CN217467594U - Hard disk bracket of server - Google Patents

Abstract

The application provides a server hard disk bracket, and relates to the technical field of servers. The server hard disk bracket includes: the bracket assembly is provided with an accommodating cavity and is configured to be detachably connected with the hard disk piece; the structure of at least one part of the plugging component is configured in the accommodating cavity, one end of the plugging component is configured to be hinged with the bracket component, and the other end of the plugging component is configured to be a free end; the unlocking assembly is at least partially structurally configured in the accommodating cavity and provided with a pressing part and an unlocking part, the unlocking part is configured to be locked with the free end, when the pressing part is pressed, the unlocking part is separated from the free end, and the plug assembly rotates relative to the bracket assembly. The hard disk drive is convenient to mount or dismount in the server chassis.

Description

Hard disk bracket of server

Technical Field

The application relates to the technical field of servers, in particular to a server hard disk bracket.

Background

The server is a computer providing services for other clients in the network, and is applied to the familiar internet service from the enterprise core, innovative big data service, weather forecast hpc (high Performance computing) high-Performance computing and the like without the support of a large-scale server.

In the related art, since the server needs to work continuously, it is required that the hard disk applied to the server supports the hot plug function.

SUMMERY OF THE UTILITY MODEL

An object of this application is to provide a server hard disk bracket, is favorable to the hard disk to install fast or dismantle in server machine case.

In order to achieve the purpose, the following technical scheme is adopted in the application:

the application provides a server hard disk bracket, includes: the bracket assembly is provided with an accommodating cavity and is configured to be detachably connected with the hard disk piece; the structure of at least one part of the plugging component is configured in the accommodating cavity, one end of the plugging component is configured to be hinged with the bracket component, and the other end of the plugging component is configured as a free end; the unlocking assembly is at least partially structurally configured in the accommodating cavity and is provided with a pressing part and an unlocking part, the unlocking part is configured to be locked with the free end, when the pressing part is pressed, the unlocking part is separated from the free end, and the plugging assembly rotates relative to the bracket assembly.

In the process of realizing the above, the bracket component is detachably connected with the hard disk piece and is provided with an accommodating cavity, the plug-in component is rotationally connected with the accommodating cavity, the unlocking component is connected with the accommodating cavity, and the unlocking part of the unlocking component is locked with the plugging component, so that when the server hard disk bracket needs to be pulled out from the server case, the unlocking part is separated from the plug-in component by pressing the pressing part of the unlocking component, the plug-in component rotates relative to the bracket component, so that the server hard disk bracket is drawn out of the server case by the plug-in component, and then the hard disk piece is removed from the server case, when the server case needs to be inserted into the server hard disk bracket, locking the plugging component and the unlocking part of the unlocking component, applying an external force to the plugging component, the server hard disk bracket can be pushed into the server case, so that the hard disk piece is installed in the server case.

In some embodiments, the unlocking assembly includes a latch member and a key structure, the latch member is disposed in the accommodating cavity, the latch member is rotatably connected to the accommodating cavity, at least a portion of the key structure is disposed in the accommodating cavity, and the key structure abuts against the latch member, so that when the key structure is pressed, the latch member is disengaged from the plug assembly.

In the process of realizing, the spring bolt spare with hold the chamber and rotate and be connected, the button structure disposes in holding the intracavity, and button structure and spring bolt spare butt for when pressing the button structure, can drive the spring bolt spare and rotate for holding the chamber by the button structure, and then realize that spring bolt spare and plug subassembly form and break away from, be favorable to taking out server hard disk bracket from server machine case through the plug subassembly.

In some embodiments, the key structure includes a key body and a key clamping portion, one end of the key body is provided with a key connecting portion for rotationally connecting with the accommodating cavity, the other end of the key body is provided with the key clamping portion, and the key connecting portion and the key clamping portion are both located on one side of the key body close to the latch piece, so that when the key body is pressed, the key clamping portion moves relative to the accommodating cavity through the key connecting portion.

In the process of above-mentioned realization, the last button connecting portion that has of button body, button connecting portion are used for with hold the chamber and rotate and be connected, button joint portion connects on the button body for the button body is through can through button joint portion with hold the chamber and form and be connected, and can form spacingly with holding the chamber under the effect of button connecting portion, guarantees that the button structure can carry out reciprocal rotation for holding the chamber.

