CN113936703A - Linkage radiating computer big data storage device - Google Patents

Abstract

The invention provides a linkage heat dissipation computer big data storage device, and belongs to the technical field of big data storage devices. The integrated heat dissipation device comprises a shell component, a storage assembly, a top fan assembly and a linkage heat dissipation assembly, wherein the shell component is integrally arranged in the shell component; a storage module in the storage device is arranged on the bottom shell, and a storage socket in the integrated plug-in tray capable of automatically lifting and moving corresponds to the storage module; a top fan assembly corresponding to the position of the integrated plug tray is arranged in the top shell, and a top fan in the top fan assembly can be automatically opened in the process of ascending and moving the integrated plug tray; after the integrated plug disc ascends and moves to a preset position, the mixed flow driving gear and the mixed flow gear form matched transmission through the linkage heat dissipation assembly synchronously, so that the mixed flow fan starts to work synchronously, the rapid heat dissipation of the inner cavity of the shell component is formed, and the integration degree is high.

Description

Linkage radiating computer big data storage device

Technical Field

The invention relates to the technical field of big data storage devices, in particular to a linkage heat dissipation computer big data storage device.

Background

The development of the era and the economic development, the internet technology has also been rapidly improved, thereby promoting the data to have a remarkable growth speed and the quantity to be increased continuously, which also marks the coming of the big data era. In the background of this time, people are also gradually bringing the computer technology into full play to store and transmit data.

Compared with the prior computer storage and transmission technology, the data processing related technology under the background of big data era is more advanced and more convenient, most of the existing big data storage devices integrate a storage module on a fixed device for rapid storage, and for hardware corresponding to the storage module, measures such as dust prevention, moisture prevention and the like are only simply set, for example, the computer big data storage device disclosed by the prior art (CN 112053709A) comprises a memory, a moisture-proof base, a data connector and a connecting wire, wherein the connecting wire is connected with the data connector, the memory is provided with a data socket, the memory is connected with a threaded interface, the threaded interface wraps the data socket, the data connector is electrically connected with the data socket, the inner wall of the memory is movably connected with a dust cover, the memory is provided with the data socket, the threaded interface is installed in the data socket, The dustproof cover, the threaded screwing cover, the limiting block, the limiting spring and the fixing plate can protect the data socket, dust is prevented from entering the data socket, the fixed shell, the clamping plate, the bidirectional screw rod, the hand wheel and the wire netting are installed on the top end of the damp-proof base in the internal installation fan and the air duct of the damp-proof base, and the storage can be cooled.

However, the traditional heat dissipation mode using the fan and the wire netting cannot effectively filter dust, and with the increase of the use degree, the dust enters the inside of the storage through the wire netting to influence the use of the device; on the other hand, the traditional mode of simply setting up the fan at a certain fixed position has a better heat dissipation effect on the area of the fan accessories, and can not form effective heat dissipation for other areas which can not be covered by the fan.

Disclosure of Invention

In order to solve the technical problems in the background art, the invention provides a linkage heat dissipation computer big data storage device, which comprises a shell assembly, a storage assembly, a top fan assembly and a linkage heat dissipation assembly, wherein the storage assembly comprises an integrated plug-in tray, a lifting frame, a lifting slide block, a lifting screw rod and a lifting motor;

the integrated plug board in the storage assembly is vertically arranged in the middle of the inner cavity of the shell assembly and can extend out of the shell assembly, a lifting frame is connected below the integrated plug board, a lifting slide block is fixed at the bottom end of the lifting frame, a lifting lead screw is installed in the lifting slide block in a matched mode, the lower end shaft of the lifting lead screw is connected with a lifting motor, the lifting motor is arranged at the bottom end of the inner cavity of the shell assembly, a top fan in the top fan assembly is connected to the top of the inner cavity of the shell assembly in a rotating mode, the top fan is located corresponding to the integrated plug board, a heat dissipation plate in the linkage heat dissipation assembly is arranged on one side of the outer wall of the shell assembly, an air inlet plate is arranged on the other side of the outer wall of the shell assembly, the space in the inner cavity of the shell assembly is communicated with the outer space through the heat dissipation plate, two groups of mixed flow fans are symmetrically connected in the inner cavity of the shell assembly in a rotating mode, and the upper end of each group of each mixed flow fan is connected with a mixed flow gear, the front side and the rear side of the lifting frame are provided with mixed flow driving motors at positions corresponding to the two groups of mixed flow gears, each group of mixed flow driving motors are connected with mixed flow driving gears through shafts, and the mixed flow driving gears can be meshed with the corresponding mixed flow gears.

