KR20120103242A - Hard disk drive - Google Patents

Abstract

PURPOSE: A hard disk drive is provided to prevent a rule form factor of a hard disk drive and to increase the quality of a hard disk drive. CONSTITUTION: A plurality of components related to reading and writing of data is assembled to a base(120). A cover(140) is assembled in one side of the base. The cover forms a sealed space. A liquid gasket is spread in an area where the cover and the base contact. The liquid gasket maintains airtight between the base and the cover.

Description

Hard Disk Drive {HARD DISK DRIVE}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a hard disk drive, and more particularly, to deviate from a prescribed form factor of a hard disk drive or to a sealing problem when assembling a cover to a base using a liquid gasket. The present invention relates to a hard disk drive that can be prevented from becoming hard and can improve the quality of the hard disk drive.

A hard disk drive (HDD), which is one of information storage devices of a variety of electronic products, including a computer, is a device that reproduces data stored in a disk or records data on a disk using a read / write head. .

The magnetic head reads or writes data while being moved to a desired position by the actuator arm in a state of being raised to a predetermined height from the recording surface of the rotating disk.

On the other hand, in the hard disk drive, including the aforementioned disk and magnetic head, a spindle motor for rotating the disk, a head stack assembly (HSA) in which the actuator arms are assembled in one assembly form, and the magnetic head is parked. Various parts, such as ramps, are mounted in the base.

A cover is tightly assembled on the top of the base to protect components mounted in the base from external impacts and also to prevent foreign material from entering from the outside.

The cover is typically assembled to the base by a number of screws, and a gasket is interposed between the cover and the base to improve the adhesion performance with the base.

The type of gasket that is interposed between the cover and the base includes a solid gasket made of rubber or silicone, and a gel-like liquid substance is squeezed (hardened) like a toothpaste on the edge surface of the cover in contact with the base. There is a liquid gasket used.

However, unlike the solid state gaskets, which are manufactured in advance in a predetermined shape, the liquid gaskets are applied to the edge surface of the cover continuously and then hardened. Therefore, the initial application position and the liquid gaskets to which the liquid gaskets are initially applied are completed. At the final application position, the liquid gaskets must be overlapped, which makes it difficult to manage the overall uniform liquid gasket.

When the liquid gaskets are overlapped in this way, the application amount of the liquid gasket, in particular, the protrusion height to the cover, is larger than other areas in which the liquid gaskets are not overlapped. Deformation or poor sealing can cause the hard disk drive to fall out of the prescribed form factor, and in extreme cases, due to sealing problems, external contaminated air enters the interior of the base. Since a poor quality such as a malfunction of the hard disk drive may be caused, an alternative is required.

An object of the present invention is to improve the quality of a hard disk drive by preventing the problem of sealing off the prescribed form factor or sealing of the hard disk drive when assembling the cover to the base using the liquid gasket. To provide a hard disk drive that can be planned.

According to an aspect of the present invention, a base for assembling a plurality of components related to reading and writing of data; A cover assembled to one side of the base to form a sealed space together with the base; And a liquid gasket applied to an area where the base and the cover are in contact with each other to keep an airtight between the base and the cover, wherein any one of the base and the cover includes an overlapping coating part in which the liquid gasket is overlapped. A hard disk drive may be provided in which a gasket pocket is formed in which the overlapped coating part is partially accommodated.

The gasket pocket may be substantially equal to the protrusion height of the overlapping coating part in which the liquid gasket is applied in two layers with respect to the protrusion height of the cover of the liquid gasket in which the liquid gasket is applied in one layer. The cover may be formed to be recessed.

The liquid gasket may be continuously applied along the circumferential direction of the inner surface edge of the cover in contact with the base, the gasket pocket is the initial application position where the liquid gasket is initially applied, and the final application of the liquid gasket is completed It may be formed to be recessed in the cover corresponding to the application position.

A cover groove for applying a gasket to which the liquid gasket is applied may be further formed at an inner surface edge of the cover.

The gasket pocket may be recessed in a region deeper than another region in one region of the gasket applying cover groove.

The cover may include a first unit cover which is assembled to be in contact with the base; And a second unit cover folded and assembled to the first unit cover.

The gasket pocket may be provided in the first unit cover.

The gasket pocket may be substantially equal to the protrusion height of the overlapping coating part in which the liquid gasket is applied in two layers with respect to the protrusion height of the liquid gasket in which the liquid gasket is applied in one layer. It may be formed to be recessed in the base so that.

