US2775945A

US2775945A - Sand resistant pump

Info

Publication number: US2775945A
Application number: US376910A
Authority: US
Inventors: Arutunoff Armais
Original assignee: REDA PUMP CO
Current assignee: REDA PUMP CO
Priority date: 1953-08-27
Filing date: 1953-08-27
Publication date: 1957-01-01
Anticipated expiration: 1974-01-01

Description

Jan. 1, 1957 ARUTUNOFF 2,775,945

SAND RESISTANT PUMP Filed Aug. 2'7, 1953 INVENTOR ARMA/J ARuTu/voFF /5 l /5 M BY fi ATTORNEY United States Patent SAND RESISTANT PUMP Annals Arutunoff, Bartlesville, Okla, assignor to Reda Pump Company, Bartlesville, Okla., a corporation of Dela This invention relates to deep well centrifugal pumps of the electrically driven submergible type, adapted to be positioned at the bottom of a deep well. More particularly, the present invention consists in new and useful improvements in the deep well pump illustrated and described in my former Patent No. 2,270,666 issued on January 20, 1942, whereby the pump structure is rendered sand-resistant.

As explained in my said former patent, a deep well such as an oil well or a water well must necessarily be of comparatively small diameter and the lifting of oil or water from the great depths involved, necessitates a pump having a high discharge pressure. Due to the small diameter a large number of stages must be employed and the impeller elements must be rotated at comparatively high speed. The thrust of such an assembly under the speeds involved, requires a rugged construction and it is extremely important that the bearings be protected not only against the deleterious effects of penetration of liquids in the well in which the pump is submerged, but from the abrasive effects of the sand particles which are encountered during the pumping operation.

When one considers the fact that in some installations, pumps having as many as 300 stages are used, it will be apparent that the damage by sand abrasion to the many bearings involved, is a major consideration.

It is therefore the primary object of my present invention to provide in a centrifugal pump of the general type described in my said former patent, a novel multi-stage assembly which is especially designed to overcome the deleterious effects of sand abrasion heretofore encountered in pumps of this type.

Another object of the invention is to provide a novel bearing relationship between the diffusers and impellers of the respective stages, which acts to minimize the abrasive effect of sand particles carried by the liquids being pumped.

Still another object of the invention is to provide in connection with said novel bearing relationship of the diffusers and impellers, an improved thrust washer arrangement which assists in carrying the thrust of the impeller and at the same time seals and thus prevents passage of sand particles between the bearing surfaces of the impellers and the diffusers.

A further object of the invention is to provide a novel bearing means wherein a maximum extent of the pump shaft is supported by bearing surfaces, thus greatly extending the service life of the pump.

A still further object of the invention is to provide in each stage of the multi-tage pump, a fixed bearing unit forming a part of the diffuser, and including a radial bearing sleeve for the hub of the impeller and integral vertical thrust bearings for said impeller.

Another object is to provide for each impeller, a pair of concentric annular bearing surfaces formed on the diffuser, each provided with thrust washers which are 2,775,945 Patented Jan. 1, 1957 adapted to seal the bearing surfaces against penetration by sand particles.

With the above and other objects in view which will appear as the description proceeds, the invention consists in the novel features herein set forth, illustrated in the accompanying drawings and more particularly pointed out in the appended claims.

Referring to the drawings in which numerals of like character designate similar parts throughout the several views,

Figure 1 is a diagrammatic View of a cross section of a well provided with a= pump unit comprising my invcntion.

Figure 2 is an enlarged sectional view of a pump embodying my improved sand resistant features, and

Figure 3 is an exploded perspective view showing the details of the pump assembly.

In the drawings, the numeral 4 designates a conventional well casing which is normally closed by a casing head 5, eduction tubing 6 being provided for the removal of liquid from the well. The pump 7 which takes suction through a cylindrical screen unit 8, discharges at its upper end into the eduction tubing 6 and is driven by an electric motor 9. A motor protector unit 10 is preferably interposed between the pump 7 and the motor 9, as in the case of my said former patent, although neither the motor nor the protector unit per se, forms any part of the present invention. The motor is furnished electrical energy for its operation through an electric cable 11 leading from a suitable source of electricity above ground.

