WO2018150020A1 - Method for producing a component - Google Patents

Abstract

The invention relates to a method for producing an axisymmetrical component for an electric machine from at least one metallic band (12), wherein the at least one band (12) is divided along its longitudinal axis into a plurality of band portions arranged next to one another, wherein each band portion is to be processed by two production methods, wherein the at least one band (12) is wound onto a cylindrical outer wall of a winding tool (4) and coated when carrying out a shaping production method, wherein a hole (14) is cut with a cutting punch (8) from in each case one band portion of the at least one band (12) when carrying out a cutting production method, wherein a tooth element (16) is formed between holes (14) of two band portions which are directly adjacent next to one another, wherein all the tooth elements (16) are connected via at least one edge strip, wherein at least one of the two production methods is started for in each case one band portion from a first point in time, wherein the two production methods are concluded for the respective band portion by a second point in time, wherein at least one of the two production methods is ended at the second point in time.

Description

 Method for producing a component

The invention relates to a method for producing an axisymmetric component for an electrical machine and to a system for producing an axisymmetric component for an electrical machine.

An electric machine includes as components a rotor and a stator which rotate relative to each other during operation of the electric machine. The electric machine is to operate either as a motor or as a generator. Usually, the electromagnets comprise teeth made of metal around which the wire, for example of copper, is wound.

A method for producing a wall of a tank and thus a container for a liquid is known from the document US 7 866 196 B2. In this case, an elongated piece of metal is wound in a cylindrical shape, wherein the wall is provided.

Against this background, a method and a system with the features of the independent claims are presented.

Embodiments of the method and the system are evident from the dependent claims and the description.

The inventive method is for producing a

axisymmetric component provided for an electrical machine of at least one metallic band. In this case, the at least one band along its longitudinal axis in several juxtaposed

Split band sections. Each band section is through two

To process manufacturing processes. When carrying out a shaping production process, the at least one strip is repeatedly stacked on a cylindrical outer wall of a winding tool usually radially wound and radially stratified, each one

Band section is bent. From a respective band section of the at least one band is when dividing a

Manufacturing process with a cutting punch a hole cut, wherein between holes of two immediately adjacent to each other

Band sections a toothed element is formed, all of

Tooth elements are connected to each other via at least one edge strip or are. In this case, for each band section from or to or at a first time at least one of the two

Production process started or started. In addition, for the respective band section until a second time both

Manufacturing process completed, at least one of the two at the latest or at the second time

Production process is terminated. The axisymmetric component is made when both manufacturing processes are completed for each band section.

Thus, it is possible that for the respective band section at the first time only one of the two manufacturing processes begins. The other of the two manufacturing processes begins at a later time when the previously started manufacturing process is already completed or is still being carried out. However, it is also possible that both manufacturing methods start at the same time at the first time. At the second time, both manufacturing processes are completed. It is possible that both manufacturing processes are terminated at the same time at the same time. It is also possible that one of the two manufacturing processes is completed before the second time and the other of the two manufacturing processes at the second time. The two manufacturing processes to be carried out for each band section can be carried out successively and / or at least partially overlapping one another in a respectively definable sequence. In the presented method, the two production methods for each band section are combined, linked and / or connected.

In the method both for each band section

Manufacturing process performed, wherein a chronological order and / or sequence of the two manufacturing processes set and / or

provided, for example, is selected. It will be one of the two

Manufacturing process after another performed. Thus, the dividing manufacturing process prior to the forming manufacturing process or the forming manufacturing process before the dividing

Manufacturing process performed. It is also possible that both

Manufacturing processes are carried out simultaneously and / or temporally overlapping. In this case, a sequence or order according to which the two production methods are carried out or are to be carried out for each band section is freely selectable. Regardless of the sequence, a plurality of tooth elements formed and / or formed by cutting are stacked on each other by bending or punching and bending a plurality of band portions, wherein a tooth or a tooth package is formed from a plurality of toothed elements or tooth packages of a plurality of tooth elements stacked one above the other , Typically, the at least one band is divided along its longitudinal axis into a cutting section and at least one marginal ridge portion, wherein along the longitudinal axis of the cutting portion of the band a plurality of juxtaposed band sections are defined and / or provided. If the forming and then the dividing manufacturing process is carried out first, each band section is wound onto the winding tool and then cut or punched. In this sequence of manufacturing processes, the toothed elements are formed from wound and / or bent band sections after cutting, which are, for example, radially stacked and / or wound, with a plurality of superimposed, radially stacked toothed elements forming a tooth or tooth package, respectively which is provided as a metallic core for an electromagnet of the component. If the dividing and then the shaping manufacturing process is carried out first, the hole is cut from each band section, wherein a plurality of

