RU59168U1 - SOIL PUMP - Google Patents

Abstract

Application: In the production of construction work, in industries related to the extraction and processing of minerals, in the cleaning of reservoirs. Technical result: Elimination of cavitation in the inner body, made in the form of a snail, and the exclusion of the ingress of hydraulic mixtures between the buildings. The essence of the utility model: The inventive pump is structurally made with the outer casing 1 and the inner casing 2 housed in it. It is made in the form of a snail integrally with a protective rear armor plate, which not only eliminates cavitation, but also simplifies pump assembly. The inner casing 2 is equipped with a front protective bronedisk 3 having a flange 4. The pump contains a shaft with an impeller 5 fixed on it, a suction 6 and a discharge pipe 7. The suction nozzle 6 is made with a flange 8 located indented from the end plane of the nozzle. Flanges 4 and 8 are joined to form a groove in which the protrusion 9 of the impeller 5 enters. The flange 8 and the protrusion 9 are joined along the end planes and cylindrical surfaces, the protrusion 9 of the impeller 5 and the flange 4 of the front protective armor plate 3 are joined along the cylindrical surfaces, and the docking of the flange 8 of the suction pipe 6 and the flange 4 of the armored disk 3 - along the end planes. Thanks to the docking of these nodes, a “lock” is created that does not allow the hydraulic mixture to penetrate between buildings 1 and 2. For the manufacture of the internal housing 2, the front protective armor plate 3. of the suction 6 and pressure 7 nozzles, wear-resistant white cast iron is used, for example, special alloy ICh260Kh26GN. The front protective armor plate 3 is fastened to the inner case 2 by pressing with bolts 10 passing through the front cover 11, mounted on the outer case 1, to which the back cover 12 is also attached. (1 n.p.f., 4 z.p.f. ., 3 ill.)

Description

The invention relates to single-suction centrifugal pumps for transporting hydraulic mixtures containing water and solid inclusions through pipelines, namely abrasive rocks such as industrial products and concentrates, ashes, slags, quartz, pyrite, zinc tails of non-ferrous metals, tails of ferrous metals clay-sandy rocks, coarse-grained sands, sandy-gravel rocks and gravel-crushed rocks. Soil pumps are used for cleaning water bodies, in construction, in mining operations and in enrichment plants.

A known design of a soil pump, comprising an outer casing provided with rear and front covers with a snail-shaped inner casing having protective armored disks, a shaft on which the impeller is fixed, a suction and discharge nozzles, and the suction nozzle is provided with flanges at one end, one of which is docked with the front cover and flange of an additional nozzle installed in the inner case and supported by a rubber ring that is joined to the impeller (see AS USSR No. 1270422 “Corp. ground pump pump ”, MKI - F04D7 / 04, application 12.06.84).

A disadvantage of the known soil pump is that when the impeller rotates, the rubber ring wears out and there is a gap between the nozzles, through which the hydraulic mixture flows out, damaging the front cover and the suction nozzle. This leads to the need for frequent repairs of the front cover and the suction pipe or even a complete replacement of the latter, which shortens the life of the pump and complicates operation.

The closest to the claimed soil pump according to the essential features and the achieved effect is a device according to as USSR No. 1149057 "Soil pump", MKI-4: F04D29 / 16; F04D7 / 02, claimed 05/31/83. This pump is selected as a prototype.

A well-known soil pump comprises an outer casing provided with a rear and front covers with an internal casing in the form of a snail having protective front and rear armored disks, a shaft,

which is fixed to the impeller, suction and discharge nozzles, an installation ring 6 mounted on the inner casing and provided with a coating 12, the main 7 elastic sealing ring and an additional 9 sealing ring, a compression ring 15. The latter, if there is a gap between it and the ring 6, forms by means of a coating 12 elastic annular non-return (return) valve 16. This valve is designed to prevent the ingress of hydraulic mixtures between the housings. However, the parts forming the valve wear out during operation and require replacement. On the one hand, the service life of the pump is reduced, on the other hand, it is difficult to replace several parts at the pump site, and not in stationary conditions. But the main reason that reduces the life of a well-known soil pump is another. Namely, in the place of joining the rear armored disk and the inner case, the flow of the slurry swirls and cavitation begins. The resulting shock wave destroys the surface of the inner case, rear armored disk, impeller. Replacing such important components is time-consuming and not always possible at the place of operation.

The task of the invention is to increase the life of the pump with ease of maintenance.

The technical result consists in eliminating cavitation in the inner casing, made in the form of a snail, and eliminating the ingress of hydraulic fluid between the casing.

This task is achieved by the fact that in a known soil pump containing an outer casing provided with rear and front covers with an internal casing in the form of a cochlea having protective armor plates, a shaft on which the impeller is fixed, suction and discharge pipes, according to the utility model, the inner case is integral with the rear protective armored disk, and the front protective armored disk is equipped with a flange that joins the flange of the suction pipe with the formation of a groove into which the protrusion of the working th wheel to prevent the ingress of slurry between the outer and inner bodies.

In the soil pump, the flange of the suction pipe can be indented from the end plane of the latter with the formation

the shank so that the indicated flange and the protrusion of the impeller are joined along the end planes and cylindrical surfaces, the protrusion of the impeller and the flange of the front protective armored disk are joined along the cylindrical surface, and the flanges of the suction nozzle and the specified armored disk are joined along the end planes.

