CN108664099B - Electronic equipment and hard disk module thereof - Google Patents

Abstract

The invention discloses a hard disk module, which comprises a plurality of hard disk bodies arranged in a stacked mode and a hard disk frame used for placing the hard disk bodies, wherein the hard disk frame can rotate upwards relative to a case by taking a first end of the hard disk frame as a shaft and a second end of the hard disk frame as a shaft; the hard disk drive also comprises a fixed bracket arranged on at least one of the two sides of the hard disk frame, and the fixed bracket is provided with a lapping groove; the hard disk frame is connected with a lifting component matched with the lap joint groove through a rotating part; when the lifting assembly is lifted upwards, the second end can rotate upwards relative to the case to realize the matching of the lifting assembly and the lap joint groove, and any hard disk body can be pulled out from the second end. The hard disk module improves the maintainability of the hard disk, the space utilization rate of the case and strong universality. The invention also discloses electronic equipment comprising the hard disk module.

Description

Electronic equipment and hard disk module thereof

Technical Field

The invention relates to the field of computer hardware, in particular to a hard disk module. In addition, the invention also relates to electronic equipment comprising the hard disk module.

Background

In the big data era, the data traffic demand of the industries such as internet and communication is increasing, the requirement on storage equipment in a server is also increasing, and higher storage density is required. The storage density is greatly improved, the maintenance space of the hard disk is compressed, and a great deal of inconvenience is brought to the hard disk maintenance.

At present, most of general servers place a hard disk module at the front end or the rear end of a case, and a hard disk can be inserted into the hard disk module from the outside of the case, so that hot plug maintenance of the hard disk in the module is realized. However, for a high storage density server, the hard disk module placed in the chassis is fixed in various ways, so that hot plug maintenance is difficult to meet, and inconvenience is caused to hard disk maintenance; hard disk module that can realize hard disk hot plug often separates great distance between perhaps hard disk module and other parts and arranges, will leave the space that makes things convenient for hard disk module level to extract simultaneously, and it is very high to quick-witted case overall arrangement requirement, and space utilization is not high, and different model machine casees are relatively poor owing to its inside overall arrangement difference is great moreover, and this kind of hard disk module commonality is relatively poor.

Therefore, how to improve the structure of the hard disk module to improve the hot plug maintainability of the hard disk, reduce the space for arranging the hard disk module and improve the universality of the hard disk module becomes a technical problem to be solved by the technical personnel in the field.

Disclosure of Invention

The invention aims to provide a hard disk module which is convenient for hot plug maintenance of a hard disk, small in occupied space and high in universality. Another object of the present invention is to provide an electronic device including the above hard disk module.

In order to achieve the above object, the present invention provides a hard disk module, which includes a plurality of stacked hard disk bodies and a hard disk frame for placing the plurality of hard disk bodies, wherein the hard disk frame can rotate upward relative to a chassis with a first end thereof as an axis and a second end thereof; the hard disk drive further comprises a fixed support arranged on at least one of the two sides of the hard disk frame, and the fixed support is provided with a lapping groove; the hard disk frame is connected with a lifting component matched with the lap joint groove through a rotating part; when the lifting assembly is lifted upwards, the second end can rotate upwards relative to the case, so that the lifting assembly is matched with the lap joint groove, and any hard disk body can be pulled out from the second end.

Preferably, the fixing groove includes a locking end for the limiting portion to be locked and embedded, and a moving-out end communicated with the locking end in the length direction of the hard disk frame; the notch of the fixing groove is positioned above the moving-out end, and the clamping end is communicated with the moving-out end.

Preferably, the hard disk frame is further provided with an elastic part which is connected with the lifting assembly and used for applying a rotating acting force to the lifting assembly; under the action of the elastic part, after the lifting assembly rotates, the limiting part is clamped and embedded in the clamping end.

Preferably, the hard disk frame is further provided with a stopping portion, so that under the rotation action of the lifting assembly, when the limiting portion moves from the fixing groove to the overlapping groove, the stopping portion can limit the rotation angle of the lifting assembly to protect the elastic portion.

Preferably, the overlapping groove is closer to the first end than the fixing groove, and the guide edge gradually decreases in a direction along the first end to the second end.

