CN219979149U - Server system - Google Patents

Abstract

A server system comprises a rack and a data storage device arranged in the rack. The frame comprises a base plate and two side plates. The data storage device comprises a plurality of hard disks and a frame unit. The frame unit comprises a frame for accommodating the hard disk and two supporting devices which correspond to the side plates and are respectively positioned on two opposite sides of the frame and can drive the frame to move. The frame has two connecting walls on opposite sides. Each supporting device is provided with a positioning module arranged on the corresponding side plate and a supporting frame module which is arranged on the corresponding connecting wall and pivoted with the positioning module. The frame is driven to move between a folding position and a replacing position by the matched movement of the support frame module, so that when the frame is applied with an external force in a direction away from the substrate, the support frame module drives the frame to move and tilt in a direction away from the substrate and to the replacing position, and the hard disk can be pulled out of the frame.

Description

Server system

Technical Field

The present utility model relates to rack servers, and more particularly to a server system for facilitating maintenance and replacement.

Background

In rack servers, a large number of hard disk storage devices are often required to be installed. In general, for convenience and rapidness in installation, a plurality of hard disk cartridges (HDD Cage) are used to house the hard disk storage devices and integrate into a plurality of groups of hard disk storage units, and then the hard disk storage units are sequentially installed in the rack according to actual requirements.

The conventional hard disk storage unit is installed at a desired position of the hard disk storage unit area, but generally speaking, the hard disk storage unit area is designed to be slightly larger than a space required for accommodating the hard disk storage unit, so as to achieve the purpose of effectively utilizing the accommodating space in the rack, so that the hard disk storage unit and the front fan unit are closely spaced or the two adjacent hard disk storage units are closely spaced, and therefore any hard disk storage device in the hard disk storage unit cannot be directly pulled out from the accommodating space of the rack, so that other hard disk storage units, fan units or other peripheral structures in front of the hard disk storage unit are required to be sequentially pulled out according to the installation or removal sequence, and maintenance operation of the hard disk storage unit which the user wants to pull out can be performed after other structures which are sequenced in front of the hard disk storage unit which the user wants to pull out are pulled out. Furthermore, the hard disk storage unit is fixedly arranged on the frame and cannot be moved, so that when the hard disk storage device in the hard disk storage unit positioned at the middle and rear section is required to be maintained or replaced later, a user needs to take time and labor to sequentially detach the hard disk storage unit positioned at the front section, the hard disk storage device in the hard disk storage unit positioned at the middle and rear section and required to be maintained can be replaced, and after the replacement is completed, the user still needs to sequentially load the hard disk storage units back one by one, so that the trouble and the trouble of the user are caused, inconvenience exists, and the time is wasted, and further study and improvement are needed.

Disclosure of Invention

It is therefore an object of the present utility model to provide a server system that is easy to repair and replace.

Thus, the server system of the utility model comprises a rack and a data storage device arranged in the rack.

The frame comprises a base plate and two side plates extending from two opposite sides of the base plate in a direction away from the base plate.

The data storage device comprises a frame for accommodating a plurality of hard disks and two supporting devices which correspond to the side plates and are respectively positioned on two opposite sides of the frame and are matched with each other to drive the frame to pivot.

The frame is provided with a bottom wall adjacent to the base plate of the frame, two connecting walls extending from two opposite sides of the bottom wall to a direction away from the bottom wall and the base plate, and a backboard connecting the bottom wall and the connecting walls. The bottom wall has a first side away from the back plate and a second side close to the back plate.

Each supporting device is provided with a positioning module connected with the corresponding side plate and a supporting frame module which is connected with at least one of the corresponding connecting wall and the bottom wall and pivoted with the positioning module. Each positioning module is provided with an elastic body, and each elastic body is provided with a first groove part and a second groove part.

Each support frame module is provided with a support frame connected with the corresponding connecting wall, a pivot shaft connected with the support frame and pivoted with the corresponding positioning module, and a limit convex column which extends from the support frame to the direction of the corresponding positioning module and can be positioned by the elastic body. The limiting convex column of each support frame module can be movably limited on one of the first groove part and the second groove part of the corresponding elastic body.

