JPH0814403A - Magnetic fluid seal device - Google Patents

Abstract

PURPOSE:To prevent a magnetic fluid from leaking to outside in good workmanship even under severer service conditions, for example with external-shocks, use in reversals in rotation, etc. CONSTITUTION:Even in case any reason has caused separation of a magnetic fluid 134c from a magnetic pole piece 134b of a magnetic fluid seal 134, the magnetic fluid 134c is hitched at a leak preventive cover 135 and captured by making the setting so that the clearance A of the cover 135 is smaller than the particle sizes of the leaking magnetic fltzid 134c corresponding to the clearance B of the magnetic pole piece 134b.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a magnetic fluid seal device for sealing between a rotary member and a fixed member.

[0002]

2. Description of the Related Art In recent years, a magnetic fluid seal device for sealing between a rotating member and a fixed member is being adopted in a motor or the like, for example, Japanese Patent Laid-Open No. 61-290274.
Various structures have been proposed in Japanese Patent Application No. 1-6075, Japanese Patent Application Laid-Open No. 3-222150, Japanese Patent Application No. 5-277701, and the like. This magnetic fluid sealing device is disposed between a shaft 1 and a frame 2 which are configured to be relatively rotatable and movable, as shown in FIG. 4, for example. The space is sealed by the magnetic fluid seal 3.

The magnetic fluid seal 3 shown in FIG. 4 has an annular magnet body 3a fixed to the frame 2 side and a pair of magnetic pole pieces (pole pieces) attached to both axial end surfaces of the annular magnet body 3a. 3b, 3b. The ring-shaped magnet body 3a is magnetized in the axial direction, and the magnetic pole pieces 3b, 3b are provided so as to project from the ring-shaped magnet body 3a toward the center of the shaft. It is arranged so as to have a predetermined clearance. Then, by the annular magnet body 3a, the magnetic pole piece 3b is formed.
A leakage magnetic flux is formed in the clearance, and the magnetic fluids 3c and 3c are held along the leakage magnetic flux.

Further, a leakage prevention cover 4 for preventing the magnetic fluid 3c from leaking outside is disposed in the axially outer side (upper side in the drawing) of the magnetic fluids 3c, 3c, that is, in the leakage passage of the magnetic fluid 3c. . This leak prevention cover 4
Is mounted on the magnetic pole piece 3b on the outer side (upper side in the drawing), protrudes toward the center of the shaft, and faces the outer peripheral surface of the shaft 1 with a predetermined clearance, like the above-mentioned magnetic pole piece 3b. It is arranged.

[0005]

However, the magnetic fluid seal 3 described above is vulnerable to an impact from the outside, and the impact may cause the magnetic fluid 3c to separate from the magnetic pole piece 3b and leak to the outside. In particular, when used upside down or at different positions, external leakage may occur through the clearance of the leak prevention cover 4.

Therefore, it is an object of the present invention to provide a magnetic fluid seal device capable of excellently preventing the magnetic fluid from leaking to the outside under various operating conditions.

[0007]

To achieve the above object, the present invention provides a magnetic pole piece attached to one side of a rotating member and a fixed member and arranged with a predetermined clearance with respect to the other side, and the magnetic pole piece. Magnetic fluid seal provided with a magnetic fluid held so as to seal the predetermined clearance in the above, and a leakage prevention cover provided in a leakage passage of the magnetic fluid so as to prevent external leakage of the magnetic fluid. In the apparatus, the leak prevention cover has a predetermined clearance A with respect to the other side of the rotating member and the fixed member.
And the clearance A in the leakage prevention cover is set smaller than the clearance B in the magnetic pole piece.

[0008]

In the means having the above construction, since the oil droplet diameter of the magnetic fluid separated from the magnetic pole piece of the magnetic fluid seal corresponds to the clearance of the magnetic pole piece, the clearance of the leakage prevention cover is set to the clearance of the magnetic pole piece. By setting it smaller, the magnetic fluid is favorably captured by the leakage prevention cover, and the external leakage of the magnetic fluid is effectively blocked.

[0009]

Embodiments of the present invention will now be described in detail with reference to the drawings. First, a structural example of a shaft-fixed HDD spindle motor using the magnetic fluid sealing device according to the present invention will be described.

The fixed shaft type HDD spindle motor shown in FIG. 2 has a stator set 12 as a fixing member assembled on the frame 11 side, and the stator set 12 is assembled from the upper side in the figure in a laminated manner. And a rotor set 13 as a rotating member. Of these, the stator core 121 that constitutes the stator set 12 is
It is positioned and installed at a predetermined position of the frame 11, and the winding 122 is wound around the salient pole portion of the stator core 121.

