JP2023031406A - stator - Google Patents

Abstract

To provide a stator capable of suppressing a pulse of a current.SOLUTION: A three-phase coil and a neutral point connection conductor 30 in a stator are connected at a first connection point C1, a second connection point C2, and a third connection point C3. The first connection point C1 is formed by one end part 312 and another end part 333 of the neutral point connection conductor 30. The second connection point C2 and the third connection point C3 are formed by a folding part 34A and a folding part 34B of the neutral point connection conductor 30. The neutral point connection conductor 30 forming a section (a second part 32) connecting the folding parts 34A and 34B is formed to have a shape along the neutral point connection conductor 30 forming a section (a first part 31) from the one end part 312 of the neutral point connection conductor 30 forming the first connection point C1 to the folding part 34A and a section (a third part 33) from the other end part 333 of the neutral point connection conductor 30 forming the first connection point C1 to the folding part 34B.SELECTED DRAWING: Figure 2

Description

The present invention relates to a stator in which three-phase coils are connected by neutral connection conductors.

Conventionally, a stator in which three-phase coils are connected by a neutral connection conductor has been proposed (see, for example, Patent Document 1).

Patent Literature 1 described above describes a stator in which three-phase coils (U-phase, V-phase, and W-phase) are connected by a neutral point connection conductor.

In Patent Document 1, both ends of the connection points between the three-phase coil and the neutral point connection conductor (for example, the connection points between the U phase and the W phase) are arranged to be both ends of the neutral point connection conductor. It is described that, among the connection points, at the connection point on the W-phase side, the neutral point connection conductor is folded so that the thermistor is connected. Further, in Patent Document 1, the neutral point connection conductor has a folded shape at the central portion (for example, the connection point with the V phase) of the connection points between the three-phase coil and the neutral point connection conductor. , is described.

JP 2015-126665 A

However, in the stator disclosed in Patent Document 1, the neutral point connection conductor has a folded shape at the connection portion with the thermistor at the connection point on the W-phase side. Therefore, there is a problem that the resistance value varies due to the difference in the paths between the phases, and the ripple of the current may increase.

SUMMARY OF THE INVENTION An object of the present invention is to provide a stator capable of suppressing current pulsation.

In order to achieve the above objects, the present invention is configured as follows.

(1) A stator according to the present invention includes a stator core, a three-phase coil wound around the stator core, and a neutral point connecting conductor connected to each of the three-phase coils and formed of a series of linear conductors. wherein the three-phase coil and the neutral point connection conductor have a first connection point located in the center, a second connection point arranged on one side with respect to the first connection point, and the first connection point is connected at a third connection point arranged on the other side, the first connection point is formed by one end and the other end of the neutral point connection conductor, and the second connection point and the third connection point are formed by a folded portion A and a folded portion B formed by folding back the neutral point connecting conductor at an intermediate portion from one end to the other end of the neutral point connecting conductor a section from the one end of the neutral point connecting conductor forming the first connection point to the folded portion A, and from the other end of the neutral point connecting conductor forming the first connection point to the fold The neutral point connecting conductor forming the section connecting the folded sections A and B is formed so as to follow the neutral point connecting conductor forming the section extending to the section B. .

According to the above configuration, the neutral point connecting conductor is folded back at the folded portion A and the folded portion B, and one end and the other end of the neutral point connecting conductor are connected at the center. As a result, the resistance values between the respective connection points of the neutral line connecting conductor can be made substantially the same, so that the variation in the resistance values can be suppressed, and the pulsation of the current can be suppressed. As a result, torque fluctuations caused by variations in resistance values among the three phases are reduced, so control for reducing vibration (vibration damping control) or the like becomes unnecessary. Therefore, the stator of the present invention can improve the NV (Noise and Vibration) quality compared to that of the prior art. In addition, according to the above configuration, the stator of the present invention reduces the difference in resistance between the three phases, so that variations in the temperature rise of the neutral point connection conductor can be suppressed. Furthermore, according to the above configuration, the stator of the present invention has a structure in which the neutral point connection conductor is a series of structures with respect to the three-phase coils, so positioning with respect to each connection point is facilitated.