The support frame module is matched with one of the corresponding connecting wall and the bottom wall and can be linked to drive the frame to pivot between a folding position and a replacing position.

Particularly, when the frame is at the folding position, the bottom wall of the frame is adjacent to and parallel to the base plate of the frame, and the limit convex column of each support frame module is blocked and positioned at the corresponding first groove part; when the frame of the frame unit is subjected to an external force in a direction away from the substrate, the support frames of the support frame modules are pivoted and interlocked with the connecting wall to rotate, the limit posts of each support frame module move in the direction of the corresponding second groove parts and synchronously tilt the frame in the direction away from the substrate, the distance between the first side of the bottom wall and the substrate is larger than the distance between the second side of the bottom wall and the substrate, and when the frame of the frame unit is in the replacement position, the limit posts of each support frame module are positioned in the corresponding second groove parts and tilt in the direction away from the substrate, so that the limit posts of each support frame module can be pulled away from the corresponding frame.

Particularly, the positioning module of each supporting device is also provided with a fixed body arranged on the corresponding side plate, the elastic body of each positioning module is arranged on the fixed body, each elastic body is also provided with an elastic convex part for connecting the first groove part and the second groove part, each elastic convex part is provided with a first positioning side for connecting the corresponding first groove part and a second positioning side for connecting the corresponding second groove part, and when the frame is in the folding position, the bottom wall of the frame is adjacent to and parallel to the substrate of the frame, and the limiting convex column of each supporting frame module is blocked on the first positioning side of the elastic convex part and limited on the corresponding first groove part; when the elastic convex parts are at the replacement positions, the bottom wall tilts and tilts towards the direction away from the substrate, and the limiting convex columns of each support frame module block the second positioning sides of the elastic convex parts and are limited at the corresponding second groove parts.

Particularly, the support frame module of each support device is also provided with a blocking convex column extending from the support frame to the direction of the corresponding positioning module, each support device is also provided with a locking module used for locking the corresponding positioning module on the corresponding side plate, each locking module is provided with a first locking piece which penetrates through the corresponding side plate and locks and combines the fixing body of the corresponding positioning module with the corresponding side plate, and a second locking piece which penetrates through the corresponding side plate and locks and combines the corresponding fixing body with the corresponding side plate and can block the blocking convex column of the corresponding support frame module.

In particular, when the first side of the bottom wall of the frame unit is subjected to the external force in the direction away from the substrate and the support frame is pivoted to drive the connecting wall to move, the first side of the bottom wall is tilted and tilted in the direction away from the substrate and moved to the replacement position, at this time, the blocking convex column of each support frame module is blocked by the second locking piece of the corresponding locking module.

Specifically, the support frame of the support frame module of each support device is provided with a pivot seat arranged on the bottom wall of the frame and a support arm which extends from the pivot seat to the corresponding connecting wall direction and is connected with the corresponding connecting wall, and the support arm of each support frame is fixed on the corresponding connecting wall.

Specifically, the pivot shaft of the support frame module of each support device is arranged on the pivot seat of the corresponding support frame, extends from the corresponding pivot seat to the direction of the fixed body of the corresponding positioning module, is pivoted on the corresponding fixed body, and the limit convex column of each support frame module is arranged on the pivot seat of the corresponding support frame, extends from the corresponding pivot seat to the direction of the elastic convex part of the corresponding positioning module and can be positioned by the elastic convex part.

Particularly, the positioning module of each supporting device is also provided with a pivoting hole which is arranged on the fixed body and can be used for pivotally connecting the pivoting shafts of the corresponding supporting frame modules.

In particular, the frame further comprises a blocking member disposed on an inner side of one side plate thereof and capable of blocking a bottom wall of the frame, wherein the bottom wall of the frame is adjacent to and parallel to the base plate of the frame when the frame is in the retracted position, and the bottom wall abuts against the blocking member to prevent the bottom wall from moving toward the base plate.

In particular, each connecting wall of the frame unit is provided with a transportation locking hole, and the rack further comprises two transportation locking pieces which respectively penetrate through the side plates and respectively correspond to the transportation locking holes of the connecting walls, and each transportation locking piece can be detachably locked into the corresponding transportation locking hole.

