RU131390U1 - BLURING MILL - Google Patents

Abstract

1. A flushing mill containing a rotor rotating on bearings, the inner cavity of which is connected to a fluid source under pressure and nozzles mounted on the bends, characterized in that the rotor is made in the form of an external housing, and the bearings are mounted on the end of the outer surface of the suction pipe pipe. . Flushing mill according to claim 1, characterized in that it is equipped with brake flaps rigidly connected to the outer surface of the housing.

Description

This utility model relates to devices for extracting soil and deepening the bottom of water areas and can be used in dredgers and other similar devices.

Known erosion mills made in the form of a set of nozzles connected to a source of water under pressure and installed in the area of the suction path of the dredger or the suction pipe of the submersible pump. This design in the form of a rigidly fixed coaxially with the suction tract and connected to a water source under pressure of a hollow ring with nozzles is described in the book. SP Ogorodnikova “Hydromechanization of soil development” M. Stroyizdat 1986, 256 pp. and in the patent RU 2239701 dated 10/11/2004. The disadvantage of the design is the low efficiency for erosion of loam and clay.

The closest technical solution adopted as a prototype is an erosion mill described in the RF patent for utility model No. 126337 IPC E02F 3/88, published in BI No. 9 for 2013. In the adopted prototype, the nozzles are connected to the rotor, the bearings of which are installed in a bore of an external fixed body connected to a source of water under pressure. This design of the erosion cutter allows for the effect of soil cutting in combination with erosion.

The disadvantage of the prototype is the misalignment of the erosion area and the axis of the suction path of the dredger, as well as the intersection of the flow of the suction pulp by the rotating nozzles.

The objective of the proposed utility model is to increase the efficiency of soil erosion and pulp suction.

The problem is solved in that the rotor is made in the form of a rotating housing, and the bearings are installed on the outer surface of the end of the pipe of the suction tract.

The mill is equipped with brake flaps rigidly connected to the rotating body. The essence of the proposal is illustrated in the drawing, which shows a section of the proposed cutter.

On the outer surface of the end of the pipe of the suction path 1, cylindrical surfaces 2 and 3 are coaxial with the suction path, which have some difference in diameter. A housing 6 is mounted on them in sliding bearings 4 and 5. The inner cavity 7 of the housing 6 is connected by taps 8 with nozzles 9 and an annular slot 10 with a fluid source under pressure 11. The ends of the housing 6 are in contact with the shoulders 12 and 13. On the outer cylindrical surface 14 of the housing 6, the brake flaps 15 are installed and rigidly connected to it. Additional nozzles 16 can be installed in the diametrical plane.

The work of the proposed erosion cutter is clear from its description.

When water is supplied under pressure through the inlet 11 and the annular gap 10, it enters the cavity 7 and through the outlets 8 to the nozzles 9, acting on eroded soil. The frequency of rotation of the housing 6 is determined by the resistance of water and friction in the bearings 4 and 5. It is regulated by the angle of rotation of the nozzles 9 and the area of the brake flaps 15. If necessary, additional nozzles 16 can be introduced to provide the required torque. The shoulders 12 and 13 are unloaded from the forces created by the reactive forces in the nozzles 9, since these forces are balanced by the difference in the area of the end surfaces of the inner cavity 7 by choosing the diameters of the surfaces 2 and 3.

The proposed cutter can be made in the form of a node in which the bearings are based on an additional sleeve coaxially attached to the end of the pipe of the suction path of the dredger.

The technical result consists in the fact that the water supplied under pressure to the erosion cutter provides erosion of the soil in the area of the concentric axis of the suction tract and eliminates the deterioration of the suction conditions due to the intersection of the nozzle bends of the pulp stream.

Claims (2)

1. Flushing mill containing a rotor rotating on bearings, the inner cavity of which is connected to a fluid source under pressure and nozzles mounted on the bends, characterized in that the rotor is made in the form of an external housing, and the bearings are mounted on the end of the outer surface of the suction pipe. 2. Flushing mill according to claim 1, characterized in that it is equipped with brake flaps rigidly connected to the outer surface of the housing.

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