CN220274086U - Server strorage device - Google Patents

Abstract

The application discloses a server strorage device relates to server technical field, has solved the problem that current server strorage device is inconvenient for depositing the server. The server storage device comprises a cabinet and a bearing assembly. The cabinet encloses a mounting cavity having an opening. The bearing assembly is arranged in the mounting cavity. The inner wall of the mounting cavity is provided with a connecting part, and the bearing assembly is detachably connected with the connecting part. The bearing assembly comprises a bearing plate, an elastic piece and a connecting piece. The bearing plate is used for bearing the server. One end of the elastic piece is connected with the bearing plate, and the other end is connected with the connecting piece. The connecting piece is used for being close to and detachably connected with the connecting part under the action of the elastic piece. The server storage device may be used to store servers.

Description

Server strorage device

Technical Field

The application relates to the technical field of servers, in particular to a server storage device.

Background

A server is a type of computer that is used for data storage and computation.

Servers are typically stored on racks. Racks typically have multiple levels of storage boards, each of which may be used to store servers.

In the prior art, the server storage device is inconvenient for server storage.

Disclosure of Invention

The application provides a server strorage device for solve the problem that current server strorage device is inconvenient for depositing the server.

In order to achieve the above purpose, the present application adopts the following technical scheme:

the application provides a server storage device, which comprises a cabinet and a bearing assembly. The cabinet encloses a mounting cavity having an opening. The bearing assembly is arranged in the mounting cavity. The inner wall of the mounting cavity is provided with a connecting part, and the bearing assembly is detachably connected with the connecting part. The bearing assembly comprises a bearing plate, an elastic piece and a connecting piece. The bearing plate is used for bearing the server. One end of the elastic piece is connected with the bearing plate, and the other end is connected with the connecting piece. The connecting piece is used for being close to and detachably connected with the connecting part under the action of the elastic piece.

The application provides a server strorage device, because bear subassembly and connecting portion detachable connection, when the installation server is needed, can dismantle the subassembly that bears from the installation cavity, be convenient for install the server on bearing the subassembly. After the server is installed on the bearing component, the bearing component can be connected with the connecting part, the bearing component is fixed in the cabinet, the server can be installed in the cabinet, and the server is fixed in the cabinet conveniently. When the bearing assembly is installed on the cabinet, the elastic piece can drive the connecting piece to be close to the connecting portion under the elastic action of the elastic piece, so that the connecting piece and the connecting portion are connected together. The connecting piece and the connecting part are connected together without manual operation of a worker, so that the bearing assembly is connected with the cabinet conveniently, and the installation efficiency can be improved. The loading plate provided with the server does not need to be lifted by staff for a long time, so that the server is conveniently arranged in the cabinet.

Further, the connecting portion is a connecting hole.

Further, the inner wall may include a first side wall and a second side wall disposed opposite to each other. The quantity of connecting hole is a plurality of, and a plurality of connecting holes distribute on first lateral wall and second lateral wall. The number of the elastic pieces and the connecting pieces is plural. The plurality of connecting pieces are arranged on two sides of the bearing plate, which are close to the first side wall and the second side wall, and are connected with the connecting holes.

Further, the inner wall includes a bottom wall, and the quantity of connecting portion is a plurality of, along the direction of perpendicular to bottom wall, and a plurality of connecting portions are in different high positions.

Further, the bearing plate is provided with a sliding groove. The elastic piece is positioned in the sliding groove, and one end of the elastic piece is connected with the groove wall of the sliding groove. The connecting piece is positioned in the sliding groove and is in sliding connection with the sliding groove.

Further, the connector may include a connection plate and a plurality of connection posts. The connecting plate is connected with the other end of the elastic piece and is in sliding connection with the sliding groove. The connecting posts are positioned on one side of the connecting plate and connected with the connecting plate. One connecting post is connected with one connecting hole.

Further, a space is provided between the sliding groove and the surface of the bearing plate on the side close to the connecting portion. The surface of the bearing plate, which is close to one side of the connecting part, is provided with an avoidance hole which is communicated with the sliding groove. The connecting column penetrates through the avoiding hole and is connected with the connecting hole.

Further, the connecting piece can further comprise a pulling handle, wherein the pulling handle is connected with the connecting plate and is positioned on one side of the bearing plate.

