DE102022208139A1 - Pump, especially gear oil pump - Google Patents

Abstract

The present invention relates to a pump 10, in particular a transmission oil pump. The pump 10 comprises an electric motor 20 with a stator 30 and a motor rotor 40 and a central axis 50. The pump 10 further comprises a pump device 60 with a gear pump 70, which has an internally toothed external gear 80 and an externally toothed internal gear 90, which run into one another. The pump device 60 is arranged within the electric motor 20. Furthermore, the pump device has an upper side plate 100 and a lower side plate 110. The pump device and the electric motor 20 are arranged on a base plate 120 and enclosed by a housing 130. The pump according to the invention is characterized in that the pump device 60 is arranged radially within the electric motor 20 and the external gear 80 of the pump device 60 is driven by the motor rotor 40.

Description

The present invention relates to a pump, in particular a gear oil pump, comprising an electric motor with a stator and a motor rotor, a central axis, a pump device with a gear pump with an internally toothed external gear and an externally toothed internal gear, which run into one another, the pump device having an upper side plate and a lower one Side plate includes, further comprising a base plate and a pump housing.

Such pumps are known from the prior art. In the known electric oil pumps, the individual components, namely the electric motor, the pump device and the electronics, are arranged along the same axis, i.e. axially one behind the other. The arrangement is usually as follows: electric motor, pump device, electronics. The drive shaft of the electric motor is coupled to the pump device. Both the electric motor and the pump device have housings.

Due to the axial arrangement of the different components, misalignment of the drive shaft of the electric motor and motor rotor as well as the pump rotor, which is arranged on the shaft, can often occur. Furthermore, such pumps require a large installation space due to the axial arrangement. There is also a risk of misalignment of the pump rotor due to the axial arrangement of the individual components, which in turn leads to eccentricity of the pressurized areas in the pump device and to larger lateral forces on the bearings, which must be compensated for by the bearing. Correspondingly large bearings are required in the pumping device.

Against this background, the present invention is based on the object of advantageously developing a generic electric pump, providing a compact pump and eliminating the disadvantages of the known electric pumps.

To solve this problem, the invention proposes a pump according to the preamble of claim 1, in which the pump device is arranged radially within the electric motor and the external gear of the pump device is driven by the motor rotor. Advantageous refinements and further developments are the subject of the subclaims.

By arranging the pump device radially within the electric motor, the installation space for the pump is significantly reduced and misalignment caused by the electric motor driving the pump device is prevented.

In one embodiment of the invention, the external gear of the pump device is pressed into the motor rotor. This makes it possible for the motor rotor to directly drive the external gear and for both components to rotate around the same axis and thus centrically around one and the same axis. In contrast to the known pumps, the pump device is driven by the external gear as the driving gear of the pump device. There is no drive shaft from the motor to the pumping device.

According to a further preferred embodiment of the invention, it is provided that the internal gear of the pump device is rotatably mounted on a bearing sleeve (bushing) in the pump device eccentrically to the central axis. The internal gear is the driven gear in the pumping device and does not have to absorb large forces and therefore neither does the bearing sleeve (bushing), which significantly reduces the risk of misalignment between the motor rotor, external gear and internal gear.

In one embodiment, the bearing sleeve (bushing) is arranged on a fastening element which extends eccentrically to the central axis through the upper side plate of the pump device, the internal gear, the lower side plate into the base plate of the pump. The upper side plate, the internal gear and the lower side plate are thus arranged in a defined position relative to one another.

In a further embodiment, the lower side plate is designed as a pressure plate.

In a further embodiment, the motor rotor is rotatably mounted on the lower side plate via a bearing sleeve (bushing).

In an advantageous development of the invention, the motor rotor is rotatably mounted via a bearing sleeve (bushing) on the lower side plate and via a bearing sleeve (bushing) on the upper side plate. The driving rotational forces of the motor rotor and the external gear connected to it therefore act exclusively on the side plates and are reduced. The risk of misalignment of the pressurized areas in the pumping device, which can lead to eccentricity, is reduced and, with this, the size of the bearings to be used.