Compared with the prior art, the server system of the utility model drives the frame to move between the folding position and the replacing position by the connecting wall which is correspondingly linked by the supporting frame module in a matched and moving way, when the hard disk arranged in the frame is to be replaced or maintained, only the first side of the bottom wall of the frame is applied with the external force in the direction away from the substrate and the supporting frame of the supporting frame module is pivoted, and the limit convex column of each supporting frame module is moved towards the direction of the second groove part of the corresponding elastic body so as to drive the frame to move and tilt towards the direction away from the substrate. And when the hard disk is at the replacement position, each limiting convex column is blocked and positioned at the second groove part of the corresponding elastic body, and the first side of the bottom wall is inclined and tilted towards the direction away from the substrate, so that the hard disk to be replaced and maintained can be pulled away from the corresponding frame by a user, and the operations of conveniently and rapidly extracting and replacing the hard disk and carrying out subsequent maintenance are effectively achieved.

Drawings

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

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

FIG. 2 is a perspective view illustrating a connection relationship between a frame of a frame unit of a data storage device and two supporting devices in the embodiment;

FIG. 3 is a partial exploded view illustrating the connection of a positioning module of one of the support devices of the frame unit to a support frame module in this embodiment;

FIG. 4 is a partial perspective view, illustrating FIG. 3 with the assistance of another view;

FIG. 5 is a side view illustrating the frame of the frame unit in a collapsed position in this embodiment;

FIG. 6 is a side view illustrating the frame of the frame unit in a replacement position in this embodiment;

FIG. 7 is a schematic side view of a portion of the frame unit of FIG. 6, illustrating the combination of an elastic protrusion of a positioning module of one of the supporting devices and a limiting protrusion of the corresponding supporting frame module; a kind of electronic device with high-pressure air-conditioning system

Fig. 8 is a perspective view, and the fig. 6 is assisted in explaining it from another view.

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 a server system of the present utility model includes a rack 1 and a data storage device 2 disposed in the rack 1.

The frame 1 includes a base plate 11, and two side plates 12 extending from opposite sides of the base plate 11 in a direction away from the base plate 11. The data storage device 2 comprises a frame 5 for accommodating a plurality of hard disks 3, and two supporting devices 6 corresponding to the side plates 12 and respectively positioned on two opposite sides of the frame 5 and matched with each other to drive the frame 5 to pivot.

The frame 5 has a bottom wall 51 adjacent to the base plate 11 of the frame 1, two connecting walls 52 extending from opposite sides of the bottom wall 51 in a direction away from the bottom wall 51 and the base plate 11, and a back plate 53 connecting the bottom wall 51 and the connecting walls 52. The bottom wall 51 has a first side 511 remote from the back plate 53 and a second side 512 proximate to the back plate 53. The supporting devices 6 are respectively located on the outer side surfaces of the connecting walls 52 of the frame 5 and are close to the back plate 53. Each supporting device 6 has a positioning module 61 disposed on the corresponding side plate 12, and a supporting frame module 62 disposed on at least one of the corresponding connecting wall 52 and the bottom wall 51 and pivoted to the positioning module 61. Each positioning module 61 has a resilient body 615, and each resilient body 615 has a first recess 616 and a second recess 617. In the present embodiment, the first groove portion 616 and the second groove portion 617 of each elastic body 615 can be regarded as a limiting unit, but not limited thereto, and the limiting unit can be designed according to practical requirements and also can include a plurality of groove portions. Each supporting frame module 62 has a supporting frame 621 disposed on at least one of the corresponding connecting wall 52 and the bottom wall 51, a pivot shaft 624 extending from the supporting frame 621 toward the corresponding positioning module 61 and pivotally connecting to the corresponding positioning module 61, and a limiting protrusion 625 extending from the supporting frame 621 toward the elastic body 615 of the corresponding positioning module 61 and being limited by one of the first groove 616 and the second groove 617. The limiting boss 625 of each supporting frame module 62 is movably limited to one of the corresponding first groove portion 616 and the corresponding second groove portion 617. In short, the positioning module 61 of each supporting device 6 is connected to the side wall of the frame 5, and the supporting frame module 62 of each supporting device 6 is pivoted to the corresponding positioning module 61 through the pivot shaft 624, so that the supporting frame module 62 can be pivotally coupled to at least one of the connecting wall 52 and the bottom wall 51 of the frame 5 to pivot relative to the pivot shaft 624, and further drive the frame 5 to pivot relative to the pivot shaft 624.