Band sections the tooth elements are formed. The cut band sections and thus the tooth elements are then placed on the

Winding tool wound, wherein a tooth is formed from a plurality of wound and / or bent and, for example, radially superimposed band sections or tooth elements. In this case, it is possible for the hole in the respective band section to be cut, for example, by milling or broaching. To clear a hole in the

Band section first a hole to be drilled or milled. From this, the hole in the band section can be cleared.

The component produced in the process comprises several teeth. A shape and / or a structural structure of a tooth is to be influenced independently or possibly in detail by an order of the two manufacturing processes that are carried out for each band section.

However, by adjusting the dividing manufacturing process, the same component is to be manufactured independently of the sequence of manufacturing processes. It is thus possible to adapt a shape of the cutting punch and / or its penetration depth into the strip section during cutting as a function of the sequence of the production methods. So it is possible, for example, for the shape of the hole and its edge after completion of both

Manufacturing process to set the same values.

In an embodiment, for at least one band section first the shaping manufacturing process and then the dividing

 Manufacturing method carried out, wherein the at least one band portion is first wound, and wherein thereafter the hole is cut into the at least one band portion. Furthermore, for at least one other, another band section first the dividing manufacturing process and then the shaping

Manufacturing process carried out, wherein first the hole is cut into the at least one band section, and wherein the at least one band section or at least one of them cut or

then punched tooth element is wound up.

It is also possible for at least one other, another

Band section the dividing manufacturing process and the forming manufacturing process are carried out simultaneously or at least partially temporally overlapping, the at least one

 Coiled tape section and at the same time the hole is cut into the at least one band section.

Accordingly, a plurality of band sections or at least the toothed elements formed from the band sections, for example. Radially superimposed, these toothed elements form a tooth packet of the component to which further wire can be wound, wherein an electromagnet is formed, whose core consists of the tooth. The tooth elements are usually on a single sidebar

interconnected, all toothed elements are arranged on this one edge strip. Alternatively, it is possible that the tooth elements are connected to each other via two edge strips or, wherein the tooth elements in this case between two parallel

Edge strips are arranged, wherein the tooth elements, the two

Connect edge strips together.

In addition, it is possible that a width of the band portions and / or the holes and thus the tooth elements is varied, wherein a width of the band portions and / or holes with increasing distance of the band portion to be bent and / or the edge strip to be bent with increasing distance from the outer wall or a rotation axis of the winding tool is increased. The variation of the width can be adjusted by selecting the cutting punch and / or its penetration depth.

In one embodiment, the axisymmetric component is produced from only one band, wherein the teeth are formed from tooth elements stacked on one another and cut from the band portions of the one band.

Alternatively, it is possible that the axisymmetric component is made of a plurality of bands, wherein the bands in carrying out the

Forming manufacturing process simultaneously and / or synchronously on the cylindrical outer wall of the winding tool, for example. Radially wound and layered. In this case, the teeth are formed of tooth elements stacked on each other and cut from the band portions of the plurality of bands. In summary, it should be noted that in the context of the method, the at least one band is processed twice and thereby each changed in shape. If at first the tape on the

Winding tool is wound, the holes or openings to be made to be provided from the band sections

 Toothed elements that are already wound, punched. If the tape is first cut or punched, wherein the tooth elements are formed by cutting the holes, the tooth elements, which are connected to each other via the at least one edge strip, wound with the edge strip on the winding tool, wherein a plurality of tooth elements are stacked one above the other, in turn, a tooth is formed from these superposed toothed elements.

