JPH08126264A - Dynamo-electric machine, and its manufacture - Google Patents

Abstract

PURPOSE: To simplify the process of surface processing for a yoke and a magnet, and also, secure the adhesive strength between the yoke and the magnet, and besides, prevent the occurrence of dust from the yoke or the magnet more certainly. CONSTITUTION: An assembly 11 where a yoke 8 and a magnet 9 are bonded with each other is incorporated as a stator or a rotor. At this time, the yoke 8 and the magnet 9 are made of iron material, and at the surface of the assembly 11 is a plated film to cover this assembly made. What is more, the plated film is, for example, the film by electroless nickel plating.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a rotary electric machine suitable for use in a magnetic disk drive device and the like, and more particularly to a rotary electric machine having a stator or a rotor capable of suppressing dust generation and a method for manufacturing the same. is there.

[0002]

2. Description of the Related Art Conventionally, for example, JP-A-6-133519.
The rotating electric machine shown in Japanese Patent Publication is known. This rotary electric machine is used as a magnetic disk drive, but a stator core wound with a drive coil is fixed to a bracket fixed to the magnetic disk drive main body, while fixed to this bracket. A disk hub to which a magnetic disk is attached is rotatably held on a fixed shaft that serves as a rotation center of the rotating electric machine via two bearings. On the other hand, a rotor magnet facing the stator core is fixedly mounted on a yoke fixed to the disk hub, and the drive coil wound around the stator core is energized, so that the magnetism between the drive coil and the rotor magnet is increased. The disk hub is configured to rotate by the action.

[0003]

By the way, in a magnetic disk drive device or the like in which the rotating electric machine configured as described above is used, when magnetic dust adheres to the disk surface of the magnetic disk drive device, Since it causes an error, it is necessary to suppress the generation of dust from the rotating electric machine as much as possible. Therefore, even in the conventional rotating electric machine, as shown in FIG. 3, the surface of the yoke made of an iron-based material is nickel-plated to prevent the generation of rust from the yoke surface and the generation of dust due to the rust. At the same time, the surface of the rotor magnet is coated with an epoxy resin to prevent the generation of dust from the magnet surface.

Therefore, in the above conventional rotary electric machine, in order to prevent dust from being generated from the yoke and the rotor magnet, it is necessary to separately perform the plating treatment of the yoke and the resin coating treatment of the rotor magnet. And surface treatment steps for rotor magnets are required. The surface-treated yoke and rotor magnet are then press-fitted and bonded to be integrated as shown in FIG. 3, but the nickel-plated yoke and epoxy resin coating treatment were applied. Since the adhesive strength with the magnet is weak and the epoxy resin coating is weak, the epoxy resin coating is likely to be peeled off due to vibration, impact, etc. When the resin coating is peeled off, dust of the magnet may be generated.

The present invention has been made in view of the above circumstances, and simplifies the surface treatment process of the yoke and the magnet, and can secure the adhesive strength between the yoke and the magnet, and further, An object of the present invention is to provide a rotating electric machine that can more reliably prevent generation of dust from a magnet.

[0006]

In order to achieve the above object, according to the invention as set forth in claim 1, in a rotating electric machine in which an assembly in which a yoke and a magnet are adhered is assembled as a stator or a rotor, the yoke is made of iron. The magnet is an iron-based material magnet, and a plating film that covers the assembly is formed on the surface of the assembly.

In addition, in the invention described in claim 2,
In the above rotating electric machine, the plated film is a film formed by electroless nickel plating.

According to the third aspect of the present invention, either one of the stator and the rotor constituting the rotary electric machine comprises a yoke made of an iron-based material and a magnet made of an iron-based material containing iron as a main component. An assembly is provided, and a corrosion-resistant plated film that covers the assembly is formed on the surface of the assembly.

Further, according to the invention of claim 4, in claim 3, the magnet of an iron-based material containing iron as a main component is a plastic magnet obtained by kneading iron-based rare earth magnetic powder with a binder resin. Further, in the invention according to claim 5, in claim 3, the magnet is a plastic magnet obtained by kneading Nd-Fe-B (neodymium-iron-boron) with a binder resin, and magnetic powder of Nd-Fe-B. Is contained in a volume ratio of 48 to 73%.

