JP7443148B2 - motor - Google Patents

Description

TECHNICAL FIELD The present invention relates to a motor equipped with a shielded wire drawn out to the outside of a motor case.

Conventionally, a motor is known that includes a motor main body having a rotor and a stator, and a motor housing in which the motor main body is housed (for example, see Patent Document 1). The motor described in Patent Document 1 includes an encoder for detecting the rotational speed and rotational position of the rotor. The encoder includes a sensor magnet attached to a rotor, a magnetically sensitive element arranged to face the sensor magnet, and a sensor substrate on which the magnetically sensitive element is mounted. A sensor output line is connected to the sensor board. The sensor output line is, for example, a shielded wire that includes a core wire, a shield material that covers the core wire, and an insulating coating that covers the shield material.

In the motor described in Patent Document 1, the motor housing includes a cylindrical case, a first bearing holder arranged on the opposite output side of the cylindrical case, and a second bearing holder arranged on the output side of the cylindrical case. It is equipped with An encoder cover in which the encoder is housed is attached to the non-output side of the first bearing holder. A notch is formed in the encoder cover, and this notch forms a gap between the encoder cover and the first bearing holder. A bush is inserted into this gap. The sensor output line is routed so as to pass through the bush, and the sensor output line that has passed through the bush is drawn out to the outside in the radial direction of the motor.

In the motor described in Patent Document 1, a wiring fixing part for fixing the sensor output line outside the motor housing is formed in the first bearing holder, and the wiring fixing part is formed in the first bearing holder to pass through the bush and be drawn out to the outside of the encoder cover. The sensor output line is fixed to the wiring fixing part. In the motor described in Patent Document 1, the sensor output line is fixed to a wiring fixing part to prevent the sensor output line from being pulled out when a pulling force for pulling out the sensor output line is applied to the sensor output line. That is, in the motor described in Patent Document 1, by fixing the sensor output line to the wiring fixing part, damage to the connecting part between the sensor output line and the sensor board is prevented when a pulling force is applied to the sensor output line. are doing.

Japanese Patent Application Publication No. 2013-9570

In the motor described in Patent Document 1, the sensor output line is fixed to a wiring fixing part arranged outside the motor housing, and the fixed part of the sensor output line appears on the exterior of the motor. Therefore, in the case of the motor described in Patent Document 1, the appearance of the motor may become poor.

Therefore, an object of the present invention is to provide a motor that includes a motor main body having a rotor and a stator, a motor case in which the motor main body is housed, and a shield wire drawn out toward the outside of the motor case. To provide a motor capable of improving its appearance even though it is possible to prevent a shield wire from being pulled out when a force is applied.

In order to solve the above problems, the motor of the present invention includes a motor body having a rotor and a stator, a motor case in which the motor body is housed, a detection mechanism housed in the motor case, and a motor from the detection mechanism to the motor case. The shield wire includes a core wire, a shield material that covers the core wire, and an insulating coating that covers the shield material. A core wire exposed part where the core wire is exposed by removing the core wire, and a core wire covered part where the core wire is covered with the shielding material and the insulating coating are formed, and a boundary part between the core wire exposed part and the core wire covered part is formed. A shielding material fixing part is formed by folding and fixing the shielding material on the outer peripheral surface of the insulating coating on the side of the core wire covering part, and the core wire exposed part and the shielding material fixing part are arranged inside the motor case, A regulating part is formed or attached to the motor case to restrict the movement of the shielding material fixing part to the outside of the motor case. is twisted in the circumferential direction of the core wire covering portion .

In the motor of the present invention, the shielding material is fixed to the boundary between the exposed core wire portion and the core wire sheathing portion of the shield wire by folding the shielding material back onto the outer peripheral surface of the insulation coating on the core wire sheathing portion side. The outer diameter of the shield material fixing part is larger than the outer diameter of the core wire covering part. Further, in the present invention, a restriction portion is formed or attached to the motor case to restrict movement of the shield material fixing portion disposed inside the motor case to the outside of the motor case. Therefore, in the present invention, the shielding material fixing part and the regulating part can prevent the shielding wire from being pulled out when a pulling force is applied to the shielding wire.

In addition, in the present invention, since the shielding material fixing part is arranged inside the motor case, the shielding material fixing part, which has an outer diameter larger than the outer diameter of the core wire covering part, does not appear on the exterior of the motor. do not have. Therefore, in the present invention, even if it is possible to prevent the shield wire from being pulled out when a pulling force is applied to the shield wire, it is possible to improve the appearance of the motor. Further, according to the present invention, it is possible to prevent the shield wire from being pulled out by using the shield material of the shield wire, so it is possible to simplify the configuration of the motor.

Furthermore, in the present invention, the shielding material folded back onto the outer circumferential surface of the insulating coating is twisted in the circumferential direction of the core wire coating at the shielding material fixing portion. Compared to the case where the shield material is not twisted in the circumferential direction of the core wire covering portion, it is possible to increase the outer diameter of the shield material fixing portion. Therefore, it is possible to effectively prevent the shield wire from being pulled out when a pulling force is applied to the shield wire.