Preferably, the height of the overlapping groove is adjusted to realize the adjustable rotation angle of the second end relative to the chassis.

Preferably, a fixing portion for fixedly connecting with the chassis is disposed at the first end, and the hard disk frame further includes a rotating plate disposed at the bottom and rotatably connected with the fixing portion.

Preferably, the hard disk frame further includes a plurality of sliding grooves for inserting and pulling each of the hard disk bodies.

The invention also provides electronic equipment comprising any one of the hard disk modules.

Compared with the background technology, the hard disk module provided by the invention comprises a hard disk frame with one rotatable end serving as a shaft, a lifting assembly arranged on the hard disk frame and a fixed support positioned on at least one side of the hard disk frame, wherein the fixed support is also provided with a lapping groove matched with the lifting assembly. When the hard disk needs hot plug maintenance, the pulling assembly is pulled to enable the hard disk frame to rotate and is placed in the overlapping groove, and the hard disk frame is placed upwards in an inclined mode so that the hard disk can be easily pulled out of the hard disk frame. Compared with horizontal hot plug maintenance, a large plug maintenance space needs to be reserved, and the hard disk module provided by the invention only needs to rotate and lift a proper angle to facilitate the hot plug of all hard disks to be taken out. Even if the installation space of the hard disk module is very small, hot plug maintenance can be realized, and the maintainability is strong. In addition, also need not to reserve great maintenance space between hard disk module and other parts, improved space utilization, to different model quick-witted case, even the overall arrangement difference is great, as long as leave the space of less hard disk module installation can, relative needs reserve the traditional hard disk module that hot plug maintained great installation space, the commonality is very strong.

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 embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

FIG. 1 is a diagram illustrating a hard disk module according to a first embodiment of the present invention;

FIG. 2 is a view of the hard disk module of FIG. 1;

FIG. 3 is a diagram illustrating the maintenance of the hard disk module shown in FIG. 1;

fig. 4 is a schematic diagram of an adjusting portion of a hard disk module according to a second embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be 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 order that those skilled in the art will better understand the disclosure, the invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Referring to fig. 1, fig. 2, fig. 3 and fig. 4, fig. 1 is a structural diagram of a hard disk module according to a first embodiment of the present invention; FIG. 2 is a view of the hard disk module of FIG. 1; FIG. 3 is a diagram illustrating the maintenance of the hard disk module shown in FIG. 1; fig. 4 is a schematic diagram of an adjusting portion of a hard disk module according to a second embodiment of the present invention.

The hard disk module provided by the invention comprises a hard disk body 3 and a hard disk frame 2, wherein a plurality of hard disk bodies 3 are stacked and inserted in the hard disk frame 2, one end of the hard disk frame 2 is fixed on a chassis bottom plate 10 through a rotating shaft, the end is called a first end, the other end can rotate around the rotating shaft, the end is called a second end, specifically referring to fig. 1, the left end of the hard disk frame 2 is called the first end, and a section of the hard disk frame 2 is called the second end. A rotatable pull assembly 6 is also provided on the hard disk frame 2. The hard disk module further comprises a fixed support 4, wherein the fixed support 4 is at least provided with one side of the hard disk frame 2, and can also be arranged on two sides. The fixed bracket 4 is provided with a lap joint groove 41 matched with the lifting component 6.

When the hard disk body 3 needs hot plug maintenance. Only the lifting component 6 needs to be lifted, the second end is lifted and rotates for a certain angle around the first end, the lifting component 6 rotates to be matched with the lap joint groove 41, and the angle is kept fixed. At this time, the hard disk body 3 can be maintained by hot plug. The certain angle is determined to satisfy that all the hard disk bodies 3 can be pulled out from the hard disk frame 2.

