CN113703530A

CN113703530A - Server system

Info

Publication number: CN113703530A
Application number: CN202010429521.4A
Authority: CN
Inventors: 庄佳晃
Original assignee: Mitac Computer Shunde Ltd; Mitac Computing Technology Corp
Current assignee: Mitac Computer Shunde Ltd; Mitac Computing Technology Corp
Priority date: 2020-05-20
Filing date: 2020-05-20
Publication date: 2021-11-26
Anticipated expiration: 2040-05-20
Also published as: CN113703530B

Abstract

A server system comprises a first rack, a second rack and a plurality of fixing units. The first frame comprises two first side plates and two positioning modules. The second frame comprises two second side plates and two clamping modules. Each second side plate is provided with an opening, a blocking part and a plurality of limiting parts positioned on the inner side. Each of the clamping modules has an elastic member and a clamping member. By means of the design that the clamping module of the second rack can be clamped on the positioning module of the first rack and the elastic piece can be blocked by the blocking part, when each clamping module moves forwards under a forward external force and moves to the clamping position, the clamping piece is clamped on the corresponding positioning module and the elastic piece is blocked by the blocking part, so that the second rack is fixed on the first rack to form an integrated rack structure with an upper layer and a lower layer, the complex assembly is not needed, the assembly convenience is effectively improved, and the time and the labor are saved.

Description

Server system

Technical Field

The present invention relates to a server, and more particularly, to a server system.

Background

In recent years, servers have been widely used, and rack servers are often used to achieve centralized management of a plurality of servers. In rack server, the 1U or 2U server is usually configured, and generally, the common servers are single-layer (single node) servers constituting the rack server. However, as the functional requirements and performance of the server are increased, the number of internal components of the server, such as expansion cards or hard disks, is increased to meet the performance requirement, but the increased internal components are often installed in a complicated manner, so that the number of complex tools required for assembly is reduced and avoided, and the scale of the single-layer (single-node) server is effectively increased to meet the requirement for use, which greatly requires further thinking, research and improvement by workers.

Disclosure of Invention

The technical problem to be solved by the invention is to provide a server system which effectively improves the assembly convenience and saves time and labor.

In order to solve the above technical problem, the server system of the present invention includes a first rack, a second rack pivotally mounted on the first rack, and a plurality of fixing units.

The first frame comprises a first bottom plate, two first side plates and two positioning modules, wherein the first side plates extend upwards from two opposite sides of the first bottom plate, and the two positioning modules are arranged on the front sides of the first side plates.

The second frame comprises a second bottom plate, two second side plates which extend upwards from two opposite sides of the second bottom plate and are pivoted on the first side plates, and two clamping modules arranged on the inner sides of the second side plates. The second bottom plate is provided with two mounting openings which are positioned at two opposite sides and are close to the second side plate. The rear side of the second side plate is pivoted on the rear side of the first side plate. Each second side plate is provided with an opening, a stop part positioned on the inner side and a plurality of limiting parts positioned on the inner side. The clamping module is arranged on the front side of the second side plate and corresponds to the mounting port and the positioning module of the first rack. Each clamping module can move back and forth relative to the corresponding second side plate and is provided with a body which can move back and forth relative to the corresponding second side plate, a force application part which is arranged on the body and corresponds to the opening of each second side plate, a plurality of limiting holes which penetrate through the body and can be used for the limiting parts of the corresponding second side plates to penetrate through, an elastic part which is arranged on the body and can be abutted against the stopping part of the corresponding second side plate and can be clamped and positioned by the corresponding stopping part, and a clamping part which extends from the body to the direction of the corresponding mounting hole, penetrates through the corresponding mounting hole and can be clamped on the corresponding positioning module.

The fixing unit is detachably locked on the limiting part of the second side plate. The fixing unit penetrates through the limiting hole of the clamping module and is locked on the limiting part, so that the clamping module is combined on the inner side of the second side plate, and the body of the clamping module can move back and forth relative to the second side plate.

