CENTRIFUGAL PUMP WITH IMPELLER CENTERING AND VIBRATION DAMPENING

Abstract

A centrifugal pump for delivering coolant in vehicles and providing a centering of a pump impeller and a dampening of motor vibrations. The centrifugal pump having a pump housing consisting of a pump head, which forms a single part with a suction nozzle, a discharge nozzle, a spoke, and a bearing support, in which a counter bearing is mounted, in which a first region of a shaft is supported, around which a pump impeller is rotatably mounted via a slide bearing secured in the pump impeller, the spoke retaining the bearing support in a central position within the pump head and having a containment shell, which separates a wet chamber from a dry chamber and in which a second region of the shaft is supported. The invention seeks to solve the problem of providing in a generic centrifugal pump.

Claims

1. A centrifugal pump comprising: a pump housing including a pump head, which forms a single part with a suction nozzle, a discharge nozzle, a spoke, and a bearing support; a shaft having first and second ends; a counter bearing mounted in the bearing support for supporting the first end of a the shaft; a pump impeller rotatably mounted on the shaft via a slide bearing secured in the pump impeller; the spoke retaining the bearing support in a central position within the pump head and having a containment shell, which separates a wet chamber from a dry chamber and in which the second end of the shaft is supported; a wound stator being accommodated in the dry chamber and a permanent magnet rotor of an electronically commutated direct-current motor being accommodated in the wet chamber and the permanent magnet rotor forming a structural unit with the pump impeller; wherein the slide bearing has an inner cylindrical shell-shaped radial bearing surface and a convex or concave axial bearing surface, the axial bearing surface being axially supported on a counter bearing surface of a concave and a convex counter bearing, respectively, said counter bearing being retained in the bearing support, and the bearing support being connected to the suction nozzle such that at least one change in the direction of vibration between the bearing support and the suction nozzle can be effected.

2. The centrifugal pump according to claim 1, further comprising first and second transition regions between a spoke and the bearing support, the first transition region being significantly spaced apart in the axial direction from the second transition region between the same spoke and the suction nozzle.

3. The centrifugal pump according to claim 2, wherein the first transition region does not axially overlap the second transition region.

4. The centrifugal pump according to claim 2, wherein at least one spoke substantially protrudes radially from the suction nozzle and axially transition into the bearing support.

5. The centrifugal pump according to claim 1, wherein the spoke or the spokes describe a curve with at least one inflection point between the bearing support and the suction nozzle.

6. The centrifugal pump according to claim 1, wherein a least one spoke describes a curve with at least two inflection points between the bearing support and the suction nozzle.

7. The centrifugal pump according to claim 1, wherein the axial bearing surface of the slide bearing is convex and the counter bearing surface of the counter bearing is concave.

8. The centrifugal pump according to claim 1, wherein the axial bearing surface or the counter bearing surface is a ball ring section.

9. The centrifugal pump according to claim 1, wherein one, two, or three spokes are provided between the bearing support and the suction nozzle and form a single part with the pump head.

10. The centrifugal pump according to claim 1, wherein the slide bearing and/or the counter bearing has/have an annular collar.

11. The centrifugal pump according to claim 1, wherein the radii of the axial bearing surfaces of the slide bearing and of the counter bearing differ slightly from one another so that contact preferably occurs in the region near the shaft.

12. The centrifugal pump according to claim 1, further comprising a small annular gap provided between the shaft and the slide bearing and the radial bearing takes place via the counter bearing during operation.

13. The centrifugal pump according to claim 1, wherein the slide bearing and/or the counter bearing is joined by primary forming.

14. The centrifugal pump according to claim 13, wherein the slide bearing and/or the counter bearing have a knurling on the outer circumference.

15. The centrifugal pump according to claim 1, wherein the slide bearing consists of steel and the counter bearing is made of plastic, or vice versa.

