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US-12627183-B2 - Rotor unit and rotor main body for electric motor

US12627183B2US 12627183 B2US12627183 B2US 12627183B2US-12627183-B2

Abstract

[Problem] To provide a rotor unit that may effectively prevent detachment of a magnet with a holder while absorbing dimensional errors of a rotor main body and the magnet. [Solution] In the rotor unit according to the present invention, the holder mountable on the rotor main body prevents the magnet from being detached from the rotor main body. The holder includes an elastically deformable insertion arm extending from a flat-plate like holder main body, a hook portion provided on a free end side of the insertion arm, an elastically deformable magnet pressing arm extending from the holder main body, and a magnet pressing portion provided on a free end side of the magnet pressing arm. The rotor main body includes a hook hole into which the insertion arm is inserted, and the hook hole is provided with a locking portion in which the hook portion is lockable. When the hook portion is locked in the locking portion, the magnet pressing portion presses an end face of the magnet due to inherent elasticity of the magnet pressing arm accompanying elastic deformation.

Inventors

  • Takahiro Morimoto
  • YUTO KIMURA
  • Toshinobu SHINOHARA
  • Hitoshi Adachi
  • Kohei Okura
  • Tatsuya Kamada

Assignees

  • KANZAKI KOKYUKOKI MFG. CO., LTD.

Dates

Publication Date
20260512
Application Date
20230831
Priority Date
20220901

Claims (15)