The clamping piece of the clamping module can move between a clamping position and a non-clamping position relative to the corresponding positioning module, and when the clamping position is reached, the clamping piece is clamped on the corresponding positioning module, the elastic piece is clamped by the blocking part, and the second rack is fixed on the first rack; when the non-clamping position is reached, each clamping piece is not clamped on the corresponding positioning module, and the second rack can pivot relative to the first rack. When the force application part of each clamping module is driven by a forward external force to move the corresponding body forward and drive the corresponding elastic piece to move towards the corresponding blocking part, and the corresponding clamping piece is driven to move towards the corresponding positioning module and move to the clamping position, the clamping piece is clamped on the corresponding positioning module, the elastic piece is blocked by the blocking part, and the second rack is fixed on the first rack.

Compared with the prior art, the server system of the invention is designed by the second rack which is pivoted on the first rack, the clamping member of the clamping module of the second rack can be clamped on the positioning module of the first rack and matched with the application that the elastic member is blocked by the blocking part, when the force application part of each clamping module is driven by the forward external force to move the corresponding body forward and drive the corresponding elastic sheet to move towards the corresponding blocking part, and drive the corresponding clamping member to move towards the corresponding positioning module and move to the clamping position, the clamping member is clamped on the corresponding positioning module and the elastic member is blocked by the blocking part, and the second rack is fixed on the first rack to form an integrated rack structure with an upper layer and a lower layer, and the second rack can be fixed on the first rack without extra preparation tools for complicated assembly, effectively improve the equipment convenience and labour saving and time saving.

[ description of the drawings ]

Other features and advantages of the present invention will become apparent from the following detailed description of the preferred embodiments with reference to the accompanying drawings, in which:

FIG. 1 is a perspective view illustrating an embodiment of a server system of the present invention;

FIG. 2 is a perspective view to assist in explaining FIG. 1;

FIG. 3 is a partial perspective view illustrating the linking relationship between a second side plate of a second frame, a locking module, and a fixing unit in the embodiment;

FIG. 4 is a partial perspective view illustrating the embodiment with a first frame and the second frame in a clamped position;

fig. 5 is a partially enlarged view illustrating that in the embodiment, a clamping member of one of the clamping modules of the second chassis is clamped to one of the positioning modules of the first chassis;

FIG. 6 is a partial perspective view illustrating the first and second frames in a non-clamping position in the embodiment;

fig. 7 is a partial cross-sectional view illustrating a position relationship between a protruding portion of an elastic member of one of the clamping modules of the second frame and a stopping portion of one of the second side plates when the first frame and the second frame are in the non-clamping position in the embodiment; and

fig. 8 is a partial cross-sectional view illustrating a positional relationship between a protrusion of an elastic member of one of the clamping modules of the second frame and a stop of one of the second side plates when the first frame and the second frame are in the clamping position in the embodiment.

[ detailed description ] embodiments

Before the present invention is described in detail, it should be noted that in the following description, similar components are denoted by the same reference numerals.

Referring to fig. 1, fig. 2, fig. 3, fig. 4 and fig. 5, the server system according to the embodiment of the present invention includes a first rack 1, a second rack 2 pivoted to the first rack 1, and a plurality of fixing units 6.

The first rack 1 includes a first bottom plate 11, two first side plates 12 extending upward from two opposite sides of the first bottom plate 11, and two positioning modules 13 disposed on front sides of the first side plates 12. Each positioning module 13 has a positioning boss 131.

The second frame 2 includes a second bottom plate 3, two second side plates 4 extending upward from two opposite sides of the second bottom plate 3 and pivotally mounted on the first side plate 12, and two locking modules 5 disposed on the inner sides of the second side plates 4.

The second bottom plate 3 has two mounting openings 31 on opposite sides and adjacent to the second side plate 4. The rear side of the second side plate 4 is pivotally arranged on the rear side of the first side plate 12. Each second side plate 4 has an opening 41, a stop portion 42 on the inner side, and a plurality of position-limiting members 43 on the inner side. The locking module 5 is disposed on the front side of the second side plate 4 and corresponds to the mounting opening 31 and the positioning module 13 of the first frame 1.