The system according to the invention is designed for producing an axisymmetric component for an electrical machine from at least one metallic band and comprises a winding tool and at least one cutting punch or punch. The at least one band is arranged along its longitudinal axis in a plurality of juxtaposed

Divide or divisible tape sections, each band section is to be processed by two manufacturing processes. When carrying out a shaping production process, the at least one strip is, for example, to be wound and stacked several times one above the other onto a cylindrical outer wall of the winding tool, wherein the winding tool is designed to bend each band section. The at least one

Cutting punch is adapted to each of a band portion of the at least one band when performing a dividing

Manufacturing process to cut a hole, wherein between two holes of two immediately adjacent adjacent band sections a toothed element is to be formed, all toothed elements are to be connected to each other via at least one edge strip. Furthermore, the system is designed to start or start for each band section from a first point in time at least one of the two manufacturing methods and for the respective band section to a second

Point in time to complete both manufacturing processes, which is to be terminated at exactly the second time at least one of the two manufacturing processes. The axisymmetric component is manufactured with the system if, for each band section, both manufacturing processes are completed by the second time at the latest. The fact that at least one of the two production processes is started for each band section from a first point in time comprises the

Possibility that for the band section at the first time the shaping manufacturing process and only then the dividing

Manufacturing process is started. Alternatively, however, it is also possible that for the band section at the first time the dividing

 Manufacturing process and only then the shaping manufacturing process is started. Furthermore, it is also conceivable that the band portion is wound or bent and at the same time the hole is cut. In this case, both manufacturing processes start at the first time.

In addition, both manufacturing processes are completed for the respective band section up to a second time, wherein at the second time at least one of the two manufacturing processes is terminated. It is possible that at the second time the shaping manufacturing process is terminated, the dividing

Production process is terminated before the second time. Alternatively, the dividing manufacturing process is terminated at the second time, wherein the shaping manufacturing process is terminated before the second time. In an embodiment, it is also conceivable that both manufacturing processes are terminated at the same time at the same time.

The system has at least one cutting tool that supports the

Has at least one cutting punch and at least one cutting plate as a counterpart to the at least one cutting punch.

If with the system first the dividing and then the

shaping process is performed, the at least one band is first to be processed by the cutting tool, wherein the holes cut from the band sections and the interconnected tooth elements are formed. The already processed band sections or tooth elements are then to be wound on the winding tool. However, it is possible that in the outer wall of the winding tool a plurality of cutting plates of the at least one cutting tool are integrated, wherein the at least one cutting punch, for example, in the radial direction to a central axis of rotation of the winding tool back and forth. Accordingly, the at least one cutting tool and the winding tool complement each other.

In this case, the dividing production process should at the earliest be carried out or feasible with the system as soon as the shaping production process has begun.

Regardless of how the two intended manufacturing processes are carried out successively and / or to each other simultaneously, the same component can be produced after completion of both manufacturing processes, the structural form and / or configuration of the temporal sequence and / or coordination of the two Manufacturing process is independent or only slightly influenced.

However, it is possible to manufacture the same component independently of one another by coordinating both production methods. This component comprises several teeth or tooth packages

stacked tooth elements, wherein each of these tooth packets of the component is further used as a core for an electromagnet around which further a usually wire-shaped electrical conductor is wound. This component produced in the context of the method is to move during operation of the electric machine relative to a second component, usually to rotate, wherein the second component may comprise a plurality of permanent magnets in a possible embodiment as components. However, it is also possible that the second component has other components. These two components of the electric machine are further arranged coaxially or axially to each other. In addition, it is provided that one of the two components is designed as a stator and / or to designate, whereas the other of the two components is designed and / or designated as a rotor, wherein in the operation of the electric machine, the rotor rotates relative to the stator , With the electrical machine is either electrical energy to mechanical energy or mechanical energy to convert into electrical energy.

If electrical energy is converted into mechanical energy, the electric machine is operated as a motor. Conversely, if mechanical energy is converted into electrical energy, the electric

Machine used as a generator.

Further advantages and embodiments of the invention will become apparent from the description and the accompanying drawings.

