CN109828642B - Server system - Google Patents
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- CN109828642B CN109828642B CN201711180972.3A CN201711180972A CN109828642B CN 109828642 B CN109828642 B CN 109828642B CN 201711180972 A CN201711180972 A CN 201711180972A CN 109828642 B CN109828642 B CN 109828642B
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- bracket
- hard disk
- rod body
- disk module
- support
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02D—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN INFORMATION AND COMMUNICATION TECHNOLOGIES [ICT], I.E. INFORMATION AND COMMUNICATION TECHNOLOGIES AIMING AT THE REDUCTION OF THEIR OWN ENERGY USE
- Y02D10/00—Energy efficient computing, e.g. low power processors, power management or thermal management
Abstract
The invention provides a server system, which comprises a rack, a fan unit and a data storage unit. The data storage unit comprises a first hard disk module, a frame module positioned between the first hard disk module and the fan unit, a second hard disk module arranged in the frame module, and a plurality of hard disks positioned in the second hard disk module. The frame module comprises two supporting devices. Each supporting device is provided with a first bracket, a telescopic unit and a second bracket. The second hard disk module is arranged on the second bracket. When the telescopic unit is driven by external force to move away from the first bracket, the second bracket is matched with the first bracket so as to drive the second hard disk module to move to a replacement position. When the hard disk is in the replacement position, the second brackets are respectively away from the corresponding first brackets, and the second hard disk module is positioned outside the rack, so that the hard disk in the second hard disk module can be extracted and replaced.
Description
Technical Field
The present invention relates to rack servers, and more particularly to a server system for facilitating maintenance and replacement.
Background
In a server system of a rack server, a certain 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.
In general, the accommodating space of the rack is divided into a motherboard area, a fan area and a hard disk storage unit area, and the hard disk storage units are sequentially installed in the required positions of the hard disk storage unit area, but in general, the hard disk storage unit area is only designed to be slightly larger than the space required by accommodating the hard disk storage units, so as to achieve the purpose of effectively utilizing the accommodating space in the rack. Therefore, the hard disk storage units are very close to each other, so that a user cannot stretch into the space between the hard disk storage units by hand, and when the hard disk storage units close to the wind sector are required to be maintained or replaced later, the user needs to take time and labor to sequentially detach the hard disk storage units far away from the wind sector one by one, so that the hard disk storage units close to the wind sector, which need to be maintained, can be replaced, and after the replacement is completed, the user still needs to repeatedly and sequentially put the hard disk storage units back one by one, which causes trouble and trouble to the user, has inconvenience and is very time-consuming, and needs to further study and improve.
Disclosure of Invention
The invention aims to provide a server system convenient to maintain and replace.
In order to solve the above technical problems, the server system of the present invention comprises a rack, a motherboard unit, a fan unit, and a data storage unit.
The motherboard unit, the fan unit and the data storage unit are all arranged in the rack, and the fan unit is positioned between the motherboard unit and the data storage unit.
The data storage unit comprises a first hard disk module, a frame module, a second hard disk module and a plurality of hard disks, wherein the first hard disk module is arranged in the frame and can move in a direction away from the fan unit, the frame module is arranged in the frame and positioned between the first hard disk module and the fan unit, the second hard disk module is detachably arranged in the frame module, and the hard disks are detachably combined in the second hard disk module. The frame module can move up and down relative to the frame and comprises supporting devices which are respectively arranged at two opposite sides of the frame and are positioned in the frame. Each supporting device is provided with a first bracket fixedly arranged on the frame, a telescopic unit pivoted on the first bracket, and a second bracket connected with the telescopic unit and capable of being driven by the telescopic unit to move up and down relative to the first bracket. The second hard disk module is arranged on the second bracket.
