CN222354726U - A cloud storage device - Google Patents

Abstract

The utility model relates to the technical field of cloud storage, in particular to cloud storage equipment, which comprises a shell, a first hard disk and a heat dissipation component, wherein a hard disk assembly space is arranged in the shell, the first hard disk and the heat dissipation component are assembled in the hard disk assembly space, the heat dissipation component comprises a turbofan, a first air inlet is formed in the bottom of the shell, the first air outlet is formed in the bottom of the shell, the air outlet of the turbofan is blown to the first air outlet, and an air guide inclined plane for guiding the air outlet of the first air outlet to the outside of the bottom of the shell is arranged in the hard disk assembly space, corresponding to the first air outlet. Because the air-out flows outwards towards the bottom under the direction of the air-guiding inclined plane to can drive outside air to flow towards the first air intake of bottom rapidly, accelerate the air inlet, improve the radiating effect, cloud storage equipment's radiating effect is good.

Description

Cloud storage equipment

Technical Field

The utility model relates to the technical field of cloud storage equipment, in particular to cloud storage equipment.

Background

Cloud storage devices (Network Attached Storage, NAS) are devices dedicated to storing data that can be conveniently accessed over a network. The cloud storage device can run an operating system, provide data storage and file services, and also can provide multimedia functions, cloud synchronization or remote access and the like.

Along with the continuous updating iteration of products and the continuous improvement of user demands, the miniaturization of cloud storage equipment is becoming one of the pursuit standards of industry. The space utilization requirement of the miniaturized cloud storage device on the heat dissipation system is high, which results in poor heat dissipation of the current heat dissipation system.

Disclosure of utility model

The embodiment of the utility model provides cloud storage equipment, which aims to solve the problems that the space utilization rate of a heat dissipation system is high in the prior art and the heat dissipation of the conventional heat dissipation system is poor.

The utility model discloses cloud storage equipment which comprises a shell, a first hard disk and a heat dissipation component, wherein a hard disk assembly space is arranged in the shell, the first hard disk and the heat dissipation component are assembled in the hard disk assembly space, the heat dissipation component comprises a turbofan, a first air inlet is formed in the bottom of the shell and corresponds to an air inlet of the turbofan, a first air outlet is formed in the bottom of the shell, air outlet of the turbofan blows to the first air outlet, and an air guide inclined plane for guiding the air outlet of the first air outlet to the outside of the bottom of the shell is arranged in the hard disk assembly space and corresponds to the first air outlet.

Optionally, the air guiding inclined plane is an arc inclined plane arranged at the side edge of the hard disk assembly space.

Optionally, the heat dissipation assembly further includes a heat dissipation member, where the heat dissipation member is disposed corresponding to the first hard disk, and an air outlet of the turbofan blows through the heat dissipation member.

Optionally, the upper edge of the arc-shaped inclined plane is close to the first air outlet, and the lower edge is close to the heat dissipation piece.

Optionally, the heat dissipation piece includes interconnect's mounting panel and radiator fin, and turbofan installs on the mounting panel, and turbofan's first air outlet corresponds the setting with radiator fin, radiator fin corresponds the setting with first air outlet.

Optionally, the heat radiation fins are close to the air guiding inclined plane, and the mounting plate is far away from the air guiding inclined plane.

Optionally, two turbofans are provided, the two turbofans are both installed on the installation plate, and the first air inlet is provided with two corresponding two turbofans.

Optionally, the shell comprises a cover plate, the cover plate is detachably arranged on the hard disk assembly space in a covering mode, the first air inlet and the first air outlet are arranged on the cover plate, and the heat dissipation piece is arranged on the inner side face of the cover plate.

Optionally, an airflow blocking edge is arranged between the first air inlet and the first air outlet on the bottom of the shell, and the airflow blocking edge is used for blocking air circulation between the first air inlet and the first air outlet.

Optionally, the cloud storage device further comprises a main control circuit board, wherein the main control circuit board is arranged in the shell, and the main control circuit board is provided with an inserting port;

A first opening penetrating the inside of the shell is arranged in the hard disk assembly space, the plug-in port is inserted in the first opening from the inside of the shell, the connecting end of the first hard disk is inserted in the plug-in port, and/or

The bottom of the shell is provided with a spacing space, and the first air inlet and the first air outlet are positioned at the spacing space, so that the first air inlet and the first air outlet are spaced from the placing surface of the cloud storage equipment.