The liquid gasket may be continuously applied along a circumferential edge of the upper surface of the base in contact with the cover, and the gasket pocket may be an initial application position at which the liquid gasket is initially applied, and a final application of the liquid gasket may be completed. It may be formed to be recessed in the base corresponding to the application position.

A gasket applying base groove to which the liquid gasket is applied may be further formed at an upper edge of the base.

The gasket pocket may be recessed in a region deeper than another region in one region of the gasket applying base groove.

The liquid gasket may be Form In Position Gasket (FIPG).

According to the present invention, the assembly of the cover to the base using the liquid gasket prevents the hard disk drive from coming out of the prescribed form factor or sealing problems, thereby improving the quality of the hard disk drive. We can plan.

1 is an exploded perspective view of a hard disk drive according to a first embodiment of the present invention.
2 is a rear perspective view of the cover before applying the liquid gasket.
3 is a rear perspective view of the cover after applying the liquid gasket.
Fig. 4 is a plan view of Fig. 3. Fig.
FIG. 5 is a schematic cross-sectional view taken along the line VV of FIG. 4.
6 is a schematic assembly cross-sectional view between the cover and the base.
7 is a plan view of a cover in a hard disk drive according to a second embodiment of the present invention.
8A and 8B are schematic cross-sectional structural views taken along line AA and line BB of FIG. 7, respectively.
9 is a view schematically illustrating a process of assembling a cover to a base in a hard disk drive according to a third embodiment of the present invention.
10 is a view schematically illustrating a process of assembling a cover to a base in a hard disk drive according to a fourth embodiment of the present invention.

In order to fully understand the present invention, operational advantages of the present invention, and objects achieved by the practice of the present invention, reference should be made to the accompanying drawings and the accompanying drawings which illustrate preferred embodiments of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Like reference symbols in the drawings denote like elements.

1 is an exploded perspective view of a hard disk drive according to a first embodiment of the present invention.

Referring to this figure, the hard disk drive according to the present embodiment, the base 120 and the cover 140, which is assembled to one side of the base 120 to form an inner sealed space together with the base 120, cover) and a liquid gasket 170 (refer to FIG. 6) which is applied to a region where the base 120 and the cover 140 are in contact with each other to maintain an airtightness between the base 120 and the cover 140.

The base 120 includes a plurality of components related to reading and writing of data, for example, a disk 122 for recording and storing data and a central area of the disk 122. The spindle motor 123 coupled to rotate the disk 122, the head stack assembly 130 moving relative to the disk 122, and the rotation of the disk 122 are stopped. It is a place where components such as a ramp for the magnetic head parking 160, in which a magnetic head (Read / Write head, not shown) is parked, are mounted.

The base 120 may be made of stainless steel or aluminum (Al).

For reference, in the present embodiment, a bowl type base 120 mounted therein is applied in a form in which the aforementioned components are accommodated. However, the scope of the present invention may also be applied to a so-called flat type base (not shown) in which parts are mounted on the upper surface.

Referring to the components mounted in the base 120, first, the disk 122 is a disk-shaped media in which data is recorded and stored. One disk 122 may be used, or two or more disks 122 may be used. As the number of disks 122 is used, the storage capacity of the data increases.

The spindle motor 123 rotates the disk 122 and is coupled to the central region of the disk 122 to rotate the disk 122 while supporting the disk 122 so as not to be eccentric.

Head stack assembly 130 is a carrier for recording data on or reading data from disk 122.

This head stack assembly 130 pivots on a magnetic head (not shown) for writing data to or reading data from the disk 122 and for allowing the magnetic head to access data on the disk 122. An actuator arm 133 pivoting on the disc 122 with the shaft 131 as a shaft, and a pivot shaft holder 134 rotatably supporting the pivot shaft 131 and supported by an actuator arm 133. Equipped.

In the opposite direction of the actuator arm 133, a voice coil motor 125 is provided. The voice coil motor 125 is a type of drive motor that rotates the actuator arm 133 to move the magnetic head to a desired position on the disk 122. The left coil of Fleming, that is, a force when a current flows through a conductor in a magnetic field This is the principle that occurs, by applying a current to the VCM coil located between the magnet to force the bobbin to rotate the bobbin. In this way, the actuator arm 133 extending in the opposite direction to the bobbin in the pivot shaft holder 134 is rotated so that the magnetic head supported at its end moves in a radial direction on the rotating disk 122 to search and access the track. This will signal the accessed information.

At one end of the actuator arm 133, a suspension 136 is provided to support a slider (not shown) on which the magnetic head is mounted to be elastically biased toward the surface of the disk 122.