The supporting frame module 62 is coupled to at least one of the connecting wall 52 and the bottom wall 51 to pivot the frame 5 between a retracted position and a replacement position. When in the retracted position, the bottom wall 51 of the frame 5 is adjacent to and parallel to the substrate 11 of the rack 1, and the limiting posts 625 of each supporting frame module 62 are blocked and positioned in the corresponding first groove 616. When the frame 5 of the frame unit is subjected to an external force in a direction away from the substrate 11, and the support frame 621 of the support frame module 62 is pivoted and drives at least one of the connecting wall 52 and the bottom wall 51 to rotate relative to the pivot shaft 624, the limiting boss 625 of each support frame module 62 moves towards the corresponding second groove 617 and simultaneously lifts the frame 5 away from the substrate 11, the distance between the first side 511 of the bottom wall 51 and the substrate 11 is greater than the distance between the second side 512 of the bottom wall 51 and the substrate 11, and in the replacement position, the limiting boss 625 of each support frame module 62 is blocked and positioned in the corresponding second groove 617, and the first side 511 of the bottom wall 51 is inclined and lifted towards a direction away from the substrate 11, so that the hard disk 3 can be pulled away from the corresponding frame 5. For example, the first side 511 of the bottom wall 51 of the frame 5 is forced by the external force in the direction away from the base plate 11, that is, the user pulls up the first side 511 of the bottom wall 51 of the frame 5, and makes the support frame module 62 pivotally drive the connecting wall 52 of the frame 5 to move and drive the frame 5, but not limited thereto, the frame 5 can be pivoted away from the base plate 11, that is, the user can directly apply a force at any force applying point of the frame 5, for example, the top wall (not numbered) of the frame 5 corresponds to the relative position of the first side 511 of the bottom wall 51 or applies an external force simultaneously to the top wall and the portion of the bottom wall 51 close to the first side 511 of the bottom wall 51, but not limited thereto, as long as an external force in the direction away from the base plate 11 is applied to the side of the frame 5 close to the first side 511 of the bottom wall 51 to disengage the limit stud, and make the support frame module 62 pivotally drive the connecting wall 52 of the frame 5 to pivot relative to pivot 624 and drive the connecting wall 52 of the frame 5 to pivot away from the base plate 11. In the process of moving the frame 5 away from the substrate 11, the distance between the first side 511 of the bottom wall 51 and the substrate 11 is greater than the distance between the second side 512 of the bottom wall 51 and the substrate 11, that is, the tilting height of the first side 511 of the bottom wall 51 is greater than the height of the second side 512, so that in the replacement position, as shown in fig. 6, the first side 511 of the bottom wall 51 is tilted away from the substrate 11 and the bottom wall 51 is tilted away from the substrate 11 from the second side 512 toward the first side 511, so that the hard disk 3 can be pulled away from the corresponding frame 5.

