SU1089299A1 - Suction dredge - Google Patents

Abstract

A GROUND PUMP, containing a housing with a tap and a cover and an impeller installed in it, made with hydrodynamic sealing blades connected to a source of sealing water, so that increase the reliability of operation, an annular collector is made in the case, and an annular channel with inlet and outlet openings separated by a bridge is made in the case against the hydrodynamic sealing blades, the inlet communicating with the source of sealing water and the outlet opening ring collector with tap. (L

Description

The invention relates to pump engineering, in particular, to ground pumps, designed to move abrasive water-ground mixtures. A ground pump is known, which includes a housing with covers that have a sealed cuff, an impeller mounted in a housing and an 1J disk mounted in the housing. The disadvantages of this pump are the considerable energy consumption for friction between the cuff and the impeller and the fragility of the rubber sealing cuffs, since rotation of the impeller due to significant peripheral speeds, the sealing cuffs wear out quickly. Closest to the proposed one is a ground pump containing a housing with a tap and a lid and installed in it a working wheel, made with hydrodynamic sealing blades - connected to the source of sealing water. The disadvantage is that the indicated pump is short-lived due to for the rapid wear of its hydrodynamic Michaeco compaction. The operability of hydrodynamic seals depends on the size of the axial gap between the vanes of the hydrodynamic seal and the lid, which cannot exceed 1-2 mm, which is difficult under the conditions of manufacture and installation of ground pumps. The purpose of the invention is to increase the reliability of the pump. The above objective is achieved in that in a ground pump comprising a housing with a tap and a lid and an impeller mounted therein, made with hydrodynamic sealing blades connected to a source of sealing water, an annular collector is formed in the building and the lid against hydrodynamic vanes The seal is formed with an annular channel with inlet and outlet openings separated by a bridge, the inlet communicating with the source of sealing water, and the outlet opening through the annular collector with a drain. Figure 1 shows a ground pump, a longitudinal section; Fig. 2, section A-A in Fig. 1, Fig. 3, section B-B on the league. The ground pump includes a housing 1 with a branch 2 and a cover 3 and an impeller 4 installed in it, made with hydrodynamic vane blades 5 connected to a source of sealing water (not fio cauldron). The casing is made ring collector b. and in the cover 3, opposite the sealing blades 5, an annular channel 7 is made with inlet and outlet openings 8 and 9, respectively, separated by a bridge 10, with the inlet opening 8 communicating with a source of sealing water, and the outlet opening 9 through the collector 6 with outlet 2. Inlet 8 is in communication with a source of sealing water; through the pipe 11. Between the cover 3 and the blades 5 there is an annular gap 12, and between the housing 1 and the wheel 4 there is a gap 13. The primer pump is designed to be installed on the bottom of the recessing plates. It is used to extract the soil from the bottom of the reservoir and transport it in the form of a ground-water mixture to the storage site. The pipe 11 is connected to a source of sealing water, which is the tank. located on board the ship, where clean sealing water flows from the board by gravity through the receiving kingston not shown. The pump operates as follows. When the impeller 4 rotates under the influence of friction forces in the area of the Inlet 8, a negative pressure is created and the sealing water is clear through the pipe 11 and the opening 8 enters the gap 12. At the same time, between the blades 5, a flow of pure water appears that has radial and circumferential components of speed. Under the action of centrifugal force, the flow leaves the inter-blade space and enters the channel 7, together with the impulse flowing therein, in the direction of rotation of the wheel 4. Simultaneously with the flow out of the inter-blade space, a new amount of water flows into it. When moving the water between the blades 5e, the energy rises and the water is again discharged into the channel 7. As a result of repeated exchange of energy of clean sealing water in the channel 7, the pressure continuously increases as it moves away from the inlet 8 to the outlet 9. In the annular manifold 6 connected with a gap 12 with a channel 7, the pressure is leveled, so that a uniform sealing of the gap 13 over the entire outer diameter of the impeller is ensured. The excess pressure of clean sealing water in the annular collector 6 and the gap 13 above the pressure of the water-soil mixture in the pump outlet 2 is achieved by the fact that in the blades 5, placed on the impeller 5, operate according to the principle of vortex pump

Claims (1)

SOIL PUMP, comprising a housing with a tap and a cover and an impeller installed in it, made with hydrodynamic seal blades connected to a source of sealing water, with the aim of increasing reliability of operation, an annular collector is made in the housing, and an annular channel with an inlet and outlet openings separated by a jumper is made in the casing against the hydrodynamic seal vanes, the inlet being in communication with the source of sealing water, and the outlet through the rings th collector to the challenge.