CN211786879U

CN211786879U - Disk array module and electronic equipment applying same

Info

Publication number: CN211786879U
Application number: CN201922311773.2U
Authority: CN
Inventors: 郑志林; 杨学总; 李占阳
Original assignee: Beijing Inspur Data Technology Co Ltd
Current assignee: Beijing Inspur Data Technology Co Ltd
Priority date: 2019-12-20
Filing date: 2019-12-20
Publication date: 2020-10-27
Anticipated expiration: 2029-12-20

Abstract

The utility model discloses a disk array module, include: the disk array frame, the disk frame power supply signal input and the disk backboard module; the power supply signal input of the disk frame is arranged on the disk array frame; the disk backboard module is detachably arranged on the disk array frame and is provided with a power supply connector and a signal connector which are used for being matched with the power supply signal input of the disk frame. The hard disk back plate can be maintained through independent plugging, and high maintainability of the disk array module is achieved. The utility model also discloses an electronic equipment, the utility model discloses a general server size specification, through the function subregion overall arrangement, different functional module is placed to the different regions, realizes the high maintainability of product functional module, realizes that module complete machines such as hard disk module, the control unit, fan module, power module, hard disk backplate do not put on the shelf to maintain, realizes high maintainability function.

Description

Disk array module and electronic equipment applying same

Technical Field

The utility model relates to an electronic hardware technical field, in particular to disk array module and use its electronic equipment.

Background

With the development of the information society, the information quantity shows geometric multiple increase, the data quantity processed by the server and the storage equipment in the data center is larger and larger, the information data is necessarily processed and stored by the corresponding calculation and storage equipment, and the requirements on the equipment maintenance and the maintenance efficiency of the calculation and storage data are higher and higher, such as a hard disk, a hard disk backboard, a fan, a power supply and the like.

SUMMERY OF THE UTILITY MODEL

In view of this, the present invention provides a disk array module and an electronic device using the same, in which the components such as the hard disk backplane can be plugged and removed for maintenance.

In order to achieve the above object, the utility model provides a following technical scheme:

a disk array module, comprising: the disk array frame, the disk frame power supply signal input and the disk backboard module;

the power supply signal input of the disk frame is arranged on the disk array frame;

the disk back plate module is detachably arranged on the disk array frame and is provided with a power connector and a signal connector which are used for being matched with the power signal input of the disk frame.

Preferably, the disk backplane module includes: the hard disk backboard comprises a hard disk backboard body and a hard disk backboard tray;

the hard disk backboard body is arranged on the hard disk backboard tray;

the hard disk backboard tray is in sliding fit with the disk array frame.

Preferably, the hard disk backplane body comprises: the power connector and the signal connector are arranged at the inner end of the hard disk backboard tray;

the disk box power supply signal input comprises:

the disk frame power supply input end is used for being connected with the power supply connector in an inserting mode;

and the disk frame signal end is used for being plugged with the signal connector.

Preferably, the disk frame power supply signal input further comprises: the power input end of the disk frame and the signal end of the disk frame are arranged on the disk array frame through the fixing support and the screws.

Preferably, the disk backplane module further includes: the guide sleeve is arranged at the inner end of the hard disk backboard tray;

the disk box power supply signal input comprises: and the guide pin is matched with the guide sleeve.

Preferably, a tray handle is arranged at the outer end of the hard disk backboard tray.

Preferably, the outer end of the disk array frame is provided with: and the disk frame pressing and unlocking button is matched with the chassis module and the disk frame fixing floating screw is used for fixing the disk frame.

Preferably, the disk array frame includes: a hard disk chute bulkhead assembly; the hard disk chute partition plate assembly is provided with a ventilation hole.

An electronic device comprises a chassis module and a disk array module which can be installed in the chassis module in a drawing mode, wherein the disk array module is the disk array module.

Preferably, the chassis module comprises: a case assembly and a control unit bin;

the control unit bin penetrates through the front and the back and is used for installing a control unit module;

the chassis component includes: the control unit partition plate and the disk array bin are used for installing the disk array module; the control unit partition is arranged between the disk array bin and the control unit bin.