The hard disk module provided by the invention has the advantages that the hard disk module can rotate around the first end serving as the shaft to the position suitable for taking all the hard disk bodies 3 out of the hard disk frame 2 by arranging the first end and the second end, the hot plug maintenance of the hard disk bodies 3 is convenient, and compared with the hard disk module with two fixed ends, which is inconvenient for directly taking out the hard disk bodies 3 from the hard disk module and has a limited traditional installation space, the maintainability of the hard disk bodies 3 is greatly improved. Meanwhile, due to the fact that the rotatable hard disk frame 2 is adopted, the hot plug maintenance of the hard disk body 3 can be achieved without reserving a space for the hard disk module to horizontally plug and unplug the hard disk body 3, small-distance installation between the hard disk modules or between the hard disk modules and other components is achieved, and installation space of the hard disk module is reduced. The hard disk module that 3 hot plug of hard disk body were satisfied to tradition requires very high to quick-witted case overall arrangement, will reserve sufficient space and supply 3 plugs of hard disk body, and to the quick-witted case of different models, such requirement is difficult to realize, and it is relatively poor to lead to tradition to carry out the hard disk module commonality of 3 hot plugs of hard disk body. The hard disk module provided by the invention has small requirement on installation space, can be used universally as long as a small space is reserved for the cases with different types and layouts, and improves the universality of the hard disk module capable of realizing hot plugging of the hard disk body 3.

The hard disk module provided by the invention is described in more detail with reference to the accompanying drawings and specific embodiments.

The first embodiment: as shown in fig. 1, the hard disk module includes a hard disk body 3 and a hard disk frame 2, a plurality of hard disk bodies 3 are stacked and inserted into the hard disk frame 2, a sliding groove 22 is specially provided to facilitate the insertion and extraction of the hard disk bodies 3 from the hard disk frame 2, the plurality of sliding grooves 22 are arranged along the vertical direction of the hard disk frame 2, and a single sliding groove 22 extends in the horizontal direction. One end of the hard disk frame 2 is provided with a fixing part 1 connected through a rotating shaft, the fixing part 1 comprises a fixing plate 101, the bottom of the hard disk frame 2 is provided with a rotating plate 21, and the rotating plate 21, the fixing plate 101 and the rotating shaft form a hinge to realize that the hard disk frame 2 rotates around the first end as an axis. The fixing piece 101 is provided with a plurality of holes and is fixed to the chassis base plate 10 by anchor screws 102. The fixing piece 101 can also be directly welded with the chassis bottom plate 10, and is fixed by the anchor screw 102, so that the fixing piece is more convenient to disassemble and has strong flexibility. One end of the hard disk frame 2 connected by the shaft and the fixing piece 101 is referred to as a first end, a left end as shown in fig. 1; the other end of the hard disk frame 2 is referred to as a second end, which is the right end shown in fig. 1; the second end can rotate with the first end as an axis.

The hard disk frame 2 is provided with a lifting component 6 near the second end, the lifting component 6 is arranged near the second end, the main purpose is to save labor when lifting, and the lifting component is a U-shaped handle which is arranged upside down, and can be in other shapes, even can be a lifting ring, so that the lifting requirement can be met. The pulling assembly 6 and the side wall of the hard disk frame 2 are connected by a rotating member 8 to achieve rotation of the pulling assembly 6. The rotating member 8 is embodied as a screw, and the side wall of the hard disk frame 2 and the two ends of the lifting assembly 6 are both provided with holes for the rotating member 8 to pass through, and the two are matched with the rotating member 8 through the holes to realize rotatable connection. The trompil of carrying and drawing subassembly 6 is opened at the middle part of carrying and drawing subassembly 6 both sides handle, and the downside that rotates piece 8 still sets up spacing portion 9, and the fixed bolster 4 top that hard disk frame 2 both sides were fixed in the quick-witted case sets up overlap joint groove 41, makes things convenient for rotatory hard disk frame 2 to carry and draws second end and support hard disk frame 2 with spacing portion 9 cooperation when to a take the altitude. The fixing bracket 4 is further provided with a fixing groove 43 for cooperating with the limiting part 9 to limit the movement of the hard disk frame 2. The fixing groove 43 and the overlapping groove 41 are communicated by a leading edge 42 of the edge of the fixing bracket 4, the overlapping groove 41 is closer to the first end than the fixing groove 43, and the leading edge 42 is gradually lowered in a direction from the first end to the second end. The limiting part 9 is specifically a metal protrusion integrally arranged with the lifting component 6, and can also be a bolt connected to the lifting component 6 in a welding or other mode, and the arrangement of the position of the overlapping groove 41 meets the requirement that when the limiting part 9 moves to the overlapping groove 41, all the hard disk bodies 3 can be smoothly taken out from the hard disk frame 2.

