DE102016107902A1 - End plate for a stator of an electric motor, in particular for a fan, and stator for an electric motor - Google Patents

Abstract

An end plate for a stator of an electric motor, in particular for a fan, comprises an end plate ring body (14) surrounding a longitudinal axis and a plurality of circumferentially consecutive end plate winding projections (16) extending from the end plate ring body (14) substantially radially ), wherein side edge regions (32, 34) oriented radially in the direction of the end plate winding projections (16) and / or side edge regions (36, 38) oriented from the end plate winding projections (16) extend from the end plate ring body (14). and / or on the end plate ring body (14) oriented oriented side edge regions (40, 42) in the longitudinal axis extending casing projections (28, 30) are provided, wherein between at least two in association with the same end plate winding projection (16) provided Umkleidungsvorsprüngen (28, 30), a stator plate winding projection receiving space (26) is formed.

Description

The present invention relates to an end plate for a stator of an electric motor, which can be used, for example, as a fan motor in a fan that promotes in a vehicle heater the air required for combustion in a combustion chamber and / or promotes the air to be heated to a heat exchanger. Furthermore, the invention relates to a stator for such an electric motor.

In stators used in electric motors used as blower motors in vehicle heaters, a stator plate stack having a plurality of stator plates succeeding one another in the direction of a stator longitudinal axis is generally provided. These stator plates are generally constructed of magnetizable material, such as steel sheet or the like, and have a stator plate annulus and a plurality of circumferentially successive stator plate winding projections generally radially inwardly extending from the stator plate annulus. End plates are respectively provided on the two axial end sides of this stator plate stack, which essentially correspond to the shaping of the stator plates with respect to their shape, ie have an end plate ring body and end plate coil projections extending radially inwards and spaced apart from one another in a circumferential direction. The end plates are constructed of electrically insulating material, such as plastic material, to electrically insulate the stator plates from the stator windings surrounding the stator plate winding projections at the axial end sides thereof. In order to electrically isolate the radially inwardly lying surfaces of the stator plate ring bodies and the side faces of the stator plates facing the stator plate ring bodies from the stator windings surrounding them, insulating material layers are formed in these areas of the stator winding receiving spaces formed between respective stator plate winding projections , generally paper layers, inlaid.

It is the object of the present invention to provide an end plate for a stator of an electric motor or a stator constructed with an end plate of an electric motor, in particular for a blower, with which a simplified structure of such a stator is realized.

According to the invention this object is achieved by an end plate for a stator of an electric motor, in particular for a fan, comprising a longitudinal axis surrounding end plate ring body and a plurality of circumferentially successive, of the end plate ring body is substantially radially extending end plate winding projections, wherein of the end plate ring body are provided on side edge regions oriented radially in the direction of the end plate winding projections, and / or on the end plate winding projections on mutually oriented side edge regions and / or on the end plate ring body oriented side edge regions extending in the direction of the longitudinal axis extending casing projections, wherein between at least two casing projections extending in association with the same end plate winding projection, a stator plate winding projection accommodation space is formed.

In the case of the end plate according to the invention, the measures provided for providing an electrical insulation of stator plates with respect to the windings cooperating therewith, ie the cladding projections, are part of the end plate, so that no additional insulation materials to be inserted in separate operations have to be provided.

In order to achieve a reliable electrical decoupling of stator plates with respect to an end plate constructed according to the invention or the windings surrounding it, it is proposed that the end plate be made of electrically insulating material, preferably plastic material. In a particularly advantageous embodiment of the Endplatten-ring body with at least a portion of the Umkleidungsvorsprünge, preferably all Umkleidungsvorsprüngen be integrally formed, so with these forms a single block of material, which is for example produced in a plastic injection molding process. In particular, to provide an internal rotor motor, it is proposed that at least a portion of, preferably all of the end plate coil protrusions extend radially inward from the end plate ring body.

In order to achieve a reliable cohesion of an end plate constructed according to the invention with the stator plates of a stator, it is proposed that at least two casing protrusions forming a stator plate winding protrusion receiving space on at least one of the two casing protrusions, preferably both casing protrusions, into the stator plate winding protrusion Provided receiving space protruding stator plate holding projection. Preferably, it is provided that at least one, preferably each stator plate holding projection on its side facing the end plate ring body oriented side has a substantially axially oriented stator plate-holding surface and / or at its from the Endplatten- Ring body opposite side has an insertion bevel.

