SU757647A1 - Ripping and sucking apparatus for suction dredge - Google Patents

Description

The invention relates to hydromechanization and is intended for the development of cohesive soils in underwater mines. five

The soil-collecting device of the dredger is known, which includes a bucket mill and a suction tip [Ϊ].

When papillonization to the right or to the left, the ground is cut by buckets behind, θ by lateral cutting of the cutter. Komya of the cut soil is picked up by the flow of water and carried away to the suction pipe of the dredger.

The disadvantage of this device is the difficulty of cutting the ground, as at the end of the cutter there are no cutting elements.

The drawbacks of this device are largely eliminated in the ground-intake device, which includes a ground receiver and a disintegration head with buckets and plow dumps (2). The ground receiver is equipped with a camera consisting of front and rear stud-25 cones made with parallel walls, and buckets and the plow dumps of the loosening head are combined with each other, with the plow dumps placed on the inside

surface-front cone, and buckets - between the outer surface of the front cone and the inner surface of the rear cone of the chamber of the ground receiver. Longitudinal forming plow dumps and buckets are made of logarithmic spirals with poles on the axis of rotation of the loosening head with a parametric angle equal to the angle of the underwater cutting of the cohesive soil. This device is closest to the invention.

The advantage of this device is to increase the efficiency of the underwater development of cohesive soil through simultaneous lateral and frontal cutting. Its disadvantages are an increase in cutting forces during face-cutting of the cutter and increased energy consumption due to the significant length of the path of cutting the soil chips from the zone of loosening to the suction zone, as dumps have a significant development.

The aim of the invention is to improve the efficiency of the underwater development of cohesive soil by reducing the efforts during the face cutting and reducing the length of the path

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the cutting of the soil chips from the zone of loosening to the suction side cutting.

For this purpose, the loosening head is made in the form of two truncated cones with longitudinal dumps on their external surfaces connected by large bases with buckets into a single hollow body closed on the small base of the front cone with a blind wall with radial dumps on it and attached to the cylindrical small conical base of the rear cone ground receiver. At the same time, the longitudinal blades are made along the surface of a single-cavity hyperboloid of rotation around the axis of the head; radial blades are made along a conical developing surface, and the buckets - along a logarithmic spiral with a pole on the axis of rotation, of the head.

The proposed device is shown schematically in FIG. 1 (side view), FIG. 2 (front view) and FIG. 3 (section A-A in FIG. 1).

The device consists of a cylindrical primer receiver 1, docked with the suction pipe 2 of the dredger and having the ability to rotate around the axis of the suction pipe, a front cone 3 with longitudinal waste dumps 4, a rear cone 5 with a longitudinal waste blade 6, buckets 7. A small base 8 of the front cone 3 is closed with a blank wall , on which radial blades 9 are placed, the rear cone is attached to a cylindrical ground receiver 1 by a small base.

Radial blades 9 are made on a conical developable surface. Longitudinal blades 4 and 6 are made on the surface of a single-cavity hyperboloid of rotation around the axis of the loosening head. Blades 10 dumps 4 and 6 are made in a straight line, forming the surface of a uni- cavity hyperboloid. Bottomless buckets 7 are made on a logarithmic spiral with a pole on the axis of rotation of the opening head. The buckets 7 are provided with lateral wings 11. The opening head is a hollow body including a front cone 3 and a rear cone 5 connected by buckets 7 along the large bases of the cones.

The operation of the device is as follows.

When the suction dredger is turned on; A loose-suction device is brought to the bottom of the face and begins to crash into the face by feeding the device forward. First, radial dumps cut into the ground 9. They cut the soil and feed it to the longitudinal dumps 4. With the dumps 4, the soil flows into the space between the buckets 7. The surrounding water flows into this space due to the pressure dilution in the cones 3 and 5, transferred from the ground receiver 1.

As the radial dumps 9 are introduced into the ground, the cutting of the soil by the dumps 4 begins with its feeding into the inter-bucket space. After the entire taper 3 is buried in the ground, the buckets 7 begin cutting the soil with the feeding of the bucket into the inter-bucket space, the forward loosening head continues to as long as it is not fully buried in the ground, i.e. until both cones are visible in the earth’s depth: front 3 and rear 5.

After deepening of the loosening head into the ground, papillonization starts to the right or left ', · At. This is done by cutting the ground with dumps 9, 4, 6 and buckets 7, with wing 11, which falls into the inter-bucket space. The water chips soil breaks into lumps, which are sucked into the soil receiver 1, and from there into the suction pipe 2 dredger.

Claims (3)

Claim 1. Loosening-suction device dredger, including a cylindrical primer receiver, docked with dredger suction pipe and having the ability to rotate around the axis of the suction pipe, and a loosening head with bottomless buckets, made along a logarithmic spiral with a pole on the axis of rotation of the loosening head, and dumps, in order to improve the efficiency of the underwater development of cohesive soil due to reduce the forces during the face cutting and reduce the length of the path of movement of the cut chips from the loosening zone to the suction zone during lateral cutting; the loosening head is made in the form of two truncated cones with longitudinal dumps on their outer surfaces, connected by large buckets to a single hollow body, closed on the small base of the front cone with a blank wall with radial dumps on it and attached by a small base of the rear cone to the cylindrical ground receiver, 2. The device of the dredger according to claim 1, characterized in that the radial blades are made on a conical developable surface. 3. The device of the dredger according to claim 1, characterized in that the longitudinal blades are made on the surface of a uni- cavity hyperbolo5 757647 6 Ida rotation around the loosening head.