According to the above technical scheme, the utility model provides a disk array module, its hard disk backplate accessible plug alone is maintained, realizes the high maintainability of disk array module. The utility model also provides the electronic equipment of using above-mentioned disk array module, the utility model discloses a general server size specification through the function subregion overall arrangement, different functional modules are placed to the different regions, but realize hard disk, hard disk backplate, 80 fans, power plug in disk array region and maintain, disk array and the tank chain connection signal of the control unit through quick-witted case module. Through the modularized design, high maintainability of functional modules of the product is realized, and the complete machine maintenance of modules such as a hard disk module, a control unit, a fan module, a power supply module and a hard disk backboard is realized without a lower frame, so that the function of high maintainability is realized.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only 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 structural diagram of a state of a disk array module extraction chassis module according to an embodiment of the present invention;

fig. 2 is a schematic diagram of a detailed structure of a disk array module according to an embodiment of the present invention;

fig. 3 is a schematic overall structural diagram of a disk array module according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a chassis module according to an embodiment of the present invention.

The device comprises a disk array frame 1A, a hard disk module 1B, a disk frame power supply signal input 1C, a disk backboard module 1D, a disk frame pressing and unlocking button 1E, a disk frame fixing floating screw 1F, a disk frame pulling handle 1G, a disk frame signal end 1H, a disk frame power supply signal cable arranging clamp 1J, a disk frame power supply input end 1K, a hard disk chute partition plate assembly 1L, a bottom shell pin 1M, a fixing support 1N, a screw 1O, a guide pin 1P, a hard disk backboard tray 1Q, a soundproof cotton assembly 1R, a hard disk backboard body 1DD, a power supply connector 1KK, a signal connector 1HH and a guide sleeve 1OO, wherein the disk array frame is a disk array frame, the hard disk frame pressing and unlocking button 1E is a disk frame pressing and unlocking button, the disk frame fixing floating screw is a disk frame, the;

2A is quick-witted case subassembly, and 2B is power module, and 2C is fan module, and 2D is the control unit storehouse, and 2E is the tank chain, and 2F is the stiff end of tank chain, and 2G is the built-in slide rail of disk array, and 2H is the hangers.

Detailed Description

The utility model discloses a disk array module and an electronic device using the same, which has a universal standard design, meets the universal standard of a 19-inch cabinet, and can be applied to various data centers or machine rooms; the functional design of the whole machine area, namely, different functional modules are designed in different areas by partitioning the whole machine system area, so that the high-density and high-module maintainability design of the disk array is realized; the modularized design realizes the high maintainability of the whole system module, the maintainability of modules such as a control unit/hard disk module, a hard disk backboard module, a tank chain, a fan module, a power supply and the like can be realized, and the maximum maintainability of the cabinet is realized without the whole machine.

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The embodiment of the utility model provides a disk array module, include: the structure of the disk array frame 1A, the disk frame power signal input 1C and the disk backboard module 1D can be shown in FIG. 2;

wherein, the disk frame power signal input 1C is arranged on the disk array frame 1A;

the disk backplane module 1D is detachably mounted on the disk array frame 1A, and the disk backplane module 1D has a power connector 1KK and a signal connector 1HH for mating with a disk frame power signal input 1C.

According to the above technical scheme, the embodiment of the utility model provides a disk array module is equipped with, and the plug alone of its hard disk backplate module 1D accessible is maintained, realizes the high maintainability of disk array module.

Of course, the disk array module may include a pluggable hard disk module 1B, etc. in addition to the disk array frame 1A, the disk frame power signal input 1C, and the disk backplane module 1D described above; the main functions are to place the disk array and the hard disk back plate and maintain.

Specifically, the disk backplane module 1D includes: the structure of the hard disk backboard body 1DD and the hard disk backboard tray 1P can be shown in FIG. 2;

the hard disk backboard body 1DD is arranged on the hard disk backboard tray 1P;

the hard disk backboard tray 1P and the disk array frame 1A can be in sliding fit, and the plugging maintenance is convenient.

Further, the hard disk backplane body 1DD includes: a power connector 1KK and a signal connector 1HH which are arranged at the inner end of the hard disk backboard tray 1P; the structure of the hard disk backboard tray can be shown in fig. 2, and it should be noted that the "inner end" mentioned in the present embodiment is the same as the "outer end" hereinafter with respect to the inserting and pulling direction of the hard disk backboard tray 1P;

the disk frame power signal input 1C includes:

a disk frame power input end 1K for inserting with the power connector 1 KK;

a disk frame signal terminal 1H for plugging with the signal connector 1 HH; the power supply and the signals are respectively connected in a one-to-one alignment mode, and the structure is simple and convenient to plug and pull for maintenance.