In the soil pump, the casing is internal, the front protective armored disk, the suction and discharge pipes can be made of wear-resistant white cast iron.

In the soil pump, the housing is internal, the front protective armored disk, the suction and discharge nozzles can be made of special alloy ICh260Kh26GN.

In a soil pump, the front protective disc can be pressed against the inner casing by bolts passing through the front cover fixed to the outer casing.

Studies on patent and scientific and technical sources indicate that the proposed design of the soil pump is unknown and does not follow explicitly from the studied prior art, and, therefore, meets the criterion of "novelty."

The inventive soil pump can be manufactured in the conditions of a machine-building enterprise specializing in this industry, using standard domestic or imported equipment, known technologies and materials. It can be widely used in industries related to construction work, mining and processing of minerals, where pumping of abrasive liquids is required.

Thus, the inventive soil pump meets the criterion of "industrial applicability".

The proposed set of essential features informs the claimed device of new properties that allow to solve the problem.

The execution of the inner case along with the rear protective armored disk has the positive point that there are no joining places where the flow swirls causing cavitation.

The implementation of the front protective bronedisk with a flange that is joined with the flange of the suction pipe with the formation of a groove in which the protrusion of the impeller enters, eliminates the ingress of hydraulic fluid between the outer and inner casings. As a result, they serve for a longer period and do not require frequent replacement of work units.

The use of wear-resistant white cast iron, for example, the special alloy ICh260Kh26GN, for the manufacture of work units that are most exposed to the destructive effects of the transported hydraulic mixture, increases the life of the pump due to the reduction of the abrasive wear of the nodes.

Fastening the front protective bronedisc to the inner case by pressing with bolts passing through the front cover mounted on the outer case, simplifies operation, since usually the discs are mounted with a threaded connection made in steel inserts in cast iron. When loosening the threaded connection, the operator servicing the pump had to exert more force than now with the specified mounting design.

The inventive soil pump is presented in the drawings:

Figure 1 is a longitudinal section of a soil pump;

Figure 2 - section aa in figure 1;

Figure 3 - enlarged node A.

The inventive pump is structurally made in a two-body design: with a detachable 1 outer casing and an inner 2 casing housed in it, made in the form of a snail integrally with a protective rear armor plate, which not only eliminates cavitation, but also simplifies pump assembly. The inner casing 2 is equipped with a front protective bronedisk 3 having a flange 4. The pump contains a shaft (not shown in the diagram) with an impeller 5 mounted on it, as well as a suction 6 and discharge 7 nozzles. The suction nozzle 6 is made with a flange 8 located indented from the end plane of the nozzle. Flanges 4 and 8 are joined to form a groove in which the protrusion 9 of the impeller 5 enters. As can be seen in FIG. 1, the flange 8 and the protrusion 9 are joined along the end planes and cylindrical surfaces, the protrusion 9 of the impeller 5 and the front protective flange 4 are docked. the drive plate 3 is made on cylindrical surfaces, and the docking of the flange 8 of the suction pipe 6

and flange 4 of the armored disk 3 - along the end planes. Thanks to the docking of these nodes, a “lock” is created that does not allow the hydraulic mixture to penetrate between buildings 1 and 2. For the manufacture of the internal housing 2, the front protective armor plate 3, the suction 6 and the discharge 7 nozzles, wear-resistant white cast iron is used, for example, special alloy ICh260Kh26GN. The front protective armor plate 3 is attached to the inner case 2 by pressing with bolts 10 passing through the front cover 11, mounted on the outer case 1, to which the back cover 12 is also attached.

The inventive soil pump for hydrotransport of abrasive rocks works as follows.

When the impeller 5 rotates, the hydraulic fluid entering through the suction pipe 6 moves along the inner casing 2, which is a one-piece structure, and exits from the discharge pipe 7. Due to the absence of cavitation and the elimination of the hydraulic mixture between the pump housings 1 and 2, its life is extended .

The advantages of the inventive soil pump:

- increase in operational resource by 1.5-2 times;

- simplification of operation;

- reducing the complexity of the assembly.

Claims (5)

1. A ground pump, comprising an outer casing provided with rear and front covers with a snail-shaped inner casing having protective armored disks, a shaft on which the impeller is fixed, a suction and discharge nozzles, characterized in that the inner casing is made in one piece with a rear protective armored disk, and the front protective armored disk is equipped with a flange that is joined to the flange of the suction pipe with the formation of a groove into which the protrusion of the impeller enters to prevent the mixture between aruzhnym and inner hulls. 2. The soil pump according to claim 1, characterized in that the flange of the suction pipe is indented from the end plane of the latter with the formation of a shank so that the said flange and the protrusion of the impeller are joined along the end planes and cylindrical surfaces, the protrusion of the impeller and the flange is joined the front protective armored disk is made on a cylindrical surface, and the flanges of the suction pipe and said armored disk are joined along the end planes. 3. The soil pump according to claim 1, characterized in that the housing is internal, front protective armored disk, suction and discharge pipes are made of wear-resistant white cast iron. 4. The soil pump according to claim 1, characterized in that the housing is internal, front protective armored disk, suction and discharge nozzles are made of special alloy ICh260Kh26GN. 5. The soil pump according to claim 1, characterized in that the front protective armored disk is pressed against the inner case by bolts passing through the front cover fixed to the outer case.