CN216647855U - Storage hard disk with heat dissipation mechanism - Google Patents

Abstract

The utility model discloses a storage hard disk with a heat dissipation mechanism, which comprises a heat dissipation shell, wherein the storage hard disk is detachably arranged in the heat dissipation shell; the heat dissipation part is arranged in the heat dissipation cavity and comprises an air channel partition plate arranged in the heat dissipation cavity, the air channel partition plate is matched with the heat dissipation shell and the heat transfer plate to divide the heat dissipation cavity into a first air channel and a second air channel, the second air channel is positioned on one side of the first air channel, which is far away from the heat transfer plate, a heat transfer element is arranged in the first air channel, and the first air channel conducts heat with the storage cavity and the second air channel through the heat transfer element; the installation part is arranged in the storage cavity and used for fixedly storing the hard disk. The utility model can improve the heat dissipation effect of the storage hard disk and reduce the energy consumption required by heat dissipation.

Description

Storage hard disk with heat dissipation mechanism

Technical Field

The utility model relates to the technical field of computers, in particular to a storage hard disk with a heat dissipation mechanism.

Background

The hard disk is the main storage device of a computer, and the hard disk (hard disk known as hard disk in port and english: hard disk drive, HDD) is composed of one or more aluminum or glass disks covered with ferromagnetic material, and most of the hard disks are fixed hard disks and are permanently sealed and fixed in a hard disk drive.

In the long-time use of storage hard disk, it can produce a large amount of heats, and the heat that produces if untimely the derivation can lead to the storage hard disk to damage, though exist in the prior art a plurality of devices that are convenient for the heat dissipation of storage hard disk, its radiating effect is relatively poor, and the power consumption is higher.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a storage hard disk with a heat dissipation mechanism, which is used for solving the problems in the prior art, improving the heat dissipation effect of the storage hard disk and reducing the energy consumption required by heat dissipation.

In order to achieve the purpose, the utility model provides the following scheme: the utility model provides a storage hard disk with a heat dissipation mechanism, which comprises a heat dissipation shell, wherein the storage hard disk is detachably arranged in the heat dissipation shell, the inner wall of the heat dissipation shell is fixedly connected with a heat transfer plate, the heat transfer plate divides the interior of the heat dissipation shell into a storage cavity and a heat dissipation cavity, and the storage hard disk is positioned in the storage cavity;

the heat dissipation part is arranged in the heat dissipation cavity and comprises an air channel partition plate arranged in the heat dissipation cavity, the air channel partition plate is matched with the heat dissipation shell and the heat transfer plate to divide the heat dissipation cavity into a first air channel and a second air channel, the second air channel is positioned on one side of the first air channel, which is far away from the heat transfer plate, a heat transfer piece is arranged in the first air channel, and the first air channel conducts heat with the storage cavity and the second air channel through the heat transfer piece;

the installation part is arranged in the storage cavity and used for fixing the storage hard disk.

Preferably, a side wall of the heat dissipation shell is provided with a first fan and a second fan, the first fan and the second fan are arranged in parallel with the air duct partition plate, another side wall of the heat dissipation shell is provided with a first exhaust port and a second exhaust port, the first exhaust port and the second exhaust port are arranged perpendicular to the air duct partition plate, the first fan and the first exhaust port are communicated with the first air duct, and the second fan and the second exhaust port are communicated with the second air duct.

Preferably, a temperature sensor is fixedly connected in the second air duct, and the temperature sensor is electrically connected with the second fan.

Preferably, the heat transfer element comprises a plurality of heat transfer columns arranged in the first air channel, one ends of the heat transfer columns are fixedly connected with the heat transfer plates, and the other ends of the heat transfer columns penetrate through the air channel partition plate and extend into the second air channel.

Preferably, the heat transfer column is fixedly connected with a cooling fin, and the cooling fin is positioned in the second air duct.

Preferably, the installation department includes two L type fixed plates that set up relatively, two L type fixed plate with the heat transfer plate rigid coupling, the spout of two relative settings is seted up to heat dissipation shell inner wall, sliding connection has the slider in the spout, the rigid coupling has L type movable plate on the slider, L type movable plate with L type fixed plate corresponds the setting, L type movable plate with L type fixed plate passes through connecting bolt and can dismantle the connection, the storage hard disk is located between L type fixed plate and the L type movable plate, just the storage hard disk passes through L type fixed plate and L type movable plate are fixed.

Preferably, the heat transfer plate is of a boss structure, the end face of the heat transfer plate close to the storage hard disk is in contact with the storage hard disk, and the end face of the heat transfer plate close to the storage hard disk is flush with the end face of the L-shaped fixing plate.

Preferably, the side wall of the heat dissipation shell far away from the first fan is provided with a mounting opening, the storage hard disk is placed into the heat dissipation shell through the mounting opening, a protective cover is arranged in the mounting opening, and the protective cover is detachably connected with the heat dissipation shell through a protective bolt.