Furthermore, in order to solve the above-mentioned problems, the motor of the present invention includes a motor body having a rotor and a stator, a motor case in which the motor body is housed, a detection mechanism housed in the motor case, and a detection mechanism. It is equipped with a shielded wire drawn out toward the outside of the motor case and a rubber bush to prevent liquid from entering the inside of the motor case.The shielded wire consists of a core wire, a shielding material that covers the core wire, and , an insulating coating that covers the shielding material, and the shielding wire has a core wire exposed portion where the shielding material and the insulating coating are removed to expose the core wire, and a core wire where the core wire is covered with the shielding material and the insulating coating. A shielding material fixing part is formed at the boundary between the core wire exposed part and the core wire covering part, and the shielding material is folded back and fixed on the outer peripheral surface of the insulation coating on the core wire covering part side. The core wire exposed part and the shielding material fixing part are arranged inside the motor case, and the motor case is formed with a regulating part that restricts the movement of the shielding material fixing part to the outside of the motor case. At the shielding material fixing part, the folded shielding material is fixed on the outer peripheral surface of the insulating coating with adhesive, and the shielding wire is provided with a covering member that covers at least the shielding material fixing part, and the covering member is heated The bushing is a shrunk heat-shrinkable tube, and the bushing is attached to the motor case. The bushing has an insertion hole through which the core wire sheathing part is inserted, and the sheathing member is attached to the exposed core wire side of the core wire sheathing part. A portion of the core wire covering portion covered by the covering member is press-fitted into the insertion hole.
In the motor of the present invention, the shielding material is fixed to the boundary between the exposed core wire portion and the core wire sheathing portion of the shield wire by folding the shielding material back onto the outer peripheral surface of the insulation coating on the core wire sheathing portion side. The outer diameter of the shield material fixing part is larger than the outer diameter of the core wire covering part. Further, in the present invention, a restriction portion is formed or attached to the motor case to restrict movement of the shield material fixing portion disposed inside the motor case to the outside of the motor case. Therefore, in the present invention, the shielding material fixing part and the regulating part can prevent the shielding wire from being pulled out when a pulling force is applied to the shielding wire.
In addition, in the present invention, since the shielding material fixing part is arranged inside the motor case, the shielding material fixing part, which has an outer diameter larger than the outer diameter of the core wire covering part, does not appear on the exterior of the motor. do not have. Therefore, in the present invention, even if it is possible to prevent the shield wire from being pulled out when a pulling force is applied to the shield wire, it is possible to improve the appearance of the motor. Further, according to the present invention, it is possible to prevent the shield wire from being pulled out by using the shield material of the shield wire, so it is possible to simplify the configuration of the motor.
Furthermore, in the present invention, since the shield material folded back onto the outer circumferential surface of the insulating coating is fixed with adhesive in the shielding material fixing part, it is relatively easy to attach the shield material folded back onto the outer circumferential surface of the insulating coating. It becomes possible to fix it. In addition , since it is possible to cover the shielding material folded over the outer peripheral surface of the insulation coating with adhesive, the insulation properties of the shielding material folded over the outer peripheral surface of the insulation coating can be ensured using adhesive. It becomes possible to do so.

Further, in the present invention, the shield wire includes a covering member that covers at least the shielding material fixing portion, and since the covering member is a heat-shrinkable tube, the shielding member covering the shielding material fixing portion It becomes possible to increase the outer diameter of the portion where the Therefore, it is possible to effectively prevent the shield wire from being pulled out when a pulling force is applied to the shield wire. Further , the covering member covering the shielding material fixing portion makes it possible to ensure the insulation of the shielding material folded back onto the outer circumferential surface of the insulating coating.

Further, in the present invention, the motor includes a rubber bush for preventing liquid from entering the motor case, the bush is attached to the motor case, and the core wire covering is inserted through the bush. The sheathing member also covers a portion of the core wire sheathing portion on the side of the core wire exposed portion, and the portion of the core wire sheathing portion covered by the sheathing member is press-fitted into the insertion hole. Therefore, the part of the core wire sheath covered by the sheathing member and the rubber bush suppress the pushing of the shield wire when the pushing force that pushes the shield wire into the inside of the motor case is applied to the shield wire. It becomes possible to do so.

In the present invention, it is preferable that the covering member also covers a portion of the exposed core wire portion on the side of the core wire covering portion. With this configuration, the insulation between the shield material and the core wire can be ensured by the covering member that covers a portion of the exposed core wire portion on the side of the core wire covering portion. Furthermore, with this configuration, it is possible to prevent the covering member that covers the shield material fixing part from coming off from the shield fixing part.