The second bracket is matched with the first bracket and can drive the second hard disk module to move between a folding position and a replacement position. When the second bracket is at the folding position, the second bracket is respectively close to the corresponding first bracket and the second hard disk module is positioned in the rack; when the second bracket is at the replacement position, the second bracket is respectively far away from the corresponding first bracket, and the second hard disk module is positioned outside the rack, and at the moment, the hard disk in the second hard disk module can be extracted and replaced. When the expansion unit moves away from the first bracket under the action of the external force of expansion, the second bracket is linked to move away from the first bracket, so that the second hard disk module is driven to move to the replacement position. When the telescopic unit moves towards the direction of the first bracket under the compression of external force, the second bracket is linked to move towards the direction of the first bracket, and the second hard disk module is driven to move to the folding position.
Compared with the prior art, the server system of the invention has the advantages that the second bracket can be driven by the telescopic unit to move up and down relative to the first bracket, so as to drive the second hard disk module to move between the folding position and the replacing position, and when the second hard disk module needs to be replaced or maintained, the second bracket is driven to move away from the first bracket by the external force of the telescopic unit, so as to drive the second hard disk module to move to the replacing position, thereby achieving the operation of conveniently and rapidly extracting and replacing the hard disks in the two hard disk modules and carrying out subsequent maintenance.
[ description of the drawings ]
Fig. 1 is a perspective view illustrating a first embodiment of the server system of the present invention.
Fig. 2 is a schematic perspective view, and is used to assist in explaining fig. 1.
Fig. 3 is a schematic side view illustrating a connection relationship among a first bracket, a telescopic unit, and a second bracket of a frame module in the first embodiment.
Fig. 4 is a schematic side view, which assists in explaining fig. 3.
Fig. 5 is a schematic perspective view illustrating a connection relationship between the first bracket, the telescopic unit, the second bracket and two elastic pivoting members in the first embodiment.
Fig. 6 is a perspective view illustrating a second embodiment of the server system of the present invention.
Fig. 7 is a schematic perspective view, and is used to assist in explaining fig. 6.
Fig. 8 is a schematic side view illustrating the connection relationship of a first bracket, a telescopic unit, and a second bracket of a frame module in the second embodiment.
Fig. 9 is a schematic side view, which assists in explaining fig. 8.
[ detailed description ] of the invention
Referring to fig. 1, 2 and 4, a first embodiment of the server system of the present invention includes a rack 1, a motherboard unit 2, a fan unit 3, and a data storage unit 4.
The motherboard unit 2, the fan unit 3 and the data storage unit 4 are all disposed in the rack 1, and the fan unit 3 is located between the motherboard unit 2 and the data storage unit 4.
The data storage unit 4 includes a first hard disk module 5 detachably disposed on the frame 1, a frame module 6 disposed in the frame 1 and located between the first hard disk module 5 and the fan unit 3, a second hard disk module 7 detachably disposed in the frame module 6, and a plurality of hard disks 71 detachably combined in the second hard disk module 7. The frame module 6 can move up and down relative to the frame 1, and comprises two supporting devices 61 respectively arranged at two opposite sides of the frame 1 and positioned in the frame 1, and two clamping devices 66 respectively used for clamping the supporting devices 61.
Each supporting device 61 has a first bracket 62 fixed on the frame 1, a telescopic unit 63 pivoted on the first bracket 62 and capable of moving up and down relative to the first bracket 62, and a second bracket 64 connected with the telescopic unit 63 and capable of moving up and down relative to the first bracket 62 driven by the telescopic unit 63. The second hard disk module 7 is locked on the second bracket 64. The second bracket 64 can be linked by the telescopic unit 63 to move up and down relative to the first bracket 62, so as to cooperatively drive the second hard disk module 7 to move between a retracted position and a replacement position. When in the retracted position, the second brackets 64 are respectively close to the corresponding first brackets 62 and enable the second hard disk module 7 to be positioned in the rack 1; in the replacement position, the second brackets 64 are away from the corresponding first brackets 62, and the second hard disk module 7 is located outside the rack 1, and at this time, the hard disk 71 in the second hard disk module 7 can be extracted and replaced.
