RU2060005C1 - Bottom hydrobionts catching dredge - Google Patents

Abstract

FIELD: commercial fishing, in particular, catching of sea bottom hydrobionts, may be used to recover solid minerals, for instance manganic concretion. SUBSTANCE: dredge has spacer frame formed as bar, double-sided arc-shaped runners positioned at both sides of bar and provided with radial bars and poles-thrusts for connecting runner ends with poles-thrusts. Accumulating sack is attached within frame carcass, which is positioned between runners so that space is defined between carcass and runners. Equidistant spacer corners are attached to spacer frame bar for displacement in vertical plane. Attachment units have brackets with rounded ends and bracket fastening members, with corner apexes being pivotally secured on bracket fastening members. Hydrodynamic shields formed from plates positioned at an angle one with respect to the other are mounted between corners. One ends of plates are attached to bar and other ends to smaller diameter rods. Accumulating sack is fastened to spacer frame through chain-type devices. All spacer frame members are reinforced with strips. Dredge runners may be provided with resilient coverings, which may be fastened by metal strips. Dredge may be provided with second accumulating sack similar to first sack, and sacks may be interconnected along perimeter by selectively fastened cord. EFFECT: increased catching capacity and selectivity, minimum damage to bottom biocenosis. 3 cl, 9 dwg

Description

 The invention relates to industrial fisheries and can be used in the extraction of bottom marine hydrobionts, such as sea urchins, stars, holothurians, bivalves, as well as in the collection of solid minerals, such as manganese nodules.

 A device [1] is known for adaptation to a mollusk dredge, which also contains a storage bag.

 The device includes a towed rack, which is equipped with a grate for throwing stones placed in front of the inlet of the storage bag. The towed rack forms a rigid connection with the bag only on the sides of the inlet, while the top and bottom of the storage bag are connected elastically using a grill. The grating for counteracting the ingress of stones is formed by a rack beam and inclined rods, each of which is attached to the upper or lower part of the inlet of the bag with one end (vibrating) and the other with the possibility of vertical movements to the transverse beam. The towing strut is located symmetrically with respect to the center of the horizontal plane drawn through the transverse beam of the strut.

 This dredge has the following disadvantages.

 In the process of towing a massive storage bag, which contacts the bottom with its entire surface, as a rule, deep furrows and dumps remain, damage to the bottom biocenosis is caused. As the storage bag is filled, its mass increases, and since the chain selection is directly attached to the storage bag, it is difficult to copy the bottom relief, despite the presence of rods, stones smaller than the distance between the two rods, the size will fall into the bag, and, given the absence of restrictions on horizontal movements of the rods, the dimensions of the stones passing into the bag may be more significant.

 The chain selection, pressed by the mass of the bag to the bottom surface, is not able to copy it and cuts the surface layer, destroying the bottom biocenosis in its path.

 The alternation of attachment of the lattice rods to the top and bottom of the bag does not guarantee a constant opening size of the inlet of the storage bag, since when the rod is lifted from the bottom chain fit, the distance between the top and bottom of the bag in this part decreases, i.e. tapering inlet.

 On stony, rocky-clastic sections of the seabed, situations are possible when, when the transverse beam of the rack is deformed, vertical movements of the rods become impossible due to jamming. An emergency is created.

 The dredging accumulative bag is not selective, its shape also does not allow preserving clam shellfish or sea urchins without deformation, since the bag is not equipped with a rigid frame.

 Known dredge [2] which has a spacer frame and a storage bag. The frame contains a rod and is equipped with bilateral arcuate runners placed on both sides, made with a transverse radius reinforcing rod. The runners and the radius rod are interconnected by struts, stops, spacer force angles are fixed to the rod at an equal distance from each other with the possibility of vertical movements. The edges of the storage bag are planted on a chain selection that is attached to the uprights and ends of the expansion angles.

 Dredge has the following disadvantages.

 The expansion angles support only the inlet of the storage bag in the opened state, and the rest of the bag does not have a fixed shape, which contributes to the deformation of the filled objects when the bag moves along the bottom. In this case, the storage bag with the entire surface of the lower side is in contact with the bottom, and the chain selection attached directly to the drive, pressed to the bottom surface with the mass of the filled bag, practically loses the ability to copy the seabed and causes the destruction of the upper soil layer and bottom biocenosis.

 The storage bag is not very selective.

