DE2536483A1 - HYDROSTATIC PUMP - Google Patents

Description

R. 28 0 0
July 14, 1975 Wd / Ht

Attachment to
Patent and
Utility model registration

ROBERT BOSCH GMBH ₅ 7 S tutfgart

Hydrostatic pump

The invention relates to a hydrostatic pump, in particular Vane pump, with approximately radial recesses of a rotor, tightly slidably arranged displacement bodies, which with their The ends protruding from the rotor slide on a curve producing a stroke and the cylindrical rotor with its parallel ones Side surfaces is arranged largely tightly between adjacent housing walls and a white 'mounted in the housing owns pintle.

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In such known pumps it can happen that the rotor side surfaces to the center of the rotor and the shaft journal Leaking pressure medium, which is often under a return pressure of several bar, exerts an axial thrust, which must be absorbed by complex measures in or on the pump housing.

It is an object of the invention to provide a pump of the type mentioned in the opening paragraph To create way in which the axial thrust exerted on the rotor is completely balanced and that on one associated with it drive spindle exerted thrust can be absorbed with very simple means. This is achieved according to the invention in that the shaft journal Connected in a rotationally fixed manner to a drive spindle via a cylindrical coupling part also mounted in the housing is, and that the spaces on both sides of the rotor or its shaft journal through a hole formed in these parts are connected to each other.

Such a pump has the advantage that the axial thrust on cie Drive spindle can be accommodated by a single ball bearing, and the rotor itself is relieved of axial forces.

An embodiment of the invention is shown in the drawing. This shows in

1 shows a longitudinal section through a vane pump;

2 shows the shaft journal of the pump rotor rotated by 90 ° ;

3 shows a longitudinal section through a second embodiment a vane pump;

FIG. II shows a section along IV-IV according to FIG. 3.

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The pump housing 10 according to the exemplary embodiment in FIG. 1 has a housing middle part 11 which is closed on both sides by covers 12, 13. The housing middle part 11 has a recess Ik ₉ which at the same time forms a stroke-generating curve for blades 15, which are arranged in a known manner so as to slide tightly in slots of a rotor 16. The rotor 16 is installed between the covers 12, 13 with the least possible play. As an integral component, it has a shaft journal 17 which is mounted in a longitudinal bore 18 ′ of a neck-like extension 18 of the cover 13. The axis of the bore 18 ′ runs coaxially to that of the rotor 16.

The shaft journal 17 has at its end facing away from the rotor a flat web 19 which fits into a transverse slot 20 of a coupling part 21, which is also in the bore 18 ^! is stored. At its end opposite the slot 20, the coupling part 21 has a recess 22 with an internal serration 22 ', in which an external serration 23' of a spindle 23 fits.

The spindle 23 consists of a front part 2k carrying the serration with a collar 25 which rests on the coupling part 21, a central, tubular part 26 and an outer part 27. These three parts are welded to one another.

A short pipe section 28 is welded to the tubular part 26, which rests with its shoulder 29 on the inner ring 30 of a ball bearing 31, and the other side of the inner ring is supported on a shoulder 27 ′ of the outer part 27. The outer ring of the ball bearing 31 is held in an elongated sleeve 33, which is screwed to the cover 13 with its flange J> k.

The coupling piece 21 is sealed radially outward by a sealing ring 35 and against axial displacement by a

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assigned in an annular groove 36 in the neck-like extension 18 Secured snap ring 37, which engages in an outer annular groove (21 ') on the coupling part 21.

The shaft journal 17 and the rotor 16 penetrate a longitudinal bore 38, which opens into a cylindrical recess 39 on the cover 12, which has the same outer diameter as the shaft journal 17. A transverse bore 40 runs from the longitudinal bore 38 to an annular groove 17 ', which extends at the transition from the shaft journal 17 to the rotor 16 is located.

By turning the spindle 23, the rotor 16 is over the coupling piece 21 set in rotation so that the pump begins to deliver pressure medium. Pressure medium can run along the side surfaces of the rotor into the annular space 39 of the cover 12 'and the annular groove 17' via the Longitudinal bore 38 as well as the slot 20 and the web 19 in the space formed between the coupling part 21 and the shaft journal 17 penetrate the bore 18 '. This leaking pressure medium is under return pressure. Since the annular space 39 has the same diameter like the shaft journal 17 », the rotor is pressure balanced. However, the return pressure acts on the coupling part 21, from which the force is transferred to the spindle 23 via the collar 25. The spindle 23 is supported by the pipe section 29 on the inner ring 30 of the ball bearing 31 from. It can be seen from this that no ball bearing is necessary for mounting the coupling part 21 and that the axial forces added by the single ball bearing 31, which is necessary anyway will.

The pump housing 41 according to the exemplary embodiment in FIGS. 3 and 4 again has a housing middle part 42 which is closed on both sides by covers 43, 44. These parts are held together by screws 45, and the housing parts 14 and 44 are centered by a cylinder pin 46. A continuous recess 47 of the central part 42 is designed as a stroke-generating curve for blades 48, which are arranged so as to slide tightly in approximately radially extending slots ^ 9 of a rotor 50. The rotor 50 has a left stub shaft 51 and a right shaft journal 52, both of which have the same diameter. Of the

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Stub shaft 51 protrudes into an annular space 43 'of the cover 43, the Shaft journal 52 has a web 54 which is inserted into a transverse slot 55 of a coupling part 56 engages.

