RU45144U1 - DIGGER DIGGING APPLIANCE - Google Patents

Abstract

Usage: hydromechanization, for the development of sapropel, as well as peat, silty soils and other bottom sediments. SUBSTANCE: dredger suction device, including a suction tip with a drive shaft mounted on it, carrying a milling cultivator at the end face of at least a pair of cutting plate main knives rigidly mounted on a flange placed on the shaft between the cultivator and the end face of the tip, and cutting at least two lamellar additional knives, characterized in that the cutting lamellar additional knives are diametrically spaced and mounted on the flange mirror to the main knives, at an angle of 90 ° them in a vertical plane and has at least one opening before the inlet tip with the possibility of partial overlap, and milling ripper configured as a pair of screws with unidirectional helical blades and mounted on the shaft diametrically at 90 ° to each other. The soil pick-up device is characterized in that the plate knives, the main and additional, are made L-shaped and mounted on the flange with the possibility of radial reciprocating movement relative to the shaft by placing them in radial grooves made either in the flange or in the knives. In addition, the L-shaped plate knives, the main and additional, are made of different sizes, with different heights relative to the axis of the drive shaft of the milling cultivator. 1 s.p. 4 C.p. 4 ill.

Description

The utility model relates to hydromechanization and can be used mainly for the development of sapropel, as well as peat, silty soils and other bottom sediments.

Known dredging devices of dredgers containing an axial soil pump, a milling cultivator with knives and a suction tip [for example, A. St. USSR No. 323516, class E 02 F 3/88].

The disadvantage of such devices is the difficulty in developing sapropel containing in its mass plant residues causing incomplete destruction of the soil structure along the periphery of the suction tip.

Known dredger suction devices, including a suction tip, movable, with different lengths relative to the axis of rotation of the blade knives, installed in radial grooves of the casing and the casing, providing underwater development of mainly silty soils and their forced supply to the suction tip [A. St. USSR No. 611986, class: E 02 F 3/92].

Knives-blades of such a known device are made in a U-shape and mounted in radial grooves of the cage with the possibility of free reciprocating movement, which ensures effective loosening of the soil around the periphery and its supply to the suction tip. However, known devices of this type do not guarantee sufficient productivity of the dredger, which is due to the shape of the knives that cross the flow of absorbed soil and prevent its absorption.

A suction dredger device is known, comprising a suction tip and a baking powder installed in front of it, including a drive shaft and knives placed on it in the form

loosening blades [A. St. USSR No. 861493 class. E 02 F 3/90]. The knives are made L-shaped, placed on the shaft along a helical line with a variable pitch. The number of knives can vary. The tops of the baking powder knives in a L-shape are bent towards the suction tip, the angle of bending and inclination of the knives can be different. The receiving hole on the suction tip relative to the attachment point of the baking powder is located eccentrically within a distance shorter than the length of the knives. The drive shaft of the baking powder is built into the suction tip parallel to the axis of the receiving hole. A suction device of this design provides an increase in the productivity of the dredger by reducing the resistance to absorption from the side of the knives of the baking powder, less often crossing the flow of absorbed soil.

A disadvantage of the known device is significant ground clearance caused by the fact that it is cut into lumps outside the absorption zone. In addition, cutting soil is difficult due to winding plant fibers on the knives.

A suction device for a dredging projectile for the development of plant soils is known, including a suction tip, two cutters in front of it in the form of cylindrical drums with cantilever knives on their surface and a baffle plate built between the cutters, with knives whose blades are facing the rotation of the cutters. [A. St. No. 831916, class E 02 F 3/90]. The device provides for the cleaning of milling cutters from vegetable soil fibers by cutting them with knives in a jack plate, forming cutting pairs when the mills rotate. This ensures an improvement in the cutting conditions of the developed soil, and, consequently, an increase in the productivity of the device.

However, the known device cutting the soil is performed outside the suction zone, as a result of which the soil clearance reaches a significant value, which reduces the development efficiency.