In some embodiments, the lock tongue piece includes a lock tongue body and a lock tongue torsion spring, the lock tongue body has a convex installation part of the lock tongue rotationally connected with the accommodating cavity, the lock tongue torsion spring is disposed on the convex installation part of the lock tongue, and the lock tongue torsion spring abuts against the accommodating cavity.

At the in-process of above-mentioned realization, the spring bolt body have with hold the protruding portion of establishing of the spring bolt of chamber rotation connection, the spring bolt is protruding to be provided with the spring bolt torsional spring in establishing the portion, the spring bolt torsional spring with hold the chamber butt for the spring bolt body can resume to primary position through the effect of spring bolt torsional spring at the pivoted in-process, and then drives the button structure and resume to primary position, its convenient to use, safe and reliable has fine using value widely.

In some embodiments, the plug assembly includes a plug device, a plug rotation shaft, and a plug torsion spring, the plug rotation shaft is disposed on the plug device for forming the plug device to rotate relative to the accommodating cavity, the plug torsion spring is disposed on the plug rotation shaft, and the plug torsion spring abuts against the accommodating cavity.

In the process of above-mentioned realization, the plug rotation axis sets up on the plug ware, the plug torsional spring sets up on the plug rotation axis, and with hold the chamber and form the butt for when plug subassembly and unblock subassembly locking, the plug torsional spring is in compression state, when plug subassembly and unblock subassembly break away from, the plug subassembly can rotate certain angle for holding the chamber under the effect of plug torsional spring, and then convenience of customers takes out server hard disk bracket from server machine case, improves its work efficiency.

In some embodiments, the tray assembly includes a cartridge structure configured to couple with the tray structure, and a tray structure located on a side of the cartridge structure facing away from the pluggable assembly, the tray structure configured to receive at least a portion of the hard disk.

In the process of the realization, the disc box structure is connected with the bracket structure, the bracket structure is used for accommodating the hard disc, and the disc box structure has the advantages of simple structure, easy processing and good reliability and stability in the using process.

In some embodiments, the cartridge structure includes a cartridge body and an EMI dome configured to be coupled to the cartridge body, the EMI dome being located on a side of the cartridge body facing away from the insertion and extraction assembly.

At the in-process of above-mentioned realization, dispose the EMI shell fragment on the disk cartridge main part for when the disk cartridge structure is located server machine incasement, can prevent through the EMI shell fragment that electromagnetic wave reveals, have good popularization and use value.

In some embodiments, the bracket structure includes a bracket body and a lining member, the bracket body is configured with a plurality of shock-absorbing bridges, so that when the bracket body is configured in a server chassis, the shock-absorbing bridges abut against a support structure of the server chassis, the lining member is located inside the bracket body, and the lining member is configured with a plurality of elastic protrusions, at least a part of the elastic protrusions is exposed out of the bracket body, and the part of the elastic protrusions is configured to abut against an inner wall of the server chassis.

In the process of realizing the above, a plurality of shock absorption convex bridges abutted with the supporting structure of the server case are arranged on the bracket body, the lining piece is arranged on the inner side of the bracket body and provided with a plurality of elastic bulges abutted with the inner wall of the server case, and the reliability and the stability of the integral structure of the server hard disk bracket can be improved through the combined action of the shock absorption convex bridges and the elastic bulges.

In some embodiments, the bracket structure further includes a support rod disposed inside the inner lining member, so that when the hard disk member is detached from the bracket structure, the support rod supports the bracket body.

In the process of realizing, the support rod is arranged on the inner side of the lining piece, and when the hard disk piece is detached from the disjointed structure, the bracket structure is not easy to deform and keeps a stable shape through the support rod.

In some embodiments, the bracket assembly further comprises a light guide pillar disposed on one side of the bracket body, the light guide pillar being located between the bracket body and the inner lining, so that at least a portion of the structure of the light guide pillar is exposed to the bracket body.

Additional features and advantages of the present application will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by the practice of the embodiments of the present application. The objectives and other advantages of the application may be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered as limiting the scope, and for a user of ordinary skill in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a schematic structural diagram of a server hard disk tray disclosed in an embodiment of the present application.

