SU1687186A1 - Trawl beam - Google Patents

Abstract

The invention relates to industrial fisheries, in particular to distribution devices of bottom and depth trawls. The purpose of the invention is to improve the reliability and improvement of the hydrodynamic properties of the trawl board by means of the possibility of self-regulation of the shear force in Shea. The invention relates to industrial fishing, in particular to the bottom trawl switchgear, in particular to the trawl board. The purpose of the invention is to increase the reliability and improve the hydrodynamic properties due to the possibility of self-regulation of the thrust force over wide limits in the process of trawling. FIG. 1 shows the ramming of the trawl board, general view; in fig. 2 shows section A-A in FIG. one; in fig. 3 - section B-B in FIG. one; in fig. 4 - trailing board with a rectangular profile with a rectangular profile of the working plane when operating at low speeds and shallow depths; in fig. 5 - the same, blunt limits in the process of trawling. The spreading board contains a support, a flexible plane and carrier cables. The support is made in the form of a rigid, segment-shaped holder, formed by upper, lower and side guides of the stops. The working bend is freely installed in the holder, assembled from separate vertical plates. There are two rows of holes in the plates, into which the carrier cable is threaded. The inlet and outlet ends of the cable are spring-loaded by means of springs mounted on them and fixed support washers. The plates of the working section have the same shape and size, made of an elastic material, mainly an elastomer, with the possibility of changing the profile of the working plane from straight to spherical with a self-regulating deflection boom depending on the pressure on the plane of the counter-flow of water. 1 hp f-ly. 8 il. with a spherical profile of the working plane when operating at high trawling speeds; in fig. 6 shows the trawl board spreading, general view. When operating at shallow depths and high trawling speeds, FIG. 7 is a section bb of FIG. 6; in fig. 8 - section G-Y in FIG. 6. The trawl board has a rigid metal (support) frame, made in the form of a segment cage 1, with vertical restraints 2 and 3 and a horizontal, 4 limiter 4 cage 1 freely installed working surface - plane 5, assembled from flexible plates 6 with the upper and lower rows of holes 7, through which the carrier carries the clamping (/ С о со vi oo

Description

cable 8. The ends of the cable 8 are connected to the Yutral cables by means of rings 9. On the horizontal stopper 4, trawl arches 11 are rotatably mounted on their axes to connect with the warps of the fishing vessel.

The segmented yoke 1 with the vertical stops 2-3 and the horizontal stop 4 on the front side of the trawl board has a straight shape, and on the back side it has a curvilinear, spherical shape.

Vertical stops 2 and 3 are intended to limit the movement of the working plane 5 in the vertical direction. The upper vertical stop 2 is made in the form of a segment box-shaped cover, the bottom stop 3 is in the form of a segment shelf. The horizontal limiter4 is made in the form of a container having a spherical box-like shape on the back side of the trawl board and straight shelves on the front side of the trawl board.

The vertical stops 2-3 and the horizontal stop 4 are rigidly connected to the vertical guide posts 12 of the frame 1.

Horizontal resilient restraint 4 is intended to limit the deflection of the elastic plane 5 in the horizontal direction.

The yoke 1, together with its vertical guide posts 12, the vertical and horizontal supports 2, 3 and 4, is intended to form and accommodate an elastic working plane 5, the working plane 5 is made up of individual identical in size and shape, for example, straight, plates 6 made of elastic resilient material, organoplastics with the incorporation of superal yarns, a two-layer fabric coated with polyurethane, or an elastomer capable of reversibly deforming, i.e. resize under load and restore them when it is removed. The working plane 5 is designed to perceive the main thrust load during trawling, with the possibility of changing its shape from linear to spherical depending on the depth and speed of trawling and self-regulation of the resultant and balancing forces.

The plates 6 are formed into the working plane 5 by means of a fixed cable 8. The latter is threaded through the upper row of holes in the uprights 12 and the plates 6, then through the lower row of the corresponding holes 7 and the uprights 12. At the entrance and exit of the tight cable

8 springs 13 are loosely worn on it and fixed support washers 14 are fixed on the cable. Thus, a flexible and elastic working plane of the expansion trawl is formed

the boards.

Plates 6, from which the working plane 5 is assembled, may have another shape in longitudinal section depending on the material from which they are made. With

0, the insufficient elasticity of the material, the bending part of the working plane 5, can be thinned, and the top and bottom of the plates 5, in which the holes for the clamped cable 8 are made, can be thickened.

5 To the lower side of the shelf of the lower vertical limiter 3, the keel 15 of the trawl board is fixed and rigidly attached. The fin 15 is made in the form of rectangular box-shaped slides with rounded ends and is loaded with ballast.

The trawl board works as follows.

