DE102018118465A1 - Stator for a rotating electrical machine - Google Patents

Abstract

A stator (11) of a rotary electric machine (10) comprises a stator core (21) formed by a plurality of core segments (23) each having a tine (25) and arranged in a circumferential direction of the stator core (21). coils (22) are mounted on insulators (26) mounted on the respective prongs (25) and an interphase insulating sheet (31, 41) disposed in the space between each two in the circumferential direction of the stator core (21) adjacent to each other arranged and different phases (U, V, W) having coil winding sections (22b) is formed, so that the Zwischenphasenisolierblech (31, 41) adjacent coil winding sections (22b) from each other. A portion of each interphase insulating sheet (31, 41) is disposed between the winding start line wire portion (22c) and the coil end portion (22e), and covers a portion of the recess (29k).

Description

BACKGROUND OF THE INVENTION

The present invention relates to a stator for a rotary electric machine.

Permanent magnet excited rotating electric machines on the rotor of which permanent magnets are mounted are widely used as a drive source in, for example, electric vehicles, hybrid vehicles, and fuel cell vehicles. The Japanese patent application JP 2016-208622 discloses a stator of a rotary electric machine of this type comprising a cylindrical stator core formed by connecting a plurality of core segments arranged in a circumferential direction, a plurality of insulators, and a plurality of coils fixed to the insulators. The stator core is formed of a plurality of core segments, each of which has a prong / tooth in a circumferential direction. Each insulator is fixed to the tine of the corresponding core segment. A coil wire is tightly / concentrically wound around each insulator so as to form a coil turn section in each coil. The coil winding sections, which are arranged adjacent to each other in the circumferential direction, have different phases from each other. An interphase insulating sheet is disposed in each space formed between circumferentially adjacent coil phase portions of different phase. The interphase insulating sheets insulate adjacent coil winding portions of different phases from each other.

Each insulator has a cylindrical cover portion for covering outer surfaces of the tine, an arcuate inner bottle extending upward from the cover portion and disposed radially inward of the coil winding portions in a radial direction of the stator core, and an arcuate outer flange extending from the cover portion extends upward and in the radial direction of the stator core radially outward of the coil winding sections is arranged. Each coil winding section is formed of a portion of a coil wire wound along an outer surface of the cover section. The inner flange prevents collapse of the coil turn portions toward a radially inner side of the stator core. The outer flange prevents collapse of the coil turn portions toward a radially outer side of the stator core.

A recess extending from an end of the outer flange opposite the cover portion toward another end of the outer flange is formed at each outer flange. A coil wire is passed through the recess, which is wound along the outer surface of the cover portion. The stator core is formed of a plurality of core segments, thereby allowing the coil wires to be wound on the insulators of the core segments before the core segments are arranged in the circumferential direction and fixed to each other. This configuration allows for easy winding of the coil wires around the insulators and allows for an increased fill factor of the coils.

In a stator of the kind described in the opening paragraph, a portion of the coil turn portion of each coil protrudes from the recess, resulting in a contact (short circuit) between a coil start portion, which is a portion of the coil wire of the coil turn portion, through the initial turns of the coil and that through the recess is led out and a winding end portion, which is a portion of the coil wire of the coil winding portion are formed by the end turns of the coil can be effected by means of the recess. A contact between the winding start portion and the winding end portion causes a potential difference and may result in a partial discharge.

The present invention is based on the above problem and is directed to providing a stator of a rotary electric machine capable of suppressing the occurrence of partial discharges.

SUMMARY OF THE INVENTION

According to one aspect of the present invention, there is provided a stator for an electric rotating machine having a stator core, a plurality of insulators (insulator bush), and a plurality of coils. The stator core includes a plurality of core segments each having a prong / tooth / protrusion and arranged in a circumferential direction of the stator core. The stator core is formed by connecting the core segments to a cylindrical arrangement. The insulators (insulator bush) are mounted on the respective tines of the core segments. The coils are mounted on the respective insulators. Each coil has a coil winding section formed by tightly winding a coil wire around the associated insulator. The coil winding sections adjacent to each other in the circumferential direction of the stator core have different phases from each other. In each gap formed between each other in the circumferential direction of the stator core adjacent coil winding sections, each is an interphase insulating sheet arranged so that the Zwischenphasenisolulblech / sheet isolated from each other adjacent coil winding sections from each other. Each insulator has a cylindrical cover section, an arcuate inner flange and an arcuate outer flange. The cover section covers its associated tines. The inner flange extends away from the cover portion and is arranged radially inward of the coil turn portion in a radial direction of the stator core. The outer flange extends away from the cover portion and is disposed radially outward of the coil turn portion in a radial direction of the stator core. Each outer flange has a recess extending from an opposite end of the cover portion of the outer flange in the direction of the cover portion. Each coil wire is passed through the recess and wound along the outer surface of the cover portion. In the stator of the rotary electric machine, each coil wire has a winding start portion through which initial turns of the coil winding portion are formed, a winding start line wire portion of the winding start portion pulled out of the winding start portion and guided by the recess, and a coil end portion through which end turns of the coil are formed. Between the winding start line wire section and the winding end section, a portion of the interphase insulating sheet / sheet is disposed covering a portion of the recess.

