RU121697U1 - UNIVERSAL DRAGA FOR FISHING SEA HYDROBIONTS - Google Patents

Abstract

A universal dredge for fishing marine aquatic organisms, containing a rectangular frame and a catching device consisting of lateral sides, a comb with teeth fixed on it, rippers in the form of a chisel paw, a pair of runners and a storage bag, characterized in that the frame is made wider than the catching device, at the same time, a structure of longitudinal, transverse, vertical and oblique racks is installed to the outer protrusions of the frame to give additional rigidity, which are welded to the frame, to the sides of the dredge and to each other, additional runners are attached to the lower side of the longitudinal rack, the front of which is attached to to the lateral side with a rigid bar, in the middle of this structure, a hydrodynamic flap of rectangular shape made of sheet metal is installed, which is welded on one side to the vertical rack, on the other to the upper and lower sides of the frame, and the storage bag is made with a mirror arrangement of the mesh.

Description

The invention relates to industrial fishing and can be used in the extraction of both bottom (sea urchins, sea cucumbers, scallops, neptunia, etc.), and burrowing marine hydrobionts (spizul, corbicule, cockerel, etc.) at various depths and soil.

Research conducted on the MRT "Yantar" in the hall. Peter the Great, Sea of Japan in 2010-2012, showed that during dredging, mollusks fall into a storage bag with a large number of silt and pelitic silts, which quickly fill the bag, which leads to a decrease in fishing performance (Mizyurkin, Yavnov, 2012 ) After filling the bag with sludge, in which the mollusks are located, their further fishing is possible as the sludge is washed out through the mesh of the bag and the space in the dredge is freed up to capture the next portion of soil with the mollusks in it. And the more efficiently the soil is washed out through the mesh of the bag, the better the fishing of burrowing mollusks will be. It is possible to increase the efficiency of soil washing through meshes by increasing the length and width of the bag, as well as by increasing the mesh size, but these possibilities are limited by the technical capabilities of the vessel and the biometric dimensions of burrowing mollusks. The smaller the size of the vessel and the lower the power of the main engine, the smaller the width of the dredge and bag combs, which will certainly negatively affect the productivity of fishing due to the smaller area of fishing and the difficulty of washing out the soil from a narrow bag.

The use of dredges on ships with a small width of soil capture requires the use of additional devices:

- firstly, preventing the device from turning over during setting, dredging and sampling;

- secondly, allowing to increase the volume of the bag without extending it;

- thirdly, contributing to the destruction of the soil layer, both on the comb and in the storage bag.

Based on the technical capabilities of the vessel and the fishing area, dredges of various designs are used, in most of which the soil layer that enters the bag during dredging is not destroyed or partially destroyed in several ways before it enters the bag, and the bag itself is commensurate in width with the width of the comb or hollow tooth made in the form of a plate.

Known dredge with hydraulic washing for fishing burrowing mollusks (http://icesjms.oxfordjournals.org/content/60/2/381/F1.expansion.html), which consists of a rectangular frame, to the lower edge of which is attached a hollow plate with a width of 0, 39 m. The plate penetrates the soil to a depth of 0.34 m. The pump allows erosion of the soil at water depths of up to 30 m, while creating an overpressure of 2 × 10 ^-5 Ra. In order to avoid overturning the dredge on its sides, runners (skis) are provided, each of which is attached to the dredge with two transverse beams.

The disadvantage of this device is that the pump's ability to produce only those mollusks that are located at water depths of up to 30 m and burrowing into the soil by 25-30 cm. When working at great depths and dense soils with the maximum penetration of the plate into the soil, the hydraulic pump cannot carry out the erosion of a thick layer of soil with mollusks, and as a result, the bag is quickly filled with soil, thereby reducing the effectiveness of fishing. The weak link in the construction of the dredge is the scheme for attaching additional runners to the dredge. During towing, they can cling to various objects protruding above the ground (ropes, pieces of delhi, traps and other debris of anthropogenic origin), which can lead to damage or overturning of the dredge. In addition, this device can produce hydrobionts only from specialized vessels equipped with a powerful hydraulic pump with high performance and a winch for marking and selecting a hose with a diameter of about 0.2 m, a length of about 100 m and withstanding a pressure of at least 6-7 atmospheres.

