DE102014201488A1 - Centrifugal pump motor - Google Patents

Abstract

The invention relates to a centrifugal pump motor (1) with a wound inside a drying chamber (2) arranged inside stator (4) and a wet room (3) arranged permanent magnetic outer rotor (5) to which a about a central axis of rotation (23) rotatable centrifugal pump impeller (6) adjoins, wherein dry space (2) and wet space (3) by a partition (7) are hermetically separated and sealed, the inner stator (4) consists essentially of a stator core (8) with stator slots (9) and one on the Insulator body (10), which accommodates a stator winding (11) and phase connecting means (12) for the phase winding ends (13) and a star point baffle (15) having a plurality of neutral connection means (16), which is arranged between the stator core (8) and a printed circuit board (14) carrying an electronic control unit, the star point baffle (15) being designed as an electrical neutral point connection for star point winding ends (17 ) of the stator winding (11) is used. The object of the invention is to design the structure of a centrifugal pump motor of the type mentioned so that a variety of functions and properties can be realized with a minimum of components. These functions or properties are a good EMC protection, automated assembly, easy adaptability to different requirements, as little space as possible, and a good cooling effect for the electronics. This object is achieved by the characterizing part of claim 1.

Description

The invention relates to a centrifugal pump motor ( 1 ) with a wound in a drying room ( 2 ) arranged inside stator ( 4 ) and one in a wet room ( 3 ) arranged permanent magnetic outer rotor ( 5 ), to which an about a central axis of rotation ( 23 ) rotatable centrifugal pump impeller ( 6 ), where dry space ( 2 ) and wet room ( 3 ) by a partition wall ( 7 ) are hermetically separated and sealed, the inner stator ( 4 ) essentially from a stator core ( 8th ) with stator slots ( 9 ) and one on the stator core ( 8th ) adjacent insulating body ( 10 ), which has a stator winding ( 11 ) and phase connection means ( 12 ) for the phase winding ends ( 13 ) and a multiple neutral connection means ( 16 ) star point baffle ( 15 ) between the stator core ( 8th ) and a control electronics supporting circuit board ( 14 ), wherein the star point baffle ( 15 ) as electrical star point connection for star point winding ends ( 17 ) of the stator winding ( 11 ) serves.

Centrifugal pumps are often used as auxiliary water pumps in motor vehicles and usually support belt-driven main cooling water pumps. They are also usually integrated in brushless DC motors thanks to their excellent controllability. These motors have a wound stator and a permanent magnetic rotor which forms a compact assembly with the centrifugal pump impeller. The rotors can be designed both as an internal rotor and as an external rotor. The centrifugal pump impeller is located in a wet space which is sealed by a stator receiving the drying space by a partition wall. Brushless DC motors are normally operated via control electronics. In this case, the individual stator coils are connected in succession to put the permanent magnetic rotor in a rotary motion. As well as the stator coils, this control electronics develops heat that must be dissipated as much as possible in order to avoid overheating. In this case, the medium to be pumped, in particular the cooling water also offers as a coolant for said heat loss. It should also be avoided that heat generated in the stator coils reaches the control electronics and is additionally thermally impaired. Another negative influence of the stator winding on the control electronics is based on the electromagnetic radiation when switching the current direction in the coils.

From the WO 02/087057 A1 is a generic centrifugal pump known, which consists of a variety of items that are produced by complex manufacturing processes. Furthermore, the known centrifugal pump motor requires a large space and the electronics are far from the medium to be conveyed and therefore can not be sufficiently cooled. In addition, there is no adequate shielding of the electronics against electromagnetic interference.

The object of the invention is therefore to design the construction of a centrifugal pump motor of the type mentioned so that a variety of functions and properties can be realized with a minimum of components. These functions or properties are a good EMC protection, automated assembly, easy adaptability to different requirements, as little space as possible, and a good cooling effect for the electronics.

This object is achieved by the characterizing part of claim 1. Since the star point baffle itself is used as a shielding plate, the EMC protection can be improved without increasing the number of components.

Further developments of the invention are shown in the subclaims. Since the phase connection means are electrically contacted in a spatial region with the phase winding ends, which lies axially and radially within the stator winding, particularly little additional installation space is required. Further, an automatic assembly and in particular a simple winding of the inner stator is thereby facilitated.

