CN219642160U - Server device - Google Patents

Abstract

A server device comprises a shell, a bracket module arranged in the shell, a locking module and a blocking module for clamping the locking module. The shell comprises a shell body and a shell cover. The bracket module comprises a bracket and a positioning unit. The locking module comprises a screw head positioned at the outer side of the shell cover and a screw rod detachably locked on the positioning unit. The limiting unit corresponds to the positioning unit of the shell cover and can be used for clamping the positioning unit. The blocking module comprises a blocking body and a plurality of clamping parts for clamping the screw. By means of the design that the clamping part of the clamping module clamps the screw rod and the matched clamping body can clamp the shell cover, the locking module can move downwards to enable the screw head to abut against the mounting part of the clamping shell cover and move upwards to enable the clamping body to clamp the mounting part of the shell cover, and the locking module can be effectively prevented from being separated from or falling out of the shell cover.

Description

Server device

Technical Field

The present utility model relates to a server, and more particularly, to a server device.

Background

Generally, in the process of assembling a server chassis, it is common to fix a cover onto a rack, and then lock and combine an upper cover onto the rack to complete an assembly operation of fixing and combining the cover onto the rack. However, in the locking operation, it is usually necessary to additionally prepare a locking tool and a plurality of screws and perform complicated locking operations, which is very troublesome, time-consuming, labor-consuming and increases production cost. So the design of tool-free assembling screw or buckle device is installed on the cover, so that tool-free assembling operation can be performed, and the assembly is effectively facilitated for users. In contrast, if the cover is to be detached, the cover can be detached only by detaching the tool-free assembly screw, but because the tool-free assembly screw has small parts, the tool-free assembly screw is often carelessly lost after being detached, and a plurality of spare assembly screws are required to be prepared, so that the trouble and the cost are caused for users, the problem of losing the assembly screw is avoided, and the user can assemble the tool-free screw more labor-effectively, and the tool-free assembly screw is worthy of careful thinking and further discussed and improved by practitioners.

Disclosure of Invention

Therefore, the present utility model provides a server device with excellent assembling performance.

Thus, the novel server device comprises a shell, a bracket module arranged in the shell, a locking module and a blocking module for clamping the locking module.

The shell comprises a shell body and a shell cover which is detachably arranged on the shell body. The cover has a mounting portion.

The bracket module is fixedly arranged in the shell and comprises a bracket and a positioning unit extending from the bracket to the direction of the mounting part of the shell cover.

The locking module penetrates through the mounting part of the shell cover and can be detachably locked on the positioning unit of the bracket module, and comprises a screw head positioned at the outer side of the shell cover, a lifting and holding piece which is arranged on the screw head and can drive the screw head to rotate, and a screw rod which extends from the screw head to the direction of the mounting part and penetrates through the mounting part and can be detachably locked on the positioning unit.

The clamping and blocking module clamps the screw rod of the locking module and is positioned on the inner side of the shell cover and comprises a clamping and blocking body and a plurality of clamping parts which extend from the clamping and blocking body to the direction of the screw rod and are used for clamping the screw rod, when the locking module is not combined with the bracket module, the screw head is pulled upwards to drive the screw rod to move upwards and enable the clamping and blocking body to clamp the mounting part of the shell cover, and at the moment, the screw head cannot be pulled upwards continuously.

The shell cover is arranged on the shell body, the lifting piece of the locking module is forced to drive the screw head to rotate clockwise so as to synchronously lock the screw rod into the positioning unit towards the bracket module, the screw head is moved towards the direction close to the mounting part and is abutted against the mounting part, and at the moment, the locking module fixedly connects the shell cover with the bracket module so as to fixedly combine the shell cover with the shell body; the lifting and holding piece of the locking module is forced to drive the screw head to rotate in the anticlockwise direction so as to synchronously rotate the screw rod away from the positioning unit and the screw rod away from the bracket module, and at the moment, the locking module is not combined with the bracket module and the shell cover can be detached from the shell.