The slider is supported by the suspension 136. At the end of the suspension 136 is provided an end tap 138 extending from the end of the suspension 136 and substantially parking the magnetic head as supported by the magnetic head parking ramp 160.

In FIG. 1, an end tab 138 is applied as a canoe type, but the scope of the present invention is not limited thereto. That is, it is sufficient if the end tab 138 can be supported in contact with the magnetic head parking lamp 160 with a rod shape or with a constant contact surface even if it is not a canoe type.

Accordingly, when the magnetic head is disposed on the disk 122 and the applied power is turned off in the process of reading data, the rotation of the disk 122 is stopped, and the magnetic head is moved to the lamp 160 to end The magnetic head is parked by the tab 138 being in contact with the magnetic head parking lamp 160. That is, when the power is turned off and the rotation of the disk 122 is stopped, the voice coil motor 125 rotates the actuator arm 133 clockwise, so that the end tab 138 causes the disk 122 to rotate. ) Is seated while being guided in contact with the parking position of the magnetic head parking lamp 160.

However, if the actuator arm 133 is arbitrarily rotated by an external shock or vibration applied to the hard disk drive 110 while the magnetic head is parked on the magnetic head parking lamp 160, the magnetic head is a magnetic head parking lamp. It can be moved out of the 160 to the recording surface of the disc 122.

In this case, the magnetic head may be in contact with the recording surface of the disk 122 and the magnetic head and the recording surface of the disk 122 may be damaged. Therefore, when the rotation of the disk 122 is stopped and the magnetic head is parked by the magnetic head parking lamp 160, it is necessary to lock the actuator arm 133 in a predetermined position so as not to rotate arbitrarily. For this purpose, an actuator latch (not shown) is provided. The actuator latch may be located at the bottom of the voice coil motor 125 area in the diagram of FIG. 1.

For reference, the hard disk drive of FIG. 1 is a diagram of a hard disk drive of 2.5 inches or less to which the magnetic head parking lamp 160 is applied, and the magnetic head parking lamp 160 is provided on a 3.5-inch or larger hard disk drive. It is not universal. In the case of the 3.5-inch or larger hard disk drive, the magnetic head may be parked in a parking area provided in the center area of the disk 122.

In the lower region of the base 120 on which these components are mounted, a printed circuit board assembly 150 (PCBA) is assembled with a bolt B1.

The printed circuit board assembly 150 includes a printed circuit board 151 on which a plurality of circuit components are mounted, and a plug 155 coupled to one side of the printed circuit board 151. .

On the plate surface of the printed circuit board 151, as a plurality of circuit components, a controller 152 for controlling various kinds of the hard disk drive 110 is provided. In the periphery of the controller 152, memories 153a and 153b for storing various data, tables, and the like are provided.

The cover 140 shields the top opening of the base 120. That is, the cover 140 is assembled to the base 120 side with a plurality of bolts B2 on the upper part of the base 120 to form an inner sealed space of the above-described parts together with the base 120.

Bolt fasteners 142 are formed at the corner regions of the cover 140 for assembling the bolts B2. The bolt fastener 142 is formed to be stepped lower than other surfaces, and the through-hole 142a is formed in the bolt fastener 142.

And a plurality of reinforcing grooves 143 for the reinforcement is formed on the surface of the cover 140. The shape of the reinforcing groove 143 may be different from the drawing.

Like the base 120, the cover 140 may be made of stainless steel or aluminum (Al).

FIG. 2 is a rear perspective view of the cover before applying the liquid gasket, FIG. 3 is a rear perspective view of the cover after applying the liquid gasket, FIG. 4 is a plan view of FIG. 3, and FIG. 5 is V-V of FIG. 6 is a schematic cross-sectional structural view along a line, and FIG. 6 is a schematic assembly cross-sectional view between a cover and a base.

The liquid gasket 170 is applied to an area where the base 120 and the cover 140 contact each other to keep the base 120 and the cover 140 airtight. In this embodiment, the liquid gasket 170 is applied as a form in position gasket (FIPG), but the scope of the present invention is not limited thereto.

The liquid gasket 170 is a gel-like material, unlike a solid gasket, which is previously manufactured in a predetermined shape, and is long like a toothpaste at an inner surface edge of the cover 140 in a region where the base 120 and the cover 140 contact each other. Squeeze (apply) and harden.

In other words, the liquid gasket 170 is continuously applied and hardened along the circumferential edge of the inner surface of the cover 140 as shown in FIGS. 2 and 3.

The liquid gasket 170 is widely used because it is more stable and cheaper than the solid gasket.