Similar advantages arise when the neutral connection means are electrically contacted in a space region with the neutral winding ends located radially outside the stator winding (FIG. 11 ) lies.

A particularly large amount of space can be saved if the star point connection means are electrically contacted in a space region with the star point coil ends, which lies axially within the stator winding.

A simple and automatable assembly and further component savings is given by the fact that the star point baffle is integral with the star point connection means which are joined in axially extending contact receptacles of Isolierstoffkörpers and enter into an electrical connection with the neutral winding ends. For this purpose, insertion aids in the form of fillets are provided at the star point connection means. Furthermore, barbs can also be provided on the star point connection means, which dig into the contact receptacles, whereby a firm connection is provided.

The star point baffle may also act as a heat sink or baffle as it extends to and abuts an inner cylinder portion of the baffle. A particularly good cooling effect can be achieved if the star point baffle extends radially up to an annular disk-shaped cooling wall of the partition wall, on the axially opposite side of which the medium surrounded by the permanent magnet of the outer rotor is rotatably arranged. In this way, the heat can be discharged via the partition wall directly to the pumped medium.

For EMC reasons, it is important that the star point baffle is electrically insulated from the stator core. This is realized by the inclusion of the neutral point baffle in Isolierstoffkörper.

An additional Entwärmungsmöglichkeit is that at least one heat-dissipating electronic component via a heat conduction (paste or foil) is thermally conductively connected to the star point baffle.

In order to be able to connect the phase connection means to the printed circuit board, it is provided that the neutral conductor baffle has a continuous recess or a plurality of individual recesses through which the phase connection means extend without contact up to the printed circuit board. An electrical connection to the circuit board can be made via press-fit contacts or via solder contacts.

The shielding effect is the greater the more areas of the stator winding can be covered, therefore, the phase-connection means of the recess or the recesses should be as fully enclosed as possible. For this reason, it is also advantageous that the phase connection means are arranged radially inside the stator winding.

In order to ensure a defined and ordered conductor laying in the winding of the stator and the electrical connection of the stator coils with each other and with the phase connection means is provided that the insulating material on the side facing away from the stator winding is integral with a projecting pin or connected to a pin is around which the phase winding ends are wrapped. This measure prevents many crossing points from being in the same place, which would result in an axial structure of the conductors. This would increase the required installation space and the cable length.

A further improvement results from the fact that the pin is arranged eccentrically and the phase-connection means are in an angular segment, which is opposite to the pin with respect to a central axis of rotation of the centrifugal pump motor. This results in approximately equal distances between the pin and connection points.

The number of crossing points can be further reduced if the guide pin on a cylindrical outer surface has at least one wire receiving groove, in which winding wire sections of interconnected coils of the stator winding are accommodated.

The stator winding has expediently has an even number of coils, with two opposing coils being connected in parallel and being electrically connected on one side to the star point baffle.

The star point baffle can also perform a holding function in that the star point baffle has bent portions in radial outer regions, with which the star point baffle is clamped to an inner cylinder region of the partition wall.

Alternatively, the star point baffle may be a polygonal-like bent to a half-open ring metal strip which is integral with not bent from the sheet plane star point connection means. However, this would result in almost no shielding effect; In order to achieve this, an additional part shielding would have to be mounted or punched in one piece with the sheet metal strip and angled.

The centrifugal pump motor according to the invention can be made variable and combine with additional functions. For example, it is easy to produce between the printed circuit board and the stator core a ground connection via an additional ground contact means, which is fixed in the insulating material and is formed on the inner circumference of the stator core as a scratch contact.

It is expediently provided that the star point connection means and / or the phase connection means are insulation displacement contacts.

Embodiments of the invention will be explained in more detail with reference to the drawing. Show it:

1 an inner stator of a centrifugal pump motor,

2 the inner stator off 1 with a half-section of a star point baffle,

3 the star point baffle off 2 as a single part,

4 a sectional view of the inner stator with a mounted circuit board,

5 a further sectional view of the inner stator in a mounting situation,

6 a spatial representation of the inner stator in a mounting situation,

7 a sectional view in the region of a star point connection means,

8th an enlarged view of a section A from 8th .

9 A second embodiment of a star point baffle,

10 a variant of the star point baffle 3 .

11 a front view on the inner stator,

12 a sectional view of the inner stator along line BB of 11 .

13 , a magnified section 10 .

