DE102019113432A1 - Electric machine stator and electric machine - Google Patents

Abstract

Stator (10) of an electrical machine, in particular an electrical machine of a motor vehicle serving as a drive unit, via which drive power or traction power can be provided at an output, with a stator laminated core (11) having slots (14) and winding segments (13) Winding (12), each winding segment (13) having at least two conductor elements (15a, 15b), and wherein the conductor elements (15a, 15b) of each winding segment (13) are arranged in a respective slot (14) of the laminated stator core (11) are. Each winding segment (13) has at least one flat wire conductor element (15a) and at least one stranded conductor element (15b), so that in each slot (14) of the stator laminated core (11) at least one flat wire conductor element (15a) and each at least one stranded conductor element (15b) is arranged.

Description

The present invention relates to a stator of an electrical machine. The invention also relates to an electrical machine.

An electrical machine has a stator and a rotor. The stator is also called the stator and the rotor is also called the runner. The stator of an electrical machine comprises a stator laminated core and a winding, the winding being received by the stator laminated core.

From the DE 10 2013 225 130 A1 a stator of an electrical machine with a stator laminated core and with a winding is known. The winding is composed of several winding segments. Each winding segment is received in a respective slot in the laminated stator core. The conductor elements can be hairpin-like or U-shaped conductor elements or rod-shaped conductor elements. Hairpin-shaped or U-shaped conductor elements are also referred to as hair pins. Rod-shaped conductor elements are called I-pins. The conductor elements of the winding segments of the winding are all designed as flat wire conductor elements. Each flat wire conductor element has a single flat wire with an essentially rectangular contour when viewed in cross section.

Also from the DE 103 62 345 B3 a stator of an electrical machine with a laminated stator core and a winding is known. The laminated stator core in turn has a number of slots, with a winding segment of the winding being arranged in each slot. The DE 103 62 345 B3 that each winding segment has a plurality of flat wire conductor elements, which in turn are essentially rectangular in cross section. Furthermore, it is from the DE 103 62 345 B3 known to arrange exclusively stranded conductor elements instead of the flat wire conductor elements in the grooves of the stator laminated core, the strands being wires with a round cross section.

The object of the invention is to create a novel stator of an electrical machine and an electrical machine with such a stator.

This object is achieved by a stator of an electrical machine according to claim 1.

According to the invention, each winding segment of the winding of the stator has at least one flat wire conductor element and at least one stranded conductor element, so that at least one flat wire conductor element and at least one stranded conductor element are arranged in each slot of the stator core of the stator.

With the present invention, a stator of an electrical machine is proposed for the first time, in which the winding segments of the stator winding arranged in the slots of the stator laminated core each have at least one flat wire conductor element and at least one stranded conductor element. According to the invention, both flat wire conductor elements and stranded conductor elements are used in combination in a winding of the stator of the electrical machine. This is advantageous in order to minimize electrical losses and to operate the electrical machine which has the stator according to the invention with higher efficiency with less heating.

According to an advantageous development of the invention, the at least one stranded conductor element of the respective winding segment is arranged radially on the inside and the at least one flat wire conductor element of the respective winding segment is arranged radially on the outside in the respective groove. Arranging the at least one stranded conductor element radially on the inside and the at least one flat wire conductor element radially on the outside is particularly preferred in order to reduce losses. In this way, the efficiency of an electrical machine having the stator can be increased further.

According to an advantageous development of the invention, the respective flat wire conductor element consists of a single flat wire, the respective stranded conductor element consisting of several twisted and compressed round wires, and the respective flat wire conductor element and the respective stranded conductor element in a perpendicular to the longitudinal direction of the conductor element running cross-section are contoured such that an envelope of the round wires of the respective stranded conductor element corresponds to the outer contour of the flat wire of the respective flat wire conductor element. In this way, the flat wire conductor elements and the stranded conductor elements can be arranged in a particularly advantageous manner within the respective groove while making maximum use of the available installation space. This also serves to increase the efficiency of the electrical machine that has the stator according to the invention.