Further, the server storage device may further include an adjustment lever and a pressing plate. One end of the adjusting rod is detachably connected with the bearing plate, and the other end of the adjusting rod is far away from the bearing plate. The pressing plate is connected with the other end of the adjusting rod, and the pressing plate and the bearing plate are arranged at opposite intervals.

Further, the bearing plate is also provided with an avoidance groove, and one end of the adjusting rod, which is far away from the pressing plate, is penetrated in the avoidance groove. The server storage device further comprises an adjusting piece, and the adjusting piece is provided with a threaded hole. The outer surface of one end of the adjusting rod, which is far away from the pressing plate, is provided with external threads, and the threaded hole is connected with the external threads of the adjusting rod.

Drawings

Fig. 1 is a schematic structural diagram of a server storage device according to an embodiment of the present application;

FIG. 2 is an enlarged partial cross-sectional view of FIG. 1 at A;

fig. 3 is a schematic structural diagram of a bearing assembly according to an embodiment of the present disclosure;

fig. 4 is a side view of a cabinet provided in an embodiment of the present application;

fig. 5 is a schematic structural diagram of a connector according to an embodiment of the present application.

100. A server storage device; 1. a cabinet; 101. a mounting cavity; 1011. an opening; 1012. a connection part; 10121. a connection hole; 1013. an inner wall; 10131. a first sidewall; 10132. a second sidewall; 10133. a bottom wall; 2. a carrier assembly; 201. a carrying plate; 2011. a sliding groove; 2012. an avoidance groove; 202. an elastic member; 203. a connecting piece; 2031. a connecting plate; 2032. a connecting column; 2033. a guide rod; 2034. pulling the handle; 3. an adjusting rod; 4. a pressing plate; 5. an adjusting member; 6. and a roller.

Detailed Description

The following description of the embodiments of the present application will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all, of the embodiments of the present application. All other embodiments, which can be made by one of ordinary skill in the art without undue burden from the present disclosure, are within the scope of the present disclosure.

In the description of the present application, it should be understood that the terms "upper," "lower," "left," "right," "front," "rear," "inner," "outer," "center," and the like indicate orientations or positional relationships based on the orientations or positional relationships illustrated in the drawings, merely to facilitate description of the present application and simplify the description, and do not indicate or imply that the devices or elements being referred to must have a particular orientation, be configured and operated in a particular orientation, and thus should not be construed as limiting the present application.

In the present embodiments, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

In the embodiments of the present application, words such as "exemplary" or "such as" are used to mean serving as examples, illustrations, or descriptions. Any embodiment or design described herein as "exemplary" or "for example" should not be construed as preferred or advantageous over other embodiments or designs. Rather, the use of words such as "exemplary" or "such as" is intended to present related concepts in a concrete fashion.

The embodiment of the application provides a server storage device, which can be used for storing servers. As shown in fig. 1, fig. 1 is a schematic structural diagram of a server storage device 100 according to an embodiment of the present application, where the server storage device 100 includes a cabinet 1 and a carrying assembly 2. The cabinet 1 encloses a mounting cavity 101 having an opening 1011. The carrier assembly 2 is disposed within the mounting cavity 101.

As shown in fig. 2, fig. 2 is a partially enlarged sectional view of fig. 1 a, an inner wall 1013 of the installation cavity 101 is formed with a connection portion 1012, and the carrier assembly 2 is detachably connected to the connection portion 1012. The server may be mounted on the carrier assembly 2. When the server needs to be installed, the bearing assembly 2 can be detached from the installation cavity 101, so that the server is convenient to install on the bearing assembly 2. After the server is installed on the carrier assembly 2, the carrier assembly 2 can be connected with the connection portion 1012, the carrier assembly 2 is fixed inside the cabinet 1, and the server can be installed inside the cabinet 1, so that the server is fixed inside the cabinet 1.

The mounting location may be, for example, a ground or a table surface or the like, which is convenient for a worker to operate.

As shown in fig. 3, fig. 3 is a schematic structural diagram of a carrier assembly 2 according to an embodiment of the present application, where the carrier assembly 2 includes a carrier plate 201, an elastic member 202, and a connecting member 203. The carrier 201 is used to carry servers. One end of the elastic member 202 is connected to the carrier 201, and the other end is connected to the connecting member 203. The connecting piece 203 is used for being close to and detachably connected with the connecting portion 1012 under the action of the elastic piece 202.

