JPH08124375A - Disk device - Google Patents

Abstract

PURPOSE: To prohibit an excess temp. rise by forming the front surfaces and rear surfaces of HDD boxes as openings and packaging the same HDD boxes packaged with fans to force cooling air to ascending currents by combining two units, upper and lower, as a pair. CONSTITUTION: The rear surfaces and front surfaces of the HDD box units 6 are formed as the openings and force blasting structures, such as fans are so adopted that the cooling air is forced to the upward currents through these openings. The units 6-1 to 6-2 are packaged by making two units, upper and lower, of the units 6 as a pair. The units 6-1, 6-2 are combined as one set and another one set of the 6-3, 6-4 are installed by providing the rear surfaces with a spacing 7. Further, the units 6-5 to 6-8 are packaged in the upper parts of the units 6-1 to 6-4. After dust is removed from the cooling air 9-1 by a filter, the cooling air is guided to an air plate 8-1 to cool the parts packaged in the unit 6-1, the cooling air flows out of the upper aperture. The outflow air 9-1 flows into the unit 6-2 and cools the unit 6-2.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a device configuration in a disk device used as an external storage device of a computer,
Arrangement and cooling method of equipment.

[0002]

2. Description of the Related Art A conventional apparatus is disclosed in Japanese Patent Laid-Open No. 4-339393.
As described in the publication, a duct unit structure is formed in which each drive unit is mounted on the device so that air is discharged from one end to the other end of each drive unit, and a plurality of drive units are directly connected to the duct unit structure. And the air duct cross-sectional area of the duct unit structure is changed depending on the mounting position of the drive unit, and the duct unit structure progresses from the lower intake side to the upper exhaust side. It is formed so that the cross-sectional area of the air passage is small. Further, the duct unit structure is provided with a plurality of fans, which normally rotate at a low speed, and has a control circuit for rotating the other fans at a high speed when one of the fans fails.

[0003]

In the above-mentioned conventional technique, the duct unit structure has an air passage cross-sectional area which is changed depending on the mounting position of the drive unit, and the duct unit may be expensive. Further, the duct unit structure is provided with a plurality of fans and normally rotates at a low speed, and when one of the fans fails, it has a control circuit for rotating the other fan at a high speed. It could be expensive.

[0004]

According to the present invention, the HDD B
The same HDD BOX unit 2 in which the lower surface and the upper surface of the OX are opened and a fan is mounted so that the cooling air has an upward flow.
The bases are mounted as a pair, and when a fan failure of one HDD BOX unit occurs, the fan of the other HDD BOX unit cools the internal parts of both HDD BOX units to prevent excessive temperature rise. or,
One set of HDD BOX units, which is a pair of upper and lower units, is placed on the front side of the device, and another set is placed on the rear face of the device. Above the two sets of HDD BOX units, another two sets of HD are placed.
The D BOX unit is arranged and the lower two sets of HDD BOX
X-unit cooling air line system and upper two sets of HDD BOX
The member for separating the unit cooling air pipe system is fixed to the device, and the lower two sets and the upper two sets of eight HDD BOX units are made the same product to simplify the structure and improve the productivity.

[0005]

Operation: Two identical HDD BOX units are mounted in pairs, and when the fan failure of one HDD BOX unit occurs, the fan of the other HDD BOX unit cools the internal parts of both HDD BOX units. In addition, one set of HDD BOX units consisting of a pair of upper and lower units, one set on the front side of the device, the other set on the rear side of the device, above the two sets of the above HDD BOX units,
The other two sets of HDD BOX units are arranged, and the members for separating the lower two sets of HDD BOX unit cooling air pipelines from the upper two sets of HDD BOX unit cooling air pipelines are fixed to the device, and the lower two sets. Top two sets, total 8 H
The DD BOX unit was the same product.

[0006]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to FIGS.

FIG. 1 is a front perspective view of a disk device according to the present invention. A door 1 having an intake port 1a is openably and closably attached to front and rear surfaces of the device, a side cover 2 is attached to a side surface, and a top cover 3 having an exhaust hole 3a is attached to a ceiling. Skirts (front / rear) 4 are attached to the front and rear of the bottom of the device, and skirts (sides) 5 are attached to the left and right. The equipment inside the device is cooled by air, and is sucked from the intake port 1a provided in the door 1,
After dust is removed by a filter (not shown) provided inside the intake port 1a, the equipment inside the apparatus is cooled and exhausted through an exhaust hole 3a provided in the top cover 3.