Further, according to the invention of claim 6, either one of the stator and the rotor constituting the rotating electric machine comprises a yoke and a magnet integrated with the yoke, and the yoke and the magnet are subjected to a surface treatment. After giving
In a method for manufacturing a rotating electric machine in which a stator and a rotor are assembled, a yoke made of an iron-based material and a magnet made of an iron-based material containing iron as a main component are prepared, and after the yoke and the magnet are integrated, the yoke Corrosion-resistant plating is applied to the surface of the magnet.

Further, in the invention according to claim 7, in claim 6, the yoke has a substantially annular shape, and the magnet has a substantially annular shape press-fitted and fixed to the inner peripheral surface of the annular yoke. After the magnet is press-fitted and fixed to the yoke, the surfaces of the yoke and the magnet are subjected to corrosion-resistant plating. In addition, in the invention described in claim 8, in claim 7, the magnet of an iron-based material containing iron as a main component is a plastic magnet obtained by kneading iron-based rare earth magnetic powder with a binder resin. Further, in the invention according to claim 9, in claim 8, the plating treatment is any one of nickel plating, zinc plating and chromium plating.

In the present invention, the assembly composed of the yoke and the magnet is used as a rotor or a stator of a rotary electric machine. Both the yoke and magnet of this assembly are made of iron-based material. After fixing them by press fitting, etc.,
The assembly is plated. Therefore, the manufacturing process is shortened and the production efficiency is improved. In addition, the plating film that covers the assembly is so-called a laminate film, so it is preferable in terms of preventing the generation of dust, and also preferable in more firmly integrating the yoke and the magnet. Become. Then, after carrying out this surface treatment, the rotor and the stator are assembled to complete a rotary electric machine.

[0013]

BEST MODE FOR CARRYING OUT THE INVENTION Next, an embodiment of a rotary electric machine of the present invention will be described with reference to the drawings.

FIG. 1A is a sectional view of a rotating electric machine according to the present invention. In FIG. 1 (A), a rotary electric machine 1 includes a bracket 3 integrally formed with a shaft 2 as a center of rotation, a stator core 4 fixed to the bracket 3, and salient poles formed on the stator core 4. A wound drive coil 5, a disk hub 7 for fixing a magnetic disk rotatably held on the shaft 2 via ball bearings 6 as bearings, and a lower inner peripheral surface of the disk hub 7. Is provided in the space formed by the shaft 2 and the disk hub 7, which is the upper portion of the ball bearing 6 and the rotor magnet 9 fixed to the inner peripheral surface 8a of the yoke 8. The magnetic fluid seal portion 10 is provided.

The yoke 8 is made of, for example, an iron-based magnetic material such as a rolled steel plate called an SPCC material according to Japanese Industrial Standards. The yoke 8 is formed in a substantially annular shape and is formed under the disk hub 7. It is fixed to the inner peripheral surface.

On the other hand, the rotor magnet 9 is an iron-based rare earth magnetic powder containing iron as a main component, such as Nd-Fe.
A plastic magnet made by kneading -B (neodymium-iron-boron) with a binder resin is used, is formed into an annular shape, and is fixed to the inner peripheral surface 8a of the yoke 8.

The plastic magnet as the rotor magnet 9 is prepared by, for example, using a polyamide resin as a binder, and kneading Nd-Fe-B magnetic powder obtained by mixing neodymium / iron / boron at a predetermined ratio with the resin.
It is manufactured as a plastic magnet. In the present embodiment, the Nd-Fe-B magnetic powder is contained in a volume ratio of 48 to 73%. Since such a plastic magnet can be manufactured by injection molding, manufacturing of the magnet becomes very easy. When the ratio of the magnetic powder is 48% or more, the characteristics of the magnet are improved, and when it is 73% or less, the strength is excellent. Therefore, considering the magnet characteristics and strength, it can be said that it is preferable to contain the Nd-Fe-B magnetic powder in a volume ratio of 48 to 73%.

As the magnetic powder for the plastic magnet, Nd-Fe-B magnetic powder containing iron as a main component was used, but the magnetic powder is not limited to this, and an iron-based rare earth magnetic powder containing iron as a main component, for example, , Rare earth (R) -Fe-B
System (however, R is La-Ce, Ce, Nd-Pr, etc.) magnetic powder and rare earth (R) -Fe-N system (however, R is Sm.
It is possible to use an iron-based rare earth magnetic powder containing iron as a main component, in which each metal powder is mixed in a predetermined ratio.

