NL2006570C2 - FISHING GEAR WITH TREE CORK FOR BOTTOM FISHING. - Google Patents

Description

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FISHING GEAR WITH TREE CORK FOR BOTTOM FISHING

The present invention relates to a fishing gear for bottom fishing provided with a beam trawl movable over the bottom according to the preamble of claim 1.

Such fishing gear used by beam trawling is generally known. The fishing gear is used in particular for fishing for aquatic animals in or near the bottom. Examples are: (flat) fish, shrimp, or crustaceans or shellfish, such as mussels. The beam trawl that is pulled by a vessel by means of traction ropes is classically provided with assemblies of coupled rings, cables or chains dragging over the (sea) bottom that activate the soil life, which then swims away to be caught in nets dragged behind it .

US patent 5,361,528 in the name of Peacock describes a trawler system comprising a trawler, a jib supported by the trawler, a suction pump placed on board, a trawler device adapted to be dragged along the bottom of a body of water behind the trawler and includes a conduit extending from the suction pump placed on board to a suction bag of a net forming part of the trawler device for the uninterrupted delivery of shrimp from the trawler device to the trawler. The trailing device comprises two elongated trailing beams which are connected to each other at adjacent ends at an angle by means of a hinge connection. Each trailing arm is composed of at least a pair of spaced-apart support plates, a depressing hydraulic float beam for pressing the entire trailing device in the direction of the seabed when it is dragged through the water, a net having a suction bag for the collecting shrimp, sled to slide over the seabed, and an open space adjacent to the suction bag of the net to allow unwanted species to escape. As the trailer travels through the water, low-pressure areas are created under the depressing hydraulic float bars, whereby the shrimp are sucked up.

A drawback of the known device from US 5,361,528 is that towing the aforementioned assemblies requires a lot of engine power, which, given the increasing fuel costs, leads to ever-increasing costs for fishing.

The object of the present invention is to provide improved gear that can operate at a lower cost.

This object is achieved by the device according to the preamble with the features of claim 1.

Advantageously, the flow members do not have to connect continuously and are present over the full width, so that the beam trawl remains relatively light in weight and the fuel consumption is further limited. The application to specific places with the result that discrete pressure wave points running on the ground run across the soil sufficiently activates living beings in the soil.

An advantage of the fishing gear according to the invention is also that flow members moving through the water with the beam trawl are provided which do not make physical contact with the bottom when the beam trawl is dragged, but nevertheless exert pressure waves caused by the water flow on the bottom surface, whereby the marine life is activated, swims out of it and is caught.

The advantage is furthermore that due to the absence of physical contact the animals and fish are not smashed or damaged by the flow organs or pressure waves, which also improves their external quality, which leads to a higher price.

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Moreover, the propelling of such a beam trawl through the water costs less engine power and tensile force, and less fuel is required to operate bottom fishing effectively with an improvement in the quality of the yield with a reduced environmental impact.

Furthermore, the wings prevent the beam trawl from jumping over the bottom, as a result of which part of the proceeds could escape from the nets, and moreover during the jumping the bottom life is not activated to emerge therefrom, which would lead to a lower effectiveness . The wings exerting a downward force stabilize the movement over the bottom, and moreover allow higher speeds of movement over the bottom, so that a certain quota can be caught in a shorter time.

Furthermore, practice shows that the ratio of main catch to basically undesired by-catch, being additional unintentionally caught marine animals, has been improved with the fishing gear according to the invention.

According to the invention, an embodiment of the holder is characterized in that wheels which are mobile over the bottom are mounted on the beam trawl.

In this way, with a low rolling resistance, it is possible to move the beam trawl over the bottom with even less pulling force, coupled with the advantage of improved maneuverability.

A fixed or adjustable shape of the fishing gear according to the invention, which is versatile in terms of hydrodynamic properties, is characterized in that the flow members are designed to be curved, angular or wholly or partially pivotably adjustable such that the direction in which water flows out during movement thereof points to the bottom.

If desired, the shape can even be adapted to the type of fish and the extent to which that type appears to be sensitive to the force and shape of the force profile as it develops on and in the bottom when the members move. Some species need more power to get out of their place than others.

A preferred embodiment of the fishing gear according to the invention is characterized in that the curved flow members are hinged to the beam trawl, and the beam trawl is provided with resilient or elastic members which are fixed to it such that the hinged movement of the flow members is thereby at least partially under elastic distortion of the organs.

The hinged flow members make it possible to bend away those non-breaking members at the moment that obstacles, such as stones, boulders or other iniquities, pass through the ground. The introduction of resilience or elasticity causes the flow member to spring back to its original position when the obstacle has been passed, so that a more efficient operation can be permanently guaranteed.

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The fishing gear according to the present invention will now be further elucidated with reference to the figures below, in which corresponding parts are provided with the same reference numerals.