It is noted that each first bracket 62 has a first chute 621. Each first chute 621 has a first closing end 622 and a first opening end 623 (see fig. 3). Each second bracket 64 has a second sliding slot 641 and a locking portion 647 extending toward the first hard disk module 5. Each second sliding slot 641 has a second folding end 642 and a second unfolding end 643.
Each telescopic unit 63 has a first rod 631 pivotally connected to the first bracket 62, and a second rod 633 pivotally connected to the second bracket 64. Each first rod 631 and the corresponding second rod 633 are connected in a cross pin joint manner, each first rod 631 is provided with a first limiting convex column 632 which can slidably penetrate through the corresponding second chute 641, and each second rod 633 is provided with a second limiting convex column 634 which can slidably penetrate through the corresponding first chute 621.
In detail, referring to fig. 2, 3 and 4, when the first rod 631 and the second rod 633 of the telescopic unit 63 approach the direction of the first bracket 62, the first limiting posts 632 and the second limiting posts 634 move in the directions of the corresponding second folding ends 642 and 622 respectively, and the second brackets 64 approach the directions of the corresponding first brackets 62 respectively, so as to drive the second hard disk module 7 to move to the folding position. In the retracted position, the first limiting posts 632 respectively abut against the corresponding second retraction ends 642, and the second limiting posts 634 respectively abut against the corresponding first retraction ends 622, such that the second brackets 64 respectively approach the corresponding first brackets 62 and the second hard disk module 7 is located in the frame 1. When the first rods 631 of the telescopic units 63 move in a direction away from the first brackets 62, the second rods 633 are synchronously linked (please refer to fig. 4, it is understood that, as a matter of course, the movement of the first rods 631 away from the first brackets 62 means that each first rod 631 pivots about a pivot point pivoted to the corresponding first bracket 62 and makes each first rod 631 pivot away from the corresponding first bracket 62, and synchronously links the corresponding second rods 633 away from the corresponding first bracket 62 as shown in fig. 4), and synchronously makes the first limiting posts 632 move in a direction of the corresponding second extending ends 643 and the second limiting posts 634 move in a direction of the corresponding first extending ends 623, and makes the second brackets 64 move in a direction away from the corresponding first brackets 62, respectively, so as to drive the second hard disk module 7 to move to the replacement position. In the replacement position, the first limiting posts 632 respectively abut against the corresponding second open ends 643, and the second limiting posts 634 respectively abut against the corresponding first open ends 623, so that the second hard disk module 7 is located outside the rack 1, and at this time, the hard disk 71 in the second hard disk module 7 can be extracted and replaced.
In addition, in the present embodiment, each locking device 66 has a pressing piece 67 pivoted on the outer side of the first bracket 62 of the corresponding supporting device 61, and a locking piece 68 elastically pivoted on the pressing piece 67 and capable of locking with the locking portion 647 of the corresponding second bracket 64. The frame 1 comprises a base plate 11, two side plates 12 extending from two opposite sides of the base plate 11 in a direction away from the base plate 11, and two holes 13 which are respectively arranged on the side plates 12 and correspond to the pressing pieces 67. The user can directly press the pressing member 67 through the hole 13. When in the retracted position, the second brackets 64 are respectively close to the corresponding first brackets 62, and the second hard disk module 7 is located in the frame 1, and at this time, the fastening members 68 are fastened on the corresponding fastening portions 647, so as to fasten the supporting device 61 in the frame 1.