Other aspects of the present invention will become apparent from the embodiments described in the following description taken in conjunction with the accompanying drawings.

list of figures

The disclosure, together with its objects and advantages, will best be understood by reference to the following description of embodiments of the invention taken in conjunction with the accompanying drawings.

• 1: eine ausschnittsweise Darstellung einer Schnittansicht einer ersten Ausführungsform der rotierenden elektrischen Maschine,
• 2: eine ausschnittsweise Darstellung einer Schnittansicht eines Stators der in 1 gezeigten rotierenden elektrischen Maschine,
• 3: eine perspektivisch dargestellte Ansicht eines Kernsegments und eines Isolators,
• 4: eine ausschnittsweise Darstellung einer Draufsicht des Stators,
• 5: eine Draufsicht eines Zwischenphasenisolierblechs,
• 6: eine entlang der Linie VI - VI geschnittene Ansicht des in 5 dargestellten Zwischenphasenisolierblechs,
• 7: eine ausschnittweise Darstellung einer perspektivischen Ansicht des Stators,
• 8: eine ausschnittsweise Darstellung einer Schnittansicht des Stators,
• 9: eine ausschnittsweise Darstellung einer Schnittansicht des Stators,
• 10: eine Draufsicht eines Zwischenphasenisolierblechs/-blatts einer zweiten Ausführungsform der vorliegenden Erfindung,
• 11: eine entlang der Linie XI - XI geschnittene Ansicht des in 10 dargestellten Zwischenphasenisolierblechs/-blatts,
• 12: eine ausschnittsweise Darstellung einer Schnittansicht des Stators gemäß der zweiten Ausführungsform,
• 13: eine ausschnittsweise Darstellung einer Draufsicht des Stators gemäß der zweiten Ausführungsform und
• 14: eine ausschnittsweise dargestellte perspektivische Ansicht des Stators gemäß der zweiten Ausführungsform.

It shows:

• 1 FIG. 2 is a fragmentary view of a sectional view of a first embodiment of the rotary electric machine. FIG.
• 2 FIG. 2 is a fragmentary view of a sectional view of a stator of FIG 1 shown rotating electrical machine,
• 3 FIG. 3: a perspective view of a core segment and an insulator, FIG.
• 4 : a fragmentary representation of a top view of the stator,
• 5 FIG. 3 is a plan view of an interphase insulating sheet. FIG.
• 6 a view cut along the line VI - VI of the in 5 illustrated Zwischenphasenisolierblechs,
• 7 : a fragmentary representation of a perspective view of the stator,
• 8th FIG. 2 is a fragmentary view of a sectional view of the stator. FIG.
• 9 FIG. 2 is a fragmentary view of a sectional view of the stator. FIG.
• 10 FIG. 4 is a plan view of an interphase insulating sheet of a second embodiment of the present invention. FIG.
• 11 a view cut along the line XI - XI of the in 10 illustrated intermediate phase insulating sheet / sheet,
• 12 FIG. 2 is a fragmentary view of a sectional view of the stator according to the second embodiment; FIG.
• 13 FIG. 2 is a fragmentary view of a top view of the stator according to the second embodiment and FIG
• 14 FIG. 2 is a fragmentary perspective view of the stator according to the second embodiment. FIG.

DESCRIPTION OF THE FIGURES

First embodiment

Hereinafter, a stator of a rotary electric machine according to a first embodiment of the present invention will be described with reference to FIGS 1 to 9 described.

As in 1 shown has a rotating electrical machine 10 a cylindrical stator 11 and a rotor 12 on, the radially inward of the stator 11 is arranged and in which a rotary shaft 13 is used. The rotor 12 is at the rotary shaft inserted into it 13 set so that the rotor 12 together with the rotary shaft 13 rotates. The rotor 12 is from the stator 11 encompassed.

The rotor 12 has a cylindrical rotor core 12a the at the rotary shaft 13 is set and a plurality of in the rotor core 12a embedded permanent magnet 12b on. The stator 11 has a cylindrical stator core 21 and a plurality of around the stator core 21 wound coils 22 on. The stator core 21 is composed of a plurality of core segments arranged in a circumferential direction and assembled into a cylindrical arrangement 23 educated. An axial direction of the stator core 21 is congruent with one axial direction of the rotary shaft 13 , By making electrical current flow through the coils 22 , the rotor rotate 12 and the rotary shaft 13 together. The rotating electric machine 10 according to the first embodiment of the invention is of the permanent magnet excited type. The rotating electric machine 10 is used as a drive source in, for example, electric vehicles, hybrid vehicles and fuel cell vehicles.