Compared with the prior art, the novel server device can drive the screw head to rotate by the lifting and holding piece of the locking module so as to synchronously lock the screw rod to the direction of the bracket module and combine the positioning unit, and only the shell cover is arranged on the shell body and the lifting and holding piece is used for driving the screw head to rotate clockwise so as to lock the screw rod and combine the positioning unit, and the shell cover is fixed on the shell body, so that tool-free assembly operation is effectively achieved. And the clamping part of the clamping module clamps the screw rod to enable the clamping module to be fixed on the screw rod and the matched clamping body can clamp the application of the shell cover, and when the clamping body clamps the installation part of the shell cover, the screw head can not be pulled upwards to move out of the installation part of the shell cover when the screw rod is detached from the positioning unit and the screw head is pulled upwards to drive the screw rod to move upwards, so that the problem that the locking module is separated from or falls out of the shell cover to be lost carelessly is avoided.

Drawings

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

FIG. 1 is an exploded perspective view illustrating an embodiment of the present novel server device;

FIG. 2 is a perspective view illustrating a blocking module according to the embodiment;

FIG. 3 is an exploded perspective view illustrating the combination of a cover of a housing and a locking module in this embodiment;

FIG. 4 is a perspective enlarged view, which is used to assist in explaining the coupling relationship between the locking module and a mounting portion of the housing cover in FIG. 3;

FIG. 5 is an exploded perspective view illustrating the combination of the cover, the locking module, the blocking module and a bracket module of the housing in this embodiment;

FIG. 6 is a schematic side view in cross section, to assist in explaining the combination of a mounting portion of the cover, a screw head of the locking module and a grip member, and a screw of the locking module and a plurality of clamping portions of the blocking module in FIG. 5;

FIG. 7 is a perspective view, aided by the illustration of FIG. 5; a kind of electronic device with high-pressure air-conditioning system

Fig. 8 is a schematic side cross-sectional view, which assists in explaining the coupling relationship of the screw of the locking module and the positioning unit of the bracket module in fig. 7.

Detailed Description

Before the present utility model is described in detail, it should be noted that in the following description, like elements are denoted by the same reference numerals.

Referring to fig. 1, 2, 3, 4, 5 and 6, an embodiment of the present utility model of a server device includes a housing 1, a bracket module 2 disposed in the housing 1, a locking module 3, and a blocking module 4 for clamping the locking module 3.

The casing 1 includes a housing (not shown), and a cover 12 detachably disposed on the housing. The cover 12 has a mounting portion 13.

The bracket module 2 is fixedly arranged in the shell and comprises a bracket 21 and a positioning unit 22 extending from the bracket 21 to the direction of the mounting part 13 of the shell cover 12.

The locking module 3 is inserted through the mounting portion 13 of the housing cover 12 and detachably locked on the positioning unit 22 of the bracket module 2, and comprises a screw head 31 located at the outer side of the housing cover 12, a lifting piece 32 arranged on the screw head 31 and capable of driving the screw head 31 to rotate, and a screw rod 33 extending from the screw head 31 to the direction of the mounting portion 13 and penetrating through the mounting portion 13 and detachably locked on the positioning unit 22.

The blocking module 4 clamps the screw 33 of the locking module 3 and is located at the inner side of the shell cover 12, and comprises a blocking body 41, and a plurality of clamping parts 42 extending from the blocking body 41 towards the direction of the screw 33 and used for clamping the screw 33. When the locking module 3 is not combined with the bracket module 2, the screw head 31 is pulled upwards to drive the screw rod 33 to move upwards and the blocking body 41 blocks the mounting part 13 of the shell cover 12, and at this time, the screw head 31 cannot be pulled upwards.

When the shell cover 12 is covered on the shell and the lifting piece 32 of the locking module 3 is forced to drive the screw head 31 to rotate clockwise so as to synchronously lock the screw rod 33 into the positioning unit 22 towards the bracket module 2, the screw head 31 is moved towards the direction close to the mounting part 13 and the screw head 31 is abutted against the mounting part 13, and at the moment, the locking module 3 fixedly connects the shell cover 12 with the bracket module 2 so as to fixedly combine the shell cover 12 with the shell; when the handle 32 of the locking module 3 is forced to rotate the screw head 31 in a counterclockwise direction to simultaneously rotate the screw 33 away from the positioning unit 22 and move the screw 33 away from the bracket module 2, the locking module 3 is not combined with the bracket module 2 and the shell cover 12 can be detached from the shell.