16. The centrifugal pump according to claim 1, wherein the slide bearing and/or the counter bearing are made of steel.

17. The centrifugal pump according to claim 1, wherein the slide bearing and/or the counter bearing are made of ceramic.

Description

BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWINGS

[0020] The invention is described below with exemplary embodiments that are explained in greater detail using the figures. They show:

[0021] FIG. 1 is a sectional view of the centrifugal pump according to the invention,

[0022] FIG. 2 is an enlarged section A of FIG. 1,

[0023] FIG. 3 is a centrifugal pump according to the prior art,

[0024] FIG. 4 is a counter bearing with annular collar,

[0025] FIG. 5 is a slide bearing with annular collar,

[0026] FIG. 6 is a sectional view of a second embodiment,

[0027] FIG. 7 is a stylized representation of a spoke,

[0028] FIG. 8 is a variant of the spoke of FIG. 7, and

[0029] FIG. 9 is a second variant of the spoke of FIG. 7.

[0030] The reference numbers with apostrophe and the corresponding reference numbers without apostrophe refer to details with the same name in the drawings and the drawing description. This reflects use in another embodiment, the prior art, and/or the detail is a variant. The claims, the description introduction, the reference number list and the abstract contain only reference numbers without apostrophe for the sake of simplicity.

DETAILED DESCRIPTION OF THE INVENTION

[0031] In describing preferred embodiments of the present invention illustrated in the drawings, specific terminology is employed for the sake of clarity. However, the invention is not intended to be limited to the specific terminology so selected, and it is to be understood that each specific element includes all technical equivalents that operate in a similar manner to accomplish a similar purpose.

[0032] FIG. 1 shows a sectional view with the parts of the centrifugal pump that are essential for the invention. Illustrated in particular are: a pump head 16, with a suction nozzle 2, a discharge nozzle 3, spokes 11, a bearing support 12, and a pump head flange 26. Furthermore a pump impeller 6 is arranged on a shaft 5. A slide bearing 7 is secured within the impeller 6, which rotatably mounts the pump impeller 6 via a radial bearing surface 8 onto the shaft 5 and is supported axially on a counter bearing 10 accommodated in the bearing support 12. At its front end, the slide bearing 7 has a convex spherical axial bearing surface 9, which fits and interacts with a concave counter bearing surface 23 of the counter bearing 10. The counter bearing 10 is secured in the bearing support 12 and serves both the axial bearing and the centering of the pump impeller 6. In this case, the pump impeller 6 is illustrated without a permanent magnet, which directly adjoins a vane 27. The shaft 5 is supported on a first region 4 in the bearing support 12 and on another second region 28 in a containment shell 30 not shown here.

[0033] FIG. 2 shows the bearing region of the detail A of FIG. 1 somewhat enlarged, with the pump head 16, the suction nozzle 2, the spoke 11, the bearing support 12, the shaft 5, with its first region (end region) 4, the slide bearing 7, the counter bearing 10, the pump impeller 6. The radial bearing surface 8 as well as the spherical axial bearing surface 9 of the slide bearing 7 and the concave counter bearing surface 23 of the counter surface 10 can be seen more clearly here than in FIG. 1.

[0034] FIG. 3 shows a centrifugal pump 1′ known from the prior art, with a pump head 16′, which comprises a suction nozzle 2′, spokes 11′, a bearing support 12′, and a pump head flange 26′, a containment shell 30′, which comprises a shell bottom 29′, a can 17′, a containment shell flange 31′, and a shaft receptacle 18′ protruding from the shell bottom 29′, a pump impeller 6′, which comprises a magnetic ring 33′ and an adjoining vane 27′, as well as a slide bearing 7′, a stator 19′, a permanent magnet rotor 20′, a circuit board 35′, and a stator housing 32′. The stator 19′ and the circuit board 35′ are accommodated in a dry chamber, which is delimited by the containment shell 30′ and the stator housing 32′. The stator consists of a ring winding 36′ and claw pole plates 37′. The pump impeller 6′ is rotatably accommodated on a shaft 5′ in a pump chamber 34′ consisting of the pump head 16′ and the can 30′, the shaft being accommodated and supported in the shaft receptacle 18′ and the bearing support 12′. In the bearing support 12′, a counter bearing 10′ is accommodated, which serves as an axial start-up for the slide bearing 7′. The spokes 11′ connect the pump head 16′ with the bearing support 12′ in a straight line.

[0035] FIG. 4 shows an alternative embodiment of a counter bearing 10″, which comprises a first hollow cylinder 24″ and an annular collar 22″ that is concave at its front end. An axial counter bearing surface 23″ is formed by the front end of the first hollow cylinder 24″ and the annular collar 22″.