A fixed shaft 123 is vertically provided in the center of the frame 11 toward the upper side in the figure, and a pair of radial ball bearings 124, 124 fixed to the outer periphery of the fixed shaft 123 are provided. The hub 131 that constitutes the rotor set 13 is rotatably supported via the above. The hub 131 has a substantially cylindrical body 131a for mounting a plurality of magnetic disks D on the outer peripheral portion, and
The mounting portion 13 provided on the lower end edge of the body 131a in the figure
1b to the drive magnet 1 via the back yoke 132.
33 is mounted in a ring shape. The drive magnet 13
3 is arranged so as to face the outer peripheral end surface of the stator core 121 in an annular shape.

The both radial ball bearings 124, 124 are
The inner ring side is fixed to the outer circumference of the fixed shaft 123, and the outer ring side is fixed to the inner circumference side of the hub 131. A spacer 131c protruding from the inner peripheral wall of the hub 131 is interposed between the axial portions of the outer rings of the radial ball bearings 124, 124 so that the radial ball bearings 124, 124 are axially aligned with each other. It is kept to be isolated for a certain period of time. Further, a retaining ring 125 made of an annular magnetic material is fixed to the tip portion (upper end portion in the drawing) of the fixed shaft 123, so that the radial ball bearing 124 on the tip side is positioned by the retaining ring 125. It is configured.

The retaining ring 125 is made of a predetermined magnetic material, and prevents the oily fluid used in the above-mentioned radial ball bearings 124, 124 from flowing out on the outer peripheral side of the retaining ring 125. A magnetic fluid seal 134 is arranged. This magnetic fluid seal 134
Has a magnet body 134a annularly attached to the inner peripheral wall of the hub 131.
On both axial end faces of the pair of pole pieces 13
4b and 134b are attached. The inner peripheral edge of each of the magnetic pole pieces 134b and the retaining ring 125 are
The magnetic fluid 134c is held between the magnetic fluid 134c and the outer peripheral surface of the bearing, and the magnetic fluid 134c is configured to obtain a sealing function for the bearing fluid.

In particular, as shown in FIG. 1, the annular magnet body 134a is magnetized in the axial direction and
The magnetic pole pieces 134b and 134b are provided so as to project from the annular magnet body 134a toward the axial center side.
The fixed shaft 123 is arranged so as to face the outer peripheral surface of the fixed shaft 123 with a predetermined clearance B. Then, by the annular magnet body 134a, through the magnetic pole pieces 134b, 134b,
A leakage magnetic flux is formed in the predetermined clearance B, and the magnetic fluids 134c and 134c are held along the leakage magnetic flux.

A leakage prevention cover 135 for covering the magnetic fluid 134c from the outside to prevent external leakage is arranged in the leakage passage of the magnetic fluids 134c, 134c, that is, in the axially outer side (upper side in the drawing). The leak prevention cover 135 is mounted on an outer (upper side in the figure) magnetic pole piece 134b and is bent at a substantially right angle so as to be separated from the magnetic pole piece 134b. Then, from the bent portion, it projects toward the axis center substantially in parallel with the magnetic pole piece 134b and is arranged to face the outer peripheral surface of the fixed shaft 123 with a predetermined clearance A.

The clearance A of the leakage prevention cover 135 is set to be smaller than the clearance B of the magnetic pole piece 134b (A <B). That is, the clearance A of the leak prevention cover 135 is formed to be smaller than the oil drop diameter of the leaked magnetic fluid determined by the clearance B of the magnetic pole piece 134b.

Further, the leaked magnetic fluid 134c is provided in the space between the leakage prevention cover 135 and the magnetic pole piece 134b.
An oil absorbing sheet 136 for absorbing the oil is attached. The oil absorbing sheet 136 is made of a cloth having a predetermined fiber structure and has an oily fluid absorbing function and an adhesive function. More specifically, it is composed of an absorbent layer having an oily fluid absorbing function and an adhesive layer having an adhesive function, and the adhesive layer (adhesive layer) is adhered to the absorbent layer by coating or the like. . At this time, for example, a non-woven fabric or the like is adopted as the absorption layer in order to increase the absorption amount, and a sheet-shaped or non-woven fabric or the like is adopted as the adhesive layer.

Further, the melting point of the above-mentioned adhesive layer is set lower than the melting point of the absorption layer. As a concrete material, for example, polypropylene, polyethylene, polystyrene, nylon, vinyl chloride resin or the like is used as the material of the absorption layer. In addition, as the material of the adhesive layer when the material of the absorption layer is polypropylene, for example, polyethylene,
Nylon 11, polyurethane resin or the like is used.

On the other hand, an oil repellent coating 13 is formed on the outer side (upper side in the figure) of the portion where the magnetic fluid 134c is arranged, that is, on the wall surface of the leakage passage of the magnetic fluid 134c.
7 and 126 are applied by coating.
More specifically, the outer (upper side in the figure) surface of the pole piece 134b, the inner (lower side in the figure) surface of the leakage prevention cover 135, and the outer peripheral surface of the fixed shaft 123 are coated with an oil repellent film made of, for example, Teflon resin. Has been formed.