(2) In the stator according to the present invention, preferably, a section from one end of the neutral point connection conductor forming the first connection point to the folded portion A, and the neutral point connection forming the first connection point The neutral point connecting conductor forming a section from the other end of the conductor to the folded section B is arranged on one of the radially inner side and the outer side of the stator core, and forms a section connecting the folded sections A and B. The neutral point connecting conductor is arranged on the other of the radially inner side and the outer side of the stator core, and each of the neutral point connecting conductors arranged on the radially inner side and the outer side of the stator core is arranged on the stator core. It may be characterized by being formed so as to have a shape along the circumferential direction. According to this configuration, the neutral point connection conductor is formed so as to have a shape along the circumferential direction of the stator core. The point-connecting conductors can be arranged along. As a result, in the stator of the present invention, the neutral point connection conductor and each of the three-phase coils can be easily positioned at each of the connection points C1 to C3, and can be connected more easily.

(3) In the stator according to the present invention, preferably, the one end and the other end of the neutral point connection conductor are connected at the first connection point so as to overlap in the radial direction of the stator core, may be characterized by With this configuration, it is easier to form a weld bead during welding than in the case where the one end and the other end of the neutral point connection conductor are connected in parallel. is suppressed.

(4) In the stator according to the present invention, preferably, the length of the neutral point connecting conductor forming a section from one end of the neutral point connecting conductor forming the first connection point to the folded portion A; A length of the neutral point connecting conductor forming a section from the other end portion of the neutral point connecting conductor forming one connection point to the folded portion B is preferably substantially equal. By configuring the stator of the present invention in this way, the resistance value between each connection point of the neutral line connection conductor between each connection point (first connection point, second connection point, and third connection point) is approximately can be the same.

(5) In the stator according to the present invention, preferably, the neutral point connecting conductor is formed by bending a rectangular enameled wire. By constructing the stator of the present invention in this way, it becomes possible to manufacture the stator with a higher yield than the bus bar manufactured by press manufacturing. Further, the stator according to the present invention does not require insulation treatment due to the construction described above, and can be manufactured at a correspondingly lower cost.

(6) The stator according to the present invention preferably includes a temperature detection section that detects the temperature of the neutral point connection conductor, and the temperature detection section detects one end of the neutral point connection conductor forming the first connection point. between the neutral point connecting conductor forming the section from the section to the folded section A, the neutral point connecting conductor forming the section connecting the folded sections A and B, and the middle forming the first connection point At least one of the neutral point connecting conductor forming a section from the other end of the neutral point connecting conductor to the folded section B and the neutral point connecting conductor forming a section connecting the folded sections A and B It is preferable to be characterized by being arranged in a way. By configuring the stator of the present invention in this way, it is possible to measure the temperature at an arbitrary position of the neutral point connection conductor when the temperature is measured by the temperature detection section, and the degree of freedom of fixing locations can be improved. .

ADVANTAGE OF THE INVENTION According to the aspect which concerns on this invention, the stator which can suppress a pulsation of an electric current can be provided.

1(a) is a perspective view showing an example of the overall configuration of a stator according to an embodiment of the present invention, and FIG. 1(b) is an enlarged view of a main portion of the stator according to an embodiment of the present invention; FIG. 1 is a perspective view showing a neutral point connection conductor according to one embodiment of the present invention; FIG. It is the figure which looked at the neutral point connection conductor which concerns on one Embodiment of this invention from the axial direction. It is the figure which looked at the neutral point connection conductor which concerns on one Embodiment of this invention from radial direction.

A stator according to an embodiment of the present invention will be described below with reference to the accompanying drawings. These figures are schematic diagrams and are not necessarily drawn to exact proportions. Moreover, in the drawings, the same components are denoted by the same reference numerals.

(stator)
The configuration of a stator 100 according to this embodiment will be described with reference to FIGS. 1 to 4. FIG.

As shown in FIGS. 1 and 2, the stator 100 includes a stator core 10, three-phase coils 20U, 20V, and 20W, a neutral connection conductor 30, and a temperature detector .