Fig. 2 is a schematic structural diagram of a server hard disk tray connection hard disk device disclosed in an embodiment of the present application.

Fig. 3 is an exploded schematic view of a server hard disk tray according to an embodiment of the present application.

Fig. 4 is a schematic partially exploded view of a server hard disk tray according to an embodiment of the present application.

Fig. 5 is a cross-sectional view of a server hard disk tray according to an embodiment of the present application.

FIG. 6 is an exploded view of a bracket assembly of a server hard disk carrier according to an embodiment of the present disclosure.

Fig. 7 is a schematic structural diagram of a server hard disk bracket mounted in a server chassis according to an embodiment of the present application.

Fig. 8 is a schematic structural diagram of a server chassis for a server hard disk tray application disclosed in an embodiment of the present application.

Fig. 9 is a schematic structural diagram of a support rod of a server hard disk tray according to an embodiment of the present application.

Reference numerals

10. A server hard disk bracket; 11. a bracket assembly; 110. a cartridge structure; 1101. a cartridge main body; 1102. an EMI spring; 111. a bracket structure; 1111. a bracket body; 11110. a shock-absorbing convex bridge; 11111. a first stop structure; 1112. a lining member; 11120. an elastic bulge; 1113. a support bar; 112. a light guide pillar; 12. plugging and unplugging the components; 120. a plug-in device; 1200. a third stop structure; 121. plugging and unplugging the rotating shaft; 122. inserting and pulling out the torsion spring; 123. a second vent groove; 13. an unlocking assembly; 130. a latch member; 1301. a bolt body; 1302. a bolt torsion spring; 131. a key structure; 1310. a key body; 1311. a key clamping part; 20. a server chassis; 21. a support structure; 22. a second stop structure; 23. an abutting portion; 30. a hard disk.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. The components of the embodiments of the present application, generally described and illustrated in the figures herein, can be arranged and designed in a wide variety of different configurations.

In the description of the present application, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings or orientations or positional relationships that the products of the present invention are conventionally placed in use, and are only used for convenience of describing the present application and simplifying the description, but do not indicate or imply that the devices or elements referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present application.

Furthermore, the terms "horizontal", "vertical" and the like do not imply that the components are required to be absolutely horizontal or pendant, but rather may be slightly inclined. For example, "horizontal" merely means that the direction is more horizontal than "vertical" and does not mean that the structure must be perfectly horizontal, but may be slightly inclined.

In the description of the present application, it is further noted that, unless expressly stated or limited otherwise, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present application can be understood in a specific case to a user of ordinary skill in the art.

Examples

If the server is a computer which provides services for other clients in the network, the hard disk of the server likes the data warehouse of the core if the server is the core of the network data, all software and user data are stored in the hard disk, and the hard disk data stored in the server is the most precious, so the reliability of the hard disk is very important.

Since the server needs to work uninterruptedly, the hard disk applied to the server is required to support the hot plug function; therefore, a bracket which can be quickly installed or disassembled is required to be designed for each hard disk, the hard disks are fixed on the bracket and fixed in the server case through the bracket, and when the system prompts that the hard disks have problems or the space of the hard disks is full, the hard disks can be quickly and conveniently replaced without disconnecting the system.

In view of the above, as shown in fig. 1, fig. 1 is a schematic structural diagram of a server hard disk tray 10 disclosed in the embodiment of the present application; the application provides a server hard disk bracket 10, includes: the device comprises a bracket assembly 11, a plugging assembly 12 and an unlocking assembly 13, wherein the bracket assembly 11 is used for detachably connecting a hard disk 30, the hard disk 30 comprises but is not limited to a 2.5-inch hard disk, and the connecting mode can be fixed with the bracket assembly 11 by a screw and the like; one end of the plug assembly 12 is rotatably connected with the bracket assembly 11, the other end of the plug assembly 12 is locked with the unlocking assembly 13, and the unlocking assembly 13 is connected to the bracket assembly 11, so that when a user presses the unlocking assembly 13, the unlocking assembly 13 can be separated from the plug assembly 12, and then the plug assembly 12 rotates relative to the bracket assembly 11.