Compared with the prior art, the cloud storage device has the beneficial effects that the cloud storage device is provided with the hard disk assembly space at the bottom of the shell, the hard disk assembly space is used as the special assembly space of the first hard disk, the special heat dissipation assembly is correspondingly arranged, and the heat is blown away by the correspondingly arranged turbofan, so that the first hard disk can be more effectively dissipated in the small space. And the position corresponding to the first air outlet in the hard disk assembly space is provided with an air guide inclined plane which guides the air outlet of the first air outlet to the outside of the bottom of the shell, and the air outlet of the first air outlet flows outwards towards the bottom of the shell under the guiding action of the air guide inclined plane, so that hot air blown out of the first air outlet is not easy to be sucked back into the hard disk assembly space again with the first air inlet at the bottom, and the heat dissipation effect is ensured. And because the air-out flows outwards towards the bottom under the direction of the air-guiding inclined plane to can drive the outside air to flow towards the first air intake of bottom rapidly, accelerate the air inlet, improve the radiating effect, cloud storage equipment's radiating effect is good.

Drawings

The technical scheme of the utility model will be further described in detail below with reference to the accompanying drawings and examples, wherein:

FIG. 1 is a schematic diagram of a cloud storage device according to an embodiment of the present utility model;

FIG. 2 is a schematic diagram of the bottom of a cloud storage device according to an embodiment of the present utility model;

FIG. 3 is an exploded schematic view of a cloud storage device according to an embodiment of the present utility model;

FIG. 4 is a schematic diagram of a heat dissipating assembly according to an embodiment of the present utility model in a hard disk assembly space;

FIG. 5 is a schematic view of a heat dissipating assembly according to an embodiment of the present utility model mounted on a cover plate;

fig. 6 is a schematic diagram of an assembly space of a hard disk according to an embodiment of the present utility model.

The reference numerals in the drawings are as follows:

1. The device comprises a shell, a hard disk assembly space, 111, an air guide inclined plane, 112, a first opening, 12, a cover plate, 121, a first air inlet, 122, a first air outlet, 13, foot pads, 2, a first hard disk, 3, a heat dissipation assembly, 31, a turbofan, 32, a heat dissipation piece, 321, a mounting plate, 322, heat dissipation fins, 4, a plug-in mounting port, 5, an interval space, 6, a connection thimble, 7, a connection circuit board, 71, a connection terminal, 8 and a heat conduction piece.

Detailed Description

It should be noted that, without conflict, the embodiments of the present utility model and features of the embodiments may be combined with each other. Preferred embodiments of the present utility model will now be described in detail with reference to the accompanying drawings.

The embodiment of the utility model provides cloud storage equipment, which is shown in fig. 1 to 4, and comprises a shell 1, a first hard disk 2 and a heat dissipation component 3, wherein a hard disk assembly space 11 is arranged in the shell 1, the first hard disk 2 and the heat dissipation component 3 are assembled in the hard disk assembly space 11, the heat dissipation component 3 comprises a turbofan 31, a first air inlet 121 is arranged at the bottom of the shell 1 and corresponds to an air inlet of the turbofan 31, a first air outlet 122 is arranged at the bottom of the shell 1, air outlet of the turbofan 31 blows to the first air outlet 122, and an air guide inclined plane 111 for guiding air outlet of the first air outlet 122 to the outside of the bottom of the shell 1 is arranged in the hard disk assembly space 11 and corresponds to the first air outlet 122.

According to the cloud storage device, the hard disk assembly space 11 is arranged at the bottom of the shell 1, the hard disk assembly space 11 is used as an assembly space special for the first hard disk 2, the special heat dissipation assembly 3 is correspondingly arranged, and heat is blown away by the correspondingly arranged turbofan 31, so that the first hard disk 2 can be dissipated in a small space more effectively. The air guiding inclined plane 111 guiding the air outlet of the first air outlet 122 to the outside of the bottom of the housing 1 is disposed in the hard disk assembly space 11 corresponding to the position of the first air outlet 122, and the air outlet of the first air outlet 122 flows towards the outside of the bottom of the housing 1 under the guiding action of the air guiding inclined plane 111, so that the hot air blown out by the first air outlet 122 is not easily sucked back into the hard disk assembly space 11 again with the first air inlet 121 at the bottom, thereby ensuring the heat dissipation effect. And because the air-out flows outwards towards the bottom under the guiding of the air guiding inclined plane 111, the external air can be driven to flow towards the bottom first air inlet 121 rapidly, the air-in is quickened, the heat dissipation effect is improved, and the heat dissipation effect of the cloud storage equipment is good.

Specifically, the hard disk assembly space 11 is provided at the bottom inside the casing 1. The first hard disk 2 may be a Solid state disk (Solid-STATE DRIVE, abbreviated as SSD), and the first hard disk 2 may be provided with a plurality of first hard disks, and is installed in the hard disk assembly space 11 side by side, for example, four first hard disks 2 are provided side by side.