Based on this, when the carrying assembly 2 is mounted on the cabinet 1, the elastic member 202 can drive the connecting member 203 to approach the connecting portion 1012 under the self-elastic action, so that the connecting member 203 and the connecting portion 1012 are connected together. The connecting piece 203 and the connecting part 1012 are not required to be manually connected together by a worker, so that the bearing assembly 2 is convenient to connect with the cabinet 1, and the installation efficiency can be improved. The carrier 201 with the server is not required to be lifted by a worker for a long time, so that the server is conveniently arranged in the cabinet.

To facilitate connection of the connector 203 with the connector 1012, in some embodiments, as shown in fig. 2, the connector 1012 is a connection aperture 10121. When the carrying assembly 2 is mounted on the cabinet 1, a worker only needs to align the positions of the connecting piece 203 and the connecting hole 10121, and the connecting piece 203 can be inserted into the connecting hole 10121 under the driving of the elastic piece 202, so that the connecting piece 203 and the connecting portion 1012 are connected together.

After the connection member 203 is inserted into the connection hole 10121, the connection hole 10121 can define the position of the connection member 203, so that the connection member 203 can only move along the extending direction of the connection hole 10121, and the connection stability of the connection member 203 and the connection portion 1012 can be ensured.

For example, as shown in fig. 2, the connection hole 10121 may be directly formed on the side wall of the cabinet 1, and the connection portion 1012 does not occupy the space inside the installation cavity 101, so that the overall size of the cabinet 1 may be reduced, and the space area occupied by the cabinet 1 may be reduced.

In other embodiments, the connection portion 1012 may include a connection block (not shown) disposed on the inner wall 1013 of the mounting cavity 101, and a through hole (not shown) is formed on a side of the connection block adjacent to the carrier 201, and the connection member 203 may be inserted into the through hole. In this way, the connection member 203 and the connection portion 1012 can be connected together as well.

In some embodiments, the opening 1011 may be located on a side wall of one side of the cabinet 1, and a worker may place the carrier assembly 2 and servers within the mounting cavity 101 from the opening 1011.

It will be appreciated that the opening 1011 may be formed in two side walls of the cabinet 1 which are disposed opposite each other. In the process of arranging the bearing assembly 2 and the server in the installation cavity 101, a plurality of workers can work from the openings 1011 on two sides of the cabinet 1, and mutual influence among the workers can be avoided. Meanwhile, since the openings 1011 are formed on the two opposite side walls of the cabinet 1, the heat inside the installation cavity 101 can be more conveniently dissipated outwards.

To ensure stability of the placement of the carrier plate 201 within the mounting cavity 101, in some embodiments, as shown in fig. 1, the inner wall 1013 may include oppositely disposed first and second sidewalls 10131, 10132. The number of the connection holes 10121 (fig. 2) is plural, and the plurality of connection holes 10121 are distributed on the first sidewall 10131 and the second sidewall 10132.

The number of the elastic members 202 and the connecting members 203 is plural. The plurality of connecting members 203 are disposed on two sides of the carrier 201 near the first sidewall 10131 and the second sidewall 10132, and are connected to the connecting holes 10121. In this way, after the connecting piece 203 is inserted into the connecting hole 10121, the bearing plate 201 can be fixed from two sides of the bearing plate 201, so as to ensure the stability of the bearing plate 201 in the installation cavity 101, and improve the weight that the bearing plate 201 can bear.

To facilitate adjusting the position of the carrier 201 within the mounting cavity 101, in some embodiments, as shown in fig. 1, the inner wall 1013 includes a bottom wall 10133, as shown in fig. 4, fig. 4 is a side view of the cabinet 1 provided in the embodiments of the application, the number of the connection portions 1012 is plural, and the plural connection portions 1012 are located at different height positions along a direction perpendicular to the bottom wall (fig. 1).

When the loading plate 201 is disposed in the installation cavity 101, the connection members 203 may be connected with the connection portions 1012 of different heights according to the need, thereby fixing the loading plate 201 at different height positions. In this way, the spacing between adjacent carrier plates 201 may be adjusted so that the spacing between adjacent carrier plates 201 may be adapted to servers of different sizes.