Specifically, the bracket assembly 11 has an accommodating cavity, and the bracket assembly 11 is configured to be detachably connected with the hard disk piece 30; the plug assembly 12, at least a part of which is configured in the accommodating cavity, and one end of the plug assembly 12 is configured to be hinged with the bracket assembly 11, and the other end of the plug assembly 12 is configured to be a free end; at least a part of the unlocking assembly 13 is configured in the accommodating cavity, the unlocking assembly 13 has a pressing portion and an unlocking portion, the unlocking portion is configured to be locked with the free end, when the pressing portion is pressed, the unlocking portion is separated from the free end, and the plug assembly 12 rotates relative to the bracket assembly 11.

Illustratively, the accommodating cavity is located at the front end of the bracket assembly 11, and the hard disk 30 is connected to the rear end of the bracket assembly 11, so that when the server hard disk bracket 10 is installed in the server chassis 20, both the plugging assembly 12 and the unlocking assembly 13 can be exposed to the server chassis 20; the bracket assembly 11 has a first ventilation groove corresponding to the hard disk 30, the plug assembly 12 is provided with a second ventilation groove 123 along the front-back direction of the bracket assembly 11, and the second ventilation groove 123 corresponds to the first ventilation groove for ventilation and heat dissipation of the hard disk 30, which is beneficial to providing the service life of the hard disk 30.

As shown in fig. 2, the bracket assembly 11 is detachably connected with a hard disk 30, and the bracket assembly 11 has an accommodating cavity, the plug assembly 12 is rotatably connected with the accommodating cavity, the unlocking assembly 13 is connected with the accommodating cavity, and the unlocking part of the unlocking assembly 13 is locked with the plug assembly 12, so that when the server hard disk tray 10 needs to be pulled out from the server chassis 20, the unlocking part is separated from the plug assembly 12 by pressing the pressing part of the unlocking assembly 13, the plug assembly 12 rotates relative to the bracket assembly 11, so that the server hard disk tray 10 is pulled out from the server chassis 20 by the plug assembly 12, and the hard disk 30 is removed from the server chassis 20, when the server hard disk tray 20 needs to be inserted into the server hard disk tray 10, the plug assembly 12 is locked with the unlocking part of the unlocking assembly 13, and an external force is applied to the plug assembly 12, so that the server hard disk tray 10 can be pushed into the server chassis 20, thereby completing the installation of the hard disk drive 30 within the server chassis 20.

As shown in fig. 3, fig. 3 is an exploded schematic view of a server hard disk tray 10 disclosed in the embodiment of the present application; the unlocking assembly 13 includes a latch member 130 and a key structure 131, the latch member 130 is disposed in the accommodating cavity, the latch member 130 is rotatably connected to the accommodating cavity, at least a part of the key structure 131 is disposed in the accommodating cavity, and the key structure 131 abuts against the latch member 130, so that when the key structure 131 is pressed, the latch member 130 is disengaged from the plug assembly 12.

Illustratively, at least a part of the mechanism of the key structure 131 is exposed on the bracket assembly 11 to facilitate the user to press the key structure 131, and the key structure 131 can be configured to rotate relative to the bracket assembly 11 and also configured to slide relative to the bracket assembly 11, and the sliding direction is a reciprocating movement along the front-back direction of the bracket assembly 11, it should be noted that, when the key structure 131 moves relative to the bracket assembly 11, the moving stroke of the key structure 131 is not less than the maximum rotating stroke of the latch member 130, so as to ensure that the key structure 131 always keeps in contact with the latch member 130 during the rotation of the latch member 130, and thus the key structure 131 is prevented from being disengaged from the latch member 130.

In the process of the above implementation, the latch element 130 is rotatably connected to the accommodating cavity, the button structure 131 is disposed in the accommodating cavity, and the button structure 131 abuts against the latch element 130, so that when the button structure 131 is pressed, the button structure 131 can drive the latch element 130 to rotate relative to the accommodating cavity, thereby realizing that the latch element 130 is separated from the plug assembly 12, and facilitating the server hard disk tray 10 to be drawn out from the server chassis 20 through the plug assembly 12.

