SU988645A1 - Oceanography buoy - Google Patents

Description

segments of curved elastic rods attached rigidly with their ends to radially located tam and to the outer and inner rings of the sectors of the said frame and forming a convex lattice between them, one part of the elastic rods of the lattice being radially relative to the said rings, another part of the elastic rods perpendicular to the axis of symmetry of each of the mentioned sectors of the frame, the lattices of the upper and lower frames are facing. Convexes are FRIEND to each other, and the cylindrical sockets of the outer ring of each frame are conjugated a spherical shape floats.

Figure 1 shows an oceanographic buoy, section;; in Figure 2, the base of the bu, top view.

The oceanographic buoy includes the upper 1 and lower 2 bases, a cylindrical instrument container or rod 3, made in the form of a pipe to which the root line 4 is attached, holding the buoy at a given point: the point of the ocean polygon. Base 3 and base 1 and 2 are attached to the rod 3, which are additionally mounted to each other with vertical fasteners (not shown). On the periphery of the bases, several rows of rings 5 with cylinders-sockets b of the additional mounting unit floats 7. Between the rings 5, matching the cylinders 6, the above-mentioned floats 7 are spherical in shape, forming the outer surface of the bu. Between the rod 3 and the outer surface of the bu are also floats 7.

The bases 1 and 2 have coaxially located in the plane flange 8 with ribs 9, rings 5 and 10. Flange 8 is rigidly connected to the inner ring 10, which is also rigidly connected to the outer ring 5 by means of, for example, four radially arranged r g 11, forming an annular frame In the four sectors d of the frame, formed by radial thrusts 11, segments of curved elastic, for example, steel bars 12 and 13 are installed. The magnitude of curvature of segments of steel bars lies within their elasticity.

Some sections of rods are installed in each sector Q of the frame in the radial direction and rigidly fixed (for example, welded to the inner 10 and outer 5 rings, and the other part of the segments of rods 13 are installed in each sector O perpendicular to its axis of symmetry and rigidly attached to radial tam 11 and ring 5, forming a lattice in squares in the bases.

The lattices of the base frames 1 and 2, formed by segments of the rods 12 and 13, are rigidly connected in nodes. The frames of the bases 1 and 2 are fixed to the rod 3 in such a way that the convexity of the lattice of the frame of the upper base 1 is 5 straight and the lower base upwards, i.e. the grids of rods 12 and 13 are convex to each other.

The stiffness of the bases (and, consequently, the bu obtained due to the fact that in the sections of steel rods 12 and 13 exist in the cross section of the voltage, conventionally shown in Figure 1 by arrows A, which work and the opposite direction of the forces B acting on the base 1. Forces B occur when the buoyancy of floats 7 is buoyed by the base frame 1. B forces operate on the lower arm of the nov 2 force 2 under the condition that the mass of the float acts on it (for example, when the boat is lifted onto the vessel, etc.).

The stiffness of the bases (respectively, the bu is achieved due to the fact that the lattice connects the flange 8 and the rings 10 and 5, forming one whole, and the base has a dome-shaped shape that is much stiffer than the plate. The dome-shaped form of the lattice has an artificially created stress ( steel wire and its connection with rings 5 and 10, which increases the rigidity of the structure.

The advantages of the proposed bu are a decrease in the metal consumption of bu, and, accordingly, an increase in the payload of the bu, which allows placing more payload on it, for example, instruments, power supply units, etc. an increase in the rigidity of the structure, which increases the reliability of its operation in marine conditions.

Claims (1)

Invention Formula An oceanographic buoy containing a cylindrical instrument container with a fixed upper and lower bases on it, between which spherical floats are arranged, conjugated by means of vertically positioned fasteners of the fastening assembly with upper and lower bases, an additional float attachment assembly comprising the group rings with cylinders arranged coaxially with each other, one above the other, while the rings are located in planes parallel to the planes of the upper and lower bases, fastened together and with upper and lower bases, vertically arranged straps and coupled by means of cylinders with floats, characterized in that, in order to increase the payload and reduce metal consumption, the upper and lower bases each have two rings arranged in a plane that are axially the ring, while the outer ring is provided with cylindrical nests mounted on it and connected by means of radially arranged rings with a ring and a flange, forming the latter divided into sectors s ring frame, which is provided with segments of curved elastic rods, attached rigidly with their ends to the radially located tam and to inside with pic Phi1.1 of the outer and inner rings of the sectors of the said frame and forming a convex lattice between them, one part of the elastic rods of the lattice being located radially relative to the said rings, the other part of the elastic rods Perpendicular to the axis of symmetry of each upspeed sector of the frame the lattices of the upper and lower frames are convex to each other, and the cylindrical nests of the outer ring of each frame are filled with spherical floats. Information sources, . taken into account during the examination 1. USSR author's certificate W 755674, cl. B 63 B 21/52, 09L0.78 (prototype).