阅读说明：本技术 一种大数据存储服务器用硬盘架 (Hard disk rack for big data storage server ) 是由 卜天然 舒升 汪祥舜 刘加豪 于 2020-11-16 设计创作，主要内容包括：本说明书一个或多个实施例提供一种大数据存储服务器用硬盘架,包括：总体承载架,所述总体承载架的中间设置有硬盘槽位,所述硬盘槽位的内侧设置有定位导轨,所述硬盘槽位的前侧设置有连接开口,所述连接开口的左右两侧对称设置有侧边调节槽；单元硬盘架,设置于所述硬盘槽位的内部。本发明通过单元硬盘架装载硬盘,单元硬盘架嵌入安装硬盘槽位时其上的硬盘便可以通过硬盘插口接入,而硬盘插口通过连接排线与滑动结构的滑动插头相连接,通过拨动与调节凸轮相连动的横向拨杆便可以调节滑动插头的位置,即使滑动插头与连接插口接入或脱离,从而在拆卸单元硬盘架的状态下便可以对硬盘进行物体断开或接入,操作使用更加安全方便。(One or more embodiments of the present disclosure provide a hard disk rack for a large data storage server, including: the hard disk assembly comprises an overall bearing frame, a hard disk slot position is arranged in the middle of the overall bearing frame, a positioning guide rail is arranged on the inner side of the hard disk slot position, a connecting opening is formed in the front side of the hard disk slot position, and side adjusting grooves are symmetrically formed in the left side and the right side of the connecting opening; and the unit hard disk frame is arranged in the hard disk slot position. The invention loads the hard disk through the unit hard disk frame, when the unit hard disk frame is embedded into the hard disk installation slot, the hard disk on the unit hard disk frame can be accessed through the hard disk socket, the hard disk socket is connected with the sliding plug of the sliding structure through the connecting flat cable, the position of the sliding plug can be adjusted by shifting the transverse shifting lever which is linked with the adjusting cam, even if the sliding plug is accessed or separated from the connecting socket, the hard disk can be disconnected or accessed by an object under the state that the unit hard disk frame is disassembled, and the operation and the use are safer and more convenient.)

1. A hard disk rack for a big data storage server, comprising:

the hard disk assembly comprises an overall bearing frame, a hard disk slot position is arranged in the middle of the overall bearing frame, a positioning guide rail is arranged on the inner side of the hard disk slot position, a connecting opening is formed in the front side of the hard disk slot position, side adjusting grooves are symmetrically formed in the left side and the right side of the connecting opening, a connecting socket is formed in the rear side of the overall bearing frame, and a rear wiring socket is formed in the rear side of the connecting socket;

the unit hard disk frame is arranged inside the hard disk slot, a bearing slide way is arranged in the middle of the unit hard disk frame, side protection plates are symmetrically arranged on the left side and the right side of the unit hard disk frame, and positioning slide grooves are formed in the outer sides of the side protection plates;

the positioning sleeve is arranged on the lower side of the side guard plate, a positioning bolt is arranged on the inner side of the positioning sleeve, a linkage sliding frame is arranged at the outer end of the positioning bolt, a transverse spring is arranged at the rear end of the linkage sliding frame, and a locking clamping groove is formed in the front end of the linkage sliding frame;

the front baffle is arranged on the front side of the unit hard disk frame, a transverse handle is arranged on the lower side of the front baffle, a fixed clamping groove is formed in the middle of the transverse handle, embedded sliding grooves are formed in the left side and the right side of the front baffle, a locking clamping block is arranged on the inner side of each embedded sliding groove, and a locking spring is arranged on the rear side of each locking clamping block;

the hard disk drive comprises a hard disk slot, a slot position rear baffle, a connecting flat cable, a sliding plug, a linkage frame, an adjusting ejector rod, a reset spring and a transverse sliding sleeve, wherein the hard disk slot is arranged at the rear side of the hard disk slot;

the adjusting mechanism comprises an adjusting rotating shaft, wherein the adjusting rotating shaft is arranged in the middle of the side edge adjusting groove, an adjusting cam is arranged on the outer side of the adjusting rotating shaft, a positioning plane is arranged on the outer side of the adjusting cam, an adjusting connecting rod is arranged in the middle of the adjusting cam, and a transverse shifting rod is arranged in the middle of the adjusting connecting rod.