Referring now to Figures 2 and 3 which show the pump proper, it will be seen that the pump comprises an elongated casing 12, closed at its upper end by an annular head 13, to which the eduction tubing 6 is con nected. The lower end of the casing 12 is closed by a base member 14 provided with intake passages 15 which are surrounded by the cylindrical screen element 8, pre viously referred to.

The inner extremities of the intake passages 15 communicate with a central inlet chamber 16 which opens concentrically into the lower end of the casing 12, :1 pump shaft 17 extending longitudinally throughout the length of the casing 12. This pump shaft is operatively connected at its lower end to the shaft of motor 9, by conventional coupling means although the motor shaft and coupling are not shown in the drawings. A sealing assembly 18surrounds the shaft 17 adjacent the point where it emerges into the intake chamber 16.

The assembly and relationship of the parts of the multistage pump unit will best be seen in Figure 2. Starting at the lower end of the casing 12, a bottom difliuser l9 rests upon the top surface of the base 14, and its web is provided with a concentric reinforcing and centering ring 20 which engages a complementary annular recess 21 in the top of the base 14 tocenter the diffuser 19. A central opening 22 in the web of diffuser 19 surrounds the shaft 17 in radially spaced relation to provide a fluid passageway leading to the interior of the diffuser, from the intake chamber 16. The vertical, cylindrical wall 23 of the diffuser fits concentrically within the casing 12.

A vertically disposed annular flange 24 bounds the diffuser passageway 22 and extends upwardly within the diffuser wall 23 where it serves as a thrust bearing for the first of a series of impellers 25.

Each of the impellers 25 is of identical construction and comprises spaced upper and

lower shrouds

26 and 27 respectively. The upper shroud 26 is provided with a raised boss 28, the central portion of which carries a vertical hub 29, concentrically arranged for longitudinal sliding engagement with the pump shaft 17 to which it is operatively connected by a key rib 30. The hub 29 3 of each impeller projects both above and below the web of its boss 28, and as in the case of my said former patent, the opposite ends of each hub are spaced from the corresponding ends of the but of an adjacent impeller, i107 permit limit of longitudinal movement on the shaft The lower shroud 27 of the impeller is provided on its under surface with an annular rib 31 which bounds an axial fluid passageway 32 surrounding the shaft 17 and the under face of this rib is recessed to form an annular groove 33 adapted to receive and register with the annular flange 24 on the respective diffuser 19-19(1. An annular thrust washer 34 is interposed between the opposed bearing faces of each of the flanges 24 and the grooves 33. to receive the down thrust of its respective impeller. Each impeller is provided with a plurality of radial passages 35 through which the fluid is adapted to be thrown outwardly by centrifugal force into the diffuser space.

Immediately above the bottom diffuser 19 is the first of a series of intermediate diffusers 19a, each of which is of identical construction. The adjoining annular edges of adjacent diffusers are provided with complementary flanges and recesses. as at 36 whereby, when the diffusers are inserted within the casing 12 they bear a nested relationship. The intermediate diffusers 19a differ from the bottom diffuser 19 in that each is provided with a central bearing sleeve 37 having a bore, coaxial with the shaft 17 and of an internal diameter to receive the adjacent ends of the hubs 29 of the impellers next above and below. The lower portion of the bearing sleeve 37 flares outwardly and terminates in a horizontal bottom disc 38, connected to the main web of the diffuser by a series of radial fins 39 which in turn define a series of radial passages 40. As seen in Figure 2. the depending disc 38 and the passages 40 of one diffuser extend downwardly into the top portion of the diffuser next below. the radial limits of the disc 38 and the ports or passageways 40 being spaced from the inner periphery of the diffuser within which they fit to permit fluid intake.

The upper end of each bearing sleeve 37 flares outwardly and terminates in a bearing head or rim 41 which is received in a complementary recess on the inner side of the boss 28 of the corresponding impeller. A thrust washer 42 is interposed between the opposite faces of the bearing head 41 and boss 28. A second thrust washer 43 is inserted between the boss 28 of each impeller and the under surface of the disc 38 of the diffuser next above. Thus, each impeller is afforded radial hearing support bv the engagement of its hub portions with the sleeves 37 of adjacent diffusers, its down-thrust being jointly borne by the

concentric thrust bearings

24 and 41 and its up-thrust being borne by the thrust washer 43.

