assembled fasteners (1) on the same place. But it is also possible that Connecting elements (4) in different places to arrange the fastening elements (1) and thereby to produce irregular arrangements. About that In addition, it is conceivable to have different shapes Fasteners (1) using the respective connecting elements (4) to each other combine and thereby irregular To provide complete facilities.

Claims (13)

Device for fastening transition areas between land and water, which consists of at least two fastening elements which are coupled to one another by at least one connecting element, characterized in that the fastening elements (1) are formed at least in part from iron silicate rock. Device according to claim 1, characterized in that at least one of the fastening elements (1) has a conical design. Apparatus according to claim 1 or 2, characterized in that the fastening element (1) has a base (2) which is provided with a coupling element (3). Device according to claim 3, characterized in that the coupling element (3) is designed as a metal bracket. Device according to one of claims 1 to 4, characterized in that the connecting element (4) is designed as an elongated ring. Device according to one of claims 1 to 5, characterized in that the connecting element (4) is made of metal. Device according to one of claims 1 to 5, characterized in that the connecting element (4) is formed from plastic fibers. Device according to one of claims 1 to 7, characterized in that the connecting element (4) is movably joined to the coupling element (3). Device according to one of claims 1 to 8, characterized in that at least two connecting elements (4) are coupled to a central element (5). Device according to claim 9, characterized in that the connecting elements (4) are movably coupled to the central element (5). Apparatus according to claim 9 or 10, characterized in that the central element (5) is ring-shaped. Device according to claim 1, characterized in that at least one of the fastening elements (1) has a plate-like configuration. Device according to claim 12, characterized in that the fastening element (1) is provided with at least one coupling element (3) in the region of at least one side surface (6).

Images