KR100462220B1 - Disc clamping device - Google Patents

Abstract

end. The technical field to which the invention described in the claims belongs:

It is a technology related to hard disk drives.

I. The technical problem the invention is trying to solve:

Provided is a disk clamping device for minimizing plastic deformation of a clamp when screwing for disk clamping.

All. The gist of the solution of the invention:

In the present invention, by increasing the thickness of the clamp as much as possible from a limited height to have a minimum plastic deformation during assembly of the clamp to prevent local deformation of the disk.

la. Important uses of the invention:

Disk Clamping on Hard Disk Drives

Description

Disc clamping device

The present invention relates to a hard disk drive, and more particularly to a disk clamping device for fastening a disk.

An example of the configuration of a hard disk drive widely used as a computer auxiliary memory device is shown in FIG. 1. Referring to FIG. 1, a magnetic head for recording or reading data on disks 20 that rotate at high speed by a spindle motor 30 installed in a body base 10 and a track of the disks 20. Actuator 40 with 42 (magnetic head) is provided. The actuator 40 is rotatably installed around the pivot shaft 43, and the bobbin installed at one end is moved to the other side as the bobbin installed at one end moves by the operation of the voice coil motor 50 (VCM). The magnetic head 42 installed in the module records or reads data in the track on the desired disk while moving in the radial direction on the disks 20. At this time, the magnetic head 42 installed at the distal end of the head gimbal 44, which is extended from the actuator arm, is lifted by the airflow of the disk surface as the disks 20 rotate at a high speed, so as to maintain a small gap with the disk surface do.

When the hard disk drive is stopped or powered off during operation, the actuator 40 is parked by moving to the parking zone 22 located in the inner circumference of the disk. In parking, the actuator 40 is fixed by a latching device. This is to prevent the magnetic head 42 from invading the data zone 24 of the disk and damaging the recorded data, and also to prevent the magnetic head 42 from being damaged and scratching the disk. At power on, the actuator 20 overcomes the latched force and moves the magnetic head 42 to the data zone 24. The operating hard disk drive includes a flexible printed circuit cable 60 for supplying current and receiving a signal to a coil located at one end of the magnetic head 42 and the actuator 40. The circuit cable 60 is connected to a printed circuit board having various electronic circuits for controlling the hard disk drive.

FIG. 2 is an exploded perspective view illustrating a disk clamping device in the hard disk drive of FIG. 1. A plurality of fastening grooves 80 are formed in the axial direction on the hub 82 of the spindle motor 30 for rotating the disks 20. When the disk is fastened, each disk 70, 71 is seated on the hub 82, wherein there is a spacer 72 that serves to maintain the gap between the disks 70, 71. After the disks 20 are seated, the disks 20 are fixed by fastening the screws 78 to the plurality of fastening holes 76 formed axially in the clamp 74.

The structure of clamp 74 and screw 78 of FIG. 2 according to the prior art is shown in cross section in FIG. 3. Looking at such a conventional clamp 74, all the outermost parts of the clamp 74 are raised up and down compared with the inner peripheral surface. That is, when viewed in a cross-sectional view as shown in Figure 3, it is shaped like a dumbbell (dumbell) which is a gymnastic apparatus. In the structure of the screws 78 screwed through the fastening holes 76 of the clamp 74, the head of the screw 78 protrudes from the upper surface of the clamp 64.

The clamping device structure, as shown in FIG. 3, causes the clamp 74 to undergo plastic deformation when the force is applied to the clamp 74 using the screw 78, thereby failing to transfer the desired amount of force to the disks 71, 70. Therefore, when using several screws 78, the flatness of the disks 71 and 70 becomes worse because the screws 78 do not apply uniform force to the disks 71 and 70 due to the plastic deformation of the clamp 74, respectively. In addition, such plastic deformation weakens the clamping force, which causes a disk slip even with a slight impact, thereby weakening the impact characteristic.

It is therefore an object of the present invention to provide a disk clamping device which applies a uniform load to the disk.

Another object of the present invention is to provide a disk clamping device for minimizing plastic deformation of a clamp when screwing for disk clamping.

In accordance with the above object, the present invention relates to a disk clamping device of a hard disk drive, wherein the clamp is flattened and the clamp upper surface is maximized so as to maximize the clamp thickness defined for minimum plastic deformation of the clamp when assembling the disk clamp. After the chamfer (chamfer) is processed in the screw fastening holes arranged in the inside, characterized in that for fixing the disk by using a screw suitable for the shape of the chamfer.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be noted that the same elements in the figures are denoted by the same numerals wherever possible. In addition, detailed descriptions of well-known functions and configurations that may unnecessarily obscure the subject matter of the present invention will be omitted.

4 is a cross-sectional view showing the structure of the clamp 80 and the screw 82 according to an embodiment of the present invention. In the present invention, as shown in FIG. 4, the clamp 80 is maximized at a defined clamp thickness in order to have a minimum plastic deformation during assembly. To do this, flatten the top of the clamp 80. By increasing the thickness of the clamp 80, the rigidity of the clamp 80 is increased, thereby minimizing the plastic deformation of the clamp 80. A chamfer is then machined into each of the plurality of screw fastening holes (76 in FIG. 2) arranged in the clamp 80, and the disk is secured using screws 82 that match the shape of the chamfer.

Among the structures of the clamp 80 and the screw 82, first, the structure of the clamp 80 will be described in detail. The upper surface of the clamp 80 is horizontal, unlike the prior art, and the outer surface of the clamp 80 is raised as in the prior art. Next, when the structure of the screw 82 will be described in detail, it can be seen that the lower portion of the screw head is processed in accordance with the shape of the chamfer, the upper surface of the screw head is processed flat. The screw head coincides with the upper horizontal plane of the clamp 82 when fully inserted into the screwing hole of the clamp 80. The structure as described above has a thicker clamp than the prior art, so that the plastic deformation of the clamp can be reduced to a minimum when the disk is fastened with screws, so that a uniform load can be applied to the disk.

In the above description of the present invention, specific embodiments have been described, but various modifications can be made without departing from the scope of the present invention. Therefore, the scope of the present invention should not be defined by the described embodiments, but should be defined by the equivalent of claims and claims.

As described above, according to the present invention, the clamp structure is thickened, so that plastic deformation of the clamp can be minimized when assembling the screw, thereby applying a uniform load to the disk.

1 is a perspective view illustrating an example of a configuration of a hard disk drive;

FIG. 2 is an exploded perspective view illustrating a disk clamping device in the hard disk drive of FIG. 1;

3 is a cross-sectional view showing a conventional clamp and screw structure,

Figure 4 is a cross-sectional view showing the clamp and screw structure according to an embodiment of the present invention.

Claims (1)

In the disk clamping device of a hard disk drive, When assembling the disc clamp, flatten the upper surface of the clamp to maximize the clamp thickness defined for the minimum plastic deformation of the clamp, and process a chamfer in the screwing holes arranged in the clamp, and then Disc clamping device characterized in that the disk is fixed by using a screw that fits the shape.

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