CN220064749U - Server case and server - Google Patents

Abstract

The present disclosure provides a server chassis and a server, the server chassis comprising: a top plate, a bottom plate and at least one side plate; the first end of each side plate of the at least one side plate is connected with the top plate through a first connecting structure, and the second end is connected with the bottom plate through a second connecting structure, so that the integral frame of the server chassis is formed. Compared with the integral forming process of the chassis or the forming process of the chassis divided into an upper part and a lower part, the method can effectively reduce the process difficulty and save the material cost.

Description

Server case and server

Technical Field

The present disclosure relates to, but not limited to, the field of computer devices, and in particular, to a server chassis and a server.

Background

The server case is used for protecting the server component and can play roles of pressure prevention, dust prevention and impact prevention. At present, when the server chassis is designed in structure, a chassis integrated structure or a chassis upper and lower part independent forming and splicing structure is generally adopted.

However, the server chassis has a large size, so that the chassis with the two structures has high requirements on required production equipment when being produced and manufactured, and the processing technology is complex and wastes the chassis materials easily.

Disclosure of Invention

The disclosure provides a server case and a server, so as to effectively reduce the process difficulty and save the material cost.

In a first aspect, the present disclosure provides a server chassis comprising: a top plate; a bottom plate; the side plates are provided with a first end and a second end which are oppositely arranged, the first end is connected with the top plate through a first connecting structure, and the second end is connected with the bottom plate through a second connecting structure; the top plate, the bottom plate and the at least one side plate enclose a first accommodating space, and the first accommodating space is used for accommodating the at least one server component.

In some possible embodiments, the top panel has a first surface, the bottom panel has a second surface, and the at least one side panel has a third surface; the first surface, the second surface and the third surface form the inner surface of the server case, and the area in the middle of the inner surface of the server case is a first accommodating space; the server chassis further includes: the fixing piece is arranged on the inner surface of the server case and used for fixing at least one server component.

In some possible embodiments, the fixture comprises: at least one first rail and at least one second rail; at least one first guide rail is positioned on the first surface and is integrally formed with the top plate; at least one second guide rail is positioned on the second surface and is integrally formed with the bottom plate; each first guide rail in the at least one first guide rail corresponds to each second guide rail in the at least one second guide rail one by one; each first rail secures at least one server component by mating with each second rail.

In some possible embodiments, the first connection structure is disposed on a first end of each of the at least one side panel; the second connecting structure is arranged on the second end of each side plate of the at least one side plate; at least one side panel comprising: a first side plate and a second side plate; the first side plate and the second side plate are arranged opposite to each other.

In some possible embodiments, the top plate has a first bending portion bent toward the first side plate and a second bending portion bent toward the second side plate; the first bending part is connected with the first end of the first side plate through a first connecting structure, and the first bending part and the first side plate jointly form a first side wall of the server case; the second bending part is connected with the first end of the second side plate through a first connecting structure, and the second bending part and the second side plate jointly form a second side wall of the server case.

In some possible embodiments, the bottom plate has a first bending part bending towards the first side plate and a second bending part bending towards the second side plate; the third bending part is connected with the second end of the first side plate through a second connecting structure, and the first bending part, the third bending part and the first side plate jointly form a first side wall of the server case; the fourth bending part is connected with the second end of the second side plate through a second connecting structure, and the second bending part, the fourth bending part and the second side plate jointly form a second side wall of the server case.

In some possible embodiments, a third connecting structure is arranged at the connection part of the top plate and the side plate, and the top plate is clamped with the first connecting structure of the side plate through the third connecting structure; and/or the joint of the bottom plate and the side plate is provided with a fourth connecting structure, and the bottom plate is clamped with the second connecting structure of the side plate through the fourth connecting structure.

In some possible implementations, the server chassis further includes: the backboard is fixedly connected with the first side plate, the second side plate, the top plate and the bottom plate; the backboard is provided with at least one interface, and the position of the at least one interface corresponds to at least one server component fixed in the server case; the at least one interface is electrically connected with the at least one server component.

In some possible implementations, the server chassis further includes: and the mounting piece is arranged on the inner surface of the server case and is used for mounting the heat dissipation device of the server assembly.