A main shell in the shell assembly is of a cavity structure with an upper opening and a lower opening, a bottom shell is fixed at the lower end of the main shell, a top shell is fixed at the upper end of the main shell, a plurality of groups of feet are uniformly fixed at the lower end of the bottom shell, and the whole computer big data storage device is placed on an operation plane through the feet;

the outer wall of one side of the main shell is provided with a heat dissipation port, the outer wall of the other side of the main shell is provided with an air inlet at a position corresponding to the heat dissipation port, the heat dissipation plate is fixedly connected with the heat dissipation port, and the air inlet plate is fixedly connected with the air inlet;

a top fan opening is formed in the middle of the main plane of the top shell;

the upper end of a plug tray bottom column in the storage assembly is fixed at the lower end of the integrated plug tray, and the upper end of the lifting frame is fixed at the lower end of the plug tray bottom column;

the bottom surface of the lifting motor is fixed on a lifting motor base, and the lower end of the lifting motor base is fixed on the upper plane of the bottom shell;

a top fan rotating shaft in the top fan assembly is fixed on the inner bottom surface of the top shell, the top fan rotating shaft is positioned on one side of a top fan opening, and one end of the top fan is rotatably connected in the top fan rotating shaft;

an opening and closing internal gear is further fixed on the inner bottom surface of the top shell, the center of the opening and closing internal gear is coaxial with the top fan rotating shaft, a linkage shaft is fixed on the position, corresponding to the opening and closing internal gear, of the main surface of the top fan, an opening and closing linkage gear is rotatably connected in the linkage shaft, the opening and closing linkage gear can be meshed with the opening and closing internal gear, an opening and closing driving gear is meshed on the other side of the opening and closing linkage gear, the opening and closing driving gear is connected with an opening and closing driving motor shaft, and the opening and closing driving motor is fixed on the main surface of the top fan;

two groups of lower shaft seats in the linkage heat dissipation assembly are fixed on the upper plane of the bottom shell in front and back positions by taking a lifting screw as a center, an upper shaft bracket is fixed on the inner bottom surface of the top shell, two groups of upper shaft seats are fixed on the positions of the bottom surface of the upper shaft bracket corresponding to the lower shaft seats, and two groups of mixed flow fans are respectively connected into the corresponding lower shaft seats through the lower mixed flow lower shafts at the lower ends and are connected into the corresponding upper shaft seats through the mixed flow upper shafts at the upper ends;

the two groups of mixed flow driving motors are respectively fixed on the corresponding mixed flow motor bases, and the two groups of mixed flow motor bases are correspondingly fixed at the two ends of the lifting frame in front and back;

a heat dissipation fan support is fixed in an inner cavity of the heat dissipation plate, a heat dissipation fan is rotatably connected to the middle of the heat dissipation fan support, a plurality of groups of heat dissipation through holes are formed in the main surface of the heat dissipation fan support by taking the heat dissipation fan as the center, an air outlet filter core is installed in a cavity formed by the heat dissipation fan support and the heat dissipation plate, and the air outlet filter core is communicated with a heat dissipation port;

an air inlet filter element is installed in the inner cavity of the air inlet plate and communicated with the air inlet.

Furthermore, the upper plane of the integrated plug board is provided with a plurality of groups of storage sockets, the main shell is symmetrically provided with storage modules with the same number as the storage sockets, and each group of storage sockets are connected with a corresponding group of storage modules.