Referring to fig. 3 again, the key structure 131 includes a key body 1310 and a key clamping portion 1311, one end of the key body 1310 is configured with a key connecting portion for rotatably connecting with the accommodating cavity, the other end of the key body 1310 is configured with the key clamping portion 1311, and the key connecting portion and the key clamping portion 1311 are both located at one side of the key body 1310 close to the latch member 130, so that when the key body 1310 is pressed, the key clamping portion 1311 moves relative to the accommodating cavity through the key connecting portion.

For example, the key clamping portion 1311 and the key connecting portion are located on the upper and lower sides of the key body 1310, the key clamping portion 1311 is located on the left side of the key body 1310, the key connecting portion is located on the right side of the key body 1310, and the key clamping portion 1311 is located on one side of the key body 1310 close to the plug assembly 12; it is needless to say that the positions of the key retaining portion 1311 and the key connecting portion with respect to the key main body 1310 are not excluded from being changed.

In the process of the above implementation, the key body 1310 is provided with a key connecting portion, the key connecting portion is used for rotating and connecting with the accommodating cavity, and the key clamping portion 1311 is connected to the key body 1310, so that the key body 1310 can form a connection with the accommodating cavity through the key clamping portion 1311, and can form a limit with the accommodating cavity under the action of the key connecting portion, thereby ensuring that the key structure 131 can rotate in a reciprocating manner relative to the accommodating cavity.

Referring to fig. 3 to 5, the bolt member 130 includes a bolt body 1301 and a bolt torsion spring 1302, the bolt body 1301 has a bolt protruding portion rotatably connected to the receiving cavity, the bolt torsion spring 1302 is disposed on the bolt protruding portion, and the bolt torsion spring 1302 abuts against the receiving cavity.

Illustratively, the protruding tongue portions are located on the upper and lower sides of the tongue body 1301, the left side of the tongue body 1301 is used for being locked with the plug assembly 12, and the right side of the tongue body 1301 is used for being abutted against the button structure 131, so that when a user presses the button structure 131, the tongue body 1301 can rotate relative to the axial direction of the bracket assembly 11.

In the process of the realization, the bolt body 1301 is provided with a protruding part of the bolt connected with the accommodating cavity in a rotating manner, the protruding part of the bolt is provided with a bolt torsion spring 1302, and the bolt torsion spring 1302 abuts against the accommodating cavity, so that the bolt body 1301 can restore to the original position under the action of the bolt torsion spring 1302 in the rotating process, and further drives the key structure 131 to restore to the original position.

Referring to fig. 3 to 4 again, the plug assembly 12 includes a plug 120, a plug rotating shaft 121 and a plug torsion spring 122, the plug rotating shaft 121 is disposed on the plug 120, the plug rotating shaft 121 is disposed on the left side of the plug 120 in a protruding manner and is distributed along the vertical direction of the plug 120 for forming an axial rotation of the plug 120 relative to the accommodating cavity, the plug torsion spring 122 is disposed on the plug rotating shaft 121, the plug torsion spring 122 abuts against the accommodating cavity, a mating portion is disposed on the right side of the plug 120 for being locked with the latch member 130, a third stopping structure 1200 is disposed on the left side of the plug 120, so that when the server hard disk tray 10 is mounted on the server chassis 20, the third stopping structure 1200 abuts against the abutting portion 23 of the server chassis, so as to prevent the server hard disk bracket 10 from being excessively mounted in the server box.

In the process of the above implementation, the plug rotating shaft 121 is disposed on the plug 120, the plug torsion spring 122 is disposed on the plug rotating shaft 121, and forms a butt joint with the accommodating cavity, so that when the plug assembly 12 is locked with the unlocking assembly 13, the plug torsion spring 122 is in a compression state, when the plug assembly 12 is separated from the unlocking assembly 13, the plug assembly 12 can rotate by a certain angle relative to the accommodating cavity under the action of the plug torsion spring 122, and then a user can take the server hard disk tray 10 out of the server chassis 20 conveniently, thereby improving the working efficiency.