 The proposed dredge is characterized in that all the elements of the spacer frame are reinforced with strip metal, the fastening nodes of the spacing force squares contain brackets and fasteners connecting the brackets, on the axis of which the spacing angles are fixed with their vertices. The fixing of the squares is autonomous, and when the rod of the spacer frame is deformed, the vertical movements of the squares are not limited. The brackets are made of plates, one end of which is attached to the rod of the frame, and the other is bent. Thus, the square located between the brackets is limited in horizontal movements, and with a sharp hit of large stone, the curved ends of the brackets “soften” the bend of the square, preventing it from breaking.

 Fixed fixing allows you to maintain the optimal value of the distance between the squares, and therefore, to avoid the capture dredged stones larger than the distance between the squares, size.

 Between the attachment points of the squares, there are drop-shaped hydrodynamic fairings made of two plates located at an angle to each other, one end of each of which is connected to an expansion rod, and the opposite to a rod smaller than the diameter rod.

 Hydrodynamic fairings contribute to the separation of fishing objects from the ground and their subsequent direction in the storage bag, which positively affects the catchability, and improve the hydrodynamic characteristics of the dredge.

 The dredge is equipped with selective chain mail selection, one side of which is planted on a chain selection, and the other is connected along the perimeter with a storage bag.

 The storage bag is fixed inside the frame frame located between the bilateral arcuate runners so that a gap is formed between the frame and the runners.

 The presence of selective chain-link selection in front of the storage bag, its inclined position relative to the bottom surface, provided that hydrodynamic fairings create a stream directing fishing objects into the bag, guarantees less trapping of small objects and stones compared to the prototype, since when passing chain-link selection will mostly be eliminated. In this case, the chain selection only touches the bottom surface with the leading edge, and the chain selection, not pressed by the mass of the storage bag, is able to copy the bottom surface without destroying it.

 Alternatively, the dredge can be equipped with an additional storage bag identical to the first. In this case, the bags are interconnected around the perimeter by a selective plate. Such a dredge device makes it possible to additionally once again screen the small objects and stones that have fallen into the bag and increase the dredging time, since the storage volume will increase, which favorably affects the quality of the catch and its size. The uniform distribution of catch in the reservoirs is ensured by the flow formed by hydrodynamic fairings directing fishing objects into the bag.

 Alternatively, the dredger runners can be provided with an elastic coating fixed with metal strips, which protects the runners from abrasion and improves sliding.

 Figure 1 shows a dredge, side view; figure 2 is the same, a top view; figure 3 is a section of the spacer frame of the dredge along the diametrical plane; in Fig.4 node I in Fig.3 (node fixing spacer squares); figure 5 option dredge with two bags, drives connected by a selective plate, side view; in FIG. 6 dredges with two storage bags, top view; in Fig.7 connection spacer squares with a spacer frame and chain selection; in Fig. 8 a section A-A in Fig. 2 (section of the hydrodynamic fairing); in Fig.9 node II in Fig.3 (an example of fixing the elastic coating on the skids of the dredge).

 The dredge contains a spacer frame 1 reinforced with strip metal, and a storage bag 2. The spacer frame 1 is made of a rod 3 and is provided with bilateral arcuate runners placed on both sides 4. The runners 4 have a transverse reinforcing rod 5. The ends of the runners 4 and the radius rod 5 are connected among themselves by means of racks stops 6.

To the rod 3 of the spacer frame 1 with the help of nodes 7 fastening at an equal distance from each other (B _I ), with the possibility of vertical movements are attached spacer force angles 8.

 The fixing nodes 7 are made of brackets 9 in the form of plates, one end of which is connected to the rod 3 of the spacer frame 1, and the other is bent, and fasteners 10 connecting the brackets 9 to each other and used to hinge the spacer squares 8. For this, in the upper part of the squares 8 holes are made.

 The ends of the expansion angles 8 are attached respectively to the upper and lower parts of the chain selection 11, which is connected to a selective chain selection 12, the opposite side of which is attached to the rigid frame 13 of the storage bag 2.

 In addition, the spacer frame 1 is equipped with hydrodynamic fairings 14 located on the frame 1 between the nodes 7 of the mounting of the squares 8. The hydrodynamic fairings 14 are formed by two plates, one end of each of which is attached to the spacer frame 1, and the other to a rod of a smaller diameter than the rod .

 The frame 13, to which the storage bag 2 is attached, is placed between the bilateral arcuate runners 15 so that a gap is formed between the bottom soil and the storage 2.

 To unload the catch in the frame 13, a door 16 is provided for unloading the catch.

 In this case, when the dredge is equipped with a second storage bag 2, the device of which is identical to the first, the bags 2 along the perimeter of the frame 13 are connected by a selective plate 17.

 If necessary, the runners 15 can be provided with elastic coatings 18, fixed to them using metal strips 19.

 Dredge works as follows.