FIG. 2 shows the door 1, the side cover 2 of FIG.
FIG. 3 is a perspective view from the front of the disk device in which the top cover 3, the skirt (front / rear) 4, and the skirt (side) 5 are removed so that the inside of the device can be seen. In this figure,
The HDD BOX unit 6 alone and the HDD BOX units 6-1 to 6-8 mounted inside the apparatus are shown.
The HDD BOX unit 6 is shown in a simplified manner,
Details will be described later with reference to FIG. The HDD BOX unit 6 has openings on the lower surface and the upper surface, and is designed to have a forced blowing structure such as a fan so that the cooling air can flow upward through the openings. The above-mentioned HDD BOX units 6 are a pair of upper and lower HDD BOX units 6-1 to 6-6.
-2 is implemented. In addition, the HDD BOX units 6-1 to 6-2 described above are set as one set, and another set of HDD is similarly set.
The BOX units 6-3 to 6-4 are mounted with a gap 7 of about 50 to 150 mm provided between the rear surfaces of the BOX units 6-3 to 6-4 and the set of HDD BOX units 6-1 to 6-2. Furthermore, the above-mentioned two sets of HD
Similarly, another two sets of HDD BOX units 6-5 to 6-8 are mounted on top of the D BOX units 6-1 to 6-4. On the other hand, air plates 8-1 to 8-4 are attached to the lower part of each set of HDD BOX units as device fixing parts. The cooling of the devices in the apparatus will be described for the set of HDD BOX units 6-1 and 6-2. The cooling air 9-1 sucked from the intake port 1a provided in the door 1 is guided to the air plate 8-1 after dust is removed by a filter (not shown) provided inside the intake port 1a. Flow in through the lower opening of the HDD BOX unit 6-1 and cool the internal mounting components of the HDD BOX unit 6-1 and then flow out through the upper opening of the HDD BOX unit 6-1. The cooling air 9-1 flowing out from the upper opening of the HDD BOX unit 6-1 is the HDD BOX unit 6
-2 through the lower opening of HDD box unit 6-
2 After cooling the internal mounting components, HDD BOX unit 6
-2 flows out from the upper opening. The cooling air 9-1 flowing out from the upper opening of the HDD BOX unit 6-2 is guided to the center of the device by the air plate 8-3,
A clearance 7 of about 50 to 150 mm provided between the rear surfaces of the two sets of the BOX units 6-5 to 6-8 rises and is exhausted from an exhaust hole 3a provided in the top cover 3. HDD BOX
The cooling of the set of units 6-3 to 6-4 is the same as that of the HDD BOX units 6-1 to 6-2. Next, HDD BO
The cooling of the set of X units 6-5 to 6-6 will be described. The cooling air 9-3 sucked from the intake port 1a provided in the door 1 is guided to the air plate 8-3 after dust is removed by a filter (not shown) provided inside the intake port 1a. HDD BOX unit 6-
5, after cooling the internal mounting components of the HDD BOX units 6-5 to 6-6 in the same manner as cooling the HDD BOX units 6-1 to 6-2
It flows out from the upper opening of the BOX unit 6-6 and is exhausted from the exhaust hole 3 a provided in the top cover 3. HDD
The cooling of the set of BOX units 6-7 to 6-8 is HDD
It is the same as the BOX units 6-5 to 6-6.

FIG. 3 is a perspective view of the HDD BOX unit 6. In the HDD BOX unit 6, 1 to 8 canisters 10 each including an HDA for recording and reproducing information and an electronic circuit section for controlling the HDA, and any required number of canisters can be detachably attached from the front of the HDD BOX 11. To be implemented. Further, one or two buffer packages 12 for transmitting information between the upper device and the canister 10 are mounted. Furthermore, the canister 10 and the buffer package 1
2. One or two power sources 14 for supplying power to the fan 13 are mounted. On the rear surface of the HDD BOX 11, the canister 1
0, the buffer package 12, the fan 13, and the power supply 14 are mounted on a substrate 15 on which connectors for electrical connection are arranged. The lower surface of the HDD BOX 11 is an opening, and three fans 13 for generating an ascending current for cooling the canister 10, the buffer package 12, and the power supply 14 are mounted on the upper portion of the HDD BOX 11 in this embodiment. .