14 a first embodiment of a mass contact means,

15 a second embodiment of a mass contact means,

16 a sectional view through a centrifugal pump motor,

17 shows a half-sectional view of a mounting situation of the star point baffle and

18 an enlarged detail B of the 17 ,

1 shows an inner stator 4 a centrifugal pump motor, with a stator core 8th , one to the stator core 8th subsequent and in stator slots 9 engaging insulating material body 10 , which is a stator winding 11 from several coils 26 wears and wire shots 30 in which star point coil ends 17 are inserted. The insulating body 10 points within the through the stator winding 11 claimed space a disc-like area 47 up, out of the slotted shaft walls 48 to project which bags 31 for receiving phase connection means 12 form. The phase connection means 12 are with press-in contacts for electrical connection to a printed circuit board 14 (please refer 4 . 5 and 16 ) and insulation displacement contacts for connection to phase winding ends 13 Mistake. The stator winding 11 consists in the example shown of six stator coils 26 , wherein in each case two stator coils are connected in parallel and each with a common phase connection means 12 are electrically connected. Therefore, there are three phase connection means 12 available. From the disc-like area 47 a pin jumps 22 in front of a wire receiving groove 24 comprises a winding wire section 25 between two interconnected stator coils 9 take. This pin 22 serves for the orderly laying of the winding wire sections 25 He is eccentric to a central axis of rotation 23 (please refer 16 ) arranged.

2 shows the inside stator 1 with a half-section of a star point baffle 15 , Also, the insulating body is shown cut. This will make the phase connection means 12 more visible. They consist of a press-in contact section 50 , an insulation displacement contact portion 49 and a holding section with barbs 51 for clamping in the bag 31 (please refer 1 ). The star point baffle 15 has a recess 21 on, to the shaft walls 48 which are adapted as insulation between the phase connection means 12 and the neutral baffle 15 Act. Notwithstanding the example shown, but it is also possible the recess 21 To make it narrower to achieve a greater shielding effect. Then the recess 21 dimensioned such that their edges the phase connection means 12 surrounded by a small distance. An even more effective alternative would be the recess 21 into three single recesses to divide. The star point baffle 15 is at its outer edge with neutral connection means 16 provided at right angles to the plane of the star point baffle to Isolierstoffkörper 10 Angled down and there in corresponding contact 52 extend and an electrical connection with the neutral winding ends 17 received. The connection is designed as insulation displacement connection. It can be seen in 2 also the pin 22 and winding wire sections 25 the stator winding 11 which are routed around this and in stator slots 9 wound stator coils 26 connect with each other.

3 shows the star point baffle 15 out 2 as a single item. It consists in its basic form of a circular disk 53 , This has the recess already described 21 on, to the shaft walls 48 (please refer 1 ) is adapted and as implementation for the phase connection means 12 (please refer 2 ) serve. Next has the neutral baffle 15 radial wing-like extensions 54 on, which serve as a heat conductor. Between the wing-like extensions 54 and the star point connection means 16 are recesses 55 provided, which causes a mechanical decoupling between the individual functional areas. This makes it possible for the wing-like extensions 54 are elastically deflectable or can be bent up to a mechanical Verkrallung on a partition wall 7 (please refer 6 ). The star point connection means are as star point insulation displacement connection 66 executed. fillets 18 , facilitate the assembly of the star point baffle 15 , in particular an automatic assembly.

4 shows a sectional view of the inner stator 4 with a mounted circuit board 14 , the stator core 8th , the insulating body 10 , with the shaft walls 48 , the phase connection means 12 , the stator coils 26 and the neutral baffle attached to the circuit board 14 followed.

In 5 represents a variant of the star point baffle 15 in which the wing-like extensions with an annular cooling plate 56 are integral. This heat sink 56 is fed on a ring-shaped area 20 the partition 7 on, on the axially opposite side of a wet room 3 is present, passing through the partition 7 is limited. The partition 7 is formed in cross section double S-shaped and also defines a drying room 2 in which the inner stator 4 with stator core 8th , Insulating body 10 and stator winding 11 is included. The partition 7 consists of an outer wall 57 , an annular disk-shaped cooling wall 20 , a middle wall 58 , a pump housing ring wall 60 , an inner wall 59 and a bearing wall 61 ,