Furthermore, in order to solve the above problems, the motor of the present invention includes a motor body having a rotor and a stator, a motor case in which the motor body is housed, a detection mechanism housed in the motor case, and a detection mechanism. It is equipped with a shielded wire drawn out toward the outside of the motor case and a rubber bush to prevent liquid from entering the inside of the motor case.The shielded wire consists of a core wire, a shielding material that covers the core wire, and , an insulating coating that covers the shielding material, and the shielding wire has a core wire exposed portion where the shielding material and the insulating coating are removed to expose the core wire, and a core wire where the core wire is covered with the shielding material and the insulating coating. A shielding material fixing part is formed at the boundary between the core wire exposed part and the core wire covering part, and the shielding material is folded back and fixed on the outer peripheral surface of the insulation coating on the core wire covering part side. The core wire exposed part and the shielding material fixing part are arranged inside the motor case, and the motor case is formed with a regulating part that restricts the movement of the shielding material fixing part to the outside of the motor case. Alternatively, the motor case is provided with a resin regulating part forming member in which the regulating part is formed, the bushing is formed with an insertion hole through which the core wire covering part is inserted, and the regulating part forming member is provided with an insertion hole through which the core wire covering part is inserted. A bush holding part is formed to hold the bush holding part, and the regulating part constitutes a part of the bush holding part.
In the motor of the present invention, the shielding material is fixed to the boundary between the exposed core wire portion and the core wire sheathing portion of the shield wire by folding the shielding material back onto the outer peripheral surface of the insulation coating on the core wire sheathing portion side. The outer diameter of the shield material fixing part is larger than the outer diameter of the core wire covering part. Further, in the present invention, a restriction portion is formed or attached to the motor case to restrict movement of the shield material fixing portion disposed inside the motor case to the outside of the motor case. Therefore, in the present invention, the shielding material fixing part and the regulating part can prevent the shielding wire from being pulled out when a pulling force is applied to the shielding wire.
In addition, in the present invention, since the shielding material fixing part is arranged inside the motor case, the shielding material fixing part, which has an outer diameter larger than the outer diameter of the core wire covering part, does not appear on the exterior of the motor. do not have. Therefore, in the present invention, even if it is possible to prevent the shield wire from being pulled out when a pulling force is applied to the shield wire, it is possible to improve the appearance of the motor. Further, according to the present invention, it is possible to prevent the shield wire from being pulled out by using the shield material of the shield wire, so it is possible to simplify the configuration of the motor.
Furthermore, in the present invention, since the motor case is provided with a resin-made restriction part forming member in which the restriction part is formed, for example, the shield material fixing part can be moved to the outside of the motor case using a rubber bush. This makes it possible to more reliably restrict the movement of the shielding material fixing portion to the outside of the motor case.

Further, in the present invention, the motor is provided with a rubber bushing for preventing liquid from entering the inside of the motor case, and the bushing is formed with an insertion hole through which the core wire sheathing part is inserted, and the regulating part is formed in the bushing. Since the forming member is formed with a bush holding portion that holds the bush , and the regulating portion constitutes a part of the bush holding portion, it is possible to simplify the configuration of the regulating portion forming member.

In the present invention, in the shielding material fixing portion, it is preferable that the tip of the shielding material folded back onto the outer circumferential surface of the insulating coating faces the outside of the motor case. That is, in the shielding material fixing part, it is preferable that the tip of the shielding material folded back onto the outer circumferential surface of the insulating coating does not face the core wire exposed part side. With this configuration, it is possible to prevent the tip of the shield material from coming into contact with the core wire. Therefore, it becomes easier to ensure insulation between the shield material and the core wire.

As described above, the present invention provides a motor including a motor main body having a rotor and a stator, a motor case in which the motor main body is housed, and a shield wire drawn out toward the outside of the motor case. Even if it is possible to prevent the shield wire from being pulled out when a pulling force is applied, it is possible to improve the appearance of the motor.

FIG. 1 is a perspective view of a motor according to an embodiment of the present invention. 2 is a sectional view of the motor shown in FIG. 1. FIG. FIG. 2 is a diagram for explaining the configuration of the shield wire shown in FIG. 1. FIG. 2 is a perspective view of a shield wire, a cover, etc. shown in FIG. 1. FIG. FIG. 5 is an exploded perspective view of the cover, bush, and bush cover shown in FIG. 4. FIG. FIG. 6 is an exploded perspective view showing the cover, bush, and bush cover shown in FIG. 5 from different directions.

Embodiments of the present invention will be described below with reference to the drawings.

(Overall configuration of motor)
FIG. 1 is a perspective view of a motor 1 according to an embodiment of the invention. FIG. 2 is a sectional view of the motor 1 shown in FIG. 1.

The motor 1 of this embodiment is an inner rotor type motor. The motor 1 includes a motor body 4 having a rotor 2 and a stator 3, a motor case 5 in which the motor body 4 is housed, and a detection mechanism 6 for detecting the rotational speed and rotational position of the rotor 2. There is. The motor 1 also includes a power supply line 7 for supplying power to the motor body 4 and a shielded line 8 connected to the detection mechanism 6.

