DE102019117373A1 - Canned motor with a low-loss support ring - Google Patents

Abstract

The invention relates to a canned motor (1) with a stator (2) which has a laminated core (3) and a winding with winding heads (4) which protrude from the laminated core (3) at the end faces of the laminated core (3) relative to the stator (2) rotatably mounted rotor (5), - a can (7) arranged between the stator (2) and the rotor (5), and - one in the area of the winding heads (4) on the outside of the can (7) ) support ring (12) arranged concentrically to the can (7), the support ring (12) being formed from a fiber-reinforced plastic which has a matrix material and first fibers and second fibers embedded in the matrix material, the first fibers being made from a first material and the second fibers are formed from a second material different from the first material.

Description

The invention relates to a canned motor with a stator which has a laminated core and a winding with end windings which protrude from the laminated core at the end faces of the laminated core, a rotor rotatably mounted with respect to the stator, a can arranged between the stator and the rotor, and
a support ring arranged concentrically to the can in the area of the end windings on the outside of the can.

Canned motors of this type are designed as electrical drive machines, for example as permanent magnet synchronous machines. Canned motors can be cooled by direct end winding cooling, in which the end windings of the stator winding are surrounded by a liquid cooling medium. It is also possible for a liquid cooling medium to flow around the area of the stator winding accommodated in a slot in the stator.

A canned motor of the type mentioned is from DE 10 2017 102 141 A1 known. In the area of the winding heads of this canned motor, there are each support rings arranged concentrically to the canned can. The can is laminated to the support rings so that after the lamination process, the outside of the can rests against the respective support ring.

If the support rings in canned motors of this type are made from a metal, for example steel, then sufficient rigidity and strength of the support ring can be achieved. However, it has been found to be disadvantageous that eddy current losses occur in the support ring, which lead to a reduction in the efficiency of the canned motor.

Against this background, the task is to increase the efficiency of the canned motor without impairing the mechanical properties.

• - einem Stator, der ein Blechpaket und eine Wicklung mit Wickelköpfen aufweist, die an Stirnseiten des Blechpakets aus dem Blechpaket hervorstehen,
• - einem gegenüber dem Stator drehbar gelagerten Rotor,
• - einem zwischen dem Stator und dem Rotor angeordneten Spaltrohr, und
• - einem im Bereich der Wickelköpfe an der Außenseite des Spaltrohrs konzentrisch zu dem Spaltrohr angeordneten Stützring,

wobei der Stützring aus einem faserverstärkten Kunststoff ausgebildet ist, welcher ein Matrixmaterial und in dem Matrixmaterial eingebettete erste Fasern und zweite Fasern aufweist, wobei die ersten Fasern aus einem ersten Material und die zweiten Fasern aus einem sich von dem ersten Material unterscheidenden zweiten Material ausgebildet sind.To solve the problem we proposed using a canned motor

• - A stator which has a laminated core and a winding with winding heads which protrude from the laminated core at the end faces of the laminated core,
• - a rotor rotatably mounted in relation to the stator,
• - A can arranged between the stator and the rotor, and
• - A support ring arranged concentrically to the can in the area of the winding heads on the outside of the can,

wherein the support ring is formed from a fiber-reinforced plastic which has a matrix material and first fibers and second fibers embedded in the matrix material, the first fibers being formed from a first material and the second fibers being formed from a second material that differs from the first material.

Since the support ring is made of a fiber-reinforced plastic which has only a low electrical conductivity, eddy current losses in the support ring can be reduced considerably. So that the mechanical properties of the support ring, in particular the strength and rigidity, do not deteriorate too much compared to a support ring made of steel, a fiber-reinforced plastic with a matrix material is used according to the invention, in which fibers made of different materials are embedded, so that it is possible is to adjust the mechanical properties of the support ring as required. Consequently, it is possible with the canned motor according to the invention to increase the efficiency without impairing the mechanical properties of the support rings.