2. The hard disk rack for the big data storage server according to claim 1, wherein the hard disk slots are uniformly arranged along a vertical center line of the overall bearing frame, and horizontal center lines of the hard disk slots are parallel to each other.

3. The hard disk rack for large data storage servers of claim 1, wherein the unit hard disk rack is slidably connected with the positioning guide rail through the positioning chute, and the unit hard disk rack and the hard disk slot are mutually matched in size.

4. The hard disk rack for big data storage servers of claim 1, wherein the positioning pin is slidably connected to the side guard plate through the positioning sleeve, and a horizontal centerline of the positioning pin is perpendicular to a horizontal centerline of the unit hard disk rack.

5. The hard disk rack for the big data storage server according to claim 1, wherein the locking fixture block is slidably connected with the front baffle plate through the fixing fixture slot, and the locking fixture slot and the locking fixture block are mutually matched in size.

6. The hard disk rack for the big data storage server as claimed in claim 1, wherein the linkage rack is slidably connected with the transverse sliding sleeve through the adjusting ejector rod, and a horizontal center line of the transverse sliding sleeve and a horizontal center line of the hard disk slot are parallel to each other.

7. The hard disk rack for a big data storage server according to claim 1, wherein the hard disk sockets are connected with the sliding plugs through the connecting cables, and the sliding plugs are matched with the connecting sockets.

8. The hard disk rack for large data storage servers of claim 1, wherein the adjustment cam is rotatably connected with the overall carrier through the adjustment rotating shaft, and an axial center line of the adjustment cam is perpendicular to a horizontal center line of the adjustment jack.

9. The hard disk rack for large data storage servers of claim 1, wherein the top end surface of the adjusting ejector rod is in fit with the outer side wheel surface of the adjusting cam, and the positioning plane is matched with the adjusting ejector rod in size.

10. The hard disk rack for big data storage server as in claim 1, wherein the horizontal deflector rod and the fixing slot are mutually sized.

Technical Field

One or more embodiments of the present disclosure relate to the field of computer server accessory technology, and in particular, to a hard disk rack for a large data storage server.

Background

The big data is a data set which is large in scale and greatly exceeds the capability range of the traditional database software tool in the aspects of acquisition, storage, management and analysis, has the characteristics of massive data scale, rapid data circulation, various data types and low value density, and the big data analysis can not leave the data quality and data management, so that the reality and the value of an analysis result can be ensured in both academic research and commercial application fields, therefore, the most important component of the big data server is a storage and storage server, and the storage server generally stores data through a plurality of hard disks.

The applicant finds that most of current server hard disk frames are used for installing fixed hard disks, the hard disks are often fixed by means of screw hole positions correspondingly arranged on two sides of the hard disks, screws are required to be screwed one by one for fixing during installation and disassembly, the hard disks are troublesome to use, and when the hard disks are fixed on corresponding server hard disk frames, server data stealing invasion or power instability easily cause component damage, the hard disks corresponding to the data are required to be disconnected immediately for connection, but the whole hard disk frames are often required to be taken out completely to achieve absolute physical isolation, and the hard disks are required to be installed again during recovery, and the hard disks are troublesome to operate and use.

Disclosure of Invention

In view of the above, an object of one or more embodiments of the present disclosure is to provide a hard disk rack for a large data storage server to solve the problem.

In view of the above, one or more embodiments of the present disclosure provide a hard disk rack for a large data storage server, including:

the hard disk assembly comprises an overall bearing frame, a hard disk slot position is arranged in the middle of the overall bearing frame, a positioning guide rail is arranged on the inner side of the hard disk slot position, a connecting opening is formed in the front side of the hard disk slot position, side adjusting grooves are symmetrically formed in the left side and the right side of the connecting opening, a connecting socket is formed in the rear side of the overall bearing frame, and a rear wiring socket is formed in the rear side of the connecting socket;

the unit hard disk frame is arranged inside the hard disk slot, a bearing slide way is arranged in the middle of the unit hard disk frame, side protection plates are symmetrically arranged on the left side and the right side of the unit hard disk frame, and positioning slide grooves are formed in the outer sides of the side protection plates;