However, when the liquid gasket 170 is continuously applied to the inner surface edge surface of the cover 140 as shown in FIGS. 3 and 4, it is ideal that the liquid gasket 170 is uniformly applied in one line, that is, in one layer. However, in the initial application position (P1) where the liquid gasket 170 is initially applied and the final application position (P2) where the application of the liquid gasket 170 is completed, the liquid gasket 170 has no choice but to overlap so much more than other places. It comes out form. Hereinafter, this portion is referred to as the overlapping coating portion 171 of the liquid gasket 170.

As such, since the overlapping coating part 171 is a region in which a lot of the liquid gasket 170 is applied than the peripheral region in which the liquid gasket 170 is applied in one layer, the protruding height from the cover 140 is relatively higher.

By the way, if the cover 140 is assembled to the base 120 as it is, the overlapping portion 171 of the liquid gasket 170 is disregarded, so that deformation of the cover 140 may occur or the base 120 may be deformed. The sealing between the covers 140 may not be performed well, which may lead to a deviation from the prescribed form factor of the hard disk drive, and in severe cases, external contaminated air may flow into the base due to the sealing problem. As a result, poor quality, such as a malfunction of the hard disk drive, may be caused.

In order to prevent such a phenomenon, in the present embodiment, as shown in FIGS. 5 and 6, the overlapping coating portion 171 at the position of the cover 140 corresponding to the overlapping coating portion 171 of the liquid gasket 170. Gasket pocket (141) is provided.

The gasket pocket 141 may be formed through a stamping process on the cover 140 made of a thin metal plate, and may be manufactured in an appropriate volume considering the excess amount of the liquid gasket 170 of the overlapping coating part 171. Can be. In the drawings of this embodiment, the gasket pocket 141 is exaggerated for convenience.

As such, when the gasket pocket 141 is formed on the inner surface of the cover 140, that is, the inner surface of the cover 140 corresponding to the overlapping coating portion 171 of the liquid gasket 170, the liquid gasket ( A portion of the liquid gasket 170 of the overlapping coating portion 171 having a large amount of application of 170 is accommodated in the gasket pocket 141.

Therefore, the height of protrusion from the cover 140 with respect to the entire span of the liquid gasket 170, that is, the exposed surface 170a of the liquid gasket 170 toward the base 120 may form a substantially uniform surface. . Therefore, in this state, when the cover 140 is assembled to the base 120 through the liquid gasket 170 as shown in FIG. 6, the sealing between the base 120 and the cover 140 without deformation occurs in the cover 140. (sealing) can proceed well.

3 and 4, it can be seen that an additional liquid gasket 172 is applied to the edge region of the cover 140 in addition to the inner surface edge of the cover 140. Here, the additional liquid gasket 172 is a part supported on the voice coil motor 125 side, and the area of the additional liquid gasket 172 also applies the structure of the gasket pocket 141 described above if the application amount is not uniform. Could be.

As described above, according to the present embodiment, the assembly of the cover 140 to the base 120 using the liquid gasket 170 deviates from the prescribed form factor of the hard disk drive or causes a problem in sealing. Can be prevented from occurring and the quality of the hard disk drive can be improved.

7 is a plan view of a cover in a hard disk drive according to a second embodiment of the present invention, and A and B in FIG. 8 are schematic cross-sectional structural views taken along line A-A and B-B of FIG. 7, respectively.

Referring to these drawings, in the present embodiment, a gasket applying cover groove 245 is formed on the inner surface edge of the cover 240 to which the liquid gasket 270 is applied.

The cover groove 245 for gasket application forms a seat groove to which the liquid gasket 270 is applied. The gasket applying cover groove 245 is continuously formed along the circumferential direction at the inner surface edge of the cover 240.

On the other hand, even if the liquid gasket 270 is applied to the gasket application cover groove 245, the liquid gasket 270 is overlapped at the position where the liquid gasket 270 is first applied and the position where the liquid gasket 270 is applied last. 5 and 6), the gasket pocket 241 is applied to the present embodiment to solve the problem of the overlapping portion 171.

As shown in FIG. 8B, the gasket pocket 241 is provided in a form that is recessed deeper on the gasket applying cover groove 245.

That is, if the depth of the gasket application cover groove 245 is D1 as shown in FIG. 8A, the liquid gasket 270 is overlapped to be formed in a region where the overlapping coating part 171 (see FIGS. 5 and 6) is located. As the gasket pocket 241 is formed deeper than the depth D1 of the gasket application cover groove 245 as shown in FIG. 8B, the gasket pocket 241 may partially accommodate the liquid gasket 270.