Referring to fig. 1 to 8, when a user wants to replace or repair any hard disk 3 in the frame 5, he pulls the first side 511 of the bottom wall 51 of the frame 5 by hand, at this time, the support frame module 62 pivots relative to the positioning module 61 to rotate the connecting wall 52 and synchronously make the limiting protrusion 625 limited in the corresponding first groove 616 move over the corresponding elastic protrusion 611 against the corresponding second groove 617, so that the frame 5 moves away from the substrate 11 and lifts, wherein the elastic protrusion 611 is located between the first groove 616 and the second groove 617. When the first side 511 of the bottom wall 51 of the frame 5 of the frame unit is pulled to the replacement position, the bottom wall 51 is tilted away from the substrate 11, and the bottom wall 51 is tilted away from the substrate 11 from the second side 512 to the first direction, and the limiting posts 625 of the supporting frame module 62 are blocked and positioned in the corresponding second grooves 617, so that the frame 5 is in a fixed tilted state as shown in fig. 6, at this time, the user can directly withdraw the hard disk 3 to be maintained from the frame 5 and directly perform replacement operation, thereby reducing the tedious actions of maintenance and disassembly, effectively saving time and improving work efficiency. In the present embodiment, the user pulls up the first side 511 of the bottom wall 51 of the frame 5 and moves the plate to the replacement position, so that the subsequent replacement operation can be performed, but the present utility model is not limited thereto, and the user may apply force directly to any force application point of the frame 5, so long as the frame 5 can be rotated to the replacement position. When the user changes the hard disk 3 to be maintained, the user only needs to apply force to the frame 5 in the direction towards the substrate 11, and the support frame module 62 pivots to drive the connecting wall 52 to move, and the support frame module 62 pivots relative to the positioning module 61 to drive the connecting wall 52 to rotate and synchronously drive the limiting boss 625 limited in the corresponding second groove 617 to abut against the corresponding elastic boss 611 in the direction towards the corresponding first groove 616 and pass over the corresponding elastic boss 611, so that the frame 5 moves in the direction towards the substrate 11 and reaches the retracted position, and at this time, the limiting boss 625 is limited in the first groove 616.

By means of the design that the supporting frame modules 62 are matched to move and can be correspondingly linked to the connecting walls 52 to drive the frame 5 to move between the folding position and the replacing position, when the hard disk 3 installed in the frame 5 is to be replaced or maintained, only the first side 511 of the bottom wall 51 of the frame 5 is required to apply the external force in the direction away from the substrate 11 and enable the supporting frame 621 of the supporting frame modules 62 to pivot, and the limiting convex column 625 of each supporting frame module 62 is enabled to move towards the direction of the second groove portion 617 of the corresponding elastic body 615 to drive the frame 5 to move and tilt away from the substrate 11. When the hard disk 3 is moved to the replacement position, each of the limiting posts 625 is blocked and positioned in the corresponding second groove portion 617 of the elastic body 615, and the first side 511 of the bottom wall 51 is tilted away from the substrate 11, so that an opening (not shown) of the frame 5 is not blocked, and at this time, the corresponding frame 5 can be pulled out by a user from the opening by the hard disk 3 to be replaced, thereby effectively achieving the operations of conveniently and rapidly extracting, replacing and subsequently maintaining the hard disk 3.

