CN215500084U - Whole cabinet server - Google Patents

Abstract

The application discloses complete machine cabinet server includes: a cabinet; the server body is connected with the cabinet through two sides to realize arrangement in the cabinet; the support piece is arranged close to the rear shell of the cabinet in the cabinet and is connected with the rear wall and/or the bottom wall of the server body so as to support the server body. The support piece is additionally arranged in the cabinet and is connected with the rear wall and/or the bottom wall of the server body, so that the server body installed in the cabinet can be supported, the cabinet is connected and supports two sides of the server body, the bottom wall and/or the rear wall of the server body can be supported through the support piece, the sinking deformation of the bottom wall and/or the rear wall of the server body in the transportation process can be reduced, even no sinking deformation occurs, sliding interference cannot occur between stacked adjacent server bodies, and the working reliability of the whole cabinet server is improved.

Description

Whole cabinet server

Technical Field

The application relates to the technical field of electronic equipment, in particular to a complete cabinet server.

Background

At present, as shown in fig. 1, the structure of the whole cabinet server is generally that two sides of the server 02 are connected with the inner wall of the cabinet 01, so as to erect the server 02 inside the cabinet 01, and a plurality of servers 02 are stacked. With the improvement of card types and configuration requirements of customers, the weight of the server 02 is increased due to more and more electronic devices arranged in the server 02, the structural strength of the rear wall of the server 02 provided with a plurality of sockets is poor, as shown in fig. 2, the large weight easily causes the sinking deformation of the rear wall of the server 02 in the transportation process, so that interference is generated between the stacked adjacent servers 02, the normal sliding-out and sliding-in of the server 02 from and into the cabinet 01 are influenced, and the use of the server of the whole cabinet is seriously influenced.

SUMMERY OF THE UTILITY MODEL

In view of this, this application provides a complete machine cabinet server, and it can promote the support effect to the server body, reduces the probability that the server body takes place to sink and warp in the transportation.

In order to achieve the above purpose, the present application provides the following technical solutions:

a complete cabinet server comprises:

a cabinet;

the server body is connected with the cabinet through two sides to realize arrangement in the cabinet;

and the supporting piece is arranged in the cabinet close to the rear shell of the cabinet and is connected with the rear wall and/or the bottom wall of the server body so as to support the server body.

Preferably, in the above entire rack server, the plurality of server bodies are stacked in the rack, the support member connected to the rack extends in the stacking direction, and all the server bodies are connected to the support member.

Preferably, in the whole rack server, all the server bodies are slidably connected to the rack, the supporting member is detachably connected to each server body, and any one of the server bodies is separated from the supporting member when sliding out of the rack and is connected to the supporting member when sliding completely into the rack.

Preferably, in the above entire rack server, a plurality of the server bodies are stacked in the rack, and the support members connected to the rack support the server bodies one-to-one.

Preferably, in the whole rack server, all the server bodies are slidably connected to the rack, and the supporting member is slidably connected to the server bodies, and when the server bodies slide out of the rack and completely slide into the rack, the supporting member can support the server bodies.

Preferably, in the above entire cabinet server, the support member is a rope or a column having one end connected to the top of the cabinet and the other end connected to the bottom of the cabinet, and the support member is detachably connected to the rear wall of the server body through a plug structure or a hook structure.

Preferably, in the above entire cabinet server, the support member is a slide rail connected to the rear case of the cabinet and slidably connected to the bottom wall of the server body through a slider.

Preferably, in the above entire cabinet server, the support member is a support plate connected to a rear shell of the cabinet.

Preferably, in the above entire cabinet server, the portion of the server body connected to the supporting member is a midpoint portion of the vertical connecting line on the two sides.

The application provides a complete machine cabinet server, support piece has been add in the rack, this support piece is connected with the back wall and/or the diapire of server body, with can support the server body of installing in the rack, make the rack be connecting, when supporting server body both sides, can also realize the support to the diapire of server body and/or back wall through support piece, make the diapire of server body and/or the back wall in the deformation that sinks of transportation can reduce and no longer take place to sink even, make can not produce the slip interference between range upon range of adjacent server body, the operational reliability of complete machine cabinet server has been promoted.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, it is obvious that the drawings in the following description are only embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

FIG. 1 is a schematic diagram of a server of a whole rack in the prior art;

FIG. 2 is a schematic diagram of a server sinking and deforming structure;

fig. 3 is a schematic structural diagram of a complete cabinet server provided in the embodiment of the present application;

fig. 4 is a side view of the complete cabinet server.