Furthermore, auxiliary lifting guide rails are symmetrically and vertically fixed on the left side and the right side of the lifting motor base, auxiliary lifting slide blocks are fixed on the left side and the right side of the lifting frame and the positions corresponding to the auxiliary lifting guide rails, and each group of auxiliary lifting slide blocks are slidably connected into the corresponding auxiliary lifting guide rails.

Furthermore, both ends of the opening and closing internal gear are respectively and fixedly connected with an opening clamping position and a closing clamping position.

Furthermore, the outer walls of the heat dissipation plate and the air inlet plate are uniformly provided with air vents, and the air vents are of structures with downward air inlet openings.

Compared with the existing computer big data storage device, the computer big data storage device with linkage heat dissipation provided by the invention has the following advantages:

(1) the storage assembly is integrally arranged in the inner cavity of the shell assembly, the top shell in the shell assembly is provided with the top fan assembly, when the large data storage device is in a standby state, the opening and closing driving motor is started, the opening and closing driving motor drives the opening and closing driving gear to be matched with the opening and closing linkage gear, and the opening and closing linkage gear is matched with the opening and closing internal gear for transmission, so that the top fan body can be driven to move along the path of the opening and closing internal gear, the top fan opening is closed, and dust can be prevented from falling into the storage assembly in a non-use state.

(2) The integrated plug-in tray in the storage assembly can automatically lift up and down, when large data storage is needed, the lifting motor is started to drive the lifting screw to rotate, the lifting screw and the lifting slider form matched transmission, so that the lifting frame connected with the lifting slider can be driven to move upwards, the lifting frame drives the integrated plug-in tray to move upwards through the plug-in tray bottom column, the integrated plug-in tray can be moved to the outside of the top fan opening in the shell component finally, an operator can store the large data through the storage socket on the plane of the integrated plug-in tray, and the automation degree is high.

(3) The interior of the shell component of the invention is also provided with a linkage heat dissipation assembly, two groups of mixed flow driving motors are respectively fixed on corresponding mixed flow motor bases, the two groups of mixed flow motor bases are correspondingly fixed at the two ends of a lifting frame in a storage assembly in front and back, when an integrated plug-in plate moves upwards to a preset position outside a top fan port for large data storage, a heat dissipation fan in the linkage heat dissipation assembly starts to work synchronously, heat generated in the large data storage process in the shell component can be dissipated, air with lower relative temperature in the external environment enters the shell component through an air inlet plate for cooling treatment, rapid cooling is achieved through convection of the air, correspondingly, the upward movement of the lifting frame drives the mixed flow driving motors connected through the mixed flow motor bases to move, after the integrated plug-in plate moves upwards to the preset position, the mixed flow driving gear connected with the mixed flow driving motor shafts just forms meshing with the mixed flow gears, the rotating of the mixed flow fan coaxially connected with the mixed flow gear can be driven, the exchange speed of air circulation in the inner cavity of the shell component can be accelerated, the cooling process can be further accelerated, and the purpose of rapid dust-free heat dissipation of the storage assembly in the shell component is finally achieved.

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 description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic diagram of an overall structure of a large data storage device of a computer with linkage heat dissipation according to the present invention;

FIG. 2 is a schematic view of an exploded structure of the housing assembly of the present invention;

FIG. 3 is a schematic view of the mounting structure of the storage assembly of the present invention;

FIG. 4 is a schematic structural diagram of a memory assembly of the present invention;

FIG. 5 is a schematic view of the construction of the ceiling fan assembly of the present invention;

FIG. 6 is a schematic view of the structure of the open and close internal gear portion of the ceiling fan assembly according to the present invention;

FIG. 7 is a schematic view of an installation structure of the linked heat dissipation assembly of the present invention;

FIG. 8 is a schematic structural view of a linked heat dissipation assembly according to the present invention;

FIG. 9 is a schematic structural view of a heat dissipating plate portion of the linked heat dissipating assembly of the present invention;

FIG. 10 is a schematic structural view of an air inlet plate portion of the linked heat dissipation assembly of the present invention;

FIG. 11 is a schematic view of a vent portion of the linked heat dissipation assembly of the present invention.