It should be specifically noted that the positioning module 61 of each supporting device 6 further has a fixing body 614 connected to the corresponding side plate 12, and each elastic body 615 is disposed on the fixing body 614. Each elastic body 615 further has an elastic protrusion 611 connecting the corresponding first groove portion 616 and the second groove portion 617. Each elastic protrusion 611 has a first positioning side 612 connected to the corresponding first groove portion 616 and a second positioning side 613 connected to the corresponding second groove portion 617. When in the retracted position, the bottom wall 51 of the frame 5 is adjacent to and parallel to the substrate 11 of the frame 1, and the limiting boss 625 of each supporting frame module 62 is blocked by the first positioning side 612 of the elastic protrusion 611 and is limited by the corresponding first groove 616; in the replacement position, the bottom wall 51 is tilted away from the substrate 11, and the limiting protrusion 625 of each supporting frame module 62 blocks the second positioning side 613 of the elastic protrusion 611 and is limited in the corresponding second groove 617. Further, the first groove portion 616 of the elastic body 615 of the positioning module 61 of each supporting device 6 is cooperatively connected with the first positioning side 612 of the corresponding elastic protrusion 611, and the second groove portion 617 is cooperatively connected with the second positioning side 613 of the corresponding elastic protrusion 611, so that the limiting protrusion 625 of each supporting frame module 62 is blocked by the first positioning side 612 of the elastic protrusion 611 and is further limited by the corresponding first groove portion 616 when in the retracted position; when moving to the replacement position, the limiting protrusion 625 of each supporting frame module 62 blocks the second positioning side 613 of the elastic protrusion 611 and is further limited to the corresponding second groove 617, so as to assist in positioning each supporting frame module 62 in the replacement position. In particular, in the present embodiment, the support frame 621 of the support frame module 62 of each support device 6 has a pivot seat 622 disposed on the bottom wall 51 of the frame 5, and a support arm 623 extending from the pivot seat 622 toward the corresponding connection wall 52 and connected to the corresponding connection wall 52. The support arm 623 of each support bracket 621 is secured to the corresponding connecting wall 52. That is, the supporting arm 623 of the supporting frame 621 is connected to the corresponding connecting wall 52, and the pivoting seat 622 of the supporting frame 621 drives the supporting arm 623 and the connecting wall 52 to pivot, so as to drive the frame 5, but not limited thereto. Incidentally, in the present embodiment, the pivot shaft 624 of the support frame module 62 of each support device 6 is disposed on the pivot seat 622 of the corresponding support frame 621, and extends from the corresponding pivot seat 622 toward the fixed body 614 of the corresponding positioning module 61, and is pivoted on the corresponding fixed body 614, but not limited thereto. The limiting protrusion 625 of each supporting frame module 62 is disposed on the pivot seat 622 of the corresponding supporting frame 621, and extends from the corresponding pivot seat 622 toward the corresponding elastic body 615 of the corresponding positioning module 61, and can be positioned by the first groove 616 and the second groove 617 of the elastic body 615, but not limited thereto. In particular, in the present embodiment, the positioning module 61 of each supporting device 6 further has a pivot hole 618 disposed on the fixing body 614 for pivotally connecting the pivot shaft 624 of the corresponding supporting frame module 62. In short, the support frame module 62 of each support device 6 is fixedly disposed on the pivot seat 622 of the corresponding support frame 621 through the pivot shaft 624, and the pivot seat 622 extends toward the pivot hole 618 of the corresponding positioning module 61 and is pivoted to the corresponding pivot hole 618, so that the pivot seat 622 of the support frame 621 can pivot to drive the support arm 623 and drive the connecting wall 52 to move, thereby driving the frame 5, but not limited thereto.

In addition, referring to fig. 2, 3, 4, 5, 6 and 7, in the present embodiment, the supporting frame module 62 of each supporting device 6 further has a blocking protrusion 626 (see fig. 4 and 7) extending from the supporting frame 621 toward the corresponding positioning module 61. Each supporting device 6 further has a locking module 63 for locking the corresponding positioning module 61 to the corresponding side plate 12, each locking module 63 has two first locking members 631 penetrating the corresponding side plate 12 and locking the fixing body 614 of the corresponding positioning module 61 to the corresponding side plate 12, and a second locking member 632 penetrating the corresponding side plate 12 and locking the corresponding fixing body 614 to the corresponding side plate 12, and capable of blocking the blocking protrusion 626 of the corresponding supporting frame module 62. In this embodiment, when the first side 511 of the bottom wall 51 of the frame 5 of the frame unit is subjected to the external force in the direction away from the base plate 11 and the support bracket 621 is pivoted to rotate the connecting wall 52, the first side 511 of the bottom wall 51 is tilted and tilted away from the base plate 11 and moved to the replacement position, and at this time, the blocking boss 626 of each support bracket module 62 is blocked by the second locking member 632 of the corresponding locking module 63 (see fig. 4 and 7). In other words, when the first side 511 of the bottom wall 51 of the frame 5 is pulled and the support frame module 62 is pivoted to the replacement position and the connection wall 52 of the frame 5 is rotated in linkage, the blocking posts 626 of the support frame module 62 are respectively abutted against the second locking members 632 of the corresponding locking modules 63 and blocked, and at this time, the first side 511 of the bottom wall 51 of the frame 5 is pulled upwards again, and the blocking posts 626 of the support frame module 62 are respectively blocked by the second locking members 632 of the corresponding locking modules 63, so that the support frame module 62 cannot be driven to pivot, and the problem of excessive overturning of the frame 5 caused by excessive pulling of the frame 5 can be effectively avoided, but the utility model is not limited thereto. In contrast, in the present embodiment, the frame 1 further includes a blocking member 13 disposed on the inner side of one of the side plates 12 and capable of blocking the bottom wall 51 of the frame 5, and in the retracted position, the bottom wall 51 of the frame 5 is adjacent to and parallel to the base plate 11 of the frame 1, and the bottom wall 51 abuts against the blocking member 13 such that the bottom wall 51 cannot move toward the base plate 11 any more. In other words, when the user presses down the frame 5 and pivots the frame 5 from the replacement position to the folding position, the stop member 13 of the frame 1 stops the bottom wall 51 of the frame 5 as shown in fig. 5, so that the problem that the frame 5 is excessively pressed down can be avoided, and the stop member 13 has the function of supporting the bottom wall 51 of the frame 5 in an auxiliary manner, but not limited thereto.

