SU1665265A1 - Towed platform for ocean floor geological exploration - Google Patents

Abstract

The invention relates to technical means for geological surveys of the ocean floor and can be used in geological exploration, oceanological and hydrophysical works related to the sampling of bottom soil. The purpose of the invention is to increase the productivity and reliability of geological studies by targeted sampling in conjunction with telephoto profiling. The towed platform includes telephoto and sampling facilities. The platform is equipped with a number of cradles with reeling winches mounted above them, connected to samplers installed in the cradles on controlled roller grippers, each sampler made in the form of an integral ball lock of a cylindrical shell, in the slot of which a ballast bunker is mounted, The lower part has spherical priming intake flaps, and a cylindrical container with a loosely laid sling and an annular stop mated to with roller grabs. The design of the platform allows to increase the productivity of geological exploration in the study of the ocean floor. 3 hp ff, 10 ill.

Description

controlled roller grippers 8, over which the winding winches 9 are mounted. The lodgments 7 and containers 5 are fixed on the frame 10. The winding winch 9 is made in the form of a drum 11 mounted on bearings 12 on the shaft 13 in the supports 14, equipped with a spiral drive spring 15 and a ratchet the mechanism 16, the latch 17 of which has a ball stopper 18, which is in the lower position in the hole 19 and the eye 20 with the attached sling 21.

Controlled roller clamps 8 are made in the form of roller bearings 22 mounted on axles 23 in frame 24 mounted in guides 25. Frames 24 are connected by steps 26 to control electromagnetic relays 27 equipped with return springs 28. Guides 25 are mounted on the housing 29, in which a cylindrical container 30 with an annular stop of the sampler 6 is mounted for movement.

A float 31 is mounted on the cylindrical container 30, windows 32 are made to load ballast 33 into the container 34 and the upper part of the cylindrical shell 35 of the sampler 6 is fixed. In addition, a tube 36 is placed in a cylindrical container, in which holes balls 37 are placed tied to the lower part of the cylindrical shell 38 and the ring 39, on which the spring 40 is mounted. In the cylindrical shell 38 are made around the perimeter of the window 41. 43, passing through the housing 44 of the drive spring 45, gear 46, shank 47 and frame 48 connecting bevel gears 49, on which drive gears 50 are aligned with the rails 51 of the engagement. The rails 51 of the engagement are made on the shanks of 52 segments of spherical soil intake valves 53 mounted on the axes 54. The gears 49 are mounted on the axes 55. The rod 42 and the shank 47 of the shagterni 46 are connected by a ball bearing 56. The drive spring 45 has a gear crown 57 combined with. gear 58, on which is mounted the shank 59. The rod 42 is equipped with a support pad 60.

The towed platform for geological surveys of the ocean floor works as follows.

Platform 1, towed by vessel 2 above the bottom on cable-cable 3, performs telephoto profiling of the ocean floor using

telephoto equipment 4 and monitoring and control equipment placed in container 5 At points, telephoto profiles that are of interest for sampling bottom soil from vessel 2 use cable 3 to send controlled roller clamps 8 that hold sampler 6 in crates 7. When This control electromagnetic relays 27 through the thrusts 26 and the frame 24 act on the roller bearings 22, moving them in the guides 25. After that, the cylindrical container 30 with an annular abutment leaves the engagement with the roller supports 22, and obootbornik 6 having a negative buoyancy, starts moving to the bottom, releasing the cradle 7. The roller support 22 under the action of the springs 28 occupy the original position in the housing 29. The downward movement of the cop mo0 the drawing sling 21 is released from the cylindrical container 30.

When the bottom is reached, the sampler 6 touches the bottom with the support pad 60, rears the stem 42 in the frame 48, and the tube 36 comes out of engagement with the ball bearing 56 of the stem 47 of the gear 46, which, under the action of the drive spring 45, through the bevel gears 49 and the drive gears

0 of the gear 50 moves the engagement racks 51, closing the segment of the spherical soil intake flaps 53 and the bottom soil sample compartment. At this time, the balls 37, aligned with the grooves 43 of the rod 42, open up the cylindrical container 30, which by the action of the spring 40 moves the upper part of the cylindrical shell 35 relative to the lower part of the cylindrical shell 38. The loose balo ballast 33 is poured out of the container 34 through the windows 41 to compensate for the weight captured samples. The platform 1, which is moved above the bottom on the cable 3, pulls the exhaust strap 21 and removes the retainer 17 from engagement with the storage mechanism 16. The latch 17 is locked in the lower position by the ball stopper 18 entering the hole 19. Under the action of the helical drive spring 15 drum 11 sub-winch 9

0 begins to rotate on the shaft 13, winding the exhaust strap 21 and extracting the sampler 6 into the cradle 7. In this case, the cylindrical container 30 enters the body 29 and is fixed in the upper position by the controlled roller grippers 8. The sampler 6 is then fixed in dozhement 7 platforms 1. After lifting platform 1 onto the vessel, 2 samples, taken by samplers 6, are removed from them and sent for processing.

The efficiency of using the platform is to increase the reliability of geological studies of the ocean floor when performing targeted sampling in conjunction with telephoto profiling and increasing the productivity of these works.

Claims (4)

Claims 1. A towed platform for geological surveys of the ocean floor, including telephoto equipment, is such that, in order to increase the productivity and reliability of geological surveys by targeted sampling in conjunction with telephoto profiling, the platform is equipped with samplers, lodgments with controlled roller locks, slip-on winches with clamps and exhaust lines, and samplers are installed in cradles on controlled roller locks, connected by by means of suction slings with podshtemochnyh winches and equipped with a composite cylindrical shell with a ball lock, ballast hopper, segment gates with bevel gears and a drive spring, a cylindrical container with a collar stop, coupled with roller locks. 2. Platform pop. 1, characterized in that the soles are equipped with spiral drive springs and ratchet mechanisms combined with clamps, 3. Platform pop.1, characterized in that the controlled roller grippers are installed in guides and are connected by rods with control electromagnetic relays. 4. Platform pop. 1, characterized in that the segments of the spherical soil sampling flaps of the sampler are equipped with engagement rails aligned with driving gears mounted on bevel gears. /// / 7 / / 7s / 77 /// /// /// /// 1  , /  / / / FIG. 2 Fig.Z Fy 81 91 yy Nf S9Z9991 36 60 FIG. 9 FIG. ten 42