Reference numerals: 1. a housing assembly; 2. a storage assembly; 3. a ceiling fan assembly; 4. a linkage heat dissipation assembly; 101. a main housing; 102. a bottom case; 103. a top shell; 104. ground feet; 105. a heat dissipation port; 106. an air inlet; 107. a top fan opening; 201. integrating the plug-in tray; 202. a storage socket; 203. a tray bottom pillar; 204. a lifting frame; 205. a lifting slide block; 206. lifting a screw rod; 207. a lifting motor; 208. a lifting motor base; 209. a storage module; 210. auxiliary lifting guide rails; 211. auxiliary lifting slide blocks; 301. a ceiling fan rotating shaft; 302. a top fan; 303. an opening and closing inner gear; 304. an opening and closing linkage gear; 305. a linkage shaft; 306. an opening and closing driving gear; 307. an opening and closing driving motor; 308. opening the clamping position; 309. closing the clamping position; 401. a heat dissipation plate; 402. an air inlet plate; 403. a lower shaft seat; 404. an upper shaft bracket; 405. an upper shaft seat; 406. a mixed flow fan; 407. a lower shaft of the mixing flow; 408. a mixed flow upper shaft; 409. a mixed flow gear; 410. a mixed flow driving gear; 411. a mixed flow drive motor; 412. a mixed-flow motor base; 413. a heat radiation fan bracket; 414. a heat dissipating via; 415. a heat radiation fan; 416. an air outlet filter element; 417. an air inlet filter element; 418. a vent hole.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, 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 some, but not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc., indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

The following describes an example of a computer big data storage device with linkage heat dissipation provided by the invention with reference to the attached drawings.

The first embodiment is as follows:

an example of the invention for realizing big data storage is shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5 and fig. 6, the whole computer big data storage device is placed on an operation plane through a ground pin 104 in the shell component 1;

an integrated plug tray 201 in the storage assembly 2 is vertically arranged in the middle of the inner cavity of the shell component 1, a lifting frame 204 is connected below the integrated plug tray 201, a lifting slide block 205 is fixed at the bottom end of the lifting frame 204, a lifting lead screw 206 is installed in the lifting slide block 205 in a matching manner, the lower end shaft of the lifting lead screw 206 is connected to a lifting motor 207, and the lifting motor 207 is arranged at the bottom end of the inner cavity of the shell component 1;

the top fan 302 in the top fan assembly 3 is rotatably connected to the top of the inner cavity of the shell component 1, and the position of the top fan 302 corresponds to the position of the integrated plug tray 201;

in the standby state of the computer big data storage device, the integrated plug tray 201 in the storage assembly 2 is wholly positioned in the inner cavity of the shell component 1, before the integrated plug tray 201 positioned in the inner cavity of the shell component 1 moves upwards, the opening and closing driving motor 307 is started, the opening and closing driving motor 307 drives the opening and closing driving gear 306 to be matched with the opening and closing linkage gear 304, the opening and closing linkage gear 304 is in matched transmission with the opening and closing inner gear 303, so that the top fan 302 body can be driven to move along the path of the opening and closing inner gear 303, the top fan opening 107 is opened, and after the top fan 302 moves to the opening clamping position 308, the top fan opening 107 is completely opened;

after the top sector port 107 is completely opened, the lifting motor 207 in the storage assembly 2 is started to drive the lifting screw 206 to rotate, the lifting screw 206 and the lifting slider 205 form matched transmission, so that the lifting frame 204 connected with the lifting slider 205 can be driven to move upwards, the lifting frame 204 drives the integrated plug tray 201 to move upwards through the plug tray bottom column 203, finally, the integrated plug tray 201 can be moved to the outside of the top sector port 107 in the shell assembly 1, and an operator can realize the storage of big data through the storage socket 202 on the upper plane of the integrated plug tray 201;