Each locking module 5 can move back and forth relative to the corresponding second side plate 4, and has a body 51 that can move back and forth relative to the corresponding second side plate 4, a force application portion 52 disposed on the body 51 and corresponding to the opening 41 of each second side plate 4, a plurality of limiting holes 53 passing through the body 51 and allowing the limiting members 43 of the corresponding second side plate 4 to pass through, an elastic member 54 disposed on the body 51 and capable of abutting against the stopping portions 42 of the corresponding second side plate 4 and being locked and positioned with the corresponding stopping portions 42, and a locking member 55 extending from the body 51 to the corresponding mounting opening 31 and passing through the corresponding mounting opening 31 and being locked on the corresponding positioning module 13. Each of the locking members 55 has an extending portion 551 extending from the corresponding body 51 to the corresponding mounting opening 31 and penetrating through the corresponding mounting opening 31, and a locking hook 552 extending from the extending portion 551 to the positioning module 13 of the first frame 1 and being capable of locking the corresponding positioning post 131.

The fixing unit 6 is detachably locked to the limiting member 43 of the second side plate 4. The fixing unit 6 passes through the limiting hole 53 of the locking module 5 and is locked in the limiting member 43, so that the locking module 5 is combined on the inner side of the second side plate 4 and the body 51 of the locking module 5 can move back and forth relative to the second side plate 4.

Referring to fig. 1, fig. 3, fig. 4, fig. 5, fig. 6 and fig. 7, the hook 552 of the locking member 55 can move between a locking position and a non-locking position relative to the corresponding positioning module 13, and in the locking position, the hook 552 of the locking member 55 is locked on the positioning boss 131 of the corresponding positioning module 13, so that the elastic member 54 is locked by the blocking portion 42, and the second frame 2 is fixed on the first frame 1.

In the non-locking position, the hook 552 of each locking member 55 is not locked on the corresponding positioning protrusion 131, and the second frame 2 can pivot relative to the first frame 1.

When the force application portion 52 of each locking module 5 is subjected to a forward external force to drive the corresponding body 51 to move forward and to couple the corresponding elastic piece 541 to move toward the corresponding stopping portion 42, and to drive the hook 552 of the corresponding locking member 55 to move toward the corresponding positioning protrusion 131, and to move to the locking position, the hook 552 of the locking member 55 is locked on the corresponding positioning protrusion 131 of the positioning module 13, and the elastic piece 54 is locked by the corresponding stopping portion 42, so that the second frame 2 is fixed on the first frame 1.

During assembly, the second frame 2 is pivoted to the first frame 1, and the second frame 2 is covered on the first frame 1. Then, a user can directly push the force application portion 52 of each locking module 5 forward through the opening 41 of each second side plate 4 by using a finger to drive the body 51 of each locking module 5 to move forward and drive the corresponding elastic piece 541 to move in the direction of the corresponding stopping portion 42 and synchronously drive the hook 552 of the corresponding locking piece 55 to move in the direction of the corresponding positioning boss 131 of the corresponding positioning module 13, and when the body is moved to the locking position, the hook 552 of the locking piece 55 is locked and hooked on the corresponding positioning boss 131 and the elastic piece 54 is locked by the stopping portion 42, so that the second frame 2 is fixed on the first frame 1, thereby forming an integrated frame structure with two layers, and effectively fixing the second frame 2 on the first frame 1. In the present embodiment, the force applying portion 52 of each card module 5 is a force applying opening formed on each body 51, and a user's finger can pass through the opening 41 of each second side plate 4 to directly apply a force to each force applying opening, but not limited thereto. In addition, when the force application portion 52 of each locking module 5 is forced to drive the corresponding body 51 to move, the limiting hole 53 of each locking module 5 is matched with the limiting member 43 of the corresponding second side plate 4 to have a moving direction guiding effect.

When the internal components of the first frame 1 are to be replaced or maintained, the force application portion 52 of each locking module 5 is pulled backward to drive the main body 51 of each locking module 5 to move backward, the corresponding elastic piece 541 is linked not to be blocked by the corresponding blocking portion 42 and can move in the direction away from the corresponding blocking portion 42, and synchronously drives the hook 552 of the corresponding clamping member 55 to disengage from the corresponding positioning protrusion 131 and move away from the corresponding positioning module 13, and when moving to the non-clamping position, since the hook 552 of each engaging member 55 is not engaged with the corresponding positioning protrusion 131 and the second frame 2 can directly pivot with respect to the first frame 1, therefore, the user can directly perform the maintenance operation of the first frame 1 by pivoting the second frame 2 upward relative to the first frame 1 and lifting the second frame 2.