The rotor 2 includes a rotating shaft 11 and a driving magnet 12 fixed to the rotating shaft 11. The output side end of the rotating shaft 11 protrudes to the outside of the motor case 5. The stator 3 is arranged on the outer peripheral side of the driving magnet 12. The stator 3 includes a stator core 13 and a drive coil 15 wound around the salient poles of the stator core 13 via an insulator 14 . The end of the driving coil 15 is fixed by being wound around a terminal pin fixed to the insulator 14, and a substrate 16 is soldered and fixed to this terminal pin. One end of the power supply line 7 is fixed to the board 16 by soldering.

In the following explanation, the axial direction of the rotating shaft 11 (that is, the axial direction of the rotor 2, the X direction in FIG. 1, etc.) is referred to as the "front-back direction," and the Y direction in FIG. The Z direction in FIG. 1, etc., which is orthogonal to the front-rear direction and the left-right direction, is defined as the "up-down direction." In addition, the output side (X1 direction side in FIG. 1, etc.) of the rotating shaft 11 in the longitudinal direction (axial direction of the rotating shaft 11) is defined as the "front" side, and the opposite output side of the rotating shaft 11 in the longitudinal direction ( The X2 direction side in Figure 1, etc.) is defined as the "back" side, the Z1 direction side in Figure 1, etc., which is one side in the vertical direction, is defined as the "top" side, and the other side in the vertical direction, in Figure 1, etc. The Z2 direction side is defined as the "down" side.

The detection mechanism 6 is a magnetic rotary encoder. The detection mechanism 6 includes a detection magnet 20 and a flat board 21 arranged behind the detection magnet 20. The substrate 21 is arranged so that the thickness direction of the substrate 21 and the front-rear direction coincide with each other. A magnetoresistive element and a Hall element are mounted on the front surface of the substrate 21. The detection magnet 20 is fixed to a magnet holder 22. The magnet holder 22 is fixed to the rear end of the rotating shaft 11. The substrate 21 is fixed to a substrate holder 23. The board holder 23 is fixed to a bearing holder 27, which will be described later, and which constitutes the motor case 5.

The motor case 5 includes a cylindrical case body 25 that is open in the front-rear direction, a bearing holder 26 fixed to the front end of the case body 25, a bearing holder 27 fixed to the rear end of the case body 25, and a power supply line 7. and a cover 28 that covers the connecting portion between the board 16 and the board 16, and a cover 29 that covers the detection mechanism 6. A bearing 30 that rotatably supports the rotating shaft 11 is attached to the bearing holder 26 . A bearing 31 that rotatably supports the rotating shaft 11 is attached to the bearing holder 27 .

The cover 28 is fixed to the upper surface of the case body 25. A rubber bush 32 is attached between the cover 28 and the case body 25 to prevent liquid such as water from entering the motor case 5. The bush 32 is formed with an insertion hole 32a through which the power supply line 7 is inserted. The power supply line 7 is drawn out from the motor case 5 through the insertion hole 32a.

The cover 29 is fixed to the rear surface of the bearing holder 27. As described above, the cover 29 covers the detection mechanism 6, and the detection mechanism 6 is housed in the motor case 5. Further, as described above, the shield wire 8 is connected to the detection mechanism 6. Specifically, one end of the shielded wire 8 is connected to the board 21 via the connector 33. The shielded wire 8 is drawn out from the detection mechanism 6 toward the outside of the motor case 5. Specifically, the shield wire 8 is drawn out toward the outside of the cover 29. The configuration of the shielded wire 8 and the configuration of the lead-out portion of the shielded wire 8 will be described below.

(Configuration of shielded wire and configuration of shielded wire lead-out part)
FIG. 3 is a diagram for explaining the configuration of the shield wire 8 shown in FIG. 1. FIG. 4 is a perspective view of the shield wire 8, cover 29, etc. shown in FIG. FIG. 5 is an exploded perspective view of the cover 29, bush 43, and bush cover 44 shown in FIG. FIG. 6 is an exploded perspective view showing the cover 29, bush 43, and bush cover 44 shown in FIG. 5 from different directions.

The shield wire 8 includes a core wire 36, a shield material 37 that covers the core wire 36, and an insulating coating 38 that covers the shield material 37 (see FIG. 3). The shielded wire 8 of this embodiment includes a plurality of core wires 36, and the shield material 37 covers the plurality of core wires 36. The core wire 36 is composed of a core wire (conductor wire) made of copper wire or the like and an insulating coating covering the core wire. The shield material 37 is made of copper wire or the like knitted in a net shape. The shield wire 8 includes a core wire exposed portion 8a where the shield material 37 and the insulation coating 38 are removed to expose the core wire 36, and a core wire covering portion 8b where the core wire 36 is covered with the shield material 37 and the insulation coating 38. is formed. Specifically, both ends of the shielded wire 8 are core wire exposed portions 8a, and the portion of the shielded wire 8 excluding the core wire exposed portions 8a is a core wire covered portion 8b.