the positioning sleeve is arranged on the lower side of the side guard plate, a positioning bolt is arranged on the inner side of the positioning sleeve, a linkage sliding frame is arranged at the outer end of the positioning bolt, a transverse spring is arranged at the rear end of the linkage sliding frame, and a locking clamping groove is formed in the front end of the linkage sliding frame;

the front baffle is arranged on the front side of the unit hard disk frame, a transverse handle is arranged on the lower side of the front baffle, a fixed clamping groove is formed in the middle of the transverse handle, embedded sliding grooves are formed in the left side and the right side of the front baffle, a locking clamping block is arranged on the inner side of each embedded sliding groove, and a locking spring is arranged on the rear side of each locking clamping block;

the hard disk drive comprises a hard disk slot, a slot position rear baffle, a connecting flat cable, a sliding plug, a linkage frame, an adjusting ejector rod, a reset spring and a transverse sliding sleeve, wherein the hard disk slot is arranged at the rear side of the hard disk slot;

the adjusting mechanism comprises an adjusting rotating shaft, wherein the adjusting rotating shaft is arranged in the middle of the side edge adjusting groove, an adjusting cam is arranged on the outer side of the adjusting rotating shaft, a positioning plane is arranged on the outer side of the adjusting cam, an adjusting connecting rod is arranged in the middle of the adjusting cam, and a transverse shifting rod is arranged in the middle of the adjusting connecting rod.

In some alternative embodiments, the hard disk slots are evenly disposed along a vertical centerline of the overall carrier, and horizontal centerlines of the hard disk slots are parallel to each other.

In some optional embodiments, the unit hard disk frame is slidably connected with the positioning guide rail through the positioning chute, and the unit hard disk frame and the hard disk slot are mutually matched in size.

In some optional embodiments, the positioning bolt is slidably connected with the side guard plate through the positioning sleeve, and a horizontal center line of the positioning bolt is perpendicular to a horizontal center line of the unit hard disk frame.

In some optional embodiments, the locking latch is slidably connected to the front baffle through the fixing latch slot, and the locking latch are cooperatively dimensioned.

In some optional embodiments, the linkage frame is slidably connected with the transverse sliding sleeve through the adjusting ejector rod, and a horizontal center line of the transverse sliding sleeve and a horizontal center line of the hard disk slot are parallel to each other.

In some optional embodiments, the hard disk socket is connected with the sliding plug through the connecting flat cable, and the sliding plug is matched with the connecting socket.

In some alternative embodiments, the adjusting cam is rotatably connected with the overall bearing frame through the adjusting rotating shaft, and the axial center line of the adjusting cam is perpendicular to the horizontal center line of the adjusting mandril.

In some optional embodiments, the top end surface of the adjusting ejector rod and the outer side wheel surface of the adjusting cam are mutually attached, and the positioning plane and the adjusting ejector rod are mutually matched in size.

In some optional embodiments, the transverse shift lever and the fixed slot are mutually matched in size.

As can be seen from the above, in the hard disk rack for a large data storage server provided in one or more embodiments of the present disclosure, a hard disk is loaded through a unit hard disk rack, and a positioning pin is disposed at a position of a hard disk fixing screw hole on the unit hard disk rack, and the positioning pin can be slidably inserted into the hard disk fixing screw hole through a positioning sleeve to fix the hard disk, so that the installation and the disassembly are more convenient and faster, meanwhile, the hard disk rack is provided with a total bearing frame as a storage whole, and a plurality of hard disk slots are arranged in parallel on the total bearing frame, each hard disk slot can be loaded with one unit hard disk rack, and each hard disk slot is correspondingly provided with a hard disk socket, when the unit hard disk rack is inserted into the hard disk slot, the hard disk on the unit hard disk rack can be accessed through the hard disk sockets, and the hard disk sockets are connected with sliding plugs of a, the position of the sliding plug can be adjusted through the transverse shifting rod which is shifted to be linked with the adjusting cam, even if the sliding plug is connected with or separated from the connecting socket, the hard disk can be disconnected or connected with an object under the state of detaching the hard disk frame of the unit, and the operation and the use are safer and more convenient.

Drawings

In order to more clearly illustrate one or more embodiments or prior art solutions of the present specification, the drawings that are needed in the description of the embodiments or prior art will be briefly described below, and it is obvious that the drawings in the following description are only one or more embodiments of the present specification, and that other drawings may be obtained by those skilled in the art without inventive effort from these drawings.