In addition, it is specifically noted that each supporting device 61 further has two elastic pivoting members 65 (see fig. 5), and the elastic pivoting members 65 pivotally connect the corresponding first rod 631 and second rod 633 to the corresponding first bracket 62 and second bracket 64, respectively. When in use, the pressing member 67 is pressed first to separate the locking member 68 from the corresponding locking portion 647 (pressing the pressing member 67 and accumulating the elastic offset force to drive the locking member 68 to move, when the pressing force disappears, the locking member 68 returns to the previous position due to the elastic offset force, which is not described herein, and the first rod 631 and the second rod 633 are pivotally connected to the corresponding first bracket 61 and the second bracket 64, and when the locking portion 647 is not limited by the locking force of the locking member 68, the elastic pivot member 65 generates an expanded elastic offset force to enable the first rod 631 and the second rod 633 to move a lifting distance to a force applying position in a direction away from the first bracket 62, in this embodiment, the lifting distance is 20 millimeters (mm), so that a user can extend into the space in the frame 1, thereby facilitating the application of force and driving the second hard disk 7 to move to the position, and the second hard disk 633 can also move to the position, which is not limited by the elastic offset force applying position, i.e. the first rod 631 and the second rod 633 can move to the position, which is also be directly pivoted to the position with the second rod 633.
Then, the expansion unit 63 is applied with an external force to move the first rod 631 and the second rod 633 away from the first bracket 62, for example: the second bracket 64 or the first rod 631 and the second rod 633 are moved upward by hand, and the second bracket 64 is driven to move away from the first bracket 62, so as to drive the second hard disk module 7 to move to the replacement position, but not limited thereto, the second hard disk module 7 may be lifted upward by hand directly, and the first rod 631 and the second rod 633 may be moved upward and simultaneously cooperate to drive the second bracket 64 to move away from the first bracket 62, so as to move the second hard disk module 7 to the replacement position. When the second hard disk module 7 is at the replacement position, a user can directly extract and replace the hard disk 71 which needs to be maintained in the second hard disk module 7, and the second hard disk module 7 can be replaced without sequentially detaching the first hard disk module 5, so that the complicated actions of maintenance and disassembly are reduced, the time is effectively saved, and the working efficiency is improved. Finally, when the replacement of the second hard disk module 7 is completed, the second bracket 64 is moved toward the first bracket 62 by interlocking the expansion unit 63 with a compressive external force, for example: the second bracket 64 or the first lever 631 and the second lever 633 are moved downward by hand, so as to move the second bracket 64 in the direction of the first bracket 62, and further drive the second hard disk module 7 to move to the retracted position, or directly press down the second hard disk module 7 by hand, so that the first lever 631 and the second lever 633 move downward and simultaneously cooperate with and move the second bracket 64 in the direction of the first bracket 62, and further move the second hard disk module 7 to the retracted position, and the elastic pivoting member 65 accumulates elastic biasing force, in addition, during the movement of the second bracket 64 to the retracted position, the flange (not shown) of the locking portion 647 pushes the corresponding locking member 68 first, and the locking member 68 is slightly pivoted outward without blocking the downward movement of the corresponding locking portion 647, so that the second bracket 64 can move downward, and the locking member 68 is moved inward, and the elastic pivoting member is released from the locking member 64 when the second bracket 64 moves to the retracted position, and the elastic pivoting member 64 is moved inward, and the locking member is released from the corresponding locking member 68.
By means of the design that the second bracket 64 can be driven by the telescopic unit 63 to move up and down relative to the first bracket 62, so as to drive the second hard disk module 7 to move between the folding position and the replacing position, when the second hard disk module 7 needs to be replaced or maintained, only the telescopic unit 63 is required to exert an external force and drive the second bracket 64 to move in a direction away from the first bracket 62, so as to drive the second hard disk module 7 to move to the replacing position, thereby facilitating the operation of extracting, replacing and subsequent maintenance of the second hard disk module 7.
