JP2019176540A - Motor stator - Google Patents

Abstract

To provide a motor stator having a projection part capable of holding a conductive wire at a fixed position, that is simple in shape.SOLUTION: Conductive wires (14, 14) are guided to a terminal (32) by being hooked on a projection part (50), and electrically connected to a connection part (36) of the terminal (32). A cutout part (60) that is cut out in a stepped shape is formed at a corner of a surface on an opposite side to the terminal (32) out of a tip part (51) of the projection part (50). The conductive wires (14, 14) are hooked on the cutout part (60).SELECTED DRAWING: Figure 2

Description

  The present invention relates to a stator for a motor having a projecting portion with which a conducting wire drawn out from a coil comes into contact.

  The stator of the motor has a core, an insulator attached to the core, a coil wound around the insulator, and a terminal to which a conducting wire (coil terminal) drawn from the coil is connected. As a conventional technique related to such a stator, there is a technique disclosed in Patent Document 1.

  The insulator of Patent Document 1 is provided with a columnar protruding portion protruding along a terminal on a peripheral wall portion. The conducting wire drawn out from the coil is connected to the terminal while being in contact with the side surface of the protruding portion.

  Compared with the case where the conducting wire is linearly extended from the coil to the terminal, the conducting wire passes through the protruding portion, and is easily loosened. Therefore, when the conducting wire is pulled, for example, when the stator is assembled to another component, the terminal and the component come into contact, and even if the terminal is tilted and the conducting wire is pulled, a tensile force acts on the conducting wire. Hateful.

Japanese Unexamined Patent Publication No. 2017-60368

  In one Example of patent document 1, the conducting wire is only in contact with the side surface of the protrusion. Since the conducting wire can be displaced in the vertical direction, it is likely to be displaced from a fixed position.

  In another embodiment of Patent Document 1, the conducting wire is housed in a groove formed on the side surface of the protruding portion. Therefore, the conducting wire is held at a fixed position. On the other hand, the shape of the mold for forming the protruding portion in which the groove is formed is complicated.

  An object of the present invention is to provide a stator for a motor that has a projection that is simple in shape and that can hold a conducting wire in place.

According to the invention of claim 1, the core includes an insulator attached to the core, a coil wound around the insulator, and a terminal attached to the peripheral wall portion of the insulator.
In the vicinity of the terminal, the peripheral wall portion is provided with a protruding portion protruding in a direction in which the terminal extends,
In the stator for the motor, the conductive wire drawn out from the coil is guided to the terminal by being hooked on the protruding portion, and is electrically connected to the connecting portion of the terminal.
Of the front end portion of the projecting portion, at one corner of the surface opposite to the terminal, a notch portion that is notched in a stepped shape is formed.
The stator for a motor, wherein the conductor is hung on the notch. Is provided.

As described in claim 2, preferably, the connection portion has a U shape and sandwiches the conductor.
The notch portion includes a first notch side surface along the projecting direction of the projecting portion, and a second notch side surface extending from the first notch side surface to the opposite side of the terminal. ,
The second cut-out side surface and the connection portion are set at the same position in the axial direction of the motor stator.

  Preferably, the terminal includes an insertion portion that can be inserted into the peripheral wall portion, and an abutting portion that can abut on a side surface of the protruding portion.

  In the invention according to claim 1, a stepped notch is formed at one corner of the tip of the protrusion. A conducting wire drawn from the coil is hung on the notch. Therefore, the conducting wire can be held at the fixed position of the notch. In addition, since only the tip of the protrusion is cut away, the shape of the mold for molding the insulator including the protrusion is simple.

  In the invention which concerns on Claim 2, the connection part exhibits U shape and has pinched | interposed the conducting wire. The notch has a second notch side surface extending to the opposite side of the terminal. Furthermore, the 2nd notch side surface and the connection part are set in the same position about the axial direction of a stator. For this reason, when the conductor is connected to the connecting portion of the terminal by fusing, the conductor extends horizontally when the conductor is bridged from the notch to the connecting portion. That is, the conducting wire is arranged so as to be perpendicularly incident on the connection portion of the terminal. Since the connecting portion can securely sandwich the conducting wire, the accuracy of fusing the conducting wire at the connecting portion is increased.

  In the invention which concerns on Claim 3, a terminal has the insertion part which can be inserted in a surrounding wall part, and the contact part which can contact | abut to the side surface of a protrusion part. Therefore, when inserting a terminal into the surrounding wall part of an insulator, the side surface of a protrusion part can be utilized as an insertion guide. The terminal can be easily attached to the insulator.

It is a perspective view of the stator for motors by Example 1 of the present invention. It is an enlarged view of 2 parts of FIG. FIG. 3 is a view taken in the direction of arrow 3 in FIG. 2. FIG. 4 is a view taken in the direction of arrow 4 in FIG. 2. It is a figure explaining the stator for motors by Example 2 of the present invention.