In this embodiment, the disk frame power signal input 1C further includes: the disk array frame comprises a fixing support and screws 1N, wherein a disk frame power input end 1K and a disk frame signal end 1H are arranged on a disk array frame 1A through the fixing support and the screws 1N, and the disk array frame is simple in structure and reliable in assembly.

In order to further optimize the above technical solution, the disk backplane module 1D further includes: the first guide connecting mechanism is arranged at the inner end of the hard disk backboard tray 1P; the first guiding connection mechanism comprises: a guide sleeve 1OO arranged at the inner end of the hard disk backboard tray 1P;

the disk frame power signal input 1C includes: the second guide connecting mechanism is matched with the first guide connecting structure so as to improve the alignment accuracy of the power signal connection; this second direction coupling mechanism includes: the guide pin 1O is used for matching with the guide sleeve 1 OO.

Specifically, the outer end of hard disk backplate tray 1P is provided with tray handle 1Q to the plug of disk backplate module 1D is realized to operation hard disk backplate tray 1P.

Preferably, the outer end of the disk array frame 1A is provided with: and the disk frame pressing and unlocking button 1E and the disk frame fixing floating screw 1F are used for being matched with the chassis module. When the disk frame needs to be pulled and plugged, the disk frame fixing floating screw 1F needs to be unscrewed, the disk frame presses the unlocking key 1E, and the disk array frame 1A can be integrally pulled out of the case module by pulling the disk frame pulling handles 1G on the two sides; two fixing modes of fixing a disk frame fixing floating screw 1F and fixing a disk frame pressing unlocking key 1E are mainly designed by considering safety factors, so that safety events caused by missed locking of the floating screw or failure of the disk frame fixing floating screw 1F are prevented, the pressing unlocking adopts a spring pull-back mode to automatically lock, and the unlocking can be realized only by pressing; the floating screw fixation mainly prevents the shock resistance of the product from being improved in the transportation process and prevents the damage of parts caused by shaking.

The disk array frame 1A includes: the hard disk chute partition plate assembly 1L can be fixed on two sides and the bottom of the disk array frame; the main function is that the hard disk module 1B is inserted into the disk array frame 1A to provide a track, limit the insertion position of the hard disk and prevent the hard disk from loosening; the hard disk chute partition plate assembly 1L limits the distance between hard disks, and vent holes are formed in the middle of the hard disks at intervals, so that enough air quantity of the internal hard disks is ensured to meet the heat dissipation requirement; meanwhile, the partition plate plays a role in supporting the disk array frame, the strength of the ore body frame body is increased, and the strength requirement of the whole machine during transportation or carrying is met.

The present solution is further described below with reference to specific embodiments:

as shown in fig. 1, the disk array module may be pulled out of the chassis module to perform fast plugging and unplugging maintenance on the hard disk. The disk module comprises a disk array frame 1A, a case module, a tank connecting line end 2E and a ball sliding rail 2G; 1E is a disk frame pressing and unlocking key, 1F is a disk frame fixing floating screw, 1G is a disk frame pulling handle, 1H is a disk frame signal end, 1J is a disk frame power supply signal line arranging clamp, and 1K is a disk frame power supply input end;

the system controls power supply signals to be fixed from the end 2E of the tank chain through a structural part, and after the magnetic disk frame wire clamp 1J is fixed, the system is connected to a magnetic disk frame signal end 1H and connected to a magnetic disk frame power supply input end 1K; tank chain slides along with the flexible of disk frame quick-witted case at disk frame plug pull in-process, and disk frame end power 1K, signal 1H are fixed in the disk frame and are motionless, and the disk frame passes through ball slide rail 2G and connects in quick-witted case module.

FIG. 2 is an exploded view of a disk frame module, which includes a hard disk module 1B, a disk array frame 1A, a disk frame power signal input 1C, and a disk backplane module 1D;

the disk array frame 1A comprises a hard disk chute partition plate assembly 1L, a bottom shell pin 1M, a disk frame pressing and unlocking key 1E, a disk frame fixing floating screw 1F and a disk frame pulling handle 1G;

the disk frame power supply signal input 1C comprises a disk frame power supply input end 1K, a disk frame signal end 1H, a fixing support, a screw N and a guide pin 1O;

the hard disk backboard module 1D comprises a hard disk backboard body 1DD and a hard disk backboard tray 1P; the hard disk backboard body 1DD comprises a power connector 1KK, a signal connector 1HH and a guide sleeve 1 OO; hard disk backplate tray 1P contains handle 1Q and unblock button lamp.