According to the invention, the stator is arranged on the base plate. This leads to a compact and simple design of the pump.

According to one embodiment of the invention, the base plate and the lower side plate are formed in one piece, which further simplifies the structure and reduces the number of components of the pump.

According to a further embodiment, the housing is detachably connected to the base plate. The individual components of the pump can first be installed with the base plate and the housing can be attached in the final step.

• 1: eine erste Ausführungsform der erfindungsgemäßen Pumpe im Schnitt,
• 2: eine zweite Ausführungsform der erfindungsgemäßen Pumpe im Schnitt, und und
• 2a: eine Ansicht der Pumpe entlang der Linie AA in 2.

The invention is described in more detail below with reference to drawings. Show it:

• 1 : a first embodiment of the pump according to the invention in section,
• 2 : a second embodiment of the pump according to the invention in section, and and
• 2a : a view of the pump along line AA in 2 .

Corresponding parts are provided with the same reference numbers in all figures.

1 shows a first embodiment of the pump 10 according to the invention. Such a pump, described below, in particular transmission oil pump, can be used in many technical areas, such as in automotive hydraulic systems, automatic transmissions, in commercial vehicles, in oil delivery systems, in nautical applications, for battery cooling systems and for lubrication systems.

The pump 10 includes an electric motor 20 with a stator 30 and a motor rotor 40 with a central axis 50. A pump device 60 with a gear pump 70 is arranged radially within the electric motor 20. The gear pump 70 has an internally toothed external gear 80 and an externally toothed internal gear 90 running therein. In the pumping device 60 closes, with reference to 1 designated, axially above the two gears 80, 90 an upper side plate 100 and axially below the two gears 80, 90 a lower side plate 110.

The pump device 60, the electric motor 20 and electronics, not shown, are arranged on a base plate 120 and enclosed by a housing 130, which is only indicated schematically.

The electric motor 20 is constructed in a known manner. In the present embodiment, the stator 30 sits on the base plate 120, namely on an extension 140 of the base plate 120, whereby the positioning of the stator 30 in the pump 10 is fixed. The motor rotor 40 is provided radially within the stator 30 in a known manner.

The internally toothed external gear 80 of the pump device 60 is pressed into the motor rotor 40 in such a way that a rotation-proof connection is established between the motor rotor 40 and the external gear 80, whereby the rotation of the motor rotor 40 is transmitted to the external gear 80, the motor rotor 40 consequently the external gear 80 drives it by driving it.

The externally toothed internal gear 90 running radially inside the external gear 80 is rotatably mounted on a bearing sleeve 150. The pump device 60 is fixed on the base plate 120 by means of a fastening element 160, which is arranged eccentrically to the central axis 50. The fastening element 160 extends through the upper side plate 100, through the internal gear 90 which adjoins axially in the direction of the base plate 120 and through the lower side plate 110 into the base plate 120 and thus fixes the pump device 60 in the base plate 120. The fastening element 160 is in the base plate 120 is fixed, for example screwed in, and thus serves for the defined positioning of the upper side plate 100, the internal gear 90, the lower side plate 110 and the base plate 120. The bearing sleeve 150 is arranged on the fastening element 160. However, it is also possible to rotatably arrange the internal gear 90 directly on the fastening element 160 and thereby dispense with the bearing sleeve 150.

The non-rotatable connection of motor rotor 40 and external gear 80 is mounted on a bearing sleeve 170, which is arranged on the outer circumference of the lower side plate 110. 1 shows another bearing sleeve 180, which is arranged on the upper side plate 100 on the outer circumference. Both bearing sleeves 170, 180 are not absolutely necessary for the radial mounting of the motor rotor 40 with the external gear 80. It is also possible to provide only one of the bearing sleeves 170 or 180.

The housing 130, which is only indicated schematically, is detachably attached to the base plate 120; reference can be made here to known detachable connections, such as screw connections.