Incidentally, in the present embodiment, each of the connecting walls 52 of the frame 5 of the frame unit has a transport locking hole (not shown). The frame 1 further includes two transport locking members (not shown) respectively penetrating the side plates 12 and respectively corresponding to the transport locking holes of the connecting wall 52. Each transport locking piece can be detachably locked into the corresponding transport locking hole. In short, only each transport locking member is locked and combined with each transport locking hole of the frame 5, and the frame 5 is fixed on the rack 1, so that damage of scratch or deformation caused by impact of the frame 5 on the upper cover of the rack 1 due to vibration or impact generated in the process that the server system needs to carry or integrally move and transport can be avoided.

In summary, in the server system of the present utility model, by the design that the supporting frame modules 62 are matched to move and can be linked to the corresponding connecting wall 52 to drive the frame 5 to move between the folding position and the replacing position, when the hard disk 3 installed in the frame 5 is to be replaced or repaired, only the first side 511 of the bottom wall 51 of the frame 5 is required to apply an external force in a direction away from the substrate 11 and pivot the supporting frame 621 of the supporting frame module 62, and the limiting boss 625 of each supporting frame module 62 is moved in a direction of the second groove portion 617 of the corresponding elastic body 615 to drive the frame 5 to move and tilt in a direction away from the substrate 11. When the hard disk 3 is moved to the replacement position, each limiting boss 625 is blocked and positioned in the second groove portion 617 of the corresponding elastic body 615, and the first side 511 of the bottom wall 51 is tilted and tilted away from the substrate 11, so that the hard disk 3 to be replaced and maintained can be pulled away from the corresponding frame 5 by a user, and the operations of conveniently and rapidly extracting and replacing the hard disk 3 and performing subsequent maintenance are achieved, thereby saving time and improving efficiency.

The foregoing is merely illustrative of the present utility model, and the present utility model is not limited thereto, and any person skilled in the art will readily recognize that variations or substitutions are within the scope of the present utility model. Therefore, the protection scope of the utility model is subject to the protection scope of the claims.

Claims (10)

1. A server system, comprising:

the rack comprises a base plate and two side plates which extend from two opposite sides of the base plate to a direction away from the base plate; a kind of electronic device with high-pressure air-conditioning system

The data storage device comprises a frame for accommodating a plurality of hard disks and two supporting devices which correspond to the side plates, are respectively positioned on two opposite sides of the frame and are matched with each other to drive the frame to pivot;

the frame is provided with a bottom wall adjacent to the base plate of the frame, two connecting walls extending from two opposite sides of the bottom wall to a direction away from the bottom wall and the base plate, and a backboard connecting the bottom wall and the connecting walls, wherein the bottom wall is provided with a first side away from the backboard;

each supporting device is provided with a positioning module connected with the corresponding side plate, a supporting frame module connected with at least one of the corresponding connecting wall and the bottom wall and pivoted with the positioning module, each positioning module is provided with an elastic body, each elastic body is provided with a first groove part and a second groove part, each supporting frame module is provided with a supporting frame connected with the corresponding connecting wall, a pivoting shaft connected with the supporting frame and pivoted with the corresponding positioning module, and a limiting convex column which extends from the supporting frame to the direction of the corresponding positioning module and can be limited by the elastic body, the limiting convex column of each supporting frame module can be movably limited in one of the first groove part and the corresponding second groove part of the corresponding elastic body, and the supporting frame module can be matched with one of the corresponding connecting wall and the bottom wall in a linkage mode to drive the frame to pivot between a folding position and a replacing position.