In order to achieve a slight adaptation of an end plate constructed in accordance with the invention to the stator plates to be coupled therewith, it is proposed that at least two circumferentially adjacent end plate winding projections between the mutually oriented side edge regions of these end plate winding projections and / or adjacent side edge regions of the end plate ring body and / or from the end plate ring body facing side edge portions of these end plate winding projection extending casing projections, a gap is formed.

For receiving the windings of the stator to be excited to generate a magnetic field, it is proposed that between at least two circumferentially adjacent end plate winding projections and between the mutually oriented side edge portions of these end plate winding projections and / or adjacent side edge portions of the end plate ring body or / and from the end plate annulus oriented side edge portions of these end plate winding protrusion extending cladding projections, a stator coil accommodation space is formed.

• – einen Statorplattenstapel mit einer Mehrzahl von in Richtung einer Stator-Längsachse aufeinanderfolgenden Statorplatten, wobei jede Statorplatte einen die Stator-Längsachse umgebenden Statorplatten-Ringkörper und eine Mehrzahl von in Umfangsrichtung aufeinanderfolgenden, von dem Statorplatten-Ringkörper sich im Wesentlichen radial erstreckenden Statorplatten-Wicklungsvorsprüngen umfasst,
• – an einer ersten axialen Endseite des Statorplattenstapels eine Endplatte, vorzugsweise mit erfindungsgemäßem Aufbau, mit einem Endplatten-Ringkörper und einer Mehrzahl von in Umfangsrichtung aufeinanderfolgenden, von dem Endplatten-Ringkörper sich im Wesentlichen radial erstreckenden Endplatten-Wicklungsvorsprüngen, wobei die Endplatten-Wicklungsvorsprünge und die Statorplatten-Wicklungsvorsprünge einander überdeckend angeordnet sind,

wobei an der Endplatte von dem Endplatten-Ringkörper oder/und den Endplatten-Wicklungsvorsprüngen in Richtung der Stator-Längsachse sich erstreckende, die Statorplatten-Ringkörper an ihren in Richtung der Statorplatten-Wicklungsvorsprünge orientierten Seitenflächen oder/und die Statorplatten-Wicklungsvorsprünge an ihren einander zugewandt orientierten Seitenflächen oder/und an den Statorplatten-Ringkörpern zugewandt orientierten Seitenflächen wenigstens bereichsweise überdeckende Umkleidungsvorsprünge vorgesehen sind. According to a further aspect of the present invention, the object stated above is achieved by a stator for an electric motor, in particular for a fan, comprising:

• A stator plate stack having a plurality of stator plates successive in the direction of a stator longitudinal axis, each stator plate comprising a stator plate ring body surrounding the stator longitudinal axis and a plurality of circumferentially sequential stator plate winding projections extending substantially radially from the stator plate ring body .
• On a first axial end side of the stator plate stack, an end plate, preferably of the inventive construction, having an end plate ring body and a plurality of circumferentially successive end plate winding projections extending substantially radially from the end plate ring body, the end plate winding projections and Statorplatte winding projections are arranged overlapping each other,

wherein at the end plate extending from the end plate ring body and / or the end plate winding projections toward the stator longitudinal axis, the stator plate ring bodies face at their side surfaces oriented in the direction of the stator plate winding projections and / or the stator plate winding protrusions face each other oriented side surfaces and / or on the stator plate ring bodies facing oriented side surfaces at least partially overlapping cladding projections are provided.

The cladding projections reliably electrically insulate the stator plates against the windings surrounding the stator plate winding projections without the need for additional insulation materials.

For generating the magnetic field, it is proposed that a stator winding receiving space is formed between at least two circumferentially adjacent end plate winding projections and the stator plate winding projections overlapping them, and that at least two circumferentially adjacent stator winding receiving chambers have a stator winding housing. Receiving spaces in the circumferential direction separating end plate winding projection and the stator winding windings surrounding these two stator winding receiving spaces in the circumferential direction separating stator winding is provided.

A solid cohesion of the end plate with the stator of the Statorplattenstapels can be achieved that at least two circumferentially adjacent, between themselves Statorplatten-winding projections receiving Umkleidungsvorsprünge at least one of the two Umkleidungsvorsprünge, preferably both Umkleidungsvorsprüngen one in the direction of the stator longitudinal axis The stator plate positioned farthest from the end plate ring body is preferably provided in the region of the stator plate winding projection positioned between these two casing projections on the stator plate holding projection extending beyond the end plate ring body. With such a construction, it is possible to dispense with the provision of a further end plate which ensures the cohesion of the stator plates with the already mentioned end plate on the other axial end side of the stator plate stack.

