SU1041755A1 - Centrifugal pump - Google Patents

Description

2. Pump POP.1, characterized in that it is equipped with a receiving tank communicated with the suction cavity and the leakage discharge chamber, the latter being made in the housing

and diverted from the suction cavity. 3. The pump according to claim 1, wherein the leakage leakage chamber is made in the housing and communicated with the suction cavity.

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The invention relates to pumping construction, in particular to centrifugal pumps for pumping liquid in a state close to boiling, for example, cryogenic liquids.

A centrifugal pump is known, comprising a housing with a suction cavity and a closed-type impeller mounted therein with blades and a throat forming with the housing slotted seals tO

The disadvantage of this wheel is low suction capacity when operating on cryogenic liquids.

The closest in technical essence to the present invention is a centrifugal pump, which encloses the body with an intake cavity and has a closed-type impeller installed in it with blades and a throat forming with the body slotted seals separated by an annular groove communicated with holes case 2,

The disadvantage of this pump is reduced suction capacity when operating on boiling liquids. The reason for this is that leaks that are heated during the passage of the gap seals fall directly into the pump inlet, which can lead to cavitation at the periphery of the blade edges when operating on cryogenic liquids.

The purpose of the invention is to increase the suction capacity when the pump is operated on boiling liquids.

This goal is achieved by the fact that a centrifugal pump comprising a housing with a suction cavity and a closed-type impeller mounted therein with blades and a mouth-shaped slotting with the housing are separated by an annular groove communicated with the holes, the groove and the holes are made in the housing a leakage discharge chamber communicated from the orifices of the holes, the latter having a total area of the flow area not less than five times the cross-sectional area of the gap seals.

The pump is provided with a receptacle communicated with the suction cavity and a leakage discharge chamber, the latter being made in the housing and isolated from the suction cavity.

The leakage discharge chamber is made in the housing and communicates with the suction cavity.

FIG. 1 shows a centrifugal pump equipped with a receiving tank and a leakage relief chamber isolated from the suction cavity in FIG. 2 centrifugal pump with leakage discharge chamber communicated with the suction cavity.

The centrifugal pump includes a housing 1 with a suction area 2 and a closed-type impeller 3 installed with blades 4 and a throat 5 forming slit seals 6 and 7 with the crush 1, which are separated by an annular groove 8 connected to the rotor. 9. moreover, the groove 8 and the hole 9 is made in the housing 1.

The pump is provided with a leakage discharge chamber 10 communicated with the holes 9, the latter having a total area of 5 bore, not less than five times the cross section 5 of the gap seals 6 and 7. The pump can be equipped with a receiving tank 11 communicated with the suction cavity 2 and the camera 10 discharge leakage, the latter is made in the housing 1 and is isolated. from suction cavity 2. 3 An embodiment of the centrifugal pump provides that the leakage chamber 10 can be made in the housing 1 and communicated with the suction cavity 2. The centrifugal pump operates as follows. . The liquid from the suction cavity 2 through the throat 5 is fed to the impeller 3 and under the influence of the blades t is pumped to the outlet from the impeller 3 already at a higher pressure. Fluid from the exit of the impeller 3, where the higher pressure enters the slit seal 6, during its passage, due to intense friction, as the impeller 3 rotates, it heats up. Since the openings 9 have a total area 5 of the flow area not less than five times the By area of the cross section of the gap seals 6 and 7, their hydraulic resistance is much less than the hydraulic resistance of the gap seal 7. Therefore, almost all leakage is heated when passing through the gap seal 6, falls through the holes m 9 into the chamber 10 discharge leaks. From chamber 10, the liquid flows into the receiving tank 11, which has a significant 554 volume. The liquid is cooled. From the receiving tank 11, the liquid, already cooled, is fed into the suction cavity 2 of the pump. In order to simplify the design, the pump may not have a receiving tank (Fig. 2). Meanwhile, the leakage discharge chamber 10 communicates with the pump suction cavity 2. In practice, the leakage discharge chamber 10 is combined with the suction cavity 2, and the volume of the latter increases considerably. As a result, heated. the fluid flowing from the holes 9 into the leakage discharge chamber 10, due to heat and mass transfer with a large volume of fluid in the cavity connecting the chamber 10 and the suction cavity 2, cools, but at the same time, the amount of fluid interacting with it is very small. Thus, the use of the proposed pump eliminates the ingress of heated liquid leaks to the periphery of the entrance edges of the impeller blades, which is the most dangerous in cavitation. This leads to an increase in the suction capacity when the pump is operating on the fluids.

Claims (3)

1. CENTRIFUGAL PUMP containing a housing with a suction cavity and a closed impeller installed therein with blades and a neck forming gap seals with the housing, separated by an annular groove in communication with the holes, the groove and holes being made in the housing, characterized in that, in order to increase the suction capacity when the pump is operating in boiling liquids, it is equipped with a leakage relief chamber in communication with the openings, the latter having a total passage area of at least five times cross-sectional areas of gap seals. SU. „. 1041755 2. The pump according to π .. I, characterized in that it is equipped with a receiving tank in communication with the suction cavity and a leakage relief chamber, the latter being made in the housing 1755 and is isolated from the suction cavity. 3. The pump according to π. 1, characterized in that the leakage discharge chamber ’is made in the housing and is in communication with the suction cavity. "