6 shows a spatial representation of the inner stator 4 in a mounting situation in the partition 7 , which in this embodiment also as a motor housing 44 serves. In principle, depending on the application, an additional overall housing could also make sense. Next are shown, the star point baffle 15 , with the recess 21 , in the insulating body 10 recorded star point connection means 16 and an additional recess 65 for the implementation of a mass contact agent 29 , the partition 7 with the outer wall 57 , the middle wall 58 and the annular disk-shaped cooling wall 20 , which at her the (not shown here) circuit board 14 side slightly springs back to accommodate a thermal grease or a Wärmeleitpad can. Next is with the dividing wall 7 and thus the motor housing 44 a flange-like extension with a sealing groove 64 to recognize, for receiving an O-ring (ring cord seal). The motor housing has several pump attachment eyes 62 and several lid screw eyes 63 on, which serve for screwing to a pump housing or with a housing cover.

7 a sectional view in the region of one of the neutral connection means 16 of the inner stator 4 , which is in one of the contacts 52 of the insulating material 10 is included. Further shown are the phase connection means 12 , the star point baffle 15 , one of the neutral point coil ends 17 one of the shaft walls 48 and the stator core 8th ,

8th an enlarged view of a section A from 8th , In it are next to the star point baffle 15 , one of the neutral connection means 16 , one of the star point coil ends 17 , one of the contacts 52 and the insulating body 10 In addition, one of the wire shots 30 , a star point insertion slope 67 , a star point insulation displacement contact 66 and a stator winding 26 and one of the wing-like extensions 54 of the star point baffle 15 shown.

9 shows a second embodiment of a star point baffle, which does not fall within the scope of claim 1 in the embodiment shown. Shown is a star point baffle 15 ' , which is designed as a polygonal curved metal strip, the side in sheet metal direction neutral connection means 16 ' similarly electrically connected to the neutral winding ends 17 are connected, as in the previously shown representations of the figures.

10 shows a variant of the star point baffle 15 out 3 , where an additional PCB contact 68 with the star point baffle 15 is one piece. Alternatively, the contact may also be on the star point baffle 15 be secured by welding, eg to cause as little waste as possible. The PCB contact 68 is executed here as a press-in contact. The remaining features correspond to the embodiment already described.

11 is a front view on the inner stator 4 , with the insulating body 10 , the coils wound on it 26 which the stator winding 11 form, one from the Isolierstoffkörper 10 projecting pin 22 who has a wire reception groove 24 has, to winding wire sections 25 take and arrange, which on the front side of the insulating material 10 run and with the phase connection means 12 are electrically connected. The pin is eccentric with respect to the central axis of rotation 23 arranged opposite the phase connection means. Next are the neutral winding ends 17 can be seen, which extend radially and via clamping-cutting connection with the here not to be recognized star point baffle 15 are electrically connected.

12 shows a section through the line BB in 11 of the inner stator 4 in which a mass contact means 29 between the printed circuit board not shown here and the stator core 8th is shown. The mass contact agent 29 is in a conductor channel 36 of the insulating material 10 recorded, and has a bend 38 and scraping contacts 37 on. Next is in 12 the winding 11 , a second insulating body 10 ' , the cone 22 and the wire receiving groove 24 to recognize.

13 represents an enlarged section from direction X of the 12 representing the mode of action of the mass contact agent 29 clarified. The scraping contacts 37 are easy in the stator core 8th buried and are in the conductor channel 36 in the insulating body 10 safely recorded.

14 shows a first embodiment of the mass-contact means 29 , with a holding section 40 that with barbs 41 is provided in order to be able to cling to the Isolierstoffkörper, a press-in contact 39 , for firm connection with the circuit board, the bend 38 and the scraping contacts 37 ,

15 illustrates a second embodiment of a mass contact means 29 ' in which no offset is present, with the holding section 40 ' , the barb 41 ' , just a scratch contact 37 ' ,

16 shows the basic structure of a centrifugal pump motor 1 of this invention is based, with a drying space 2 in which essentially an indoor stator 4 with the stator core 8th , the insulating bodies 10 and 10 ' and a circuit board 14 are arranged, a wet room 3 in which essentially an outer rotor 5 are arranged with a centrifugal pump impeller. The drying room 2 is from the wet room 3 through a partition 7 sealed. Outward is the wet room 3 through a pump housing 42 with suction nozzle 43 limited. The drying room 2 is to the outside through a housing cover 45 with plug 46 limited. The partition 7 is with a motor housing 44 integrally formed. The outer rotor 5 is about a central axis of rotation 23 rotatably mounted.