  1. 1 . A rotor unit for electric motor comprising: a rotor main body having a plurality of magnetic flat plates laminated therein; a magnet attached to the rotor main body; and a first end-face side holder attached to a first end face of the rotor main body on one side in a rotation axis direction, wherein the rotor main body includes a shaft hole that is open to at least the first end face on a rotation axis and has a rotation shaft inserted thereinto, a magnet attachment hole that is open to at least the first end face at a position away from the shaft hole outward in a radial direction and has the magnet attached thereto, and a hook hole that is open to at least the first end face at a position different from the shaft hole and the magnet attachment hole in the radial direction, the first end-face side holder includes a plate like holder main body including a central opening, an elastically deformable insertion arm extending from the holder main body so as to be inserted into the hook hole in an installation posture of the holder main body in which, in a planar view, the central opening is overlapped with the shaft hole and the holder main body is opposed to the first end face of the rotor main body, a hook portion provided on a free end side of the insertion arm, a magnet pressing arm that extends from the holder main body and is elastically deformable in a direction perpendicular to a plate surface of the holder main body, and a magnet pressing portion provided on a free end side of the magnet pressing arm so as to be in contact with a first end face of the magnet on the one side in the rotation axis direction attached to the magnet attachment hole in the installation posture of the holder main body, the hook hole is provided with a first end-face side locking portion in which the hook portion is lockable, when the hook portion is locked in the first end-face side locking portion, the magnet pressing portion is pressed against the first end face of the magnet due to inherent elasticity of the magnet pressing arm accompanying elastic deformation, the first end-face side holder includes a holder pressing arm that extends from the holder main body and is elastically deformable in a direction perpendicular to the plate surface of the holder main body, and a holder pressing portion provided on a free end side of the holder pressing arm so as to be in contact with the first end face of the rotor main body in the installation posture of the holder main body, and when the hook portion of the first end-face side holder is locked in the first end-face side locking portion, the holder pressing portion is pressed against the first end face of the rotor main body due to inherent elasticity of the holder pressing arm accompanying elastic deformation.
  2. 2 . The rotor unit according to claim 1 , wherein the magnet pressing arm extends from the holder main body so as to be positioned on one of an outer side and an inner side in the radial direction with respect to the rotation axis as the magnet pressing arm extends from a base end side to a free end side, and the holder pressing arm extends from the holder main body so as to be positioned on other one of the outer side and the inner side in the radial direction with respect to the rotation axis as the holder pressing arm extends from a base end side to a free end side.
  3. 3 . The rotor unit according to claim 1 , wherein the holder main body includes an inner ring body defining the central opening, an outer ring body surrounding the inner ring body, and a plurality of bridges coupling the inner ring body and the outer ring body, the bridges are arranged with gaps in a circumferential direction around the rotation axis, the magnet pressing arm and the holder pressing arm are arranged in the gaps alternately in the circumferential direction, the magnet pressing arm extends in the radial direction from one of the inner ring body and the outer ring body, and the holder pressing arm extends in the radial direction from other one of the inner ring body and the outer ring body.
  4. 4 . The rotor unit according to claim 1 , wherein the holder main body includes a ring body defining the central opening, a first arm extending from the ring body in the radial direction, and a support frame extending from the ring body in the radial direction, the first arm and the support frame are arranged alternately in the circumferential direction around the rotation axis, the support frame includes a pair of radially extending arms extending to one side in the radial direction while being separated from each other in the circumferential direction with a gap therebetween, a coupling arm coupling free end sides of the pair of radially extending arms, and a second arm extending from the coupling arm to other side in the radial direction in the gap, and one of the first arm and the second arm forms the magnet pressing arm, and other one of the first arm and the second arm forms the holder pressing arm.
  5. 5 . The rotor unit according to claim 1 , further comprising a second end-face side holder attached to a second end face of the rotor main body on other side in the rotation axis direction, wherein the magnet attachment hole and the hook hole are through-holes that are also open to the second end face, the second end-face side holder has a configuration identical to the first end-face side holder, the hook hole is provided with a second end-face side locking portion in which a hook portion of the second end-face side holder is lockable, and when the hook portion of the second end-face side holder is locked in the second end-face side locking portion, the magnet pressing portion is pressed against a second end face of the magnet due to inherent elasticity of the magnet pressing arm accompanying elastic deformation, and the holder pressing portion is pressed against the second end face of the rotor main body due to inherent elasticity of the holder pressing arm accompanying elastic deformation.
  6. 6 . The rotor unit according to claim 5 , wherein the rotor main body is provided with a plurality of the hook holes arranged in a circumferential direction around the rotation axis, the magnetic flat plate includes a shaft-hole opening forming the shaft hole, a magnet opening forming the magnet attachment hole, and a plurality of hook openings arranged along the circumferential direction around the rotation axis to form the plurality of the hook holes, the plurality of hook openings includes a first opening having a radial distance A 1 between a circumferentially extending edge on an inner side in the radial direction and the rotation axis and a radial distance A 2 between a circumferentially extending edge on an outer side in the radial direction and the rotation axis, and a second opening having a radial distance B 1 between a circumferentially extending edge on the inner side in the radial direction and the rotation axis and a radial distance B 2 between a circumferentially extending edge on the outer side in the radial direction and the rotation axis (where A 1 <B 1 <A 2 <B 2 ), the first opening and the second opening