According to an advantageous development of the invention, the number of flat wire conductor elements and the number of stranded conductor elements per winding segment is dependent on the speed range in which the electrical machine having the stator is to be operated. Then when the electrical machine is particularly at relatively high Speeds in the motor sport area is operated, the number of stranded conductor elements is preferably greater than the number of flat wire conductor elements.

The electrical machine according to the invention is defined in claim 10.

• 1 einen Querschnitt durch einen Stator einer elektrischen Maschine.

Preferred developments of the invention emerge from the subclaims and the following description. Exemplary embodiments of the invention are explained in more detail with reference to the drawing, without being restricted thereto. It shows:

• 1 a cross section through a stator of an electrical machine.

The invention relates to an electrical machine and a stator of an electrical machine. An electrical machine has a stator and a rotor.

The stator of an electrical machine is also referred to as a stator and the rotor of an electrical machine is also referred to as a rotor.

1 shows a cross section through a stator 10 an electrical machine, the stator 10 a stator laminated core 11 as well as a winding 12 having. The winding 12 of the stator 10 the electrical machine is made up of several winding segments 13 composed. Every winding segment 13 is in a respective groove 14th of the stator core 11 positioned.

Every winding segment 13 the winding 12 of the stator 10 has at least two electrically conductive, hairpin-shaped or U-shaped or rod-shaped conductor elements 15a , 15b . In the embodiment shown, each winding segment comprises 13 four electrically conductive conductor elements 15a , 15b that can be hairpin-shaped or U-shaped or rod-shaped.

Hairpin-shaped conductor elements or U-shaped conductor elements are also referred to as hair-pin conductor elements. Rod-shaped conductor elements are also referred to as I-pin conductor elements.

The ladder elements 15a , 15b of a winding segment 13 seen in the radial direction are arranged next to one another or one above the other and form a band of conductor elements 15a , 15b . The ladder elements 15a , 15b are preferably surrounded by electrically insulating insulation in a central section thereof and leaving ends of the conductor elements free. This insulation is also referred to as primary insulation and insulates the conductor elements combined in rows or columns to form a strip 15th of a winding segment 13 against each other. The primary insulation can be lacquer insulation or wound insulation.

Where the winding segments 13 or ladder elements 15th of the winding segments 13 in the grooves 14th of the stator core 11 are arranged or guided, carry the conductor elements 15th the electrical insulation 16 .

On from the stator laminated core 11 protruding or protruding ends (not shown) of the conductor elements 15th however, are the ends of the conductor elements 15th not coated with the electrical insulation, so the ends of the conductor elements are bent or angled accordingly 15th of a winding segment 13 with ladder elements 15th adjacent winding segments 13 to connect electrically conductive.

The electrically conductively connected winding segments 13 form a so-called winding basket of the winding 12 of the stator 10 of the electrical machine.

In the stator according to the invention 10 the electrical machine has each winding segment 13 two different types of ladder elements 15a , 15b on, namely at least one flat wire conductor element 15a and at least one stranded conductor element 15b .

In every groove 14th of the stator core 11 of the stator according to the invention 10 is therefore at least one flat wire conductor element 15a and at least one stranded conductor element 15b arranged.

In the embodiment shown, in which each winding segment 13 four electrical conductor elements 15a , 15b two of these four conductor elements are flat wire conductor elements 15a and two further conductor elements of these four conductor elements as stranded conductor elements 15b executed.

It should be noted at this point that the number of conductor elements per winding segment 13 is arbitrary.

Also is the number of flat wire conductor elements 15a and the number of stranded conductor elements 15b per winding segment 13 freely selectable in itself.

In particular, the number of flat wire conductor elements 15a and the number of stranded conductor elements 15b per winding segment 13 depends on the speed range in which the stator 10 having electrical machine is to be operated. The higher the speed at which the electrical machine is to be operated, the higher it is the number of strand elements 15b compared to the number of flat wire conductor elements 15a .

It is therefore within the meaning of the present invention that each winding segment 13 the winding 12 of the stator 10 that in a respective groove 14th of the stator core 11 of the stator 10 is arranged, at least one flat wire conductor element 15a and at least one stranded conductor element 15b having.