(stator core)
As shown in FIGS. 1A and 1B, the stator core 10 includes an annular yoke 12 that extends along the circumferential direction and protrudes radially inward (toward the rotor (not shown)) from the inner peripheral surface of the yoke 12. A plurality of teeth 14 are included. The plurality of teeth 14 are arranged at intervals (equally spaced) from each other in the circumferential direction. Slots 16 are formed between teeth 14 adjacent in the circumferential direction. Note that the circumferential direction of the stator core 10 may be simply referred to as the "circumferential direction", the axial direction of the stator core 10 may be simply referred to as the "axial direction", and the radial direction of the stator core 10 may be simply referred to as the "radial direction".

(three-phase coil)
Three-phase coils 20U, 20V, and 20W are wound around teeth 14 through slots 16 . The conductors of the coils 20U, 20V, and 20W are, for example, flat wires with a rectangular cross section.

The coils 20U, 20V, and 20W are bent in the circumferential direction of the stator core 10 through slots 16 at different positions in the circumferential direction at coil end portions that protrude to one side in the axial direction from the stator core 10 (the teeth 14 and the yoke 12). , and the tips of the coil end portions are joined together. Also, the joint portions 22U, the joint portions 22V, and the joint portions 22W of the coils 20U, 20V, and 20W extend along the axial direction.

(neutral connection conductor)
As shown in FIGS. 2 to 4, the neutral connection conductor 30 is formed by bending a series (single) linear conductor at a plurality of locations. The neutral point connection conductor 30 is formed, for example, by bending an enameled wire having a rectangular shape (rectangular cross section).

As shown in FIG. 1(b), the neutral connection conductor 30 is electrically connected to each of the three-phase coils 20U, 20V, and 20W. One of the joints 22U of the coil 20U is used as a connection terminal 24U (first connection point C1) with the neutral connection conductor 30. As shown in FIG. One of the joints 22V of the coil 20V is used as a connection terminal 24V (second connection point C2) with the neutral connection conductor 30. As shown in FIG. One of the joints 22W of the coil 20W is used as a connection terminal 24W (third connection point C3) with the neutral connection conductor 30. As shown in FIG.

A connection terminal 24U of the coil 20U, a connection terminal 24V of the coil 20V, and a connection terminal 24W of the coil 20W are arranged circumferentially spaced from each other, have the same axial length, and are located at the same axial position. consistent with each other.

The three-phase coils 20U, 20V, 20W and the neutral connection conductor 30 are connected at a first connection point C1, a second connection point C2 and a third connection point C3, respectively. The first connection point C1 is located at the center of the stator core 10 in the circumferential direction. The second connection point C2 is arranged on one side of the stator core 10 in the circumferential direction with respect to the first connection point C1. The third connection point C3 is arranged on the other side in the circumferential direction with respect to the first connection point C1.

As shown in FIG. 2, the neutral connection conductor 30 has a first portion 31, a second portion 32 and a third portion 33. As shown in FIG.

The first portion 31 has a central portion 311 , one end portion 312 and the other end portion 313 . The one end portion 312 and the other end portion 313 are bent from the central portion 311 toward the axial direction of the stator core 10 .

The second portion 32 has a central portion 321 , one end portion 322 and the other end portion 323 . The one end portion 322 and the other end portion 323 are bent from the central portion 321 toward the axial direction of the stator core 10 .

The third portion 33 has a central portion 331 , one end portion 332 and the other end portion 333 . The one end portion 332 and the other end portion 333 are bent from the central portion 331 toward the axial direction of the stator core 10 .

The first connection point C<b>1 is formed by one end portion 312 of the first portion 31 of the neutral point connection conductor 30 and the other end portion 333 of the third portion 33 . The second connection point C2 is formed by the folded portion 34A. The third connection point C3 is formed by the folded portion 34B. The folded portion 34A and the folded portion 34B respectively fold the neutral point connecting conductor 30 at an intermediate portion from one end portion 312 of the first portion 31 of the neutral point connecting conductor 30 to the other end portion 333 of the third portion 33. It is formed by

Specifically, the folded portion 34A is formed by radially folding back the neutral point connection conductor 30 between the other end portion 313 of the first portion 31 and the one end portion 322 of the second portion 32. . Similarly, the folded portion 34B is formed by radially folding back the neutral connection conductor 30 between the other end portion 323 of the second portion 32 and one end portion 332 of the third portion 33 .