In fig. 1-4:

01-cabinet, 02-server;

1-cabinet, 2-server body, 3-support piece, 4-top beam, 5-bottom beam and 6-detachable connecting structure;

101-rear shell, 201-rear wall, 202-bottom wall.

Detailed Description

The application provides a complete machine cabinet server, it can promote the support effect to the server body, reduces the probability that the server body takes place to sink and warp in the transportation.

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, 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 application.

As shown in fig. 3 and 4, an embodiment of the present application provides a complete cabinet server, which mainly includes a cabinet 1, a server body 2, and a support member 3, where the cabinet 1 is a cabinet body for accommodating and mounting the server body 2, and provides protection for the server body 2; when the server body 2 is arranged in the cabinet 1, two sides of the rectangular server body 2 (specifically, the two sides refer to two side walls with the smallest area of the rectangular server body 2) are connected with the cabinet 1 to realize the erection in the cabinet 1; the support 3 is connected to the cabinet 1, specifically, is disposed in the inner cavity of the cabinet 1 for accommodating the server body 2, and is disposed near the rear shell 101 of the cabinet 1 in the inner cavity (hereinafter, the shell 101 refers to a part of the housing of the cabinet 1 disposed near the rear wall 201 of the server body 2), and the support 3 is further connected to the rear wall 201 of the server body 2 (hereinafter, the rear wall 201 refers to a wall surface of the server body 2 provided with a plurality of I/O interfaces, which is disposed perpendicular to the above-mentioned side wall), and/or to the bottom wall 202 (the bottom wall 202 refers to a wall surface of the server body 2 for carrying electronic devices, which is also disposed perpendicular to the above-mentioned side wall, and is preferably in an integral structure with the rear wall 201), so that the support 3 can support the server body 2 to share the gravity of the server body 2.

The whole cabinet server with the structure can enable the supporting piece 3 to assist the cabinet 1 to better support the server body 2 by additionally arranging the supporting piece 3 in the cabinet 1, and the part where the supporting piece 3 is connected with the server body 2 is the rear wall 201 and/or the bottom wall 202, so that the supporting piece 3 can support the rear wall 201 and/or the bottom wall 202 which are easy to sink and deform, the probability that the server body 2 sinks and deforms due to jolting in the transportation process is reduced, namely, the sinking deformation of the bottom wall 202 and/or the rear wall 201 of the server body 2 in the transportation process is reduced or even does not sink and deform any more, sliding interference cannot be generated between the stacked adjacent server bodies 2, and the working reliability of the whole cabinet server is improved.

In the present application, the structure and the arrangement manner of the supporting member 3 may be selected in various ways, and in a preferred structure and arrangement manner, as shown in fig. 3 and 4, on the premise that the plurality of server bodies 2 are stacked in the cabinet 1, the supporting member 3 connected to the cabinet 1 is extended in the stacking direction, and all the server bodies 2 are connected to the supporting member 3. That is, in this preferred structure and arrangement, one support member 3 having a sufficient length is provided in the stacking direction to support all the server bodies 2, and specifically, when a plurality of server bodies 2 are stacked in the height direction of the cabinet 1, the support member 3 having a sufficient length is also provided in the height direction of the cabinet 1, and a plurality of different-height portions of the support member 3 corresponding to each layer of the server bodies 2 are connected to all the servers in a one-to-one manner, so that the support of all the server bodies 2 can be realized by using one support member 3, and the structure of the entire cabinet server can be simplified to the maximum extent while avoiding the sinking deformation of the server bodies 2.

Under the condition that all server bodies 2 are supported by one support piece 3, all server bodies 2 are connected with the cabinet 1 in a sliding mode, so that the support piece 3 is further detachably connected with each server body 2 through a detachable connecting structure 6, and any server body 2 is separated from the support piece 3 when sliding out of the cabinet 1 and is connected with the support piece 3 when completely sliding into the cabinet 1. This is because, in order to make the supporting member 3 have a good supporting effect on each server body 2, it is necessary to make the supporting member 3 have a certain rigidity or be in a tensioned state, that is, while the support member 3 supports the server body 2, the portion of the support member 3 connected to the server body 2 cannot move (preferably does not move) at least a large distance in the cabinet, that is, the support 3 will position the server body 2, and this will cause the server body 2 connected with the support 3 to be unable to slide out of the cabinet, affecting the maintenance of the server body 2, in order to avoid this problem, the server body 2 is detachably connected to the support member 3, when the server body 2 is positioned inside the cabinet body (i.e. not sliding out), the support piece 3 is connected with the server body 2 to support the server body 2; when the server body 2 needs to slide out, the supporting piece 3 is separated from the server body 2, so that the server body 2 can normally slide in the cabinet body and extend out of the cabinet body.