A core wire covering portion 8b is provided at the boundary between the core wire exposed portion 8a and the core wire covering portion 8b on one end side of the shielded wire 8 (specifically, the side of the shielded wire 8 connected to the board 21). A shield material fixing portion 8c is formed on the outer peripheral surface of the side insulating coating 38, in which the shield material 37 is folded back and fixed (see FIG. 3). In the shielding material fixing part 8c, the shielding material 37 exposed to the outside by removing the insulation coating 38 is fixed by being folded back once toward the core wire covering part 8b, and then folded back onto the outer peripheral surface of the insulation coating 38. The tip of the shield material 37 facing toward the core wire covering portion 8b.

In the shield material fixing portion 8c, the shield material 37 folded back onto the outer peripheral surface of the insulating coating 38 is twisted in the circumferential direction of the core wire covering portion 8b. Further, in the shield material fixing portion 8c, the shield material 37 folded back onto the outer peripheral surface of the insulating coating 38 is fixed with an adhesive 39 (see FIG. 3). That is, in the shielding material fixing part 8c, the shielding material 37 folded back onto the outer circumferential surface of the insulating coating 38 is twisted in the circumferential direction of the core wire covering part 8b and then fixed with the adhesive 39. The adhesive 39 is applied onto the outer peripheral surface of the insulating coating 38 so that the entire folded shield material 37 is covered with the adhesive 39. The outer diameter of the shield material fixing part 8c is larger than the outer diameter of the core wire covering part 8b.

Further, the shield wire 8 includes a covering member 40 that covers the shield material fixing portion 8c. The covering member 40 also covers a portion of the core wire covering portion 8b on the core wire exposed portion 8a side. The covering member 40 also covers a portion of the core wire exposed portion 8a on the core wire covering portion 8b side. The covering member 40 is a heat-shrinkable tube. The covering member 40 is formed by inserting the shielding material fixing portion 8c and the like into the heat-shrinkable tube before heat-shrinking, and applying heat to the heat-shrinkable tube from the outside to cause the tube to shrink. Note that in FIG. 4, illustration of the covering member 40 is omitted.

As described above, the shield wire 8 is drawn out toward the outside of the cover 29. The cover 29 is made of resin. The cover 29 is formed into a substantially rectangular cylindrical shape with a bottom at the rear end. The cover 29 includes an upper wall portion 29a that constitutes the upper surface of the cover 29. A rubber bush 43 is attached to the cover 29 to prevent liquid from entering the motor case 5. The bush 43 has an insertion hole 43a formed therein.

A bush holding portion 29b that holds the bush 43 is formed in the cover 29. The bush holding portion 29b is formed on the upper wall portion 29a. A notch 29c in which the bush 43 is placed is formed in the bush holding portion 29b. The notch 29c is cut out in a U-shape from the front end of the upper wall portion 29a toward the rear side. Further, a support wall portion 29d that supports the bush 43 from below is formed in the bush holding portion 29b. The support wall portion 29d is arranged below the notch 29c. A U-shaped notch 29e is formed in the support wall portion 29d. The notch 29e is cut out from the front end of the upper wall portion 29a toward the rear side.

The outer shape of the notch 29e is smaller than the outer shape of the notch 29c, and as shown in FIG. 6, the upper surface of the support wall portion 29d is a plane perpendicular to the vertical direction. Further, as shown in FIG. 5, the lower surface of the support wall portion 29d is also a plane perpendicular to the vertical direction. The width of the notch 29e in the left-right direction is narrower than the outer diameter of the shield material fixing portion 8c. Further, the width of the notch 29e in the left-right direction is larger than the outer diameter of the portion of the core wire covering portion 8b covered by the covering member 40.

A bush cover 44 is fixed to the upper surface of the upper wall portion 29a. The bush 43 is held by the bush holding portion 29b while being sandwiched between the support wall portion 29d and the bush cover 44. When the bush 43 is held by the bush holding portion 29b, the front surface of the bush 43 and the front surface of the cover 29 are arranged at the same position in the front-rear direction. Furthermore, when the bush 43 is held by the bush holding portion 29b, the insertion hole 43a passes through the bush 43 in the vertical direction. The bush cover 44 is formed with an insertion hole 44a that penetrates the bush cover 44 in the vertical direction.

A core wire exposed portion 8 a constituting one end of the shielded wire 8 (specifically, the end of the shielded wire 8 on the side connected to the board 21 ) is arranged inside the cover 29 . Further, the shield material fixing portion 8c is arranged inside the cover 29. That is, the core wire exposed portion 8a and the shield material fixing portion 8c are arranged inside the motor case 5. The core wire covering portion 8b is inserted through the insertion hole 43a of the bush 43 and the insertion hole 44a of the bush cover 44, and the shield wire 8 is drawn out of the cover 29 from the insertion holes 43a and 44a.