Referring to fig. 6, 7 and 9, a second embodiment of the server system of the present invention is substantially the same as the first embodiment except that: the first bracket 62 of each support device 61 of the frame module 6 has a third slide 624. Each third runner 624 has a third folding end 625 and a third unfolding end 626. Each second bracket 64 has a fourth chute 644. Each fourth chute 644 has a fourth converging end 645 and a fourth diverging end 646. Opposite ends of each first rod 631 are respectively pivoted on the corresponding first bracket 62 and second bracket 64. Each second rod 633 has a third limiting protrusion 635 slidably passing through the corresponding third chute 624, and a fourth limiting protrusion 636 slidably passing through the corresponding fourth chute 644. Each first rod 631 and each second rod 633 are connected in a cross pivot manner.
In detail, referring to fig. 7, 8 and 9, when the first rod 631 of the telescopic unit 63 approaches the first bracket 62, the third limiting posts 635 of the second rod 633 are synchronously moved to approach the corresponding third folding ends 625 and the fourth limiting posts 636 of the second rod 633 are moved to approach the corresponding fourth folding ends 645, and simultaneously the second bracket 64 is driven to approach the corresponding first bracket 62 in a direction away from the first hard disk module 5, so that the second hard disk module 7 is moved to the folding position. When in the retracted position, the third limiting posts 635 respectively abut against the corresponding third retraction ends 625, and the fourth limiting posts 636 respectively abut against the corresponding fourth retraction ends 645, and the second brackets 64 are respectively close to the corresponding second brackets 64, so that the second hard disk module 7 is located in the frame 1.
When the first rods 631 of the telescopic units 63 move away from the first brackets 62 (as shown in fig. 7, it is to be understood that, when the first rods 631 move away from the first brackets 62, each first rod 631 is pivoted to the pivot point of the corresponding first bracket 62 and moves away from the corresponding first bracket 62, and synchronously moves the corresponding second rods 633 away from the corresponding first bracket 62 as shown in fig. 7), the third limit posts 635 of the second rods 633 are simultaneously moved closer to the corresponding third open ends 626 than the fourth limit posts 636 of the second rods 633 are to the corresponding fourth open ends 646, and simultaneously the second brackets 64 are driven to move toward the first hard disk module 5 and away from the corresponding first brackets 62, so that the second hard disk module 7 moves toward the replacement position. And in the replacement position, the third limiting protruding columns 635 respectively abut against the corresponding third open ends 626, and the second limiting protruding columns 634 respectively abut against the corresponding fourth open ends 646, so that the second hard disk module 7 is located outside the frame 1, and at this time, the hard disk 71 in the second hard disk module 7 can be extracted and replaced.
In addition, it is specifically noted that each supporting device 61 further has two elastic pivoting members 65, and the elastic pivoting members 65 pivotally connect two opposite ends of the corresponding first rod 631 to the corresponding first bracket 62 and second bracket 64, respectively. When in use, the pressing member 67 is pressed first to separate the locking member 68 from the corresponding locking portion 647, since the opposite ends of each first rod 631 are pivotally connected to the corresponding first bracket 62 and second bracket 64, and when the locking portion 647 is not limited by the locking force of the locking member 68, the elastic pivot member 65 generates an expanding elastic biasing force to move the first rod 631 an ascending distance away from the first bracket 62, and simultaneously move the third limit protrusion 635 of the second rod 633 closer to the corresponding third expanding end 626 and the fourth limit protrusion 636 of the second rod 633 closer to the corresponding fourth expanding end 646, so as to increase the space in which the user can extend into the rack 1.
