EP3741028A1

EP3741028A1 - Stator for an electrical machine and method for producing said stator

Info

Publication number: EP3741028A1
Application number: EP19700812.1A
Authority: EP
Inventors: Daniel Oeschger
Original assignee: Brusa Elektronik AG
Current assignee: Brusa Technology Ag
Priority date: 2018-01-19
Filing date: 2019-01-16
Publication date: 2020-11-25
Also published as: WO2019141722A1; DE102018101231A1; US20210083540A1; CN111886780A

Abstract

The invention relates to a stator for an electrical machine, in particular for an electric motor and/or a generator, wherein the stator has a stator yoke (100), which has longitudinal grooves (101), which extend along the inner peripheral edge of the stator yoke parallel to a longitudinal axis LA of the stator yoke (100) and which are separated by stator teeth (102), wherein one or more compressed strands (106) are inserted into the longitudinal grooves (101), which compressed strands each consist of a plurality of individual wires, which are each electrically insulated, wherein respective ends (112a,b) of the compressed strands (106) exit the longitudinal grooves (101) of the stator yoke (100) at a stator yoke head (110a,b) in question and each protrude from the stator yoke (100), while extending parallel to the longitudinal axis LA, by a specified length L, wherein the individual wires of each compressed strand (106) are electrically conductively connected at the ends (112a,b) of the compressed strand, and at least one first end (112a) of a first compressed strand (106), which first compressed strand protrudes from one of the stator yoke heads (110a,b), is electrically conductively joined to a second end (112b) of another, second compressed strand (106), which second compressed strand protrudes from the same stator yoke head (110a,b) and comes from another longitudinal groove (104), by means of a separate electrically conductive connecting element (114) in order to form an electrical winding, the first end (112c) and the second end (112d) mechanically not touching each other.

Description

Stator for an electric machine and method for its production

The invention relates to a stator for an electric machine, in particular an induction machine such as an electric motor and / or a generator, in particular for an electric or hybrid vehicle. Furthermore, the invention relates to a method for

Manufacture of just such a stator, an electric motor or a generator with just such a stator, and a vehicle, i. a motor vehicle, a watercraft, an underwater vehicle, an aircraft or a spacecraft with a

just such an electric motor and / or generator.

The object of the invention is to provide a stator for an electrical machine, which has a more compact design and allows for lower material use a lower weight, and thus allows an equal or higher power potential of the electric machine than previously known in the art stators.

The invention results from the features of the independent claims. Advantageous developments and refinements are the subject of the dependent claims. Other features, applications and advantages of the invention will become apparent from the following description, as well as the explanation of embodiments of the invention, which are illustrated in the figures.

A first aspect of the invention relates to a stator for an electric machine, in particular for an electric motor and / or a generator, wherein the stator has a stator yoke which has along its inner peripheral edge extending parallel along a longitudinal axis LA of the stator yoke longitudinal grooves extending from each Statorzähnen are separated. The stator yoke advantageously has a

basically cylindrical shape. The longitudinal grooves and the stator teeth are arranged on the inside of this cylindrical shape. In the longitudinal grooves (between the

Statorzähnen) are each one or more Formlitzen introduced, each consisting of several, each electrically insulated individual wires. Respective ends of the form wires leave the longitudinal grooves of the stator yoke at a respective Statorjochkopf and project beyond the Statorjoch along the longitudinal axis LA by a predetermined length L.

Advantageously, the individual wires of the form wires made of copper or a

Copper alloy or aluminum or an aluminum alloy. All are advantageous In the longitudinal grooves of the stator yoke introduced formed strands identical.

Furthermore, the ends of the shaped strands project beyond the stator yoke in an orientation parallel to the longitudinal axis LA of the stator yoke or perpendicular to the stator yoke. The shaped strands are accordingly not bent after leaving the longitudinal grooves. They thus have an overall length, which determines from the length LS of the stator yoke and the respective projections L heads on the two Statorjoch.

In the present case, the term "stator yoke head" is understood to mean the end faces of the stator yoke. These are generally perpendicular to the longitudinal axis LA of the stator yoke.

