DE102021108178A1 - Stator for a pump motor, motor with this stator and pump with this motor - Google Patents

Abstract

The present invention relates to a stator for a pump motor with a stator core (1) made of metal and stator windings (2) made of wire, the stator core (1) having an inner ring (111) on which radially outwardly projecting core elements ( 112) and one of the stator windings (2) being arranged on several or all core elements (112), the stator having a plastic casing (3) which covers at least one radially inner side of the inner ring (111).

Description

The invention relates to a stator for a pump motor with a stator core made of metal and stator windings made of wire, the stator core having an inner ring which is adjoined by radially outwardly projecting core elements and one of the stator windings being arranged on several or all of the core elements. The invention also relates to a method for producing such a stator, a motor with such a stator and a pump with such a motor.

In the document EP 1 429 443 B1 a stator is disclosed. The stator is part of a motor that is part of a pump. The pump has a so-called split pot. This can is inserted into a cylindrical cavity delimited by the stator. A rotor assembly of the pump is arranged in the can. The rotor assembly includes a rotor of the motor and an impeller. The can is closed by a housing part, a cover. The containment shell and the cover delimit an interior space in which the rotor assembly is rotatably mounted. The rotor assembly is enclosed by the containment can and the cover. The interior is connected to lines for a liquid via an inlet and an outlet. A medium to be conveyed by the pump is supplied via the inlet and is discharged from the pump at high pressure via the outlet. To do this, the pump's impeller is driven by the pump's motor.

The term "gap" in the designation containment shell comes from the air gap between the stator and the rotor of the motor. This gap is necessary for the rotor to turn. The performance of an engine and so does the engine of the document EP 1 429 443 B1 disclosed pump depends on the width of the gap. The smaller the width of the gap, the greater the power of the motor.

The gap between the rotor and the stator is also used to pass a cooling medium between the stator and the rotor, which cools the motor. With a pump like the one in the document EP 1 429 443 B1 disclosed pump, a part of the medium delivered by the pump is used to cool the motor. So that the medium cannot reach live parts of the motor, including the stator windings, the containment shell is provided, which keeps the medium in the interior of the pump and thus away from all live parts of the motor. The containment shell is therefore necessary in the known pump in order to protect the stator from the medium conveyed by the pump. However, an undesirable side effect of the containment shell is that it requires space in the gap between the stator and the rotor, as a result of which the magnetically effective gap between the stator and the rotor is larger than would be necessary for the rotor to rotate in the stator. As a result, the containment shell has an undesirable effect on the efficiency of the motor.

This is where the invention comes in.

The invention is based on the object of designing a stator for a motor of a pump in such a way that on the one hand the stator is sealed against a medium conveyed by the pump and used to cool the motor and on the other hand the width of the gap between the stator and the rotor is as small as possible.

According to the invention, this object is achieved in that the stator has a plastic casing which covers at least one radially inner side of the inner ring. This plastic covering is a layer on the inboard side of the inner ring. It can have been applied to the inner side, for example, by spraying, injection molding, pouring and/or dipping. The plastic shell is attached to the stator. As a result, the plastic casing can be designed to be significantly thinner than the containment shell known from the prior art. The plastic casing creates the prerequisites for sealing the current-carrying parts of the stator from the medium being conveyed and used for cooling. At the same time, the thickness of the plastic casing can be reduced to a level that is necessary for the sealing properties and for the design. This thickness can be significantly less than the wall thickness of a can in the known pump at the same point.

The plastic casing of a stator according to the invention can cover a radially outer side of the inner ring. It is also possible for the plastic casing to cover sides of the core elements pointing in the direction of rotation of the rotor and counter to the direction of rotation. If the outer side of the inner ring and the sides of the core elements pointing in the direction of rotation or against the direction of rotation are also covered, this has the advantage that the windings, which are arranged on at least some of the core elements, are protected from sharp edges on the core elements are. Both the inner ring and the core elements are made of laminated cores made of sheet metal elements, which are produced by stamping from so-called electrical steel. As a result of the stamping, such sheet metal elements have sharp edges which could damage the wires of the windings, in particular if the windings are produced by winding directly on the core elements. By covering with the plastic cover, the sharp edges are covered, so that the on the Core elements wound wires of the windings cannot be damaged by the edges.

The stator core of a stator according to the invention can have an outer ring which is connected to radially outer ends of the core elements.

A stator according to the invention may have an end wall which closes on one side a space enclosed by the part of the plastic shell on the radially inner side of the inner ring, the plastic shell and the end wall being monolithically formed. This creates a pot similar to the split pot, in which the rotor or the rotor assembly can be arranged to rotate.

A bearing ring may be provided on an inner side of the end wall, with the bearing ring, end wall and plastic sleeve being monolithically formed. The fixed connection between the plastic shell replacing the containment shell and the stator core has the advantage that no play and thus tolerances can occur between the plastic shell and the monolithic bearing ring connected to it on the one hand and the stator core on the other hand, which must be taken into account when arranging the rotor in the stator Need to become.

In the production of a stator according to the invention, an assembly of the inner ring and the core elements can first be produced and then the radially inner side of the inner ring can be provided with a plastic layer to produce the plastic sheath. In the same step in which the radially inner side of the inner ring is provided with the plastic layer, the sides of the core elements lying in the direction of rotation or opposite to the direction of rotation and the sides of the inner ring pointing radially outward can also be coated with a plastic layer to produce the plastic casing be provided. Furthermore, the end wall can also be produced in the same step in which the radially inner side of the inner ring is provided with the plastic layer.