The structure for limiting the movement of the hard disk frame comprises a limiting part 9 and a fixing groove 43, wherein the fixing groove 43 is close to the second end relative to the overlapping groove 41 and is located below the overlapping groove 41, and the lower part refers to the lower side closer to the second end, specifically the lower right side as shown in the figure I. Between the lapping groove 41 and the fixing groove 43 is a guide edge of the fixing bracket 4 for the limiting part 9 to slide. The fixing groove 43 includes a locking end 431 for the locking of the position-limiting part, and a moving-out end 432 connected to the locking end 431 in the length direction of the hard disk frame; the notch 433 of the fixing groove 43 is located above the removing end 432, and the locking end 431 is communicated with the removing end 432. The fixing groove 43 has a structure that the notch 433 is smaller than the groove width and the notch 433 of the fixing groove 43 is close to the second end; the width of the notch 433 is slightly larger than that of the stopper portion 9 so that the stopper portion 9 can be easily taken out and placed from the removing end 432 of the fixing groove 43. The lifting assembly 6 is rotated to enable the limiting part 9 to be far away from the notch 433 to the clamping end 431, and the fixing groove 43 is matched with the limiting part 9 to fix the second end of the hard disk frame 2; the lifting assembly 6 is rotated to enable the limiting part 9 to reach the notch 433, the lifting assembly 6 is lifted to lift the limiting part 9 out of the notch 433 of the fixing groove 43, and the limiting part slides to the overlapping groove 41 along the frame of the fixing support 4 to be placed. The lapping groove 41 supports the hard disk frame 2 through the limiting part 9 and the lifting component 6, so that the hard disk body 3 can be conveniently taken out from the hard disk frame 2 in the oblique upward direction.

The elastic part 7 specifically comprises an elastic part mounting hole, an elastic part and a fixed terminal, the elastic part is specifically a spring, the elastic part mounting hole is formed above the rotating part 8, the corresponding side wall of the fixed support 4 close to one side of the second end is provided with the fixed terminal, the position of the lifting component 6 is close to the second end, one end of the elastic part is fixed on the fixed terminal, and the other end of the elastic part is fixed in the elastic part mounting hole of the lifting component 6. Thus, under the pulling force of the elastic component, the pulling assembly 6 can rotate around the axis of the first end (defined as forward rotation, clockwise as shown in fig. 1), and the positioning portion 9 moves to the stopping end 431 of the fixing groove 43 by leverage, so as to fix the second end of the hard disk frame 2. When the hard disk frame 2 needs to be rotated, the reverse rotation lifting assembly 6 takes the limiting part 9 out of the notch 433 of the fixing groove 43, and rotates the lifting second end to place the limiting part 9 in the lap joint groove 41 to support the hard disk frame 2. Other elastic components can be used for replacing the spring, even the elastic components can be a torsion spring, a rubber band and the like, the matching of the limiting part 9 and the clamping end 431 of the fixing groove 43 can be kept under the action of the elastic force, and then the second end of the hard disk frame 2 is fixed.

Specifically, a stopping portion 5 is disposed on a side of the hard disk frame 2 away from the second end, specifically, in a direction of counter-rotation (specifically, counterclockwise in fig. 1) relative to the pulling assembly 6, and specifically, may be a metal protrusion disposed on a sidewall of the hard disk frame 2, so as to limit a rotation angle of the pulling assembly 6, and prevent the elastic component from being damaged by an excessive angle of rotating the pulling assembly 6 when the second end is pulled. That is, the lifting assembly 6 rotates reversely until contacting the stopper 5, and then does not rotate any more, and the hard disk frame 2 is lifted by the interaction force of the stopper 5 rather than the pulling force of the elastic component.

For a high storage density server, one hard disk module generally cannot meet the requirement, and a plurality of hard disk modules are often required to be installed to realize a storage function. The installation positions of the hard disk modules are shown in fig. 2, and the connected hard disk modules or the hard disk modules and other components can adopt a close-row layout mode, so that the space of the case is saved.