specifically, a plurality of sets of storage sockets 202 are formed in the upper plane of the integrated plug tray 201, the same number of storage modules 209 as the number of the storage sockets 202 are symmetrically installed in the main housing 101, and each set of storage sockets 202 is connected with a corresponding set of storage modules 209, so that a worker can store data in different storage modules 209 through different storage sockets 202 at the same time, and the working efficiency is higher compared with a single data transmission channel mode;

optimally, auxiliary lifting guide rails 210 are vertically and symmetrically fixed on the left side and the right side of the lifting motor base 208, auxiliary lifting sliders 211 are fixed on the positions, corresponding to the auxiliary lifting guide rails 210, on the left side and the right side of the lifting frame 204, each group of auxiliary lifting sliders 211 is slidably connected into the corresponding auxiliary lifting guide rail 210, so that the lifting process of the lifting frame 204 connected with the lifting sliders 205 and the integrated plug tray 201 driven by the matching of the lifting lead screws 206 and the lifting sliders 205 is more stable, and the stability of the computer big data storage device can be improved.

Example two:

examples of the invention for realizing heat dissipation in the process of storing big data are shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 7, fig. 8, fig. 9, fig. 10 and fig. 11, a heat dissipation plate 401 in a linkage heat dissipation assembly 4 is arranged on a heat dissipation port 105 in a shell component 1, an air inlet plate 402 is arranged on an air inlet 106 in the shell component 1, the space of the inner cavity of the shell component 1 is communicated with the air inlet plate 402 through the heat dissipation plate 401, two groups of mixed flow fans 406 are symmetrically screwed in the inner cavity of the shell component 1, the upper end of each group of mixed flow fans 406 is connected with a mixed flow gear 409 in a shaft, mixed flow driving motors 411 are arranged at the front side and the rear side of a lifting frame 204 and at positions corresponding to the two groups of mixed flow gears 409, a mixed flow driving gear 410 is connected to each group of mixed flow driving motors 411 in a shaft, the mixed flow driving gear 410 can be meshed with the corresponding mixed flow gear 409, the two groups of mixed flow driving motors 411 are respectively fixed on the corresponding mixed flow motor bases 412, the two groups of mixed-flow motor bases 412 are correspondingly fixed at the two ends of the lifting frame 204 in the storage assembly 2 in a front-back manner;

a heat dissipation fan support 413 is fixed in an inner cavity of the heat dissipation plate 401, a heat dissipation fan 415 is rotatably connected in the middle of the heat dissipation fan support 413, a plurality of groups of heat dissipation through holes 414 are formed in the main surface of the heat dissipation fan support 413 by taking the heat dissipation fan 415 as a center, an air outlet filter element 416 is installed in a cavity formed by the heat dissipation fan support 413 and the heat dissipation plate 401, and an air inlet filter element 417 is installed in an inner cavity of the air inlet plate 402;

when the integrated plug tray 201 moves upwards to a preset position outside the top fan opening 107 for storing big data, the heat dissipation fan 415 in the linkage heat dissipation assembly 4 starts to work synchronously, so that heat generated in the process of storing the big data in the shell component 1 can be dissipated, air with lower relative temperature in the external environment enters the shell component 1 through the air inlet plate 402 for cooling treatment, and rapid cooling is achieved through air convection;

synchronously, the upward movement of the lifting frame 204 in the storage assembly 2 can drive the mixed flow driving motor 411 connected through the mixed flow motor base 412 to move, when the integrated plug 201 moves upward to a preset position to perform large data storage operation, the mixed flow driving gear 410 connected with the mixed flow driving motor 411 in the linkage heat dissipation assembly 4 is just meshed with the mixed flow gear 409, so that the mixed flow fan 406 coaxially connected with the mixed flow gear 409 can be driven to rotate, the exchange speed of air circulation in the inner cavity of the shell component 1 can be accelerated, the cooling process can be further accelerated, and the efficient and stable operation of a large data storage device of a computer can be ensured;

optimally, the vent hole 418 in the linked heat dissipation assembly 4 is of a structure with a downward air inlet opening, so that when the heat dissipation fan 415 drives the inner cavity of the housing component 1 to dissipate heat, foreign matters and dust in the external environment can be prevented from assisting in forming blockage in the vent hole 418.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims (9)