Next, the telescopic unit 63 is moved away from the first bracket 62 by an external force, for example: the first lever 631 is moved upwards by hand and simultaneously moves the third limiting boss 635 of the second lever 633 towards the corresponding third expanding end 626, and the fourth limiting boss 636 of the second lever 633 is moved towards the corresponding fourth expanding end 646, so as to move the second bracket 64 towards the first hard disk module 5 and away from the corresponding first bracket 62, and further drive the second hard disk module 7 to move to the replacement position, or the first lever 631 can be moved upwards by hand and simultaneously move the third limiting boss 635 of the second lever 633 towards the corresponding third expanding end 646, and the fourth limiting boss 636 of the second lever 633 is moved towards the corresponding fourth expanding end 646, and simultaneously move the second bracket 64 towards the first hard disk module 5 and away from the corresponding first bracket 62, so that the second hard disk module 7 can be replaced. When the second hard disk module 7 is at the replacement position, a user can directly extract and replace the hard disk 71 which needs to be maintained in the second hard disk module 7, and the second hard disk module 7 can be replaced without sequentially detaching the first hard disk module 5, so that the complicated actions of maintenance and disassembly are reduced, the time is effectively saved, and the working efficiency is improved. Finally, when the replacement of the second hard disk module 7 is completed, the telescopic unit 63 is moved in the direction of the first bracket 62 by applying a compressive external force, for example: the first lever 631 is moved downward by hand and synchronously moves the third limiting boss 635 of the second lever 633 toward the corresponding third folding end 625, and moves the second bracket 64 away from the first hard disk module 5 and toward the corresponding first bracket 62, so as to drive the second hard disk module 7 to move to the folding position, or directly press down the second hard disk module 7 by hand, so that the first lever 631 moves downward and synchronously moves the third limiting boss 635 of the second lever 633 toward the corresponding third folding end 626, and moves the fourth limiting boss 636 of the second lever 633 toward the corresponding fourth folding end 646, and simultaneously moves the second bracket 64 away from the first hard disk module 5 and toward the corresponding first bracket 62, so that the second clamp 7 moves to the locking position, and thus the elastic member 647 is biased to the locking position, and the elastic member is pivoted to the locking member 68.
In summary, in the server system of the present invention, the second bracket 64 can be driven by the telescopic unit 63 to move up and down relative to the first bracket 62, so as to drive the second hard disk module 7 to move between the retracted position and the replacement position, so that when the second hard disk module 7 needs to be replaced or maintained, only the telescopic unit 63 is required to drive the second bracket 64 to move in a direction away from the first bracket 62, and drive the second hard disk module 7 to move to the replacement position, thereby facilitating the user to rapidly extract and replace the hard disk 71 in the second hard disk module 7, and saving time and improving efficiency.
The foregoing is merely illustrative of the present invention, and the present invention 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 invention. Therefore, the protection scope of the invention is subject to the protection scope of the claims.
Claims (7)
1. A server system, comprising:
a frame;
a motherboard unit disposed in the frame;
a fan unit arranged in the frame;
a data storage unit disposed in the frame;
the fan unit is positioned between the motherboard unit and the data storage unit, the data storage unit comprises a first hard disk module arranged in the rack, a frame module arranged in the rack and positioned between the first hard disk module and the fan unit and capable of moving up and down relative to the rack, a second hard disk module arranged in the frame module in a detachable manner, and a plurality of hard disks combined in the second hard disk module in a detachable manner, the frame module comprises two supporting devices which are respectively arranged at two opposite sides of the rack and positioned in the rack, each supporting device is provided with a first bracket fixedly arranged on the rack, a telescopic unit pivoted on the first bracket, and a second bracket which is connected with the telescopic unit and can be driven by the telescopic unit to move up and down relative to the first bracket, each first bracket is provided with a groove body, each telescopic unit is provided with a first rod body arranged on the first bracket, and a second rod body which can penetrate through the groove body of the first bracket in a detachable manner, each first rod body and the second rod body is correspondingly connected with the second rod body in a crossing manner, when the second rod body is pivoted on the second bracket and the second bracket is pivoted on the second bracket, and the first bracket and the second rod body is correspondingly pivoted on the second bracket, and the second bracket is pivoted on the position of the second bracket when the first bracket and the second rod body is pivoted with the second bracket; when the second bracket is at the replacement position, the second bracket is respectively far away from the corresponding first bracket, and the second hard disk module is positioned outside the rack, and at the moment, the hard disk in the second hard disk module can be extracted and replaced.