Here, in the present embodiment, the first portion 31 from one end portion 312 of the neutral point connection conductor 30 forming the first connection point C1 to the folded portion 34A and the neutral point forming the first connection point C1 For the neutral point connection conductor 30 forming the third portion 33 from the other end 333 of the third portion 33 of the connection conductor 30 to the folded portion 34B, the second portion 32 that connects the folded portion 34A and the folded portion 34B is formed. It is formed so as to have a shape along which the neutral point connection conductor 30 extends. That is, the second portion 32 is formed so as to follow the first portion 31 and the third portion 33 of the neutral point connecting conductor 30 .

A first portion 31 extending from one end portion 312 of the first portion 31 of the neutral point connection conductor 30 forming the first connection point C1 to the folded portion 34A, and a third portion 33 of the neutral point connection conductor 30 forming the first connection point C1. A third portion 33 extending from the other end portion 333 of the stator core 10 to the folded portion 34</b>B is arranged radially inside the stator core 10 . On the other hand, the second portion 32 that connects the folded portion 34A and the folded portion 34B is arranged radially outward of the stator core 10 . That is, the first portion 31 and the third portion 33 of the neutral connection conductor 30 are arranged radially inside the stator core 10 with respect to the second portion 32 .

One end 312 of the first portion 31 and the other end 333 of the third portion 33 of the neutral point connection conductor 30 are connected to overlap each other in the radial direction of the stator core 10 at the first connection point C1. One end 312 of the first portion 31 of the neutral connection conductor 30 is arranged radially outside of the stator core 10 with respect to the other end 333 of the third portion 33 .

A connection terminal 30 a (conductor portion) that is not covered with an insulating coating is provided at the tip of one end portion 312 of the first portion 31 of the neutral point connection conductor 30 . A connection terminal 30b (conductor portion) not covered with an insulating coating is provided at the tip of the folded portion 34A (the other end portion 313 of the first portion 31 and the one end portion 322 of the second portion 32) of the neutral point connecting conductor 30. is provided. A connection terminal 30c (conductor portion) not covered with an insulating coating is provided at the tip of the folded portion 34B (the other end portion 313 of the second portion 32 and one end portion 332 of the third portion 33) of the neutral point connection conductor 30. is provided. A connection terminal 30 d (conductor portion) that is not covered with an insulating coating is provided at the tip of the other end portion 333 of the third portion 33 of the neutral point connection conductor 30 .

The connection terminal 30a of the first portion 31, the connection terminal 30d of the third portion 33, and the connection terminal 24U of the coil 20U are joined by welding at the first connection point C1. The connection terminal 30b of the folded portion 34A and the connection terminal 24V of the coil 20V are joined by welding at the second connection point C2. The connection terminal 30c of the folded portion 34B and the connection terminal 24V of the coil 20V are joined by welding at the third connection point C3. As a result, the neutral connection conductor 30 is connected to the coils 20U, 20W and 20V.

As shown in FIG. 3, the length L1 of the first portion 31 from one end 312 of the neutral point connection conductor 30 forming the first connection point C1 to the folded portion 34A and the length L1 forming the first connection point C1 The length L2 of the second portion 32 from the other end portion 333 of the third portion 33 of the neutral point connecting conductor 30 to the folded portion 34B is substantially equal.

The temperature detection unit 40 is provided to detect (measure) the temperature of the neutral point connection conductor 30 or the temperature of at least one of the three-phase coils 20U, 20V, and 20W. An example of the temperature detection unit 40 is a temperature sensor such as a thermistor covered with mold resin. The temperature detection unit 40 connects the third portion 33 from the other end 333 of the neutral point connection conductor 30 forming the first connection point C1 to the folded portion 34B, and the folded portions 34A and 34B. It is arranged between the second part 32 .

According to the embodiment described above, the following effects (1) to (6) can be obtained.

