SU608936A1 - Arrangement for underwater winning of silt-like matter - Google Patents

Description

one

The invention relates to devices for the subsea production of a sludge-like substance of semi-liquid consistency. The preferred use of the invention is the recovery of therapeutic mud from the bottom of the reservoirs.

A device for extracting minerals from under water is known, for example, a dredger containing a floating platform and a scoop with a jet pump 1 installed in it.

A disadvantage of the known device is the mixing of the produced sludge with the surrounding water.

The closest to the described invention in technical essence to the achieved result is a device including a floating pontoon, a storage tank and a vacuum pump with a hydraulic suction nozzle, with the input suction nozzle of the hydraulic suction nozzle 2.

A disadvantage of this device is the contamination of the eluous substance collected from the bottom of the reservoir by foreign impurities.

The invention is based on the elimination of contaminants collected from the bottom of the reservoir of sludge-like substance by impurities, mainly in the extraction of therapeutic mud.

This is achieved by the fact that the hydro-aspirating nozzle is provided with a support, made in the form of a flattened ski, connected to the floating pontoon by means of a hinge rod.

FIG. 1 shows the device in operation, a general view; in fig. 2 - the working body of the device.

On the vessel 1, a storage tank 2 is installed, to the upper part of which a vacuum pump 4 is connected through a shut-off valve 3 and a shut-off valve 5 with free flanges for supplying compressed air when unloading the storage tank 2 is connected.

storage tank 2 is slightly lower than the outlet to the vacuum pump 4 a level sensor 6 is installed, for example, in the form of two electrodes closed through a silt, giving a command to stop the vacuum pump 4.

To the opposite end of the storage tank 2 is connected through a shut-off valve 7 and a flexible hose 8, the working part of the device in the form of a hydraulic suction nozzle 9 mounted on the bottom behind the stern of the vessel, mounted on a support 10 made in the form of an integrated ski, pivotally suspended from the stern of the vessel ge 11. With the crossbar 12, the end of the cable 13 of the electric winch 14 installed on the vessel, which serves to

lift the ski 10 out of the water to the non-working (transport) position. In this case, the inlet section 15 of the hydraulic suction nozzle 9 is located below the support surface 16 of the ski 10, is surrounded by this surface for at least some minimum distance (0.2-0.5 m) on all sides and is open in the downward and forward direction. skis 10. This cut is all filled in with a metal grid with a cell size of about 10 mm (not shown in the drawing) in order to avoid 8 large foreign bodies to be inserted into the hose. An upstream conduit 17 is connected to the lowest part of the reservoir 2, terminating with a stop valve 18 with a free flange for connecting the receiving pipeline from the shore when unloading the tank.

The device works as follows.

The vessel carrying the water above (transport position) by ski 10 is sent to the production area. At the same time, the shut-off valves 5, 7 and 18 are closed, the reservoir 2 is sealed, the gate valve 3 is open, connecting it with the vacuum pump 4. The latter is switched on and sucks air out of the reservoir 2 for some time. Bringing the vessel to the sludge field, ski 10 is deflected to the ground using an electric winch 14. When a sufficient vacuum (60-70%) is reached in storage tank 2, the vessel moves forward at a low speed (2-3 km / h). Ski 10 begins to slide along the surface of the collection, adjusting to its terrain. The keel (corresponding to the ship) swing of the ski 10 required for this is provided by its hinged attachment to t 11, and the side swing by the elastic deformations of parts of this lever. The hydraulic suction nozzle 9 is immersed in sludge, the counter flow of which soon fills it and part of the flexible hose 8 and continues to flow onto the inlet section 15 of the hydraulic suction nozzle 9 with some pressure. At this moment, the shut-off valve 7 is opened, and the sludge begins to be sucked into the storage tank 2 due to the presence of a vacuum therein maintained as the storage tank 2 is filled, continuing the operation of the vacuum pump 4. At the same time, the sludge flow incident on the inlet section 15 the hydraulic suction nozzle 9 exceeds (due to the appropriately selected vessel speed and the input slice area 15) the amount of sludge per unit of time, which is sucked out through the hose 8 from the hydraulic suction nozzle 9, which is approximately constant Ichin dostngaemogo in the reservoir tank 2

vacuum, total suction height and viscous resistance of sludge as it moves on hose 8 and so on. The inlet section 15 of the hydraulic suction nozzle 9 remains constantly surrounded by silt during the suction process,

which eliminates leakage together with the extracted silt of the surface part of the sediments, as well as the surrounding water.

Claims (2)

Invention Formula A device for underwater mining of a sludge-like substance, including a floating pontoon, a storage tank, a vacuum pump with a hydraulic suction nozzle, characterized in that, in order to prevent contaminants from collecting the silt-like substance from the bottom of the reservoir, it is mainly used for the treatment of therapeutic dirt, Hydro-suction the nozzle is provided with a support, made in the form of a flattened ski, connected to a floating pontoon by means of a hinge rod. Sources of information taken into account in the examination 1. Japanese patent number 43-6497, cl. 88 F And pub. 1968. 2. Japan patent No. 47-27379, cl. 88 F 114, published. 1972.