The overall length GL of a shaped strand results in an advantageous variant for GL = 2 ^* L + LS, where LS indicates the dimension of the Stratorjochs along the longitudinal axis LA. In this variant, the respective ends of the shaped strands project beyond the Statorjoch heads on both Statorjoch by a uniform length L. In another advantageous variant of the ends of the Formlitzen project beyond the Statorjoch in the first Statorjochkopf to a uniform length L1 and the second Statorjochkopf to a uniform Length L2. In this case, the total length GL of a stranded wire becomes: GL = L1 + L2 + LS. Advantageously, the ends of the shaped strands project beyond the stator yoke at the respective one

Stator yoke head thus uniform around a constant length L / L1 / L2. The length L / L1 / L2 is advantageously dimensioned such that the respective end of a inserted into the stator yoke strand mechanically with one end of a respective electrical

Joined connecting element and thus can be electrically connected. It is advantageous here to choose the protrusion length L required for this as small as possible, but sufficiently large, so that the joining process of the ends of the shaped strands with the respective connecting element can be carried out sufficiently well.

Advantageously, the length L / L1 / L2 is selected from the range 2 mm to 50 mm, or the length L / L1 / L2 is 15 mm, 7 mm, 19 mm, 13 mm, 15 mm, 20 mm, 23 mm, 2 5mm, 27mm, 30mm, 33mm, 35mm, 37mm, 40mm, 43mm, 45mm or 47mm. These values apply in particular to electrical machines used in vehicles, in particular motor vehicles.

The individual wires of each introduced into the longitudinal grooves shaped strand according to the invention are electrically connected at their ends. That is, in the section in which the individual wires run within the Statorjochs in the respective longitudinal groove, the individual wires each have an insulation, which they each with respect to other individual wires of the stranded, further introduced into the longitudinal groove shape strands and the stator yoke electrically isolate. The electrical connection of the individual wires is thus advantageously arranged outside the stator yoke.

Finally, according to the invention, at least a first end of one of

Statorjoch heads superior first form of wire with a second end of another same Statorjoch head superior, coming from another longitudinal groove second stranded wire to form an electrical winding via a separate electrically conductive connecting element mechanically and electrically connected to each other, wherein the first end and the second end do not touch mechanically.

Such a connecting element thus connects at least two ends of two form strands coming from different longitudinal grooves of the stator yoke to one another

Statorjochkopf. Depending on the configuration of the windings of the stator connecting elements according to the invention are also used, the three or more ends of three or more coming from one of the several different longitudinal grooves form strands on a Statorjochkopf electrically connect. Advantageously, one or more of the connecting elements have connection interfaces for the electrical activation of the electrical windings respectively formed from the shaped strands and the connecting elements.

Advantageously, the conductive connecting element is a metal bracket, in particular made of copper or a copper alloy or of aluminum or an aluminum alloy. Advantageously, the conductive connecting element is designed bent in its longitudinal direction.

Advantageously, the connecting element has a web-like, staple-like,

bar-shaped or U-shaped longitudinal profile. Advantageously, the connecting element along its longitudinal direction has a cross section which is equal to or smaller than a sum of the cross sections of all individual wires of a form strand directly connected to the connecting element. In an alternative embodiment, the

Connecting element along its longitudinal direction (in the current flow direction) a

Cross-section which is greater than a sum of the cross sections of all the individual wires of a directly connected to the connecting element stranded wire. In an alternative

Embodiment, the connecting element along its longitudinal direction (in

Current flow direction) has a varying cross-section along the

Longitudinal part is larger, equal and smaller than a sum of the cross sections of all the individual wires of a directly connected to the connecting element stranded wire. This makes it possible to set the electrical resistance and the associated local heat development on the connecting element accordingly. In places of high local Heat development, as described later, advantageously made a thermal contact with a heat sink to dissipate heat generated. In particular, cross-sections that are size, as a sum of the cross sections of all the individual wires of a directly connected to the connecting element stranded wire serve to reduce the electrical resistance. The connecting element has along its

Longitudinal extension to a perpendicular width B and a standing perpendicular to the longitudinal extent and the width B standing thickness D on. Advantageously: D <B / 2. Advantageously, the connecting element has at least two along its longitudinal extent

Sections whose cross sections (perpendicular to the longitudinal axis LA) differ.