Embodiments of the present invention will be described below with reference to the accompanying drawings.
<Example 1>
FIG. 1 shows a stator 10 for a motor according to a first embodiment of the present invention. The motor stator 10 includes a core 11 made up of a large number of laminated electromagnetic steel plates, a first insulator 12 attached to one surface of the core 11, and a first insulator 12 attached to the other surface of the core 11. And a second insulator 13 sandwiching the core 11, and first coils U1, V1, W1, and second coils U2, V2, W2 wound around the first insulator 12 and the second insulator 13. Have.

  This motor stator 10 is a three-phase six-slot type. Description of the path of the winding wound around the coils U1 to W2 is omitted.

  The first insulator 12 includes a thin plate-like annular portion 12a, first long wall portions 21 to sixth long wall portions 26 that are intermittently formed in the annular portion 12a in the circumferential direction, and the first It consists of six short wall portions 27 to 27 formed between the long wall portion 21 to the sixth long wall portion 26.

  The first long wall portion 21 is located on the outer side in the radial direction with respect to the axial center CL of the stator 10 with respect to the first coil U1. Similarly, the 2nd long wall part 22 (circumferential wall part 22) is located in the radial direction outer side rather than the 1st coil V1. The 3rd long wall part 23 is located in the radial direction outer side rather than the 1st coil W1.

  A first terminal 31 to a third terminal 33 are attached to the first long wall portion 21 to the third long wall portion 23, respectively.

  The shape and size of the first long wall portion 21 to the third long wall portion 23 are the same. The shape and size of the first terminal 31 to the third terminal 33 are the same. Hereinafter, the second long wall portion 22 and the second terminal 32 will be described. The description of the second long wall portion 22 and the second terminal 32 can be appropriately read as the configuration of the first long wall portion 21 and the first terminal 31, the third long wall portion 23 and the third terminal 33. .

  Please refer to FIG. The second long wall portion 22 includes a base portion 40 extending upward from the annular portion 12a, an insertion hole 42 formed in the upper surface portion 41 of the base portion 40 and into which the second terminal 32 is inserted, and the vicinity of the insertion hole 42. The protrusion 50 protrudes from the upper surface 41 in the direction opposite to the depth direction of the insertion hole 42. It can be said that the protruding portion 50 protrudes in the direction in which the second terminal 32 extends in the vicinity of the second terminal 32.

  A notch 60 that is notched in a step shape is formed at one corner of the tip 51 of the protrusion 50 on the side opposite to the second terminal 32. The notch portion 60 includes a first notch side surface 61 along the projecting direction of the projecting portion 50, and a second notch side surface extending from the first notch side surface 61 to the side opposite to the second terminal 32. 62. In other words, the projecting portion 50 includes a first projecting portion 52 projecting from the upper surface portion 41, and a second projecting portion 53 projecting further from a part on the terminal side of the upper surface of the first projecting portion 52. It can be said that it consists of.

  The second terminal 32 includes a long plate-shaped main body 35, a contact portion 36 extending from one side surface of the main body portion 35 toward the protruding portion 50, and a contact portion from the other side surface of the main body portion 35. 36 and a connecting portion 37 extending to the opposite side.

  The main body part 35 has an insertion part 38 inserted into the insertion hole 42. The conducting wires 14 and 14 drawn out from the coil V <b> 1 are guided to the connecting portion 37 of the second terminal 32 by being hooked on the protruding portion 50. Specifically, the conducting wires 14 and 14 are in contact with the vicinity of the boundary 63 between the first notch side surface 61 and the second notch side surface 62. Furthermore, the conducting wires 14 and 14 are sandwiched and connected by a connecting portion 37 having a U-shape. Specifically, the conducting wires 14 and 14 are in contact with the bottom portion 37a of the U-shaped inner peripheral surface, and are fixed to the connecting portion 37 by fusing.

  Please refer to FIG. The second notch side surface 62 and the connecting portion 37 are set at the same position in the direction of the axis CL (FIG. 1) of the motor stator 10. Specifically, in a state where the second terminal 32 is inserted into the insertion hole 42, the height H 1 from the upper surface portion 41 of the base portion 40 to the second notch side surface 62, and the upper surface portion 41 of the base portion 40. The height H2 up to the bottom 37a of the connecting portion 37 is equal.

  Please refer to FIG. The side surface of the protruding portion 50 has an inner surface portion 55 on the inner diameter side and an outer surface portion 56 on the outer diameter side. The contact portion 36 of the second terminal 32 is in contact with the outer surface portion 56.

  Next, effects of the embodiment will be described.