It is understood that the features mentioned above and those yet to be explained not only in the respectively specified Combination, but also in other combinations or alone, without departing from the scope of the present invention. The invention is schematically illustrated by means of embodiments in the drawings and will be described schematically and in detail with reference to the drawings.

Figure 1 shows a schematic representation of a first embodiment of the system according to the invention when performing a first

Embodiment of the method according to the invention.

Figure 2 shows a schematic representation of a second embodiment of the system according to the invention when performing a second

Embodiment of the method according to the invention.

Figure 3 shows a schematic representation of a third embodiment of the system according to the invention when performing a third

Embodiment of the method according to the invention.

Figure 4 shows a schematic representation of a fourth embodiment of the system according to the invention when performing a fourth

Embodiment of the method according to the invention. FIG. 5 shows, in a schematic representation, a cutting tool as part of the second embodiment of the system according to the invention from FIG. 2 in a schematic representation.

The figures are described coherently and comprehensively. Same components are assigned the same reference numerals. The schematically illustrated with reference to the figures 1 a, 1 b and 1 c first embodiment of the system 2 according to the invention comprises as

Components a winding tool 4 with a cylindrical outer wall, in which a plurality of cutting plates 6 are integrated. In addition, the system 2 comprises a cutting punch 8, which, as indicated by a double arrow 10 in Figure 1 a, relative to the cylindrical winding tool 4, for example. Radially back and forth can be moved. The winding tool 4 is also, as indicated by a curved arrow 1 1, to rotate in the illustration of Figure 1 in the counterclockwise direction. The cutting punch 8 and the at least one cutting plate 6 in this case form a cutting tool of the system 2, wherein the cutting plates 6 are formed depending on the definition here both as components of the winding tool 4 and as components of the cutting tool.

With this embodiment of the system 2, a component for an electrical machine is to be produced from at least one metallic strip 12. In this case, for the strip 12 made of sheet metal, two production processes, namely a shaping and a dividing production process, are carried out at a first time, wherein in the embodiment presented here the dividing production process is carried out at the earliest when the shaping manufacturing process has begun at a first point in time. Thus, both manufacturing processes can be performed at least partially overlapping, possibly simultaneously. It is also possible that the dividing manufacturing process only after the beginning of the shaping manufacturing process at the first time, but during the shaping manufacturing process, d. H. even before this

is completed. However, it is also possible that the dividing manufacturing process is performed only after completion of the shaping manufacturing process. To carry out the shaping manufacturing process, the tape 12 is wound on the cylindrical outer wall of the winding tool 4, wherein it is provided here that the winding tool 4 rotates about its axis of rotation. As soon as a band section of the band 12 is wound on the winding tool 4 from the first time, it becomes a hole 14

cut, which is finished until a second time. Since in the band 12, after this is wound up, with the cutting punch. 8

successively several holes 14 are punched, a toothed element 16 is formed between two such holes 14. It is provided that a plurality of tooth elements 16 are connected to each other via a skirt.

A number of holes can be individually set or selected depending on the requirement. In the presented embodiment is, for example.

provided that the component here n = 12 holes 14 required. Thus, it is provided here that with the cutting punch 8, a hole 14 is punched in the already wound tape section. After that it will be

Winding 4 each 3607n, here corresponding rotated by 30 °, then each another hole 14 is punched into the belt 12. Thus, the tape 12 is alternately rotated 360n, and then punched, punching four holes 14 per one complete revolution of the winding tool. If the component to be manufactured, which can be designed and / or designated as a laminated core, is 30 mm high and the band 12 has a thickness of 0.2 mm, 150 revolutions and 1800 become

Punches needed.

The two manufacturing processes are repeated several times

performed, wherein for each band portion of the band 12 each

Manufacturing process is done once completely. After several times Winding and punching of the band 12, a plurality of layers of tooth elements are formed radially superposed layers. In this case, a plurality of tooth elements stacked one above the other form a tooth 18 or

a plurality of teeth 18 of the laminated core of the component to be manufactured, which is or are still provided as a core for an electromagnet or are.

In each case, between two adjacent teeth 18 of holes, which are cut between the tooth elements, a groove is formed. In an embodiment, it is possible here for the component between the teeth straight grooves or oblique or oblique grooves and thus a

 To provide groove rotation. If just grooves are to be produced, the tooth elements are stacked one above the other straight. To produce grooves with a Nutverdrehung the tooth elements are stacked one above the other layered.

