SU775246A1 - Method and apparatus for cleaning canals with earth walls and bottom - Google Patents

Description

The invention relates to the hydromechanization of earthworks and is intended for the development of soils in the subterranean waters at the land sump cleaning of irrigation canals from sedimentary deposits. It is also possible to use the invention on land works in the construction of hydraulic canals with dredgers. A known method of compacting the bottom bases by embedding the center of the electrodynamic effect in the ground 1. However, such a method cannot be applied to the destruction of a subsea slaughter soil with simultaneous suction by its dredger when removing sediments with different layer thicknesses. A known method of cleaning the suction tube of the dredge by destroying the stuck objects (stones) by electrohydrodynamic action with subsequent suction of their dredger house 2}. However, this method cannot be used to destroy the underwater flank with simultaneous anti-filtration compaction of the soil at the bottom of the channel. It is also known to include a suction pipe that is equipped with an electro-hydraulic device with electrodes for breaking stones that are stuck in pipe 2. However, such a device cannot be used for anti-filtration compaction of soil at the bottom of the channel during the sediment removal process, as this device is in process cleaning is located directly above the sediments and therefore the electrodynamic effect is transmitted not to the bottom of the fuel rock, but to the surface of the sediment compaction I am most sucking their dredger house. The aim of the invention is to provide an anti-filtration screen by plastering the soil at the bottom of the channel in the process of removing sediments with different thickness of the soil layer. In addition, during the cleaning process, the volume of removal from the sediment channel is reduced due to compaction of the soil. This is achieved by the fact that in the method of cleaning the earth channels by underwater destruction of the bottom

electrohydrodynamic effects and suction by a suction dredger, the destruction of the submerged bottom is carried out by deepening the center of the electrohydrodynamic impact into the layer of sediments to a depth equal to h bottom - h the subsidence of soil, while the ground located under the center compresses to suction dredger house ground located above the center. A device for carrying out the method includes a tip of a dredger and an electrohydrodynamic head with electrodes, which is mounted on the end of a rod fixed in front of the tip and mounted for movement along it by means of a ram.

To improve the conductivity between the electrodes, the electrohydrodynamic head is equipped with a water jet nozzle, the outlet of which is directed to the S side of the tip through the gap between the electrodes.

To create secondary waves of electro-hydrodynamic impact, a layer of sediment and limit the flow of water to the underwater face — the tip is equipped with hinged hollow reflectors, one of which is located above the tip inlet and the other has a backside slope, with self-filling holes .

FIG. 1 shows a device, side view; in fig. 2 - the same, top view; in fig. 3 - electrohydrodynamic head (view along arrow Ana figure 1). ..

The device for cleaning the earth channels includes a tip 1 of the dredger and an electrohydrodynamic head 2, which is mounted on the end of the rod 3 and fixedly movable along the tip by means of the power cylinder 4 along the guides 5. The head is equipped with electrodes b, to which electrical cables 1 are connected, isol tori 8 and a water jet nozzle 9 with a conduit 10, the tip of the dredger has hollow reflectors 11 fixed to it by means of a hinge 12. and flexible rigs 13. The reflector bodies are made with openings 14 for filled with water and equipped with a pressure sensor 15.

The device works as follows.

Before cleaning the earth channel from sediments, the tip 1 of the dredger is placed directly in the underwater bottom, then the head 2 is hydraulic cylinder 4 dredged into the layer of sediments to a depth equal to h

h subsidence. One of the hollow reflectors 11 is located above the inlet of the tip 1 on the surface of the sediments, the other reflector 11 covers the slope of the slab, with "I this body of the reflectors 11 are filled with water entering them through the holes 14. Then the electrodynamic and electrodynamic the head 2, for which a voltage is applied through the electric cables 7 to the electrodes b and water to the water-jet nozzle 9. At this time, pulsed discharges pass from the electrodes, from their center through the water to the ground they are transmitted by electrohydrodynamics 5 th exposure. Due to the electrohydrodynamic effect, the soil located under the center of the head 2 is compacted to the design level of the channel bottom, forming an impervious

0 screen thickness h of the screen (see Fig.1), and the ground, located above the center of the-. Dexterity 2, the dredge house is diluted and sucked. Water; supplied through a water jet nozzle 9, constantly

5 flushes the gap between the electrodes from the ground, thereby improving the conductivity.

Reflectors 11 limit the flow of water to the bottom and bottom and create secondary hydraulic waves that additionally affect the ground, destroying it. When developing sediments with different thicknesses of layer 5, the depth of the head 2 is changed by means of a cylinder 4.

The canal is cleaned when the dredger moves. They regulate the speed according to the pressure sensor 15 readings. The latter records how fully the soil is sucked in by the dredger from the subsea slab.

Claims (2)

1. A method of cleaning earth channels, including the destruction of an underwater bottom by electrohydrodynamic impact on the soil and suction by a dredge, characterized in that, in order to create an impervious screen by compacting the soil at the bottom of the channel in the process of removing sediments with different layer thicknesses, the underwater slab is discharged by deepening the source of electrohydrodynamic impact into the sediment layer to a depth equal to the difference in the thickness of the sediment layer and the thickness of the soil subsidence layer, while the soil located under the source is compacted to the design mark the canal bottom and at the same time suction the soil above the source with a dredger. 2. A device for carrying out the method according to Claim 1, comprising a tip of the dredge and an electrohydrodynamic head with electrodes, which is characterized by the fact that the electrodynamic head of the mountings on the end of the rod fixed in front of the tip of the dredge and installed with the possibility of moving it through it cylinder. 3. The device according to claim 2, characterized in that, in order to improve the conductivity between the electrodes, the electro-hydrodynamic head is provided with a water-jet nozzle, the outlet of which is directed towards the tip into the gap between the electrodes. 4. The device according to claim 2, is designed so that, in order to create secondary waves of electro-hydrodynamic impact on the layer of sediments and limit the flow of water to the underwater face, the tip is equipped with articulated hollow reflectors, one of which is located above the entrance hole with an orifice the other is under the suction tip, with the case of each reflector having openings for self-filling with water. Sources of information taken into account in the examination 1. Lomidze G, M. and others. Experience of electric-spark compaction of loess subsiding soils. - Hydraulic engineering, 1973, No. 6, p. 22-35. 2.Mezhenin Y.M. Electro-hydraulic method of cleaning the ground receiver suction dam yes. - Guidance, technical construction, 1975, No. 8, p. 46. U lit 15 FIG. g TO 13 Vida