The utility model discloses the following technical effects:

1. the storage hard disk is installed in depositing the intracavity, and the heat that the storage hard disk gived off passes through in the leading-in first wind channel of heat transfer plate, first wind channel work afterwards, heat in the first wind channel is exported the heat dissipation shell, and under the effect of heat transfer piece, make the leading-in second wind channel of part heat, heat in the second wind channel carries out the nature heat dissipation, thereby improve the radiating rate in first wind channel, work for a long time when the storage hard disk, behind first wind channel can not satisfy its heat dissipation demand, the temperature risees in the second wind channel, and the second wind channel starts, force the heat dissipation to the second wind channel, on the one hand, the radiating effect has been improved, on the other hand, when satisfying its heat dissipation needs in first wind channel, the second wind channel need not start, and then the required energy consumption of heat dissipation has been reduced.

2. The installation department can be fixed not unidimensional storage hard disk, and the installation or dismantle easy and simple to handle, the practicality is high.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without inventive exercise.

FIG. 1 is a front view of a storage hard disk with a heat dissipation mechanism;

FIG. 2 is a schematic structural diagram of a top view of a storage hard disk with a heat dissipation mechanism;

FIG. 3 is an enlarged view of a portion of FIG. 2 at A;

the device comprises a heat dissipation shell, a storage hard disk, a heat transfer plate, a storage cavity, an air channel partition plate, a first air channel, a second air channel, a fan, a temperature sensor, a heat transfer column, a heat dissipation plate, a heat transfer plate, a storage cavity, a heat transfer plate, a heat transfer column, a heat dissipation plate, a heat transfer plate and a heat transfer plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in further detail below.

The utility model provides a storage hard disk with a heat dissipation mechanism, which comprises a heat dissipation shell 1, wherein a storage hard disk 2 is detachably arranged in the heat dissipation shell 1, a heat transfer plate 3 is fixedly connected to the inner wall of the heat dissipation shell 1, the heat transfer plate 3 divides the interior of the heat dissipation shell 1 into a storage cavity 4 and a heat dissipation cavity, and the storage hard disk 2 is positioned in the storage cavity 4; the heat dissipation part is arranged in the heat dissipation cavity and comprises an air channel partition plate 5 arranged in the heat dissipation cavity, the air channel partition plate 5 is matched with the heat dissipation shell 1 and the heat transfer plate 3 to divide the heat dissipation cavity into a first air channel 6 and a second air channel 7, the second air channel 7 is positioned on one side, away from the heat transfer plate 3, of the first air channel 6, a heat transfer element is arranged in the first air channel 6, and the first air channel 6 conducts heat with the storage cavity 4 and the second air channel 7 through the heat transfer element; and the installation part is arranged in the storage cavity 4 and is used for fixedly storing the hard disk 2.

Fix the storage hard disk 2 in the storage cavity 4 in the heat dissipation shell 1 through the installation department, when using the storage hard disk 2, the heat that the storage hard disk 2 gived off passes through in the leading-in first wind channel 6 of heat transfer plate 3, first wind channel 6 work afterwards, heat in the first wind channel 6 is derived heat dissipation shell 1, when first wind channel 6 dispels the heat, under the effect of heat transfer piece, in the leading-in second wind channel 7 of part heat, the heat in the second wind channel 7 dispels the heat naturally, thereby improve the radiating rate of first wind channel 6, work for a long time when storage hard disk 2, after first wind channel 6 can not satisfy its heat dissipation demand, the temperature rose in the second wind channel 7, consequently start second wind channel 7, carry out the forced heat dissipation to second wind channel 7.

In one embodiment of the present invention, the material of the heat transfer plate 3 is preferably copper to improve the heat conduction effect.

Further optimization scheme, a side wall of the heat dissipation shell 1 is provided with a first fan 8 and a second fan 9, the first fan 8 and the second fan 9 are arranged in parallel with the air duct partition plate 5, the other side wall of the heat dissipation shell 1 is provided with a first exhaust port 10 and a second exhaust port 11, the first exhaust port 10 and the second exhaust port 11 are arranged perpendicular to the air duct partition plate 5, the first fan 8 and the first exhaust port 10 are communicated with the first air duct 6, and the second fan 9 and the second exhaust port 11 are communicated with the second air duct 7. The first fan 8 is matched with the first exhaust port 10 to dissipate heat of the first air duct 6, the second fan 9 is matched with the second exhaust port 11 to dissipate heat of the second air duct 11, when the storage hard disk 2 is used, the first fan 8 works, the second fan 9 does not work, when the first air duct 6 cannot meet the heat dissipation requirement, the second fan 9 is started, and heat dissipation is performed on the storage hard disk 2 through the matching of the first fan 9 and the second fan 10.

