EP1108819A1 - Towed head for a suction dredger - Google Patents

Abstract

The suction head (1) is connected to the dredger via a suction pipe (2), and has a vortex sighting bar (3) and a jet bar (4). The sighting bar is held pivoted about an axis (A) on the suction head, and its free end rests on the ground (6) of the waters to be dredged, due to its own weight. The jet bar is fastened to the sighting bar and executes all pivot movements with it. Compressed water supply to the jet bar generate water jets, is via lines, which incorporate at least one flexible hose (7).

Description

The invention relates to a towing head for suction excavators for suction of soil, mud or the like from one Waters that have a suction pipe with the suction excavator is connected and which is a vortex visor and a nozzle bar has, the emerging from the nozzles downward water jets loosening the Effect soil or the like.

Such trailing heads are used in load suction dredgers to promote water-soil mixtures Waters and are connected via suction pipes with one on the Load suction excavator pump, for example a centrifugal pump. For effectiveness the towing head of a cargo suction dredger of the most essential components because it is the first Link in the conveyor system has a decisive influence on solids production.

The design of the trailing heads is primarily dependent on the type of soil to be extracted. For Increase in the mixture concentration of the flow at Dredging of consolidated soil has become the feeder proven by pressurized water. The pressurized water is here over arranged in front of the suction mouth of the trailing head Nozzles fed in a row - conveniently in a nozzle bar - are arranged side by side. By the downward emerging from the nozzles Water jets loosen the soil.

In a known drag head for suction excavators is used Improvement of the ratio of the extracted solid parts to the water pumped during suction water introduced into the trailing head before reaching the Bottom of the water into a drift water stream and one Pressurized water flow divided (DE 44 05 451 A1). The Pressurized water flow is here via pressurized water nozzles the bottom of the body of water and the flow of driving water through at least a motive water nozzle on the suction pipe of the trailing head directed. The pressurized water nozzles are on the front Edge of the suction area of the trailing head and the Driving water nozzles arranged on the rear edge, being the nozzles are firmly connected to the trailing head.

Another known trailing head for suction excavators are injection nozzles in such a distance from the inlet opening of the trailing head arranged that released by the loosening work Gases essentially outside of suction work of the towing head remain (EP 0 075 358 B1). Here are the injection nozzles through a series of openings in a tube extending transversely to the suction direction educated. Vary the position of the nozzle openings to be able to, the pipe located in a holder be rotated by means of a hydraulic cylinder.

A drag head is also known, in which behind the A visor for supplying pressurized water is provided (EP 0 892 116 A1). This visor is supposed to too much turbulence in the loosened soil prevent.

With fixed nozzles for the feed of pressurized water changes with varying excavator depth and thus also varying inclination of the intake manifold and towhead also the angle that the center lines the water jets emerging from the nozzles form the perpendicular. An adjustment of this angle can be between the trailing head and Nozzle bar or via the articulated crane of the side tube suspension respectively. However, both require a high level constructive effort or a complex readjustment the intake manifold position through which the intake manifold and the crane systems holding the towing head on the Suction dredger.

Through model tests and practical application demonstrated that the output when excavating a Soil type in addition to the towing speed over ground and the height of the gap between the visor and the floor from the position of the openings of the nozzles for the Supply of the pressurized water depends.

The invention has for its object a drag head for suction dredgers so that everyone can Excavation depth without optimal effort an optimal setting of the nozzles for the supply of pressurized water is guaranteed.

• daß das Wirbelvisier um eine Achse schwenkbar an dem Schleppkopf gelagert ist und das freie Ende des Wirbelvisiers unter Eigengewicht auf dem Boden des Gewässers aufliegt
• und daß die Düsenleiste mit dem Wirbelvisier fest verbunden ist und somit dessen Schwenkbewegungen mitmacht.

The solution to the problem in a trailing head for suction excavators of the type mentioned is

• that the vortex visor is pivotally mounted about an axis on the towing head and the free end of the vortex visor rests under its own weight on the bottom of the water
• and that the nozzle bar is firmly connected to the swivel visor and thus takes part in its swiveling movements.

