JPH02266599A - Centralized disk storage device - Google Patents

Abstract

PURPOSE:To enable replacement and maintenance in case unit and to improve cooling efficiency by maintaining a disk drive unit and a circuit part with, at least, the top and the bottom of a case open, and also providing a fan for generating air flow from below to above inside a locker. CONSTITUTION:Even if maintaining a disk drive unit 2 and a circuit part 3 in a case 4, the top and the bottom of the case are opened so that path of air flow for cooling may be vertical, and a fan 5 is provided so that the air flow may be vertical in a locker 1. Hereby, those can be replaced or maintained in case 4 unit, and also air flow for cooling can be let flow from below to above even in the conditions where those are stacked in the locker 1, and cooling efficiency improves sharply, and even if those are mounted in high density, it never runs short of cooling.

Description

[Detailed description of the invention] [Table of contents] Overview Industrial field of application Prior art (Figure 9) Means for solving the problem to be solved by the invention (Figure 1) Working example (a) 1 Description of Embodiments (Figures 2 to 8) (B) Description of Other Embodiments Effects of the Invention [Summary] A disk drive unit and a circuit section are integrally held in a case, and a plurality of them are stacked and housed in a locker. With regard to collective disk storage devices, the disk drive unit and circuitry are kept inside the case for convenience during maintenance, but with the aim of improving cooling efficiency, an access mechanism is used to move the head to the rotating storage disk. In a collective disk storage device in which a disk drive unit for positioning and a circuit section for operating the disk drive unit are held in a case, and a plurality of the cases are stacked in a locker, at least the upper and lower surfaces of the case are As an opening, a fan was provided to hold the disk drive unit and the circuit section and to create an air flow from below to above within the locker.

[Industrial application field]

The present invention relates to a collective disk storage device in which a disk drive unit and a circuit section are integrally held in a case, and a plurality of disk drive units and a circuit section are stacked and housed in a locker.

In a large magnetic disk drive, four to eight magnetic disks are usually built into a locker to form a cluster.

In recent years, large quantities of magnetic disk drives have been used in large-scale computer systems, and their proportion in computer rooms continues to increase.

For this reason, magnetic disk drives are required to have a smaller installation area than ever before, and to achieve this, they must be mounted at high density, and the cooling method in this case has also become a major issue.

[Conventional technology]

FIG. 9 is an explanatory diagram of the prior art.

Conventionally, as shown in the cross-sectional view of FIG. 9(A), a disk drive unit 2 and circuit parts such as a control circuit 3a and a power supply circuit 3b are mounted on a plate-shaped sheet metal case 4a, and a cover case is mounted on the disk drive unit 2 and circuit parts such as a control circuit 3a and a power supply circuit 3b. 4b to form an air duct, which was fitted along the rail 10 inside the locker 1 and stacked to form a high-density aggregation.

In this way, if one disk drive unit 2 and the circuit sections 3a, 3b are installed in one case 4a, 4b, the disk drive unit 2 and the circuit sections 3a, 3
This is convenient because it can be replaced and maintained in units of cases 4a and 4b.

On the other hand, as shown in the side view of FIG. 9(B), the locker 1 is provided with a fan 5 for each case 4a, 4b, and the flow of cooling air is such that air is sucked in from the front and the fan 5 at the rear 5, and because of the dish-shaped case 4a, cooling in the vertical direction was not possible.

[Problem to be solved by the invention]

In the conventional technology, the flow of cooling air in the computer room is in a front-back direction, which does not necessarily match the general physical phenomenon of warm air rising and cold air falling, and the problem is that efficient cooling cannot be achieved. was occurring.

Moreover, when a large number of aggregated disk devices are housed in a computer room, the intake port is installed so as to face the exhaust port of the adjacent device, which causes the problem of sucking in warm air.

Additionally, although underfloor air conditioning is often used as a cooling method for computer rooms, this cannot be done because there is no inlet under the floor of the equipment, and there is a problem in that it is not possible to effectively utilize underfloor air conditioning for cooling.