are arranged symmetrically to each other in the circumferential direction with respect to a virtual center plane that passes through the rotation axis and is perpendicular to a plane of the magnetic flat plate, the plurality of magnetic flat plates forms first to third magnetic assemblies formed by laminating and fixing the magnetic flat plates in a state where the magnetic flat plates face in an identical direction with regard to a plate thickness direction and openings of an identical type are aligned with each other, the first magnetic assembly and the third magnetic assembly include an identical number of the magnetic flat plates so as to have an identical axial thickness, the rotor main body includes the first to third magnetic assemblies that are laminated and fixed in this order from the one side to the other side in the rotation axis direction, the first to third magnetic assemblies are laminated and fixed in a state where, with regard to the plate thickness direction, first surfaces on one side in the plate thickness direction of the magnetic flat plates forming the first magnetic assembly and the third magnetic assembly face to the one side in the rotation axis direction, second surfaces on other side in the plate thickness direction of the magnetic flat plates forming the second magnetic assembly face to the one side in the rotation axis direction, and, with regard to the circumferential direction around the rotation axis, virtual center planes of the first to third magnetic assemblies are aligned with each other, and a radial step between the hook opening of the first magnetic assembly and the hook opening of the second magnetic assembly forms the first end-face side locking portion, and a radial step between the hook opening of the third magnetic assembly and the hook opening of the second magnetic assembly forms the second end-face side locking portion.
  7. 7 . The rotor unit according to claim 6 , wherein the first opening and the second opening are alternately arranged in the circumferential direction.
  8. 8 . The rotor unit according to claim 6 , wherein the shaft hole is provided with a rotor main-body side engagement portion that engages with a rotation-shaft side engagement portion integrally or separately provided in the rotation shaft in a recessed-protruding manner in order to couple the rotation shaft and the rotor main body so as to disable a relative rotation around the rotation axis, the shaft-hole opening of the magnetic flat plate is provided with an engagement-portion forming structure that forms the rotor main-body side engagement portion, and the engagement-portion forming structure has a symmetrical shape with respect to the virtual center plane.
  9. 9 . The rotor unit according to claim 5 , wherein the rotor main body is provided with a plurality of the hook holes arranged in the circumferential direction around the rotation axis, the magnetic flat plate includes a shaft-hole opening forming the shaft hole, a magnet opening forming the magnet attachment hole, and a plurality of hook openings arranged along the circumstantial direction around the rotation axis to form the plurality of the hook holes, the plurality of hook openings includes a first opening having a circumferential length L 1 , and a second opening having a circumferential length L 2 (where L 2 >L 1 ), the first opening and the second opening are arranged symmetrically to each other in the radial direction with respect to a virtual center plane that passes through the rotation axis and is perpendicular to a plane of the magnetic flat plate, the plurality of magnetic flat plates forms first to third magnetic assemblies formed by laminating and fixing the magnetic flat plates in a state where the magnetic flat plates face in an identical direction with regard to a plate thickness direction and openings of an identical type are aligned with each other, the first magnetic assembly and the third magnetic assembly include an identical number of the magnetic flat plates so as to have an identical axial thickness, the rotor main body includes the first to third magnetic assemblies that are laminated and fixed in this order from the one side to the other side in the rotation axis direction, the first to third magnetic assemblies are laminated and fixed in a state where, with regard to the plate thickness direction, first surfaces on the one side in the plate thickness direction of the magnetic flat plates forming the first magnetic assembly and the third magnetic assembly face to the one side in the rotation axis direction, second surfaces on the other side in the plate thickness direction of the magnetic flat plates forming the second magnetic assembly face to the one side in the rotation axis direction and, with regard to the circumferential direction around the rotation axis, the virtual center planes of the first to third magnetic assemblies are aligned with each other, a circumferential step between the hook opening of the first magnetic assembly and the hook opening of the second magnetic assembly forms the first end-face side locking portion, and a circumferential step between the hook opening of the third magnetic assembly and the hook opening of the second magnetic assembly forms the second end-face side locking portion.
  10. 10 . The rotor unit according to claim 9 , wherein the first opening and the second opening are formed such that the circumferential step between the hook opening of the first magnetic assembly and the hook opening of the second magnetic assembly includes a first step and a second step that extend to one side and other side in the circumferential direction, respectively, and the circumferential step between the hook opening of the third magnetic assembly and the hook opening of the second magnetic assembly includes a first step and a second step that extend to the one side and the other side in the circumferential direction, respectively, the insertion arms of the first end-face side holder and the second end-face side holder include a first extension piece and a second extension piece that extend from the holder main body so as to be inserted along edges of the first opening on the one side and the other side in the circumferential direction, the hook portion includes a first hook portion and a second hook portion that protrude outward in the circumferential direction on free end sides of the first extension piece and the second extension piece, respectively, and the first hook portion and the second hook portion are lockable in the first step and the second step, respectively.
  11. 11 . The rotor unit according to claim 9 , wherein the shaft hole is provided with a rotor main-body side engagement portion that engages with a rotation-shaft side engagement portion integrally or separately provided in the rotation shaft in a recessed-protruding manner in order to couple the rotation shaft and the rotor main body so as to disable a relative rotation around the rotation axis, the shaft-hole opening of the magnetic flat plate is provided with an engagement-portion forming structure that forms the rotor main-body side engagement portion, and the engagement-portion forming structure has a symmetrical shape with respect to the virtual center plane.