In a further optimized scheme, a temperature sensor 12 is fixedly connected in the second air duct 7, and the temperature sensor 12 is electrically connected with the second fan 9. The temperature sensor 12 is used for detecting the temperature in the second air duct 7, when the first air duct 6 does not meet the heat dissipation requirement, the temperature of the second air duct 7 rises under the action of the heat transfer element, and when the temperature sensor 12 detects that the temperature in the second air duct 7 reaches a preset value, the second fan 9 is controlled to start.

In an embodiment of the present invention, the temperature sensor 12 monitors the temperature and controls the second fan 9 to start or stop according to the prior art, which is not described herein.

In a further optimized scheme, the heat transfer element comprises a plurality of heat transfer columns 13 arranged in the first air channel 6, one ends of the heat transfer columns 13 are fixedly connected with the heat transfer plates 3, and the other ends of the heat transfer columns 13 penetrate through the air channel partition plate 5 and extend into the second air channel 7. The heat transfer column 13 is used to conduct part of the heat in the heat transfer plate 3 and the first air duct 6 into the second air duct 7, so as to improve the heat dissipation effect of the first air duct 6.

In a further optimized scheme, the heat transfer column 13 is fixedly connected with a radiating fin 14, and the radiating fin 14 is positioned in the second air duct 7. The existence of the heat sink 14 enables the heat in the first air duct 6 to be rapidly transferred into the second air duct 7, and the second fan 9 can rapidly dissipate the heat in the second air duct 7 due to the existence of the heat sink 14.

Further optimize the scheme, the installation department includes two L type fixed plates 15 that set up relatively, two L type fixed plates 15 and heat transfer plate 3 rigid couplings, two relative spouts 17 that set up are seted up to heat dissipation shell 1 inner wall, sliding connection has slider 18 in the spout 17, the last rigid coupling of slider 18 has L type movable plate 16, L type movable plate 16 and L type fixed plate 15 correspond the setting, L type movable plate 16 and L type fixed plate 15 pass through connecting bolt 19 and can dismantle the connection, storage hard disk 2 is located between L type fixed plate 15 and the L type movable plate 16, and storage hard disk 2 is fixed through L type fixed plate 15 and L type movable plate 16. The L-shaped fixed plate 15 is matched with the L-shaped moving plate 16, the storage hard disk 2 is clamped and fixed under the action of the connecting bolt 19, and due to the existence of the sliding groove 17 and the sliding block 18, the position of the L-shaped moving plate 16 can be adjusted, so that the storage hard disks 2 of different sizes can be fixed.

In a further optimized scheme, the heat transfer plate 3 is of a boss type structure, the end face, close to the storage hard disk 2, of the heat transfer plate 3 is in contact with the storage hard disk 2, and the end face, close to the storage hard disk 2, of the heat transfer plate 3 is flush with the end face of the L-shaped fixing plate 15. In order to quickly dissipate heat of the storage hard disk 2, one side end face of the storage hard disk 2 is in contact with the heat transfer plate 3 so as to quickly conduct heat, the storage hard disk 2 is not easy to contact with the heat transfer plate 3 due to the existence of the L-shaped fixing plate 15, and therefore the heat transfer plate 3 is set to be of a boss type structure, the structure can be used for fixing the storage hard disk 2 well, and the storage hard disk 2 can be in contact with the heat transfer plate 3.

Further optimize the scheme, the heat dissipation shell 1 has been seted up the installing port on keeping away from the lateral wall of first fan 8, and storage hard disk 2 is provided with visor 20 in putting into heat dissipation shell 1 through the installing port in the installing port, and visor 20 can dismantle with heat dissipation shell 1 through protection bolt 21 and be connected. The protective cover 20 is removed or mounted by the protective bolts 21 and the storage hard disk 2 is put in or taken out through the mounting opening for the purpose of facilitating the mounting or removal of the storage hard disk 2.

The use principle is as follows:

the protective cover 20 is opened, the storage hard disk 2 is placed between the L-shaped fixed plate 15 and the L-shaped moving plate 16, and the storage hard disk 2 is brought into contact with the heat transfer plate 3, then the L-shaped moving plate 16 is moved and brought into contact with the storage hard disk 2, the L-shaped fixed plate 15 and the L-shaped moving plate 16 are connected by the connecting bolt 19, and then the protective cover 20 is mounted. When the storage hard disk 2 is used, heat emitted by the storage hard disk 2 is guided into the first air channel 6 through the heat transfer plate 3, then the first air channel 6 works to guide the heat in the first air channel 6 out of the heat dissipation shell 1, when the first air channel 6 dissipates heat, part of the heat is guided into the second air channel 7 through the heat transfer columns 13 and the radiating fins 14, the heat in the second air channel 7 naturally dissipates heat, when the storage hard disk 2 works for a long time, after the first air channel 6 cannot meet the heat dissipation requirement, the temperature in the second air channel 7 is monitored by the temperature sensor 12 to rise, and therefore the second fan 9 is started to forcibly dissipate heat in the second air channel 7.