In some embodiments, as shown in fig. 3, the carrier 201 is provided with a sliding groove 2011. The elastic member 202 is located in the sliding groove 2011, and one end of the elastic member is connected to a groove wall of the sliding groove 2011. The connecting member 203 is located in the sliding groove 2011 and is slidably connected to the sliding groove 2011.

Because the connecting piece 203 is located in the sliding groove 2011, the connecting piece 203 will not interfere with the server arranged on the surface of the bearing plate 201, when the server is arranged on the bearing plate 201, the surface lamination of the server and the bearing plate 201 can be ensured, and thus the stability of the server arranged on the bearing plate 201 is ensured.

Meanwhile, after the server is disposed on the carrier 201, the connection member 203 can slide in the sliding groove 2011, so as to separate the connection member 203 from the connection portion 1012, thereby detaching the carrier 201 from the mounting cavity 101.

It will be appreciated that in other embodiments, the connector 203 may be disposed on a side of the carrier 201 remote from the server, in sliding engagement with the carrier 201, such that the connector 203 does not interfere with the service as well.

By way of example, the connector 203 may include a connection block (not shown) and a sliding portion (not shown). The side of the carrier 201 away from the server may be provided with a T-shaped chute (not shown in the figure), and the sliding portion is a T-shaped slider, and the sliding portion is slidably connected in the T-shaped chute. The connecting block is connected with the sliding part, and one end of the connecting block is detachably connected with the connecting part 1012.

To ensure stability of the connection 203 with the connection 1012, in some embodiments, as shown in fig. 3, the connection 203 may include a connection plate 2031 and a plurality of connection posts 2032. The connection plate 2031 is connected to the other end of the elastic member 202 and slidably connected to the slide groove 2011. A plurality of connection posts 2032 are located on one side of the connection plate 2031 and are connected to the connection plate 2031. One of the connection posts 2032 is connected to one of the connection holes 10121 (fig. 2). The stability of the connection member 203 with the connection portion 1012 can be improved as the number of the connection posts 2032 increases.

Because the connecting posts 2032 are connected with the connecting plate 2031, the connecting posts 2032 can be driven to synchronously move only by pulling the connecting plate 2031, and the connecting posts 2032 are more convenient for a worker to pull.

Illustratively, as shown in fig. 3, the number of the connection posts 2032 is two, and one end of each of the two connection posts 2032 is connected to the connection plate 2031 and the other end is connected to one connection hole (fig. 2).

In some embodiments, as shown in fig. 3, a space is provided between the sliding groove 2011 and a surface of the carrier 201 near the connection portion 1012 (fig. 2). The surface of the carrier 201 near the connection portion 1012 is provided with a avoiding hole (not shown in the figure), and the avoiding hole is communicated with the sliding groove 2011. The connection post 2032 is disposed through the access hole and is connected to the connection hole 10121 (FIG. 2).

Because the connecting column 2032 is arranged in the avoidance hole in a penetrating way, the avoidance hole can limit the connecting column 2032, so that the connecting column 2032 can be ensured to stably provide supporting force for the bearing plate 201, and the bearing plate 201 can be stably arranged in the cabinet 1.

It is understood that in some embodiments, the sliding groove 2011 may be formed on a surface of the carrier 201 near the connection portion 1012. In this way, the carrying plate 201 does not need to be provided with a avoiding hole, and the connecting post 2032 can be directly connected with the connecting hole 10121. Accordingly, in order to ensure that the connection member 203 can provide support for the carrier 201, a sliding groove (not shown) may be formed on a sidewall of the sliding groove 2011. The end of the connecting plate 2031 may be slidably connected in a chute, which may limit the connecting plate 2031. In this way, the connection plate 2031 can also support the carrier plate 201.

In some embodiments, as shown in fig. 5, fig. 5 is a schematic structural diagram of the connecting piece 203 provided in the embodiments of the present application, where the connecting piece 203 may further include a guide rod 2033, and the guide rod 2033 is located on a side of the connecting plate 2031 away from the connecting post 2032. A guide hole (not shown in the figure) is formed in a side wall of the sliding groove 2011 (fig. 3) away from the connecting portion 1012 (fig. 2), and one end of the guide rod 2033 away from the connecting plate 2031 is inserted into the guide hole and is in sliding connection with the guide hole. The guide bar 2033 cooperates with the guide hole to guide the movement of the connection member 203.

