SU438759A1 - Airlift dredger - Google Patents

Description

one

The invention relates to a technique for hydromechanizing earthworks and mining minerals from underwater deposits.

In the well-known airlift-landfold, the raw materials extracted from the bottom of reservoirs are divided only into two products by the grain boundary size, and their pulp-intake organs do not have devices for removing soil during the obstructions of the airlift, as well as for buoyancy regulation ( carrying capacity) supporting swinging frame.

In addition, in well-known airlift-dredger shells, compressed gas generators are located in the surface position together with other power units, which creates a newly hygienic noise level in the surface part of the dredge and thereby worsens the working conditions of the service personnel.

The proposed airlift-dredging projectile differs from those known in that it contains a generator of working hot gases, for example, an air-turbine engine, mounted in the underwater part of the swivel frame of the Pontoon body, which has storage tanks for compressed air and a ballast compartment. storage tanks to the airlift riser pipe are interconnected by an additional pipeline equipped with valve-regulating devices, and air outlets are mounted on the rotary frame skpye devices connected to the accumulating capacitances pipes with stop valves.

The proposed airlift-suction dredger is schematically depicted in FIG. 1, a longitudinal section along its diametral plane without a rotary frame of a pulsator pickup; in fig. 2 - pulp intake organ, longitudinal section.

The compressed gases supplied from the generator set 1 through the pipeline 2 and the annular chamber 3 of the nozzle 4 fall into the slot 5 between the suction tip 6 and the lifting pipe 7 and further, lifting the latter, push the pulp into the tank 8.

During the outflow of the gas-liquid mixture from the pipeline 7 to the tank 8, the self-emission of the exhaust gas occurs, which is then directed to the atmosphere by means of the fencing shield 9 and the discharge device 10.

By moving along the closed loop of a flexible trellis tape or chain 11, large, oversized inclusions are separated from the pulp and discharged into a hopper 12.

Through the pressure pipeline 13 and the receiving diffuser pipe 14, the slurry enters the processing chamber 15 of the hydraulic classifier, in which the produced material is divided into two products according to the size of the boundary mirror. A large product under the influence of gravity is lowered down and, having passed through the neck of the classification chamber 16, enters the hopper 17, and from there it is fed to the conveyor 18 with a sluice gate. With the passage of a large product through the classification chamber 16, it is further washed with clean water supplied pump 20 driven by the engine 19.

The pulp saturated with fine product from the hydroclassification through pipeline 21 enters the centrifugal pump 22, driven by the engine 23, and then with the help of the latter through pipeline 24 is sent to its destination.

The valve 25 closes the pipeline 24 at those moments when, when the pump 22 is stopped, there is a danger of the reverse movement of the pulp flow.

The dredger of the dredger is raised and lowered by means of a troso-winch device 26 and simultaneously purging with air or pouring water into the tank of the ballast compartment 27 located in the front end of the sump frame, made in the form of a closed pontoon 28, with the formation of storage tanks in it. in them compressed air is taken periodically through the valve-regulating device 29 from the generator set. Air is introduced into the ballast compartment 27 by means of a valve control device 30, and exhaust by means of a valve 31.

The water is let in and released from the ballast compartment 27 by means of the bottom device 32.

The pipeline and valve control device 33 are used to supply compressed

the air from the accumulation tanks 28 into the riser of the airlift only when it is necessary to facilitate and speed up the launch of the generator set, namely, with large immersion of the airlift nozzle 5 below the dynamic level of the reservoir.

Devices 30 and 32 are used to facilitate and accelerate the lifting of the pulsator-pickled organ of the dredger when it is covered with soil,

collapsing from the chest at the bottom. At such times, the compressed air from the storage tanks 28 through the devices 30 and 32 is fed under the suction tip 6. Looking upward, the air bubbles rise, loosen, and then remove the soil particles that are piled on top of the suction tip 6.

Subject invention

Claims (3)

1. The airlift-suction dredger comprising a floating hull, an air-lift pulp-intake organ and an airlift riser tube mounted on a rotating frame, an underground pump and a hot gas generator, for example, an air turbine engine, characterized in that, in order to increase the efficiency of the soil sampling, hot gas generator mounted in the underwater part pivoting frame made in the form of a pontoon, having storage tanks for compressed air and a ballast compartment. 2. Air-lift-dredger under item 1, characterized in that the accumulating The tanks and the lifting pipe of the airlift are interconnected by an additional pipeline equipped with a valve-regulating device. 3. The airlift-dredging projectile according to claim 1, characterized in that, in order to ensure the removal of the soil during the blockages of the pulverized organ, on the turntable frame are mounted an air outlet device connected to the accumulating tanks with stop valves. , it 24 25 Fig f