Dynamic magnetic information storage or retrieval – Record transport with head stationary during transducing – Disk record
Reexamination Certificate
2001-01-18
2002-06-18
Tupper, Robert S. (Department: 2652)
Dynamic magnetic information storage or retrieval
Record transport with head stationary during transducing
Disk record
C360S098070
Reexamination Certificate
active
06407883
ABSTRACT:
BACKGROUND OF THE INVENTION
(i) Field of the Invention
The present invention relates to a disc device aiming at a large memory capacity, particularly to a disc device with a drive system including a highly accurate bearing workable with ease.
(ii) Description of the Related Art
Ball bearings are usually used in spindle motors for information devices. Ball bearings are broadly used because of their low prices and easiness of manipulation. In a ball bearing, however, there is inevitable generation of a vibration and a noise due to a damage or a deformation on a ball or the rolling surface of the ball. Besides, the critical rotational speed is not so high.
In contrast with this, a fluid film bearing (hereinafter called FFB) can afford a far highly accurate rotation with a lower vibration by far in comparison with the ball bearing because it supports a rotating portion in a non-contact manner by an effect of a dynamic pressure generated with the rotation. The FFB therefore has a possibility to meet a high-level requirement.
As a prior art of such an FFB, Japanese Patent Unexamined Publication No. Hei 3-272318 discloses a bearing in which grooves for generating dynamic pressure are formed in a radial bearing surface opposite to a radial receiving surface of a housing and a thrust bearing surface opposite to a thrust receiving surface, and magnetic fluid seals are provided outside of two radial receiving surfaces in the axial direction.
On the other hand, Japanese Patent Unexamined Publication No. Hei 6-200939 discloses a bearing structure using a magnetic fluid as a lubricant, in which radial bearing members are provided respectively at the opening and closing portions of a housing, the end surfaces of the radial bearing members on the side of the opening portion are used as a thrust bearing, the end surfaces of the radial bearing members on the side of the closing portion are used as surfaces for preventing the radial bearing members from coming off, and members for preventing the radial bearing members from coming off are provided on the side of the thrust bearing.
In the FFB, a highly accurate rotation is possible but the bearing rigidity and the bearing load are in proportion because of a fluid dynamic pressure effect. As a result, when the bearing rigidity is increased by decreasing the gap or the width of the bearing, the bearing load increases accordingly. The bearing rigidity of the FFB is lower than that of a ball bearing having the same shaft diameter because the bearing rigidity of the FFB is generated by a dynamic pressure of a fluid. For obtaining the bearing rigidity equivalent to the ball bearing, the bearing load becomes larger 50 to 100% than that of the ball bearing.
Besides, a synthetic oil is used as the lubricating fluid in general but such a synthetic oil has a property that the viscosity varies with temperature, that is, the viscosity decreases with increase in temperature and increases with decrease in temperature. The dynamic pressure effect of a fluid is in proportion to the viscosity of the fluid. As a result, if a bearing is designed in order to ensure a sufficient bearing rigidity at a high temperature, there is a defect that the bearing load becomes very large at a low temperature. In magnetic disc devices used in a wide temperature range, the optimization of the bearing rigidity and the bearing load was a great problem in design.
Because the FFB uses a fluid for lubrication, there is another problem of the leakage of the fluid from the bearing portion. The leakage of the fluid from the bearing portion makes the reliability of the whole device lower by shortening the duration of the bearing and increasing vibrations. Besides, in a disc device, even such a very small amount of leakage as not affect on the bearing performance may cause a serious trouble if the leakage fluid adheres a disc or a head to hinder a recording or reproducing operation.
In the FFB, the performance is not satisfied unless the distance between bearings is kept very minute and highly accurate. For this reason, severe accuracy is required for processing and assembling a shaft and a bearing portion. In case of a device in which a long shaft relative to its diameter is used and a bearing is provided near an end of the shaft, it is hard to satisfy the accuracy due to a deviation of the shaft and a deformation upon assembling.
SUMMARY OF THE INVENTION
It is an object of the present invention to provide a disc device including a bearing which can be easily assembled and has a sufficient bearing rigidity.
For attaining the above object, in a disc device according to the present invention, both ends of a shaft are fixed to a housing, two bearings are provided near both ends of the shaft, and a hub on which discs are loaded is supported so as to be rotatable. A motor for driving the hub to rotate is formed outside the housing. A dust seal is provided between the motor and the housing to prevent dust from entering the housing from the exterior. The shaft is prevented from bending by fixing both ends of the shaft. Vibrations of a disc can be decreased without increasing the bearing rigidity, that is, the bearing load.
Because the motor with the greatest generation of heat is disposed outside the housing, increase in temperature of the bearing portion is restrained and so decrease in bearing rigidity due to decrease in viscosity with increase in temperature of a lubricating fluid becomes small.
A magnetic fluid is used as the lubricating fluid and permanent magnets are disposed at both axial ends of the bearing magnetically to keep the magnetic fluid in the bearing portion. The lubricating fluid is thereby completely prevented from leaking out of the bearing portion.
The above-described construction becomes difficult to assemble in case of a long shaft. In that case, the shaft is divided into two parts and the bearing and the seal portion are united. One bearing unit and one shaft are assembled and then the other bearing unit and the other shaft are assembled. After then, two shafts are joined. As a result, a disc device with good reliability against leakage of a lubricating fluid and good accuracy in assembling can be realized even in case of the device with a long shaft.
REFERENCES:
patent: 5448120 (1995-09-01), Schaule et al.
patent: 5617272 (1997-04-01), MacLeod et al.
patent: 5619389 (1997-04-01), Dunfield et al.
patent: 6195224 (2001-02-01), Kohno et al.
Kohno Takashi
Tomida Kenji
Antonelli, Terry, Stout & kraus, LLP
Hitachi , Ltd.
Tupper Robert S.
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