In some embodiments, as shown in fig. 3, the elastic member 202 may be a spring, and the elastic member 202 may be sleeved outside the guide rod 2033 (fig. 5). The guide rod 2033 can support the elastic member 202 to prevent the elastic member 202 from falling off. One end of the elastic member 202 abuts against the inner wall of the slide groove 2011, and the other end abuts against the connection plate 2031. The elastic member 202 can push the connection plate 2031 to move in a direction approaching the connection portion 1012 (fig. 2) so that the connection post 2032 is inserted into the connection hole 10121 (fig. 2).

To facilitate the pulling movement of the link 203, in some embodiments, as shown in fig. 3, the link 203 may further include a pulling handle 2034, where the pulling handle 2034 is connected to the connection plate 2031 on one side of the carrier 201. When pulling the link 203, a worker may move the link plate 2031 by pulling the handle 2034, thereby controlling the link post 2032 to move away from the connection 1012 (fig. 2). Because the pulling handle 2034 is located on one side of the carrying plate 201, when the operator pulls the pulling handle 2034, the arm will not be affected by the sliding groove 2011, which is more convenient for the operator to pull the connecting piece 203 for movement.

Illustratively, as shown in fig. 1, the pull handle 2034 may be located on a side of the carrier plate 201 remote from the server, i.e., as shown in fig. 1, the pull handle 2034 is located below the carrier plate 201. In this way, it is possible to ensure that the side of the carrier plate 201 on which the server is mounted is a flat surface. When the server is mounted above the carrier plate 201, the pulling handle 2034 does not interfere with the server, facilitating the mounting of the server.

It will be appreciated that the pull handle 2034 may also be located on the side of the carrier 201 that is closer to the server. In this way, the side of the carrier 201 facing away from the server may be a flat surface. When the server is installed on the bearing plate 201, the bearing plate 201 can be attached to the surface of the workbench, so that stability of the bearing plate 201 in the installation process is guaranteed.

In order to stably arrange the server on the carrier plate 201, in some embodiments, as shown in fig. 3, the server storage device 100 may further include an adjusting lever 3 and a pressing plate 4. One end of the adjusting rod 3 is detachably connected with the bearing plate 201, and the other end is far away from the bearing plate 201. The pressing plate 4 is connected with the other end of the adjusting rod 3, and the pressing plate 4 and the bearing plate 201 are arranged at opposite intervals.

When the server on the bearing plate 201 needs to be fixed, the adjusting rod 3 can be connected to the bearing plate 201, so that the pressing plate 4 can be pressed on one side of the server far away from the bearing plate 201, and the position of the server is fixed through the pressing force. The server can be ensured to be stably arranged on the bearing plate 201, and the server is prevented from falling off from the bearing plate 201 in the using process.

When the server needs to be disassembled, the staff can disassemble the adjusting rod 3 from the bearing plate 201, the adjusting rod 3 and the pressing plate 4 can be taken down together, the pressing plate 4 does not limit the server, and the server is convenient to be taken down from the bearing plate 201 by the staff.

In order to facilitate fixing servers of different models, in some embodiments, as shown in fig. 3, the carrier plate 201 is further provided with an avoidance groove 2012, and one end of the adjusting rod 3, which is far away from the pressing plate 4, is penetrated in the avoidance groove 2012.

The server storage device further comprises an adjusting member 5, and the adjusting member 5 is provided with a threaded hole (not shown in the figure). The outer surface of one end of the adjusting rod 3 far away from the pressing plate 4 is provided with external threads, and the threaded hole is connected with the external threads of the adjusting rod 3. When the server is fixed, the adjusting member 5 may abut against the side of the carrier plate 201 remote from the pressing plate 4. The position of the adjusting piece 5 on the adjusting rod 3 can be changed by rotating the adjusting piece 5, and the distance between the connecting end of the adjusting rod 3 and the pressing plate 4 and the bearing plate 201 can be adjusted, so that the distance between the pressing plate 4 and the bearing plate 201 is adjusted. In this way, it is ensured that the pressing plate 4 can press on servers of different sizes, which are fixed on the carrier plate 201.