In a second aspect, the present disclosure provides a server comprising: the server chassis of the first aspect; at least one server component; the at least one server component is secured in the server chassis.

In some possible embodiments, the at least one server component is detachably fixed in the first accommodating space.

In an embodiment of the disclosure, each of at least one side plate in the server chassis is connected to the top plate through a first connection structure and connected to the bottom plate through a second connection structure, thereby forming an overall frame of the server chassis. Compared with the integral forming process of the chassis or the forming process of the chassis divided into an upper part and a lower part, the method can effectively reduce the process difficulty and save the material cost.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the disclosure.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the disclosure and together with the description, serve to explain the principles of the disclosure.

FIG. 1 is a schematic diagram of a first chassis structure in the related art;

FIG. 2 is a schematic diagram of a second chassis structure in the related art;

FIG. 3 is a schematic diagram of a third chassis structure in the related art;

FIG. 4 is an exploded view of a server chassis according to an embodiment of the present disclosure;

FIG. 5 is a first schematic diagram of a server chassis according to an embodiment of the disclosure;

FIG. 6 is an enlarged schematic view of a portion of the area A in FIG. 5;

fig. 7 is a schematic diagram of a second structure of a server chassis according to an embodiment of the disclosure.

Detailed Description

Reference will now be made in detail to exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, the same numbers in different drawings refer to the same or similar elements, unless otherwise indicated. The implementations described in the following exemplary examples are not representative of all implementations consistent with the present disclosure. Rather, they are merely examples of apparatus consistent with some aspects of the disclosure as detailed in the accompanying claims.

Other embodiments of the disclosure will be apparent to those skilled in the art from consideration of the specification and practice of the disclosure disclosed herein. This disclosure is intended to cover any adaptations, uses, or adaptations of the disclosure following the general principles of the disclosure and including such departures from the present disclosure as come within known or customary practice within the art to which the disclosure pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the disclosure being indicated by the following claims.

In order to illustrate the technical solutions described in the present disclosure, the following description is made by specific embodiments.

The server case has a firm shell, can protect components such as a board card, a power supply, storage equipment and the like of the server, and can play roles of pressure resistance, dust resistance and impact resistance. Meanwhile, the electromagnetic interference and radiation can be prevented, and electromagnetic radiation can be shielded. In addition, the server case can provide space for storage devices such as hard disks, floppy drives and the like, and the storage devices are fixed inside the server case through support pieces of the server case to form a dense whole.

In the related art, a server chassis generally adopts the following two structures:

first, fig. 1 is a schematic diagram of a first chassis structure in the related art, as shown in fig. 1, the chassis structure of the overall chassis 10 is integrally formed, and the chassis integrally adopts an aluminum profile pultrusion process, so that a supporting member and a chassis housing inside the chassis can be formed simultaneously. However, the large size of the server chassis complicates the production equipment required for mass-producing the whole chassis 10, but the existing production equipment can only realize chassis with a wall thickness of more than 3.5mm, resulting in a large weight of the whole chassis 10, thereby having problems of high transportation cost and high raw material cost.

Second, fig. 2 is a schematic diagram of a second chassis structure in the related art; fig. 3 is a schematic diagram of a forming process of a second chassis structure in the related art, and as shown in fig. 2 to 3, the chassis structure of the clamping chassis 20 is composed of an upper part and a lower part, and the upper part and the lower part are spliced by matching, so that the overall structure of the chassis is realized. Because the upper and lower parts of the splice enclosure 20 can be manufactured separately, the production equipment required for the splice enclosure 20 is relatively simple compared to the overall enclosure 10. However, because the server chassis has a large size, in order to ensure the rigidity of the upper and lower parts and realize normal splicing, the tear 201 needs to be reserved when the upper and lower parts of the clamping chassis 20 are formed, thereby causing waste of materials.

In order to solve the above problems, embodiments of the present disclosure provide a server chassis, so as to effectively reduce the process difficulty and save the material cost.