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It shows:

Figure 1A shows a first embodiment of the gear according to the invention, and Figure 1B shows a cross section on A-A in Figure IA; Figure 2A shows a second embodiment of the gear according to the invention, and Figure 2B shows a top view of the gear of Figure 2A; show

Figures 3A, 3B and 3C show embodiments of possible forms of possible embodiments of flow members which are suitable for use in the gear of figures 1A and 2A; and shows

Figures 4 is an illustration for explaining the general flow principle that is used in the embodiments of figures 3A, 3B and 3C.

Figures 1A and 2A show embodiments of fishing gear 1 that is used in bottom fishing. The fishing gear 1 comprises a beam trawl 2 movable over the bottom B, which in the embodiments shown here can be moved over the bottom by means of two wheels 3 arranged on either side thereof. Beam trawl widths of 2 m to 12 m are common, somewhat dependent on the sea dulls and differences in height expected, and the width of the nets 4, which are shown behind the beam trawl 2 hanging behind the beam trawl 2 in Figure 1B, with which fishing is taking place. . Connected or continuous, but preferably at regular distances from each other, individual flow members 5 are attached to the beam trawl 2, not shown. When the beam trawl 2 - in Figure 1B from left to right - pressure waves flowing through the flow members 5 are produced on the bottom B, as a result of which the marine animals rise from the bottom B and enter the net 4. If there is a certain gap between the individual flow members 5, this need not be at the expense of the efficiency of the fishing gear 1. The fewer organs 5 on the beam trawl 2, the lower the resistance in the water when moving and the lower the fuel consumption. The spacing and the shape of the members 5 are chosen such that the fish to be caught is sensitive to the resulting pressure wave pattern on the seabed B. For shrimp, that spacing can be smaller than for flatfish.

The principle of generating a downward flow while propelling the beam trawl 2 is shown in Figure 4 for a curved, curved, in particular spherical, flow member 5, but equally applies to a member 5 which is positioned at right angles and with which the flow is deflected from right to left downward in the figure in the figure.

Some common variants in the shapes of the members 5 are shown in Figures 3A, 3B and 3C. In figure 3A the member 5 is flat and the local pressure variation per surface unit on the bottom B will be somewhat smaller than that in the downward bent structures of figures 3B and 3C, in which the local flow runs almost perpendicularly downwards.

Particularly if several flow members 5 are present, the beam trawl 2 will tend to jump or float over the bottom B during movement. This is prevented by arranging on the beam trawl one or more wings 6 exerting downwardly directed forces on movement therefrom, including only one wing as shown in figures 2A and 2B. The wing 6, which can be arranged in an angle-adjustable manner, provides the possibility of generating the downward force required, depending on the speed of movement, to cause the beam trawl 2 to move stably over the bottom B or to roll it.

The flow members 5 can also be made all or in part pivotably adjustable. This makes it possible to optimally adjust the direction in which water flows when it flows out. The beam trawl 2 may further be provided with resilient or elastic members 7 which are fixed thereto in such a way that the pivotal movement of the flow members 5 hereby takes place at least partially under elastic deformation of the for instance rubber members 7. In the case of inaccuracies on the bottom B, the members 5 which hit against them pivot away.

If the flow members 5 are designed as hinged spoons, which is visible in Figure 1B, then the elastically resilient members 7 at the location of the hinge 8 between beam trawl 2 and the stem 9 of the spoon can be designed as an elastic buffer block 7, which the maximum angular deflection of the stem 9 of the spoon 5 is limited. It is also possible to manufacture the stem 9 entirely or partially from an elastic material, such as rubber, whereby the hinge 8 could be dispensed with, which saves on total weight.

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Claims (9)

1. Fishing gear for bottom fishing provided with a beam trawl movable over the bottom, to which are attached: 5. flow members generating pressure waves on the bottom, and - wings exerting downward forces on the beam trawl, characterized in that the flow members discrete places are arranged at certain intervals between the beam trawl. 2. Fishing gear as claimed in claim 1, characterized in that wheels which are mobile over the bottom are mounted on the beam trawl. 3. Fishing gear as claimed in claim 1 or 2, characterized in that the flow members are designed to be bent, angled or wholly or partially pivotably adjustable such that the direction in which water flowing out of them moves towards the bottom points. 4. Vehicle as claimed in claim 3, characterized in that the flow members are curved, for example arcuate, cup-shaped, shell-shaped, dish-shaped or partially flat. A fishing gear according to claim 4, characterized in that the curved flow members are hinged to the beam trawl 30. A fishing gear according to claims 3-5, characterized in that the flow members are designed as spoons. A fishing gear according to claim 5 or 6, characterized in that the beam trawl is provided with resilient or elastic members which are fixed to it in such a way that the pivotal movement of the flow members hereby takes place at least partially under elastic deformation of the members 5. A fishing gear according to claim 7, characterized in that the resilient members are arranged at the location of a hinge between beam trawl and the handle of the spoon. 10 9. A fishing gear according to claim 7 or 8, characterized in that the elastic members are designed as an elastic buffer block which limits the maximum angular deflection of the handle of the spoon.