  12. 12 . A rotor main body for electric motor comprising: a shaft hole that has a rotation shaft inserted thereinto; a magnet attachment hole provided at a position away from the shaft hole outward in a radial direction; a plurality of hook holes provided along a circumferential direction at positions different from the shaft hole and the magnet attachment hole in the radial direction; and a plurality of magnetic flat plates, wherein the magnetic flat plate includes a shaft-hole opening forming the shaft hole, a magnet opening forming the magnet attachment hole, and a plurality of hook openings arranged along the circumferential direction around the rotation axis to form the plurality of hook holes, the plurality of hook openings includes a first opening having a radial distance A 1 between a circumferentially extending edge on an inner side in the radial direction and the rotation axis and a radial distance A 2 between a circumferentially extending edge on an outer side in the radial direction and the rotation axis, and a second opening having a radial distance B 1 between a circumferentially extending edge on the inner side in the radial direction and the rotation axis and a radial distance B 2 between a circumferentially extending edge on the outer side in the radial direction and the rotation axis (where A 1 <B 1 <A 2 <B 2 ), the first opening and the second opening are arranged symmetrically to each other in the circumferential direction with respect to a virtual center plane that passes through the rotation axis and is perpendicular to a plane of the magnetic flat plate, the plurality of magnetic flat plates forms a first magnetic assembly and a second magnetic assembly formed by laminating and fixing the magnetic flat plates in a state where the magnetic flat plates face in an identical direction with regard to a plate thickness direction and openings of an identical type are aligned with each other, the first magnetic assembly and the second magnetic assembly are laminated and fixed in this order from one side to other side in the rotation axis direction in a state where, with regard to the plate thickness direction, first surfaces on one side in the plate thickness direction of the magnetic flat plates forming the first magnetic assembly face to the one side in the rotation axis direction, second surfaces on other side in the plate thickness direction of the magnetic flat plates forming the second magnetic assembly face to the one side in the rotation axis direction and, with regard to the circumferential direction around the rotation axis, the virtual center planes of the first magnetic assembly and the second magnetic assembly are aligned with each other, and a radial step is provided between the hook opening of the first magnetic assembly and the hook opening of the second magnetic assembly.
  13. 13 . The rotor main body according to claim 12 , further comprising a third magnetic assembly formed by laminating and fixing a plurality of magnetic flat plates having an identical configuration to that of the magnetic flat plates in a state where the plurality of magnetic flat plates faces in an identical direction with regard to the plate thickness direction and openings of an identical type are aligned with each other, wherein the third magnetic assembly is fixed to other side of the second magnetic assembly in the rotation axis direction in a state where first surfaces of the magnetic flat plates forming the third magnetic assembly face to the one side in the rotation axis direction and the virtual center planes are aligned with each other, and a radial step is provided between a hook opening of the third magnetic assembly and the hook opening of the second magnetic assembly.
  14. 14 . A rotor main body for electric motor comprising: a shaft hole that has a rotation shaft inserted thereinto; a magnet attachment hole provided at a position away from the shaft hole outward in a radial direction; a plurality of hook holes provided along a circumferential direction at positions different from the shaft hole and the magnet attachment hole in the radial direction; and a plurality of magnetic flat plates, wherein the magnetic flat plate includes a shaft-hole opening forming the shaft hole, a magnet opening forming the magnet attachment hole, and a plurality of hook openings arranged along the circumferential direction around the rotation axis to form the plurality of hook holes, the plurality of hook openings includes a first opening having a circumferential length L 1 , and a second opening having a circumferential length L 2 (where L 2 >L 1 ), the first opening and the second opening are arranged symmetrically to each other in the radial direction with respect to a virtual center plane that passes through the rotation axis and is perpendicular to a plane of the magnetic flat plate, the plurality of magnetic flat plates forms a first magnetic assembly and a second magnetic assembly formed by laminating and fixing the magnetic flat plates in a state where the magnetic flat plates face in an identical direction with regard to a plate thickness direction and openings of an identical type are aligned with each other, the first magnetic assembly and the second magnetic assembly are laminated and fixed in this order from one side to other side in the rotation axis direction in a state where, with regard to the plate thickness direction, first surfaces on one side in the plate thickness direction of the magnetic flat plates forming the first magnetic assembly face to the one side in the rotation axis direction, second surfaces on other side in the plate thickness direction of the magnetic flat plates forming the second magnetic assembly face to the one side in the rotation axis direction and, with regard to the circumferential direction around the rotation axis, the virtual center planes of the first magnetic assembly and the second magnetic assembly are aligned with each other, and a circumferential step is provided between the hook opening of the first magnetic assembly and the hook opening of the second magnetic assembly.
  15. 15 . The rotor main body according to claim 14 , further comprising a third magnetic assembly formed by laminating and fixing a plurality of magnetic flat plates having an identical configuration to that of the magnetic flat plates in a state where the plurality of magnetic flat plates faces in an identical direction with regard to the plate thickness direction and openings of an identical type are aligned with each other, wherein the third magnetic assembly is fixed to other side of the second magnetic assembly in the rotation axis direction in a state where first surfaces of the magnetic flat plates forming the third magnetic assembly face to the one side in the rotation axis direction and the virtual center planes are aligned with each other, and a circumferential step is provided between a hook opening of the third magnetic assembly and the hook opening of the second magnetic assembly.