Known soil intake device dredging projectile [A. St. USSR No. 987046, class E 02 F 3/88], taken as a prototype to

proposed by this application. A known soil picking device includes a suction tip with a drive shaft mounted on it, carrying a milling cultivator at the end, and at least a pair of cutting plate main knives, rigidly mounted on a flange placed on the shaft between the cultivator and the end of the tip, and facing the shelves to the milling a ripper, and cutting additional blade knives, at least two, mounted by means of a half ring on the suction tip. The flange with knives is mounted on the drive shaft with the possibility of adjusting its vertical position, i.e. the gap between the cutting knives on the flange and the cutting knives on the tip, by means of an axial groove on the shaft and an installation hub with a bolt on the flange. The known device provides efficient cutting of plant inclusions, eliminates clogging of the milling cultivator with plant fibers. However, the soil-collecting device of the dredging projectile of known design does not provide the possibility of developing dense soils in underwater faces, as well as increasing the loosening zone.

The task of creating a utility model was to increase the efficiency of soil sampling by eliminating losses and increasing the volume of the development zone of various soil categories.

The problem is solved by the proposed soil sampling device of an dredging projectile, including a suction tip with a drive shaft mounted on it, carrying a milling cultivator at the end of at least a pair of cutting plate main knives rigidly mounted on a flange placed on the shaft between the cultivator and the end of the tip, and at least two cutting plate additional knives, characterized in that the cutting plate additional knives are diametrically spaced and mounted on a flange of mirror bases knives, at an angle of 90 ° to them in a vertical plane, and placed at least one in front of the tip inlet with the possibility of partial overlap, and the milling cultivator is made

in the form of a pair of screws with unidirectional screw blades and mounted diametrically on the shaft, at an angle of 90 ° to each other.

Soil-picking device is characterized in that the plate knives, the main and additional, are made L-shaped.

In the soil pick-up device, L-shaped plate knives are mounted on the flange with the possibility of radial reciprocating movement relative to the shaft by placing them in radial grooves made in either the flange or the knives.

Soil-picking device is characterized by the fact that the L-shaped blade knives, the main and additional, are made of different sizes, with different heights relative to the axis of the drive shaft of the milling cultivator.

In the soil intake device, additional knives are made with a height equal to 1.5-1.7 of the height of the main knives from the drive shaft.

The proposed design of the soil sampling device allows during operation to change both the diameter of the working body and the distance between the cutting knives and the milling cultivator, and, accordingly, change the volume of the development zone with the exception of the loss of soil mass during operation on the development of soils of various nature (clay, loam, sandy loam, sand, silt, peat, sapropel, etc.), as well as development conditions: upper silt - flowing - a large loosening zone is possible at a certain power); the lower silt layer is dense, the loosening zone is reduced.

The suction device of the dredger projectile is illustrated by drawings, where in: Fig.1 shows a schematic general view of the device, a longitudinal section; figure 2 is a front view of the soil intake device; figure 3 is a section along BB (figure 1); figure 4 is a section along bb (figure 1).

The suction device's suction device includes a suction tip 1 with a drive shaft 2 mounted on it, carrying a milling cultivator 3 at the end of at least a pair of cutting L-shaped plate main knives 4, rigidly mounted on

a flange 5, placed on the shaft 2 between the ripper 3 and the end face of the tip 1, and facing the shelves to the milling ripper 3, the cutting plate additional knives 6, at least 2. The additional knives 6 are diametrically spaced on the flange 5, are mounted mirror to the main knives 4, under at an angle of 90 ° to them in a vertical plane, and at least one is placed in front of the inlet of the tip 1 with the possibility of its partial overlap. Milling ripper 3 is made in the form of a pair of screws 7, 8 with unidirectional screw blades and mounted on the drive shaft 2 diametrically at an angle of 90 ° to each other. The cutting plate knives 6, additional, as well as the main 4, are made L-shaped. The cutting knives 4 and 6 are mounted on the flange 5 with the possibility of radial reciprocating movement relative to the drive shaft 2 by placing them in radial grooves 9 made either in the flange 5 or in the body of the knives 4, 6. The knives 4, 6 are fastened with bolts 10. The cutting L-shaped plate knives, the main 4 and additional 6, are made of different sizes, with different heights relative to the axis of the drive shaft 2, while the additional knives 6 are made with a height from the shaft equal to 1.5-1.7 of the height of the main knives 4.