FIG. 1 is a schematic diagram of the internal structure of one or more embodiments of the present disclosure;

FIG. 2 is a schematic front view of one or more embodiments of the present disclosure;

FIG. 3 is a schematic illustration of a portion of one or more embodiments of the disclosure;

FIG. 4 is a schematic diagram of a unit hard disk rack extraction state according to one or more embodiments of the present disclosure;

FIG. 5 is a schematic diagram of an internal structure of a hard disk slot in accordance with one or more embodiments of the present disclosure;

FIG. 6 is a schematic diagram of a rear side structure of a hard disk slot in accordance with one or more embodiments of the present disclosure;

FIG. 7 is a schematic cross-sectional structure diagram of a hard disk slot in accordance with one or more embodiments of the present disclosure;

fig. 8 is an exploded view of a unit hard disk rack according to one or more embodiments of the present disclosure.

Detailed Description

To make the objects, technical solutions and advantages of the present disclosure more apparent, the present disclosure is further described in detail below with reference to specific embodiments.

It is to be noted that unless otherwise defined, technical or scientific terms used in one or more embodiments of the present specification should have the ordinary meaning as understood by those of ordinary skill in the art to which this disclosure belongs. The use of "first," "second," and similar terms in one or more embodiments of the specification is not intended to indicate any order, quantity, or importance, but rather is used to distinguish one element from another. The word "comprising" or "comprises", and the like, means that the element or item listed before the word covers the element or item listed after the word and its equivalents, but does not exclude other elements or items. The terms "connected" or "coupled" and the like are not restricted to physical or mechanical connections, but may include electrical connections, whether direct or indirect. "upper", "lower", "left", "right", and the like are used merely to indicate relative positional relationships, and when the absolute position of the object being described is changed, the relative positional relationships may also be changed accordingly.

In one or more embodiments of the present description, a hard disk rack for a big data storage server includes:

the overall bearing frame 1 is provided with a hard disk slot 101 in the middle of the overall bearing frame 1, a positioning guide rail 102 is arranged on the inner side of the hard disk slot 101, a connecting opening 103 is arranged on the front side of the hard disk slot 101, side adjusting grooves 104 are symmetrically arranged on the left side and the right side of the connecting opening 103, a connecting socket 105 is arranged on the rear side of the overall bearing frame 1, and a rear wiring socket 106 is arranged on the rear side of the connecting socket 105;

the unit hard disk frame 2 is arranged inside the hard disk slot position 101, a bearing slide rail 201 is arranged in the middle of the unit hard disk frame 2, side protection plates 202 are symmetrically arranged on the left side and the right side of the unit hard disk frame 2, and positioning slide grooves 203 are arranged on the outer sides of the side protection plates 202;

the positioning sleeve 3 is arranged on the lower side of the side guard plate 202, a positioning bolt 301 is arranged on the inner side of the positioning sleeve 3, a linkage sliding frame 302 is arranged at the outer end of the positioning bolt 301, a transverse spring 303 is arranged at the rear end of the linkage sliding frame 302, and a locking clamping groove 304 is arranged at the front end of the linkage sliding frame 302;

the front baffle 4 is arranged on the front side of the unit hard disk frame 2, a transverse handle 401 is arranged on the lower side of the front baffle 4, a fixing clamping groove 402 is arranged in the middle of the transverse handle 401, the left side and the right side of the front baffle 4 are both provided with embedded sliding grooves 403, a locking fixture block 404 is arranged on the inner side of each embedded sliding groove 403, and a locking spring 405 is arranged on the rear side of each locking fixture block 404;

the hard disk slot comprises a slot position rear baffle 5 arranged at the rear side of a hard disk slot 101, wherein a hard disk socket 501 is arranged in the middle of the slot position rear baffle 5, a connecting flat cable 502 is arranged at the rear side of the hard disk socket 501, a sliding plug 503 is arranged at the rear side of the connecting flat cable 502, a linkage frame 504 is arranged at the outer side of the sliding plug 503, an adjusting ejector rod 505 is arranged at the outer side of the linkage frame 504, a return spring 506 is arranged in the middle of the adjusting ejector rod 505, and a transverse sliding sleeve 507 is arranged at the outer side of the adjusting;

the adjusting rotating shaft 6 is arranged in the middle of the side adjusting groove 104, an adjusting cam 601 is arranged on the outer side of the adjusting rotating shaft 6, a positioning plane 602 is arranged on the outer side of the adjusting cam 601, an adjusting connecting rod 603 is arranged in the middle of the adjusting cam 601, and a transverse shifting lever 604 is arranged in the middle of the adjusting connecting rod 603.