Fig. 4 is an exploded view of a server chassis according to an embodiment of the present disclosure, fig. 5 is a first view of a server chassis according to an embodiment of the present disclosure, fig. 6 is an enlarged view of a portion a of fig. 5, and fig. 7 is a second view of a server chassis according to an embodiment of the present disclosure. Referring to fig. 4 to 7, the server chassis 40 includes: a top plate 401, a bottom plate 402 and at least one side plate 403. The materials of the top plate 401 and the bottom plate 402 are materials with a certain hardness, for example: metal materials, alloy materials, and the like. The top plate 401 and the bottom plate 402 may be manufactured by various processes such as casting, pultrusion, and the like.

In some possible embodiments, each side plate 403 of the at least one side plate 403 has oppositely disposed first and second ends, e.g., a top end and a bottom end. Wherein the first end may be connected to the top plate 401 by a first connection structure 404 and the second end may be connected to the bottom plate 402 by a second connection structure 405.

It can be appreciated that the first connecting structure 404 is a structure capable of connecting the side plate 403 and the top plate 401; the second connection structure 405 is a structure capable of connecting the side plate 403 and the bottom plate 402. The specific structures of the first connection structure 404 and the second connection structure 405 may be set according to actual requirements, which is not specifically limited in the embodiments of the present disclosure.

Note that the specific structure of the first connection structure 404 may be the same as the specific structure of the second connection structure 405, or may be different from the specific structure of the second connection structure 405.

In some embodiments, a first connection structure 404 may be disposed on a first end of each side plate 403, and connection of the top plate 401 to the side plate 403 may be achieved by cooperation of the top plate 401 and the first connection structure 404. A second connection structure 405 may be provided on a second end of each side plate 403, and the connection between the bottom plate 402 and the side plate 403 may be achieved by cooperation of the bottom plate 402 and the second connection structure 405.

By way of example, the first connecting structure 404 may be a groove, and the top plate 401 and the side plate 403 are connected by embedding the top plate 401 into the groove, so that the top plate 401 and the side plate 403 are spliced to form the profile.

In other embodiments, a first connecting structure 404 may be disposed on a first end of each side plate 403, and a third connecting structure 410 may be disposed at a connection between the top plate 401 and the side plate 403, where the top plate 401 and the side plate 403 are connected by the first connecting structure 404 and the third connecting structure 410 cooperating with each other. Likewise, a second connection structure 405 may be disposed on a second end of each side plate 403, and a fourth connection structure 411 may be disposed at a connection portion between the bottom plate 402 and the second connection structure 405, and the connection between the bottom plate 402 and the side plates 403 is achieved by the cooperation of the second connection structure 405 and the fourth connection structure 411.

In an embodiment, the first connecting structure 404 and the third connecting structure 410 may be clamping structures, and the connection between the top plate 401 and the side plate 403 is achieved through the clamping of the first connecting structure 404 and the third connecting structure 410.

In an embodiment, the second connection structure 405 and the fourth connection structure 411 may also be a clamping structure, and the connection between the bottom plate 402 and the side plate 403 is achieved through the clamping of the second connection structure 405 and the fourth connection structure 411.

Alternatively, the first connection structure 404 and the third connection structure 410, and the second connection structure 405 and the fourth connection structure 411 in the server chassis may be clamping structures. The connection of the top plate 401, the bottom plate 402 and the side plate 403 is achieved by the clamping of the first connecting structure 404 and the third connecting structure 410, and the clamping of the second connecting structure 405 and the fourth connecting structure 411.

For example, referring to fig. 5 to 6, a region a is a junction of the top plate 401 and the side plate 403, and a first end of the side plate 403 in the region a is provided with a first connection structure 404, the first connection structure 404 having a first protruding portion 404a, the first protruding portion 404a protruding toward a direction in which the top plate 401 is located. At a position of the top plate 401 which is mated with the side plate 403, a third connecting structure 410 is provided, the third connecting structure has a first groove portion 410a, the first groove portion 410a has a structure recessed from the top plate end in a direction away from the side plate 403, and the top plate 401 and the side plate 403 are connected by the engagement of the first protruding portion 404a in the first connecting structure 404 and the first groove portion 410a in the third connecting structure 410.

In addition, the first connection structure 404 may further have a second groove portion 404b, and the second groove portion 404b may have a structure recessed from the outer surface of the server chassis toward the inside of the server chassis. The second groove portion 404b may be connected to a protruding portion on another server chassis, so that the current server chassis and the other server chassis are connected together to achieve orderly arrangement.