[0036] FIG. 5 shows an alternative embodiment of a slide bearing 7″, which comprises a second hollow cylinder 25″ and an annular collar 21″ that is convex at its front end. An axial bearing surface 9″ is formed by the front end of the second hollow cylinder 25″ and the annular collar 21″.

[0037] FIG. 6 shows a sectional view of a second embodiment of the invention, in which the alternative embodiments of the slide bearing 7″ and the counter bearing 10″ of FIGS. 4 and 5 are used. Shown are a pump head 16″, which comprises spokes 11″, a bearing support 12″, and the counter bearing 10″, a pump impeller 6″, which comprises a vane 27″, the slide bearing 7″, and a magnetic ring 33″, and a shaft 5″, which is accommodated with a first region 4″ in the counter bearing 10″. The slide bearing 7″ is fixedly connected to the pump impeller 6″, and the counter bearing 10″ is fixedly connected to the bearing support 12″. The convex axial bearing surface 9″ and the concave counter bearing surface 23″ result in a self-centering of the pump impeller 6″. In this case, the radii of the concave or convex surfaces differ slightly from one another so that the two surfaces contact each other primarily in their region close to the shaft. Depending on the wear and tear, the size of the contacting surfaces can increase over the service life. The convex annular collar 21″ and the concave annular collar 22″ also serve as axial stop during mounting in the pump impeller 6″ and in the bearing support 12″, respectively.

[0038] FIG. 7 shows a stylized illustration of a spoke 11′″, which does not have any inflection points 15 but protrudes radially from the suction nozzle 2′″ and axially adjoins a bearing support 12′″. A transition region 13′″ between the spoke 11′″ and the bearing support 12′″ is spaced apart from a transition region 14′″ between the suction nozzle 2′″ and the spoke 11′″ by the length D′″.

[0039] FIG. 8 shows a stylized illustration of a variant of FIG. 7 with a suction nozzle 2″″, a spoke 11″″ and a bearing support 12″″. The spoke 11″″ has an inflection point 15″″. The spoke 11″″ protrudes radially from the suction nozzle 2″″ and radially adjoins the bearing support 12″″. A transition region 13″″ between the spoke 11″″ and the bearing support 12″″ is spaced apart from a transition region 14″″ between the suction nozzle 2″″ and the spoke 11″″ by the length D″″.

[0040] FIG. 9 shows a stylized illustration of another variant of FIGS. 7 and 8 with a suction nozzle 2′″″, a spoke 11′″″ and a bearing support 12′″″. The spoke 11′″″ has two inflection points 15′″″. The spoke 11′″″ protrudes radially from the suction nozzle 2′″″ and radially adjoins the bearing support 12′″″. A transition region 13′″″ between the spoke 11′″″ and the bearing support 12′″″ is spaced apart from a transition region 14′″″ between the suction nozzle 2′″″ and the spoke 11′″″ by the length D′″″.

[0041] Transition geometries between these examples are also conceivable. The shape of the spoke can also deviate significantly from the illustrations. In particular, the cross-sectional surface of the spokes can change significantly along its progression.

[0042] Modifications and variations of the above-described embodiments of the present invention are possible, as appreciated by those skilled in the art in light of the above teachings. It is therefore to be understood that, within the scope of the appended claims and their equivalents, the invention may be practiced otherwise than as specifically described.

TABLE-US-00001 LIST OF REFERENCE SYMBOLS: 1 Centrifugal pump 2 Suction nozzle 3 Discharge nozzle 4 First region 5 Shaft 6 Pump impeller 7 Slide bearing 8 Radial bearing surface 9 Axial bearing surface 10 Counter bearing 11 Spoke 12 Bearing support 13 First transition region 14 Second transition region 15 Inflection point 16 Pump head 17 Can 18 Shaft receptacle 19 Stator 20 Permanent magnet rotor 21 Convex annular collar 22 Concave annular collar 23 Axial counter bearing surface 24 First hollow cylinder 25 Second hollow cylinder 26 Pump head flange 27 Vane 28 Second region 29 Shell bottom 30 Containment shell 31 Containment shell flange 32 Stator housing 33 Magnetic ring 34 Pump chamber 35 Circuit board 36 Ring winding 37 Claw pole plate