Stable cohesion of the end plate provided with the stator plate stack according to the invention can also be assisted in that the stator winding surrounds the two casing projections in the area of the stator plate holding projection provided on at least one of the casing projections.

In a particularly preferred embodiment of the stator according to the invention is proposed that the end plate of electrically insulating material, preferably plastic material is formed, and / or that the Endplatten-annular body with at least a portion of the Umkleidungsvorsprünge, preferably all Umkleidungsvorsprüngen, is integrally formed, and / or that at least a part of, preferably all End plate winding protrusions from the end plate ring body and / or stator plate winding protrusions from the stator plate ring body extend radially inward.

The invention further relates to an electric motor, in particular for a fan, comprising a stator constructed according to the invention, preferably with an end plate constructed according to the invention.

The present invention will be described below in detail with reference to the accompanying drawings. It shows:

1 a stator for an electric motor in a perspective view, viewed from a side I in 2 ;

2 the stator of the 1 , viewed from a side II in 1 ;

3 an axial view of the stator of 1 and 2 , viewed in the direction of an arrow III in 1 ;

4 a sectional view of the stator of 1 to 3 , cut along a line IV-IV in 3 ;

5 a perspective view of an end plate of the stator of 1 to 3 , viewed from a side V in 6 ;

6 the end plate of the 5 , viewed from a page VI in 5 ,

The 1 to 4 show a general with 10 designated stator for an electric motor which can be used for example as a blower motor in a vehicle heater to promote combustion air to a combustion chamber and / or to promote the air to be heated to a heat exchanger region of the vehicle heater.

The stator 10 basically has a stator longitudinal axis A, which is also substantially the axis of rotation of one in the stator 10 arranged rotor of an electric motor can correspond, ring-like surrounding structure. The stator 10 is with one in the 5 and 6 detailed end plate 12 built up. Also this end plate 12 has the above-mentioned ring-like structure and is in a preferred embodiment as an integral block of material made of electrically insulating material, such as plastic material. The end plate 12 has a radially outer end plate ring body 14 on which of which regularly spaced circumferential end plate winding projections 16 extending radially inwardly with respect to a longitudinal axis which may correspond to the stator longitudinal axis A. The end plate winding projections have a T-like shape in axial view. Between circumferentially immediately adjacent end plate winding protrusions 16 each is a stator winding accommodating space 18 formed, in which winding sections 20 . 22 from in 3 and in 4 in a schematic representation shown stator windings 24 extend substantially in the direction of the stator longitudinal axis A, so that between the winding sections 20 . 22 immediately adjacent and the same Statorwicklungs receiving space 18 passing stator windings 24 a circumferential distance is formed.

Associated with each of the end plate winding protrusions 16 are two circumferentially spaced and between them a stator plate winding projection receiving space 26 forming casing tabs 28 . 30 intended. Each of these casing tabs 28 . 30 has in axial view a substantially U-shaped configuration. The casing tabs 28 . 30 extend from the end plate ring body 14 in to a respective end plate winding projection 16 adjacent side edge areas 32 . 34 , as well as from each adjacent end plate winding projection 16 facing oriented side edge areas 36 . 38 a respective end plate winding projection 16 or from the radially inner region of a respective end plate winding projection 16 formed and the Endplattenringkörper 14 facing oriented side edge areas 40 . 42 a respective end plate winding projection 16 , Thus, each Ummantelungsvorprung bounds 28 . 30 with his two U-thighs 44 . 46 or his the two U-legs 44 . 46 connecting connecting bridge 48 and the U-shaped shape thus provided, a portion of each stator winding accommodating space 18 in which the winding sections 20 . 22 a respective stator winding 24 can be recorded in a defined position and in particular electrically insulated.