The connecting element is advantageously made of an at least single folded

Sheet metal, in particular made of copper sheet.

A particularly advantageous development of the stator is characterized in that the connecting element and the thus mechanically and electrically connected ends of the shaped strands project beyond the stator yoke on each stator head in total by a length L / L1 / L2 which is smaller than a limit value G1, wherein the Limit value G1 is smaller than a tenfold largest diameter D of a cross section of the form wires: L / L1 / L2 <

G1, where G1 <10 ^* D.

In particular, by a minimum projection of the ends of the shaped strands on the respective Statorjoch head and the proposed type of electrical connection of the ends of two or more stranded form on the respective Statorjoch head over an electrically conductive separate connection element allows a reduction in the length of the stator with turns. This is accompanied by corresponding material savings and thus a weight reduction of the proposed stator.

Preferably, the individual wires are each in the longitudinal grooves of the stator

arranged Formlitzen at the two ends of the form of strands means

Ultrasonic welding mechanically compacted and electrically connected. Of course, other known methods for electrically connecting the ends of the respective individual wires are also included within the scope of the present invention. For example, resistance welding or soldering methods are also suitable for the simple production of a stable and electrically conductive connection of the individual wires at the ends of the shaped strand.

Advantageously, the first end of the Statorjochkopf superior first Formlitze with a first end of the connecting element and the second end of a

Statorjoch head protruding from another longitudinal groove coming second stranded wire joined to a second end of the element. In the present case, joining or joining is understood as meaning welding, soldering, gluing, clamping, screwing, etc. The ends of the shaped strands are advantageously firmly joined to the connecting element. Particularly advantageously, the joining of the first end of the first shaped strand to the first end of the connecting element and the second end of the second shaped strand to the second end of the connecting element takes place by means of laser welding.

Each of the formed strands introduced into the longitudinal grooves advantageously has, at least in the region of the respective form strand running in the longitudinal groove, an electrically insulating sheathing which electrically insulates the respective form strand against further formed strands introduced in the respective longitudinal groove and against the stator yoke.

Advantageously, the individual wires are twisted at least one of the form wires. Advantageously, the individual wires of all shaped strands are twisted. The individual wires are advantageously twisted in such a way that the lay lengths of the twisting of the individual wires correspond or are smaller than a length LS of the stator yoke. In this case, the term "lay length" refers to the length along, for example, a twist axis of the respective twisted individual wires, which corresponds to a 360 ° twist. Advantageously, the lay lengths of the twists of the individual wires correspond to an integer divider of the length LS of the stator yoke. Advantageously, the number of strokes of the twist along the length LS, i. the number of 360 ° twists along the length LS, each integer. In a further advantageous embodiment, a single wire by Unterverdrillung several lay lengths are assigned.

Advantageously, one or more ends of the shaped strands are electrically connected to one

Motor terminal connected. The motor terminal board serves to electrically connect the windings of the stator consisting of the form wires and the connecting elements. Advantageously, one or more of the connecting elements has an electrical connection to the motor terminal board.

Advantageously, the end faces are preferably at least one third of all

Connecting elements (advantageously all the connecting elements) of a Statorjochkopfes arranged in a plane perpendicular to the longitudinal axis LA. The end faces of the connecting elements in this case are the surfaces of the connecting elements, along the Longitudinal axis LA are the most exalted relative to the respective Statorjochkopf.

Advantageously, the connecting elements to an electrical insulation, the

Short circuits between connecting elements are prevented, i. that every one of them

Connecting elements with respect to other, adjacent to the respective Statorjochkopf arranged connecting elements is electrically insulated. For this purpose, the

Connecting elements preferably themselves have an electrically insulating surface.

Alternatively or additionally, an insulating material is introduced between adjacently arranged connecting elements.

Advantageously, one or more of the connecting elements are thermally with a

Heat sink connected. Through this thermal coupling can

Be cooled connecting elements, so that a considerable portion of the heat energy generated during operation of the stator having the electric machine can be dissipated.

Another aspect of the invention relates to an electric motor and / or a generator having a stator as described above.