According to an advantageous embodiment, the first fibers are designed as glass fibers and the second fibers as carbon fibers. A combination of glass fibers and carbon fibers offers the advantage that the mechanical properties of the support ring can be set in a way that is not possible with a support ring that only has glass fibers or carbon fibers. For example, thanks to the glass fibers contained in the fiber-reinforced plastic, the coefficient of thermal expansion of the support ring can be set in such a way that it is similar to that of the laminated core of the stator. The carbon fibers also allow a high rigidity and strength of the support ring with compact dimensions.

According to an advantageous embodiment, a proportion of the first fibers in the fiber-reinforced plastic is different from a proportion of the second fibers in the fiber-reinforced plastic. By choosing different proportions of the two fibers, setting the properties of the support ring can be further facilitated.

It has proven to be advantageous if the orientation of the first fibers in the fiber-reinforced plastic is different from the orientation of the second fibers. In this respect, the first fibers a first fiber angle and the second fibers have a second fiber angle, the first and second fiber angles being different. The orientation of the first fibers in the orientation of the second fibers can include, for example, an angle of essentially 45 ° or of essentially 60 ° or of essentially 90 °.

According to an advantageous embodiment, the first and second fibers are interwoven so that a common fiber layer is formed from first and second fibers.

The first fibers and / or the second fibers are preferably continuous fibers. The first and / or second fibers can be present as rovings or as woven or non-woven fabrics.

The matrix material is preferably a thermoset or a thermoplastic, in particular an epoxy resin, melamine resin, phenol-formaldehyde resin, polyester resin, polytetrafluoroethylene or a silicone resin.

• 1 einen Spaltrohrmotor gemäß einem Ausführungsbeispiel der Erfindung in einer schematischen Schnittdarstellung; und
• 2 das Dichtelement des Spaltrohrmotors aus 1 in einer geschnittenen, perspektivischen Darstellung.

Further features and advantages of the invention are to be explained below with reference to the exemplary embodiment shown in the drawings. The drawings only illustrate an exemplary embodiment of the invention, which does not restrict the inventive concept. Herein shows:

• 1 a canned motor according to an embodiment of the invention in a schematic sectional view; and
• 2 the sealing element of the canned motor 1 in a cut, perspective illustration.

In the 1 is a canned motor 1 shown according to an embodiment of the invention, the direct cooling of an end winding 4th allows a stator winding. The canned motor 1 has a housing 20th and one inside the housing 20th arranged stator 2 on, of a sheet metal package 3 and comprises a winding, of which the one on the end faces of the laminated core is shown 3 protruding winding heads 4th are visible. Another component of the canned motor 1 is a rotor 5 that is rotatable with respect to the stator 2 is stored. The rotor 5 is concentric within the substantially cylindrical ring-shaped stator 2 arranged and rotatably connected to a shaft, not shown. Between the stator 2 and the rotor 5 there is a cylindrical ring-shaped air gap in which a can 7th is arranged. The can 7th has a hollow cylindrical shape. Via the can 7th becomes the area of the stator 2 opposite the inner rotor 5 sealed liquid-tight, so that the stator 2 , especially the winding heads 4th can be liquid-cooled. In the area of a winding head 4th becomes an interior 8th formed of the housing, through which a cooling liquid can flow. For this purpose, the canned motor has an inlet and an outlet for a cooling liquid, which are not shown.

The can 7th of the canned motor 1 is designed as a liner that attaches to the inner contour of the laminated core 3 is laminated. Around the can 7th in the area of the winding heads 4th to strengthen is with the canned motor 1 on the end faces of the laminated core 3 one each concentric to the can 7th arranged support ring 12 provided on the outer contour of the can 7th and encloses it. The canned motor 1 further comprises an end plate 11 on one end of the laminated core 3 is applied and has recesses for carrying out the winding. The end disk 11 prevents a slot base insulation on the sharp-edged sheet metal contour on the face of the laminated core 3 can be damaged. The end disk 11 is made from a plastic, preferably from a fiber-reinforced plastic.