By the design of the second frame 2 pivotally disposed on the first frame 1 and the application of the hook 552 of the locking member 55 of the locking module 5 of the second frame 2 being locked on the positioning convex column 131 of the positioning module 13 of the first frame 1 and being engaged with the elastic member 54 by the blocking portion 42, when the force application portion 52 of each locking module 5 is driven by the forward external force to move the corresponding body 51 forward and to move the corresponding elastic piece 541 toward the corresponding blocking portion 42, the hook 552 of the corresponding locking member 55 is driven to move toward the corresponding positioning convex column 131 and move to the locking position, the locking member 55 is locked on the corresponding positioning module 13 and the elastic member 54 is blocked by the blocking portion 42, and the second frame 2 is fixed on the first frame 1 to form an integrated frame structure with two layers, the second frame can be fixed on the first frame without extra preparation tools for complex assembly, so that the assembly convenience is effectively improved, and time and labor are saved.

Referring to fig. 3, 4, 5, 7 and 8, it should be noted that in the present embodiment, the body 51 of each card module 5 has a combining opening 511 corresponding to each elastic element 54. The elastic component 54 of each card module 5 has an elastic piece 541 combined on the inner side of each main body 51 and corresponding to each combining opening 511, and a protruding portion 542 extending from the elastic piece 541 to the corresponding second side plate 4 and penetrating out of the corresponding combining opening 511. When the force application portion 52 of each locking module 5 is driven by the forward external force to move the corresponding body 51 forward and to move the hook 552 of the corresponding locking member 55 toward the corresponding positioning module 13, and drives the corresponding elastic piece 541 to move toward the corresponding stopping portion 42, so that the corresponding protrusion 542 abuts against the corresponding stopping portion 42 and passes over the corresponding stopping portion 42, and moves to the locking position, at this time, the protrusion 542 of each elastic member 54 is blocked by the corresponding stopping portion 42. In addition, in the embodiment, the stopping portion 42 of each second side plate 4 protrudes from the inner side of each second side plate 4 toward the direction of the corresponding combining opening 511 of the locking module 5 and can block the protruding portion 542 of the corresponding elastic member 54, so when each locking module 5 is moved to the locking position, the protruding portion 542 of each elastic member 54 presses against the corresponding stopping portion 42 and goes over the corresponding stopping portion 42 by using its own elastic stress, and the protruding portion 542 of each elastic member 54 is blocked by the corresponding stopping portion 42, so that each protruding portion 542 cannot move backward (as shown in fig. 8), at this time, each locking module 5 cannot move backward without being subjected to an external force, so as to ensure that each locking member 55 is locked on the corresponding positioning module 13, and effectively achieve the purpose of firmly fixing the second frame 2 on the first frame 1.

In summary, in the server system of the present invention, by the design that the second rack 2 is pivoted to the first rack 1, and the locking module 5 of the second rack 2 can be locked on the positioning module 13 of the first rack 1 and is matched with the application that the protruding portion 542 of the elastic member 54 is blocked by the blocking portion 42, when the force application portion 52 of each locking module 5 is driven by the forward external force to move the corresponding body 51 forward and to the locking position, the locking member 55 is locked on the corresponding positioning module 13 and the elastic member 54 is blocked by the blocking portion 42, and the second rack 2 is fixed on the first rack 1 to form an integrated rack structure with two layers, which is convenient to assemble and saves time and labor.

However, the above description is only an example of the present invention, and the scope of the present invention should not be limited thereby, and all the simple equivalent changes and modifications made according to the claims and the contents of the patent specification should be included in the scope of the present invention.