Similarly, the second connection structure 405 and the fourth connection structure 411 may also have structures similar to the first connection structure 404 and the third connection structure 410 shown in fig. 6. The specific structures of the second connection structure 405 and the fourth connection structure 411 may refer to the descriptions of the corresponding embodiments of fig. 6, and are not repeated herein for brevity of the description.

It should be noted that the specific structure of the third connection structure 410 may be the same as the specific structure of the first connection structure 404, or may be different from the specific structure of the first connection structure 404. The specific structure of the fourth connection structure 411 may be the same as that of the second connection structure 405, or may be different from that of the second connection structure 405.

It should be understood that the specific structures of the first connection structure 404, the second connection structure 405, the third connection structure 410, and the fourth connection structure 411 may be set according to actual requirements, and the embodiments of the present disclosure are not limited thereto in detail.

In other embodiments, a first connecting structure 404 may be disposed on a first end of each side plate 403, and a third connecting structure 410 may be disposed at a connection between the top plate 401 and the side plate 403, where the connection between the first connecting structure 404 and the third connecting structure 410 may be achieved by connecting the top plate 401 and the side plate 403 through a connecting member. Similarly, a second connection structure 405 may be disposed on the second end of each side plate 403, and a fourth connection structure 411 may be disposed at a connection portion between the bottom plate 402 and the second connection structure 405, and the bottom plate 402 and the side plates 403 may be connected by connecting the second connection structure 405 and the fourth connection structure 411 through a connecting piece.

For example, referring to fig. 7, the first connection structure 404 in the side plate 403 may be connected to the third connection structure 410 in the top plate 401 by a connection member such as a screw or a nut.

In some embodiments, after the top plate 401 and the bottom plate 402 are respectively connected to each side plate 403 through the first end and the second end of each side plate 403 in the at least one side plate 403, the first accommodating space 409 may be defined between the top plate 401, the bottom plate 402 and the at least one side plate 403.

It can be appreciated that, after the top plate 401, the bottom plate 402 and the side plate 403 are connected, a frame body of the server chassis 40 can be formed, and a first accommodating space 409 is formed inside the frame body. The first accommodating space 409 has at least one opening, so that at least one server component is accommodated inside the first accommodating space 409, i.e. inside the server chassis 40.

Here, the at least one server component may include: at least one motherboard, at least one storage device, etc.

It should be noted that, the position of at least one server component in the first accommodating space 409 may be set according to actual requirements, which is not limited in the embodiment of the present disclosure.

In an embodiment of the disclosure, each of at least one side plate in the server chassis is connected to the top plate through a first connection structure and connected to the bottom plate through a second connection structure, thereby forming an overall frame of the server chassis. Compared with the integral forming process of the chassis or the forming process of the chassis divided into an upper part and a lower part, the method can effectively reduce the process difficulty and save the material cost.

In some possible embodiments, one surface of the top plate 401 facing the bottom plate 402 may be a first surface of the top plate 401, one surface of the bottom plate 402 facing the top plate 401 may be a second surface of the bottom plate 402, and one surface of the at least one side plate 403 adjacent to the first receiving space 409 may be a third surface. The first surface, the second surface and the third surface may together form an inner surface of the server chassis 40, and a region in the middle of the inner surface of the server chassis 40 is the first accommodating space 409. To facilitate the installation of the at least one server component in the server casing 40, a fixing member may be provided on an inner surface of the server casing 40, and the fixing member may fix the at least one server component such that the at least one server component may be accommodated in the first accommodating space 409.

It will be appreciated that the fixing member may be disposed at any position on the inner surface of the server casing 40, so that the at least one server component may be connected to the fixing member by the at least one server component, so that the at least one server component may be accommodated at any position in the first accommodating space 409. The structure of the fixing member may be selected according to actual requirements, and the embodiment of the present disclosure is not particularly limited thereto.

In some possible embodiments, the fixture may comprise: the positions and the extending directions of the at least one first guide rail 406 and the at least one second guide rail 407, and the at least one first guide rail 406 and the at least one second guide rail 407 can be set according to actual requirements.