Referring to fig. 1, 3, 5, 6, 7 and 8, when assembling, the screw 33 of the locking module 3 is first passed through the limiting hole 132 of the mounting portion 13, and the screw 33 corresponds to the positioning unit 22, and the screw head 31 can abut against and block the mounting portion 13 as shown in fig. 4. Then, the screw 33 is clamped into the blocking module 4, and the clamping portion 42 clamps the screw 33 to integrate the screw 33 and the blocking module 4, so that the assembly of the housing cover 12, the locking module 3 and the blocking module 4 is completed. The screw head 31 can be abutted against the mounting part 13 of the shell cover 12 by the downward movement of the locking module 3, and the locking body 41 can be locked on the mounting part 13 of the shell cover 12 by matching with the upward movement of the locking module 3, so that the locking module 3 can be effectively ensured not to separate from or fall out of the shell cover 12. Further, in the present embodiment, the screw 33 of the locking module 3 has a rod portion 331 extending from the screw head 31 toward the limiting hole 132 of the mounting portion 13 and passing through the limiting hole 132, and a threaded portion 332 extending from the rod portion 331 toward the positioning unit 22 of the bracket module 2 and detachably locking into the positioning unit 22. The clamping portion 42 of the blocking module 4 clamps the rod portion 331 of the screw 33 and abuts against the threaded portion 332, but is not limited thereto.

After the assembly of the shell cover 12, the locking module 3 and the blocking module 4 is completed, the shell cover 12 is covered on the shell body, and the mounting portion 13 of the shell cover 12 is correspondingly positioned in the positioning unit 22 of the bracket module 2 in the shell body. Then, the lifting and holding piece 32 of the locking module 3 is forced to drive the screw head 31 to rotate clockwise to move towards the direction close to the mounting part 13, and simultaneously the screw rod 33 is locked into the positioning unit 22 towards the positioning unit 22, and the screw head 31 is abutted against the mounting part 13, at this time, the locking module 3 fixedly connects the shell cover 12 with the bracket module 2, so that the shell cover 12 is fixedly combined with the shell, and the assembly operation is completed. In contrast, if the shell cover 12 is to be detached from the shell 1, the lifting member 32 of the locking module 3 only drives the screw head 31 to rotate in the counterclockwise direction to simultaneously rotate the screw rod 33 away from the positioning unit 22 and separate the screw rod 33 from the bracket module 2, at this time, the locking module 3 is not combined with the bracket module 2, so that the shell cover 12 can be detached from the shell, and the clamping portion 42 of the blocking module 4 clamps the screw rod 33 to combine with the blocking module 4 into an integral design, so that the screw rod 33 is detached from the positioning unit 22 and the screw head 31 is pulled upwards to drive the screw rod 33 to move upwards, and when the blocking body 41 of the blocking module 4 blocks the mounting portion 13 of the shell cover 12, the screw head 31 cannot be pulled upwards to move out of the mounting portion 13 of the shell cover 12, thereby avoiding the problem that the locking module 3 is detached from or falls out of the shell cover 12 and is lost carelessly. In the present embodiment, the clamping body 41 of the clamping module 4 and the clamping portion 42 cooperate to form an E-ring, but not limited thereto. In addition, in the present embodiment, the cover 12 has a cover 14, the mounting portion 13 of the cover 12 is disposed on the cover 14, the mounting portion 13 has a mounting groove 131 recessed on an outer side surface of the cover 14, and a limiting hole 132 penetrating the mounting groove 131. The screw head 31 of the locking module 3 is located in the mounting groove 131, and the screw 33 passes through the limiting hole 132 of the mounting portion 13 and is detachably locked to the positioning unit 22. In short, after the locking module 3 fixedly connects the cover 14 of the cover 12 to the bracket module 2 to fix the cover 14 to the housing, the screw 31 of the locking module 3 abuts against the mounting portion 13 and does not exceed the mounting groove 131 as shown in fig. 6, so that the screw 31 is prevented from exceeding the cover 14 to affect the subsequent assembly, but is not limited thereto.