Another aspect of the invention relates to a vehicle, in particular a motor vehicle, a watercraft, an underwater vehicle, an aircraft or a spacecraft with an electric motor and / or a generator, as described above.

A final aspect of the invention relates to a method for producing a stator with a stator yoke for an electric machine, in particular for an electric motor and / or a generator. The proposed method comprises the following steps.

In one step, a stator yoke is provided which runs along its

inner peripheral edge parallel to each other along a longitudinal axis LA of the

Statorjochs extending longitudinal grooves, which are each separated by stator teeth.

In a further step, provision is made of shaped strands which each consist of a plurality of respectively individually insulated individual wires.

In a further step, an introduction of one or more of the shaped strands in the respective longitudinal grooves, wherein respective ends of the shaped strands, the longitudinal grooves of the Leave Statorjochs at a respective Statorjochkopf and project beyond the stator yoke along the longitudinal axis in each case by a predetermined length L.

In a further step, a mechanical and electrical connection takes place at least a first end of a Statorjoch heads superior first Formlitze with a second end of another the same Statorjoch köpf superior, coming from another longitudinal groove second Formlitze to form an electrical winding via a separate electrically conductive Connecting element, wherein the first end and the second end do not touch mechanically.

Advantageously, the individual wires of each of the provided form-wound strands are electrically conductively connected at the ends thereof before the introduction of the shaped strands into the longitudinal grooves. For this purpose, the individual wires at the ends of the form of strands are advantageous means

Ultrasonic welding mechanically compacted and then with a

Joining process, preferably by means of laser welding, electrically conductively connected.

Alternatively, the individual wires of each of the provided form-wound strands are electrically conductively connected at their ends only after being introduced into the respective longitudinal grooves of the stator yoke. This is done as explained above, preferably by means of ultrasonic compacting and subsequent laser welding.

Advantageously, the mechanical and electrical connection of at least the first end of a Statorjochkopf superior first Formlitze with a second end of another same Statorjochkopf superior, coming from another longitudinal groove second Formlitze to form an electrical winding via a separate electrically conductive connecting element means by means of a

Welding method, in particular laser welding, or a soldering method, after which the first and second stranded wire are introduced into the stator yoke.

Further advantageous embodiments of the proposed method result from an analogous and analogous transmission of the statements made above to the stator.

Further advantages, features and details will become apparent from the following description, in which - where appropriate, with reference to the drawings - at least one embodiment is described in detail. Same, similar and / or

functionally identical parts are provided with the same reference numerals. Show it:

Fig. 1 stator with electrically and mechanically connected Formlitzen (state of

Technology),

Fig. 2 is a schematic representation of a stator according to a

Embodiment of the invention

3 is a plan view of the Statorjochkopf 1 10a of the stator of FIG. 1st

4 is a plan view of the Statorjochkopf 1 10b of the stator of FIG. 1st

5a Schematized plan view of the end face of a connecting element 1 14 FIG. 5b Schematic side view of a connecting element according to FIG. 5a in a first variant

Fig. 5c Schematized side view of a connecting element according to Fig. 5a in a second variant

Fig. 6 shows a schematic representation of a method according to the invention for

Production of a stator

1 shows a stator for an electric machine, in particular an electric motor and / or a generator with electrically and mechanically connected shaped wires according to the prior art. The illustrated stator has a basically cylindrical stator yoke 100, which has along its inner circumferential edge parallel left longitudinal grooves LA (not shown) extending along a longitudinal axis LA of the stator yoke 100, which are each separated from stator teeth (not shown).

In the longitudinal grooves in each case two form strands 106 are introduced, each consisting of several, each electrically insulated individual wires (not shown). The respective form strands 106 leave the longitudinal grooves of the Statorjochs 100 on the respective Statorjoch heads 110a, b and then angled so that they mechanically to form stator windings, each with a different strand of another longitudinal groove at the respective ends 112a, 1 12b of the form wires are electrically connected.

Thus, for example, the end 1 12b of the stranded wire 106a to form a turn with the end of the form 1 strand 106 b (runs behind the visible form strands of the outer ring) electrically and mechanically connected. The stranded wire 106b is further electrically and mechanically connected at its end 12a directly to the end 112a of the molded strand 106c, etc. By this kind of electrical connection of the ends 112a, 112b of the shaped strands 106, 106a-c projects beyond this connecting structure, the Statorjoch heads by a length LL.