Due to the inventive design of the trailing head is the position of the one in the nozzle bar Nozzles only depending on the position of the vortex visor and therefore always optimal because the vortex visor due to its function regardless of the excavator depth occupies the same position on the floor.

For a variety of dredging tasks, the inventive design of the trailing head another significant advantage that a universal joint in No longer a side suction pipe and therefore also an articulated crane required are. This results in a significant one Reduction of the construction weight.

In one embodiment of the invention is the nozzle bar arranged on the vertebrae such that the center lines from the nozzles attached to the nozzle bar emerging water jets with the vertical one Form an angle that - in relation to the towing direction - is not greater than 10 °.

The mentioned model tests and practical applications namely have also shown that a particularly high Flood level of the soil is achieved when an angle in the area mentioned.

According to another feature of the invention, the means for attaching the nozzle bar to the swivel visor designed to be detachable. This facilitates an exchange of the Nozzles and allows the installation of different Nozzles.

In a further embodiment of the invention, the feeding takes place the pressurized water to the nozzle bar via pipes, at least a section of which is a flexible hose connection is trained. The water supply can thereby follow every movement of the nozzle bar.

The supply of the pressurized water to the nozzle bar is thereby facilitated that between the lines for the Supply of the pressurized water and the nozzle bar Water supply box is provided.

According to another feature of the invention Feeding the pressurized water to the nozzle bar via a Rotary union, which is at the height of the axis around which the Swivel visor is pivotable in the water supply box flows. Also in this embodiment of the invention Trailing head can water supply follow every movement of the nozzle bar.

The trailing head according to the invention can thereby be improved that the means for attaching the Nozzle strip on which the vortex visor is designed in such a way that the angular position of the nozzle bar to the vortex sight is changeable. This is a very precise setting the angular position possible. A different one Angular position can be useful if at different softness of the water floor between two dredging trips or in different places of the Dredging or at different speeds of the excavator the trailing head different amounts sucks off soil per unit of time. With the occurring Varying the depth of cut and thus the Sink depth of the vortex sight can be adjusted Appropriate angular position of the nozzle bar to the vortex sight his. The angular position of the nozzle bar to Vortex visor can both before and before excavators be adjusted during excavation.

• ist der Wasserzuführungskasten um die gleiche Achse wie das Wirbelvisier schwenkbarer,
• ist zwischen dem der Achse abgewandten Ende des Wasserzuführungskastens und dem Wirbelvisier ein längeneinstellbares Element vorgesehen
• und ist die Düsenleiste an dem Wasserzuführungskasten angebracht.

In a preferred embodiment of the trailing head according to the invention,

• the water supply box can be swiveled around the same axis as the vortex visor,
• a length-adjustable element is provided between the end of the water supply box facing away from the axis and the swivel visor
• and the nozzle bar is attached to the water supply box.

The length-adjustable element is expediently used as Hydraulic cylinder trained.

Because the control of a hydraulic cylinder without any special Effort can be made very precisely this embodiment of the invention is a very exact adjustment of the angular position of the nozzle bar for Vortex visor.

The trailing head according to the invention for suction excavators draws is characterized by a particularly simple design and requires very few components.

Fig. 1

einen Schleppkopf mit einem Wirbelvisier, an dem eine Düsenleiste fest angebracht ist, in Seitenansicht;

Fig. 2

einen Schleppkopf, bei dem die Winkelstellung der Düsenleiste gegenüber dem Wirbelvisier veränderbar ist, ebenfalls in Seitenansicht;

Fig. 3

einen Wasserzuführungskasten für den Schleppkopf in einem Halbschnitt nach der Linie III-III in Fig.1, in vergrößertem Maßstab.

The invention is explained in more detail with reference to the drawing, in which two exemplary embodiments of the towing head according to the invention for suction excavators and a water tank are each shown schematically. Show it:

Fig. 1

a towing head with a vortex visor, on which a nozzle strip is firmly attached, in side view;

Fig. 2

a trailing head, in which the angular position of the nozzle bar relative to the vortex visor can be changed, also in side view;

Fig. 3

a water supply box for the trailing head in a half section along the line III-III in Fig.1, on an enlarged scale.