The presented with reference to Figure 2 second embodiment of the system 20 as components also comprises a winding tool 22 with a cylindrical outer wall closed here and a cutting tool 24, which in turn has a cutting punch 26 and a component

Cutting plate 28 has. With this second embodiment of the system 20, a second embodiment of the method according to the invention is carried out, in which for each band portion of the belt 12 from a first time first with the cutting tool 24, the dividing manufacturing process and then with the winding tool 22 the

forming manufacturing processes and completed at a second time. In this embodiment, a plurality of holes 14 are first cut into the belt 12 with the cutting tool 24 along a longitudinal axis of the belt 12. In this case, between each two immediately adjacent holes 14, a toothed element 16 is formed. Thus, the band 12 becomes a dividing manufacturing process provided modified band 12, which here comprises a skirt, on which a plurality of tooth elements 16 are arranged. This modified or

edited volume 12, d. H. the band portion as well as the tooth elements 16, is or will be subsequent to the cylindrical outer wall of the

Winding tool 22 wound. Also in this case will be several

 Tooth elements 16 layered in the radial direction, wherein in each case a plurality of tooth elements 16 in turn a tooth 18 is produced for a component of an electrical machine. The illustrated in Figure 3 third embodiment of the system 3 according to the invention comprises as components a winding tool 4 with a cylindrical outer wall, in which a plurality of cutting plates 6 are integrated. In addition, the system 3 comprises a plurality of, here for example four cutting punches 8a, 8b, 8c, 8d, which can be moved radially relative to the cylindrical winding tool 4 back and forth. The cutting punches 8a, 8b, 8c, 8d and the cutting plates 6 in this case form cutting tools of the system 3, the cutting plates 6 here both as components of the

Winding 4 as well as components each one

Cutting tool are formed. All cutting punches 8a, 8b, 8c, 8d point here to the axis of rotation of the winding tool 4 and are arranged on a common circle. Between two directly adjacent cutting punches 8a, 8b, 8c, 8d extends in each case an arc which covers here, for example, 90 ° of the circle. A number of cutting dies 8a, 8b, 8c, 8d depend on the number of ribbons 12a, 12b, 12c, 12d.

With this embodiment of the system 3 is here, for example, from four bands 12a, 12b, 12c, 12d to produce a component for an electrical machine. Here are for the bands 12a, 12b, 12c, 12d of sheet two

Manufacturing process, namely a shaping and a dividing

Manufacturing process to perform, with the presented here Embodiment the dividing manufacturing process for each band portion of a belt 12a, 12b, 12c, 12d is performed at the earliest once the molding manufacturing process has begun. Thus, both manufacturing processes can be carried out simultaneously for each band section. It is also possible for one each

 Band section the dividing manufacturing process only after the beginning of the shaping manufacturing process, but during the forming manufacturing process, d. H. before this is completed, is performed. However, it is also possible that the dividing manufacturing process is performed only after completion of the shaping manufacturing process.

To carry out the shaping manufacturing process, the bands 12a, 12b, 12c, 12d are wound synchronously on the cylindrical outer wall of the winding tool 4, wherein it is provided here that the winding tool 4 rotates about its axis of rotation. Once a tape portion of a tape 12a, 12b, 12c, 12d is wound on the winding tool 4, a hole 14 is punched out of this. As in each band 12a, 12b, 12c, 12d, after this is wound, with the respective cutting punch 8 successively several holes 14 are punched, a toothed element 16 is formed between two such holes 14. It is provided that a plurality of tooth elements 16 are connected to each other via a skirt. The two manufacturing processes are repeated several times

performed, wherein for each band portion of each band 12a, 12b, 12c, 12d, each manufacturing process is performed once completely. After several rewinding and punching of each tape 12a, 12b, 12c, 12d, a plurality of layers stacked radially one above the other are formed