Even if such a structure is applied, the quality of the hard disk drive can be improved by preventing the hard disk drive from falling out of a prescribed form factor or preventing a sealing problem.

9 is a view schematically illustrating a process of assembling a cover to a base in a hard disk drive according to a third embodiment of the present invention.

In this embodiment, the covers 340a and 340b have two stages. That is, the covers 340a and 340b include a first unit cover 340a which is assembled to be in contact with the base 120 and a second unit cover 340b that is stacked on the first unit cover 340a, that is, laminated. do.

In this case, the gasket pocket 341 overlapping the liquid gasket 370 and partially accommodating the overlapping coating part 371 may be formed in the first unit cover 340a, and the second unit cover 340b may be flat. It may have a shape.

When such a structure is applied, the external appearance of the second unit cover 340b that is flat can be seen from the outside, thereby improving the beauty of appearance.

10 is a view schematically illustrating a process of assembling a cover to a base in a hard disk drive according to a fourth embodiment of the present invention.

In the present embodiment, unlike the above-described embodiments, the liquid gasket 470 is continuously applied along the circumferential edge of the upper surface of the base 420 in contact with the cover 440.

In this case, the gasket pocket 441 corresponds to the overlapping coating portion 471 of the liquid gasket 470 so that the overlapping coating portion 471 formed by overlapping the liquid gasket 470 does not protrude more than other areas. It is formed to be recessed in the base 420 in position.

When the gasket pocket 441 is recessed in the base 420 as described above, even if the liquid gasket 470 is applied to the upper surface of the base 420, the overlapping coating portion 471 of the liquid gasket 470 is applied to the gasket pocket 441. Since the upper surface 470a of the liquid gasket 470 may be partially formed while being partially accommodated, sealing is performed in assembling the cover 440 to the base 420 even if the cover 440 is not separately processed. No defects occur. Therefore, it is possible to improve the quality of the hard disk drive by preventing the hard disk drive from falling out of the prescribed form factor or causing a sealing problem.

Although the description is omitted in the above-described embodiment, a seat groove to which the liquid gasket 470 is applied may be further formed on the upper surface of the base 420.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. Accordingly, such modifications or variations are intended to fall within the scope of the appended claims.

120: base 122: disk
123: spindle motor 130: head stack assembly
131: pivot axis 133: actuator arm
134: pivot axis holder 140: cover
141: gasket pocket 150: printed circuit board assembly
160: lamp 170: liquid gasket
171: overlapping coating

Claims (10)

A base into which a plurality of parts related to reading and writing of data are assembled;
A cover assembled to one side of the base to form a sealed space together with the base; And
A liquid gasket applied to an area where the base and the cover are in contact with each other to maintain an airtightness between the base and the cover,
Any one of the base and the cover, the hard disk drive is formed with a gasket pocket (gasket pocket) in which the overlapping coating portion is partially received at a position corresponding to the overlapping coating portion is applied to overlap the liquid gasket. The method of claim 1,
The gasket pocket may be substantially equal to the protrusion height of the overlapping coating part in which the liquid gasket is applied in two layers with respect to the protrusion height of the cover of the liquid gasket in which the liquid gasket is applied in one layer. And a hard disk drive formed to be recessed in the cover. The method of claim 2,
The liquid gasket is applied continuously along the circumferential direction of the inner surface edge of the cover in contact with the base,
And the gasket pocket is recessed in the cover corresponding to an initial application position where the liquid gasket is initially applied and a final application position where the application of the liquid gasket is completed. The method of claim 2,
Hard disk drive is formed on the inner surface edge of the cover gasket coating cover groove to which the liquid gasket is applied. The method of claim 3,
And the gasket pocket is recessed in a region of the gasket application cover groove to be deeper than another region. The method of claim 2,
The cover
A first unit cover assembled to contact the base; And
And a second unit cover stacked on the first unit cover and assembled. The method of claim 6,
The gasket pocket is provided on the first unit cover. The method of claim 1,
The gasket pocket may be substantially equal to the protrusion height of the overlapping coating part in which the liquid gasket is applied in two layers with respect to the protrusion height of the liquid gasket in which the liquid gasket is applied in one layer. And a hard disk drive formed to be recessed in the base. The method of claim 2,
The liquid gasket is applied continuously along the circumferential direction of the upper edge of the base in contact with the cover,
And the gasket pocket is recessed in the base corresponding to an initial application position where the liquid gasket is initially applied and a final application position where the application of the liquid gasket is completed. The method of claim 8,
A hard disk drive is formed on the upper edge of the base is further formed with a gasket coating base groove to which the liquid gasket is applied.

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