As in 2 shown, shows each core segment 23 in the axial direction of the stator core 21 a substantially T-shaped shape. Every core segment 23 has a yoke 24 on that in a circumferential direction of the stator core 21 on the radially outer side of the stator core 21 extends and a prong 25 that is from the yoke 24 towards the radially inner side of the stator core 21 extends.

The tine 25 jumps from one in the radially inner direction of the stator core 21 radially inner surface of the yoke 24 and extends from a central portion of the yoke 24 towards the radially inner side of the stator core 21 as well as in the circumferential direction thereof. The tine 25 points to a yoke 24 opposite end of a flange 25f on. The flange 25f extends in the circumferential direction of the stator core 21 , An extension of the flange 25f in the circumferential direction from one edge of the tine 25 away, is shorter than an extension of the yoke 24 in the same direction. One on the radially inner side of the stator core 21 arranged and in the radial direction of the stator core 21 directed end face of the tine 25 corresponds to an outer boundary surface of the rotor core 12a ,

In one of the opposite circumferential end surfaces of the yoke 24 is a recess 24a educated. The recess 24a points, in the axial direction of the stator core 21 seen, a semicircular cross-section on. On the other of the opposite circumferential end surfaces of the yoke 24 is a lead 24b educated. The lead 24b points in the axial direction of the stator core 21 seen, a semicircular cross-section on. An outer surface of the projection 24b corresponds to an inner surface of the recess 24a , The core segments 23 are thereby fixed to each other, that projections 24b in the recesses 24a of circumferentially adjacent to each other arranged core segments 23 be fitted so that the core segments 23 are fixed in their position. If all the projections 24b and the recesses 24a are engaged with each other, become end surfaces of the yokes 24 adjacent core segments 23 interconnected, for example by welding.

As in 3 represented is every core segment 23 of a plurality of laminated thin electromagnetic steel plates 23a educated. Every electromagnetic steel plate 23a points in the axial direction of the stator core 21 seen a substantially T-shaped form. The laminating direction of the electromagnetic steel plates 23a corresponds to the axial direction of the rotary shaft 13 ,

The stator 11 has a plurality of insulators (insulator pens) 26 on, at the respective tines 25 the core segments 23 are mounted. The insulators 26 are made of resin. Every insulator 26 has a cylindrical cover portion 27 on, the associated tines 25 covers. Each insulator has an arcuate inner bottle 28 and an arcuate outer flange 29 on. The inner flange 28 extends from edges of the cover portion 27 in the axial direction as well as in the circumferential direction of the stator 21 and is located on the radially inner side of the stator core in the radial direction 21 , The outer flange 29 extends from edges of the cover portion 27 in the axial direction and the circumferential direction of the stator 21 and is located on the radially radially outer side of the stator core 21 ,

As in 2 shown are the lengths of sections of the outer flange 29 extending from the cover section 27 in the circumferential direction of the stator core 21 extend, larger than that of the inner flange 28 extending from the cover section 27 extend in the same direction. Outer surfaces of the sections of the outer flange 29 extending in the circumferential direction of the stator core 21 from the cover portion 27 extend away are with those surfaces of the yoke 24 contacted on the radially inner side of the stator core. Outer surfaces of the sections of the inner flange 28 extending in the circumferential direction of the stator core 21 from the cover portion 27 extend away, are with surfaces of the flange 25f of the tine 25 located on the radially outer side of the stator core 21 are arranged, contacted. The inner flange 28 and the outer flange 29 are each other in the radial direction of the stator core 21 facing.

Through the cover section 27 , the inner flange 28 and the outer flange 29 of the insulator 26 is a slot / access 30 Are defined. The sink 22 has a coil winding section 22b on, by tightly winding a coil wire 22a around the insulator (isolator top) 26 inside the slot 30 is formed. The slot 30 is a volume that of the cover section 27 , the inner flange 28 and the outer flange 29 of the insulator 26 is surrounded. The slot 30 gradually expands to the radially outer side of the stator core 21 out.

The inner flange 28 is in the radial direction of the stator core 21 radially inward of the coil winding section 22 arranged. The inner flange 28 prevents collapse of the coil winding section 22b toward the radially inner side of the stator core 21 , The outer flange 29 is in the radial direction of the stator core 21 radially outward of the coil winding section 22b arranged. The outer flange 29 prevents collapse of the coil winding section 22b toward the radially outer side of the stator core 21 ,

As in 3 shown, the outer flange 29 a recess 29k on. The outer flange 29 extends from opposite axial end surfaces 21e away from the stator core. The recess 29k is in each of the sections of the outer flange 29 formed, extending from the end faces 21e extends away. The recess 29k extends linearly in the direction of the cover section 27 from one end 29e of the outer flange 29 that the cover section 27 opposite (ie an axial end of the outer flange 29 in the axial direction of the stator core 21 ). The recess 29k is through the outer flange 29 formed in the thickness direction, so that the recess 29k it allows the coil wire 22a the coil 22 to pass through it. The coil wire 22a the coil is through the recess 29k passed and along the outer surface of the cover 27 wound.