(1) In the stator 100 according to the above embodiment, the first portion 31 forms a section from the one end 312 of the first portion 31 to the folded portion 34A, and the third portion 33 forms a section from the other end 333 to the folded portion 34B. A second portion 32 forming a section connecting the folded portion 34A and the folded portion 34B is formed along the third portion 33 .

According to the above embodiment, the neutral point connection conductor 30 is folded at the folded portions 34A and 34B so that the one end portion 312 and the other end portion 333 of the neutral point connection conductor 30 are centered (first connection point C1). connected with As a result, the resistance values among the connection points C1, C2, and C3 of the neutral wire connection conductor 30 can be substantially the same, so that variations in the resistance values can be suppressed, and current pulsation can be suppressed. As a result, torque fluctuations caused by variations in resistance values among the three phases are reduced, so control for reducing vibration (vibration damping control) or the like becomes unnecessary. Therefore, NV (Noise and Vibration) quality can be improved. Further, according to the above embodiment, since the difference in the resistance values between the three phases is small, the temperature rise of the neutral point connection conductor 30 can be made uniform. Furthermore, according to the above embodiment, since the neutral point connection conductor 30 has a series structure for the three-phase coils 20U, 20V, and 20W, it can be easily positioned with respect to each of the connection points C1 to C3.

(2) In the stator 100 according to the above-described embodiment, the neutral point connecting conductors 30 arranged radially inside and outside the stator core 10 are formed so as to follow the circumferential direction of the stator core 10 . As a result, since the neutral point connection conductor 30 is formed to have a shape along the circumferential direction of the stator core 10, the three-phase coils 20U, 20V, and 20W wound along the circumferential direction of the stator core 10 are connected to each other. On the other hand, the neutral point connection conductor 30 can be arranged along. This makes it easier to position the neutral point connection conductor 30 and each of the three-phase coils 20U, 20V, and 20W at the respective connection points C1 to C3, thereby facilitating connection.

(3) In the stator 100 according to the above embodiment, the one end portion 312 of the first portion 31 and the other end portion 333 of the third portion 33 of the neutral point connection conductor 30 overlap in the radial direction of the stator core 10 at the first connection point C1. connected as follows. This makes it easier to form a weld bead during welding compared to connecting the one end portion 312 and the other end portion 333 of the neutral point connection conductor 30 in parallel. Poor connection of the other end portion 333 of the portion 33 can be suppressed.

(4) In the stator 100 according to the above embodiment, the length L1 of the first portion 31 forming the section from the one end portion 312 of the first portion 31 of the neutral point connection conductor 30 to the folded portion 34A, and the length L1 of the neutral point connection conductor 30 The length L2 of the third portion 33 forming the section from the other end portion 333 of the third portion 33 to the folded portion 34B is substantially equal. As a result, the neutral point connection conductor 30 connecting the first connection point C1 and the second connection point C2 has a short line (first portion 31) and a long line (second portion 32+third portion 33) parallel to each other. become connected. In addition, the neutral point connection conductor 30 connecting the first connection point C1 and the third connection point C3 is a parallel connection of a short line (third portion 33) and a long line (first portion 31+second portion 32). Become. Also, the neutral point connection conductor 30 connecting the second connection point C2 and the third connection point C3 is a parallel connection of two long lines (first portion 31+third portion 33 and second portion 32). Thereby, the resistance value between each connection point of the neutral point connection conductor 30 between each connection point (the 1st connection point C1, the 2nd connection point C2, and the 3rd connection point C3) can be made substantially the same.

(5) In the stator 100 according to the above embodiment, the neutral point connection conductor 30 is formed by bending a rectangular enameled wire. As a result, the bus bar can be produced at a lower cost because the yield is better than that of the bus bar produced by pressing, and no insulation treatment is required.

(6) In the stator 100 according to the above embodiment, the temperature detection section 40 is arranged between the third portion 33 and the second portion 32 of the neutral connection conductor 30 . As a result, it is possible to measure the temperature at any position of the neutral point connection conductor 30 when the temperature detection unit 40 measures the temperature, so that the degree of freedom of the fixing location can be improved.

(Modification)
The above embodiment can also be modified as follows.