Furthermore, since the circuit sections 3a and 3b such as the control circuit are mounted on the disk drive unit 2, the dish-shaped case 4a must be pulled out and removed from the disk drive unit 2 to maintain or replace the circuit sections 3a and 3b. However, there was also the problem of poor maintainability.

Therefore, an object of the present invention is to provide a collective disk storage device that can improve cooling efficiency even when the disk drive unit and circuit section are kept in a case for convenience during maintenance.

Another object of the present invention is to provide a collective disk storage device that can improve the maintainability of its circuitry even when held in a case.

[Means to solve the problem]

FIG. 1 is a diagram showing the principle of the present invention.

As shown in FIG. 1, the present invention includes a disk drive unit 2 that positions a head with respect to a rotating storage disk using an access mechanism, and a circuit section 3 for operating the disk drive unit 2, which is held in a case 4. ,
In a collective disk storage device in which a plurality of cases 4 are stacked in a locker 1, at least the upper and lower surfaces of the case 4 are open to hold the disk drive unit 2 and the circuit section 3, and the locker 1 Some are equipped with a fan 5 that generates an air flow from below to above.

Furthermore, the present invention provides the circuit section 3 on the front surface of the case 4,
The disk drive unit 2 is provided on the rear surface.

[Effect]

In the present invention, even if the disk drive unit 2 and the circuit section 3 are held in the case 4, the upper and lower surfaces of the case 4 are open so that the cooling airflow passages are vertically arranged, and the airflow is allowed to flow inside the locker 1. The fan 5 is installed so that the upper and lower sides are the same.

This allows for replacement and maintenance in units of 4 cases, and allows the cooling air to flow from the bottom to the top even when the cases are stacked in the locker 1, greatly improving cooling efficiency and providing cooling even in high-density packaging. There will be no shortage.

Furthermore, in the present invention, by providing the circuit section 3 on the front surface of the case 4 and the disk drive unit 2 on the rear surface, the circuit section 3 can be taken out and replaced independently while the case 4 is housed in the locker 1, which improves maintainability. Improved.

〔Example〕

(a) Description of one embodiment FIGS. 2 and 3 are configuration diagrams of an embodiment of the present invention.

In the figure, the same parts as shown in Figures 1 and 9 are:
Indicated by the same symbol.

As shown in the perspective view of FIG. 2 and the side view of FIG. 3(B), the case 4 has a box-like shape with the top and bottom open.

On the front of the case 4, printed boards 31 for a control circuit, a power amplifier, and a power supply circuit are connected in series through a back panel 30 fixed to the case 4.

On the rear surface of the case 4, magnetic disk drive units (hereinafter referred to as disk enclosures) 2 each having a magnetic disk, a spindle motor for rotating the magnetic disk, a magnetic head, and a positioning mechanism thereof are installed vertically above and below the case 4. It is fixed and held on support plates 40 and 41 with screws or the like.

Therefore, the gap between the disk enclosure 2 and the case 4 serves as a passage for vertical air flow, and the side surfaces of the disk enclosure 2 are cooled.

Further, since the printed boards 31 are provided in the vertical direction, the space between the printed boards 31 becomes a passage for air flow in the vertical direction, and each printed board 31 can be inserted into and removed from the bank panel 30 independently. independently replaceable.

Such a disk enclosure 2 and printed board 3
The cases 4 holding the lockers 1 are placed on the rails 10 of the locker 1 and stacked in multiple stages, as shown in the front view of FIG. 3(B).

A rail 10 is provided between each stage of the locker 1, and the center is open, so that air can flow in the vertical direction between each stage.

FIG. 4, FIG. 5, and FIG. 6 are front, side, and back views of a magnetic disk collection device to which the present invention is applied, respectively, and FIG. 7 and FIG. 8 are diagrams illustrating its operation.

The figure shows disk enclosure 2 held in case 4.
A magnetic disk collection device is shown in which a total of 16 magnetic disks are housed in a locker 1 in four rows and four stages, and a case 4 is housed in the locker 1 with a printed board 31 facing forward.