As shown in fig. 3, in normal operation, a plurality of hard disk bodies 3 are stacked and inserted in the hard disk frame 2. The first end of the hard disk frame 2 is fixed on the chassis bottom plate 10 through a fixing sheet 101; under the action of the tensile force of the elastic component, the limiting part 9 is far away from the notch 433 of the fixing groove 43 through the lever principle and clamped in the fixing groove 43, and the second end of the hard disk frame 2 is fixed. When the hard disk body 3 needs to be subjected to hot plug maintenance, the lifting assembly 6 is rotated reversely, so that the limiting part 9 is taken out from the notch 433 of the fixing groove 43; lifting the lifting component 6 to touch the stopping part 5 so as to lift the second end of the hard disk frame 2 to rotate around the first end, the limiting part 9 is placed in the overlapping groove 41 along the guide edge 42 of the fixed support between the overlapping groove 41 and the fixed groove 43 in a movable mode, at the moment, the opening of the hard disk frame 2 for plugging and unplugging the hard disk body 3 is inclined upwards, and hot plugging maintenance can be conveniently carried out on the hard disk body 3.

The hard disk module provided by the specific embodiment comprises a hard disk frame 2 and a hard disk body 3; hard disk frame 2 sets up first end and second end, rotates the second end and places spacing portion 9 in overlap joint groove 41 through carrying pull assembly 6, is that hard disk frame 2 pegs graft hard disk body 3 lean on a mouthful slope upwards, makes things convenient for hard disk body 3 to carry out the hot plug and maintains. The hard disk body 3 is obliquely and upwards pulled out, so that reserved spaces among the hard disk modules and other components are greatly reduced. Compared with a traditional hard disk module, the hard disk body 3 is horizontally plugged and pulled out, and a large installation space needs to be reserved, so that the space required to be reserved for installing the hard disk module is greatly reduced. Meanwhile, the hard disk module has low requirements on the layout of the case due to small installation space, and has strong universality on cases of different specifications and models.

The second end is fixed or unfixed for rotation according to the working state by arranging the fixing groove 43 and the limiting part 9 of the lifting assembly 6; the elastic component can be used for pushing the limiting part 9 of the lifting assembly 6 to the clamping end 431 of the fixing groove 43 far away from the notch 433 to fix the hard disk frame 2 and the hard disk body 3 under the normal working state of the hard disk body 3 by means of the elastic action. The hard disk body 3 is prevented from being damaged by the rotation and vibration of the elastic module in the process of transporting or carrying the case. Meanwhile, a stopping part 5 is arranged on the side wall of the hard disk frame 2 in the reverse rotation direction of the pulling assembly 6 to limit the rotation angle of the pulling assembly 6, so that the elastic part is prevented from being damaged due to the overlarge rotation angle of the pulling assembly 6.

The second embodiment: please refer to fig. 1 and 4. The second embodiment adds an adjustment between the overlapping groove 41 and the fixing bracket 4, compared to the first embodiment.

The adjusting part is specifically shown in the figure 4, and comprises a fixing bracket 4, an adjusting plate 11 connected with the fixing bracket 4 through a guide groove, and a lap groove 41 positioned on the adjusting plate 11. The adjusting plate 11 and the fixing bracket 4 are each formed with a plurality of height adjusting holes 12 as shown in fig. 4, through which bolts are passed to fix the adjusting plate 11 and the fixing bracket 4 to achieve adjustment of the height of the overlapping groove 41. The hard disk frame 2 is rotated by a proper angle and is lapped on the lapping groove 41, so that all the hard disk bodies 3 can be taken out from the second end of the hard disk frame 2.

Compared with the first embodiment, the second embodiment with the additional adjusting part realizes the height adjustment of the lap joint groove 41, so that the height adjustment can be carried out on the limiting part 9 of the lifting assembly 6 and the lap joint groove 41 in a special case including the change of the arrangement in the case, and the height adjustment can be carried out to match the limiting part 9 of the lifting assembly 6 with the lap joint groove 41, so that all the hard disk bodies 3 can be pulled out of the hard disk frame 2, the universality of the hard disk module is further improved, and the change of the rotating angle of the height adjustment is limited by the stopping part 5.