Between each together a stator winding receiving space 18 bounding and associated with circumferentially immediately adjacent end plate winding protrusions 16 provided Umkleidungsvorsprüngen 28 . 30 is both at the radially outer area, ie in the Substantially in the radial region of the end plate ring body 16 , as well as at the radially inner region, ie in the region of the radially inner ends of the end plate winding projections 16 , one in the direction of the end plate ring body 14 away axially open space 50 . 52 educated. Each of the casing tabs 28 . 30 thus extends in the direction of the stator longitudinal axis A, starting from the end plate ring body 14 or the radially inwardly extending end plate winding protrusions 16 essentially freestanding, so that the cladding protrusions 28 . 30 in particular in the embodiment of the end plate 12 made of plastic material, have a flexibility that a relative circumferential movement of the Umkleidungsvorsprünge 28 . 30 in the latter of the end plate ring body 14 and the end plate winding protrusions 16 axially remote end portions 54 allows.

In these end areas 54 have the casing tabs 28 . 30 each a stator plate holding projection 56 on. Each of these stator plate holding projections 56 is at its end plate ring body 14 or the stator winding projections 16 facing axial side with a substantially in the direction of the stator longitudinal axis A oriented, so provided with substantially in the direction of the stator longitudinal axis A aligned surface normal, stator plate-holding surface 58 intended. At her from the end plate ring body 14 and the end plate winding protrusions 16 opposite axial sides have the stator plate retaining projections 56 bevels 60 on. The two with a stator plate winding projection 16 associated Umkleidungsvorsprüngen 28 . 30 provided stator plate holding projections 56 are oriented in the circumferential direction facing each other and form with their two insertion bevels 60 a funnel-like opening, in which, in the manner described below, stator plates or stator plate winding projections thereof deforming the two interposed casing projections 28 . 30 can be introduced away from each other in the circumferential direction. After the insertion of the stator plates or stator plate winding projections, that is, after passing them on the stator plate holding projections 56 , the two move in their end areas before 54 in the circumferential direction away from each other moved Umkleidungsvorsprünge 28 . 30 back to each other, leaving them with their stator-plate retaining projections 56 The stator plates overlap and thus on the end plate 12 lock.

Associated with each of the circumferentially sequential end plate winding protrusions is one with respect to the end plate ring body 14 radially inwardly offset, so for example at the radially inner end portion of a respective end plate winding projection 16 axially in the opposite direction to the casing projections 28 . 30 extending winding holding projection 62 intended. Radially between a respective winding holding projection 62 and a corresponding axially projecting portion 64 of the end plate ring body 14 can each have a winding section 66 a stator winding 24 be absorbed, so that this winding section 66 defined on the end plate 12 can be held.

The 1 and 2 show the foregoing with reference to the 5 and 6 detailed end plate described 12 in assembly with a plurality of in the direction of the stator longitudinal axis A sequentially arranged stator plates 68 , The stator plates 68 have a ring-like structure with a stator plate ring body 70 and a plurality of even circumferentially spaced apart from each other and from the stator plate ring body 70 radially inwardly extending stator plate winding protrusions 72 , In adaptation to the shape of the end plate winding projections 16 are also the stator plate winding projections 72 formed with a substantially T-shaped configuration, so that the stator plate winding projections 70 in each case between two at an end plate winding projection 16 provided Umkleidungsvorsprüngen 28 . 30 formed stator plate winding projection receiving spaces 26 can be fitted. The stator plates 68 are then in the area of the stator plate ring body 70 at the substantially radially inward or in the direction of the stator plate winding projections 72 oriented side surfaces 74 covered, namely by the radially outer U-legs 44 the casing tabs 28 . 30 , At their mutually oriented side surfaces 76 . 78 are the stator plate winding protrusions 72 through this respective opposite connecting webs 48 the U-shaped casing tabs 28 . 30 covered. At its substantially radially outward or the stator plate ring bodies 70 facing oriented side surfaces 80 . 82 are the stator plate winding protrusions 72 from the radially inner U-legs 46 the casing tabs 28 . 30 covered.