Referring to fig. 1 to 8, as an embodiment of the present invention, a hard disk rack for a large data storage server includes: the overall bearing frame 1 is provided with a hard disk slot 101 in the middle of the overall bearing frame 1, a positioning guide rail 102 is arranged on the inner side of the hard disk slot 101, a connecting opening 103 is arranged on the front side of the hard disk slot 101, side adjusting grooves 104 are symmetrically arranged on the left side and the right side of the connecting opening 103, a connecting socket 105 is arranged on the rear side of the overall bearing frame 1, and a rear wiring socket 106 is arranged on the rear side of the connecting socket 105; the unit hard disk frame 2 is arranged inside the hard disk slot position 101, a bearing slide rail 201 is arranged in the middle of the unit hard disk frame 2, side protection plates 202 are symmetrically arranged on the left side and the right side of the unit hard disk frame 2, and positioning slide grooves 203 are arranged on the outer sides of the side protection plates 202; the positioning sleeve 3 is arranged on the lower side of the side guard plate 202, a positioning bolt 301 is arranged on the inner side of the positioning sleeve 3, a linkage sliding frame 302 is arranged at the outer end of the positioning bolt 301, a transverse spring 303 is arranged at the rear end of the linkage sliding frame 302, and a locking clamping groove 304 is arranged at the front end of the linkage sliding frame 302; the front baffle 4 is arranged on the front side of the unit hard disk frame 2, a transverse handle 401 is arranged on the lower side of the front baffle 4, a fixing clamping groove 402 is arranged in the middle of the transverse handle 401, the left side and the right side of the front baffle 4 are both provided with embedded sliding grooves 403, a locking fixture block 404 is arranged on the inner side of each embedded sliding groove 403, and a locking spring 405 is arranged on the rear side of each locking fixture block 404; the hard disk slot comprises a slot position rear baffle 5 arranged at the rear side of a hard disk slot 101, wherein a hard disk socket 501 is arranged in the middle of the slot position rear baffle 5, a connecting flat cable 502 is arranged at the rear side of the hard disk socket 501, a sliding plug 503 is arranged at the rear side of the connecting flat cable 502, a linkage frame 504 is arranged at the outer side of the sliding plug 503, an adjusting ejector rod 505 is arranged at the outer side of the linkage frame 504, a return spring 506 is arranged in the middle of the adjusting ejector rod 505, and a transverse sliding sleeve 507 is arranged at the outer side of the adjusting; the adjusting rotating shaft 6 is arranged in the middle of the side adjusting groove 104, an adjusting cam 601 is arranged on the outer side of the adjusting rotating shaft 6, a positioning plane 602 is arranged on the outer side of the adjusting cam 601, an adjusting connecting rod 603 is arranged in the middle of the adjusting cam 601, and a transverse shifting lever 604 is arranged in the middle of the adjusting connecting rod 603.

Referring to fig. 2 to 8, optionally, the hard disk rack uses the overall bearing frame 1 as a storage assembly, and uses the unit hard disk rack 2 for installing and fixing hard disks, the overall bearing frame 1 is provided with a plurality of hard disk slots 101, the hard disk slots 101 are uniformly arranged along a vertical central line direction of the overall bearing frame 1, horizontal central lines of the hard disk slots 101 are parallel to each other, the unit hard disk rack 2 is slidably connected with the positioning guide rail 102 through the positioning chute 203, and dimensions of the unit hard disk rack 2 and the hard disk slots 101 are matched with each other, so that the overall bearing frame 1 can be installed with a plurality of unit hard disk racks 2 for storing and installing a plurality of hard disks, thereby facilitating adjustment and use.