Specifically, on the bottom of the housing 1, an airflow blocking edge is disposed between the first air inlet 121 and the first air outlet 122, and the airflow blocking edge is used for blocking air circulation between the first air inlet 121 and the first air outlet 122. In this solution, an airflow blocking edge is further disposed between the first air inlet 121 and the first air outlet 122 to block, so that the possibility that the hot air of the first air outlet 122 is sucked back to the first air inlet 121 can be reduced. The air flow blocking edge is a blocking edge with a certain height formed on the bottom surface of the shell 1. Specifically, when the first air inlet 121 and the first air outlet 122 are disposed on the cover plate 12 described below, the airflow blocking edge is correspondingly disposed on the cover plate 12.

The cloud storage device further comprises a main control circuit board, and the main control circuit board is installed in the shell 1. Further referring to fig. 6, a main control circuit board is provided with a plug-in port 4. The first opening 112 penetrating the inside of the housing 1 is formed in the hard disk mounting space 11, the insertion opening 4 is inserted into the first opening 112 from the inside of the housing 1, and the connection end of the first hard disk 2 is inserted into the insertion opening 4. The plug-in port 423 may be, for example, an m.2 interface. The first hard disk 2 is inserted into the insertion port 4 to realize the installation and use thereof. The other end of the first hard disk 2 can be fixed by screw clamping. Further, a space 5 is formed at the bottom of the housing 1, and the first air inlet 121 and the first air outlet 122 are located at the space 5, so that the first air inlet 121 and the first air outlet 122 are spaced from the placement surface of the cloud storage device. The space 5 is convenient for ventilation of bottom air after the cloud storage device is placed on the placement surface, and ensures that air can enter the hard disk assembly space 11 from the first air inlet 121 and blow out from the first air outlet 122. Specifically, the foot pad 13 may be provided at the bottom of the housing 1 to form the space 5, or the foot pad may be provided at the bottom to form the space 5. When the bottom is concave, the concave edge may be provided with a notch for airflow circulation corresponding to the first air inlet 121 and the first air outlet 122.

Specifically, the heat dissipation assembly 3 further includes a heat dissipation member 32, where the heat dissipation member 32 is disposed corresponding to the first hard disk 2, and the air outlet of the turbofan 31 blows through the heat dissipation member 32. The heat sink 32 can quickly remove heat.

The air guiding inclined plane 111 is an arc inclined plane arranged at the side of the hard disk assembly space 11. The arc inclined surface is favorable for smoothly and effectively guiding the air flow blown out by the turbofan 31 to the first air outlet 122 for blowing out, reduces wind resistance, reduces noise and improves the air guiding efficiency. The upper edge of the arc-shaped inclined surface is disposed near the first air outlet 122, and the lower edge is disposed near the heat sink 32. In this scheme, the two side edges of the arc inclined plane are close to the butt joint first air outlet 122 and the heat dissipation piece 32 respectively, and the air flow passing through the heat dissipation piece 32 can be directly guided to the first air outlet 122 by the arc inclined plane, so that the air flow is reduced to flow all around.

The heat dissipation element 32 includes a mounting plate 321 and heat dissipation fins 322 that are connected to each other, the turbo fan 31 is mounted on the mounting plate 321, the first air outlet 122 of the turbo fan 31 is disposed corresponding to the heat dissipation fins 322, and the heat dissipation fins 322 are disposed corresponding to the first air outlet 122. The heat sink 32 provides a mounting position for the turbofan 31 in addition to being a heat sink. The first air outlet 122 of the turbofan 31 is disposed corresponding to the heat dissipation fins 322, and the heat dissipation fins 322 are disposed corresponding to the first air outlet 122, so that heat of the heat dissipation fins 322 can be rapidly taken away from the first air outlet 122. Specifically, the heat dissipation fins 322 are close to the air guiding inclined plane 111, and the mounting plate 321 is far away from the air guiding inclined plane 111. The heat dissipation fins 322 are disposed close to the air guiding inclined plane 111 as the main heat dissipation part of the heat dissipation member 32, so that the heat of the heat dissipation fins 322 can be rapidly taken away through the air guiding inclined plane 111 and the first air outlet 122. The two turbofans 31 are arranged, the two turbofans 31 are mounted on the mounting plate 321, and the two first air inlets 121 are arranged corresponding to the two turbofans 31, so that the heat dissipation effect is improved.

Further, the first hard disk 2 is attached with a heat conducting member 8, and the heat dissipating member 32 is attached to the heat conducting member 8. The heat conducting piece 8 can improve the heat transfer speed on the first hard disk 2, and the heat dissipation effect is better. The heat conductive member 8 may be a heat conductive sheet.