The mushroomdike cross-sectional profile of each bearing sleeve 37 defines an annular fluid chamber which connects the passageways 40 of the diffuser and the passageways 35 of the respective impellers, so that the liquid will be thrown out through the passages 35 of the impellers and will be conducted by the diffusers inwardly to the intake of the next impeller, for continued travel through the pump. the liquid being thrown outwardly through the impeller passages 35 and flowing inwardly through the diffuser passages 40 to the central port 32 of the next impeller.

After the last stage of diffusers and impellers is inserted in the casing 12. a top diffuser 19!) generally similar to the others with the exception of its bearing porion. is inserted. Instead of the mushroom-like bearing sleeve 37, the top diffuser 1% has a cylindrical bearing member 44 which is elongated to enclose the upper end of the pump shaft 17 and is provided with a diffuser bushing 45 of cylindrical shape to fit between the shaft 17 and the inner periphery of the bearing 44, filling the space above the uppermost hub 29 of the top impeller. The upper end of the bearing 44 may be closed by a top Washer 46, secured in place by any suitable means.

The casing head 13 is screwed into the top of the casing 12, firmly securing the nested diffusers in proper rclution between the head 13 and the base 14, thus forming a rigid multi-stage assembly.

It will be seen that by this particular arrangement of diffuser bearing sleeves 37, embracing the oppositely rlirectcd hub portions 29 of adjacent impellers, I achieve a maximum bearing supported surface for the shaft 17. it will be apparent from Figure 2 of the drawings that at least of the shaft is supported in bearing surfaces forming a rigid part of the nested diffusers, through the medium of the intervening hubs 29 of the impellers it will also be apparent that by supporting the impellers of each stage on their respective diffusers through the annular bearing flanges 24 and rims 41, and providing the respective thrust washers 34. 42 and a3, a dual function is performed. These thrust washers assist in carrying the thrust of the impellers and at the same time seal the complementary surfaces to prevent passage of sand particles between the bearing areas. This protection is further increased by arranging the impeller hubs 29 so that the ends of adjacent hubs are enclosed within a diffuser bearing sleeve 37. In other words, each sleeve 37 and its washers 42, acts as a shield for the adjoining hubs and prevents sand from reaching the clearance between the hub 29 and bearing sleeve 37.

It naturally follows that by increasing to a maximum the bearing support of the pump shaft and protecting the bearing surfaces of the impellers from sand abrasion, I have provided a pump assembly capable of a far greater service life than pump structures heretofore known.

All of the advantages of the structure of my former patent are maintained in this improved sand resistant pump in which the impellers are constrained to rotate with the shaft but are free to move axially thereof, whereby each individual impeller thrust is carried by respcctive diffuser sections, instead of being transmitted to the shaft. However in the present structure this thrust sup port is borne at two points on each diffuser, instead of one.

From the foregoing it is believed that my invention may be readily understood by those skilled in the art. without further description, it being borne in mind that numerous changes may be made in the details of construction without departing from the spirit of the invention as set forth in the following claims.

I claim:

1. In a vertical multi-stage centrifugal pump. including nested diffusers forming impeller chambers and impellers therein; a sand-resistant bearing assembly for each stage, comprising a fixed radial bearing sleeve, axially supported by a difliuser, said sleeve defining the inner limits of the respective impeller chambers and terminating at its upper end in an annular down thrust bearing rim, the impeller of said stage having a hub longitudinaly slidablc on said shaft and projecting axially in opposite directions beyond the impeller body, oppose-d projecting portions of adjacent hubs being interposed between the shaft and a common bearing sleeve, an annular bearing surface on the underside of said impeller body, complementary to said bearing rim and means keying the impellers to said shaft.