When the server needs to be disassembled, the adjusting piece 5 is rotated, and the adjusting piece 5 is taken off from the adjusting rod 3. Like this, the one end of adjusting the pole 3 can follow and dodge the groove 2012 and take out to will adjust pole 3 and clamp plate 4 together and take down, clamp plate 4 is not spacing to the server, and the staff of being convenient for dismantles the server from loading board 201.

To facilitate movement of the enclosure 1, in some embodiments, as shown in FIG. 4, the server storage device 100 may further include rollers 6, the rollers 6 being coupled to the enclosure 1, located outside of the enclosure 1, for supporting the enclosure 1. The provision of the rollers 6 may make the cabinet 1 more convenient to push when it is desired to move the cabinet 1.

In some embodiments, the server storage device 100 may further include a brake assembly (not shown) disposed on the roller 6 for preventing the roller 6 from rotating. In this way, after the cabinet 1 is moved to a proper position, the rotation of the roller 6 can be prevented by the brake assembly, so that the cabinet 1 can be stably set at a predetermined position.

The foregoing is merely a specific embodiment of the present application, but the protection scope of the present application is not limited thereto, and any changes or substitutions within the technical scope of the present disclosure should be covered in the protection scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (10)

1. A server storage device, comprising:

the cabinet encloses a mounting cavity with an opening, and a connecting part is formed on the inner wall of the mounting cavity;

the bearing assembly is arranged in the mounting cavity and is detachably connected with the connecting part;

wherein, the bearing assembly includes:

the bearing plate is used for bearing the server;

one end of the elastic piece is connected with the bearing plate; the method comprises the steps of,

the connecting piece is connected with the other end of the elastic piece; the connecting piece is used for being close to and detachably connected with the connecting part under the action of the elastic piece.

2. The server storage device of claim 1, wherein the connection is a connection hole.

3. The server storage device of claim 2, wherein the inner wall includes oppositely disposed first and second sidewalls; the number of the connecting holes is multiple, and the connecting holes are distributed on the first side wall and the second side wall;

the number of the elastic pieces and the connecting pieces is a plurality of; the connecting pieces are arranged on two sides, close to the first side wall and the second side wall, of the bearing plate and are connected with the connecting holes.

4. The server storage device of claim 1, wherein the inner wall includes a bottom wall; the number of the connecting parts is multiple, and the connecting parts are at different heights along the direction perpendicular to the bottom wall.

5. A server storage device according to claim 3, wherein the carrier plate is provided with a sliding groove; the elastic piece is positioned in the sliding groove, and one end of the elastic piece is connected with the groove wall of the sliding groove; the connecting piece is positioned in the sliding groove and is in sliding connection with the sliding groove.

6. The server storage device of claim 5, wherein the connector comprises:

the connecting plate is connected with the other end of the elastic piece and is in sliding connection with the sliding groove;

the connecting columns are positioned on one side of the connecting plate and connected with the connecting plate; one of the connecting posts is connected with one of the connecting holes.

7. The server storage device according to claim 6, wherein a space is provided between the sliding groove and a surface of the carrier plate on a side close to the connecting portion; the surface of the bearing plate, which is close to one side of the connecting part, is provided with an avoidance hole, and the avoidance hole is communicated with the sliding groove; the connecting column penetrates through the avoiding hole and is connected with the connecting hole.

8. The server storage device of claim 6, wherein the connector further comprises:

and the pulling handle is connected with the connecting plate and is positioned on one side of the bearing plate.

9. The server storage device of any one of claims 1-8, wherein the server storage device further comprises:

one end of the adjusting rod is detachably connected with the bearing plate, and the other end of the adjusting rod is far away from the bearing plate; the method comprises the steps of,

and the pressing plate is connected with the other end of the adjusting rod, and is arranged at an interval opposite to the bearing plate.

10. The server storage device of claim 9, wherein the carrier plate is provided with a avoidance slot; the outer surface of one end, far away from the pressing plate, of the adjusting rod is provided with external threads, and the adjusting rod penetrates through the avoidance groove;

the server storage device further includes:

the adjusting piece is provided with a threaded hole; the threaded hole is in threaded connection with the external threads of the adjusting rod.