JP2004343817A - Method for manufacturing magnet type motor - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a method for manufacturing an easy-to-assemble magnet type motor in which a scattering prevention cover can be fixed surely to a rotor. <P>SOLUTION: In a first step, a rotor 1 fixed with permanent magnets 4 and a tubular scattering prevention cover 6 are prepared. In a second step, the scattering prevention cover 6 is clamped at a constant interval using chuck having pawls 11 of the same number as the permanent magnets 4. In a third step, the rotor 1 is inserted into the scattering prevention cover 6 such that the permanent magnet 4 is located between the pawls 11. In a fourth step, the pawls 11 are removed from the scattering prevention cover 6 and the scattering prevention cover 6 is attached tightly to the permanent magnet 4 of the rotor 1. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a method for manufacturing a magnet type motor. The method for manufacturing a magnet type motor of the present invention is suitable for use in a method for manufacturing a brushless motor.
[0002]
[Prior art]
Conventionally, for example, in a method of manufacturing a brushless motor, a scattering prevention cover is attached to the rotor by a clearance fit in order to prevent scattering of the permanent magnet fixed to the rotor. There is a slight clearance between the scattering prevention cover and the permanent magnet, and the eccentricity of the scattering prevention cover may cause the stator to come into contact with the scattering prevention cover.
[0003]
For this reason, a method of manufacturing a magnet type motor described in Patent Document 1 has been proposed. According to this manufacturing method, since the shatterproof cover is attached to the rotor by interference fit, there is no clearance between the shatterproof cover and the permanent magnet, and the contact between the stator and the shatterproof cover is prevented. be able to. Also, a method of manufacturing a magnet type motor described in Patent Document 2 has been proposed. According to this manufacturing method, since the shatterproof cover is attached to the rotor by shrink fitting, there is no clearance between the shatterproof cover and the permanent magnet even with this manufacturing method, and the stator and the shatterproof cover are not provided. Contact can be prevented.
[0004]
[Patent Document 1]
JP-A-9-93844 [Patent Document 2]
JP-A-9-275651
[Problems to be solved by the invention]
However, in the method of manufacturing a magnet type motor described in Patent Document 1, after the anti-scattering cover and the rotor have been chamfered, the anti-scattering cover must be press-fitted into the rotor, and the assembling is troublesome. Further, in the method of manufacturing a magnet type motor described in Patent Document 2, heating and cooling of the scattering prevention cover have to be performed, and assembling is also troublesome.
[0006]
SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned conventional circumstances, and provides a method of manufacturing a magnet type motor that is easy to assemble and that can securely fix a scattering prevention cover to a rotor. Should be a challenge.
[0007]
[Means for Solving the Problems]
The method for manufacturing a magnet type motor according to the present invention includes a rotor in which a plurality of permanent magnets are fixed at equal intervals in a circumferential direction, and a scattering prevention cover is attached to an outer peripheral surface of each of the permanent magnets. A method for manufacturing a magnet type motor including a stator provided with an air gap and a stator having a winding on an inner peripheral surface thereof,
A first step of preparing the rotor to which each of the permanent magnets is fixed, and the scattering prevention cover having a cylindrical shape;
A second step of partially reducing the diameter of the scattering prevention cover at regular intervals using a number of diameter reducing tools equal to the number of the permanent magnets;
A third step of inserting the rotor into the shatterproof cover so that each of the permanent magnets is located between each of the diameter reducing tools;
A fourth step of removing each of the diameter reducing tools from the scatter prevention cover and bringing the scatter prevention cover into close contact with each of the permanent magnets of the rotor.
[0008]
In the method for manufacturing a magnet type motor according to the present invention, the shatterproof cover is partially reduced in diameter by using a shrinkage reducing tool, the rotor is inserted into the shatterproofing cover, and then the shrinkage reducing tool is removed from the shatterproofing cover. Thereby, the scattering prevention cover can be fixed to the rotor. Therefore, unlike the case of the interference fit, there is no need to chamfer the anti-scattering cover and the rotor or press-fit the anti-scattering cover into the rotor. Further, unlike the case of shrink fitting, there is no need to heat or cool the scattering prevention cover. Furthermore, in this method of manufacturing a magnet type motor, the diameter of the shrink-prevention cover is easily adjusted to the outer shape of the rotor because the number of diameter-reducing tools equal to the number of permanent magnets is used. Can be reliably eliminated.