In some embodiments, at least one first rail 406 is located on the first surface, integrally formed with the top plate 401; at least one second rail 407 is located on the second surface and is integrally formed with the base plate 402. Each first rail 406 of the at least one first rail 406 corresponds one-to-one with each second rail 407 of the at least one second rail 407.

Here, the number of first rails 406 in the at least one first rail 406 corresponds to the number of second rails 407 in the at least one second rail 407, and the positions of the i-th first rail 406 and the i-th second rail 407 in the server chassis 40 correspond, so that the i-th first rail 406 can fix at least one server component through cooperation with the i-th second rail 407 when the server chassis 40 is in use. i is a positive integer.

Illustratively, as shown in FIG. 4, three first rails 406 are provided on the top plate 401 and three second rails 407 are provided on the bottom plate 402; each of the three first guide rails 406 corresponds one-to-one with each of the three second guide rails 407.

It should be noted that, since the server assembly may be assembled by the cooperation of the first rail 406 and the second rail 407, the specific structures of the first rail 406 and the second rail 407 may be variously set according to actual situations. In order to realize the production of the first guide rail 406 and the second guide rail 407 with different structures, preferably, the top plate 401 and the bottom plate 402 can be manufactured by adopting a pultrusion process, so that the first guide rail 406 and the second guide rail 407 can be formed at one time, the production efficiency is improved, and the quality uniformity and controllability of the top plate 401 and the bottom plate 402 can be ensured by adopting the pultrusion process, thereby meeting the use hardness requirement of the server case 40.

In some embodiments, the extending direction of the track of the at least one first rail 406 on the first surface is perpendicular to the plane where the opening of the first accommodating space 409 is located, and the extending direction of the track of the at least one second rail 407 on the second surface is perpendicular to the plane where the opening of the first accommodating space 409 is located, so that the server assembly can slide into the server chassis 40 perpendicular to the plane where the opening of the first accommodating space 409 is located, and installation of the server assembly is facilitated.

In some possible embodiments, to reduce the number of structural components of the server chassis 40, at least one side plate 403 may include: a side plate. One side plate may be a smooth arc plate or an irregular arc plate, and one side plate is connected to two ends of the top plate 401 and the bottom plate 402, and encloses together to form a containing space of the server chassis 40.

In some possible embodiments, to save space occupied by the servers, the server boxes 40 may be arranged in regular order, for example, square structures with square cross sections, hexahedral structures with rectangular cross sections, or the like. When the server chassis 40 is in the regular shape, at least one side plate 403 may include: a first side plate 403a and a second side plate 403b. The first side plate 403a and the second side plate 403b may be disposed opposite to each other, and are respectively connected to two ends of the top plate 401 and the bottom plate 402, and together enclose a receiving space of the server chassis 40.

For example, as shown in fig. 5, a first end of the top plate 401 may be connected to a first end of the first side plate 403a, a second end of the first side plate 403a may be connected to a first end of the bottom plate 402, a second end of the bottom plate 402 may be connected to a second end of the second side plate 403b, and a first end of the second side plate 403b may be connected to a second end of the top plate 401, thereby forming the server chassis 40 in which the top plate 401, the bottom plate 402, the first side plate 403a, and the second side plate 403b are connected end to end.

In some embodiments, after the first side plate 403a and the second side plate 403b are connected to the top plate 401 and the bottom plate 402, the first accommodating space 409 is formed with two openings, and the two openings are respectively oriented in different directions. On this basis, the server chassis 40 may further include: a back plate. The backplane may cover one of the two openings and be fixedly connected to one or more of the first side plate 403a, the second side plate 403b, the top plate 401, and the bottom plate 402, thereby implementing the server chassis 40 with the backplane.

The manner of the fixed connection may be selected according to actual requirements, which is not specifically limited in the embodiments of the present disclosure.

Illustratively, the back plate may be coupled to the top plate 401 according to the structure of the top plate 401. For example, the first guide rail 406 of the top plate 401 may have a groove portion, and the connection between the back plate and the top plate 401 may be achieved by inserting a screw through the back plate into the groove portion and clamping with a groove wall of the groove portion.