When setting the trawl at shallow depths, when at the same time the grass is wafer in

5 water, the trawl speed is negligible. The working plane 5 of the trawl board at this time has the usual straight line shape. Plates 6 are pressed to each other by the action of springs 13. The Tralov Board

0 with the rectilinear working plane 5 steadily goes along the ground without creating a large expansion force (Fig. 1-3).

When the waer has been etched to a sufficient length and the trawl hoist is stopped, the fishing vessel picks up speed and the trawl boards disperse to the sides. As the trawling speed increases, the pressure on the working plane 5 of the trawl is increased.

0 boards, the elastic plates 6 of which begin to bend in the vertical and horizontal directions, simultaneously pull the cable 8, compressing the spring 13. The deflection of each plate 6 and the whole

5, the working plane 5 occurs along the profile of the limiters 2 4 and the guides of the side pillars 12 of the frame cage 1. At the same time there are no gaps between the plates 6, they remain tightly pressed one to the other under the influence of the tension cable 8, which receives a lot of tension from the aggregate trawl resistance. In addition, the plates 6 and the entire working plane 5 in the bent state do not extend beyond the precursors of the frame case 1, their deflection in the horizontal direction is limited by the horizontal horizontal limiter 4, and the formation of slots between the case 1 and the plane 5 is prevented by box-shaped guides the shelves of the vertical limiter 2 and the side racks 12. Thus, at high trawling speeds, the working elastic plane 5 changes its shape from a direct flow into a spherical one, from a straight line into a spherical elichiva useful area and force the spacer otter board without substantially changing the load on the power unit of the fishing vessel. An increased horizontal sweep of trawl boards increases the opening of the trawl and its catchability. The different values of the deflection of the working plane 5 at different trawling speeds made it possible to vary widely with the spacer force of the trawl planks (Fig. 4-8).

As the speed of trawling decreases, the pressure of the oncoming flow of water onto the working elastic plane 5 decreases, and its deflection boom decreases. At low trawling speeds and when hauling a trawl under the influence of springs 13, the working plane 5 assumes the original rectilinear shape, and the trawl board stably runs along the ground.

The essence of the invention lies in the possibility of changing the spreading force of the trawl board in the process of trawling and ensuring its stable position when trawling at shallow depths and low speeds.

The invention provides an increase in fishing efficiency by self-adjusting the thrust force of the trawl board when the trawling speed changes; increasing the horizontal opening of the trawl by improving the hydrodynamic quality of the trawl board as the ratio of its spreading force to coefficient, drag without increasing its area and drag without increasing the load on the propulsion unit of the fishing vessel; ensuring the stability of the motion along the ground of the trawl board at shallow depths and at low speeds of trawling, especially when setting and hauling a trawl.

As shown by model tests of the proposed spacing trawl board at working angles of attack of 30-35 °, the calculated value of the drag coefficient, the distance force factor, the hydrodynamic quality varies from, respectively, from 0.6; 0.9; 0.67 (as for rectangular panel bottom boards) up to 1.35; 0.75; 1.8 (as for spherical bottom do-ok).

The calculated pressure center as the point of application of the resultant hydrodynamic pressure forces was defined as for rectangular panel boards. The calculated elongation of the board was also determined in the same way, which is taken within 0.5-0.75 (for the layout is taken 0.6). The calculated values are taken from the equilibrium and stability conditions of the rectangular trawling plank along the ground at shallow depths and low speeds of trawling, when the boards are most likely to turn over (tilting).

With increasing trawling speed,

when the working plane of the trawl board adopts a spherical profile, the balance of the spacer boards and their stable position self-regulate in accordance with the action along one line

resultant and balancing forces. The resultant force consists of the total hydrodynamic pressure at the center of pressure and tension from the drag of the trawl and cables on one side of the trawl, which is applied at the entry and exit points of the cable 8 in the racks 12 of the frame frame 1 of the trawl board, and the tension is balanced trawl warp

11. This balancing force is directed in the opposite direction and is equal to the resultant force.

Claims (2)

1. A trawl board with a support, a flexible resilient and working surface, carrying cables, characterized in that, in order to increase reliability and improve hydrodynamic properties due to the possibility of self-adjustment of the thrust force over wide limits, the working surface is made in the process of trawling as a set of separate vertical plates with two rows of holes into which the carrier cable is threaded, and loosely installed in the support, which is a rigid segment-shaped holder with upper, lower and side stops 2. The trail board according to claim 1, is distinguished by the fact that the plates of the working surface have the same shape and dimensions and are made primarily of an elastomer with the possibility of self-regulation of the resultant and balancing forces one but I ABOUT) with -J 00 O5  P 15 five Fig.b 14 Schi 5 ABOUT Dos i t g 1 / eight ggi ± J Vj