VEHICLE FLUID PUMP

Abstract

An electronic motor vehicle fluid pump includes a pump housing and a motor which is electronically commutated. The motor includes a motor rotor which is permanently magnetized, a motor stator with a stator body and a plurality of stator coils, a cylindrical metal motor can which fluidically separates the motor stator and the motor rotor, and a motor electronics unit with an electric ground terminal. The motor electronics unit is arranged at a dry side of the cylindrical metal motor can and is electrically connected to the plurality of stator coils so as to energize the plurality of stator coils to drive the motor rotor. A pump wheel is arranged to co-rotate with the motor rotor. An electric connection provides a direct electric connection between a motor electronics unit ground terminal and the cylindrical metal motor can

Claims

1-9. (canceled)

10: An electronic motor vehicle fluid pump comprising: a pump housing; a motor which is electronically commutated, the motor comprising, a motor rotor which is permanently magnetized, a motor stator comprising a stator body and a plurality of stator coils, a cylindrical metal motor can which is configured to fluidically separate the motor stator and the motor rotor, and a motor electronics unit comprising an electric ground terminal, the motor electronics unit being arranged at a dry side of the cylindrical metal motor can and being electrically connected to the plurality of stator coils so as to energize the plurality of stator coils to drive the motor rotor; a pump wheel which is arranged to co-rotate with the motor rotor; a motor electronics unit ground terminal; and an electric connection is configured to provide a direct electric connection between the motor electronics unit ground terminal and the cylindrical metal motor can.

11: The electronic motor vehicle fluid pump as recited in claim 10, wherein the pump housing is made of a plastic.

12: The electronic motor vehicle fluid pump as recited in claim 10, wherein the cylindrical metal motor can is provided as a cylindrical metal tube.

13: The electronic motor vehicle fluid pump as recited in claim 10, wherein the cylindrical metal motor can is provided as a cylindrical metal pot.

14: The electronic motor vehicle fluid pump as recited in claim 13, further comprising: a circular metal pot comprising a bottom which comprises a center, wherein, the electric connection is further configured to be in electrical contact with the center of the bottom of the circular metal pot.

15: The electronic motor vehicle fluid pump as recited in claim 13, further comprising: a thermal compound, wherein, the cylindrical metal motor can comprises an axial end, and the motor electronics unit is arranged at the axial end of the cylindrical metal motor can so as to be electrically isolated from and thermally connected to the cylindrical metal motor can via the thermal compound.

16: The electronic motor vehicle fluid pump as recited in claim 10, wherein, the cylindrical metal motor can comprises a circumferential surface, and the electric connection is in electrical contact with the circumferential surface of the cylindrical metal motor can.

17: The electronic motor vehicle fluid pump as recited in claim 10, wherein the electric connection is provided as a metal spring which is fixed to the motor electronics unit ground terminal and which is in electrical contact with the cylindrical metal motor can.

18: The electronic motor vehicle fluid pump as recited in claim 10, wherein the electric connection is further electrically connected with the stator body.

Description

[0019] An embodiment of the invention is described with reference to the accompanying drawings, wherein

[0020] FIG. 1 shows a schematic longitudinal section of a vehicle fluid pump according to the invention,

[0021] FIG. 2 shows an alternative motor can and an alternative connection means of the vehicle fluid pump of FIG. 1, and

[0022] FIG. 3 shows an alternative arrangement of a motor control unit and another alternative connection means of the vehicle fluid pump of FIG. 1.

[0023] FIG. 1 shows a schematic longitudinal section of a vehicle fluid pump 110 with a plastic pump housing 112, a pump wheel 114 co-rotatably attached to a rotor shaft 116 of an electronically commutated motor 118. The pump wheel 114 is an impeller. The electronically commutated motor 118 is provided with a motor stator 120, a permanently magnetized motor rotor 122 co-rotatably provided with the rotor shaft 116 and rotatable around an axis of rotation A, a cylindrical metal motor can 124 and a motor electronics unit 126.

[0024] The motor stator 120 comprises a ferromagnetic stator body 128, preferably a laminated stator body 128, and comprises several stator coils 130 electrically connected to the motor electronics unit 126.

[0025] The cylindrical metal motor can 124 is provided as a cylindrical metal pot 132 axially supported by the pump housing 112. The axial cylinder centerline C1 of the motor can 124 corresponds to the axis of rotation A. The motor can 124 fluidically separates the motor stator 120 arranged at the dry radial outside of the motor can 124 from the motor rotor 122 arranged at the wet radial inside of the motor can 124.

[0026] The motor electronics unit 126 is arranged axially outwardly of and close to the motor can bottom 134 at the dry side of the motor can 124. The motor electronics unit 126 commutates the electric energy energizing the stator coils 130 for driving the motor rotor 122 and, as a result, for driving the co-rotatably provided pump wheel 114. The motor electronics unit 126 comprises an electric ground terminal 136 which is directly electrically connected to the motor can 124 by an electric connection means 138. The electric ground terminal 136 can be, for example, provided as a printed circuit path electrically connected to the chassis ground of the vehicle pump 110.

