RU2046889C1 - Suction dredge - Google Patents

Abstract

FIELD: hydraulic equipment. SUBSTANCE: suction dredge includes floating mean with load-lifting member with milling ripper. Drive shaft and paddles of the milling ripper of load-lifting member are hollow with ripper paddle being wedge-type. Holes are arranged in back walls of the paddles. Drive shaft is open and is communicated with atmosphere on the side of the drive. Drive shaft is communicated with bottom hole through openings in back walls of milling ripper paddles. EFFECT: improved arrangement allowing one to increase productivity at the expense of decreased forces in loosening deposit, decreasing specific weight of slurry caught by the dredge, decreased pressure loss in slurry line. 4 dwg

Description

 The invention relates to hydraulic engineering, in particular to the hydromechanization of earthworks, to the designs of dredging and dredging shells.

Dredger shells are known, including a floating base, a suction unit, a drive unit and a slurry pipe. The disadvantages of this dredger include the impossibility of using it when cleaning from sludge or sludge from small streams, sedimentation tanks, small alluvium checks, due to their significant size [1]
Closest to the proposed one is a dredger, including a float craft, on which there is a soil intake body with a milling cultivator made with blades and mounted on a drive shaft, a soil intake body drive, a frame, slurry pipe and a control mechanism for the soil intake body made in the form of a winch [2 ]
The disadvantages of this dredger include a relatively low productivity.

 The aim of the invention is to increase the productivity of the dredger by reducing the effort when loosening the sediment, reducing the specific gravity of the pulp captured by the soil pump, and reducing the pressure loss in the slurry pipeline.

 The goal is achieved in that the drive shaft and the blades of the milling cultivator of the soil pickup body are hollow, the blades of the cultivator are wedge-shaped and have holes in the rear walls, while the drive shaft on the drive side is open, communicated with the atmosphere and communicated through the holes in the rear walls of the blades of the milling cultivator with a slaughter, and the frame is formed by a drive shaft, a slurry pipeline and a rod located parallel to them, but in a different plane.

 In FIG. 1, 2 shows the design of a mini-dredger; figure 3 and 4 fragments of a milling cultivator.

 The mini-dredger consists of a float boat 1, a soil pick-up body 2 with a milling cultivator 3. A pick-up body 2, using a frame made of slurry pipe 4, a drive shaft 5 and a rod 6, and a hinge device 7, is mounted on the boat 1 and connected to the electric drive 8. The latter by means of gear 9 is connected to the drive hollow shaft 5. The cavity of the drive shaft 5 from the side adjacent to the electric drive 8 through the hole 10 communicates with the atmosphere.

 Milling cultivator 3 (figure 3) has a number of hollow blades 11, in cross section having a wedge-shaped shape (figure 4). The dull edges 12 of the blades 11 are provided with holes 13 through which the cavities of the blades 11 communicate with the face 14. On the other side of the cavity of the blades 11 through the end hole in the drive shaft 5, its cavity and hole 10 are in communication with the atmosphere.

 On the floats of the watercraft 1 there are handles for carrying the projectile. The portal frame 15 and the winch 16 are used to raise and lower the soil intake organ 2. The ship 1 is also equipped with cable hoists 17.

 The principle of operation of the mini-dredger is as follows.

 Using the portal and the winch 16, lower the soil-intake member 2, turning it relative to the hinge device 7, into the face 14. Turn on the electric drive 8, which drives the milling cultivator 3 and the impeller of the soil pump of the working body 2. When the blades 11 rotate behind them blunt edges 12 form a vacuum sufficient to draw in air through the holes 13, the cavity of the blades 11, the holes of the drive shaft 5 from the atmosphere.

 The movement of the mini-dredger inside, for example, the sump is carried out by electric hoists 17. For this purpose, anchors are installed on the opposite sides of the sump, to which the cables stored in the drums of the electric hoists 17 are attached.

 The cutting edges of the blades 11 loosen compacted sludge (sediment). The air drawn in from the atmosphere through openings in the blunt edges 12 of the blades 11 is mixed with agitated sludge, forming a trail, when the next blade enters into it, the resistance to its movement decreases. The part of the face so wound up in this way is sucked in by the dirt pump. At the same time, the movement of the pulp in the dirt pump and pulp line 4 is characterized by a reduced resistance due to the action of air as a lubricant. The saturation of the pulp with air reduces its specific gravity, which also greatly facilitates the process of transporting the pulp through the pulp line 4 of the mini dredger, and then along the floating section of the pulp line to the discharge point. Particles of soil (silt, sediment, etc.) adhere to air bubbles, and this significantly increases their buoyancy (the so-called airlift effect is manifested), reduces the rate of precipitation of solid particles.

 Thus, the implementation of the drive shaft and the blades of the milling cultivator hollow facilitates the design of the soil-picking body. Aeration of the face without the use of a compressor reduces the volumetric weight of the pulp, reduces the cutting force of the cutter, and reduces the resistance forces when the pulp moves along the soil intake organ, shell pulp conduit and pulp conduit (floating and coastal). All this leads to a decrease in the required drive power or to an increase in productivity with the same drive power.

 In addition, the presence of air lubrication in the pulp significantly reduces the abrasive wear of the soil pump, cutter and walls of the slurry pipelines.

Claims (1)

 ZEMSNYARAD, which includes a float craft, on which there is a soil intake body with a milling cultivator made with blades and mounted on a drive shaft, a drive of the soil intake body, frame, slurry pipe and a control mechanism for the soil intake body made in the form of a winch, characterized in that the drive shaft and blades the milling cultivator of the soil intake body is hollow, the blades of the cultivator are wedge-shaped and have holes in the rear walls, while the drive shaft is open from the drive side It is connected with the atmosphere and through the holes in the rear walls of the blades of the milling cultivator is communicated with the face, and the frame is formed by a drive shaft, a slurry pipeline and a rod located parallel to them, but in a different plane.

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