In the above embodiment, an example in which the neutral point connecting conductor is formed by a single linear conductor has been shown, but the present invention is not limited to this. In the present invention, the neutral point connecting conductor can be formed by a series of linear conductors. For example, the neutral point connecting conductor can be formed by connecting (connecting) a plurality of linear conductors. This makes it possible to adjust the length of the neutral point connecting conductor to any length.

Although the first, second and third portions of the neutral point connection conductor are formed along the circumferential direction of the stator core in the above embodiment, the present invention is not limited to this. In the present invention, if the first portion and the third portion of the neutral point connecting conductor are formed in a shape along the second portion, the first portion, the second portion and the third portion of the neutral point connecting conductor are It is also possible to form along a direction other than the circumferential direction of the stator core.

In the above-described embodiment, the first portion and the third portion of the neutral point connecting conductor are arranged radially inside the stator core and arranged radially outside the second portion of the stator core. The invention is not limited to this. In the present invention, the first portion and the third portion of the neutral point connecting conductor are arranged radially outside the stator core and radially inside the second portion of the stator core. is also possible.

In the above-described embodiment, an example in which the neutral point connecting conductor is formed by bending a rectangular enameled wire has been shown, but the present invention is not limited to this. In the present invention, it is possible to form the neutral point connecting conductor in a rectangular shape, a square shape, a circular shape, etc. in addition to the rectangular shape, and it is also possible to use a conductor other than an enameled wire.

In the above-described embodiment, an example is shown in which the temperature detection section is arranged between the third portion and the second portion of the neutral connection conductor, but the present invention is not limited to this. In the present invention, it is also possible to dispose the temperature detection part between the first part and the second part of the neutral connection conductor.

All of the above embodiments are examples of adaptations of the present invention, and any other embodiments within the scope of the claims are of course included in the technical scope of the invention.

10 : Stator core 20U, 20V, 20W : Coil 30 : Neutral point connection conductor 31 : First part 312 : One end 313 : Other end 32 : Second part 322 : One end 323 : Other end 33 : Third part 332 : One end portion 333 : The other end portion 34A : Folded portion (folded portion A)
34B: folded portion (folded portion B)
40: temperature detector 100: stator C1: first connection point C2: second connection point C3: third connection point

Claims (4)

a stator core;
a three-phase coil wound around the stator core;
A neutral point connection conductor connected to each of the three-phase coils and formed of a series of linear conductors,
The three-phase coil and the neutral point connection conductor are connected to a first connection point located in the center, a second connection point arranged on one side with respect to the first connection point, and a connected at a third connection point arranged on the other side,
The first connection point is formed by one end and the other end of the neutral point connection conductor,
The second connection point and the third connection point are a folded portion A formed by folding back the neutral point connecting conductor at an intermediate portion from one end portion to the other end portion of the neutral point connecting conductor, and a folded portion. formed by B,
A section from the one end of the neutral point connecting conductor forming the first connection point to the folded section A, and a section from the other end of the neutral point connecting conductor forming the first connection point to the folded section B A stator characterized in that the neutral point connecting conductor forming a section connecting the folded portions A and B is formed so as to follow the neutral point connecting conductor forming a section extending to. A section from one end of the neutral point connection conductor forming the first connection point to the folded portion A, and a section from the other end of the neutral point connection conductor forming the first connection point to the folded portion B the neutral point connection conductor forming a section is disposed on one of the radially inner side and the outer side of the stator core;
The neutral point connecting conductor forming a section connecting the folded portions A and B is arranged on the other of the radially inner side and the outer side of the stator core,
2. The apparatus according to claim 1, wherein each of said neutral point connecting conductors arranged radially inside and outside said stator core is formed to have a shape along the circumferential direction of said stator core. of the stator. 3. The apparatus according to claim 1, wherein the one end and the other end of the neutral point connection conductor are connected to overlap each other in the radial direction of the stator core at the first connection point. stator. The length of the neutral point connecting conductor forming a section from one end of the neutral point connecting conductor forming the first connecting point to the folded portion A, and the length of the neutral point connecting conductor forming the first connecting point 4. The stator according to any one of claims 1 to 3, characterized in that the length of the neutral point connection conductor forming the section from the other end to the folded portion B is substantially equal.

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