The lifting and holding piece 32 of the locking module 3 can drive the screw head 31 to rotate so as to synchronously lock the screw rod 33 into the direction of the bracket module 2 to be combined with the positioning unit 22, so long as the shell cover 12 is covered on the shell and the lifting and holding piece 32 is applied to drive the screw head 31 to rotate clockwise, the screw rod 33 is locked and combined with the positioning unit 22, and the shell cover 12 is fixed on the shell, thereby effectively achieving tool-free assembly operation. And the clamping portion 42 of the clamping module 4 clamps the screw 33 to fix the clamping module 4 on the screw 33, and the matched clamping body 41 can clamp the application of the shell cover 12, when the screw 33 is detached from the positioning unit 22 and the screw head 31 is pulled upwards to drive the screw 33 to move upwards, the screw head 31 cannot be pulled upwards continuously to move out of the mounting portion 13 of the shell cover 12 when the clamping body 41 clamps the mounting portion 13 of the shell cover 12, so that the locking module 3 is prevented from being detached or falling out of the shell cover 12 to be carelessly lost.

It should be noted that, in the present embodiment, the screw head 31 of the locking module 3 has a screw head body 311 and a limiting member 312 disposed on the screw head body 311 and surrounding the half periphery of the screw head body 311. The stopper 312 has stoppers 313 at both ends. The lifting and holding piece 32 is pivoted on the screw head body 311 and can move between a lifting and holding position and a non-lifting and holding position relative to the screw head body 311, and when the lifting and holding position is reached, the lifting and holding piece 32 is vertical to the screw head body 311 and is blocked by the blocking part 313 of the limiting piece 312; in the non-grip position, the grip 32 is parallel to the screw body 311 and is located in the mounting groove 131. In short, by the design that the lifting and holding member 32 is pivotally connected to the screw head body 311 and by using the lifting and holding member 32 in combination with the limiting member 312, the lifting and holding member 32 can only rotate 90 degrees between the non-lifting and holding positions, and in the lifting and holding position, the lifting and holding member 32 is perpendicular to the screw head body 311 and blocks the blocking portion 313 of the limiting member 312, thereby increasing the supporting area of the lifting and holding member 32 relative to the screw head 31 and improving the overall strength structure, and effectively reducing the torque force required by the lifting and holding member 32 to drive the screw head 31 to rotate, but not limited thereto. In the present embodiment, the grip 32 of the locking module 3 is in the form of a grip tab, but not limited thereto.

Incidentally, in the present embodiment, the positioning unit 22 of the bracket module 2 has a positioning frame 221 extending from the bracket 21 toward the mounting portion 13 of the housing cover 12, and a locking seat 222 disposed on the positioning frame 221 and corresponding to the limiting hole 132 of the mounting portion 13. The threaded portion 332 of the screw 33 of the locking module 3 is detachably locked into the locking seat 222 of the positioning unit 22, but not limited thereto. The locking seat 222 of the positioning unit 22 of the bracket module 2 has a locking piece 223 disposed on the positioning frame 221, and a nut post 224 disposed on the locking piece 223 and corresponding to the limiting hole 132 of the mounting portion 13, and into which the threaded portion 332 of the screw 33 is locked. In short, when assembling, the handle 32 drives the screw head 31 to rotate clockwise to synchronously move the screw 33 toward the locking seat 222 of the positioning unit 22 and lock the threaded portion 332 of the screw 33 into engagement with the nut post 224, and at this time, the locking module 3 fixedly connects the housing cover 12 to the bracket module 2 to fixedly connect the housing cover 12 to the housing, but not limited thereto.

In summary, in the present utility model, the handle 32 of the locking module 3 can drive the screw head 31 to rotate to lock the screw 33 into the direction of the rack module 2 to combine with the positioning unit 22, so long as the shell cover 12 is covered on the shell and the handle 32 is applied to drive the screw head 31 to rotate clockwise to lock the screw 33 to combine with the positioning unit 22, and the shell cover 12 is fixed on the shell, so as to effectively achieve tool-free assembly. And the clamping portion 42 of the clamping module 4 clamps the screw 33 to fix the clamping module 4 on the screw 33, and the matched clamping body 41 can clamp the application of the shell cover 12, when the screw 33 is detached from the positioning unit 22 and the screw head 31 is pulled upwards to drive the screw 33 to move upwards, the screw head 31 cannot be pulled upwards continuously to move out of the mounting portion 13 of the shell cover 12 when the clamping body 41 clamps the mounting portion 13 of the shell cover 12, so that the locking module 3 is prevented from being detached or falling out of the shell cover 12 to be carelessly lost.