In the description of the present invention, it is to be understood that the terms "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, are merely for convenience of description of the present invention, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention.

The above-described embodiments are merely illustrative of the preferred embodiments of the present invention, and do not limit the scope of the present invention, and various modifications and improvements of the technical solutions of the present invention can be made by those skilled in the art without departing from the spirit of the present invention, and the technical solutions of the present invention are within the scope of the present invention defined by the claims.

Claims (8)

1. The storage hard disk with the heat dissipation mechanism comprises a heat dissipation shell (1), wherein the storage hard disk (2) is detachably mounted in the heat dissipation shell (1), and is characterized in that a heat transfer plate (3) is fixedly connected to the inner wall of the heat dissipation shell (1), the heat transfer plate (3) divides the interior of the heat dissipation shell (1) into a storage cavity (4) and a heat dissipation cavity, and the storage hard disk (2) is located in the storage cavity (4);

the heat dissipation part is arranged in the heat dissipation cavity and comprises an air channel partition plate (5) arranged in the heat dissipation cavity, the air channel partition plate (5) is matched with the heat dissipation shell (1) and the heat transfer plate (3) to divide the heat dissipation cavity into a first air channel (6) and a second air channel (7), the second air channel (7) is positioned on one side, away from the heat transfer plate (3), of the first air channel (6), a heat transfer piece is arranged in the first air channel (6), and the first air channel (6) conducts heat with the storage cavity (4) and the second air channel (7) through the heat transfer piece;

the installation part is arranged in the storage cavity (4) and used for fixing the storage hard disk (2).

2. The storage hard disk with a heat dissipation mechanism of claim 1, wherein: a side wall of the heat dissipation shell (1) is provided with a first fan (8) and a second fan (9), the first fan (8) and the second fan (9) are arranged in parallel with the air channel partition plate (5), the other side wall of the heat dissipation shell (1) is provided with a first exhaust port (10) and a second exhaust port (11), the first exhaust port (10) and the second exhaust port (11) are arranged perpendicularly to the air channel partition plate (5), the first fan (8) and the first exhaust port (10) are communicated with the first air channel (6), and the second fan (9) and the second exhaust port (11) are communicated with the second air channel (7).

3. The storage hard disk with a heat dissipation mechanism of claim 2, wherein: a temperature sensor (12) is fixedly connected in the second air duct (7), and the temperature sensor (12) is electrically connected with the second fan (9).

4. The storage hard disk with a heat dissipation mechanism of claim 1, wherein: the heat transfer element comprises a plurality of heat transfer columns (13) arranged in the first air channel (6), one ends of the heat transfer columns (13) are fixedly connected with the heat transfer plates (3), and the other ends of the heat transfer columns (13) penetrate through the air channel partition plate (5) and extend into the second air channel (7).

5. The storage hard disk with a heat dissipation mechanism of claim 4, wherein: and a radiating fin (14) is fixedly connected to the heat transfer column (13), and the radiating fin (14) is positioned in the second air duct (7).

6. The storage hard disk with a heat dissipation mechanism of claim 1, wherein: the installation department includes two L type fixed plates (15) that set up relatively, two L type fixed plate (15) with heat transfer plate (3) rigid coupling, spout (17) that two relative settings were seted up to heat dissipation shell (1) inner wall, sliding connection has slider (18) in spout (17), the rigid coupling has L type movable plate (16) on slider (18), L type movable plate (16) with L type fixed plate (15) correspond the setting, L type movable plate (16) with L type fixed plate (15) can dismantle the connection through connecting bolt (19), storage hard disk (2) are located between L type fixed plate (15) and L type movable plate (16), just storage hard disk (2) are passed through L type movable plate (15) and L type movable plate (16) are fixed.

7. The storage hard disk with a heat dissipation mechanism of claim 6, wherein: the heat transfer plate (3) is of a boss type structure, the end face, close to the storage hard disk (2), of the heat transfer plate (3) is in contact with the storage hard disk (2), and the end face, close to the storage hard disk (2), of the heat transfer plate (3) is flush with the end face of the L-shaped fixing plate (15).

8. The storage hard disk with a heat dissipation mechanism of claim 2, wherein: the heat dissipation shell (1) is far away from a mounting opening is formed in the side wall of the first fan (8), the storage hard disk (2) is placed into the heat dissipation shell (1) through the mounting opening, a protective cover (20) is arranged in the mounting opening, and the protective cover (20) is detachably connected with the heat dissipation shell (1) through a protective bolt (21).

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