Known dredge for fishing burrowing mollusks, which consists of a rectangular frame to which a comb is attached in the form of a cascade with a different number of teeth on each cascade, while all the teeth have the same, not adjustable depth of penetration into the ground during operation (htnp: // www .uspto.gov / web / patents / classification / uspc037defs037.htm). The first cascade has the smallest number of teeth, and the fourth has the largest. A layer of soil along with mollusks, passing through a cascade comb, undergoes destruction and in a loosened state passes into a bag, where it accumulates. The bag is attached to the trailing edge of the rectangular frame and to two metal posts that are welded to the frame.

The disadvantage of this device is that it has a large-sized comb design, and with significant digging of the comb into the ground, it will not be able to destroy the resulting thick layer, due to the fact that the height of the teeth of the comb is small. The width of the storage bag is commensurate with the width of the comb and when working on aleuritic and pelitic silt, the bag will quickly fill with silt, reducing the productivity of the burying mollusk fishing. The small width of the dredge can lead to its overturn when setting, sampling and dredging.

The closest device to the claimed technical solution for the totality of essential features is dredge for fishing burrowing mollusks (a positive decision on a utility model, RF application No. 2012105763 of 04/09/12, "Universal dredge for fishing bottom and burrowing hydrobionts"). The dredge consists of a frame to which a catching device and a storage bag are attached. The frame consists of a front, rear, two opposite sides. The filling device includes rippers and combs. The teeth of the comb are equipped with knives for dividing the soil layer into separate components. Rippers have the ability to move in a glass and occupy a position in accordance with the deepening of the teeth of the comb, depending on the depth of habitat in the soil of the caught aquatic organisms.

The disadvantage of dredging is that the width of the storage bag is commensurate with the width of the catching device and when dredging is quickly filled with soil, although the soil layers were cut into separate pieces by rippers and knives during operation. This is especially noticeable when working with small vessels, on which dredges with a comb width of less than one meter are used, i.e. with a narrow bag. Often you have to get dredges on board the vessel to empty the storage bag. As a result, the efficiency of the extraction of hydrobionts is sharply reduced. In addition, such dredges easily turn over when dredging.

The objective of the invention is the creation of a universal dredge for working with small vessels fishing both bottom and burrowing mollusks and increasing the productivity of fishing by increasing the volume of the storage bag and effectively washing the soil through its meshes, as well as increasing the stability of the device during dredging.

The problem is solved in that in the known device for fishing marine aquatic organisms, containing a rectangular frame and a catching device, which consists of the sides, combs with teeth fixed to it, rippers in the form of a chisel paw, a pair of runners and a storage bag ACCORDING TO THE INVENTION made wider than the catching device, while the external protrusions of the frame to provide additional rigidity set the structure of longitudinal, transverse, vertical and oblique racks, which are welded additional runners are fastened to the frame, to the sides of the dredge and to each other, to the lower side of the longitudinal strut, the front of which is attached to the side by a rigid rod, in the middle of this design a rectangular hydrodynamic shield is made of sheet metal, which is one side welded to a vertical rack, and the other to the upper and lower sides of the frame, the drive bag is performed with a mirror mesh arrangement.

The novelty of the utility model lies in the fact that the frame is wider than the catching device, which makes it possible to increase the size of the storage bag, and facilitates the free passage of a previously loosened soil layer with entrained hydrobionts into the bag, while a structure made of longitudinal, transverse, vertical and oblique racks, which are welded to the frame, to the sides of the catching device and to each other, which prevents deformation of the frames During dredging, when filling the bag with soil and hydrobionts, additional runners are attached to the lower side of the longitudinal strut, which increase the dredge stability during dredging. The front part of the additional runners is attached to the side by a rigid rod, which during towing protects the runners from hooks for various objects protruding above the ground, which prevents damage and turning the dredge. In the middle of the structure, formed from longitudinal, transverse, vertical and oblique racks, a rectangular hydrodynamic shield made of sheet metal is installed, while it is welded on one side to the vertical strut and the other to the upper and lower sides of the frame. The hydrodynamic shield installed in this way affects the formation of the hydrodynamic field in the storage bag. Hydrodynamic vortices formed along the lateral edges of the bag contribute to the additional leaching of soil from the bag and increase the production of hydrobionts. In addition, the storage bag is made with a mirror mesh arrangement, which also gives the maximum filtration area of bottom sediments through the mesh web of the bag and helps to increase the productivity of fishing.

Figure 1 shows a dredge, a top view; figure 2 is the same with a detailed arrangement of the components of the dredge.