 With the help of a towing fan, the dredge is lowered from the deck of the vessel along the slip. Due to the fact that it is bilateral, it does not matter which side it sinks to the bottom.

 When towing dredges, arcuate runners 15 smoothly crawl onto obstacles arising in front of them. Due to the fact that the spacer pair 1 and the storage bag 2 are raised above the ground due to the presence of runners 15, the dredge glides over it without destroying its surface.

 Directly adjacent to the bottom surface are only the chain selection 11 and the front edge of the selective chain-link selection 12, which occupies an inclined position relative to the bottom surface. The mass of the storage bag 2 does not exert pressure on the chain selection 11, and it easily copies the bottom topography, literally repeating the shape of the obstacles.

 Squares 8, acting as a safety grille, prevent 2 large stones from getting inside the storage bag. The restriction of horizontal movements of the squares 8 by the side brackets 9 ensures a constant distance between them and, as a result, prevents the ingress of stones whose size exceeds these sizes.

 When copying the surface of the sea day, the lower part of the chain selection 11, and with it the attached edge of the square 8 are lifted. Due to the fact that the square 8 has a constant fixed shape, the upper part of the chain selection 11 also rises by the same amount, thus, the opening size of the dredge inlet remains constant, which is especially important, since the hydrodynamic fairings 14 create a directed flow that contributes to separation and catching fishing objects and preventing loss of catch.

 Before getting inside the storage bag 2, the caught objects fall onto a selective chain mail selection 12 located obliquely with respect to the seabed by attaching the side opposite the chain selection 11 to the frame 13 raised above the bottom surface.

 When passing through selective selection 12, small objects and stones are sifted through it. The sorted objects by the flow formed by the hydrodynamic fairings 14 are moved further to the storage bag 2. Since the storage bag 2 is attached to a rigid metal frame located between the oval runners 15 with the formation of a gap between the storage bag and the bottom surface, it practically does not come into contact with him and zalovannye objects are not subjected to normal deformation in bags without a frame that supports the shape of the bag.

 If necessary, the dredge can be equipped with a second storage bag identical to the first. In this case, the storage bags 2 are interconnected by a selective layer, and when moving the flooded objects using the flow formed by the hydrodynamic fairings, additional screening of small objects occurs, that is, the quality of the catch increases.

 Alternatively, the runners 15 are coated with an elastic coating.

 Unloading of the catch, lifting the dredge on board the vessel are carried out in the usual way.

 The proposed dredge allows fishing (for example, sea urchins) at depths that are usually extreme for divers (up to 30 m) on difficult soils.

 Dredge possesses good catchability and selectivity due to the presence of expansion squares, hydrodynamic fairings and selective layers.

 Dredge is two-sided, which is convenient when working at great depths.

 When dredging this biocenosis, the minimum possible damage is caused due to the fact that all the elements of the dredge are spreaded frame, the storage bag with a rigid frame with the help of oval runners are raised above the surface of the seabed, in addition, the objects that are clogged are not deformed.

 When using the second storage bag, the efficiency of using dredges increases, the catchability and the quality of the catch increase.

Claims (3)

 1. Dredge for catching bottom aquatic organisms, containing a spacer frame, which is a rod, equipped with bilateral arcuate runners placed on both sides with radial transverse reinforcing rods and stop rails connecting the ends of the runners and the radial transverse reinforcing rod to each other, spacer force angles attached at an equal distance from one another to the rod of the spacer frame with the help of fastening nodes with the possibility of their vertical movements, a storage bag, the edges of which They are mounted on a selection and a chain selection, attached along the perimeter of the inlet to the lateral struts-stops of the spacer frame and to the ends of the spacer force angles, characterized in that all the elements of the spacer frame are reinforced with strip metal, the fastening nodes of the spacer force angles consist of brackets, one end each of which is attached to the rod of the spacer frame, and the other is bent, and fasteners connecting the brackets to each other and used to hinge the tops of the spacer force angles, between the locking nodes Hydrodynamic fairings are located on the rod of the spacer frame. They are formed of two plates located at an angle to one another, one end of each of which is connected to the rod of the spacer frame, and the other to a rod of a diameter smaller than the rod, between the storage bag and the chain selection selective chain mail is located, and the storage bag is fixed inside the frame frame located between the bilateral arcuate runners so that a gap is formed between the frame and the runners.  2. Dredge according to claim 1, characterized in that the dredger runners are provided with elastic coatings fixed with metal strips.  3. Dredge according to claim 1, characterized in that it is provided with an additional storage bag fixed inside the frame frame located between the bilateral arcuate runners so that a gap is formed between the frame and the runners, while the bags are interconnected around the perimeter by a selective plate.

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