According to a particularly advantageous development of the invention, it is provided that in the respective groove 14th the at least one stranded conductor element 15a radially inside and the at least one flat wire conductor element 15a is arranged radially outward. The respective stranded conductor element 15b is therefore positioned closer to the rotor than the respective flat wire conductor element 15a of the respective winding segment 13 the winding 12 of the stator 10 . This can increase the efficiency of the stator 10 having electrical machine can be increased further

Both the flat wire conductor elements 15a as well as the stranded conductor elements 15b can be designed as hairpin-shaped conductor elements or U-shaped conductor elements or as rod-shaped conductor elements.

Any flat wire conductor element 15th consists preferably of a single flat wire, which has a rectangular outer contour with preferably rounded corners in a cross section running perpendicular to the longitudinal direction of the same.

Any stranded conductor element 15b is made up of several compacted and preferably twisted round wires, which can be insulated from one another, the round wires of the respective stranded conductor element 15b are compressed or compacted in such a way that in a perpendicular to the longitudinal direction of the stranded conductor element 15b An envelope of the round wires of the respective stranded conductor element seen in the running cross section 15b the outer contour of the flat wire conductor elements 15a corresponds. In this case, the flat wire conductor elements 15a and the stranded conductor elements 15b of a respective winding segment 13 the winding 12 particularly advantageous when utilizing the in the respective groove 14th available space can be arranged.

The invention also relates to an electrical machine that incorporates the stator according to the invention 10 and comprises a rotor. The stator 10 is carried out as described above.

The electrical machine is preferably an electrical machine of a motor vehicle, in particular an electric vehicle, which serves as a drive unit and via which drive power or traction power can be provided at an output of the motor vehicle.

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 102013225130 A1 [0003]
• DE 10362345 B3 [0004]

Claims (10)

Stator (10) of an electrical machine, in particular an electrical machine of a motor vehicle serving as a drive unit, via which drive power or traction power can be provided at an output, with a stator laminated core (11) having slots (14) and winding segments (13) Winding (12), each winding segment (13) having at least two conductor elements (15a, 15b), the conductor elements (15a, 15b) of each winding segment (13) being arranged in a respective slot (14) of the laminated stator core (11) , characterized in that each winding segment (13) has at least one flat wire conductor element (15a) and at least one stranded conductor element (15b) so that in each slot (14) of the stator laminated core (11) there is at least one flat wire conductor element ( 15a) and in each case at least one stranded conductor element (15b) is arranged. Stator after Claim 1 , characterized in that the conductor elements (15a, 15b) are arranged one above the other as seen in the radial direction in the respective groove (14) of the laminated stator core (11). Stator after Claim 1 or 2 , characterized in that the at least one stranded conductor element (15b) is arranged radially on the inside and the at least one flat wire conductor element (15a) is arranged radially on the outside in the respective groove (14). Stator according to one of the Claims 1 to 3 , characterized in that the conductor elements (15a, 15b) are designed as hairpin-shaped conductor elements or U-shaped conductor elements. Stator according to one of the Claims 1 to 3 , characterized in that the conductor elements (15a, 15b) are designed as rod-shaped conductor elements. Stator according to one of the Claims 1 to 5 , characterized in that the respective flat wire conductor element (15a) consists of a single flat wire. Stator after Claim 5 or 6th , characterized in that the respective stranded conductor element (15b) consists of several twisted and compressed round wires. Stator according to one of the Claims 1 to 7th , characterized in that the respective flat wire conductor element (15a) and the respective stranded conductor element (15b), viewed in a cross section running perpendicular to the longitudinal direction of the conductor element, are contoured such that an envelope of the round wires of the respective stranded conductor element (15b) corresponds to the outer contour of the flat wire of the respective flat wire conductor element (15a). Stator according to one of the Claims 1 to 8th , characterized in that the number of flat wire conductor elements (15a) and the number of stranded conductor elements (15b) per winding segment (13) depends on the speed range in which the electric machine having the stator (10) is to be operated. Electric machine, in particular an electric machine of a motor vehicle serving as a drive unit, via which drive power or traction power can be provided at an output, with a stator (10) according to one of the Claims 1 to 9 , with a rotor.

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