SU761352A1 - Oceanographic surface buoy - Google Patents

Description

The invention relates to the field of oceanography, in particular to the surface oceanographic buoys.

A surface oceanographic buoy is known, which includes a cylindrical instrument container made with positive buoyancy and equipped with a stabilizer load, as well as buoyancy with a through hole, the instrumental container containing wave sensors placed in a through buoyancy hole and connected with the latter by means of the latter [1].

A disadvantage of the known surface oceanographic buoy is the low reliability in operation.

The purpose of the invention is to improve the reliability of the operation of the surface oceanographic buoy.

This goal is achieved by the fact that buoyancy is made in the form of a group of float segments in terms of which form a torus between them, and flexible connections are made in the form of elastic tubes attached at one of their ends to the upper and lower parts of the instrument container, and the floats segment in terms of by means of elastic pads, and are connected to other ends of flexible elastic tubes, while the pressure sensors contain pressure seals, co2

strapped with flexible elastic tubes, and an electrically conductive fluid located in the latter and connected by electrical circuits through the pressure seals with the instrument container.

FIG. Figure 1 shows a general view of the surface oceanographic buoy in a section; in fig. 2 - top view of the buoy; in fig. 3 - section of the elastic tube with fasteners; in fig. 4 - position of the buoy on the wave.

Surface oceanographic buoy consists of instrument container 1, designed to accommodate measuring equipment. The container is cylindrical, inside it has a rack 2 for instruments, on top - a base 3 for the antenna and for meteorological sensors. Bottom of the instrument container 1 is attached cargo-ballast 4, horizontal and vertical stabilizers 5 and 6, as well as a bracket 7 for connecting the buoy to the anchor line. The container as a whole has a positive buoyancy and is placed in the buoyancy hole “a”, which is made of a group of float segments segment-8 in terms of which form a torus among themselves and are connected with each other through elastic pads 9 with bolts 10. Torus represents unstabilized buoyancy. To ne3

A special cassette 11 is fixed below, in cells 12 of which there can be separate buoy equipment, for example, a cable. 13, batteries, etc. According to the outer diameter of the torus, a fender 14 is fixed, segment-shaped floats 8 are connected to the instrument container 1 by means of elastic tubes 15 filled with an electrically conductive liquid

16. Elastic tubes 15 are attached to the upper and lower parts of the instrument container 1. For fixing the tubes have on both sides of the earrings 17 and 18 and brackets 19. The inner channels of the earrings are insulated 20 and 21. The tubes are wave sensors and their pressure leads 22 are connected to measuring circuit.

Surface oceanographic buoy works as follows.

Using sensors suspended from the anchor line and installed above the instrument container 1, various hydrometeorological parameters are recorded.

The data from the sensors are recorded and accumulated by the equipment located in the instrument container 1. The accumulated information is transmitted at a specified time by radio to the appropriate reception points.

Together with other parameters, the buoy measures the excitement. The wave, acting on an unstabilized torus formed by floats segment-in-plan 8, tilts it by an angle β. At the same time, one part of the elastic tubes 15 is stretched, and the other is reduced (at the buoy exhibition, the tubes 15 have a certain tension, which ensures their work both in tension and in compression, and the electrical resistance is calibrated). The change in the length of the elastic tubes 15 causes a change in electrical resistance761352

of the conductive liquid in them 16. The magnitudes of these resistances, proportional to the amplitudes of the waves, are recorded together with other parameters.

Due to the presence of unstabilized toroidal buoyancy of the tracking wave, the instrument container 1 experiences minor disturbances (angle a C of angle β).

Claims (1)

Claim A surface oceanographic buoy comprising a cylindrical instrument container, made with positive buoyancy and equipped with a stabilizer load, as well as buoyancy with a through hole, the instrumental container containing wave sensors placed in a through buoyancy hole and characterized by the fact that , in order to improve reliability in operation, the buoyancy is made in the form of a group of floats, which are segment in terms of plan, forming a torus between them, and the flexible connections are made in the form of el static tubes attached to one of their ends to the upper and lower parts of the instrument container, the floats segment in terms of which are interconnected by means of elastic gaskets and connected to the other ends of the flexible elastic tubes, while the pressure sensors contain pressure seals connected to flexible elastic tubes, and an electrically conductive fluid located in the latter and connected by electrical circuits through the pressure leads to the instrument container.