The foregoing is merely specific embodiments of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art can easily think about changes or substitutions within the technical scope of the present utility model, and should be covered in the scope of the present utility model. Therefore, the protection scope of the present utility model shall be subject to the protection scope of the claims.

Claims (8)

1. A server apparatus, comprising:

the shell comprises a shell body and a shell cover detachably arranged on the shell body, wherein the shell cover is provided with a mounting part;

the bracket module is fixedly arranged in the shell and comprises a bracket and a positioning unit extending from the bracket to the direction of the mounting part of the shell cover;

the locking module penetrates through the mounting part of the shell cover and is detachably locked on the positioning unit of the bracket module, and comprises a screw head positioned at the outer side of the shell cover, a lifting piece which is arranged on the screw head and can drive the screw head to rotate, and a screw rod which extends from the screw head to the direction of the mounting part and penetrates through the mounting part and is detachably locked on the positioning unit; a kind of electronic device with high-pressure air-conditioning system

The clamping and blocking module is used for clamping the screw rod of the locking module and is positioned at the inner side of the shell cover and comprises a clamping and blocking body and a plurality of clamping parts which extend from the clamping and blocking body to the direction of the screw rod and are used for clamping the screw rod, when the locking module is not combined with the bracket module, the screw head is pulled upwards to drive the screw rod to move upwards and enable the clamping and blocking body to clamp the mounting part of the shell cover, and at the moment, the screw head cannot be pulled upwards continuously;

the shell cover is arranged on the shell body, the lifting piece of the locking module is forced to drive the screw head to rotate clockwise so as to synchronously lock the screw rod into the positioning unit towards the bracket module, the screw head is moved towards the direction close to the mounting part and is abutted against the mounting part, and at the moment, the locking module fixedly connects the shell cover with the bracket module so as to fixedly combine the shell cover with the shell body; the lifting and holding piece of the locking module is forced to drive the screw head to rotate in the anticlockwise direction so as to synchronously rotate the screw rod away from the positioning unit and the screw rod away from the bracket module, and at the moment, the locking module is not combined with the bracket module and the shell cover can be detached from the shell.

2. The server device according to claim 1, wherein the cover has a cover body, the mounting portion of the cover body is disposed on the cover body, the mounting portion has a mounting groove recessed on an outer side surface of the cover body, and a limiting hole penetrating the mounting groove, the screw head of the locking module is disposed in the mounting groove, and the screw rod penetrates the limiting hole of the mounting portion and is detachably locked to the positioning unit.

3. The server device according to claim 2, wherein the screw head of the locking module has a screw head body and a limiting member disposed on the screw head body and surrounding a half periphery of the screw head body, the limiting member has blocking portions at both ends, the grip member is pivotally connected to the screw head body and movable between a grip position and a non-grip position with respect to the screw head body, in the grip position, the grip member is perpendicular to the screw head body and blocked by the blocking portion of the limiting member, and in the non-grip position, the grip member is parallel to the screw head body and located in the mounting groove.

4. The server apparatus according to claim 2, wherein the screw of the locking module has a rod body portion extending from the screw head toward the limiting hole of the mounting portion and passing through the limiting hole, and a threaded portion extending from the rod body portion toward the positioning unit of the bracket module and detachably locked into the positioning unit, and the clamping portion of the blocking module clamps the rod body portion of the screw and abuts against the threaded portion.

5. The server apparatus according to claim 4, wherein the positioning unit of the bracket module has a positioning frame extending from the bracket toward the mounting portion of the housing cover, and a locking seat disposed on the positioning frame and corresponding to the limiting hole of the mounting portion, and the threaded portion of the screw of the locking module is detachably locked into the locking seat of the positioning unit.

6. The server apparatus according to claim 5, wherein the locking seat of the positioning unit of the bracket module has a locking piece disposed on the positioning frame, and a nut post disposed on the locking piece and corresponding to the limiting hole of the mounting portion, and into which the threaded portion of the screw is locked.

7. The server device according to claim 1, wherein the catch body of the catch module and the clamping portion are combined into an E-ring.

8. The server device according to claim 3, wherein the grip of the locking module is a grip tab.