1. The utility model provides a big data storage device of linkage radiating computer, includes housing assembly (1), its characterized in that: the solar energy storage device also comprises a storage assembly (2), a top fan assembly (3) and a linkage heat dissipation assembly (4);

the storage assembly (2) comprises an integrated plug tray (201), a lifting frame (204), a lifting slider (205), a lifting lead screw (206) and a lifting motor (207), the top fan assembly (3) comprises a top fan (302), and the linkage heat dissipation assembly (4) comprises a heat dissipation plate (401), an air inlet plate (402), a mixed flow fan (406), a mixed flow gear (409), a mixed flow driving gear (410) and a mixed flow driving motor (411);

integrated plug board (201) is vertically arranged at the middle position of the inner cavity of the shell assembly (1) in the storage assembly (2) and can extend out of the shell assembly (1), a lifting frame (204) is connected below the integrated plug board (201), a lifting slider (205) is fixed at the bottom end of the lifting frame (204), a lifting lead screw (206) is installed in the lifting slider (205) in a matching manner, the lower end shaft of the lifting lead screw (206) is connected with a lifting motor (207), the lifting motor (207) is arranged at the bottom end of the inner cavity of the shell assembly (1), a top fan (302) in the top fan assembly (3) is connected to the top of the inner cavity of the shell assembly (1) in a screwing manner, the position of the top fan (302) corresponds to the integrated plug board (201), a heat dissipation plate (401) in the linkage heat dissipation assembly (4) is arranged at one side of the outer wall of the shell assembly (1), and an air inlet plate (402) is arranged at the other side of the outer wall of the shell assembly (1), casing subassembly (1) inner chamber space passes through heating panel (401) and air inlet plate (402) and exterior space intercommunication, and is two sets of what mixed flow fan (406) symmetry connect soon in the inner chamber of casing subassembly (1), every group the upper end of mixed flow fan (406) is all hub connections to have mixed flow gear (409), all be equipped with mixed flow driving motor (411) on the position that both sides and two sets of mixed flow gear (409) correspond around lift frame (204), every group all hub connections have mixed flow drive gear (410) on mixed flow driving motor (411), mixed flow drive gear (410) can form the meshing with mixed flow gear (409) that correspond.

2. The large data storage device of a computer with linkage heat dissipation according to claim 1, wherein: the utility model discloses a fan structure, including casing body (101), air inlet plate (401), air inlet plate (402), air inlet plate (106), main casing body (101) in casing subassembly (1) are upper and lower open-ended cavity structure, the lower extreme of main casing body (101) is fixed with drain pan (102), the upper end of main casing body (101) is fixed with top shell (103), the lower extreme of drain pan (102) evenly is fixed with several groups lower margin (104), thermovent (105) have been seted up on one side outer wall of main casing body (101), and air intake (106) have been seted up on the position that opposite side outer wall and thermovent (105) correspond, it is fixed with thermovent (105) to be connected heat dissipation plate (401), air inlet plate (402) are connected fixedly with air intake (106), top fan mouth (107) have been seted up to the main planar intermediate position of top shell (103).

3. The large data storage device of a computer with linkage heat dissipation according to claim 1, wherein: the upper end of inserting tray bottom column (203) in the storage assembly (2) is fixed at the lower end of integrated inserting tray (201), the upper end of lifting frame (204) is fixed at the lower end of inserting tray bottom column (203), the bottom surface of lifting motor (207) is fixed on lifting motor base (208), and the lower end of lifting motor base (208) is fixed at the upper plane of bottom case (102).