2 shows a schematic representation of a stator for an electric machine, in particular for an electric motor and / or a generator according to a

Embodiment of the invention, wherein the stator as shown in FIG. 1, a Statorjoch 100 having along its inner peripheral edge parallel along a longitudinal axis LA of Statorjochs 100 extending longitudinal grooves 101, which are each separated by stator teeth 102. Like in FIG. 1, in each case one or more shaped strands 106 are introduced into the longitudinal grooves 101, each consisting of a plurality of respectively individually insulated individual wires (not shown). The individual wires of the shaped strands 106 are electrically conductively connected at their ends 1 12a, b.

In contrast to Fig. 1 leave the respective ends 1 12a, b of the form strands 106, the longitudinal grooves 101 of the Statorjochs 100 at the respective Statorjochkopf 110a, b parallel to the longitudinal axis LA and thus project beyond the respective Statorjochkopf according to the invention in parallel alignment with the longitudinal axis LA to a given length L. The

Formed strands 106 thus extend substantially straight from one end 112a to the opposite end 112b. The length L in the left Statorjoch head 1 10a for all form strands 106 uniformly L1 and the right Statorjochkopf 11 Ob for all Formlitzen 106 uniformly L2. In the present case L1 + L2. However, in the present case all shaped strands 106 have the same length. In other exemplary embodiments according to the invention, the following may apply: L1 = L2 = L. For special applications, the length L may be at a

Statorjoch head 1 10a, b also be different for at least two form wires.

Furthermore, in contrast to FIG. 1, for the formation of electrical windings, at least one first end 112a, b of a first shaped strand 106 projecting beyond one of the stator yoke heads 1 10a, b has the same end with a second end 12a, b

Statorjoch head 1 10a, b superior, coming from another longitudinal groove 104 second stranded wire 106 via a separate electrically conductive connecting element 114 electrically conductively joined to each other, wherein the first end 1 12a, b and the second end 1 12a, b mechanically not touch.

FIG. 2 further shows that some of the connecting elements 114 on their front side 1 19 coaxial with the longitudinal axis LA have over the stator yoke 100 rising connecting pins 118, which serve for the electrical contacting of the windings realized in the stator 100. Some of the connecting elements 1 14 serve for electrical connection of two Formlitzen ends 1 12a, b. Again some

Connecting elements 1 14 serve in the present case for the electrical connection of three

Formed lace ends 112a, b.

The connecting elements 114 shown here are longitudinally bent copper strips with a bandwidth D1 or D2 in the range of 5 to 40 mm and a strip thickness of 0.2 to 5 mm. The overall length BL of the stator shown results in the present embodiment to: BL = D1 + L1 + LS + L2 + D2. in the

Compared to the stator of Fig. 1, the stator of Fig. 2, which regards the winding guide outside of the stator yoke 100, more compact and thus material and

weight-saving structure.

The essential part of the resulting during operation of the electrical machine

Heat development can be dissipated by a thermal contact of the connecting elements 1 14 with a heat sink. An advantage for the mentioned thermal coupling for Wäremabfuhr here is that the end faces 119 of the connecting elements 114 on the respective Statorjochkopf 110a, 1 10b are substantially in a plane perpendicular to the longitudinal axis LA. This can be structurally simple to implement various known heat couplings. Essential here is that the thermal

Coupling is made of a non-electrically conductive material.

The connection of the projecting from the Statorjoch 100 Formlitzen ends 112a, b with the respective connecting element is advantageously carried out by means of ultrasonic compacting and subsequent laser welding.

FIG. 3 shows a plan view of the stator yoke head 110a of the stator yoke 100 according to FIG. 1. In this plan view, the end faces of the connecting elements 14 running in the longitudinal direction are clearly visible. A plurality of the connectors 114 ^** / 1 14 ^*** connect the ends of two form wires projecting the stator yoke 110 over the stator yoke head 110a. Some of the connecting elements 1 14 ^* connect the ends of three of the Statorjoch 1 10 on Statorjochkopf 1 10a superior shape strands. Furthermore, some of the ends of the shaped strands are electrically connected to a terminal pin 1 18, which serves to connect the realized in the stator yoke 100 electrical windings.