The installation step:

a tank chain cable magnetic disk frame power supply signal input module 1C, wherein a bracket 1N is fixed on a magnetic disk frame 1A by three screws;

after the hard disk backboard module 1D is assembled, the hard disk backboard module 1D is inserted into the disk array frame 1A through the front end guide characteristic of the hard disk backboard tray 1P, a bottom shell pin 1M in the disk array frame 1A is used for fixing a hard disk backboard module tray handle 1Q, a power connector 1KK on the hard disk backboard module 1DD is in butt joint with a disk frame power input end 1K, a signal connector 1HH is in butt joint with a disk frame signal end 1H, and a guide sleeve 1OO is in butt joint with an input end module guide pin 1O;

the hard disk module 1B is orderly inserted into the disk frame through the flanging chute characteristic of the hard disk chute partition plate component 1L in the disk frame, and the chute has a guiding function, so that the hard disk module 1B is only required to be inserted in place.

As shown in fig. 3, the disk array module supports 60 hard disk modules, and the disk array module can be pulled out of the chassis module to perform fast plugging and unplugging maintenance on a hard disk. The magnetic disk module comprises a magnetic disk array frame 1A, a magnetic disk back plate module 1D, a hard disk module 1B and a soundproof cotton assembly 1R; the disk array frame 1A is a carrier of the disk array module, the front end of the disk array frame is provided with two disk frame pulling handles 1G, the two disk frames are fixed with floating screws 1F, two sides of the disk array frame are provided with quick unlocking structures, namely disk frame pressing unlocking keys 1E, the other two sides of the disk array frame are provided with slide rails, the disk array module can be pulled out of the case module by unlocking the disk frame fixing floating screws 1F, pressing the disk frame pressing unlocking keys 1E and pulling the disk frame pulling handles 1G; the hard disk chute partition plate assembly 1L is a hard disk chute partition plate inside the disk array frame and is fixed on the two sides and the bottom of the disk array frame; the main function is to provide a track for inserting the hard disk into the disk array frame, limit the insertion position of the hard disk and prevent the hard disk from loosening; the hard disk chute partition plate assembly 1L limits the distance between hard disks, and vent holes are formed in the middle of the hard disks at intervals, so that enough air quantity of the internal hard disks is ensured to meet the heat dissipation requirement; meanwhile, the partition plate plays a role in supporting the disk array frame, the strength of the ore body frame body is increased, and the strength requirement of the whole machine during transportation or carrying is met. The disk backboard module 1D can be independently plugged in and pulled out of the disk array frame, the assembly can be pulled out through a handle at the front end of a tray in the hard disk backboard assembly, and a hard disk backboard connector is shown in figure 1C and is connected with an internal wire end of a tank chain to switch on a power supply and a signal; the tank chain expansion end is fixed with the pine through step nail and the screw that does not deviate from in the picture 1D end, and the cable is fixed in the disk array bottom through the structure in the tank chain, and hard disk backplate subassembly uses the backplate tray as the carrier, inserts the disk array frame, and hard disk backplate connector docks with the tank chain line end of fixing in disk array frame bottom, accomplishes the switch-on of power and signal.

The embodiment of the utility model also provides an electronic device, which comprises a case module and a disk array module which can be installed on the case module in a drawing way, wherein the case module mainly has the functions of supplying power and dissipating heat for the whole device, and is simultaneously inserted with a switching module and a control unit to bear the weight of the whole device; the disk array module is convenient to maintain.

Preferably, the chassis module comprises: a chassis component 2A and a control unit bay 2D; the structure of which can be seen in fig. 4; here, the enclosure assembly 2A preferably conforms to 19-inch standard cabinet requirements, and is mountable on a standard cabinet, with a height of 4U, a width of 447mm, and a depth of 825 mm;

the control unit bin 2D penetrates through the front and the back and is used for installing a control unit module;

the chassis assembly 2A includes: the control unit comprises a control unit clapboard and a disk array bin for installing disk array modules; the control unit partition is arranged between the disk array bin and the control unit bin 2D. The control unit partition plate has the function of isolating the air channel, and isolates the air channel in the control unit bin 2D from the air channel in the disk array bin, and the air channels are independent; the control unit partition plate also plays a role in increasing the strength of the case, increasing the structural stability of the case component 2A and improving the reliability of the whole machine system.