[0009]
Therefore, according to the manufacturing method of the magnet type motor of the present invention, the assembling is easy, and the scattering prevention cover can be securely fixed to the rotor.
[0010]
It is preferable that each of the permanent magnets has a thickness at both ends in the rotation direction smaller than a thickness at a central portion. Thereby, when the shatterproof cover is partially reduced in diameter by using a diameter reducing tool, the shape of the shatterproof cover substantially matches the outer shape of the permanent magnet, and the rotor can be easily inserted into the shatterproof cover. .
[0011]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, an embodiment in which a method of manufacturing a magnet type motor of the present invention is embodied in a method of manufacturing a brushless motor will be described with reference to the drawings.
[0012]
In the method of manufacturing a brushless motor according to the present embodiment, in a first step, the rotor 1 shown in FIG. 1 and the scattering prevention cover 6 shown in FIG. 2 are prepared. As shown in FIG. 1, the rotor 1 includes a rotor core 3 fixed to the rotating shaft 2 and four permanent magnets 4 fixed to the outer peripheral surface of the rotor core 3 at equal intervals in the circumferential direction. The thickness of the permanent magnet 4 at both ends in the rotation direction is smaller than the thickness at the center. The surface of the permanent magnet 4 is an arc surface having a radius r ₁ from a virtual center O 2 eccentric from the center O 1 of the rotor 1. Further, in the thickest portion of the permanent magnet 4, the radius of the rotor 1 from the center O1 is R _1. As shown in FIG. 2, the scattering prevention cover 6 is made of aluminum, and has a cylindrical shape with an inner diameter R ₂ and a thickness of 0.2 mm. The radius R ₂ is slightly smaller than the radius R ₁ of the rotor 1.
[0013]
In the second step, as shown in FIG. 3, the shatterproof covers 6 are clamped at equal intervals and partially reduced in diameter using a chuck having four claw portions (diameter reducing tools) 11. As a result, the portion of the scattering prevention cover 6 that is not sandwiched by the claws 11 swells and deforms into a substantially petal shape. At this time, the distance R3 between the top inner surface of the bulging portion 6a and the center O3 of the scattering prevention cover 6 is set to be larger than the radius R1 at the thickest portion of the permanent magnet 4. Here, the circumference of the inner circumference of the scattering prevention cover 6 is L1 (= 2πR ₂ ). In the third step, as shown in FIG. 4, the rotor 1 is inserted into the scattering prevention cover 6 such that the permanent magnets 4 are located between the claws 11. Then, in the fourth step, as shown in FIG. 5, the claws 11 are removed from the scattering prevention cover 6, and the scattering prevention cover 6 is brought into close contact with the respective permanent magnets 4 of the rotor 1. FIG. 6 shows the circumferential length L1 of the inner circumference of the scattering prevention cover 6 at this time. In FIG. 6, L2 represents a state in which the scattering prevention cover 6 is linearly bridged between the adjacent permanent magnets 4, that is, a circumference when the inner circumference of the scattering prevention cover 6 is set to a minimum. Represents the perimeter of the inner circumference of the scattering prevention cover 6 when the clearance between the inner circumference of the scattering prevention cover 6 and the permanent magnet 4 is set to be zero while the scattering prevention cover 6 maintains a perfect circular shape. . The circumference L1 is larger than the circumference L2. However, the circumference L1 can be made smaller than the circumference L3. Here, the circumference L2 and the circumference L3 are represented by the following equations.
[0014]
(Equation 1)
L2 = 2πr ₁ + 4 × 2 ^1/2 (R ₁ −r ₁ )
[0015]
(Equation 2)
L3 = 2πR ₁
[0016]
The rotor 1 to which the scattering prevention cover 6 manufactured in this manner is assembled constitutes a brushless motor together with a stator having a winding on the inner peripheral surface.