2. The server system according to claim 1, wherein: the groove body of the first support of each supporting device is a first chute, each first chute is provided with a first closing end and a first unfolding end, each second support is provided with a second chute, each second chute is provided with a second closing end and a second unfolding end, each first rod body of each telescopic unit is provided with a first limit convex column penetrating through the corresponding second chute in a sliding manner, each second rod body is provided with a second limit convex column penetrating through the corresponding first chute in a sliding manner, each second rod body is pivoted on the second support, when the first rod body and the second rod body of the telescopic unit are simultaneously close to the directions of the first support, the first limit convex columns respectively move towards the directions of the corresponding second closing ends, the second hard disk supports respectively move towards the directions of the corresponding first support, and then the second hard disk supports respectively move towards the second closing ends, and the second hard disk supports respectively move towards the corresponding second closing ends; when the first rod body and the second rod body of the telescopic unit move in the direction away from the first support simultaneously, the first limiting convex columns move in the direction of the corresponding second unfolding ends respectively and the second limiting convex columns move in the direction of the corresponding first unfolding ends respectively, the second support moves in the direction away from the corresponding first support respectively, the second hard disk module moves to the replacement position, and when the second hard disk module moves to the replacement position, the first limiting convex columns respectively abut against the corresponding second unfolding ends, the second limiting convex columns respectively abut against the corresponding first unfolding ends, and the second hard disk module is located outside the frame, and at the moment, the hard disk in the second hard disk module can be extracted and replaced.
3. The server system according to claim 2, wherein: each supporting device is also provided with two elastic pivoting pieces, and the elastic pivoting pieces pivot the first rod body and the second rod body on the first bracket and the second bracket.
4. The server system according to claim 1, wherein: the groove body of the first support of each supporting device is a third sliding groove, each third sliding groove is provided with a third closing end and a third opening end, each second support is provided with a fourth sliding groove, each fourth sliding groove is provided with a fourth closing end and a fourth opening end, two opposite ends of each first rod body of each telescopic unit are respectively pivoted on the corresponding first support and the corresponding second support, each second rod body is provided with a third limit convex column penetrating the corresponding third sliding groove in a sliding way and a fourth limit convex column penetrating the corresponding fourth sliding groove in a sliding way, when the first rod body of the telescopic unit approaches to the direction of the first support, the third limit convex column of the second rod body moves towards the direction of the corresponding third closing end respectively, and simultaneously drives the second support to move towards the hard disk in the direction of the corresponding fourth closing end respectively, and simultaneously drives the second support to move towards the position of the corresponding second support and the corresponding second support to the second closing end respectively; when the first rod body of the telescopic unit moves in the direction away from the first support, the third limiting convex columns of the second rod body move in the direction of the corresponding third unfolding ends respectively and the fourth limiting convex columns of the second rod body move in the direction of the corresponding fourth unfolding ends respectively, and meanwhile the second support is driven to move towards the direction close to the first hard disk module and away from the corresponding first support, so that the second hard disk module moves towards the replacement position, and when the second hard disk module is at the replacement position, the third limiting convex columns respectively abut against the corresponding third unfolding ends, the fourth limiting convex columns respectively abut against the corresponding fourth unfolding ends, the second hard disk module is located outside the frame, and at the moment, the hard disk in the second hard disk module can be extracted and replaced.
5. The server system according to claim 4, wherein: each supporting device is also provided with two elastic pivoting pieces, and the two opposite ends of the first rod body are pivoted on the corresponding first bracket and the corresponding second bracket by the elastic pivoting pieces.
6. The server system according to claim 3 or 5, characterized in that: each second bracket of the frame module is also provided with a clamping part extending towards the direction of the first hard disk module, the frame module also comprises two clamping devices which are respectively arranged on the first brackets and are used for clamping the clamping parts of the supporting devices, each clamping device is provided with a pressing piece pivoted on the outer side of the corresponding first bracket, and a clamping piece which is elastically pivoted on the pressing piece and can be clamped on the corresponding clamping part.