The outer flange 29 also has a notch 29g (a recess). The notch 29g is in the previously described section of the outer flange 29 formed, extending from the end faces 21e in the axial direction of the stator core 21 extends and the recess 29k having. The notch 29g is by scoring the end 29e of the outer flange 29 educated. The notch 29e is in the circumferential direction of the stator core 21 spaced from the recess 29k arranged. The notch 29e is through the outer flange 29 formed in the thickness direction, so that the notch 29e it allows the coil wire 22a the coil 22 to pass through it.

The steps for winding the coil wire 22a the coil 22 around the insulator 26 are described below with reference to the 2 described. First, the coil wire 22a through the recess 29k guided and around the insulator 26 wound. The coil wire 22a initially close to the outer flange 29 around the end of the outer surface of the cover 27 wrapped and winding the coil wire 22a is continued so that turns of the coil 22 in the direction of the inner flange 28 be formed. When winding the coil wire 22a the inner flange 28 is reached, the coil wire 22a so further developed that the turns of the coil 22 in the direction of the outer flange 29 be formed. The winding process of the coil wire 22a is repeated until a desired coil 22 is formed.

A section of the coil wire 22a through the initial turns of the coil winding section 22b are formed, is hereinafter referred to as winding start section 22s designated while a portion of the coil wire 22a through the end turns of the coil winding section 22b are formed as a winding end portion 22e referred to as. The winding start section 22s is part of the coil winding section 22b closest to the cover section 27 of the insulator 26 is arranged. The coil wire 22a through which the winding start section 22s of the coil winding section 22b is formed, is with the outer surface of the cover 27 contacted.

The coil wire 22a is so around the insulator 26 wrapped that the resulting coil 22 to the volume of the slot 30 is adjusted. As previously described, the slot expands 30 gradually toward the radially outer side of the stator core 21 , Therefore, the coil wire becomes 22a so around the insulator 26 wrapped that the winding end section 22e which is the portion of the coil winding section 22b is through which the end turns of the coil winding section 22b are formed, as far as possible from the cover 27 away and radially outward of the stator core 21 is arranged. By such a winding of the coil wire 22a will be the volume of the slot 30 maximum utilization and the fill factor of the coil 22 improved.

A section of the coil wire 22a that of the winding end section 22e of the coil winding section 22b goes out and out of the slot 30 is brought out, presented in 4 is hereinafter referred to as Wicklungsendleitungswrahtabschnitt 22f designated. As in 4 is shown, the Wicklungsendleitungswrahtabschnitt 22f clamped in or held by the notch 29gg and extends in a radially outward direction from the stator core 21 ,

The coil winding section 22b is in the radial direction of the stator core 21 partially radially inwardly of the recess 29k arranged. Therefore, the winding end portion is 22e of the coil winding section 22b in the radial direction of the stator core 21 radially inward of the recess 29k arranged.

Those coil winding sections 22b in the circumferential direction of the stator core 21 are arranged adjacent to each other, have different phases (U-phase, V-phase and W-phase). As in 2 1, an inter-phase insulating sheet 31 is disposed in each space between two in the circumferential direction of the stator 21 arranged adjacent to each other and having different phases coil winding sections 22b is formed so that the Zwischenphasenisolierblech / -blatt 31 adjacent Spulenwindungsabschnitte 22b isolated from each other.

As in the 5 . 6 and 7 As shown, the interphase insulating sheet 31 has an insertion portion 32 on, in between two in the circumferential direction of the stator 21 adjacent coil winding sections 22b trained gap is introduced. The introductory section 32 is formed by folding the interphase insulating sheet 31 into a V-shape. The introductory section 32 has a first facing section 32a with an elongated strip shape and a second facing portion 32b with an elongated strip shape. The first facing section 32a is the circumferential direction of the stator core 21 one of two coil turn sections 22b facing in the circumferential direction of the stator core 21 are arranged adjacent to each other and the second facing portion 32b is in the circumferential direction the other of the two coil winding sections 22b facing. One on the radially inner side of the stator core 21 arranged end of the first facing portion 32a and one on the radially inner side of the stator core 21 arranged end of the second facing portion 32b are fixed to each other.

The interphase insulating sheet 31 also has a first flange 33a and a second flange 33b on. The first flange 33a has an elongated strip shape and extends from one end of the first facing portion 32a located on the radially outer side of the stator core 21 is arranged, in a circumferential direction of the stator core 21 , The second flange 33b has an elongated strip shape and extends from one end of the second facing portion 32b located on the radially outer side of the stator core 21 is arranged, in the other circumferential direction of the stator core 21 that is, in the direction that the direction of expansion of the first flange 33a is opposite. The first flange 33a and the second flange 33b extend in the circumferential direction of the stator core 21 away from each other.