Tooth elements formed. Here, several form one above the other Layered tooth elements, which are formed from different bands 12a, 12b, 12c, 12d, a laminated core and / or a plurality of teeth 18 of the component to be produced. The presented with reference to Figure 4 fourth embodiment of the system 21 comprises as components a winding tool 22 with a here

closed cylindrical outer wall and four cutting tools 24a, 24b, 24c, 24d, which in turn each have as components a cutting punch 26a, 26b, 26c, 26d and a cutting plate 28a, 28b, 28c, 28d. With this fourth embodiment of the system 21 is a fourth

 Execute embodiment of the method according to the invention, in which for each one of four bands 12e, 12f, 12g, 12h first with a respective cutting tool 24a, 24b, 24c, 24d the dividing

Manufacturing process and then with the winding tool 22 the

shaping manufacturing process is performed. At this

 Embodiment are in the respective band 12e, 12f, 12g, 12h first with the cutting tool 24a, 24b, 24c, 24d along a longitudinal axis of the belt 12e, 12f, 12g, 12h a plurality of holes 14 cut. In this case, between each two immediately adjacent holes 14 a

Tooth element 16 formed. Thus, from each band 12e, 12f, 12g, 12h, a band 12e, 12f, 12g, 12h modified by the dividing manufacturing method is provided, which here comprises a skirt, at which several

Tooth elements 16 are originally arranged a plurality of, here, for example, four bands 12e, 12f, 12g, 12h. This überabeiteten tapes 12e, 12f, 12g, 12h, ie the respective band portion and the tooth elements 16, is or are subsequently wound on the cylindrical outer wall of the winding tool 22. In this case too, a plurality of toothed elements 16 are stacked on top of one another in the radial direction, wherein in each case a plurality of toothed elements 16 a tooth 18 for a component of an electrical machine is produced. To this tooth 18 can continue a metal, For example, aluminum or copper, cast and / or wire wound, wherein an electromagnet is formed, whose metallic core consists of the tooth 18. A cutting tool 24, 24a, 24b, 24c, 24d from FIG. 2 or 4 is shown schematically in detail in FIG. This cutting tool 24 comprises as components the cutting punch 26 and the cutting plate 28, which are to be moved relative to each other, wherein from a band 12 here several juxtaposed holes to cut and thus to be punched.

As further components, the cutting tool 24 comprises a

Clamping pin 30, a top plate 32, a pressure plate 34 and a

Stamp holder plate 36, which are all connected to the cutting punch 26. In addition, the cutting tool 24 includes a guide plate 38, a guide rail 40, a suspension rod 42, a base plate 44 and a support plate 48, which are all connected to the cutting plate 28 here.