[0010]

According to the present invention, the same HDD BOX unit having the lower and upper surfaces of the HDD BOX as openings and the fans mounted so that the cooling air flows upward can be mounted as a pair of upper and lower parts, and one of them can be mounted as a pair. When the fan of the HDD BOX unit fails, the fan of the other HDD BOX unit cools the internal parts of both HDD BOX units,
By configuring to prevent excessive temperature rise, H
Added redundancy for fan failure related to DD BOX unit cooling. Further, the same HDD BOX unit consisting of the above two upper and lower units is set as one set, one set is arranged on the front side of the apparatus, and the other set is arranged on the rear side of the apparatus.
On top of 2 sets of OX units, 2 sets of HDD BOX
The unit is arranged, and the member that separates the lower two HDD BOX unit cooling air pipelines from the upper two HDD BOX unit cooling air pipelines is fixed to the device, and the lower two
The eight HDD BOX units, one group and the upper two groups, were made the same product to simplify the structure and improve productivity.

[Brief description of drawings]

FIG. 1 is a front perspective view of a disk device according to the present invention.

FIG. 2 is a perspective view of the inside of the device from the front.

FIG. 3 is a perspective view from the front of the HDD BOX unit.

[Explanation of symbols]

1 ... Door, 2 ... Side cover, 3 ... Top cover, 4 ... Skirt (front / rear), 5
… Skirt (side), 6… HDD BOX unit,
7 ... HDD BOX unit rear surface gap, 8 ... Air plate, 9 ... Cooling air, 10 ... Canister, 11 ... HDD BOX, 12 ... Buffer package, 13 ... Fan, 14 ... Power supply, 15 ... Board.

Claims (6)

[Claims] 1. An HDA for recording and reproducing information, and an HD
One or a plurality of canisters including electronic circuit units for controlling A, one or a plurality of buffer packages for transmitting information between the canister and the host device, a power source for supplying power to the canisters, the buffer packages and the fans, A fan for cooling the device, and a board on which a connector for electrical connection between the devices including the fan is arranged,
And a bracket for supporting and fixing these (hereinafter HD
It is called D BOX. 2) or an even number of multiple HDD BOX units, and an HDD BOX
Connects one or more main power supplies to the power supply in the unit, one or more monitor packages for transmitting the status monitoring signal of each device in the HDD BOX unit to the host device, and the above devices In the disk device functioning as an external storage device of a computer, which is composed of cables to be used, a door having a cooling air intake port and a top cover having an exhaust hole, and a frame supporting the above-mentioned devices, a bottom surface and a top surface of the HDD BOX. The same HDD BOX unit with the fan as the opening and the cooling air ascending flow is installed as a pair with the upper and lower sides as a pair, and the cooling air pipeline is installed from the cooling air intake port of the door to the upper and lower two HDDs. A disk device comprising a top box exhaust hole passing through a BOX unit. 2. The same HDD BOX according to claim 1,
Two units are mounted as a pair, top and bottom, one HDD
When the fan of the BOX unit fails, the other HDD BOX
A disk device characterized in that both HDD BOX unit internal parts are cooled by a fan of the unit. 3. The H according to claim 1, wherein the upper and lower units are paired.
One set of DD BOX units on the front of the device,
Another set is placed on the rear side of the device and 50 to 15 are placed between the back sides of each set.
A disk device having a gap of about 0 mm. 4. The HD according to claim 3, wherein
Two more HDDs on top of two D BOX units
The BOX unit is arranged, and the lower two HDD BOX unit cooling air pipelines are passed from the cooling air intake of the door through the upper and lower two HDD BOX units and between the rear faces of the upper two HDD BOX units. Provided 50
A gap of about 150 mm is used as an exhaust duct by the exhaust holes of the top cover, and the upper two sets of HDD BO
A disk device characterized in that an X unit cooling air pipe system is constituted by an exhaust hole of the top cover, which passes through a cooling air intake port of the door and two HDD BOX units above and below. 5. The lower two sets of HDD B according to claim 4,
OX unit cooling air pipeline and upper two HDD BOs
A disk device characterized in that the member separating the X unit cooling air pipe system is fixed to the device, and the lower two sets and the upper two sets of HDD BOX units are the same product. 6. The HDD BOX unit according to claim 1, wherein the HDD BOX unit includes one or a plurality of canisters, one or a plurality of buffer packages, and a power supply for supplying power to the canisters, the buffer packages and the fans.
A board that is detachably mounted from the front of the OX and has connectors for electrical connection between the above-mentioned devices including a fan
The fan is mounted on the rear side of the DD BOX, and a fan that cools each device is mounted on the upper part of the HDD BOX in the same manner as each of the devices so that the wind direction is an upward flow. HDD BO
A disk device comprising a cooling air pipe system that passes through the inside of X.