2. The server system according to claim 1, wherein, in the retracted position, the bottom wall of the frame is adjacent to and parallel to the base plate of the rack and the limit post catch of each support frame module is positioned in the corresponding first groove portion; when the frame of the frame unit is subjected to an external force in a direction away from the substrate, the support frames of the support frame modules are pivoted and interlocked with the connecting wall to rotate, the limit posts of each support frame module move in the direction of the corresponding second groove parts and synchronously tilt the frame in the direction away from the substrate, the distance between the first side of the bottom wall and the substrate is larger than the distance between the second side of the bottom wall and the substrate, and when the frame of the frame unit is in the replacement position, the limit posts of each support frame module are positioned in the corresponding second groove parts and tilt in the direction away from the substrate, so that the limit posts of each support frame module can be pulled away from the corresponding frame.

3. The server system according to claim 2, wherein the positioning module of each supporting device further has a fixing body disposed on the corresponding side plate, the elastic body of each positioning module is disposed on the fixing body, each elastic body further has an elastic protrusion connecting the first groove portion and the second groove portion, each elastic protrusion has a first positioning side connecting the corresponding first groove portion and a second positioning side connecting the corresponding second groove portion, and when in the retracted position, the bottom wall of the frame is adjacent to and parallel to the substrate of the frame and the limiting post of each supporting frame module is blocked on the first positioning side of the elastic protrusion and is limited on the corresponding first groove portion; when the elastic convex parts are at the replacement positions, the bottom wall tilts and tilts towards the direction away from the substrate, and the limiting convex columns of each support frame module block the second positioning sides of the elastic convex parts and are limited at the corresponding second groove parts.

4. The server system according to claim 3, wherein the support frame module of each support device further has a blocking boss extending from the support frame toward the corresponding positioning module, each support device further has a locking module for locking the corresponding positioning module to the corresponding side plate, each locking module has two first locking members penetrating the corresponding side plate and locking the fixing body of the corresponding positioning module to the corresponding side plate, and a second locking member penetrating the corresponding side plate and locking the corresponding fixing body to the corresponding side plate, and blocking the blocking boss of the corresponding support frame module.

5. The server system according to claim 4, wherein when the first side of the bottom wall of the frame unit is pivoted by the external force in the direction away from the base plate to move the connecting wall, the first side of the bottom wall is tilted up in the direction away from the base plate and moved to the replacement position, the blocking boss of each supporting frame module is blocked by the second locking member of the corresponding locking module.

6. A server system according to claim 3, wherein the support frame of the support frame module of each support device has a pivot seat disposed on the bottom wall of the frame, and a support arm extending from the pivot seat toward the corresponding connecting wall and connected to the corresponding connecting wall, and the support arm of each support frame is fixed to the corresponding connecting wall.

7. The server system according to claim 6, wherein the pivot shaft of the support frame module of each support device is disposed on the pivot seat of the corresponding support frame and extends from the corresponding pivot seat toward the direction of the fixed body of the corresponding positioning module, and is pivoted on the corresponding fixed body, and the limit boss of each support frame module is disposed on the pivot seat of the corresponding support frame and extends from the corresponding pivot seat toward the direction of the elastic boss of the corresponding positioning module and is positionable by the elastic boss.

8. The server system according to claim 7, wherein the positioning module of each supporting device further has a pivot hole disposed on the fixed body for pivotally connecting the pivot shafts of the corresponding supporting frame modules.

9. A server system according to claim 3, wherein the rack further comprises a stop member disposed on an inner side of one of the side plates and adapted to stop a bottom wall of the frame, wherein in the collapsed position, the bottom wall of the frame is adjacent to and parallel to the base plate of the rack, and the bottom wall abuts against the stop member such that the bottom wall is no longer movable in a direction of the base plate.

10. The server system according to claim 2, wherein each connecting wall of the frame unit has a transport locking hole, the rack further comprising two transport locking members respectively penetrating the side plates and respectively corresponding to the transport locking holes of the connecting walls, each transport locking member detachably locked into the corresponding transport locking hole.