Claims

claims 1 . Method for producing an axle-symmetrical component for an electric machine comprising at least one metallic strip (12, 12a, 12b, 12c, 12d, 12e, 12f, 12g, 12h), the at least one strip (12, 12a, 12b, 12c, 12d, 12e, 12f, 12g, 12h) is divided along its longitudinal axis into a plurality of adjacently arranged strip sections, wherein each strip section is to be processed by two production methods, wherein the at least one strip (12, 12a, 12b, 12c, 12d, 12e, 12f , 12g, 12h) when performing a shaping manufacturing process on a cylindrical outer wall of a winding tool (4, 22) is wound and layered, wherein each band portion is bent, wherein each of a band portion of the at least one band (12, 12a, 12b, 12c, 12d, 12e, 12f, 12g, 12h) when performing a dividing Manufacturing method with a cutting punch (8, 8a, 8b, 8c, 8d, 26a, 26b, 26c, 26d) a hole (14) is cut, wherein between holes (14) of two immediately adjacent adjacent band sections a Tooth element (16) is formed, wherein all the tooth elements (16) are connected to each other via at least one edge strip, wherein for each band section from a first time at least one of the two manufacturing processes is started, wherein for the respective band section to a second time both manufacturing processes be completed, wherein at the second time at least one of the two manufacturing processes is terminated. 2. The method of claim 1, wherein for at least one Belt section first the forming manufacturing process and then the dividing manufacturing process is performed, wherein the at least one band portion is first wound, and then the hole (14) is cut into the at least one band portion. 3. The method of claim 1, wherein for at least one Band section is first performed the dividing manufacturing process and then the shaping manufacturing process, wherein first the hole (14) is cut into the at least one band portion, and wherein the at least one band portion is wound thereafter. 4. The method according to any one of the preceding claims, wherein for at least one band section, the dividing manufacturing process and the forming manufacturing process at least partially be performed overlapping, the at least one Coiled tape portion and at the same time the hole (14) is cut into the at least one band section. 5. The method according to any one of the preceding claims, wherein a plurality of toothed elements (16) are arranged radially one above the other, wherein these toothed elements (16) form a tooth (18) of the component. 6. The method according to one of the preceding sections, wherein the toothed elements (16) are connected to each other via a skirt, wherein all the toothed elements (16) are arranged on the edge strip. 7. The method according to any one of the preceding claims, wherein a width of the band portions and / or the holes (14) is varied, wherein the width of the band portions and / or the holes with increasing distance of the band portion to be bent and / or the edge strip to be bent is increased by the outer wall of the winding tool. 8. The method according to any one of the preceding claims, wherein the axisymmetric component of only one band (12) is produced. 9. The method according to any one of claims 1 to 7, wherein the axisymmetric component is made of a plurality of strips, wherein the bands (12, 12a, 12b, 12c, 12d, 12e, 12f, 12g, 12h) while carrying out the shaping manufacturing process simultaneously wound on the cylindrical outer wall of the winding tool (4, 22) and radially (4, 22) are layered. 10. system for producing an axisymmetric component for an electrical machine from at least one metallic strip (12, 12a, 12b, 12c, 12d, 12e, 12f, 12g, 12h), the system (2, 3, 20, 21) comprising a winding tool (4, 22) and at least one cutting punch (8, 8a, 8b, 8c, 8d, 26a , 26b, 26c, 26d), wherein the at least one band (12, 12a, 12b, 12c, 12d, 12e, 12f, 12g, 12h) is divisible along its longitudinal axis into a plurality of juxtaposed band sections, each Band section is to be processed by two manufacturing processes, wherein the at least one band (12, 12a, 12b, 12c, 12d, 12e, 12f, 12g, 12h) when performing a shaping manufacturing process on a cylindrical outer wall of the winding tool (4, 22) to be wound and layers, wherein the winding tool (4, 22) is adapted to bend each band portion, wherein the at least one cutting punch (8, 8a, 8b, 8c, 8d, 26a , 26b, 26c, 26d) is designed to each of a Band section of the at least one band (12, 12a, 12b, 12c, 12d, 12e, 12f, 12g, 12h) to cut a hole (14) when performing a dividing manufacturing process, wherein between holes (14) of two immediately adjacent band sections a To form tooth element (16), wherein all the tooth elements (16) via at least one Randleiste are to be connected to each other, wherein for each one Band section starts from a first time at least one of the two manufacturing processes, wherein for the respective band section up to At a second point in time, both manufacturing processes have to be concluded or concluded, at least one of the two manufacturing processes being completed or terminated at the second time. 1 1. A system according to claim 10, comprising at least one cutting tool (24, 24a, 24b, 24c, 24d) comprising the at least one cutting punch (8, 8a, 8b, 8c, 8d, 26a, 26b, 26c, 26d) and at least one cutting tip (6, 28, 28a, 28b, 28c, 28d) as a counterpart to the at least one Cutting punch has. 12. System according to claim 1 1, with the first dividing and then the shaping manufacturing process is performed, wherein the one band (12, 12a, 12b, 12c, 12d, 12e, 12f, 12g, 12h) first by the cutting tool (24 , 24a, 24b, 24c, 24d), wherein the holes (14) are cut from the band sections and the interconnected tooth elements (16) are formed, and wherein the already processed band sections are then to be wound on the winding tool (22) , 13. System according to claim 1 1, wherein in the outer wall of the  Winding tool (4) a plurality of cutting plates (6) of the at least one cutting tool are integrated, wherein the at least one Cutting punch (8, 8a, 8b, 8c, 8d) in the radial direction to a central axis of rotation of the winding tool (4) reciprocate is. 14. System according to claim 13, with the dividing Manufacturing process is feasible earliest once the molding manufacturing process has begun.