SU781261A1 - Soil-intake device of air-lift dredge - Google Patents

Description

(54) EARTH EQUIPMENT ERLIPT SHEAR

one

The invention relates to hydromechanization and is intended for the development of soils mainly from large depths of the reservoir.

It is known to be a dredging, suction dredger device of the combined type. It is a suction nozzle connected to the suction pipe of a ground pump, covered by a suction tip connected to the suction pipe of a water pump. The mouth of both tips are located in the same plane.

The advantage of the device is intake and delivery of high-pressure slurry to the day surface. Studies have established that the soil enters the suction tip not over the entire cross section, but in the central part, near the tip axis. At the tip of the walls of the water flows. Therefore, when the combined type of the tip is in operation, the central mixture connected to the suction pipe of the ground pump enters the high-saturation hydraulic mixture, and water 1 flows into the tip connected to the suction pipe of the water pump.

The drawbacks of the device are cumbersome, since two suction pipes are lowered into the bottomhole, and the energy expenditure is considerable, since the development and supply of soil to the day surface is performed by two pumps: groundwater and water. The depth of the intake of such a device is limited by the suction ability of a soil pump.

It is also known that the airlift device of the dredger, which includes

 a suction pipe with a suction tip; an airflow chamber on the suction pipe; and a pipeline for supplying air to the air chamber 2.

The disadvantage of the device is the fence

15 and the supply of slurry with a low saturation of the soil. Extraction of soils from large depths due to the supply of large amounts of water along with the slurry to the day surface reduces the efficiency of the device.

20 The purpose of the invention is to increase the efficiency of the device by taking and feeding to the day surface mainly from large depths of a reservoir of high-saturation slurry.

Achievement of the target is provided by supplying the suction pipe of the air-lift projectile with an underwater air bell and suction nozzle with a gun in it. One end of the inlet pipe is installed at the level of the mouth of the suction tip with its reach, and the other end is in front of the mouth of the air bell. Air chambers are installed at different levels in the depth of the reservoir with orientation relative to the air bell: on the suction pipe above the bell, on the suction pipe - below the bell. The air supply pipe is connected to the air chamber of the suction nozzle, and the air chamber of the suction pipe is connected to the top of the bell with an air supply tube ..

The drawing schematically shows the proposed device, side view.

The device consists of a suction pipe I with a suction tip 2, an air chamber 3 on the suction pipe, an underwater air bell 4 With a tube 5, a suction nozzle 6, an air chamber 7 at the suction nozzle, connecting strips 8, a pipeline 9 for air supply from the compressor. This whole device is placed on the frame of the 10 airlift dredger. The number 11 is marked the bottom ground.

The lower end of the nozzle b is installed at the mouth of the suction tip of TIP 2 and covers the mouth of tip 2, and the top is installed in front of the mouth of the air bell 4 so that there is a gap between them, regulated by the length of the connecting strips 8. The tube 5 is connected to the top of the bell 4 with the air chamber 3. Air chambers are installed at different levels in the depth of the reservoir with orientation relative to the bell. Chamber 3 is installed above the bell 4, and chamber 7 is below the bell 4. The valves in the pipelines are not shown.

The device works as follows.

The frame 10 is lowered into the water, air is supplied through the pipeline 9 to the chamber 7. From the chamber 7, air enters the nozzle 6. Air bubbles rise upward, carrying the particles of water. In the pipe 6, a flow occurs consisting of iodine in the area below chamber 7 and the water-air mixture in the area above chamber 7.

The outflow stream from port 6 is divided into two streams, water, as indicated by arrows, is poured into the reservoir; the air is collected in the air bell 4. From the bell 4 through the tube 5, the air enters the chamber 3, and from it into the suction pipe 1. 3, and due to the rise of air bubbles

there is a flow in the suction pipe I consisting of water in the area below chamber 3 and the water-air mixture in the area above chamber 7.

The suction tip 2 is brought to the soil surface P. With the streams of water flowing into the lower end of the suction pipe 6 and into the suction tip 2, the soil particles are detached from the soil mass 11 and carried away. When this occurs, the separation of the stream: the slurry (water mixture

and soil particles) rushes to the center of the suction device and enters the suction nozzle 2; water enters the suction nozzle b, as shown by the arrows, near tip 2.

When excavating, the flows in the device have a different composition. In the suction pipe I, in the area below the chamber 3, the ground-water mixture flows, above the chamber 3, the ground-air mixture flows. In the suction pipe 6 below chamber 7

water flows, and above chamber 7, a water mixture is a shower mix.

Claims (2)

1. An earth-lifting device for an air-missile projectile, including a suction pipe with a suction tip, an air chamber on the suction pipe and a pipe for supplying air to the air chamber, characterized in that, in order to increase the efficiency of the device due to the intake and supply to the surface, mainly large depths of the reservoir slurry high saturation of the truck, the device is equipped with covering the suction pipe is a suction pipe with an additional air chamber and an air bell, with one end of the suction pipe placed at the level of the mouth of the suction tip and the other in front of the mouth of the air bell. 2. The device according to claim 1, characterized in that the air chamber on the suction pipe is located above the air bell and is connected to the top of the bell by a tube for supplying air 3. A device according to claim 2, characterized in that the air supply pipe is connected to the air chamber of the suction nozzle. Sources of information taken into account during the examination 1. P.A. Arkhipov and others. Suction pulp thickener. “Hydraulic Engineering, 1958, No. 3, p. 7 2. Shkundin B. M. Suction dredgers. M., “Energie, 1973, p. 79.