  Please refer to FIG. A stepped notch 60 is formed at one corner of the tip 51 of the protrusion 50. The conductors 14 and 14 drawn from the coil V1 are hung on the notch 60. The conducting wires 14 and 14 are held in the notch 60. In addition, since only the tip of the protruding portion 50 is cut out, the shape of the mold for molding the first insulator 12 including the protruding portion 50 is simple.

  Please refer to FIG. In addition, when the second terminal 32 is inserted into the insertion hole 42, the height H1 from the upper surface portion 41 of the base portion 40 to the second notch side surface 62 and the upper surface portion 41 of the base portion 40 are connected. The height H2 of the part 37 to the bottom part 37a is equal. Therefore, when connecting the conducting wires 14 and 14 to the connecting portion 37 of the second terminal 32 by fusing, if the conducting wires 14 and 14 are bridged from the notch portion 60 to the connecting portion 37, the conducting wires 14 and 14 are horizontal. Extend. That is, the conducting wires 14 and 14 are arranged so as to enter perpendicularly to the connection portion 37 of the second terminal 32. Since the connection part 37 can pinch | interpose the conducting wires 14 and 14 reliably, the precision of the fusing of the conducting wires 14 and 14 in the connection part 37 becomes high.

  Please refer to FIG. The second terminal 32 has an insertion portion 38 inserted into the insertion hole 42 and an abutting portion 36 that abuts on the outer surface portion 56 of the protruding portion 50. That is, when the second terminal 32 is inserted into the insertion hole 42, the outer surface portion 56 of the protrusion 50 can be used as an insertion guide. The second terminal 32 can be easily attached to the second long wall portion 22.

<Example 2>
Please refer to FIG. The motor stator 10A according to the second embodiment is different from the first embodiment in the second terminal 32A. About another structure, it is the same as that of the stator 10 for motors of Example 1, and it abbreviate | omits description while omitting a code | symbol.

  The front end surface 71 of the contact portion 36 </ b> A of the terminal A protrudes from the first notch side surface 61 along the second notch side surface 62. The conducting wires 14 are positioned below the lower surface 72 of the contact portion 36A.

  The motor stator 10A can also achieve the predetermined effect of the present invention. Furthermore, according to the stator for motor 10A, the following specific effects can be obtained by the above configuration.

  The conducting wires 14 are sandwiched between the second cut-out side surface 62 and the lower surface 72 of the contact portion 36. The conducting wires 14 are held between the lower portion of the contact portion 36A and the second cutout. Since movement of the conducting wires 14 and 14 in the vertical direction is restricted, the conducting wires can be held at a fixed position.

  In addition, as compared with Example 1, the distance L from the upper surface portion 41 of the base portion 40 to the lower surface 72 of the contact portion 36A is longer. Therefore, the second terminal 32 is unlikely to fall to the inner diameter side (see FIG. 1).

  In addition, as long as there exists an effect | action and effect of this invention, this invention is not limited to an Example.

DESCRIPTION OF SYMBOLS 10 ... Motor stator 11 ... Core 12 ... 1st insulator 14 ... Conductor wires 21-26 ... 1st long wall part-6th long wall part 31-33 ... 1st terminal-3rd terminal 35 ... Main-body part 36 ... Connection part 37 ... Contact part 38 ... Insertion part 40 ... Base part 41 ... Upper surface part 42 ... Insertion hole 50 ... Projection part 51 ... First projection part 53 ... First projection part 53 ... Second projection part 55 ... Inner surface Part 56 ... Outer surface part 60 ... Notch part 61 ... First notch side face 62 ... Second notch side face 63 ... Boundaries U1, V1, W1 ... First coils U2, V2, W2 ... Second coil CL ... Axis

Claims (3)

A core, an insulator attached to the core, a coil wound around the insulator, and a terminal attached to the peripheral wall of the insulator,
In the vicinity of the terminal, the peripheral wall portion is provided with a protruding portion protruding in a direction in which the terminal extends,
In the stator for the motor, the conductive wire drawn out from the coil is guided to the terminal by being hooked on the protruding portion, and is electrically connected to the connecting portion of the terminal.
Of the front end portion of the projecting portion, at one corner of the surface opposite to the terminal, a notch portion that is notched in a stepped shape is formed.
The stator for a motor, wherein the conductor is hung on the notch. The connecting portion has a U-shape and sandwiches the conducting wire,
The notch portion includes a first notch side surface along the projecting direction of the projecting portion, and a second notch side surface extending from the first notch side surface to the opposite side of the terminal. ,
2. The motor stator according to claim 1, wherein the second cut-out side surface and the connection portion are set at the same position in the axial direction of the motor stator.   3. The motor according to claim 1, wherein the terminal includes an insertion portion that can be inserted into the peripheral wall portion, and an abutting portion that can abut on a side surface of the protruding portion. Stator.

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