According to the embodiment, the support ring is 12 made of a fiber-reinforced plastic. The fiber-reinforced plastic of the support ring 12 comprises a matrix material and first fibers and second fibers embedded in the matrix material, the first fibers being formed from a first material and the second fibers being formed from a second material that differs from the first material. This choice of material makes it possible to avoid eddy current losses when operating the canned motor 1 to reduce without affecting the mechanical properties of the support ring.

According to the exemplary embodiment, the first fibers are designed as glass fibers and the second fibers as carbon fibers. The proportion of the first fibers in the fiber-reinforced plastic differs from the proportion of the second fibers. In addition, the first and second fibers have different fiber angles, so that the orientation of the first fibers in the fiber-reinforced plastic is different from the orientation of the second fibers.

The case 20th of the canned motor 1 has a substantially hollow cylindrical housing side wall 22nd and a housing cover 21st on which with the housing side wall 22nd connected is. Around a liquid-tight connection of the can 7th and the housing 20th to make possible includes the canned motor 1 a sealing element 6th that between one end face 7.1 of the can 7th and one with an inner wall of the housing 20th connected support element 23 is arranged. The support element 23 is in the embodiment in one piece with the housing 20th educated. The Support element 23 is essentially annular and has an inside of the housing 20th , here the housing cover 21st , connected. The support element 23 includes a connecting portion 24 , which extends concentrically to the can and a support portion 25th that is perpendicular to the connecting portion 24 is arranged. The support section 25th is also on the sealing element 6th and transmits a compressive force to the sealing element 6th running in a direction parallel to an axis of rotation of the rotor 5 , i.e. parallel to the longitudinal axis of the can 7th , works.

The sealing element 6th is with the in 1 The embodiment shown is formed from an elastomer, in particular from a rubber, and is intended below with reference to the illustrations in 1 and 2 are explained in more detail. The sealing element 6th has an annular shape with a C-shaped cross section. An annular recess in the sealing element 6th is the sum of the material thicknesses of the can 7th and support ring 12 adjusted so that the sealing element 6th on the front 7.1 of the can 7th and the face of the support ring 12 can be pushed on or attached. Within the recess, there are several, here three, sealing lips on the sealing element 9 provided by the surface of the sealing element 6th stick out. In the in 1 shown assembled state are the sealing lips 9 of the sealing element 6th on the inside of the can 7th at. The sealing lips are on a first leg of the sealing element 6th arranged. The inside of a second leg of the sealing element 6th lies in the assembled state on the outside of the support ring 12 at. A connecting area of the sealing element connecting the first and second legs 6th lies on the front side in the assembled state 7.1 of the can 7th at. Thus encloses the sealing element 6th the assembly from can 7th and support ring 12 in the area of their end faces 7.1 from three sides.

QUOTES INCLUDED IN THE DESCRIPTION

This list of the documents listed 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

• DE 102017102141 A1 [0003]

Claims (5)

Canned motor (1) with - a stator (2) which has a laminated core (3) and a winding with winding heads (4) which protrude from the laminated core (3) at the end faces of the laminated core (3), - one opposite the stator ( 2) rotatably mounted rotor (5), - a can (7) arranged between the stator (2) and the rotor (5), and - one in the area of the winding heads (4) on the outside of the can (7) concentric to the Support ring (12) arranged in a can (7), characterized in that the support ring (12) is formed from a fiber-reinforced plastic which has a matrix material and first fibers and second fibers embedded in the matrix material, the first fibers made of a first material and the second fibers are formed from a second material different from the first material. Canned motor (1) Claim 1 , characterized in that the first fibers are designed as glass fibers and the second fibers as carbon fibers. Canned motor (1) according to one of the preceding claims, characterized in that a proportion of the first fibers in the fiber-reinforced plastic is different from a proportion of the second fibers in the fiber-reinforced plastic. Canned motor (1) according to one of the preceding claims, characterized in that the orientation of the first fibers in the fiber-reinforced plastic is different from the orientation of the second fibers. Canned motor (1) according to one of the preceding claims, characterized in that the first and second fibers are interwoven.

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