Further, as shown in fig. 2, 3 and 5, the housing 1 includes a cover plate 12, the cover plate 12 is detachably disposed on the hard disk assembly space 11, and the first air inlet 121 and the first air outlet 122 are disposed on the cover plate 12. The detachable cover plate 12 is arranged to enable the hard disk assembly space 11 to be overhauled and disassembled by the heat radiation assembly 3 and the first hard disk 2 at any time. The cover plate 12 can be fixedly arranged on the hard disk assembly space 11 through screws, so that the cover plate can be detachably arranged. Specifically, the heat dissipation element 32 is mounted on the inner side surface of the cover plate 12, the turbofan 31 and the heat dissipation element 32 are mounted on the cover plate 12 to form a modularization, the turbofan 31 and the heat dissipation element 32 can be taken away simultaneously when the cover plate 12 is opened, the first hard disk 2 is exposed, and the first hard disk 2 is convenient to assemble, disassemble and overhaul. Connection thimble 6 can be arranged on the main control circuit board, connection thimble 6 is arranged in a through hole in the hard disk assembly space 11 in a penetrating mode, the inner side face of the cover plate 12 is provided with a connection circuit board 7 which is connected with the turbofan 31 through a socket and a plug, and the connection circuit board 7 is correspondingly provided with a connection terminal 71. When the cover plate 12 is covered on the hard disk assembly space 11, the connecting thimble 6 is connected with the connecting terminal 71, so that the power-on and control of the turbofan 31 are realized.

It should be understood that the foregoing embodiments are merely illustrative of the technical solutions of the present utility model and not limiting thereof, and that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, and all such modifications and substitutions are intended to fall within the scope of the appended claims.

Claims (10)

1. A cloud storage device is characterized by comprising a shell, a first hard disk and a heat dissipation assembly, wherein a hard disk assembly space is arranged in the shell, the first hard disk and the heat dissipation assembly are assembled in the hard disk assembly space, the heat dissipation assembly comprises a turbofan, a first air inlet is formed in the bottom of the shell and corresponds to an air inlet of the turbofan, a first air outlet is formed in the bottom of the shell, air outlet of the turbofan blows to the first air outlet, and an air guide inclined plane for guiding air outlet of the first air outlet to the outside of the bottom of the shell is arranged in the hard disk assembly space and corresponds to the first air outlet.

2. The cloud storage apparatus of claim 1, wherein the wind guiding inclined surface is an arc inclined surface disposed at a side of the hard disk assembly space.

3. The cloud storage apparatus of claim 2, wherein said heat dissipating assembly further comprises a heat dissipating member disposed in correspondence to said first hard disk, said heat dissipating member being blown by an air outlet of said turbofan.

4. The cloud storage apparatus of claim 3, wherein an upper edge of said arcuate ramp is disposed adjacent said first air outlet and a lower edge is disposed adjacent said heat sink.

5. The cloud storage apparatus of claim 3, wherein said heat sink comprises a mounting plate and heat sink fins connected to each other, said turbo fan is mounted on said mounting plate, a first air outlet of said turbo fan is disposed corresponding to said heat sink fins, and said heat sink fins are disposed corresponding to said first air outlet.

6. The cloud storage device of claim 5, wherein said heat fins are proximate to said air guiding ramp, and said mounting plate is distal to said air guiding ramp.

7. The cloud storage apparatus of claim 5, wherein two turbofans are provided, both of said turbofans are mounted on said mounting plate, and said first air inlet is provided with two corresponding two of said turbofans.

8. The cloud storage apparatus of claim 5, wherein said housing comprises a cover plate detachably covering said hard disk assembly space, said first air inlet and said first air outlet are provided on said cover plate, and said heat sink is mounted on an inner side surface of said cover plate.

9. The cloud storage apparatus of any of claims 1 to 8, wherein an airflow blocking edge is provided between the first air inlet and the first air outlet on the housing bottom, the airflow blocking edge being for blocking air circulation between the first air inlet and the first air outlet.

10. The cloud storage apparatus of any of claims 1 to 8, further comprising a main control circuit board mounted in the housing, the main control circuit board having a plug-in port provided thereon;

A first opening penetrating the inside of the shell is arranged in the hard disk assembly space, the plug-in port is plugged in the first opening from the inside of the shell, and the connecting end of the first hard disk is plugged in the plug-in port, and/or

The shell bottom is formed with the interval space, first air intake, first air outlet are located interval space department, so that first air intake, first air outlet with cloud storage device's the face of placing has the interval.