7. The server system according to claim 6, wherein: the rack comprises a base plate, two side plates and holes, wherein the side plates extend from two opposite sides of the base plate to the direction away from the base plate, and the holes are respectively formed in the side plates and correspond to the pressing pieces.
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| CN201711180972.3A CN109828642B (en) | 2017-11-23 | 2017-11-23 | Server system |
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| CN201711180972.3A CN109828642B (en) | 2017-11-23 | 2017-11-23 | Server system |
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| CN109828642A CN109828642A (en) | 2019-05-31 |
| CN109828642B true CN109828642B (en) | 2023-07-18 |
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| Publication number | Priority date | Publication date | Assignee | Title |
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| CN112558706B (en) * | 2019-09-10 | 2024-03-29 | 环达电脑(上海)有限公司 | Server system |
| CN112750473B (en) * | 2019-10-30 | 2022-05-27 | 英属维京群岛商联存系统股份有限公司 | Drawing mechanism of storage device |
| CN111198602B (en) * | 2020-01-15 | 2021-06-29 | 苏州市星际云通区块链科技有限公司 | Hard disk mounting structure and server |
| CN111278252B (en) * | 2020-03-19 | 2021-09-10 | 英业达科技有限公司 | Server device |
Citations (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN201489427U (en) * | 2009-07-21 | 2010-05-26 | 英业达股份有限公司 | Server device with stretchable support arm |
| CN101963831A (en) * | 2009-07-21 | 2011-02-02 | 英业达股份有限公司 | Server device with storage array module |
Family Cites Families (12)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN201084080Y (en) * | 2007-06-26 | 2008-07-09 | 上海北大方正科技电脑系统有限公司 | Dismounting-free hard disk gallow computer cabinet |
| CN101482767A (en) * | 2008-01-10 | 2009-07-15 | 佛山市顺德区顺达电脑厂有限公司 | Computer case and computer device with multi-specification replaceable storage elements |
| CN201556142U (en) * | 2009-09-30 | 2010-08-18 | 勤诚兴业股份有限公司 | Server case |
| CN201576231U (en) * | 2009-12-28 | 2010-09-08 | 东莞市东方科技有限公司 | Drawing type hard disk fixing box device |
| TWI446862B (en) * | 2011-12-16 | 2014-07-21 | Wistron Corp | Fixing mechanism for fixing a data storage device and data storage module therewith |
| TWI472288B (en) * | 2012-08-06 | 2015-02-01 | Quanta Comp Inc | Server and drawer lifting device |
| CN103677159A (en) * | 2012-09-21 | 2014-03-26 | 英业达科技有限公司 | Storage server |
| TWM488170U (en) * | 2014-05-22 | 2014-10-11 | Super Micro Computer Inc | Server chassis capable of rotating and loading storage device |
| TWM496330U (en) * | 2014-10-31 | 2015-02-21 | Cao Zhi Guang | Removable hard disk storage device |
| CN106200818A (en) * | 2016-06-28 | 2016-12-07 | 英业达科技有限公司 | Server |
| CN206178595U (en) * | 2016-10-26 | 2017-05-17 | 刘亦凡 | Hard disk liftout attachment for external connection computer hard disk |
| CN106647966B (en) * | 2016-12-02 | 2019-09-17 | 英业达科技有限公司 | Server |
-
2017
- 2017-11-23 CN CN201711180972.3A patent/CN109828642B/en active Active
Patent Citations (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN201489427U (en) * | 2009-07-21 | 2010-05-26 | 英业达股份有限公司 | Server device with stretchable support arm |
| CN101963831A (en) * | 2009-07-21 | 2011-02-02 | 英业达股份有限公司 | Server device with storage array module |
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