As the resin used as the binder resin, the polyamide resin is used in the above embodiment, but phenol, epoxy, urethane, polybutylene terephthalate, polyphenylene sulfide,
A polyolefin-based resin or a resin obtained by combining two or more of these can be used.

Further, a titanate-based or silane-based coupling agent may be used as the coupling agent between the magnetic powder and the resin.

Next, a method of manufacturing the rotary electric machine 1 shown in FIG. 1 will be described.

The structure of the rotating electric machine 1 on the stator side has, as shown in the manufacturing procedure on the right side of FIG. 2, a columnar shaft 2 serving as the center of rotation and a holding portion for holding the stator core 4. For the bracket 3 formed integrally,
A stator core group formed by winding a coil 5 around a stator core 4 having a resin coating for insulation is assembled.

Next, the structure of the rotary electric machine 1 on the rotor side is as follows. That is, first, as shown in the configuration diagram of FIG. 1 (B) and the manufacturing procedure of the left side portion of FIG. 2, the rotor magnet 9 is press-fitted into the inner peripheral surface 8a of the yoke 8 formed in a substantially annular predetermined shape. And glue. Thus, as shown in FIG. 1C, the assembly 11 of the yoke 8 and the magnet 9 is formed.

Thereafter, the surface of the assembly 11 is plated, and then fixed to the disk hub 7 to form the rotor side of the rotary electric machine 1.

At this time, as the plating treatment applied to the surface of the assembly 11, one having corrosion resistance to some extent is adopted, and preferably, the corrosion resistance to the generation of rust on iron is excellent, and the surface is Electroless nickel plating that can be smoothed is the best, but electrolytic nickel plating or zinc plating,
Chrome plating or the like can also be applied.

Next, the disk hub 7 to which the assembly 11 of the yoke 8 and the magnet 9 is mounted and fixed, that is, the rotor in the unit state which constitutes the rotor side of the rotating electric machine 1 is 2
It is rotatably held on a shaft 2 formed on a bracket 3 via two ball bearings 6 and 6. Thereafter, the magnetic fluid seal portion 10 closes the space formed by the shaft 2 and the disk hub 7, and the assembly of the rotary electric machine 1 is completed.

The rotary electric machine 1 assembled in this way is
The disk hub 7 is rotated integrally with the yoke 8 and the magnet 9 by the current flowing through the coil 5 and the magnetic force of the magnet 9, and the magnetic disk (not shown) mounted on the disk hub 7 can be rotated.

As described above, in the embodiment of the present invention, a rolled steel plate, which is an iron-based magnetic material, is used for the yoke 8, and the rotor magnet 9 also contains iron as a main component. Since the magnet material made of iron-based rare earth magnetic powder is used, the plating treatment for corrosion resistance and prevention of dust generation can be performed by the same plating treatment for iron. Therefore, since the coating agent described in the prior art is not interposed between the magnet and the yoke, the fixing strength between the magnet and the yoke can be improved.

Since the rotor magnet 9 is made of a plastic magnet kneaded with a binder resin, the magnet can be easily manufactured by injection molding.

Although the rotary electric machine 1 of the present invention discloses the one in which the shaft 2 is integrally formed with the bracket 3, the shaft and the bracket may be separately formed to be integrated with each other. Further, in the above-described embodiment, an example in which the yoke and the magnet are used on the rotor side of the rotating electric machine has been shown. However, the yoke and the magnet are arranged on the stator side of the rotating electric machine, and the coil is arranged on the rotor side. good.

Further, in the above-described embodiment, the example in which the present invention is applied to the magnetic disk drive is shown, but the rotary electric machine of the present invention is characterized by the rotary electric machine capable of preventing the generation of dust, and the generation of dust Since the effect of being able to prevent this is effective for all motors, brushless motors and brushed motors that rotate rotating bodies such as optical disks and polygon mirrors, and brushless motors and brushed motors used in tape recorders, etc. It can be applied to all motors having a magnet and a magnet.