The number of knives may vary. The tops (shelves) of the knives can be bent towards the shaft, the angle of bend and tilt of the knives can be different. Reception - the input hole 11 of the tip is made elliptical, curved along the outer diameter of the flange 5 of the ripper 3, and is eccentric relative to the axis of the drive shaft 2 within a distance shorter than the length of the additional knives 6 in their maximum extended state.

When the drive shaft 2 is rotated (in the bearing assembly 11 from the drive (not shown)) and the device is moved longitudinally, the screws 7, 8 and the L-shaped knives 4, 6, the main and additional ones, are introduced into the ground, cut it in layers, and milling, while clods and plant residues glide along the curved surfaces of the screws 7, 8, which

contributes to their self-cleaning. L-shaped knives 4, 6, made mirrored, play the role of dumps, raise the soil cut in layers and mix it with water. In this case, during rotation, the knives 4, 6 and the screws 7, 8, forming the working cutting pairs, cut off existing plant stems by pinching between the L-shaped knives and screws. The area of cut (development) of the soil can be adjusted by changing the position of the knives 4, 6 both on the shaft along it and relative to it by changing their position in the grooves 9, followed by fixing with fixing bolts 10, respectively, choosing (depending on the soil) the optimal clearance between the cutting the edges of the knives and screws and the distance from the suction tip 1. The cut soil chips move the L-shaped knives into the cavity of the milling screw cultivator 3. The mass, loosened by the simultaneous action of the knives 4, 6 and screws 7, 8, is actively the suction zone is completely captured the flow of water and pushed by newly incoming portions of soil conveyed through the suction nozzle 1 into the suction gruntoprovod 12 and to earth pump (not show).

The thickness of the rock chips (lumps) during operation of this device is determined by the connectivity of the developed mass, for example, silt, peat, sapropel, and the optimal soil intake mode is achieved by the specified (necessary) installation of the device elements.

The proposed device allows to increase the efficiency of soil sampling due to the simultaneous lateral and end reduction of soil loss during the development of peat, silty soils, sapropels, rafts, bottom sediments. In addition, the presence of mirror-mounted cutting knives in conjunction with the screws, providing the possibility of deepening and increasing the development zone and axial flow rate, allows you to transport the above-mentioned soils of natural moisture through pipes with a diameter smaller than the diameter of the suction hole, and also reduces wear on the elements of the soil sampling device, facilitate the storage of raised soil. Proposed design

the soil intake device prevents clogging of the suction line of the dredger with large inclusions of the extracted material.

The efficiency of the device is also improved by making the inlet of the suction tip with an ellipsoidal cross-section and always located with a larger cross-section axis parallel to the slope of the developed soil, which achieves the highest intensity of useful soil pick-up.

For the production of the proposed soil sampling device does not require special equipment, expensive materials, it can be installed both in new designs and modernized soil sampling devices.

Claims (5)

1. A suction device for an dredging projectile, including a suction tip with a drive shaft mounted on it, carrying a milling cultivator at the end face, at least a pair of cutting plate main knives, rigidly mounted on a flange placed on the shaft between the cultivator and the end face of the tip, and cutting plate additional knives, at least two, characterized in that the cutting plate additional knives are diametrically spaced and mounted on the flange mirror to the main knives, at an angle of 90 ° to them in vertical at least one, in front of the tip inlet with the possibility of its partial overlap, and the milling cultivator is made in the form of a pair of screws with unidirectional screw blades and mounted on the shaft diametrically at an angle of 90 ° to each other. 2. Dredging device according to claim 1, characterized in that the cutting plate knives, the main and additional, are made L-shaped. 3. The soil pick-up device according to claim 1 or 2, characterized in that the L-shaped cutting blade knives are mounted on the flange with the possibility of radial reciprocating movement relative to the shaft by placing them in radial grooves made either in the flange or in the knives. 4. Dredging device according to claim 3, characterized in that the L-shaped cutting blade knives, the main and additional, are made of different sizes, with different heights relative to the axis of the drive shaft of the milling cultivator. 5. Dredging device according to claim 4, characterized in that the additional knives are made with a height equal to 1.5-1.7 main knives from the height of the drive shaft.