At its end facing away from the rotor, the coupling part 56 has an annular space 57 with internal serration 57 ', in which the external serration 58 'of a spindle 58 engages. The coupling part 56 is supported on a collar 59 of the spindle 58. The coupling piece 56 is radially outward by a Sealing ring 60 sealed.

The spindle 58 has a collar 62 which is supported on the inner ring 63 of a ball bearing 64. The other side of the inner ring is supported on a ring nut 65 which is screwed onto an external thread part 66 of the spindle and the inner ring of the ball bearing presses against the collar 62. The outer ring 67 of the ball bearing is supported on the shoulder 68 * of a sleeve 68, which is fastened with its flange-like part 69 on the cover 42 with the help of the screwdriver 45. The outer ring 67 of the ball bearing is fixed by a snap ring 70 in the axial direction.

On the outer circumference of the shaft 15 51 is a self-centering one Bushing 71 arranged, the outer diameter of which is smaller than that Diameter of the recess 53. An annular groove 72 is formed on the inner diameter of the bushing, in which a sealing ring 73 is located. which has 1 ^ 51 mute contact with the outer diameter of the shaft. The bushing 71 is held against the end wall of the recess by a plate spring 74, which is supported on a snap ring 75 pressed.

Together with the rotor shaft journal passes through a central through hole 76. Furthermore, penetrates the rotor has a bore 77 at the 'transition from the rotor to the shaft journals 51, 52. At the stub shaft also is arranged in the lid 44 sealing ring 18 is present.

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The bores 76 and 77 in the rotor prevail on both sides the same pressure, and there the shaft journals 51 »52 the same Diameter also have the same force, i.e. H. the rotor is pressure balanced. The prevailing pressure corresponds to the return pressure. The seals 73 and 78 seal against this return pressure.

Similar to the previous embodiment, however, an axial force acts on the coupling part 56, exerted by the return pressure which acts on the end face of the coupling piece. This force is transmitted from the coupling element over the collar 59 on the spindle 68 and the shoulder 62 directed to the ball bearing 6 · ^l \, where the force of the sleeve 68 and is thus absorbed by the pump housing.

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Claims (1)

"7 - ^R * 2") O Ö Expectations 1.) Hydrostatic pump, in particular vane pump, with approximately radial recesses of a rotor, tightly sliding displacer bodies, which slide with their ends protruding from the rotor on a curve generating a stroke and the cylindrical rotor with its parallel side surfaces is arranged largely tightly between adjacent housing walls and has a shaft journal mounted in the housing, characterized in that the shaft journal (17 * 52 ) is non-rotatably connected to a drive spindle (23, 8) via a cylindrical coupling part (21, 56) also mounted in the housing (10, Hl), and that the spaces on both sides of the rotor (16, 50) or its shaft journal are connected to one another by a bore (38, 76) formed in these parts. 2. Pump according to claim 1, characterized in that the coupling part (21, 56) on the one hand has a transverse slot (20, 55), in polygons a web (19 _S 5 ¹ O of the shaft journal (17 »52) engages and on the other hand a Inneh - has serration (22 ¹ , 57 ') into which one end of the spindle dips with an external serration (23 *, 58'). 3. Pump according to claim 1 and / or 2, characterized in that the coupling piece with its side facing away from the rotor rests against the spindle (23, 58) under fluid pressure, which is ? Q981 1/0016 even via a roller bearing (31, 64), in particular ball bearings, is supported on an extension (33, 68) of the pump housing. 1 |. Pump according to one of Claims 1 to 3, characterized in that that the coupling piece is sealed on its outer circumference to the outside by at least one sealing ring (35, 80). 5. Pump according to claim 1 and / or 2, characterized in that the rotor (50) has a shaft stub (51) with the same outer diameter as the shaft journal (52), and that a sealing arrangement (71 7 ² O is provided on the outer circumference of this shaft stub which seals the annular space (53) receiving the stub shaft towards the inside, and that part of the space which is sealed towards the inside extends through a bore (76) extending through the rotor, the stub shaft and the shaft journal to the coupling part (56). 6. Pump according to claim 5, characterized in that the sealing arrangement (71 "75) consists of a self-centering bush (71) and a sealing ring (73) which lies in an annular groove (72) on the inner wall of the bush and with the stub shaft is in contact, and that a compression spring (7 ¹ O is located in the interior (53), which presses the socket on the side remote from the rotor end face of the inner space. 7. Pump according to one of claims 1 to 6, characterized in that that at the transition from the rotor to the shaft journal a continuous, - 9 -7098 11/00 16 2536A83 - 9 - Row 2 ^Λ Ο Ο Bore (77) running parallel to the rotor axis is formed. 8. Pump according to one of claims 1 '. to 7 »characterized in that a transverse bore (40) extends outward from the longitudinal bore (38) penetrating the rotor (16) to an annular groove (17 *) which at the transition from the shaft journal (17) to the rotor
(16) is formed. 9. Pump according to one of claims 1 to 8, characterized in that in the housing bore (l8 ^f ) of the ceiling 3s (13) a
Annular groove (36) is formed in which a snap ring (37) rests in an outer annular groove (21 *) on the coupling part
(21) takes effect. f \ 7098 11/00 16 Blank page