In addition, the invention also discloses electronic equipment provided with the hard disk module, which comprises the hard disk module described in the specific embodiment. The structure of other parts of the electronic device can be referred to in the prior art, and will not be described in detail herein.

The invention also relates to a structure improvement for solving the problems of limited installation space and inconvenient operation and maintenance of the hard disk module structure, which is not only applied to the design of the hard disk module, but also can be solved by adopting the structure of the hard disk module disclosed by the invention in other fields. The structural design for fixing and unfixing the second end of the hard disk module disclosed by the invention is also applicable to many fields.

It is noted that, in this specification, relational terms such as first and second, and the like are used solely to distinguish one entity from another entity without necessarily requiring or implying any actual such relationship or order between such entities.

The hard disk module and the electronic device including the hard disk module provided by the invention are introduced in detail above. The principles and embodiments of the present invention are explained herein using specific examples, which are presented only to assist in understanding the method and its core concepts. It should be noted that, for those skilled in the art, it is possible to make various improvements and modifications to the present invention without departing from the principle of the present invention, and those improvements and modifications also fall within the scope of the claims of the present invention.

Claims (7)

1. The hard disk module is characterized by comprising a plurality of hard disk bodies (3) which are arranged in a stacked mode and a hard disk frame (2) used for placing the hard disk bodies (3), wherein the hard disk frame (2) can rotate upwards relative to a case by taking a first end of the hard disk frame as an axis and taking a second end of the hard disk frame as an axis; the hard disk drive further comprises a fixed support (4) arranged on at least one of two sides of the hard disk frame (2), and the fixed support (4) is provided with a lapping groove (41); the hard disk frame (2) is connected with a pulling assembly (6) matched with the overlapping groove (41) through a rotating piece (8);

when the lifting assembly (6) is lifted upwards, the second end can rotate upwards relative to the case, so that the lifting assembly (6) is matched with the lap joint groove (41), and any hard disk body (3) can be pulled out from the second end;

the lifting component (6) is provided with a limiting part (9) positioned below the rotating part (8); the fixed support (4) is also provided with a fixed groove (43) positioned below the overlapping groove (41), and a guide edge (42) for the limiting part (9) to slide is arranged between the fixed groove (43) and the overlapping groove (41);

when the limiting part (9) is positioned on the fixing groove (43), the hard disk frame (2) can be horizontally placed on the chassis; when the limiting part (9) slides to the lapping groove (41) along the guide edge (42), any hard disk body (3) can be pulled out from the second end;

the fixing groove (43) comprises a blocking end (431) for blocking and embedding the limiting part (9), and also comprises a moving end (432) communicated with the blocking end (431) in the length direction of the hard disk frame (2); the notch (433) of the fixing groove (43) is positioned above the moving-out end (432), and the blocking end (431) is communicated with the moving-out end (432);

the hard disk frame (2) further comprises a plurality of sliding grooves (22) for plugging and unplugging each hard disk body (3) respectively.

2. A hard disk module according to claim 1, wherein the hard disk frame (2) is further provided with an elastic portion (7) connected to the pulling assembly (6) for applying a rotational force to the pulling assembly (6); under the action of the elastic part (7), after the lifting component (6) rotates, the limiting part (9) is embedded in the clamping end (431).

3. The hard disk module as claimed in claim 2, wherein the hard disk frame (2) is further provided with a stopper (5) to limit the rotation angle of the pulling assembly (6) to protect the elastic part (7) when the limiting part (9) moves from the fixing groove (43) to the overlapping groove (41) under the rotation action of the pulling assembly (6) by the stopper (5).

4. A hard disk module according to claim 3, wherein the overlapping groove (41) is closer to the first end than the fixing groove (43), and the leading edge (42) is gradually decreased in a direction from the first end to the second end.

5. The hard disk module according to any one of claims 1 to 4, further comprising an adjusting portion for adjusting the height of the overlapping groove (41) to adjust the rotation angle of the second end relative to the chassis.

6. The hard disk module as claimed in any of claims 1 to 4, wherein a fixing portion (1) is provided at the first end for fixedly connecting with the chassis, and the hard disk frame (2) further comprises a rotating plate (21) at the bottom and rotatably connected with the fixing portion (1).

7. An electronic device, comprising the hard disk module according to any one of claims 1 to 6.

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