17 shows a half-sectional view of a mounting situation of the star point baffle 15 , with bent sections 27 , which serve as fasteners and adhere to the inner surface of the partition 7 cling. In the case of an offset configuration, an additional cooling ring can also be added in a radial extension (not shown here). Further shown is the Isolierstoffkörper 10 , the stator core 8th , the circuit board 14 , the annular disc-shaped cooling wall 20 and the motor housing 44 ,

18 shows an enlarged detail B of 17 , with the star point baffle 15 whose bent sections 27 , a neutral connection means 16 , the insulating material 10 , the sink 26 , the annular disc-shaped cooling wall 20 and the circuit board 14 , The wing-like extensions are dimensioned so that they have oversize, even if they are slightly angled so that they fit with their cutting edge 19 slightly on an inner cylinder area 28 the partition 7 dig into the plastic material and ensure a secure mechanical connection.

LIST OF REFERENCE NUMBERS

1

Centrifugal pump motor

2

drying room

3

wet room

4

internal stator

5

outer rotor

6

The centrifugal pump impeller

7

partition wall

8th

stator core

9

stator

10, 10 '

insulating

11

stator

12

Phase connection means

13

Phase winding end

14

circuit board

15, 15 '

Star point baffle

16, 16 '

Star point connection means

17, 17 '

Star point winding end

18

rounding

19

cutting edge

20

annular disc-shaped cooling wall (the partition wall 7 )

21

Recess (in the star point baffle 15 )

22

spigot

23

central axis of rotation

24

Wire-receiving groove

25

Winding wire section

26

Kitchen sink

27

bent section

28

Inner cylinder area (the partition wall 7 )

29

Ground contact means

30

wire receiving

31

bag

36

conductor channel

37

Kratz Contact

38

cranking

39

Mass-press-in contact (the mass-contact means 29 )

40

holding section

41

barb

42

pump housing

43

suction

44

motor housing

45

housing cover

46

plug

47

disc-like area (of the insulating material 10 )

48

slotted shaft wall (of the insulating material body 10 )

49

Insulation displacement contact portion (the phase connection means 12 )

50

Press-in contact section (the phase connection means 12 )

51

Barb (the phase connection means 12 )

52

Contact receptacles (of the insulating material body 10 )

53

Circular disc (of the star point baffle 15 )

54

wing-like extension (of the star point baffle 15 )

55

Clearance (of the star point baffle 15 )

56

annular cooling plate (the star point baffle 15 )

57

Outer wall (the partition 7 )

58

Middle wall (the partition 7 )

59

Inner wall (the partition wall 7 )

60

Pump housing ring wall (the partition wall 7 )

61

Bearing wall (the partition 7 )

62

Pump attachment eye (of the motor housing 44 )

63

Lid attachment eye (of the motor housing 44 )

64

Sealing groove (of the motor housing 44 )

65

additional recess

66

Star point insulation displacement contact

67

Star point insertion bevel

68

PCB Contact

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• WO 02/087057 A1 [0003]

Claims (19)

