RU93216U1 - STEVE SEVET - Google Patents

Abstract

 A fixed net, including a guiding wing, a courtyard with openings, a lifting road and a cage, equipped with distributed buoyancy along the upper selection, anchored to the ground with anchors by means of inclined braces, characterized in that the braces in the upper part are equipped with distributed buoyancy in the form of welds, with the last weld in distributed buoyancy fastened by a line.

Description

The utility model relates to the field of industrial fishing and can be used to catch herring, salmon and other fish species living in the coastal zone.

Fixed nets refer to stationary fishing devices of large sizes and are located near the coast. Due to storms, unrest and currents, elements of fixed nets are exposed to loads that lead to their unplanned destruction and entail a reduction in catchability, in some cases loss of catch and fixed nets.

A well-known fixed net containing: a courtyard with openings, a lifting road, a cage and a directing wing that are equipped with distributed buoyancy along the upper selection, flexible braces, the lower parts of which are fixed on the ground, and the upper part is equipped with buoyancy (Kalinovsky BC Design and calculation of stationary fishing gear. Vladivostok: Dalrybvtuz, 1986 .-- 45 p.).

The buoyancy of a known fixed net is calculated taking into account the fact that when a current velocity reaches a certain value during a storm, the net is flooded. As a result, the load on the elements of the net is reduced, and it does not collapse.

However, wind waves, especially in closed bays, do not always lead to an increase in the flow and achievement of values that contribute to the warming of the net, which leads to the destruction of its elements, and it becomes inoperative. This is a disadvantage of the known technical solution.

During storms, the rate of change of the current becomes very fast and such a net does not have time to sink, acquiring a large degree of freedom, which leads to the appearance of dynamic wave loads for which the elements of the net are not designed. To exclude such a situation in the field, the net is partially removed (mainly the trap and part of the wing) and established after the storm, resulting in a large loss of working time, which is a disadvantage of the known technical solution.

The closest to the achieved result to the claimed technical solution is a fixed net, which includes a guide wing, a courtyard with openings, a lifting road, a cage, an external frame equipped with variable buoyancy units, a wave compressor with a receiver and a hose connected to variable buoyancy units (Patent RU 2138161 )

A disadvantage of the known device is the high cost of the variable buoyancy system, its installation, commissioning and maintenance in working condition during fishing time. This is due to the fact that the net is made of materials that are drawn during operation, as a result of which the hoses attached to the structural elements of the net are subjected to additional loads that can destroy these hoses, and the integrity of the entire variable buoyancy system is violated and the net becomes inoperative.

The objective of the claimed utility model is to increase the storm resistance of the fixed net and expand the range of flow rates at which its operability is maintained.

This is achieved by the use of distributed buoyancy, made in the form of deposits, on the braces of the fixed net, while it is calculated for self-flooding at a given flow rate.

Figure 1 shows the device in operating position, General view, top view; figure 2 is a General view of the device during a storm, side view.

The fixed net consists of a guide wing 1, yard 2 with openings 3, a lifting road 4, a cage 5, an external frame 6. According to the top selection, yard 2, openers 3, a road 4, a cage 5 and an external frame 6 are equipped with uniformly distributed buoyancy in the form of overlay 7 The net is attached to the ground by dead anchors 8 by means of inclined guy wires 9 with distributed buoyancy in the form of overburden 10, at the end of the distributed buoyancy the last surfacing is fastened with a line 11.

The device operates as follows.

During the passage of the wave profile at the installation site of the fixed net, the distributed floating buoyancy 10 is involved in the lifting process, while the dynamic load created by the lifting force of the surfacing at the top of the wave and the adjacent surfacings does not destroy the design of the net. In case of exceeding the critical current, the net is flooded.

In the case of a storm approach, the last deposit in the distributed buoyancy 10 is disconnected from each guy 9 and is fixed on it by line 11, this allows the net to self-flood at an average current velocity. After passing the typhoon, the net takes its working position and, starting from wing 1, the last deposit in the distributed buoyancy 10 is connected to each guy 9.

Claims (1)

A fixed net, including a guiding wing, a courtyard with openings, a lifting road and a cage, equipped with distributed buoyancy along the upper selection, anchored to the ground with anchors by means of inclined braces, characterized in that the braces in the upper part are equipped with distributed buoyancy in the form of welds, while the last weld in distributed buoyancy fastened by a line.