In this embodiment, a portion of the core wire covering portion 8b covered by the covering member 40 is inserted into the insertion hole 43a. Specifically, a portion of the core wire covering portion 8b covered by the covering member 40 is press-fitted into the insertion hole 43a. Further, the portion of the core wire covering portion 8b covered by the covering member 40 is disposed in the notch 29e and is inserted into the insertion hole 44a.

The shield material fixing part 8c is arranged below the support wall part 29d. As described above, in the shielding material fixing portion 8c, the tip of the shielding material 37 folded back onto the outer circumferential surface of the insulating coating 38 faces the core wire covering portion 8b. The tip of the shield material 37 that has been opened faces the outside of the cover 29. That is, the tip of the shield material 37 folded back onto the outer peripheral surface of the insulating coating 38 faces the outside of the motor case 5.

As described above, the portion of the core wire covering portion 8b covered by the covering member 40 is disposed within the notch 29e. Further, the width of the notch 29e in the left-right direction is narrower than the outer diameter of the shield material fixing portion 8c. Therefore, the shield material fixing part 8c disposed below the support wall part 29d is restricted from moving upward by the support wall part 29d. That is, in this embodiment, the support wall portion 29d restricts the movement of the shield material fixing portion 8c to the outside of the cover 29.

The support wall portion 29d of this embodiment serves as a restriction portion that restricts movement of the shield material fixing portion 8c to the outside of the motor case 5. That is, the motor case 5 is formed with a regulating part that regulates the movement of the shield material fixing part 8c to the outside of the motor case 5. The support wall portion 29d, which is a restriction portion, constitutes a part of the bush holding portion 29b. The cover 29 of this embodiment is a regulating portion forming member in which a supporting wall portion 29d serving as a regulating portion is formed.

(Main effects of this form)
As explained above, in this embodiment, the shielding material fixing part 8c is formed at the boundary between the core wire exposed part 8a and the core wire covering part 8b of the shield wire 8, and the outer diameter of the shielding material fixing part 8c is is larger than the outer diameter of the core wire covering portion 8b. Further, in this embodiment, the movement of the shield material fixing portion 8c disposed inside the cover 29 to the outside of the motor case 5 is restricted by the support wall portion 29d of the cover 29. Therefore, in this embodiment, the shielding material fixing part 8c and the support wall part 29d can prevent the shielding wire 8 from being pulled out when a pulling force is applied to the shielding wire 8.

Further, in this embodiment, since the shielding material fixing part 8c is arranged inside the motor case 5, the shielding material fixing part 8c, which has an outer diameter larger than the outer diameter of the core wire covering part 8b, is attached to the motor 1. It does not appear on the outside. Therefore, in this embodiment, even if it is possible to prevent the shield wire 8 from being pulled out when a pulling force is applied to the shield wire 8, it is possible to improve the appearance of the motor 1. Furthermore, in this embodiment, it is possible to prevent the shield wire 8 from being pulled out by using the shield material 37 of the shield wire 8, so that the configuration of the motor 1 can be simplified. Further, in this embodiment, unlike the motor described in Patent Document 1, there is no need to form a wiring fixing part on the bearing holder 27, so the configuration of the bearing holder 27 can be simplified.

In this embodiment, the shield material 37 folded back onto the outer peripheral surface of the insulating coating 38 at the shield material fixing portion 8c is twisted in the circumferential direction of the core wire covering portion 8b. Therefore, in this embodiment, the outer diameter of the shielding material fixing part 8c is smaller than the case where the shielding material 37 folded back on the outer peripheral surface of the insulating coating 38 is not twisted in the circumferential direction of the core wire covering part 8b. It becomes possible to make it larger. Therefore, in this embodiment, it is possible to effectively prevent the shield wire 8 from being pulled out when a pulling force is applied to the shield wire 8.

Particularly in this embodiment, since the shield material fixing portion 8c is covered with the covering member 40, it is possible to further increase the outer diameter of the portion where the shield material fixing portion 8c is formed. Therefore, in this embodiment, it is possible to more effectively prevent the shield wire 8 from being pulled out when a pulling force is applied to the shield wire 8.

Further, in this embodiment, since the movement of the shield material fixing portion 8c to the outside of the motor case 5 is restricted by the support wall portion 29d of the cover 29 made of resin, for example, the shield material is fixed using a rubber bush 43. Compared to the case where the movement of the fixing part 8c to the outside of the motor case 5 is restricted, it becomes possible to reliably restrict the movement of the shielding material fixing part 8c to the outside of the motor case 5.

In this embodiment, the shield material 37 folded back onto the outer peripheral surface of the insulating coating 38 is fixed with an adhesive 39 at the shield material fixing portion 8c. Therefore, in this embodiment, it becomes possible to fix the folded shield material 37 onto the outer peripheral surface of the insulating coating 38 relatively easily.