FIG. 4 shows a plan view of the stator yoke head 110b of the stator yoke according to FIG. 1. It is also clearly visible in this plan view the end faces of the connecting elements 1 14 which are bent in the longitudinal direction. FIG. 5 a shows a schematic plan view of the stationary side of a connecting element 114, preferably made of copper.

FIG. 5b shows a schematic side view of a connecting element 114 according to FIG. 5a in a first variant. 5c shows a schematic side view of a connecting element according to FIG. 5a in a second variant.

6 shows a schematic representation of a method according to the invention for producing a stator with a stator yoke 100 for an electrical machine, in particular for an electric motor and / or a generator. The method comprises the following steps.

In a step 201, provision is made of a stator yoke 100 which runs along its inner peripheral edge parallel to a longitudinal axis LA of the

Statorjochs (100) extending longitudinal grooves (101) which are each separated by stator teeth (102). In a step 202, provision is made of shaped strands 106, each of which consists of several individually electrically insulated individual wires. In a step 203, one or more shaped strands 106 are introduced into the respective longitudinal grooves 101, wherein respective ends 1 12a, b of the form strands 106 leave the longitudinal grooves 101 of the stator yoke 100 at a respective stator yoke 110 a, b and the stator yoke 100 each project beyond a predetermined length L along the longitudinal axis LA. In a step 204, an electrically conductive joining of at least one first end 1 12a, b of one of the Statorjoch heads 1 10a, b superior first Formlitze 106 with a second end 1 12a, b another, the same Statorjochkopf 110a, b superior, from a another longitudinal groove coming second stranded wire 106 for forming an electrical winding via a separate electrically conductive connecting element 114, wherein the first end (1 12a, b) and the second end 112a, b mechanically not touch.

Although the invention has been illustrated and explained in detail by preferred embodiments, the invention is not limited by the disclosed examples

and other variations can be deduced therefrom by those skilled in the art without departing from the scope of the invention. It is therefore clear that a multitude of possible variations exists. It is also to be understood that exemplified embodiments are really only examples that are not in any way intended to limit such scope, uses, or uses Configuration of the invention are to be construed. Rather, the foregoing description and description of the figures enable one skilled in the art to practice the exemplary embodiments, and those of skill in the knowledge of the disclosed inventive concept may make various changes, for example as to the function or arrangement of particular elements recited in an exemplary embodiment, without Scope of protection by the claims and their legal equivalents, such as

Explanations in the description, is defined.

LIST OF REFERENCE NUMBERS

100 Stator yoke

101 internal longitudinal grooves in the stator yoke

102 stator teeth

103 mechanical and electrical connection of two ends of two shaped strands

106 shaped strands

106a, b, c form strands

110a, b Stator yoke köpf

112a, b ends of the shaped strands, preferably with compacted and electrically connected individual wires

114 connecting element

118 connection pin

119 front side

201 - 204 process steps

Claims

claims

1. Stator for an electric machine, in particular for an electric motor and / or a generator, wherein

- The stator has a Statorjoch (100), which along its inner

Peripheral edge has parallel along a longitudinal axis LA of the stator yoke (100) extending longitudinal grooves (101) which are each separated from stator teeth (102),

- In each of the longitudinal grooves (101) one or more shaped strands (106) are introduced, each consisting of a plurality of each electrically insulated individual wires,

- Respective ends (1 12a, b) of the shaped strands (106), the longitudinal grooves (101) of the

Leave stator yoke (100) at a respective Statorjochkopf (1 10a, b) and the Statorjoch (100) extending parallel to the longitudinal axis LA extending in each case by a predetermined length L,

- The individual wires of each stranded wire (106) at the ends (1 12a, b) are electrically connected, and

- At least a first end (1 12a, b) of a one of the Statorjoch heads (1 10a, b) superior first Formlitze (106) having a second end (1 12a, b) of another the same Statorjochkopf (110a, b) outstanding, from another longitudinal groove (104) coming second stranded wire (106) for forming an electrical winding via a separate electrically conductive

Connecting element (1 14) are joined together electrically conductive, wherein the first end (112a, b) and the second end (1 12a, b) do not touch mechanically.