The above-mentioned setting mode that makes support piece 3 can dismantle with server body 2 and be connected, for the condition that does not demolish for support piece 3 all the time, perhaps, support piece 3 also can not dismantle with server body 2 and be connected, promptly: the supporting piece 3 is a part for assisting in supporting in the transportation process of the whole cabinet server, the probability of sinking and deforming of the server body 2 due to bumping in the transportation process of the whole cabinet server can be reduced by arranging the supporting piece 3, when the whole cabinet server is transported to a destination and starts to work normally, the whole cabinet server does not bump any more, so the supporting function of the supporting piece 3 can be weakened or lost, the supporting piece 3 can be detached, the sliding-out of the server body 2 can not be influenced after the supporting piece 3 is detached, and the server body 2 does not need to be maintained in the transportation process of the whole cabinet server, so the server body 2 does not need to slide out of the cabinet 1, the supporting piece 3 can be positioned on the server body 2 all the time in the transportation process, namely, the supporting piece 3 is always connected with the server body 2, and a detachable connection mode is not needed, and separates the supporter 3 from the server body 2 when the supporter 3 is removed after the transportation is completed. Of course, after the whole cabinet server is transported to a destination and starts to work normally, the supporting piece 3 is not required to be detached, so that the supporting piece 3 can always assist the cabinet 1 to support the server body 2 in the cabinet 1, and the server body 2 is prevented from sinking and deforming in the working process, and the service life of the whole cabinet server is prolonged.

Specifically, as shown in fig. 3 and 4, preferably, the supporting member 3 is a rope or a column having one end connected to the top of the cabinet 1 and the other end connected to the bottom of the cabinet 1, and the supporting member 3 is detachably connected to the rear wall 201 of the server body 2 through a plug structure or a hook structure. In this structure, in order to minimize the internal space of the cabinet 1 occupied by the additional support member 3 and avoid the influence on the installation and sliding of the server body 2 in the cabinet 1, it is preferable that the support member 3 is a small-sized component, i.e., a rope or a rod-shaped upright, when the connection is made, one end of the support member 3 is connected to the top cross beam 4 of the cabinet 1, and the other end is connected to the bottom cross beam 5 of the cabinet 1, when the support member 3 is a rope (e.g., a steel wire rope), the rope is in a straightened and tensioned state between the two cross beams, and when the support member 3 is an upright (e.g., a metal rod), the upright has sufficient rigidity, so as to achieve a good supporting effect on the server body 2. The detachable connection structure 6 of the support member 3 and each server body 2 also has various options, for example, a plug structure formed by a jack on the back wall 201 of the server body 2 and a plug on the support member 3, or a hook structure formed by a first hook on the bottom wall 202 of the server body 2 and a second hook on the support member 3, and in addition, the detachable connection structure may also be a magnetic attraction structure, an adhesive structure, or the like.

The support 3 with the preferred structure and arrangement has the advantages that: the volume is small, the structure is simple, and the installation space in the cabinet 1 is not occupied or is less occupied; the supporting positions can be flexibly adjusted according to the number of the server bodies 2 and the setting heights of different server bodies 2; easy to install in the factory, easy to remove or not removable by the customer; the structure of other parts of the cabinet 1 does not need to be improved.

In addition, the structure and arrangement of the supporting member 3 may be of other types, for example, in another preferred structure and arrangement, on the premise that a plurality of server bodies 2 are stacked in the cabinet 1, the supporting member 3 connected to the cabinet 1 is a plurality of supporting server bodies 2 in a one-to-one manner (the supporting member 3 in this structure and arrangement is not shown in the figure). In this kind of structure, setting mode, support piece 3 has a plurality ofly, and its quantity and setting position all with server body 2's quantity and setting position one-to-one setting to the realization supports server body 2 one-to-one, just so can have more corresponding supporting different server bodies 2, and can satisfy different support requirements of different server bodies 2, also can make arbitrary server body 2 can be nimble, independent slip simultaneously.