In some embodiments, at least one interface may be disposed on the backplane, and the location of the at least one interface may correspond to the location of at least one server component secured within the server chassis 40, thereby facilitating electrical connection of each server component to the interface.

In some embodiments, mounts 408 may also be provided on the top plate 401 and the bottom plate 402 to facilitate heat dissipation to the server assembly. The mounting member 408 is capable of connecting to a heat sink of the server assembly such that the heat sink is received within the server chassis 40, thereby facilitating heat dissipation from the server assembly.

The mounting member 408 may be a variety of structures including a jack bolt, a support plate, a support bar, a rail, an anchor, a bracket, and a sliding bracket. The specific configuration of the mounting member 408 may be selected according to actual needs, and the embodiments of the present disclosure are not particularly limited thereto.

As illustrated in fig. 4 to 7, the mount 408 may be a support plate provided on the top plate 401 and the bottom plate 402, and the heat dissipating device of the server assembly may be accommodated inside the server chassis 40 by being connected to the support plate.

When the mounting member 408 is configured as a rail, a support plate, or the like, the mounting member 408 may be integrally formed with the top plate 401 or the bottom plate 402 by pultrusion.

In some embodiments, the top plate 401 has a first bend therein that is bent toward the first side plate 403a and a second bend therein that is bent toward the second side plate 403b. The first end of the first side plate 403a is connected to the first bending portion through a first connection structure 404, and the first bending portion and the first side plate 403a together form a first side wall of the server chassis 40. The first end of the second side plate 403b is connected to the second bending portion through the first connecting structure 404, and the second bending portion and the second side plate 403b together form a second side wall of the server chassis 40.

In other embodiments, the bottom plate 402 has a third bending portion bending toward the first side plate 403a and a fourth bending portion bending toward the second side plate 403 b; the second end of the first side plate 403a is connected to the third bending portion through the second connection structure 405, and the third bending portion and the first side plate 403a together form a first side wall of the server chassis 40. The second end of the second side plate 403b is connected to a fourth bending portion through a second connection structure 405, and the fourth bending portion and the second side plate 403b together form a second side wall of the server chassis 40.

In other embodiments, the top plate 401 has a first bending portion bending toward the first side plate 403a and a second bending portion bending toward the second side plate 403b. The first end of the first side plate 403a is connected to the first bending portion through a first connection structure 404, and the first end of the second side plate 403b is connected to the second bending portion through a first connection structure 404. The bottom plate 402 has a third bending portion bending toward the first side plate 403a and a fourth bending portion bending toward the second side plate 403 b; the second end of the first side plate 403a is connected to the third bending portion through the second connection structure 405, and the first bending portion, the third bending portion and the first side plate 403a together form a first side wall of the server chassis 40. The second end of the second side plate 403b is connected to the fourth bending portion through a second connection structure 405, and the second bending portion, the fourth bending portion and the second side plate 403b together form a second side wall of the server chassis 40.

In the embodiment of the disclosure, a first side plate and a second side plate in a server case are connected with a top plate through a first connecting structure and connected with a bottom plate through a second connecting structure. And meanwhile, the backboard is fixedly connected with one or more of the first side plate, the second side plate, the top plate and the bottom plate, so that an integral frame of the server case is formed. Compared with the integral forming process of the chassis or the forming process of the chassis divided into an upper part and a lower part, the method can effectively reduce the process difficulty and save the material cost.

Based on the same inventive concept, the embodiments of the present disclosure further provide a server, including: the specific structure of the server chassis 40 may refer to the structure in the embodiment corresponding to fig. 4 to 7, and for brevity of description, the description is omitted here.

In some embodiments, the at least one server component may comprise: at least one motherboard, at least one storage device, etc., at least one server component may be fixed in the first receiving space 409 of the server chassis 40, thereby ensuring that the server component is protected by the server chassis 40 and maintaining a desired usage function.

In some embodiments, at least one server component is detachably fixed in the first accommodating space 409 by means of, for example, a snap fit, a screw connection, or the like.

In the embodiment of the disclosure, the server case of the server is manufactured by splicing the top plate, the bottom plate and at least one side plate, and compared with the case integral molding process or the case divided into an upper part and a lower part molding process, the method can effectively reduce the process difficulty and save the material cost.