The longitudinal direction of the first facing portion 32a , the second facing section 32b , the first flange 33a and the second flange 33b agree with the axial direction of the stator core 21 match. The dimensions of the first facing section 32a , the second facing section 32b , the first flange 33a and the second flange 33b in their longitudinal directions are substantially the same. The dimensions of the first facing section 32a , the second facing section 32b , the first flange 33a and the second flange 33b in their longitudinal directions are larger than the axial extent of the stator core 21 , Opposite longitudinal ends of the first facing portion 32a , the second facing section 32b , the first flange 33a and the second flange 33b extend between the opposite end surfaces 21e of the stator core 21 ,

The interphase insulating sheet 31 has an outer extension 34 on, extending along an outer surface 29a of the outer flange 29 which extends a surface of that portion of the outer flange 29 which is in the axial direction from the opposite end surface 21e of the stator core 21 extends. The exterior extension 34 is at one of the longitudinal ends of the first flange 33a is provided and extends in the circumferential direction of the stator core 21 from an edge of the first flange 33a away, the first facing section 32a is opposite. The extent of the external extension 34 in the axial direction of the stator core 21 is smaller than the extent of the outer flange 29 in the same direction.

The exterior extension 34 has a first extension section 35 a recess section 36 and a second extension section 37 on. The first extension section 35 closes at that end of the first flange 33a at the first facing section 32a lies opposite and extends along the outer surface 29a of the outer flange 29 , The recess section 36 closes at one end of the first extension section 35 at the first flange 33a lies opposite and is towards the radially inner side of the stator core 21 bent. The second extension section 37 closes at one end of the recessed section 36 that is the first extension section 35 lies opposite and extends along the outside 29a of the first flange 29 ,

As in 8th shown, the recess portion 36 a first recess wall 36a , a second recess wall 36b and a third recess wall 36c on. The first recess wall 36a closes at the end of the first extension section 35 on that the first flange 33a is opposite and extends toward the radially inner side of the stator core 21 from the first extension section 35 path. The second recess wall 36b joins in that end of the first recess wall 36a that is the first extension section 35 is opposite and extends in the circumferential direction of the stator core 21 from the first extension section 35 path. The third depression wall 36c closes at that end of the second recess wall 36b at which of the first recess wall 36a is opposite, extends toward the radially outer side of the stator core 21 from the second recess wall 36b away and is at the second extension section 37 established. The recess section 36 is in the recess 29k introduced.

A section of the coil wire 22a coming from the winding start section 22s of the coil winding section 22b pulled out and through the recess 29k is guided, is hereinafter referred to as Wicklungsanfangsleitungswrahtabschnitt 22c designated. As in the 8th and 9 represented, is the external extension 34 which is a portion of the interphase insulating sheet 31, between the winding start wire portion 22c and the coil end portion 22e of the coil winding section 22b arranged and covers a portion of the recess 29k , In particular, the recess portion 36 , which is a section of external expansion 34 is, in the recess 29k used to between the winding start wire section 22c and the coil end portion 22e of the coil winding section 22b to be arranged to thereby the recess 29k partially cover. As in 4 is shown, the recess portion 36 near the cover section 27 spaced from an inner surface of the recess 29k ,

As in 9 As shown, the winding start wire section extends 22c from the winding start section 22s of the coil winding section 22b , runs between the recess portion 36 and the inner surface of the recess 29k near the cover section 27 and is then bent in the direction towards which the recess 29k extends. In this state, the winding start wire section is located 22c in the radial direction of the stator core 21 radially outside the recess portion 36 and is also inside the recess 29k arranged.

As previously described, the stator 11 Insulators (insulator bush) 26 on, with the coils 22 at the respective insulators 26 are mounted. Ends of the winding start wire sections 22c the coils 22 the winding start wire sections 22c opposite to the coil winding sections 22b are phased and electrically connected to power supply devices (not shown) of their associated phase. Ends of winding end wire sections 22f the coils 22 the the winding end line wire sections 22f opposite to the coil winding sections 22b are connected together to a star point ground (not shown).

The operation of the first embodiment will be described below

The recess section 36 , which is a section of external expansion 34 of the interphase insulating sheet 31 is between the winding start wire portion 22c and the coil end portion 22e of the coil winding section 22b arranged and thus covers a portion of the recess 29k , This causes a contact between the winding start wire section 22c passing through the recess 29k is guided and the winding end section 22e of the coil winding section 22b through a portion of the interphase insulating sheet 31 prevented. This configuration prevents the occurrence of a partial discharge due to the potential difference between the coil start wire section 22c and the coil end portion 22e of the coil winding section 22b ,

The first embodiment of the present invention offers the following effects:

1-1. In every core segment 23 is a contact between the winding start line wire section 22c passing through the recess 29k is guided and the winding end section 22e of the coil winding section 22b is prevented by a portion of the interphase insulating sheet 31. Accordingly, by using the interphase insulating sheet 31, which is an existing component, a partial discharge becomes due to the potential difference between the winding start wire wire portion 22c and the coil end portion 22e of the coil winding section 22b prevented.