In a motor according to the invention, a rotor can be arranged in the space delimited by the plastic casing on the radially inner side of the inner ring and the end wall, with a gap being provided between the plastic casing and the end wall on the one hand and the rotor on the other hand. The rotor of the motor according to the invention and an impeller of a pump according to the invention can form a rotor assembly, the pump having a housing part which, together with the stator, delimits an interior space in which the rotor assembly is arranged, and the pump having an inlet and an outlet, connected to the interior.

• 1 Perspektivische Ansicht des Stators
• 2 Draufsicht auf den Stator
• 3 Seitenansicht des Stators
• 4 Schnittansicht des Stators entlang der Linie A-A in 3 und
• 5 Schnittansicht des Stators entlang der Linie B-B in 3.

The invention is explained in more detail below with reference to the attached drawings. It shows:

• 1 Perspective view of the stator
• 2 Top view of the stator
• 3 Side view of the stator
• 4 Sectional view of the stator along line AA in 3 and
• 5 Sectional view of the stator along line BB in 3 .

The stator according to the invention has a stator core 1 which is made from two laminated cores 11 , 12 . Each of the two sheet metal packages consists of several sheet metal elements 11, 12 of the same type. The sheet metal elements 11 of a first type have a ring 111 which is adjoined by projections 112 which project radially outwards. The sheet metal elements 12 of a second type have a further ring, the inner edge of which abuts against the lugs 112, so that the sheet metal elements 11, 12 of the first type and of the second type are connected to one another. A sheet metal element 11 of the first type and a sheet metal element 12 of the second type form a layer of sheet metal elements 11, 12. All layers on top of each other form the stator core 1.

The rings of the sheet metal elements 11 of the first type form an inner ring of the stator core 1 and the lugs 112 of the sheet metal elements 11 of the first type form core elements 112. These core elements carry the windings 2 of the stator according to the invention. The laminated core of the second type of laminated elements 12 forms an outer ring of the stator core 1.

With the exception of the T-shaped ends, the laminated core made of the first type of sheet metal elements 11 is overmoulded with a plastic that forms a plastic sleeve 3 that envelops the laminated core of the first type of sheet metal elements 11 .

The plastic layer of the plastic sleeve 3 applied to the inner side of the inner ring delimits a cylindrical space. Its one end face is closed with an end wall 31 which is monolithically formed with the plastic casing 3 . A bearing ring 32 for supporting a rotor assembly is formed on an inner side of the end wall.

Reference List

1

stator core

11

Sheet metal elements of a first type

111

ring

112

Approaches/core elements

113

T-shaped ends

12

Sheet metal elements of a second type

121

undercut recesses

2

windings

3

plastic case

31

bulkhead

32

bearing ring

QUOTES INCLUDED IN DESCRIPTION

This list of documents cited by the applicant was 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.

Patent Literature Cited

• EP 1429443 B1 [0002, 0003, 0004]

Claims (11)

Stator for a pump motor with a stator core (1) made of metal and stator windings (2) made of wire, the stator core (1) having an inner ring (111) which is adjoined by radially outwardly projecting core elements (112) and wherein one of the stator windings (2) is arranged on several or all core elements (112), characterized in that the stator has a plastic casing (3) which covers at least one radially inner side of the inner ring (111). stator after claim 1 , characterized in that the plastic sleeve (3) covers a radially outer side of the inner ring (111). stator after claim 1 or 2 , characterized in that the plastic casing (3) covers the sides of the core elements (112) pointing in the direction of rotation and opposite to the direction of rotation. Stator after one of Claims 1 until 3 , characterized in that the stator core (1) has an outer ring (12) which connects to radially outer ends of the core elements (112). Stator after one of Claims 1 until 4 , characterized in that the stator (1) has an end wall (31) which on one side closes off a space enclosed by the part of the plastic casing (3) on the radially inner side of the inner ring, the plastic casing (3) and the end wall (31) are monolithic. stator after claim 5 , characterized in that on an inner side of the end wall (31) a bearing ring (32) is provided, wherein the bearing ring (32), the end wall (31) and the plastic sleeve (3) are monolithic. Method for manufacturing a stator according to one of Claims 1 until 6 , characterized in that first an assembly of the inner ring and the core elements is produced and then the radially inner side of the inner ring is provided with a plastic layer to produce the plastic sleeve. procedure after claim 7 , characterized in that in the same step in which the radially inner side of the inner ring is provided with the plastic layer, the sides of the core elements lying in the direction of rotation or counter to the direction of rotation and the sides of the inner ring pointing radially outwards are also used to produce the plastic casing covered with a plastic layer. procedure after claim 7 or 8th , characterized in that the end wall is also produced in the same step in which the radially inner side of the inner ring is provided with the plastic layer. Motor with a stator according to any of Claims 1 until 6 , characterized in that a rotor is arranged in the space delimited by the plastic casing on the radially inner side of the inner ring and the end wall, a gap being provided between the plastic casing and the end wall on the one hand and the rotor on the other hand. Pump up with a motor claim 10 and an impeller, the rotor of the motor and the impeller forming a rotor assembly, the pump having a housing part which, together with the stator, delimits an interior space in which the rotor assembly is arranged, and the pump having an inlet and an outlet, connected to the interior.

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