SU973729A1 - Floating installation for excavating soil from basin bottom - Google Patents

Description

one

The invention relates to hydromechanization intended for the development of soils in underwater fences.

A known floating installation for mining rock from the seabed, comprising a hold divided into pulp receiving compartments, a pumping unit in the form of a centrifugal ground pump and a suction pipe of a groundwater assembly with a suction tip.

The slurry pump is sucked into the bottom of the sea, rises through the suction pipe, passes through the soil pump, and is clarified. The moistened soil is placed in the pulp receiving compartments, and clarified / water is utilized to loosen the soil m 1.

The disadvantage of this device is the low efficiency of extraction of soil from the bottom of a deep reservoir due to the use of an underground pump. With large depths of extraction of soil

The suction capacity of the soil pump is used incompletely, and the pressure pump is not used at all, since no pulp is dispensed from the pump (hold is near the pump). In addition, the working parts of a submersible pump are subject to intense abrasive wear.

A well-known floating installation for extraction of soil from the bottom of a reservoir, including a hold with soil receiving compartments, a sealed pulp-receiving compartment placed in vertical guides that can be moved into them, and a suction pipe placed at the lower end of the vertical guides.

The disadvantage of this device is its incomplete use,

20, in particular, does not use the energy of the air displaced from the volume of the pulp-receiver compartment during the filling of the compartment with pulp. The purpose of the invention is to increase the efficiency of soil extraction by using the energy of the air contained in the volume of the pulp-receiving compartment. This goal is achieved by the fact that a floating installation for extracting soil from the bottom of a reservoir, including a hold with soil receiving compartments, a pool for receiving tanks with a hermetic lid and a suction pipe, is placed in vertical guides with the possibility of moving into them, and installed a pipe installed at the lower end of the vertical guides, it is provided with an additional soil-receiving compartment and a suction pipe installed parallel to the main one, and the air exhaust pipe is installed with the ability to interact with additional An additional suction pipe through an airlift chamber, with the main and additional soil-supporting compartments located on both sides of the vertical rails. The drawing shows the installation, side view. The device consists of a hold 1 divided into ground receiving compartments 2; vertical guides 3 with a pulp-receiving tank with a hermetic lid placed in them 5 The pulpo-receiving tank k is connected with a lifting winch 6 by a pulley and equipped with rollers 7-. In the lid 5 of the tank C, an exhaust pipe 8 is installed with a bell-shaped tip 9 and a shut-off valve 10. The bottom of the tank k is equipped with a shut-off valve 11 and a bell-shaped tip 12. At the bottom of the guides 3 there is a suction pipe 13 with a crown 1 with a conical nozzle 15 on the other end facing the bell-shaped tip 9. The hold 1 is provided with an additional pool in the receiving compartment 16. The compartment 16 is equipped with a pulp-suction pipe 17 with a tip 18 and an air-lift chamber 19 placed above the bore-mounted pulp-receiving position aka k (its lower position in the drawing). A tube with a conical tip 20 is attached to the airlift chamber. The device is equipped with a pulp-distribution tray 21 installed above compartments-2, with partition walls 22 and drain pipes 23 with valves 2k. A rotary bucket 25 is mounted over the pulp-distribution tray 2U and connected with a hinge 26 to vertical guides 3. Position 27 denotes the soil at the bottom of the reservoir, 28 is the water level in the reservoir, I - the upper position of the tank being moved C, I | the lower position of the tank U. The device operates as follows. Pulp-receiver tank C with closed valves 10 and 11 are lowered by a winch 6 under water in the lower position II. In this case, the bell-shaped tip 12 is joined to the conical nozzle 15, and the bell-shaped tip 9 - to the conical tip 20. The suction pipe 13 and the pulp-suction pipe 17 are lowered onto the ground so that the tips} k and 18 touch the ground 27. Open valves 10 and 11. Water from the water area the bottom comes to the tip. Water 27 flowing to tip k of water is eroded, carried away to tip 14, pipe 13 and enters tank C, The air displaced from sealed tank k enters air outlet chamber 8 from hermetic tank k and from there into a pulp suction pipe 17 filled with water. Airlift rise of water in pipe 17 begins, water flows from the water area to pipe 17. Water jets flowing into tip 18 erode soil 27 and entrain it into tip 18, then into pipe 17, and from Nev Pulp-receiver compartment 16. Papilloniru with tips and 18, the development of soil 27 is carried out until the entire volume of tank k is filled with pulp. When the tank k is filled with the pulp k, valves 10 and 11 are closed. Using a winch 6, they raise the tank k up to position I. The turning bucket 25 is brought under the socket tip 12 and the valves 10 and 11 are opened. The pulp is discharged into the bucket 25, from the bucket to the pulp distribution tray 21 from where through drain pipes 23 into compartments 2 of hold 1. Dividers 22 and gate valves 2k are designed to regulate pulp spill in compartments 2. After draining the pulp, valves 10 and 11 are closed and the bucket swings out

25 and lower the tank to the lower position II. The cycle is repeated.

After the separation of the pulp from compartments 2 and 16, when the ground is deposited, the clarified water is drained and the volume freed from the water is filled with pulp.

The proposed device allows the development of a soil without a ground pump, without parts rotating in a hydroabrasive environment. In this case, the energy of the air displaced from the pulp-receiving tank is used for the development and supply of soil into the hold.

The implementation of the invention improves the efficiency of soil extraction.

Claims (2)

1.US Patent V 053U, cl. E 02 F 3/88, published. 1977. 2. USSR author's certificate number 796327, cl. E 02 F 3/92, 1979 (prototype).