JPH0548291Y2 - - Google Patents

Description

[Detailed Description of the Invention] [Industrial Application Field] The present invention relates to a direct drive motor for a disk device.

[Conventional technology]

The spindle motor of conventional disk devices is
The structure is as shown in FIG. 3, which is a sectional view of a spindle motor of a conventional disk device. At one end of the spindle 1 is a disk-shaped flexible magnetic medium (hereinafter referred to as a flexible disk) housed in a plastic jacket 2.
A hub stand 5 for adsorbing and rotationally driving a chucking hub 4 provided at 3 is fixed.

The rotational motion of the spindle 1 is held by a ball bearing 6 and a metal bearing 7, and movement in the thrust direction is regulated by the attraction force of a rotor magnet 8 and the ball bearing 6.

Further, the ball bearing 6 and the metal bearing 7 are held by a housing 9, and the housing 9 is fixed to a frame 10 of the iron disk device by means such as caulking.

On the other hand, the rotor magnet 8 is adhesively fixed to the rotor yoke 11.
is fixed to the hub stand 5 by caulking.

The magnetic flux generated from the rotor magnet 8 passes through a resin motor board 12 placed opposite the rotor magnet 8, and a plurality of motor coils 13 adhesively fixed to the motor board 12, and then is attached to the frame. Reach 10. The frame 10 is made of an iron plate and constitutes a magnetic circuit.

[Problem that the invention attempts to solve]

However, in the prior art described above, the frame 10 serves as a magnetic circuit for the rotor magnet 8.
Due to the change in magnetic flux caused by the rotation of the rotor magnet 8, an overcurrent flows through the frame 10, resulting in an increase in current consumption and a decrease in motor efficiency. Also, rotor magnet 8 and
Since the motor coil 13 and the motor board 12 are disposed between the frame 10, the distance between the rotor magnet 8 and the frame 10, that is, the air gap increases, resulting in a problem that the motor torque decreases and the flexible disk 3 cannot be driven. had. Furthermore, since the motor board 12 is made of resin, the rotor magnet 8 and the motor board 12 may become scratched due to heat generated by the motor coil 13 and bending or warping due to the temperature environment. Therefore, the present invention is intended to solve these problems, and its purpose is to improve motor efficiency, increase motor torque, prevent motor board warping, and provide a stable motor. .

[Means to solve the problem]

A spindle motor for a disk device according to the present invention includes a spindle, a hub stand attached to the spindle for mounting a disk, and a rotor provided for rotating the spindle.
A rotor magnet fixed to the rotor, a motor coil provided with a gap from the rotor magnet, and a magnetic material having high electrical resistance such as a silicon steel plate, and the motor coil is fixed. The present invention is characterized in that it has a motor board made of a magnetic material, and a frame on which the motor boards are laminated.

[Effect]

According to the above configuration of the present invention, the magnetic plate facing the rotor magnet has a laminated structure of two sheets, so that the material of the frame and the material of the motor board can be changed, for example, It is now possible to select a material with high electrical resistance, such as a silicon iron plate, for the motor board, and losses due to overcurrent can be reduced. Note that providing a slit in the motor board also has the same effect. Furthermore, by laminating the frame and motor board, even if a thin motor board is used, it will not bend or warp because it will be guided by the rigid frame. Furthermore, if the motor board is made of magnetic material, the distance between the magnetic plates facing the rotor magnet, that is,
This has the same effect as reducing the air gap, and also leads to an increase in motor torque.

[Example] Hereinafter, an example of the present invention will be described based on the drawings.

FIG. 1 is a sectional view of a spindle motor of a disk device according to the present invention.

A hub stand 25 similar to that shown in FIG. 3 is fixed to one end of the spindle 21, and a rotor yoke 31 is fixed to the hub stand 25 by caulking. Furthermore, a rotor magnet 28 is adhesively fixed to the rotor yoke 31, and at a position facing the rotor magnet 28, a motor board 32 made of a magnetic material that also functions as a magnetic plate, and a main body of the disk device are mounted. A frame 30 made of a magnetic material such as an iron plate is disposed, and a plurality of motor coils 33 are adhesively fixed onto the motor board 32.

In order to maintain the rotational motion of the spindle 1, a ball bearing 26 and a metal bearing 27 are mounted on the housing 2.
9, and the housing 29 is fixed by caulking with the motor board 32 and frame 30 sandwiched therebetween.

In the above configuration of the present invention, the magnetic flux generated from the rotor magnet 28 passes through the motor coil 33 and reaches the motor board 32. Since the motor board 32 is made of magnetic material, it becomes a magnetic circuit, and the distance between the rotor magnet 28 and the motor board 32, that is, the air gap, can be reduced, and the magnetic flux generated from the rotor magnet 28 increases, increasing the motor torque. can be increased.

Furthermore, by constructing the motor board 32 from a material with high electrical resistance, such as a silicon steel plate, it is possible to reduce the overcurrent generated on the surface of the magnetic plate when the rotor magnet 28 rotates.
It can reduce motor current consumption and increase motor efficiency. Furthermore, in this embodiment, the motor board 32 is attached to the frame 30 by a plurality of screws 34.
The motor board is fixed with screws and caulked with the housing 29 to prevent the motor board from warping or bending. As described above, it is possible to prevent the rotor magnet 28 and the coil 33 from being scratched, and to configure a motor with good productivity.

It goes without saying that the lamination of the motor board 32 and the frame 30 is more effective against bending and warping by using the screw caulking method shown in this embodiment and the combined use of an adhesive.

Figure 2 shows the shape of the motor board according to the present invention in order to further reduce loss due to overcurrent.The rotor magnet and rotor yoke motor coil are removed from the motor in Figure 1, and the motor board is FIG. 2 is a plan view of the motor board according to the present invention, as viewed from a plane direction.

In FIG. 2, a large number of slits 32a are provided in the motor board 32 at positions facing the rotor magnet, and the overcurrent generated on the surface of the motor board 32 by the rotation of the rotor magnet is absorbed by the slits 32a. It is possible to reduce losses extremely.

[Effect of idea]

As described above, according to the present invention, the motor board is made of a magnetic material with high electrical resistance such as a silicon steel plate, thereby preventing the generation of eddy current on the motor board due to the rotation of the rotor. In addition to reducing the motor loss caused by this, by configuring the motor board to be laminated on a frame made of magnetic material, the magnetic circuit is less likely to be magnetically saturated and has reduced leakage magnetic flux. Since a strong magnetic force can be applied to the coil, a motor with stable rotational torque can be provided.

[Brief explanation of the drawing]

FIG. 1 is a sectional view of the spindle motor of the disk device according to the present invention. FIG. 2 is a plan view of the motor board according to the present invention. FIG. 3 is a sectional view of the spindle motor of a conventional disk device. 21... Spindle, 25... Hub stand, 26...
...Ball bearing, 27...Metal bearing, 28
...Rotor magnet, 29...Housing,
30...Frame, 31...Rotor yoke, 3
2...Motor board, 33...Motor coil.

Claims (1)

[Scope of utility model registration request] A spindle, a hub stand attached to the spindle for mounting a disk, a rotor provided for rotating the spindle, a rotor magnet fixed to the rotor, and a gap between the rotor magnet and the space. a motor coil provided with A spindle motor for a disk device, characterized in that it has a laminated frame.