Referring to fig. 2 to 8, optionally, a hard disk rack is used for installing and fixing a hard disk through a unit hard disk rack 2, the hard disk can be slidably installed on the unit hard disk rack 2 through a bearing slide 201, the unit hard disk rack 2 is provided with a plurality of through holes for reducing weight, the bottom of a standard hard disk is provided with corresponding fixing screw holes, a side guard plate 202 of the unit hard disk rack 2 is correspondingly provided with a positioning sleeve 3, a positioning bolt 301 is embedded in the positioning sleeve 3, the positioning bolt 301 is slidably connected with the side guard plate 202 through the positioning sleeve 3, the horizontal center line of the positioning bolt 301 is perpendicular to the horizontal center line of the unit hard disk rack 2, and the positioning bolt 301 is matched with the fixing screw hole arranged at the bottom of the standard hard disk, so that the positioning bolt 301 can be inserted into the fixing screw hole arranged at the bottom of the hard disk to fix the hard disk, and the positioning bolt 301 can, and then fix and release the hard disk, need not extra screw and fix, and locking fixture block 404 passes through fixed slot 402 and front baffle 4 sliding connection, and the size is mutually supported between locking slot 304 and the locking fixture block 404 to linkage balladeur train 302 locks through locking fixture block 404, and then fixes the hard disk, and it is more convenient to lock the unblock, and then is convenient for install and dismantle the hard disk, uses convenient and fast more.

Referring to fig. 2 to 8, optionally, after the hard disk is mounted and fixed on the unit hard disk rack 2, the hard disk can be inserted and fixed in the corresponding hard disk slot 101 through the unit hard disk rack 2, when the hard disk is fixed on the unit hard disk rack 2, the corresponding data interface and power interface are both located at the rear side, and the slot rear baffle 5 at the rear side of the hard disk slot 101 is correspondingly provided with a hard disk socket 501, so that after the hard disk is inserted and fixed in the corresponding hard disk slot 101 along with the unit hard disk rack 2, the data interface and power interface are naturally inserted into the hard disk socket 501 to complete access, the hard disk socket 501 is connected with the sliding plug 503 through the connecting flat cable 502, the sliding plug 503 is matched with the connecting socket 105, so that the hard disk is connected with the sliding plug 503 through the hard disk socket 501 and the connecting flat cable 502, and is further connected with the rear wiring socket 106 through the sliding plug, therefore, data and a power supply of a corresponding hard disk can be accessed through the rear wiring socket 106, the sliding plug 503 is fixed on the linkage frame 504, meanwhile, the linkage frame 504 is in sliding connection with the transverse sliding sleeve 507 through the adjusting ejector rod 505, the horizontal central line of the transverse sliding sleeve 507 is parallel to the horizontal central line of the hard disk slot 101, the linkage frame 504 can be driven to move horizontally back and forth by moving the adjusting ejector rod 505, the sliding plug 503 is driven to move horizontally back and forth, the sliding plug 503 and the connecting socket 105 are connected in an embedded mode or separated from each other, and physical on-off adjustment can be carried out on connection between the hard disk and the rear wiring socket 106.

Referring to fig. 2 to 8, optionally, the device can drive the linkage frame 504 to move horizontally back and forth by moving the adjusting plunger 505, and further drive the sliding plug 503 to move horizontally back and forth, so that the sliding plug 503 and the connecting socket 105 are engaged with each other or separated from each other, and whether the hard disk is connected or not is adjusted, the adjusting cam 601 is disposed in the side adjusting groove 104, the adjusting cam 601 is rotatably connected with the overall carrier frame 1 by the adjusting rotating shaft 6, the axial center line of the adjusting cam 601 is perpendicular to the horizontal center line of the adjusting plunger 505, meanwhile, the top end surface of the adjusting plunger 505 is engaged with the outer side wheel surface of the adjusting cam 601, the positioning plane 602 is matched with the adjusting plunger 505 in size, so that the adjusting plunger 505 can be pressed to move horizontally by rotating the adjusting cam 601 to adjust the position of the sliding plug 503, and further, the sliding plug 503 and the connecting socket 105 are engaged with or separated from each other, the adjustment of the access of the hard disk is performed, and the adjustment cam 601 is connected with the horizontal deflector rod 604 through the adjustment link 603, so that the adjustment cam 601 can be driven to rotate by pulling the horizontal deflector rod 604 to adjust the access of the hard disk, when the adjustment cam 601 presses the adjustment rod 505 at the rear side, i.e. the sliding plug 503 is connected with the connection socket 105 to access the hard disk, the horizontal deflector rod 604 is completely horizontally arranged at the front side of the connection opening 103, at this time, the horizontal deflector rod 604 can be blocked at the front side of the hard disk slot mounting unit hard disk frame 2 to lock the unit hard disk frame 2, and the horizontal deflector rod 604 is matched with the fixed slot 402 in size, so as to fix the horizontal deflector rod 604 and the unit hard disk frame 2 at the same time, the hard disk access can be completed when the unit hard disk frame 2 is mounted and locked, and the horizontal deflector rod 604 can be pulled upwards to disconnect the hard disk when the hard disk, the whole body does not need to be dismounted, and the use is more convenient and faster.