Centrifugal pump motor ( 1 ) with a wound in a drying room ( 2 ) arranged inside stator ( 4 ) and one in a wet room ( 3 ) arranged permanent magnetic outer rotor ( 5 ), to which an about a central axis of rotation ( 23 ) rotatable centrifugal pump impeller ( 6 ), where dry space ( 2 ) and wet room ( 3 ) by a partition wall ( 7 ) are hermetically separated and sealed, the inner stator ( 4 ) essentially from a stator core ( 8th ) with stator slots ( 9 ) and one on the stator core ( 8th ) adjacent insulating body ( 10 ), which has a stator winding ( 11 ) and phase connection means ( 12 ) for the phase winding ends ( 13 ) and a multiple neutral connection means ( 16 ) star point baffle ( 15 ) between the stator core ( 8th ) and a control electronics supporting circuit board ( 14 ), wherein the star point baffle ( 15 ) as electrical star point connection for star point winding ends ( 17 ) of the stator winding ( 11 ), characterized in that the phase connection means ( 12 ) in a Drehachsnäheren area and the neutral point connection means ( 16 ) of the star point baffle ( 15 ) are arranged in a drehachsferneren area and the star point baffle ( 15 ) the stator ( 8th ) covers a large area axially and also serves as a shielding plate. Centrifugal pump motor according to claim 1, characterized in that the phase connection means ( 12 ) in a space region with the phase winding ends ( 13 ) are electrically contacted, the axially and radially within the stator winding ( 11 ) lies. Centrifugal pump motor according to claim 1 or 2, characterized in that the star point connection means ( 16 ) in a space area with the neutral winding ends ( 17 ) are electrically contacted, the radially outside of the stator winding ( 11 ) lies. Centrifugal pump motor according to claim 1, 2 or 3, characterized in that the star point connection means ( 16 ) are electrically contacted in a space region with the neutral winding ends axially inside the stator winding ( 11 ) lies. Centrifugal pump motor according to at least one of the preceding claims, characterized in that the star point baffle ( 15 ) with the star point connection means ( 16 ) is integral, which in axially recessed contact receptacles ( 52 ) of the insulating material body ( 10 ) and are there with the neutral winding ends ( 17 ) enter into an electrical connection. Centrifugal pump motor according to at least one of the preceding claims, characterized in that the star point baffle ( 15 ) opposite the stator core ( 8th ) is electrically isolated. Centrifugal pump motor according to at least one of the preceding claims, characterized in that the star point baffle plate ( 15 ) up to an inner cylinder area ( 28 ) of the partition ( 7 ) and rests against this. Centrifugal pump motor according to at least one of the preceding claims, characterized in that the star point baffle plate ( 15 ) radially up to an annular disk-shaped cooling wall ( 20 ) of the partition ( 7 ), on whose axially opposite side of the medium surrounded by the permanent magnet of the outer rotor ( 5 ) is rotatably arranged. Centrifugal pump motor according to at least one of the preceding claims, characterized in that at least one heat-dissipating electronic component directly or via a heat conduction (paste or foil) with the star point baffle ( 15 ) is thermally conductively connected. Centrifugal pump motor according to at least one of the preceding claims, characterized in that the star point baffle ( 15 ) a continuous recess ( 21 ) or a plurality of individual recesses through which the phase connection means ( 12 ) non-contact to the PCB ( 14 ). Centrifugal pump motor according to claim 10, characterized in that the phase connection means ( 12 ) from the recess ( 21 ) or the recesses are completely enclosed. Centrifugal pump motor according to at least one of the preceding claims, characterized in that the insulating body ( 10 ) on the stator winding ( 11 ) facing away with a projecting pin ( 22 ) is integral with or connected to a pin about which the phase winding ends ( 13 ) are laid around. Centrifugal pump motor according to claim 12, characterized in that the pin ( 22 ) is arranged eccentrically and the phase connection means ( 12 ) are in an angular segment that the pin ( 22 ) with respect to a central axis of rotation ( 23 ) of the centrifugal pump motor ( 1 ) is opposite. Centrifugal pump motor according to claim 12 or 13, characterized in that the guide pin on a cylindrical outer surface at least one wire receiving groove ( 24 ), in which winding wire sections ( 25 ) from interconnected coils ( 26 ) of the stator winding ( 11 ) are included. Centrifugal pump motor according to at least one of the preceding claims, characterized in that the stator winding ( 11 ) has an even number of coils, with two opposing coils ( 26 ) are connected in parallel and on one side with the star point baffle ( 15 ) are electrically connected. Centrifugal pump motor according to at least one of the preceding claims, characterized in that the star point baffle ( 15 ) sections bent up in radial outer regions ( 27 ), with which the star point baffle ( 15 ) on an inner cylinder area ( 28 ) of the partition ( 7 ) is clamped. Centrifugal pump motor according to at least one of the preceding claims, characterized in that the star point baffle ( 15 ' ) is a polygonal bent to a half-open ring metal strip is not bent with the plate plane star point connection means ( 16 ) is integral. Centrifugal pump motor according to at least one of the preceding claims, characterized in that between the printed circuit board ( 14 ) and the stator core ( 8th ) is a ground connection, which via a ground contact means ( 29 ), which in the insulating body ( 10 ) is fixed and on the inner circumference of the stator core ( 8th ) is designed as a scratch contact. Centrifugal pump motor according to at least one of the preceding claims, characterized in that the star point connection means ( 16 ) and / or the phase connection means ( 12 ) Insulation displacement contacts are.

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