Claims

1. A server system, comprising:

the first rack comprises a first bottom plate, two first side plates and two positioning modules, wherein the two first side plates extend upwards from two opposite sides of the first bottom plate;

a second frame pivoted on the first frame, including a second bottom plate, two second side plates extending upwards from two opposite sides of the second bottom plate and pivoted on the first side plate, and two clamping modules arranged on the inner sides of the second side plates, the second bottom plate having two mounting openings at two opposite sides and near the second side plates, the rear side of the second side plates being pivoted on the rear side of the first side plates, each second side plate having an opening, a stop part on the inner side, and a plurality of limiting parts on the inner side, the clamping modules being arranged on the front side of the second side plates and corresponding to the mounting openings and the positioning modules of the first frame, each clamping module being movable back and forth relative to the corresponding second side plate and having a body movable back and forth relative to the corresponding second side plate, a force application part arranged on the body and corresponding to the opening of each second side plate, A plurality of limiting holes which penetrate through the body and can be penetrated by the limiting parts of the corresponding second side plates, an elastic part which is arranged on the body and can be abutted against the blocking parts of the corresponding second side plates and can be blocked and positioned by the corresponding blocking parts, and a blocking part which extends from the body to the direction of the corresponding mounting port, penetrates through the corresponding mounting port and can be blocked on the corresponding positioning module; and

a plurality of fixing units detachably locked to the limiting member of the second side plate, wherein the fixing units penetrate through the limiting hole of the clamping module and are locked into the limiting member, so that the clamping module is combined to the inner side of the second side plate and a body of the clamping module can move back and forth relative to the second side plate, a clamping member of the clamping module can move between a clamping position and a non-clamping position relative to a corresponding positioning module, and when the clamping position is reached, the clamping member is clamped on the corresponding positioning module and the elastic member is clamped by the stopping part, and the second rack is fixed on the first rack; when the force application part of each clamping module is driven by a forward external force to drive the corresponding body to move forward and drive the corresponding elastic piece to move towards the corresponding blocking part, the corresponding clamping piece is driven to move towards the corresponding positioning module and move to the clamping position, the clamping piece is clamped on the corresponding positioning module, the elastic piece is blocked by the blocking part, and the second rack is fixed on the first rack.

2. The server system of claim 1, wherein the positioning module of the first rack has a positioning protrusion, and the locking member of each locking module of the second rack has a hook capable of being locked with the corresponding positioning protrusion, and in the locking position, the hook of the locking member is locked with the corresponding positioning protrusion of the positioning module and the second rack is fixed on the first rack.

3. The server system of claim 3, wherein the locking member of each locking module of the second rack further has an extending portion extending from the corresponding body toward the corresponding mounting opening and penetrating through the corresponding mounting opening, the hook of each locking member extends from the corresponding extending portion toward the positioning module of the first rack, when the body of the locking module moves forward and respectively drives the hook of the corresponding locking member to move toward the positioning boss of the corresponding positioning module, and in the locking position, the hook of the locking member is locked to the positioning boss of the corresponding positioning module and the elastic member is blocked by the blocking portion, so that the second rack is fixed to the first rack.

4. The server system of claim 1, wherein the body of each of the locking modules has a coupling opening corresponding to each of the elastic members, the elastic member of each of the locking modules has an elastic piece coupled to the inner side of each of the bodies and corresponding to each of the coupling openings, and a protrusion extending from the elastic piece toward the corresponding second side plate and penetrating through the corresponding coupling opening, when the force application portion of each of the locking modules is driven by the forward external force to move the corresponding body forward and move the corresponding locking member toward the corresponding positioning module, and when the force application portion of each of the locking modules is driven by the corresponding elastic piece toward the corresponding locking portion to move the corresponding protrusion against the corresponding locking portion and over the corresponding locking portion, and move to the locking position, each of the locking members is locked to the corresponding positioning module and the protrusion of each of the elastic members is locked by the corresponding locking portion, and the second frame is fixed on the first frame.

5. The server system of claim 4, wherein the stop portion of each second side plate is a protrusion protruding from the inner side of each second side plate toward the coupling opening of the corresponding locking module and capable of stopping the corresponding elastic member.

6. The server system of claim 1, wherein the force application portion of each card module is a force application port formed on each body.