4. The large data storage device of a computer with linkage heat dissipation according to claim 3, wherein: the upper plane of integrated plug dish (201) has seted up array storage socket (202), the symmetrical memory module (209) of installing with memory socket (202) quantity the same in main casing body (101), and every group memory socket (202) all is connected with a set of memory module (209) that correspond.

5. The large data storage device of a computer with linkage heat dissipation according to claim 3, wherein: the left side and the right side of the lifting motor base (208) are symmetrically and vertically fixed with auxiliary lifting guide rails (210), auxiliary lifting sliding blocks (211) are fixed at positions corresponding to the auxiliary lifting guide rails (210) at the left side and the right side of the lifting frame (204), and each auxiliary lifting sliding block (211) is slidably connected into the corresponding auxiliary lifting guide rails (210).

6. The large data storage device of a computer with linkage heat dissipation according to claim 1, wherein: top fan pivot (301) in top fan assembly (3) is fixed in the interior bottom surface of epitheca (103), just top fan pivot (301) are located one side of top fan mouth (107), the one end swivelling joint of top fan (302) is in top fan pivot (301), the interior bottom surface of epitheca (103) still is fixed with internal gear (303) that opens and shuts, just the center of internal gear (303) that opens and shuts is coaxial with top fan pivot (301), be fixed with universal driving shaft (305) on the main face of top fan (302) and the position that internal gear (303) that opens and shuts correspond, swivelling joint has linkage gear (304) that opens and shuts in universal driving shaft (305), linkage gear (304) that opens and shuts can form the meshing with internal gear (303) that opens and shuts, the opposite side meshing of linkage gear (304) that opens and shuts has drive gear (306), drive gear (306) that opens and shuts are connected with driving motor (307) hub connection that opens and shuts, the opening and closing drive motor (307) is fixed to the main surface of the top fan (302).

7. The large data storage device of the computer with the linkage heat dissipation function as recited in claim 6, wherein: the two ends of the opening and closing internal gear (303) are fixedly connected with an opening clamping position (308) and a closing clamping position (309) respectively.

8. The large data storage device of a computer with linkage heat dissipation according to claim 1, wherein: two groups of lower shaft seats (403) in the linkage heat dissipation assembly (4) are fixed on the upper plane of the bottom shell (102) at the front and rear positions by taking a lifting screw rod (206) as a center, an upper shaft bracket (404) is fixed on the inner bottom surface of the top shell (103), two groups of upper shaft seats (405) are fixed on the positions of the bottom surface of the upper shaft bracket (404) corresponding to the lower shaft seats (403), two groups of mixed flow fans (406) are respectively and rotatably connected in the corresponding lower shaft seats (403) through lower mixed flow lower shafts (407) at the lower ends and are rotatably connected in the corresponding upper shaft seats (405) through mixed flow upper shafts (408) at the upper ends, two groups of mixed flow driving motors (411) are respectively fixed on the corresponding mixed flow motor seats (412), the two groups of mixed flow motor seats (412) are respectively and correspondingly fixed at the front and rear ends of the lifting frame (204), and heat dissipation fan brackets (413) are fixed in the inner cavity of the heat dissipation plate (401), radiator fan support (413) intermediate position swivelling joint has radiator fan (415), the main face of radiator fan support (413) uses radiator fan (415) to seted up array heat dissipation via hole (414) as the center, install air-out filter core (416) in the cavity that radiator fan support (413) and heating panel (401) formed, just air-out filter core (416) and thermovent (105) intercommunication, install air inlet filter core (417) in the inner chamber of air inlet plate (402), just air inlet filter core (417) and air intake (106) intercommunication.

9. The large data storage device of a computer with linked heat dissipation according to claim 8, wherein: all evenly seted up ventilation hole (418) on the outer wall of heating panel (401) and air inlet plate (402), ventilation hole (418) are the structure that the opening is decurrent for admitting air.

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