In this embodiment, the entirety of the shielding material 37 folded back onto the outer peripheral surface of the insulating coating 38 at the shielding material fixing portion 8c is covered with the adhesive 39. Further, in this embodiment, the covering member 40 also covers a portion of the core wire exposed portion 8a on the side of the core wire covering portion 8b. Therefore, in this embodiment, the insulation between the shield material 37 and the core wire 36 can be ensured by using the covering member 40 that covers the exposed core wire portion 8a and the adhesive 39.

Further, in this embodiment, the tip of the shield material 37 folded back onto the outer circumferential surface of the insulating coating 38 at the shield material fixing portion 8c faces the core wire covering portion 8b side, and faces the core wire exposed portion 8a side. do not have. Therefore, in this embodiment, it is possible to prevent the tip of the shield material 37 from coming into contact with the core wire 36. Therefore, in this embodiment, the insulation between the shield material 37 and the core wire 36 can be easily ensured. Further, in this embodiment, since the shielding material fixing portion 8c is covered with the covering member 40, the covering member 40 makes it possible to reliably ensure the insulation of the shielding material fixing portion 8c.

In this embodiment, a portion of the core wire covering portion 8b covered with the covering member 40 is press-fitted into the insertion hole 43a of the bush 43. Therefore, in this embodiment, the shielded wire 8 is pushed into the inside of the motor case 5 (specifically, inside the cover 29) by the portion of the core wire covering portion 8b covered with the covering member 40 and the bush 43. It becomes possible to suppress the pushing of the shield wire 8 when force acts on the shield wire 8.

In this embodiment, the covering member 40, which is a heat-shrinkable heat-shrinkable tube, covers not only the shielding material fixing portion 8c, but also a portion of the core wire covering portion 8b on the core wire exposed portion 8a side, and a portion of the core wire exposed portion 8a. , covering a part of the core wire covering portion 8b side. Further, in this embodiment, the outer diameter of the core wire exposed portion 8a and the outer diameter of the core wire covering portion 8b are smaller than the outer diameter of the shielding material fixing portion 8c. Therefore, in this embodiment, it is possible to prevent the covering member 40 that covers the shield material fixing part 8c from coming off from the shield fixing part 8c.

In this embodiment, the support wall portion 29d that restricts the movement of the shield material fixing portion 8c to the outside of the motor case 5 constitutes a part of the bush holding portion 29b that holds the bush 43. Therefore, in this embodiment, the cover 29 is provided with a regulating part that regulates the movement of the shielding material fixing part 8c to the outside of the motor case 5, in addition to the bush holding part 29b. It becomes possible to simplify the configuration.

(Other embodiments)
Although the embodiment described above is an example of a preferred embodiment of the present invention, it is not limited thereto, and various modifications can be made without changing the gist of the present invention.

In the above-described embodiment, the cover 29 may be provided with a restriction portion that restricts the movement of the shield material fixing portion 8c to the outside of the motor case 5, in addition to the bush holding portion 29b. Further, in the above-described embodiment, the bush 43 may restrict movement of the shield material fixing portion 8c to the outside of the motor case 5. In this case, the width of the notch 29e in the left-right direction is wider than the outer diameter of the shield material fixing portion 8c. Further, in this case, the bush 43 serves as a restriction part that restricts the movement of the shield material fixing part 8c to the outside of the motor case 5, and the bush 43, which is the restriction part, is attached to the motor case 5. There is. Specifically, the bush 43, which is a restriction part, is attached to the cover 29.

In the above-described embodiment, the insulation coating 38 is removed and the shield material 37 exposed to the outside is folded back once toward the core wire covering portion 8b at the shield material fixing portion 8c. The shield material 37 exposed to the outside after the insulation coating 38 is removed may be folded back multiple times. In this case, the tip of the shield material 37 folded back onto the outer peripheral surface of the insulating coating 38 may face the core wire exposed portion 8a side. Further, in the shielding material fixing portion 8c, the shielding material 37 folded back onto the outer circumferential surface of the insulating coating 38 does not need to be twisted in the circumferential direction of the core wire covering portion 8b.

In the embodiment described above, the covering member 40 does not need to cover the core wire covering portion 8b. In this case, for example, the inner diameter of the insertion hole 43a of the bush 43 is smaller than in the above-described embodiment, and the core wire covering portion 8b not covered by the covering member 40 is press-fitted into the insertion hole 43a. Moreover, the covering member 40 does not need to cover the core wire exposed portion 8a. Moreover, in the embodiment described above, the shield wire 8 does not need to be provided with the covering member 40.

In the embodiment described above, the shield material 37 folded back onto the outer circumferential surface of the insulating coating 38 is fixed with the adhesive 39 in the shielding material fixing portion 8c. 37 may be fixed with a heat-shrinkable tube. In this case, the shield material 37 folded back onto the outer peripheral surface of the insulating coating 38 is covered with a heat-shrinkable tube. In this case, for example, a portion of the core wire covering portion 8b on the core wire exposed portion 8a side and a portion of the core wire exposed portion 8a on the core wire covering portion 8b side may also be made of heat-shrinkable tubes. covered by. Further, the shield material 37 folded back onto the outer circumferential surface of the insulating coating 38 may be fixed with a binding band in the shield material fixing portion 8c.