The in the direction of the stator longitudinal axis A from Endplatten-ring body 14 most axially positioned stator plate 68 of all stator plates 68 comprehensive stator plate stack 84 is in the region of its stator plate winding protrusions 72 from the stator plate holding projections 56 overlapped. Thus, a stable cohesion of the end plate 12 with the stator plates 68 guaranteed. Furthermore, it is ensured that in the direction of the stator longitudinal axis A last, that is from the end plate ring body 14 farthest positioned stator plate 68 a by the axial extent of the stator plate holding projections 56 with defined axial distance to the axial end of the Umkleidungsvorsprünge 28 . 30 having. An educated space 86 is in 4 clearly visible. In this way is also in this axial region by the forced maintained axial distance of the axially last stator plate 68 to a winding section 88 the respective stator winding 24 made sure that a contact between them can not arise. Because of this, the provision of a in this axial end portion of the Statorplattenstapels 84 to be arranged and provided for electrical insulation end plate. At the same time is by a respective in the region of the stator plate holding projections 56 the casing tabs 28 . 30 surrounding stator winding 24 ensured that in the assembled state, ie after introduction of the stator windings 24 , which are associated with each other in pairs and on one and the same end plate winding projection 16 provided Umkleidungsvorsprünge 28 . 30 can not move away from each other in the circumferential direction. Thus, a moving out of the stator plates 68 from the clasp of the Umkleidungsvorsprünge 28 . 30 and possibly resulting contact with the winding sections 88 the stator windings 24 basically not possible.

Due to the provision of the casing projections on the end plate, in particular as an integral part thereof, it is possible to dispense with the provision of further electrical insulation of the stator windings with respect to the stator plates, which are generally made of metal material, for example by stamping from a sheet steel plate or the like. This simplifies the construction due to the smaller number of components for the stator and due to the fact that an additional step for introducing materials that provide for such insulation can be dispensed with.

It should finally be pointed out that fundamentally design changes are possible in the context of the present invention to the stator shown above. Thus, a stator plate holding projection does not necessarily have to be provided on each of the cladding projections or each pair of cladding projections provided on an end plate winding projection, respectively. Also, the shape of the casing projections may be adapted to the shape of the end plate winding projections and the stator winding projections, respectively, if they have a different form from the illustrated shape. Of course, the number of end plate coil protrusions and the stator plate coil protrusions preferably congruent therewith may vary depending on the size of the stator, and accordingly, the number of the stacked stator plate coil protrusions of the stator plate stack and the associated end plates Winding protrusions surrounding windings can vary.

Claims (12)