When in use, the overall bearing frame 1 is firstly arranged at a corresponding position of a server, the rear wiring jack 106 is accessed into the server through a corresponding data power supply connecting line, then a standard hard disk can be installed and fixed on a corresponding unit hard disk frame 2, the locking fixture block 404 is firstly moved to release the linkage frame 504 during installation, the linkage frame 504 drives the positioning bolt 301 to move outwards, then the standard hard disk interface horizontally slides backwards to enter the bearing slideway 201, the linkage frame 504 is pressed inwards, the positioning bolt 301 is inserted into the fixing screw hole correspondingly arranged at the bottom of the hard disk, the locking fixture block 404 is embedded into the locking fixture groove 304 to lock the linkage frame 504, thereby completing the installation and fixation work of the hard disk, then the unit hard disk frame 2 provided with the hard disk can be horizontally and slidably inserted into the hard disk slot position 101 through the connecting opening 103, and the data interface and the power supply interface at the rear side of the hard disk are naturally inserted into the hard disk jack 501 during insertion, then, the horizontal deflector rod 604 can be moved downwards to be embedded into the fixed clamping groove 402, meanwhile, the horizontal deflector rod 604 drives the adjusting cam 601 to rotate, the adjusting cam 601 presses the adjusting ejector rod 505 to be located at the rear side, the sliding plug 503 is connected with the connecting socket 105, the hard disk is communicated with the rear wiring socket 106, the hard disk is installed and connected, and if the hard disk needs to be disconnected, the horizontal deflector rod 604 is moved upwards.

The hard disk rack for the big data storage server provided by the invention loads hard disks through the unit hard disk rack 2, the unit hard disk rack 2 is provided with a positioning bolt 301 at the position of a hard disk fixing screw hole, the positioning bolt 301 can be embedded into the hard disk fixing screw hole in a sliding way through a positioning sleeve 3 so as to fix the hard disks, the installation and the disassembly are more convenient and faster, meanwhile, the hard disk rack is provided with a whole bearing frame 1 as a storage whole, a plurality of hard disk slots 101 are arranged on the whole bearing frame 1 in parallel, each hard disk slot 101 can be filled with one unit hard disk rack 2, each hard disk slot 101 is correspondingly provided with a hard disk socket 501, the hard disks on the unit hard disk rack 2 can be accessed through the hard disk sockets 501 when the unit hard disk rack 2 is embedded into the hard disk slots 101, the hard disk sockets 501 are connected with sliding plugs 503 of a sliding structure through connecting flat cables 502, the sliding, the position of the sliding plug 503 can be adjusted by shifting the transverse shifting lever 604 linked with the adjusting cam 601, even if the sliding plug 503 is connected or disconnected with the connecting socket 105, so that the hard disk can be disconnected or connected with an object under the state of detaching the unit hard disk frame 2, and the operation and use are safer and more convenient.

Those of ordinary skill in the art will understand that: the discussion of any embodiment above is meant to be exemplary only, and is not intended to intimate that the scope of the disclosure, including the claims, is limited to these examples; within the spirit of the present disclosure, features from the above embodiments or from different embodiments may also be combined, steps may be implemented in any order, and there are many other variations of different aspects of one or more embodiments of the present description as described above, which are not provided in detail for the sake of brevity.

It is intended that the one or more embodiments of the present specification embrace all such alternatives, modifications and variations as fall within the broad scope of the appended claims. Therefore, any omissions, modifications, substitutions, improvements, and the like that may be made without departing from the spirit and principles of one or more embodiments of the present disclosure are intended to be included within the scope of the present disclosure.