1-2. Each interphase insulating sheet 31 has a portion of the outer extension 34 into the recess 29k introduced so that a portion of the winding start wire section 22c can be arranged within the recess. Such a configuration prevents protrusion of the winding start line wire section 22c from the outside surface 29a of the outer flange 29 , unlike in a case where the external extension 34 of the interphase insulating sheet 31 along the outer surface 29a of the outer flange 29 in the radial direction of the stator core 21 over the recess 29k out extends without it being in the recess 29k is introduced.

1-3. As described above, a partial discharge is due to the potential difference between the winding start wire section 22c and the coil end portion 22e of the coil winding section 22b by using the existing interphase insulating sheet 31. Therefore, no additional insulator component is necessary to prevent partial discharge and an increase in the number of components used is prevented.

1-4. In every coil 22 is the space between the winding start wire section 22c and the coil end portion 22e of the coil winding section 22b closely. Therefore, in view of the ease of manufacture, it is easier to provide elongation of the interphase insulation sheet 31 and the extension between the winding start wire portion 22c and the coil end portion 22e of the coil winding section 22b as a separate insulating member, which is not the Zwischenphasenisolierblech / -blatt 31, between the winding start line wire section 22c and the coil end portion 22e of the coil winding section 22b to arrange.

Second embodiment

Hereinafter, a stator of a rotary electric machine according to a second embodiment of the present invention will be described with reference to FIGS 10 to 14 described. It should be noted that, in the following description, components of the second embodiment that correspond to those of the first embodiment will be denoted by the same reference numerals and their detailed description will be omitted or simplified.

As in the 10 . 11 and 12 As shown, the interphase insulating sheet 41 has an insertion portion 42 on, in between two in the circumferential direction of the stator 21 adjacent coil winding sections 22b trained space is introduced. The introductory section 42 is formed by folding the interphase insulation sheet / sheet 41 into a V-shape. The introductory section 42 has a first facing section 42a with an elongated strip shape and a second facing portion 42b with an elongated strip shape. The first facing section 42a the circumferential direction is one of two coil winding sections 22b facing in the circumferential direction of the stator core 21 are arranged adjacent to each other and the second facing portion 42b is in the circumferential direction the other of the two coil winding sections 22b facing. One on the radially inner side of the stator core 21 arranged end of the first facing portion 42a and one on the radially inner side of the stator core 21 arranged end of the second facing portion 42b are fixed to each other.

The interphase insulating sheet 41 also has a first flange 43a and a second flange 43b on. The first flange 43a has an elongated strip shape and extends from one end of the first facing portion 42a located on the radially outer side of the stator core 41 is arranged, in a circumferential direction of the stator core 21 , The second flange 43b has an elongated strip shape and extends from one end of the second facing portion 42b located on the radially outer side of the stator core 21 is arranged, in the other circumferential direction of the stator core 21 that is, in the direction that the direction of expansion of the first flange 43a is opposite. The first flange 43a and the second flange 43b extend in the circumferential direction of the stator core 21 away from each other.

The longitudinal direction of the first facing portion 42a , the second facing section 42b , the first flange 43a and the second flange 43b agree with the axial direction of the stator core 21 match. The dimensions of the first facing section 42a , the second facing section 42b , the first flange 43a and the second flange 43b in their longitudinal directions are substantially the same. The dimensions of the first facing section 42a , the second facing section 42b , the first flange 43a and the second flange 43b in their longitudinal directions are larger than the axial extent of the stator core 21 , Opposite longitudinal ends of the first facing portion 42a , the second facing section 42b , the first flange 43a and the second flange 43b extend between the opposite end surfaces 21e of the stator core 21 ,

The intermediate phase insulating sheet 41 has an inner extension 44 on, extending along an inner surface 29b of the outer flange 29 which extends a surface of one of the sections of the outer flange 29 which is in the axial direction from the opposite end surface 21e of the stator core 21 extend. The interior extension 44 is at one of the longitudinal ends of the first flange 43a is provided and extends in the circumferential direction of the stator core 21 from one edge of the first flange 43a away, the first facing section 42a is opposite.

The interior extension 44 has a first extension section 45 , a second extension section 46 and a folding section 47 on. The first extension section 45 closes at that end of the first flange 43a at the first facing section 42a lies opposite and extends along the inner surface 29b of the outer flange 29 , The second extension section 46 closes at the end of the first extension section 45 on that the first flange 43a is opposite.