2. Stator according to claim 1,

in which the connecting element (114) is designed as a metal bracket.

3. Stator according to claim 1 or 2,

wherein the connecting element (114) is bent along its longitudinal direction.

4. Stator according to one of claims 1 to 3,

in which the connecting element (114) is designed as a bent copper band.

5. Stator according to one of claims 1 to 4,

in which the connecting element (114) has a web-like, staple-like, beam-like or U-shaped longitudinal profile.

6. Stator according to one of claims 1 to 5,

at the end faces of the connecting elements (114) lie substantially in a plane which is perpendicular to the longitudinal axis LA.

7. Stator according to one of claims 1 to 6,

in which the connecting elements (1 14) two or three perpendicular to a longitudinal direction of the connecting element (1 14) extending contact extensions have.

8. Stator according to one of claims 1 to 7,

in which the connecting element (1 14) in the current flow direction, has a varying cross section which is partly larger, equal and smaller than a sum of the cross sections of all the individual wires of a directly connected to the connecting element (1 14) Formlitze (106).

9. Stator according to one of claims 1 to 8,

in which the ends (112a, b) of a stranded wire project beyond the stator yoke heads (110a, b) by a length L which is smaller than a limit value G1, the limit value G1 being smaller than a ten times the maximum diameter D of a cross section of the Form strands: G1 <10 ^* D.

10. Stator according to one of claims 1 to 9,

in which the individual wires of each shaped strand (106) are mechanically compacted at their ends (1 12a, b) by means of ultrasound and are electrically conductively connected by means of laser welding.

11. Stator according to one of claims 1 to 10,

in which the first end (112a, b) is connected to a first end of the connecting element (1 14) and the second end (112a, b) to a second end of the

Connecting element (1 14) are electrically fixed firmly joined by laser welding.

12. Stator according to one of claims 1 to 11,

in which each of the shaped strands (106), at least in the region in which the shaped strands (106) extend in the longitudinal grooves (101), has an electrically insulating sheathing which surrounds the respective shaping strand (106) with respect to any further ones in the respective longitudinal groove (101 ) and electrically insulated against the stator yoke (100).

13. Stator according to one of claims 1 to 12,

in which the conductive connecting element (114) is bent in its longitudinal direction.

14. Stator according to one of claims 1 to 13,

at the end faces of at least one third of all joined connecting elements (1 14) of a Statorjochkopfes (1 10a, b) lie in a plane substantially perpendicular to the longitudinal axis LA.

15. Stator according to one of claims 1 to 14,

wherein one or more of the connecting elements (1 14) are thermally connected to a heat sink.

16. Electric motor or generator with a stator according to one of claims 1 to 15.

17. vehicle, in particular motor vehicle, rail vehicle, watercraft,

Underwater vehicle, spacecraft, golf cart, or rope-guided shuttle,

Industrial truck, hoist, aircraft, construction machine, machine tool with an electric motor or generator according to claim 16.

18. A method for producing a stator with a stator yoke (100) for a

electric machine, in particular for an electric motor and / or a

Generator, with the following steps:

- Providing (201) of a Statorjochs (100), which along its inner

- Providing (202) of Formlitzen (106), each of a plurality of each

consist of electrically insulated individual wires,

- introducing (203) one or more shaped strands (106) into the respective ones Longitudinal grooves (101), wherein respective ends (112a, b) of the formed strands (106) leave the longitudinal grooves (101) of the stator yoke (100) at a respective stator yoke head (110a, b) and the stator yoke (100) is parallel to the longitudinal axis LA each protrude by a predetermined length L,

- At least a first end (1 12a, b) of one of the Statorjoch heads (1 10a, b) superior first Formlitze (106) having a second end (1 12a, b) of another, the same Statorjochkopf (1 10a, b) outstanding , from another longitudinal groove coming second stranded wire (106) for forming an electrical winding via a separate electrically conductive connecting element (114)) electrically conductive joining (204), wherein the first end (1 12a, b) and the second end ( 112a, b) do not touch mechanically.