RU93020002A - METHOD FOR EXTRACTION OF IRON MAGONGANE CONCRETIONS FROM THE BOTTOM OF THE OCEAN AND DEVICE FOR ITS IMPLEMENTATION - Google Patents

Claims (1)

The invention relates to the field of drive mining and relates to the issue of mining of ferromanganese nodules (FMC) from the ocean floor. The invention is directed to solving a technical problem related to the expansion of the possibility of mining at large (exceeding 1000 meters or more) depths, increasing the profitability of industrial mining of FMC from the ocean floor and improving the ecology of the surrounding water area where these minerals are being mined. To this end, in the process of mining, iron ore is separated from bottom sediments under water directly on the ocean floor by separating pulp, which is preliminarily formed by washing out bottom sediments containing ferromanganese nodules with water streams, and separating ferromanganese concretions up to the carrier vessel . In the device for extracting iron ore from the ocean floor, including a carrier vessel, a collection of bottom sediments with nodules, equipped with a suction pump with a branch pipe, a lift and a pipeline, the collection of bottom sediments is made up of a self-propelled, autonomously controlled chassis separating ferromanganese nodules from bottom sediments formed by at least one pipe with an opening cut out in its lower part communicated with the suction inlet and with the suction pump. The collection has a container assembly ZMK located under the separator, and the collection lifting device is located on the collection container, connected to it and made in the form of a hollow nacelle integrated with the cavity of the collection conveyor, in the upper part of which the chamber-capacity is fenced off with an elastic flexible partition filled with a reagent, such as hydrosin, having a pumping unit and connected by pipeline to a catalytic gas generation reactor, communicated through a shut-off valve device with a combined cavity gondola and container collection. The collection container at the base has the shape of an inverted cone, in the lower part of which there is a discharge port with a lid, and is equipped with a drain pipe with a non-return valve and a load sensor electrically connected to the reagent chamber pump installation, with a suction pump and high-pressure pump. The FMC collection is also equipped with an autonomous power plant, for example, an atomic, propulsion and steering complex, for example, in the form of rotary angle columns for movement and maneuvering of the chassis, program controls, a radio echolocation sensor for the orientation of the bottom sediments collection and bottom topography, connected to program control bodies, a sensor speed, coupled with the organs of movement and control of the chassis, and tanks of zero buoyancy of the collection. At the same time, a pressure sensor on the ground electrically connected to the reagent chamber pump installation, a high pressure pump and chassis movement organs is installed on the chassis, the suction pump pipe has an exhaust pipe, and the suction pipe is equipped with flushing nozzles placed around its receiving opening and communicated pipelines with a high-pressure pump, the tips of the suction and discharge nozzles are located no higher than the level of the non-return valve of the drain pipe gadfly container collection.