Fans 5 are provided above and below the locker 1.

As shown in the figure, four fans 5 are provided in each row, and each row is partitioned within the locker 1.

Each case 4 is supported at each stage by a rail 10 with an opening in the center as explained in FIG.
1 is also mounted on the rack, as shown in FIG. is cooled and discharged from the top of locker 1.

Therefore, the physical phenomenon that warmed air moves upward can be fully utilized, and even if the equipment is adjacent to each other, it is possible to effectively utilize underfloor air conditioning for cooling without inhaling warmed air.

In addition, the rows of urinary stones in Figures 4 and 6 are from the DK switcher.
It is a housing part for an interface circuit printed board such as
This row is also cooled by vertical airflow by the fan 5.

In addition, the disk enclosure 2 and the circuit section 3 are connected to the case 4.
As shown in Figure 8, the case 4 can be inserted and removed from the locker 1 in units of 4 cases, and the disk enclosure 2 and circuit section 3 that are subject to failure or maintenance can be pulled out at the same time. Can be done in units.

Since the printed board 31 of the circuit section 3 is provided on the front surface of the case 4, it can be replaced while the case 4 is mounted on the locker 1.

To replace the disk enclosure 2, as shown in Figure 8,
You can do this after pulling out the case 4.

Furthermore, since each case 4 can be pulled out, as shown in Figure 8,
It is also possible to eliminate the need for the disk enclosure mounting side as a maintenance area.

In this way, even if the disk drive unit 2 and the circuit section 3 are held in the case 4 and maintainability is improved, it is not possible to hold the disk drive unit 2 and the circuit section 3 in the case 4 and to mount the unit 2 and the circuit section 3 separately. Cooling can be performed in the vertical direction.

(c) Description of other embodiments In the above embodiments, as a disk drive unit,
Although a magnetic disk drive unit has been described as an example, a well-known disk drive unit such as an optical or magneto-optical disk drive unit may be used.

Further, although the example in which the disk drive unit 2 is fixed at the top and bottom of the case 4 has been described, the disk drive unit 2 may be fixed at the side surface of the case 4.

Although the present invention has been described above using examples, the present invention can be modified in various ways according to the gist of the present invention, and these are not excluded from the present invention.゛C Effects of the Invention) As explained above, according to the present invention, even if the disk drive unit and the circuit section are held in the case, the cooling air flow can be directed in the vertical direction, and the cooling efficiency can be improved. Although the case can be replaced on a case-by-case basis, it provides sufficient cooling and enables high-density packaging.

Further, according to the present invention, by mounting the circuit section 3 on the front surface of the case 4, the maintainability of the circuit section 3 is improved, and a maintenance area is not required on the disk drive unit side. It is also effective.

[Brief explanation of drawings]

Fig. 1 is a diagram of the principle of the present invention, Figs. 2 and 3 are configuration diagrams of an embodiment of the invention, Fig. 4 is a front view of a magnetic disk collection device of an embodiment of the invention, and Fig. 5 is a book FIG. 6 is a side view of a magnetic disk collection device according to an embodiment of the invention; FIG. 6 is a rear view of a magnetic disk collection device according to an embodiment of the invention; FIGS. FIG. 9 is an explanatory diagram of the prior art. In the figure, 1 - locker 2 - disk drive unit, 3 - circuit section, 4 - case, 5 - fan.

Claims (1)

[Claims] (1) A disk drive unit (2) that positions a head with an access mechanism with respect to a rotating storage disk.
) and a circuit section (3) for operating the disk drive unit (2) are held in a case (4), and a plurality of the cases (4) are stacked in a locker (1). In the storage device, at least the upper and lower surfaces of the case (4) are open to hold the disk drive unit (2) and the circuit section (3), and to allow air to flow from below to above within the locker (1). A collective disk storage device characterized by being provided with a fan (5) that generates a flow. (3) Place the circuit section (3) on the front of the case (4),
The collective disk storage device according to claim 1, wherein the disk drive unit (2) is provided on the rear surface.