Further preferably, when the support member 3 supports the server bodies 2 one-to-one, all the server bodies 2 are slidably connected to the cabinet 1, and the support member 3 is also slidably connected to the server bodies 2, and when the server bodies 2 slide out of the cabinet 1 and completely slide into the cabinet 1, the support member 3 can support the server bodies 2. That is, when the server body 2 can be supported by the supporting member 3, the server body 2 can slide on the supporting member 3, so that the sliding stability and smoothness of the server body 2 can be improved, and the working effect of the whole cabinet server can be further improved. The sliding connection between the support member 3 and the server body 2 may be the same as the sliding connection between the cabinet 1 and the server body 2, except that the sliding connection between the support member 3 and the server body 2 is between the two sides of the server body 2.

Specifically, the sliding connection structure is preferably: the supporting member 3 is a slide rail connected to the rear case 101 of the cabinet 1 and slidably connected to the bottom wall 202 of the server body 2 through a slider. That is, the support member 3 is a slide rail perpendicular to the rear case 101, and is configured to support the server body 2 while being slidably connected to the server body 2, and a slider is fixedly disposed on the bottom wall 202 of the server body 2, and the server body 2 is slidably connected to the slide rail through the slider, and when the server body 2 slides out and in relative to the cabinet 1, the slider slides on the slide rail. Meanwhile, the slide rail needs to have a sufficient length to ensure that the server body 2 is always slidably connected with the slide rail in the sliding stroke.

In addition, the support member 3 may be a vertical tray connected to the rear case 101 of the cabinet 1 without considering the sliding effect of the server body 2, and supports the server body 2 by contacting with the bottom wall 202 of the server body 2. The bottom wall 202 of the server body 2 slides relative to the tray against the frictional force to move the server body 2 in and out of the cabinet 1.

In this application, no matter which kind of structure, the mode of setting are adopted to support piece 3, all prefer the position that support piece 3 is connected to server body 2, be the mid point position of the perpendicular line of server body 2 both sides. Because the part is the part of the server body 2 which is most prone to sag and deform and has the largest deformation amount, the supporting effect can be more remarkable by supporting the part by the supporting piece 3, and the probability of the sinking and deforming of the server body 2 in the transportation process is reduced to the greatest extent.

In the present specification, the structures of the respective portions are described in a progressive manner, the structure of each portion is mainly described as different from the existing structure, and the whole and partial structures of the whole cabinet server can be obtained by combining the structures of the portions.

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

Claims (9)

1. A complete machine cabinet server is characterized by comprising:

a cabinet;

the server body is connected with the cabinet through two sides to realize arrangement in the cabinet;

and the supporting piece is arranged in the cabinet close to the rear shell of the cabinet and is connected with the rear wall and/or the bottom wall of the server body so as to support the server body.

2. The whole cabinet server according to claim 1, wherein a plurality of the server bodies are stacked in the cabinet, the support member connected to the cabinet extends in a stacking direction, and all the server bodies are connected to the support member.

3. The complete rack server according to claim 2, wherein all of the server bodies are slidably connected to the rack, and the support member is detachably connected to each of the server bodies, and any one of the server bodies is separated from the support member when slid out of the rack and is connected to the support member when slid completely into the rack.

4. The whole cabinet server according to claim 1, wherein a plurality of the server bodies are stacked in the cabinet, and the supporting member connected to the cabinet supports the server bodies in a plurality of and one-to-one manner.

5. The whole cabinet server according to claim 4, wherein all the server bodies are slidably connected to the cabinet, and the supporting members are slidably connected to the server bodies, and can support the server bodies when the server bodies are slid out of the cabinet and completely slid into the cabinet.

6. The complete cabinet server according to claim 3, wherein the supporting member is a rope or a column with one end connected to the top of the cabinet and the other end connected to the bottom of the cabinet, and the supporting member is detachably connected to the rear wall of the server body through a plug structure or a hook structure.

7. The whole cabinet server of claim 5, wherein the supporting member is a slide rail connected to the rear shell of the cabinet and slidably connected to the bottom wall of the server body through a slider.

8. The complete cabinet server according to claim 4, wherein the support member is a tray attached to a rear shell of the cabinet.

9. The whole cabinet server according to claim 1, wherein the portion of the server body connected to the supporting member is a midpoint portion of a vertical connecting line of the two sides.

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