[0017]
In the brushless motor manufacturing method of the present embodiment, the shatterproof cover 6 is partially reduced in diameter by a chuck, the rotor 1 is inserted into the shatterproof cover 6, and then the chuck is removed from the shatterproof cover 6. The scattering prevention cover 6 can be fixed to the rotor 1. Therefore, unlike the case of the interference fit, there is no need to chamfer the anti-scattering cover and the rotor or press-fit the anti-scattering cover into the rotor. Further, unlike the case of shrink fitting, there is no need to heat or cool the scattering prevention cover. Further, in this method of manufacturing a brushless motor, a chuck having four claw portions 11 equal to the number of the permanent magnets 4 is used, so that the shape of the scattering prevention cover 6 can be easily adjusted to the outer shape of the rotor 1, and the scattering prevention cover can be easily formed. The clearance between the permanent magnet 6 and the permanent magnet 4 can be reliably eliminated. In the case of shrink fitting, the circumference L1 must be set depending on the thermal expansion amount of the scattering prevention cover 6, and the radius R2 of the scattering prevention cover 6 is slightly smaller than the radius R1 of the rotor 1. Can only be done to a small extent. On the other hand, according to the method of manufacturing the brushless motor, since the mechanical deformation of the scattering prevention cover 6 is used, the difference between the radius R2 and the radius R1 can be made larger than that obtained by shrink fitting. In other words, the circumference L1 can be made smaller than in the case of shrink fitting, and ultimately the circumference L1 can be made to approach the minimum value L2 without limit. Accordingly, the tension exerted by the scattering prevention cover 6 can be further increased, and the reliability of the scattering prevention cover 6 and thus the reliability of the brushless motor can be greatly improved.
[0018]
In addition, since the thickness of the permanent magnets 4 at both ends in the rotation direction is smaller than the thickness at the center, when the shatterproof cover 6 is sandwiched between chucks, the shape of the shatterproof cover 6 and the outer shape of the permanent magnet 4 And the rotor 1 is easily inserted into the scattering prevention cover 6.
[0019]
Therefore, according to the brushless motor manufacturing method of the present embodiment, the assembling is easy, and the scattering prevention cover 6 can be securely fixed to the rotor 1.
[0020]
In the present embodiment, aluminum is used as the scattering prevention cover 6, but a non-magnetic metal such as stainless steel can be used. Further, in the present embodiment, the number of the permanent magnets 4 fixed to the outer peripheral surface of the rotor core 3 is four, but it is needless to say that the present invention can be embodied with any other number of permanent magnets. Absent.
[Brief description of the drawings]
FIG. 1 is a perspective view of a rotor according to a method of manufacturing a brushless motor according to an embodiment.
FIG. 2 is a perspective view of a scattering prevention cover according to the method of manufacturing the brushless motor of the embodiment.
FIG. 3 is a cross-sectional view of a scattering prevention cover sandwiched between chucks in the method for manufacturing a brushless motor according to the embodiment.
FIG. 4 is a cross-sectional view of a rotor inserted into a scattering prevention cover sandwiched between chucks according to the method of manufacturing the brushless motor of the embodiment.
FIG. 5 is an assembled cross-sectional view of a shatterproof cover according to the method of manufacturing the brushless motor of the embodiment.
FIG. 6 is an enlarged cross-sectional view showing a relationship between a rotor and an inner diameter of a scattering prevention cover according to the method of manufacturing the brushless motor of the embodiment.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Rotor 2 ... Rotating shaft 3 ... Rotor core 4 ... Permanent magnet 6 ... Scatter prevention cover 11 ... Reducer (claw part)

Claims (2)

A rotor having a plurality of permanent magnets fixed at equal intervals in a circumferential direction, a rotor having an anti-scattering cover attached to an outer peripheral surface of each of the permanent magnets, and an inner peripheral surface provided with a gap on an outer periphery of the rotor. In a method for manufacturing a magnet type motor including a stator having windings,
A first step of preparing the rotor to which each of the permanent magnets is fixed, and the scattering prevention cover having a cylindrical shape;
A second step of partially reducing the diameter of the scattering prevention cover at regular intervals using a number of diameter reducing tools equal to the number of the permanent magnets;
A third step of inserting the rotor into the shatterproof cover so that each of the permanent magnets is located between each of the diameter reducing tools;
A step of removing each of the diameter reducing tools from the scatter prevention cover and bringing the scatter prevention cover into close contact with each of the permanent magnets of the rotor. 2. The method according to claim 1, wherein each of the permanent magnets has a thickness at both ends in a rotation direction smaller than a thickness at a center portion.

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