2 shows a second embodiment of the pump 10 according to the invention in section, with the same elements having the same reference numbers as in 1 are designated. Furthermore shows 2a the view along line A in 2 . The pump 10 in 2 differs from the pump 10 1 in that only one side plate, namely the upper side plate 100, is present see is. The stator 30 of the electric motor 20 is arranged on the extension 140 of the base plate 120. The internally toothed outer gear 80 of the pump device 60 is in the same way as in 1 pressed into the motor rotor 40, that is, connected to it in a rotationally fixed manner, and is driven by it.

The pump device 60, consisting of the upper side plate 100, the axially adjoining internal gear 90, which runs in the external gear 80, is eccentric via a fastening element 160, which extends through the upper side plate 100 and the internal gear 90 into the base plate 120 fixed to the central axis 50 on the base plate 120. A bearing sleeve 190 is arranged on the fastening element 160. The bearing sleeve 190 acts as a rotation bearing for the internal gear 90. The lower side plate 110 of the 1 is formed here by the extension 140 of the base plate 120.

The rotation-proof connection of the motor rotor 40 with the external gear 80 is in the embodiment 2 stored on a bearing sleeve 200. In this embodiment, the bearing sleeve 200 is arranged on the step-shaped extension 140 of the base plate 120. The motor rotor 40 with the external gear 80 connected to it is therefore mounted on the base plate 120 in this embodiment.

The electric motor 20 and the pump device 60 as well as the electronics, not shown, are enclosed by the housing 130, which is releasably attached to the base plate 120.

The invention is not limited to the exemplary embodiments described above. Rather, other variants of the invention can also be derived from this by the person skilled in the art without departing from the subject matter of the invention. In particular, all of the individual features described in connection with the exemplary embodiments can also be combined with one another in other ways without departing from the subject matter of the invention.

Reference symbol list

10

pump

20

Electric motor

30

stator

40

Motor rotor

50

central axis

60

Pumping device

70

Gear pump

80

external gear

90

Internal gear

100

top side plate

110

lower side plate

120

Base plate

130

Housing

140

appendage

150

bearing sleeve

160

fastener

170

bearing sleeve

180

bearing sleeve

Claims (10)

Pump (10), in particular gear oil pump, comprising an electric motor (20) with a stator (30) and a motor rotor (40), a central axis (50), a pump device (60) with a gear pump (70) with an internally toothed external gear ( 80) and an externally toothed internal gear (90), which run into one another, the pumping device (60) being arranged within the electric motor (20), the pumping device (60) comprising an upper side plate (100) and a lower side plate (110), further comprising a base plate (120) and a housing (130), characterized in that the pump device (60) is arranged radially within the electric motor (20) and the external gear (80) of the pump device (60) is driven by the motor rotor (40). Pump (10) again Claim 1 , characterized in that the external gear (80) of the pump device (60) is pressed radially inside the electric motor (20) into the motor rotor (40). Pump (10) according to one of the Claims 1 or 2 , characterized in that the internal gear (90) of the pump device (60) is rotatably mounted on a bearing sleeve (bushing) (150) in the pump device (60). Pump (10) according to one of the Claims 1 until 3 , characterized in that the bearing sleeve (bushing) (150) is arranged on a fastening element (160) which is eccentric to the central axis (50) through the upper side plate (100) of the pump device (60), the internal gear (90), the lower side plate (110) extends into the base plate (120) of the pump (10). Pump (10) according to one of the Claims 1 until 4 , characterized in that the lower side plate (110) is designed as a pressure plate. Pump (10) according to one of the Claims 1 until 5 , characterized in that the motor rotor (40) is rotatably mounted on the lower side plate (110) via a bearing sleeve (bushing) (170). Pump (10) according to one of the Claims 1 until 6 , characterized in that the motor rotor (40) is rotatably mounted via a bearing sleeve (bushing) (170) on the lower side plate (110) and via a bearing sleeve (bushing) (180) on the upper side plate (100). Pump (10) according to one of the Claims 1 until 7 , characterized in that the stator (30) is arranged on the base plate (120). Pump (10) according to one of the Claims 1 until 8th , characterized in that the base plate (120) forms the lower side plate (110). Pump (10) according to one of the Claims 1 until 9 , characterized in that the housing (130) is detachably connected to the base plate (120).

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