[0027] The electric connection means 138 is provided as a metal coil spring 140 fixed, for example soldered, to the motor electronics unit electric ground terminal 136 and being in touching electric contact with the center of the motor can bottom 134. The metal coil spring 140 is preloaded in axial direction to compensate axial oscillations of the motor electronics unit 126 with respect to the motor can 124 and, as a result, to assure a reliable electric connection. The electric connection means 138 equalizes the electric potentials of the motor electronics unit electric ground terminal 136 and of the motor can 124 so that the emitted interferences of the electronically commutated motor 118 are suppressed significantly. As a result, the EMC of the vehicle fluid pump 110 is improved.

[0028] FIG. 2 shows a motor stator 220 with a stator body 228 and with several stator coil 230, a motor control unit 226 with an electric ground terminal 236, an alternative motor can 224 and an alternative connection means 238 of the vehicle fluid pump 110.

[0029] The motor can 224 comprises a cylindrical metal tube 232 axially supported by the pump housing 212, and comprises a circular non-metallic motor can cap 233 fluid-tightly attached to the non-supported axial end of the metal tube 232.

[0030] The motor electronics unit 226 is arranged axially outwardly of the motor can 224 and close to the non-metallic motor can cap 233 at the dry side of the motor can 224. The motor electronics unit electric ground terminal 236 is directly electrically connected to the motor can 224 and to the stator body 228 by an electric connection means 238 provided as metal spring 240.

[0031] The metal spring 240 is fixed to the motor electronics unit electric ground terminal 236. The metal spring 240 is radially in contact with a circumferential surface 234 of the motor can 224 and axially in contact with the stator body 228. The metal spring 240 is preloaded in axial direction to compensate axial oscillations of the motor electronics unit 226 with respect to the stator body 228. The metal spring 240 is also preloaded in radial direction, in particular radially inwardly, to compensate radial oscillations of the motor electronics unit 226 with respect to the motor can 224.

[0032] The electric connection means 238 assures a reliable electric connection between the motor electronics unit electric ground terminal 236, the motor can 224 and the stator body 228 so that the electric potentials are equalized. As a result, emitted interferences of the electronically commutated motor 218 can be minimized and the EMC of the vehicle fluid pump 210 can be improved.

[0033] FIG. 3 shows a motor can 324 provided as a cylindrical metal pot 332, a motor control unit 326 with an electric ground terminal 336 and another alternative connection means 338 of the vehicle fluid pump 110.

[0034] The motor electronics unit 326 is arranged axially outwardly at the motor can bottom 334 at the dry side of the motor can 324. The motor electronics unit 326 is electrically isolated from and thermally connected with the motor can 324 by a thermal compound 342. The thermal compound 342 allows a heat transfer from the motor electronics unit 326 to the motor can 324 to efficiently dissipate heat generated in the motor electronics unit 326.

[0035] The motor electronics unit electric ground terminal 336 is directly electrically connected to the motor can 324 by an electric connection means 338 provided as metal leaf spring 340. The metal leaf spring 340 is fixed to the motor electronics unit electric ground terminal 336 and is in touching electric contact with the circumferential surface 335 of the motor can 324. The metal leaf spring 340 is preloaded in radial direction, in particular radially inwardly, to compensate radial oscillations of the motor electronics unit 326 with respect to the motor can 324. The electric connection means 338 assures a reliable electric connection between the motor electronics unit electric ground terminal 336 and the motor can 324 to equalize the electric potentials and, as a result, to improve the EMC of the vehicle fluid pump 310.

REFERENCE LIST

[0036] 110 vehicle fluid pump [0037] 112 plastic pump housing [0038] 114 pump wheel [0039] 116 rotor shaft [0040] 118 electronically commutated motor [0041] 120 motor stator [0042] 122 permanently magnetized motor rotor [0043] 124 cylindrical metal motor can [0044] 126 motor electronics unit [0045] 128 stator body [0046] 130 stator coils [0047] 132 cylindrical metal pot [0048] 134 motor can bottom [0049] 136 electric ground terminal [0050] 138 electric connection means [0051] 140 metal coil spring [0052] 220 motor stator [0053] 224 metal motor can [0054] 226 motor electronics unit [0055] 228 stator body [0056] 230 stator coils [0057] 232 metal tube [0058] 233 non-metallic motor can cap [0059] 236 electric ground terminal [0060] 238 electric connection means [0061] 240 metal spring [0062] 324 metal motor can [0063] 326 motor electronics unit [0064] 332 metal pot [0065] 334 motor can bottom [0066] 335 motor can circumferential surface [0067] 336 electric ground terminal [0068] 338 electric connection means [0069] 340 metal leaf spring [0070] 342 thermal compound [0071] A axis of rotation [0072] C1 cylinder centerline [0073] C2 cylinder centerline