As in 10 represented is a length L11 of the first extension section 45 in the axial direction of the stator core 21 shorter than a length L12 of the second extension section 46 in the same direction. The length L12 of the second extension section 46 is in the axial direction of the stator core 21 shorter than a length of the outer flange 29 in the same direction.

As in 13 are an end of the first extension section 45 spaced from the cover portion 27 (or the end face 21e of the stator core 21 ) and one end of the second extension section 46 spaced from the cover portion with respect to the axial direction of the stator core 21 arranged at the same position. One end of the second extension section 46 which is near the cover section 27 is arranged is closer to the cover portion 27 arranged as an end of the first extension section 45 that is near the cover section 27 is arranged. Thus, the interior extension 44 The structure described above, a relief recess 48 in order to interfere with the coil winding section 22b to prevent.

As in 12 shown, the fold section closes 47 to the end of the second extension section 46 at the first extension section 45 is opposite and extends from the second extension portion 46 in one of the insertion section 42 direction away. A length of the folding section 47 in the axial direction of the stator core 21 is essentially equal to the length L12 of the second extension section 46 in the same direction. Through the fold section 47 is an end to the interior extension 44 in an extension direction of the inner extension 44 educated. The extension direction of the inner extension 44 is referenced in the direction in which the interior extension 44 from the first flange 43a extends.

As in 14 pictured is the interior extension 44 , which is a section of the interphase insulating sheet / sheet 41 is, between the winding start wire section 22c and the coil end portion 22e of the coil winding section 22b arranged and covers a portion of the recess 29k , In particular, the second extension section 46 , which is a section of the interior extension 44 is, is in the radial direction of the stator core 21 radially inward of the recess 29k arranged, and the folding section 47 , the end of the interior extension 44 forms in the direction of extension, is in the recess 29k inserted in the direction of the radially outer side. This is the interior extension 44 between the winding start wire section 22c and the coil end portion 22e arranged and covers a portion of the recess 29k , The second extension section 46 and the folding section 47 are from the inner surface of the recess 29k in the area of the cover section 27 spaced.

The winding start wire section 22c extends from the winding start section 22s of the coil winding section 22b , passes through a gap through the inner surface of the second extension section 46 , the folding section 47 and the recess 29k , near the cover section 27 is defined and is then bent in the direction to which the recess 29k extends. In this state, the winding start wire section is located 22c in the radial direction of the stator core 21 away from the inner extension 44 and within the recess 29k ,

The operation of the second embodiment will be described below

The second extension section, which is a section of the interior extension 44 of the interphase insulating sheet / sheet 41 is in the radial direction of the stator core 21 radially inward of the recess 29k arranged, wherein the fold section 47 in the direction of the radially outer side into the recess 29k is introduced. This is the second extension section 46 between the winding start wire section 22c and the coil end portion 22e of the coil winding section 22b arranged and thus covers a portion of the recess 29k , By such a configuration of each core segment 23 becomes a contact between the winding start wire section 22c passing through the recess 29k is guided and the winding end section 22e of the coil winding section 22b prevented by a portion of the interphase insulating sheet / sheet 41. This configuration prevents the occurrence of a partial discharge due to the potential difference between the coil start wire section 22c and the coil end portion 22e of the coil winding section 22b ,

The length L11 of the first extension section 45 in the axial direction of the stator core 21 is shorter than the length L12 of the second extension section 46 in the same direction and the interior extension 44 has a relief recess 48 , With this configuration, in which the inner extension 44 along the inner surface 29a of the outer flange 29 extends is an interference of the first extension section 45 with the coil winding section 22b prevented.

In addition to the benefits 1 - 1 . 1 - 3 and 1 - 4 In the first embodiment, the second embodiment offers the following advantages.

2-1. For every core segment 23 are the interior extension 44 of the interphase insulating sheet 41, in the radial direction of the stator core 21 radially inward of the recess 29k is arranged, and the folding section 47 , which is an end to the interior extension 44 forms in its extension direction, in the direction of the radially outer side of the stator core 21 into the recess 29k introduced. According to the configuration, the interior extension prevents 44 the Zwischenphasenisolierblechs / sheet 41 even at a partially within the recess 29k arranged winding start wire section 22c a contact between the through the recess 29k guided winding start wire section 22c and the coil end portion 22e of the coil winding section 22b , As a result, a protrusion of the winding start wire section 22c from the outside surface 29a of the outer flange 29 is prevented.

2-2. The length L11 of the first extension section 45 is in the axial direction of the stator core 21 shorter than the length L12 of the second extension section 46 in the same direction, so on the interior extension 44 the relief recess 48 is trained. This configuration is when the inner extension 44 along the inner surface 29b of the outer flange 29 extends, interfering with the first extension section 45 with the coil winding section 22b prevented. Accordingly, the extension of the inner extension 44 along the inner surface 29b of the outer flange 29 facilitates, and the assembly of the Zwischenphasenisolierblechs / -blatt 41 is simplified.