The functional design of the area is as follows: by dividing functional areas, a control unit area is arranged on one side of a case, a disk array unit area is arranged on the other side of the case, functional regionalization is realized, an air channel is independent, and power supply signal transmission is realized through tank chain connection; realizing high-density design in a disk array; the product is modularized by regional functional design, and maintenance and installation are facilitated.

In this embodiment, the chassis module further includes:

a slide rail 2G is arranged in the disk array in the case component 2A, and a ball slide rail is adopted, so that the plugging friction is reduced, the disk array is conveniently pulled out of the case component 2A, and a hard disk is maintained;

a tank chain 2E arranged in the case component 2A, wherein a fixed end 2F of the tank chain 2E is used for connecting the switching module, and a movable end is used for connecting the switching module 10; realize power signal transmission through tank chain 2E connection, can be along with the disk array pulling, be convenient for maintain.

Further, the chassis module further includes: a power supply module 2B; the chassis assembly 2A further includes: a power supply bin for mounting the power supply module 2B;

and/or, the chassis module further comprises: a fan module 2C; the chassis assembly 2A further includes: a fan magazine for mounting fan module 2C. The modular design facilitates high maintainability.

Specifically, the power supply bin and the fan bin are arranged at the rear end of the enclosure assembly 2A, so that the power supply bin and the fan bin are convenient to assemble, disassemble and maintain, and the disk array bin is arranged at the front end of the enclosure assembly 2A and is structurally shown in fig. 4.

In this embodiment, the chassis assembly 2A further includes: an upper cover; the upper cover is of a front-back multi-section type, and the upper cover of the back section adopts a quick-release structure; the installation of its internal parts is convenient, such as tank chain, fan backplate, power backplate etc.. Specifically, the upper cover of the case is divided into two sections, the upper cover at the front end is fixed with the case through a blind rivet, and the upper cover at the rear end is in a quick-release form.

FIG. 4 is a block diagram of a high maintainability HDMA storage enclosure; the case module comprises a case component (case base, an upper cover, a control unit partition plate, a fan bracket, a power supply bin and the like) 2A, a power supply module 2B, a fan module 2C, a control unit bin 2D, a tank chain 2E and a disk array built-in slide rail 2G. The case assembly 2A meets the requirement of a 19-inch standard cabinet, can be mounted on the standard cabinet, and has the height of 4U, the width of 447mm and the depth of 825 mm; the hanging lugs H on the two sides of the case are respectively fixed with the cabinet upright post by two screws M5; the upper cover of the case is divided into two sections, the upper cover at the front end is fixed with the case by a blind rivet, and the upper cover at the rear end is in a quick-release form; tank chain, fan backplate, power backplate etc. are easy to assemble. The power module 2B is a standard CRPS standard power supply, an 1800W power consumption power supply is selected according to the power consumption condition of the whole machine and is installed in a power supply bin of the case assembly, the power module is fixed in the case by utilizing a reed clamping hook of the power module, and unlocking, plugging and installing are carried out by pressing the reed. The fan module 2C adopts a standard 80mm 56mm universal fan body, an external structural member is used for fixing the fan body and the connector, the fan module can be independently plugged, installed and maintained, and is fixed on the case assembly through a rotating screw on the fan module, meanwhile, the fan module adopts a power-assisted plugging structure, and after the rotating screw is unlocked, the fan can be pulled out of a fan bin on the case assembly through a power-assisted plugging handle; the fan modules support an N +1 redundancy design, namely, one of the four groups of fan modules is damaged and stops rotating, so that the operation of the whole system is not influenced; the fan module carries out automatic speed regulation according to the system detection problem, and energy conservation is realized. FIG. 2D shows a control unit bay located on the left side of the chassis assembly for mounting the control unit and the patching modules; meanwhile, the partition plate in the case is used for isolating the air channel, so that the air channel in the control unit bin is isolated from the air channel in the disk array area and is mutually independent; the inner partition plate of the case component is also used for increasing the strength of the case, increasing the structural stability of the case component and improving the reliability of the whole system; the case clapboard is also used for installing a built-in slide rail 2G of the disk array. The mounting positions of the tank chains are shown as 2E and 2F in the figure, and the end heads indicated by 2E are used for connecting the disk arrays and can be pulled along with the disk arrays to be movable ends; the end indicated by 2F is used for connecting the switching module, is fixed on the inner partition plate of the chassis component and is a fixed end. The built-in slide rail 2G of the disk array is positioned in the case assembly and is respectively fixed on the right side of the case base and the side of the partition plate in the case assembly, and the built-in track adopts a ball slide rail, so that the plugging friction force is reduced, the disk array can be conveniently pulled out of the hard disk module, and the hard disk can be maintained.