[0032]

As described above, in the rotating electric machine and the method for manufacturing the same according to each of the claims, a magnet made of an iron-based material containing iron is bonded to a yoke made of an iron-based material. Since the assembly consisting of the above-mentioned yoke and magnet, which have been plated on the surface, is assembled as a stator or rotor, it is possible to perform common plating on the yoke and magnet as the surface treatment on the yoke and magnet. The surface treatment process is shortened and the production efficiency is improved. In addition, since the plating film that covers the assembly has a shape that covers the assembly like a laminate film, it is necessary to contain the dust that is sandwiched between the yoke and the magnet and the dust that is generated when both are fixed. Therefore, it is possible to prevent dust from scattering outside the assembly. In addition, this laminated film further strengthens the fixation between the yoke and the magnet, which is preferable in terms of preventing dust generation and the life of the rotating electric machine.
Further, since the coating agent described in the prior art can be prevented from interposing between the magnet and the yoke, the fixing strength between the yoke and the magnet can be secured, and the adverse effect of dust can be avoided.

Further, according to the second aspect of the invention, since electroless nickel plating is performed as the plating treatment, the plated surface can be formed smoothly. Further, in each of the inventions described in claims 3 to 9, since the corrosion-resistant plating treatment is performed, the corrosion resistance is excellent. In addition, in the inventions of claims 4, 5 and 8, the magnet of the iron-based material containing iron as a main component is a plastic magnet obtained by kneading iron-based rare earth magnetic powder with a binder resin. Manufacturing is easy.

[Brief description of drawings]

1 shows a rotating electric machine of the present invention, (A) is a longitudinal sectional view of a magnetic disk drive, (B) is an exploded sectional view of an assembly before assembly, and (C) is a sectional view of the assembly after assembly. It is a figure.

FIG. 2 is an explanatory view showing a manufacturing procedure of the rotary electric machine of the present invention.

FIG. 3 is an explanatory view showing a manufacturing procedure of a conventional rotary electric machine.

[Explanation of symbols]

 1 rotating electric machine 3 bracket 4 stator core 7 disk hub (constituting rotor side) 8 yoke 9 magnet

Claims (9)

[Claims] 1. In a rotating electric machine in which an assembly in which a yoke and a magnet are bonded together is assembled as a stator or a rotor, the yoke is a yoke made of an iron-based material, and the magnet is an iron-based material containing iron. A rotating electrical machine, comprising a magnet made of a material, and a plating film that covers the assembly is formed on the surface of the assembly. 2. The rotating electric machine according to claim 1, wherein the plated film is a film formed by electroless nickel plating. 3. One of a stator and a rotor constituting a rotating electric machine has an assembly including a yoke made of an iron-based material and a magnet made of an iron-based material containing iron as a main component. A rotating electric machine comprising a corrosion-resistant plating film formed on the surface of the assembly to cover the assembly. 4. The rotating electric machine according to claim 3, wherein the magnet of an iron-based material containing iron as a main component is a plastic magnet obtained by kneading iron-based rare earth magnetic powder with a binder resin. 5. The magnet according to claim 3, wherein the magnet is
A plastic magnet obtained by kneading Nd-Fe-B (neodymium-iron-boron) with a binder resin,
A rotating electric machine, wherein the magnetic powder of Nd-Fe-B is contained in a volume ratio of 48 to 73%. 6. One of a stator and a rotor constituting a rotating electric machine is composed of a yoke and a magnet integrated with the yoke, and the yoke and the magnet are subjected to a surface treatment before the stator and the rotor. In a method of manufacturing a rotary electric machine in which a rotor is assembled, a yoke made of an iron-based material and a magnet made of an iron-based material containing iron as a main component are prepared, and the yoke and the magnet are integrated, and then the yoke is A method of manufacturing a rotating electric machine, characterized in that the surface of a magnet is plated with corrosion resistance. 7. The yoke according to claim 6, wherein the yoke has a substantially annular shape, and the magnet has a substantially annular shape press-fitted and fixed to an inner peripheral surface of the annular yoke,
A method of manufacturing a rotary electric machine, comprising: press-fitting and fixing the magnet to the yoke, and then subjecting the surfaces of the yoke and the magnet to corrosion-resistant plating. 8. The rotating electric machine according to claim 7, wherein the magnet of an iron-based material containing iron as a main component is a plastic magnet obtained by kneading iron-based rare earth magnetic powder with a binder resin. Production method. 9. The method for manufacturing a rotary electric machine according to claim 8, wherein the plating treatment is any one of nickel plating, zinc plating, and chrome plating.