The first and second embodiments described above may be modified in the manner described below.

In the first embodiment, it may be provided that the outer extension 34 of the interphase insulating sheet 31 does not have a recessed portion 36 having. In addition, it may be provided that the section of the outer extension 34 that stretches along the outside surface 29a of the outer flange 29 does not extend into the recess 29k is introduced. Instead, it may be provided that this section of the exterior extension 34 on the radial direction of the stator core 21 radially outer side of the recess 29k extends.

In the second embodiment, it may be provided that the inner extension 44 of the interphase insulating sheet / sheet 41, the folding portion 47 does not have. In addition, the extending end of the inner extension 44 in the radial direction of the stator core, radially inward of the recess 29k is arranged, not in the recess 29k be introduced.

In the second embodiment, it may be provided that the length L11 of the first extension section 45 in the axial direction of the stator core 21 essentially equal to the length L12 of the second extension section 46 may be in the same direction, so the interior extension 44 no relief recess 48 having.

In the second embodiment, it may be provided that the length L11 of the first extension section 45 in the axial direction of the stator core 21 bigger than the length L12 of the second extension section 46 may be in the same direction, so the interior extension 44 no relief recess 48 having.

In the first and second embodiments, the material of the interphase insulating sheet is 31 and 41 is unspecified and can be any material as long as it has excellent electrical insulating properties. In the first and second embodiments, the number of core segments 23 unspecified.

In the first and second embodiments, the ends may be attached to the insulators 26 mounted winding start wire sections 22c the coils 22 facing the ends of the winding start wire sections 22c that with the coil winding sections 22b are contacted, opposite, contacted with each other in a star point ground (not shown). Furthermore, the ends of the on the insulators (insulator pens) 26 mounted Windungsendleitungsdrahtabschnitten 22f the coils 22 which are the ends of the winding end line wire sections 22f that with the coil winding sections 22b are contacted, opposite, phased and electrically be connected to power supply means (not shown) of their associated phase.

QUOTES INCLUDE IN THE DESCRIPTION

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Cited patent literature

• JP 2016208622 [0002]

Claims (3)

A stator (11) for a rotary electric machine (10) which: a stator core (21) made of a plurality of core segments (23) each having a prong / teeth (25) and arranged in a circumferential direction of the stator core (21), the stator core (21) being connected by connecting the core segments (23 ) is formed in a cylindrical shape, a plurality of insulators (insulator pegs) (26) mounted on the respective prongs (25) of the core segments (23) and a plurality of coils (22) mounted on the respective insulators (26), each coil (22) having a coil winding section (22b) formed by winding a coil wire (22a) tightly around its respective insulator (26) having, in the circumferential direction of the stator core (21) adjacent coil winding sections (22b) have mutually different phases (U, V, W), an inter-phase insulating sheet / sheet (31, 41) is disposed in each space formed between each two coil winding portions (22b) arranged adjacent to each other in the circumferential direction of the stator core (21), and having coil winding portions (22b) having different phases (U, V, W); such that the interphase insulation sheet (31, 41) isolates adjacent coil winding portions (22b) from each other, each insulator (26) has: a cylindrical cover portion (27) covering the associated prongs (25); an arcuate inner flange (28) extending from the cover portion (27) and disposed inward in a radial direction of the stator core (21) of the coil winding portion (22b); and an arcuate outer flange (29) extending from the cover portion and located outward of the coil winding portion (22b) in the radial direction of the stator core (21), each outer flange (29) has a recess (29k) extending from an end (29e) of the outer flange (29) opposite to the cover portion (27) toward the cover portion (27) and each coil wire (22a) is passed through the recess (29k) and wound along an outer surface of the cover portion (27) such that each coil wire (22a) has a coil start portion (22s) through which initial turns of the coil winding portion (22b) are formed, a coil start line wire portion (22c) pulled out from the coil start portion (22s) through the recess (29k), and a coil end portion (22e) , are formed by the end turns of the coil winding portion (22b) and a portion of each interphase insulating sheet (31, 41) is disposed between the winding start line wire section (22c) and the winding end section (22e) and covers a portion of the recess (29k). Stator (11) according to Claim 1 characterized in that each interphase insulating sheet (31) has an outer extension (34) extending along an outer surface (29a) of the outer flange (29) and a portion of each outer extension (34) is inserted into the recess (29k). Stator (11) according to Claim 1 characterized in that each interphase insulating sheet (41) has an inner extension (44) extending along an inner surface (29b) of the outer flange (29) and each inner extension (44) in the radial direction of the stator core (21) inwardly of the recess (44). 29k) is arranged and one end of the inner extension (44) is inserted in its extension direction in the recess (29k).

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