RU168458U1 - Dredger shell - Google Patents

Abstract

The utility model relates to hydromechanization, in particular to dredger shells that are used in rivers and water bodies of water bodies. A technical problem was the creation of an dredger shell with a simple and reliable water jet propulsion, providing high maneuverability. connected to the soil intake and pressure pipelines and a water jet propulsion device, while a section of the pressure pipeline used as a water jet propulsion ivayuschiysya nozzle is floating body adapted to dive below the water level and rotatably in a horizontal plane, wherein the conduit is connected to the soil-water conduit and each conduit to the point of connection valves are installed. The pressure pipeline contains a section made of a flexible corrugated sleeve. The ability to dive below the water level and the ability to rotate in the horizontal plane is provided by hydraulic cylinders. The guillotine type valves are used as valves on the intake and pressure pipelines. 1 n.p.ph., 3 s.p.f., 3 ill.

Description

The utility model relates to hydromechanization, in particular to sucker shells that are used in rivers and water bodies of water bodies.

As a prototype, a small-sized dredging projectile was selected [RF Patent No. 2055123, IPC E02F 3/88, application No. 5058148, op. 02.27.1996] including a single-pont (floating) hull, a mover for free movement across the water area, a soil pump connected to a body pressure pipe and a soil intake device made in the form of an on-board suction pipe (soil intake pipe), a scoop and a manipulator, a self-loading mechanism on the coastal transport means and launching, as well as a device for working movements across the water area, while the mover is made in the form of water jet nozzles installed at the tip of the one-pont case and connected by means of a pressure pipe with a housing pressure pipe, the manipulator is made in the form of a gantry crane located across the one-pont housing with a hoist and a hook suspension to hold the side suction pipe and scoop, and the self-loading mechanism of a small-sized suction dredger and a device for its working movements are made in the form of a live roll mounted on the bottom of a single-pont hull, and winches installed on its deck.

The design of the well-known dredging projectile (dredger) is based on small-sized conditions and, accordingly, the extension of its working scheme and layout to a wide range of dredgers cannot be effective. In particular, due to the use of a suction pipe for water intake for water jet nozzles, which can reach a considerable length, which in the water supply mode can lead to critical cavitation processes, vibrations, etc. In addition, the ability of such a dredger to maneuver using water jets is not known.

A technical problem was the creation of a suction dredger with a simple and reliable water-jet propulsion, providing high maneuverability.

The indicated technical problem is solved by a dredging projectile containing a floating casing, a soil pump connected to an intake and pressure pipelines and a water-jet propulsion, in which, according to the proposal, a section of the pressure pipe is used as a water-jet propulsion, ending with a pipe outside the floating casing, which can be immersed below water level and the ability to rotate in a horizontal plane, while a water pipeline is connected to the soil intake pipe and to each th pipeline to the place of their connection, fitted gilotinovogo valve type.

The easiest way to ensure the mobility of the pressure pipe is to include a flexible corrugated sleeve in the pressure pipe.

In this case, the actual possibility of immersion below the water level and the ability to rotate in the horizontal plane should be provided with hydraulic cylinders.

The inventive utility model is illustrated by drawings.

In FIG. 1 shows a dredging projectile in the mode of development (cleaning) of a reservoir; in FIG. 2 - dredging projectile in the mode of movement on a reservoir; in FIG. 3 shows schematically the rotation mechanism of the nozzle of the pressure pipe in the horizontal plane.

The dredging projectile contains a floating casing 1, a soil pump 2 connected to an intake 3, water 4 and pressure 5 pipelines, the pressure pipe 5 has a portion 6 of a flexible corrugated sleeve and a pipe 7 made with the possibility of vertical movement by means of a hydraulic cylinder 8 and with the possibility of rotation in a horizontal plane by means of a hydraulic cylinder 9. In the pond development mode, the pipe 7 is connected to a floating pipeline (slurry pipeline) 10. Gate valves are installed on the soil 3 and water 4 pipelines ilotinovogo type 11 and 12, respectively.

The device operates as follows.

A suction dredger located in a pond, the basis of which is a floating casing 1, is operated in an operating mode, pumping through the soil-intake 3, pressure 5 and floating 4 pipelines 10 by means of the soil pump 2 pulp (soil mixed with water) to a specific place for this, while the valve 11 is open, the valve 12 is closed.

If it is necessary to move the dredger across the water area to another development site, lift the section of the soil sampling pipeline with the soil sampling device, disconnect the slurry pipe 10, close the valve 11 and open the valve 12. By means of the hydraulic cylinder 8, the pipe 7 is immersed in water. Then, the drive of the pump 2 is started, which starts to operate in the water supply mode. A stream of water is ejected through the pipe 7 and the dredger starts moving. Maneuvering is carried out by turning the nozzle 7 in the horizontal plane by the hydraulic cylinder 9. Control can be carried out from the central console through any known control channels.

Claims (4)

1. Dredging projectile comprising a floating body, a soil pump connected to an intake and pressure pipelines, and a jet propulsion device, characterized in that a portion of the pressure pipe is used as a water jet propulsion, ending with a nozzle outside the floating body, configured to immerse below water level and the ability to rotate in a horizontal plane, while a water pipeline is connected to the soil intake pipe, and on each pipeline, to the point of their connection, are installed gate valves. 2. Dredging projectile under item 1, characterized in that the pressure pipe contains a section made of a flexible corrugated sleeve. 3. Dredging projectile according to claim 1 or 2, characterized in that the possibility of immersion below the water level and the ability to rotate in a horizontal plane is provided by hydraulic cylinders. 4. Dredging projectile according to claim 1 or 2, characterized in that guillotine-type valves are used as gate valves on the intake and pressure pipelines.

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