As described above, in this embodiment, the leakage magnetic fluid 134 in which the clearance A of the leakage prevention cover 135 is determined corresponding to the clearance B of the magnetic pole piece 134b.
It is set to be smaller than the oil droplet diameter of c, and the magnetic fluid seal 13
Even if the magnetic fluid 134c is detached from the fourth magnetic pole piece 134b, the magnetic fluid 134c that is about to leak to the outside is caught by the leakage prevention cover 135 and captured. Therefore, the leakage prevention cover 135 effectively prevents the magnetic fluid 134c from leaking to the outside.

Particularly in this embodiment, the magnetic fluid 134 is used.
Since the oil repellent coatings 136 and 126 are formed on the wall surface of the leak passage of c, the leaked magnetic fluid 134c is converted into particulate oil droplets by the oil repellent coatings 136 and 126.
The catching action by the leak prevention cover 135 described above is surely performed.

Further, in this embodiment, since the oil absorbing sheet 136 is arranged in the leak passage of the magnetic fluid 134c, the leaked magnetic fluid 134c is captured by the leak prevention cover 135 as described above. Thus, the oil absorbing member 136 is also captured, and the leakage of the magnetic fluid 134c to the outside is more reliably prevented.

Further, in the second embodiment according to FIG. 3 in which the components corresponding to the above-mentioned first embodiment are represented by the same reference numerals, the magnetic fluid seal 134 is directly arranged on the fixed shaft 123. An oil absorbing sheet 138 for absorbing the magnetic fluid 134c leaked to the outside is attached over the entire inner surface (lower surface in the drawing) of the leak prevention cover 135 so as to be separated from the magnetic pole piece 134b. The same oil absorbing member 138 as that used in the first embodiment is used. The same action and effect can be obtained by the second embodiment as well.

Although the invention made by the present inventor has been specifically described based on the embodiments, the invention is not limited to the above embodiments, and various modifications can be made without departing from the scope of the invention. Needless to say.

For example, the magnetic fluid seal and the leakage prevention cover according to the present invention are not limited to those attached to the fixed member side as in the above-mentioned embodiments, but can be similarly fixed to the rotary member side. At this time, the magnetic fluid seal can be attached to one side of the rotary member and the fixed member, and the leak prevention cover can be attached to the other side of the rotary member and the fixed member.

Further, the present invention can be similarly applied to all magnetic fluid sealing devices used other than motors.

[0027]

As described above, in the magnetic fluid seal device according to the present invention, even if the magnetic fluid is separated from the magnetic pole piece of the magnetic fluid seal for some reason, the leakage magnetic property corresponding to the clearance of the magnetic pole piece is eliminated. By setting the clearance of the leak prevention cover to be smaller than the oil drop diameter of the fluid, the magnetic fluid that is about to leak outside is caught by the leak prevention cover and captured. Even under various usage conditions such as usage, the magnetic fluid can be effectively prevented from leaking to the outside, and the reliability of the device can be improved.

[Brief description of drawings]

FIG. 1 is a half cross-sectional explanatory view showing the structure of a magnetic fluid seal device according to an embodiment of the present invention.

FIG. 2 is an H having the magnetic fluid sealing device shown in FIG.
It is a semi-transverse cross section explanatory view showing the constructional example of the DD motor.

FIG. 3 is a half cross-sectional explanatory view showing the structure of a magnetic fluid seal device according to another embodiment of the present invention.

FIG. 4 is a half cross-sectional explanatory view showing the structure of a conventional magnetic fluid seal device.

[Explanation of symbols]

 134 Magnetic fluid seal 134b Magnetic pole piece 134c Magnetic fluid 135 Leak prevention cover A Leak prevention cover clearance B Magnetic pole piece clearance

Claims (3)

[Claims] 1. A magnetic pole piece attached to one side of a rotating member and a fixed member and arranged with a predetermined clearance with respect to the other side, and held so as to seal the predetermined clearance in the magnetic pole piece. In a magnetic fluid seal device comprising a magnetic fluid and a leakage prevention cover provided in a leakage passage of the magnetic fluid so as to prevent the leakage of the magnetic fluid to the outside, the leakage prevention cover comprises the rotating member and a fixed member. The clearance A is arranged on the one side or the other side of the member with a predetermined clearance A,
Is set to be smaller than the clearance B in the magnetic pole piece. 2. The magnetic fluid seal device according to claim 1, wherein the leakage passage of the magnetic fluid is coated with an oil repellent film. 3. The magnetic fluid sealing device according to claim 1 or 2, wherein an oil absorbing member for absorbing the magnetic fluid is provided in the leakage passage of the magnetic fluid.