It will be understood by those skilled in the art that the sequence number of each step in the above embodiment does not mean that the execution sequence of each process should be determined by the function and the internal logic, and should not be construed as limiting the implementation process of the embodiments of the present disclosure.

The above-described embodiments are only for illustrating the technical aspects of the present disclosure, and are not limiting thereof; although the present disclosure has been described in detail with reference to the foregoing embodiments, it will be understood by those skilled in the art that the technical solutions described in the foregoing embodiments may be modified or some of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the disclosure, and are intended to be included in the scope of the present disclosure.

Claims (11)

1. A server chassis, comprising:

a top plate;

a bottom plate;

at least one side plate, each of the at least one side plate having oppositely disposed first and second ends, the first end being connected to the top plate by a first connection structure and the second end being connected to the bottom plate by a second connection structure;

the top plate, the bottom plate and the at least one side plate enclose a first accommodating space, and the first accommodating space is used for accommodating at least one server component;

the at least one side panel comprises: a first side plate and a second side plate;

the top plate is provided with a first bending part which is bent towards the first side plate and a second bending part which is bent towards the second side plate; the bottom plate is provided with a third bending part bending towards the first side plate and a fourth bending part bending towards the second side plate;

the first bending part, the third bending part and the first side plate jointly form a first side wall of the server case; the second bending part, the fourth bending part and the second side plate jointly form a second side wall of the server case.

2. The server enclosure of claim 1, wherein the server enclosure is configured to store the plurality of servers,

the top panel has a first surface, the bottom panel has a second surface, and the at least one side panel has a third surface;

the first surface, the second surface and the third surface form an inner surface of the server case, and a region in the middle of the inner surface of the server case is the first accommodating space;

the server chassis further includes:

the fixing piece is arranged on the inner surface of the server case and used for fixing the at least one server component.

3. The server chassis of claim 2, wherein the fixture comprises:

at least one first rail and at least one second rail;

the at least one first guide rail is positioned on the first surface and is integrally formed with the top plate;

the at least one second guide rail is positioned on the second surface and is integrally formed with the bottom plate;

each first guide rail in the at least one first guide rail corresponds to each second guide rail in the at least one second guide rail one by one; the first guide rails are matched with the second guide rails to fix at least one server component.

4. The server enclosure of claim 3, wherein the server enclosure is configured to store the data,

the first connection structure is disposed on the first end of each of the at least one side panel; the second connection structure is disposed on the second end of each of the at least one side panel;

the first side plate and the second side plate are arranged opposite to each other.

5. The server enclosure of claim 4, wherein the server enclosure is configured to store the plurality of servers,

the first bending part is connected with the first end of the first side plate through the first connecting structure;

the second bending part is connected with the first end of the second side plate through the first connecting structure.

6. The server enclosure of claim 5, wherein the server enclosure is configured to store the data,

the third bending part is connected with the second end of the first side plate through the second connecting structure;

the fourth bending part is connected with the second end of the second side plate through the second connecting structure.

7. The server enclosure of any one of claims 1-6, wherein the server enclosure is configured to store the plurality of servers,

a third connecting structure is arranged at the joint of the top plate and the side plate, and the top plate is clamped with the first connecting structure of the side plate through the third connecting structure; and/or the number of the groups of groups,

the junction of bottom plate with the curb plate is provided with fourth connection structure, the bottom plate passes through fourth connection structure with the second connection structure joint of curb plate.

8. The server enclosure of claim 6, further comprising:

the backboard is fixedly connected with the first side plate, the second side plate, the top plate and the bottom plate;

the backboard is provided with at least one interface, and the position of the at least one interface corresponds to at least one server component fixed in the server case;

the at least one interface is electrically connected with the at least one server component.

9. The server enclosure of claim 4, further comprising:

the mounting piece is arranged on the inner surface of the server case and is used for mounting the heat dissipation device of the server assembly.

10. A server, the server comprising:

the server chassis of any of claims 1 to 9;

at least one server component;

the at least one server component is secured in the server chassis.

11. The server of claim 10, wherein the at least one server component is removably secured in the first receiving space.