End plate for a stator of an electric motor, in particular for a fan, comprising an end plate annular body (A) surrounding a longitudinal axis ( 14 ) and a plurality of circumferentially successive, of the Endplattenringkörper ( 14 ) substantially radially extending end plate winding protrusions (FIGS. 16 ), wherein of the end plate ring body ( 14 ) radially in the direction of the end plate winding projections (FIG. 16 ) oriented page margins ( 32 . 34 ) and / or of the end plate winding projections ( 16 ) on mutually oriented side edge regions ( 36 . 38 ) and / or on the end plate ring body ( 14 ) facing side margins ( 40 . 42 ) extending in the direction of the longitudinal axis (A) Umkleidungsvorsprünge ( 28 . 30 ) are provided, wherein between at least two in association with the same Endplatten-winding projection ( 16 ) Umspannungsvorsprüngen ( 28 . 30 ) a stator plate winding projection receiving space ( 26 ) is formed. End plate according to claim 1, characterized in that the end plate ( 12 ) is formed of electrically insulating material, preferably plastic material, or / and that the end plate annular body ( 14 ) with at least a part of the casing protrusions ( 16 ), preferably all Umkleidungsvorsprüngen ( 16 ), or / and that at least a part of, preferably all end plate winding projections ( 16 ) of the end plate ring body ( 14 ) extend radially inward. End plate according to claim 1 or 2, characterized in that at least two therebetween a stator plate winding projection receiving space ( 26 ) forming Umkleidungsvorsprüngen ( 28 . 30 ) at least one of the two Umkleidungsvorsprünge ( 28 . 30 ), preferably both Umkleidungsvorsprüngen ( 28 . 30 ), in the stator plate winding projection receiving space (FIG. 26 ) projecting stator plate retaining projection ( 56 ) is provided. End plate according to claim 3, characterized in that at least one, preferably each stator plate retaining projection ( 56 ) at its end plate ring body ( 14 ) oriented side facing a substantially axially oriented stator plate-holding surface ( 58 ) and / or on his from the end plate ring body ( 14 ) facing away from an insertion bevel ( 60 ) having. End plate according to one of claims 1-4, characterized in that at least two circumferentially adjacent end plate Windlungsvorspüngen ( 16 ) between the mutually oriented side edge regions ( 36 . 38 ) of these end plate winding projections ( 16 ) and / or adjacent side edge regions ( 32 . 34 ) of the end plate ring body ( 14 ) and / or of the end plate ring body ( 16 ) facing side margins ( 40 . 42 ) of these end plate winding projections ( 16 ) extending cladding projections ( 28 . 30 ) a gap ( 50 . 52 ) is formed. End plate according to one of claims 1-5, characterized in that between at least two circumferentially adjacent end plate winding projections ( 16 ) and between the mutually oriented side edge regions ( 36 . 38 ) of these end plate winding projections ( 16 ) and / or adjacent side edge regions ( 32 . 34 ) of the end plate ring body ( 14 ) and / or of the end plate ring body ( 14 ) facing side margins ( 40 . 42 ) of these end plate winding projections ( 16 ) extending cladding projections ( 28 . 30 ) a stator winding receiving space ( 18 ) is formed. Stator for an electric motor, in particular for a fan, comprising: - a stator plate stack ( 84 ) with a plurality of in the direction of a stator longitudinal axis (A) successive stator plates ( 68 ), each stator plate ( 68 ) a the stator longitudinal axis (A) surrounding stator plate ring body ( 70 ) and a plurality of circumferentially successive, of the stator plate annular body ( 70 ) substantially radially extending stator plate winding protrusions (FIGS. 72 ), - an end plate (at a first axial end side of the stator plate stack) ( 12 ), preferably according to one of the preceding claims, having an end plate annular body ( 14 ) and a plurality of circumferentially successive, of the Endplattenringkörper ( 14 ) substantially radially extending end plate winding protrusions (FIGS. 16 ), wherein the end plate winding projections ( 16 ) and the stator plate winding projections ( 72 ) are arranged overlapping each other, wherein on the end plate ( 12 ) of the end plate ring body ( 14 ) and / or the end plate winding projections ( 16 ) extending in the direction of the stator longitudinal axis (A), the stator plate ring body ( 70 ) at their in the direction of the stator plate winding projections ( 72 ) oriented side surfaces ( 74 ) and / or the stator plate winding projections ( 72 ) at their mutually facing side surfaces ( 76 . 78 ) and / or on the stator plate ring bodies ( 70 ) facing side surfaces ( 80 . 82 ) at least partially overlapping Umkleidungsvorsprünge ( 28 . 30 ) are provided. Stator according to claim 7, characterized in that between at least two circumferentially adjacent end plate winding projections ( 16 ) and the stator plate winding projections (FIG. 70 ) a stator winding receiving space ( 18 ) and that in at least two circumferentially adjacent stator winding receiving spaces ( 18 ) one of these two stator winding receiving spaces ( 18 ) in the circumferential direction separating end plate winding projection ( 16 ) and these two stator winding receiving spaces ( 18 ) in the circumferential direction separating stator plate winding projections ( 72 ) surrounding stator winding ( 24 ) is provided. Stator according to claim 7 or 8, characterized in that at least two circumferentially adjacent, between them stator plate winding projections ( 72 ) receiving cladding projections ( 28 . 30 ) at least one of the two Umkleidungsvorsprünge ( 28 . 30 ), preferably both Umkleidungsvorsprüngen ( 28 . 30 ), in the direction of the stator longitudinal axis (A) of the Endplattenringkörper ( 14 ) farthest positioned stator plate ( 68 ) preferably in the region of between these two Umkleidungsvorsprünge ( 28 . 30 ) positioned stator plate winding projection ( 72 ) at the end of the annular plate body ( 14 ) facing away from side stator plate retaining projection ( 56 ) is provided. Stator according to claim 8 and claim 9, characterized in that the stator winding ( 24 ) the two Umkleidungsvorsprünge ( 28 . 30 ) in the area of the at least one of the Umkleidungsvorsprünge ( 28 . 30 ) provided stator plate retaining projection ( 56 ) surrounds. Stator according to one of claims 7-10, characterized in that the end plate ( 12 ) is formed of electrically insulating material, preferably plastic material, or / and that the end plate annular body ( 14 ) with at least a part of the casing protrusions ( 28 . 30 ), preferably all Umkleidungsvorsprüngen ( 28 . 30 ), or / and that at least a part of, preferably all end plate winding projections ( 16 ) of the end plate ring body ( 14 ) and / or stator plate winding projections ( 72 ) of the stator plate ring body ( 70 ) extend radially inward. Electric motor, in particular for a blower, comprising a stator ( 10 ) according to any one of claims 7-11, preferably with an end plate ( 12 ) according to any one of claims 1-6.

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