In the embodiment described above, the detection mechanism 6 may be a detection mechanism other than a rotary encoder. Further, in the above embodiment, the motor 1 is an inner rotor type motor, but the motor to which the configuration of the present invention is applied may be an outer rotor type motor.

1 Motor 2 Rotor 3 Stator 4 Motor body part 5 Motor case 6 Detection mechanism 8 Shield wire 8a Core wire exposed part 8b Core wire covering part 8c Shield material fixing part 29 Cover (regulating part forming member)
29b Bush holding part 29d Support wall part (regulating part)
36 Core wire 37 Shielding material 38 Insulating coating 39 Adhesive 40 Covering member 43 Bush 43a Insertion hole

Claims (5)

A motor body having a rotor and a stator, a motor case in which the motor body is housed, a detection mechanism housed in the motor case, and a shielded wire drawn out from the detection mechanism toward the outside of the motor case. Equipped with
The shield wire includes a core wire, a shield material covering the core wire, and an insulating coating covering the shield material,
The shield wire includes a core wire exposed portion where the shield material and the insulation coating are removed to expose the core wire, and a core wire covering portion where the core wire is covered with the shield material and the insulation coating. formed,
A shielding material fixing part is formed at the boundary between the core wire exposed part and the core wire covering part, and the shielding material is folded back and fixed on the outer peripheral surface of the insulating coating on the core wire covering part side. ,
The core wire exposed part and the shield material fixing part are arranged inside the motor case,
A regulating portion for regulating movement of the shielding material fixing portion to the outside of the motor case is formed or attached to the motor case ,
A motor characterized in that, in the shielding material fixing portion, the shielding material folded back onto the outer circumferential surface of the insulating coating is twisted in the circumferential direction of the core wire covering portion . A motor body having a rotor and a stator, a motor case in which the motor body is housed, a detection mechanism housed in the motor case, and a shielded wire drawn out from the detection mechanism toward the outside of the motor case. , a rubber bush for preventing liquid from entering the inside of the motor case;
The shield wire includes a core wire, a shield material covering the core wire, and an insulating coating covering the shield material,
The shield wire includes a core wire exposed portion where the shield material and the insulation coating are removed to expose the core wire, and a core wire covering portion where the core wire is covered with the shield material and the insulation coating. formed,
A shielding material fixing part is formed at the boundary between the core wire exposed part and the core wire covering part, and the shielding material is folded back and fixed on the outer peripheral surface of the insulating coating on the core wire covering part side. ,
The core wire exposed part and the shield material fixing part are arranged inside the motor case,
A regulating portion for regulating movement of the shielding material fixing portion to the outside of the motor case is formed or attached to the motor case,
In the shielding material fixing part, the shielding material folded back onto the outer peripheral surface of the insulating coating is fixed with an adhesive ,
The shield wire includes a covering member that covers at least the shield material fixing part,
The covering member is a heat-shrinkable tube, and
the bushing is attached to the motor case,
The bushing is formed with an insertion hole through which the core wire covering portion is inserted,
The covering member also covers a portion of the core wire covering portion on the core wire exposed portion side,
A motor characterized in that a portion of the core wire covering portion covered by the covering member is press-fitted into the insertion hole. 3. The motor according to claim 2 , wherein the covering member also covers a portion of the exposed core wire portion on the side of the core wire covering portion. A motor body having a rotor and a stator, a motor case in which the motor body is housed, a detection mechanism housed in the motor case, and a shielded wire drawn out from the detection mechanism toward the outside of the motor case. , a rubber bush for preventing liquid from entering the inside of the motor case;
The shield wire includes a core wire, a shield material covering the core wire, and an insulating coating covering the shield material,
The shield wire includes a core wire exposed portion where the shield material and the insulation coating are removed to expose the core wire, and a core wire covering portion where the core wire is covered with the shield material and the insulation coating. formed,
A shielding material fixing part is formed at the boundary between the core wire exposed part and the core wire covering part, and the shielding material is folded back and fixed on the outer peripheral surface of the insulating coating on the core wire covering part side. ,
The core wire exposed part and the shield material fixing part are arranged inside the motor case,
A regulating portion for regulating movement of the shielding material fixing portion to the outside of the motor case is formed or attached to the motor case,
The motor case includes a resin regulation part forming member in which the regulation part is formed ,
The bushing is formed with an insertion hole through which the core wire covering portion is inserted,
A bush holding portion for holding the bush is formed in the regulating portion forming member,
The motor is characterized in that the restriction portion constitutes a part of the bush holding portion. 5. The shielding material according to claim 1, wherein, in the shielding material fixing part, a tip of the shielding material folded back onto the outer circumferential surface of the insulating coating faces the outside of the motor case. motor.

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