To sum up, the embodiment of the present invention provides an electronic device, which can be a high maintainability high density disk array memory, and is designed in a universal standard, and the electronic device meets the installation requirement of a 19-inch cabinet in a universal standard in terms of length, width and height through a standard 4U design; and the use requirements of a general data center and a machine room are met. Through regional functional design, different functional module designs and through integrated circuit board or cable connection, realize characteristics such as disk array high density, module high maintainability. Through the modularized design, high maintainability of functional module, easy to assemble dismantlement are realized. The high-density maintainability design of the disk array realizes high density (15/U) by 60 hard disks in the array, which is higher than 6/U of the traditional server; through the design of the built-in guide rail, the disk array is integrally drawn out to maintain the hard disk, and the hard disk backboard can be plugged and maintained, so that the maintainability design of the hard disk and the hard disk backboard is realized.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

1. A disk array module, comprising: the device comprises a disk array frame (1A), a disk frame power signal input (1C) and a disk backboard module (1D);

the disk frame power signal input (1C) is arranged on the disk array frame (1A);

the disk backboard module (1D) is detachably mounted on the disk array frame (1A), and the disk backboard module (1D) is provided with a power connector (1KK) and a signal connector (1HH) which are used for being matched with the disk frame power signal input (1C).

2. The disk array module according to claim 1, wherein the disk backplane module (1D) comprises: a hard disk backboard body (1DD) and a hard disk backboard tray (1P);

the hard disk backboard body (1DD) is arranged on the hard disk backboard tray (1P);

the hard disk backboard tray (1P) is in sliding fit with the disk array frame (1A).

3. The disk array module according to claim 2, wherein the hard disk backplane body (1DD) comprises: the power connector (1KK) and the signal connector (1HH) are arranged at the inner end of the hard disk backboard tray (1P);

the disk box power supply signal input (1C) comprises:

the disk frame power input end (1K) is used for being plugged with the power connector (1 KK);

and a disk frame signal terminal (1H) for being plugged with the signal connector (1 HH).

4. The disk array module of claim 3, wherein the disk enclosure power signal input (1C) further comprises: the magnetic disk array frame comprises a fixing support and screws (1N), wherein a magnetic disk frame power supply input end (1K) and a magnetic disk frame signal end (1H) are installed on the magnetic disk array frame (1A) through the fixing support and the screws (1N).

5. The disk array module according to claim 2, wherein the disk backplane module (1D) further comprises: the guide sleeve (1OO) is arranged at the inner end of the hard disk backboard tray (1P);

the disk box power supply signal input (1C) comprises: a guide pin (1O) used for matching with the guide sleeve (1 OO).

6. The disk array module according to claim 2, wherein the outer end of the hard disk backplane tray (1P) is provided with a tray handle (1Q).

7. The disk array module according to claim 1, wherein the outer end of the disk array frame (1A) is provided with: and the disk frame pressing and unlocking button (1E) and the disk frame fixing floating screw (1F) are used for being matched with the chassis module.

8. The disk array module according to claim 1, wherein the disk array frame (1A) includes: a hard disk chute partition assembly (1L); the hard disk chute partition plate assembly (1L) is provided with a vent hole.

9. An electronic device comprising a chassis module and a disk array module removably mounted thereto, wherein the disk array module is the disk array module according to any one of claims 1 to 8.

10. The electronic device of claim 9, wherein the chassis module comprises: a cabinet component (2A) and a control unit bin (2D);

the control unit bin (2D) penetrates through the front and the back and is used for installing a control unit module;

the chassis assembly (2A) includes: the control unit partition plate and the disk array bin are used for installing the disk array module; the control unit partition is arranged between the disk array bin and the control unit bin (2D).