The drag head 1 shown in Fig. 1 is a Suction pipe 2 with the - not shown - suction excavator connected. The towing head 1 is with a vortex visor 3 provided that on the trailing head 1 about an axis A is pivotally mounted and the free end under Dead weight rests on the floor 6. On the vortex visor 3, a nozzle bar 4 is attached. This nozzle bar 4 is attached to the vortex visor 3 in such a way that the center lines M of the water jets 5, which from the emerge from the nozzle strip 4 provided with the perpendicular S form an angle W. The feeder of the pressurized water to the nozzle bar 4 takes place via Lines, at least one section of which flexible hose connection 7 is formed. Between the lines for the supply of pressurized water and the Nozzle strip 4, a water supply box 8 is provided, which is rigidly connected to the vortex visor 3.

In the embodiment shown in Fig. 2 is the water supply box 8 is not rigid with the vortex visor 3 connected, but about the same axis A swiveling, like the vortex visor 3. The water supply box 8 is thus opposite the vortex visor 3 pivotally arranged. As another fastener between the vortex visor 3 and the water supply box 8, a hydraulic cylinder 9 is provided. Since the Nozzle bar 4 attached to the water supply box 8 is the position by means of the hydraulic cylinder 9 of the angle W that the center lines M of the water jets Form 5 with the vertical S to the vortex visor 3 can be set or changed.

As shown in Fig. 3, the attached to your vortex visor 3 Water supply box 8 two lateral water supply channels 11 to which in the illustrated Embodiment the flexible hose connections 7 are connected. The two lateral water supply channels 11 are through a distribution pipe 12th connected, on the underside of which the nozzle strip 4 is appropriate. The nozzle bar 4 can also consist of several parts be trained.

Claims (9)

Trailing head (1) for suction dredgers for extracting soil, mud or the like from a body of water which is connected to the suction dredger via a suction pipe (2) and which has a vortex sight (3) and a nozzle bar (4), the out downward water jets (5) emerging from the nozzles cause loosening of the soil or the like,
characterized, 1.1 that the vortex visor (3) about an axis (A) is pivotally mounted on the trailing head (1) and the free end of the vortex visor (3) rests under its own weight on the bottom (6) of the water 1.2 and that the nozzle bar (4) is firmly connected to the swivel visor (3) and thus participates in its swiveling movements. Trailing head for suction dredger according to claim 1, characterized characterized in that the nozzle strip (4) in such a way the vortex visor (3) is arranged so that the center lines (M) from the on the nozzle bar (4) attached jets of water jets (5) form an angle (W) with the vertical (S), the - in relation to the towing direction - not larger is as 10 °. Drag head for suction excavators according to claim 1 or 2, characterized in that the funds for the Attachment of the nozzle bar (4) to the swivel visor (3) are detachable. Trailing head for suction dredger according to claim 1, 2 or 3, characterized in that the supply of the Pressurized water to the nozzle bar (4) via lines takes place, of which at least a section as flexible hose connection (7) is formed. Trailing head for suction dredger according to claim 4, characterized characterized in that between the lines for the Supply of pressurized water and the nozzle bar (4) a water supply box (8) is provided. Trailing head for suction dredger according to claim 1, 2 or 3, characterized in that the supply of the Pressurized water to the nozzle bar (4) via a rotating union takes place at the height of the axis (A) which the swivel visor (3) is pivotable in the Water supply box (8) opens. Drag head for suction excavators according to one of the claims 1 to 6, characterized in that the means for the attachment of the nozzle bar (4) to the swivel visor (3) are designed such that the angular position the nozzle bar (4) to the swirl sight (3) is changeable. Drag head for suction excavators according to claim 5, 6 or 7, characterized in that 8.1 that the water supply box (8) can be pivoted about the same axis (A) as the vortex visor (3), 8.2 that a length-adjustable element is provided between the end of the water supply box (8) facing away from the axis (A) and the vortex visor (3) 8.3 and that the nozzle bar (4) is attached to the water supply box (8). Trailing head for suction dredger according to claim 8, characterized characterized in that the length-adjustable element is designed as a hydraulic cylinder (9).

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