Description

CROSS REFERENCE TO RELATED APPLICATIONS The present invention claims priority under 35 U.S.C. § 119 to Japanese Application No. 2022-139071 filed Sep. 1, 2022, the entire content of which is incorporated herein by reference. TECHNICAL FIELD The present invention relates to a rotor unit in which a magnet is attached to a rotor main body in an electric motor and to the rotor main body. BACKGROUND ART There are proposals such that, in a rotor unit including a rotor main body and a magnet attached to the rotor main body, a holder attachable to an axial end face of the rotor main body is provided, and the holder prevents the magnet from being detached from the rotor main body in an axial direction (see Patent Documents 1 and 2 below). Specifically, the above-described Patent Document 1 discloses a rotor unit that includes a rotor main body including a cylindrical portion and a plurality of salient poles that protrudes outward in the radial direction from the cylindrical portion and is arranged with gaps in a circumferential direction, a magnet provided in a magnet installation space formed between the adjacent salient poles in the circumferential direction, and a holder attached to an axial end face of the rotor main body. The rotor main body and the magnet are formed such that an axial end face of the magnet is located outward in the axial direction of an axial end face of the rotor main body, and a recessed holder installation space that opens outward in the axial direction is formed by an inner peripheral surface of the magnet and an axial end face of the cylindrical portion. The holder includes a holder main body inserted into the holder installation space, an arm portion extending outward in the radial direction from the holder main body, and a contact portion protruding inward in the axial direction from a free end portion of the arm portion. In the rotor unit disclosed in Patent Document 1, it is considered that, in a state where the holder main body is inserted into the holder installation space so as to be in contact with the axial end face of the cylindrical portion, the contact portion provided at the free end portion of the cantilevered arm portion is in contact with the axial end face of the magnet, and axial dimensional errors of the holder main body and the magnet may be absorbed by the axial elastic deformation amount of the arm portion. However, in the rotor unit disclosed in Patent Document 1, as the holder main body is inserted into the holder installation space in a state where the axial inner end face is in surface contact with the axial end face of the rotor main body and the outer peripheral surface is in surface contact with the inner peripheral surface of the magnet, axial dimensional errors of the holder main body and the magnet need to be absorbed only by the axial elastic deformation amount of the arm portion, and the dimensional errors may not be sufficiently absorbed. Further, in order to fix the holder main body to the rotor main body by fitting the holder main body into the holder installation space, it is necessary to reduce manufacturing errors of the holder main body, the rotor main body, and the magnet as much as possible, and furthermore, in a case where the holder is bonded to the axial end face of the rotor main body, a separate bonding operation is required, which leads to a disadvantage such as an increase in manufacturing costs. Further, in the configuration where the holder is attached to the rotor main body, there is a disadvantage such that it is difficult to perform a smooth sorting operation at the time of recycling, and there is a possibility that, when an adhesive is uncured, the magnet gets broken by the rotor main body due to vibration or the like, and the broken pieces are clogged in a gap between a stator and the rotor main body to affect motor driving of a mechanical lock, or the like. The above-described Patent Document 2 discloses a rotor unit that includes a cylindrical rotor main body in which a plurality of magnet holes opening to an axial end face is formed, magnets inserted into the magnet holes, and a holder attached to an axial end face of the rotor main body. The magnet is inserted into the magnet hole such that the axial end face is flush with the axial end face of the rotor main body. The rotor main body is formed with an arm insertion hole that opens to an axial end face at a position different from the magnet hole, and the holder includes a flat-plate like pressing portion that is in contact with the axial end faces of the rotor main body and the magnet, an arm portion that protrudes from the pressing portion in a direction substantially perpendicular to the plane of the pressing portion so as to be inserted into the arm insertion hole, and a hook portion provided at a free end of the arm portion. The arm insertion hole is provided with a recessed portion with which the hook portion may engage, and the hook portion engages with the recessed port