Dredge (Fig. 1) consists of a frame 1 to which a catching device 2 is attached, a storage bag 3 and a structure 4.

The filling device 2 is attached to the frame 1 and includes side walls 5, which are made of sheet metal of a certain thickness. Along the entire length of the lower edge of the side, the runners 6 are fixed to prevent dredging in the ground. In the side wall 5, holes 7 are made for attaching a mustache to which the fan is fastened, as well as holes 8 for attaching the comb 9 with bolts 10. To prevent the formation of a prism of drawing in front of the teeth 11 of the comb 9, rippers 12 are mounted on the transverse beams 13, between which metal glasses are placed 14 into which the ripper legs 15 are inserted.

To increase the stability of the dredge to the protruding parts of the frame 1, a structure 4 is mounted, which consists of longitudinal 16, transverse 17, vertical 18 racks, which are welded to the frame 1, to the side walls 5 of the catching device 2 and to each other 16, 17, 18. For to give additional rigidity, the design is equipped with a piece of metal pipe 19, which is fastened on one side to the upper connection of the longitudinal, transverse, vertical columns 16, 17, 18, and the other to the side wall 5. Additional runners 20 are attached to the lower longitudinal column 16. The steel bar 21, which during dredging additionally protects the runners 20 from the hooks and facilitates their passage through obstacles on the ground, is attached with one part to the upper part of the runners 20 and the other to the side walls 5 of the catching device. Inside the structure 4, hydrodynamic shields 22 are installed, which are made of sheet iron. The front part of the shield is welded to the vertical stand 18, and the back to the upper and lower parts of the frame 1. The storage bag 3 is made with a mirror mesh and is attached to the rear of the frame 1 in the usual way.

Dredge works as follows.

Using the towing warp, passed through the warrior block and the holes 7 in the side wall, the dredge is lowered from the deck of the vessel along the slip. Moving in low speed, and pickling the fan, the dredge is lowered to the ground. When towing dredges, runners 6, 20 slide on the ground. To catch hydrobionts lying on the ground (sea urchin, sea cucumber, scallop, etc.), the catching device 2, consisting of a cultivator 12 and combs 9, rises to the extreme upper positions, and they slide along the ground at the level of runners 6, 20 passing under hydrobionts, passing them through itself into a storage bag 3.

When fishing burrowing mollusks (spizul, corbicula, cockerel, etc.), cultivators 12 and comb 9 are installed in such a way that they dig into the ground to the depth of the mollusks in the ground and cut the soil layer together with hydrobionts. Further, the soil layer is picked up by comb 9, divided into separate parts by teeth 11, partially sifted between the teeth, and the remaining soil, together with the catch, gets into the net storage bag 3. During towing, due to the work of hydrodynamic shields 22 installed under a certain angle to the water flow, there is an increase in the water flow rate from the outer side of the side walls 5 and the formation of hydrodynamic vortices along the side layers of the storage bag. This contributes to additional erosion of the soil entering the storage bag together with the hydrobionts, and to an increase in the intensity of soil washing through the mesh of the bag. The mirror arrangement of the mesh of the storage bag also contributes to a more intensive leaching of soil from the bag. All this helps to increase the effectiveness of fishing of marine hydrobionts. Shellfish and large fractions of the soil accumulate in the net bag-drive. Depending on the size of the objects being caught, the selective mesh size in the storage bag is selected.

Lifting dredges and catching are carried out in the usual way. On deck, the catch is sorted, and the dredge prepares for the next setting.

The proposed dredge allows fishing for mollusks at various depths, both on loose and dense soils and to catch hydrobionts both lying on the ground and buried in the ground.

Claims (1)

A universal dredge for fishing marine aquatic organisms, containing a rectangular frame and a catching device, consisting of sides, combs with teeth fixed to it, rippers in the form of a chisel paw, a pair of runners and a storage bag, characterized in that the frame is wider than the catching device, at the same time, a structure of longitudinal, transverse, vertical and oblique racks that are welded to the frame, to the sides of the dredge and to each other is installed to the outer protrusions of the frame to give additional rigidity y, additional runners are attached to the lower side of the longitudinal strut, the front part of which is attached to the side by a rigid rod, in the middle of this design a rectangular hydrodynamic shield made of sheet metal is installed, which is welded to the vertical strut on one side and the upper and lower ones on the other side of the frame, and the storage bag is performed with a mirror mesh arrangement.