2. In a multi-stage centrifugal pump, a diffuser and impeller assembly comprising a series of annular diffuser housings, each adapted to be nested with adjacent diffuser housings, impeller chambers formed by adjacent diffuser housings, the central portion of each diffuser housing forming an upstanding radial bearing sleeve which defines the inner limits of said chamber, a pump shaft extending axially through said diffuser housings impellers in said housings having hubs keyed to said shaft and rotatably supported in respective sleeves, each of said hubs having portions which project longitudinally in opposite directions beyond the body of the impeller, the opposed projecting portions of adjacent hubs being jointly supported by the sleeves of adjacent diffusers, the downwardly projecting portions of said hubs being bounded by a down thrust bearing surface adapted to be rotatably supported on the upper ends of respective sleeves, and means for preventing relative rotation between said hubs and shaft,

3. Apparatus as claimed in claim 2, wherein the opposed ends of adjacent hubs are spaced from one another within the respective diffuser sleeves, the latter forming shields which isolate the hubs and shaft from the cham-- bers of said diffusers.

4. In a multi-stage centrifugal pump, including a series of nested diffusers forming impeller chambers, a shaft extending axially through said diffusers, impellers having hubs mounted on said shaft for rotation therewith in respective chambers, each impeller having top and bottom shrouds, the top shroud being fixed to and extending radially from a point intermediate the ends of. its hub, respective differs having axially positioned hub-bearing sleeves, separated longitudinally of the shaft at interval: to accommodate respective top shrouds, each sleeve terminating at its upper end in a thrust bearing rim adapted to rotatably support the under side of the respective top shroud, down thrust washers between the under side of each top shroud and its supporting rim. up thrust washers between the upper side of each top shroud and the base of the adjacent diffuser sleeve, a second thrust bearing spaced radially from each bearing sleeve, and a complementary bearing surface on the bottom shroud of the respective impeller, the uppermost diffuser being provided with an axially positioned bearing sleeve to receive the top of said shaft.

5. A multi-stage centrifugal pump as claimed in claim 4, wherein opposite ends of the hubs of two adjacent impellers are spaced from one another and are received by the radial bearing sleeve of a common intervening diffuser.

6. In a vertical, multi-stage centrifugal pump, including a series of nested annular diffusers forming impeller chambers having fluid passageways, a shaft extending axially through said diffusers, and impellers mounted on said shaft for rotation in respective chambers, sand resist ant bearing assemblies for respective stages, each comprising a substantially spool-shaped radial bearing sleeve supported at its base by a diffuser, the outer periphery of said sleeve defining the axial boundary of the fluid passageway of the respective diffuser and its inner periphery encircling said shaft in spaced relation, the upper end of said sleeve terminating in an annular radially extended thrustbearing rim, hubs on each impeller, keyed to said shaft in vertical succession, each hub having a pair of oppositely directed coaxial shaft-engaging extensions, opposed hub extensions of adjacent impellers, being rotatably embraced by the inner periphery of a common, intervening bearing sleeve, and an annular thrust bearing surface on each impeller rotatably supported by the thrust-bearing rim of the corresponding sleeve 7. A vertical, multi-stage centrifugal pump comprising a series of nested diffusers forming impeller chambers having fluid passageways, shaft receiving openings at the axis of said diffusers, a shaft extending axially through said openings, impellers in said chambers, hubs on each impeller, keyed to said shaft in vertical successic-n, each hub having a pair of oppositely directed, co axial shaft engaging extensions, one extension of each hub being directed downwardly within its respective diffuser and the opposite extension of said hub being directed upwardly Within the diffuser next above and terminating contiguous to the adjacent hub extension of the succeeding impeller, a substantially spool-shaped, radial bearing sleeve supported by each diffuser, extending upwardly therein and bounding its shaft receiving opening, said sleeve defining the axial boundary of the fluid passageway in the respective diffuser and rotatably receiving the opposed extensions of adjacent hubs with its intermediate portion overlying the contiguous extremities of said opposed extensions, said sleeve terminating at its upper end in an annular thrust bearing rim, and an annular thrust bearing surface on the respective impeller, rotatively supported by said rim.

References Cited in the file of this patent UNITED STATES PATENTS 979,634 Akimofi Dec. 27, 1910 1,037,243 Guy Sept. 3, 1912 1,090,073 Kieser Mar. 10, 1914 2,078,783 Welch Apr. 27, 1937 2,108,786 Bigelow Feb. 22, 1938 2,270,666 Arutunofi Ian. 20, 1942 2,319,730 Garraway May 18, 1943 2,571,672 Bradley Oct. 16, 1951