Referring to fig. 3 and 4 again, the tray assembly 11 includes a box structure 110 and a tray structure 111, the box structure 110 is configured to be connected to the tray structure 111, the tray structure 111 is located on a side of the box structure 110 facing away from the inserting and pulling assembly 12, the tray structure 111 is configured to accommodate at least a portion of the hard disk 30 and is connected to the tray structure 111 through the box structure 110, and the tray structure 111 is configured to accommodate the hard disk 30, and has a simple structure, is easy to process, and has good reliability and stability during use.

Referring to fig. 3, the cartridge structure 110 includes a cartridge body 1101 and an EMI (electromagnetic interference) dome 1102, the EMI dome 1102 is configured to be coupled to the cartridge body 1101, and the EMI dome 1102 is located on a side of the cartridge body 1101 facing away from the plug assembly 12.

For example, the EMI elastic sheet 1102 is an important reference object for evaluating the quality of the server hard disk tray 10 as one of the radiation protection means of the server hard disk tray 10, where the radiation interference means that an interference source couples (interferes) its signal to another electrical network through space, and in high-speed pcb (printed Circuit board) and system design, a high-frequency signal line, a pin of an integrated Circuit, various connectors, and the like may become radiation interference sources with antenna characteristics, and can emit electromagnetic waves and affect normal operations of other systems or other subsystems in the system.

It should be noted that, the upper and lower ends of the disc cartridge main body 1101 are provided with clamping members, the clamping members are used for clamping the EMI dome 1102 with the EMI dome 1102 when the EMI dome 1102 is connected to the disc cartridge main body 1101, and in order to further improve the connection stability, the rear side of the disc cartridge main body 1101 is provided with a plurality of connection posts, and the EMI dome 1102 is provided with connection holes adapted to the connection posts, so that the connection posts are adapted to the connection holes, thereby completing the position limitation between the disc cartridge main body 1101 and the EMI dome 1102.

In the implementation process, the EMI resilient sheet 1102 is disposed on the cartridge main body 1101, so that when the cartridge structure is located in the server chassis 20, electromagnetic wave leakage can be prevented by the EMI resilient sheet 1102, and the cartridge structure has good popularization and use values.

As shown in fig. 6-8, the bracket structure 111 includes a bracket body 1111 and a lining member 1112, the cartridge structure 110 and the EMI gasket 1102 can be fixed to the bracket body 1111 by a fixing member, including but not limited to a screw, a plurality of shock absorbing bridges 11110 are disposed on the bracket body 1111, such that when the bracket body 1111 is disposed in the server chassis 20, the shock absorbing bridges 11110 abut against the supporting structure 21 of the server chassis 20, the lining member 1112 is disposed inside the bracket body 1111, and a plurality of elastic protrusions 11120 are disposed on the lining member 1112, at least a portion of the elastic protrusions 11120 is exposed out of the bracket body 1111, and the portion of the elastic protrusions 11120 is configured to abut against the inner wall of the server chassis 20.

In order to avoid damage to the hard disk 30 or the back plate of the server casing 20 when the hard disk tray 10 is installed in the server casing 20, the left and right sides of the tray body 1111 are elastic arms, the rear end of the elastic arms is provided with a first stop structure 11111, and correspondingly, a second stop structure 22 adapted to the first stop structure 11111 is configured in the server casing 20, wherein the first stop structure 11111 includes but is not limited to a groove, the second stop structure 22 includes but is not limited to a stop post, the second stop structure 22 is distributed along the left and right direction of the server casing 20, and the second stop structure 22 is located at a side close to the back plate (i.e., the rear end of the server casing 20).

In the above implementation process, the bracket body 1111 is provided with a plurality of shock-absorbing bridges 11110 abutting against the supporting structure 21 of the server chassis 20, the lining member 1112 is disposed inside the bracket body 1111, the lining member 1112 has a plurality of elastic protrusions 11120 abutting against the inner wall of the server chassis 20, and the reliability and stability of the overall structure of the server hard disk bracket 10 can be improved by the combined action of the shock-absorbing bridges 11110 and the elastic protrusions 11120, thereby effectively reducing the shock and impact brought by the server hard disk bracket 10 during plugging or pulling out or using.

As shown in fig. 4 and 9, the bracket structure 111 further includes a support rod 1113, and the support rod 1113 is disposed inside the lining member 1112, so that when the hard disk 30 is detached from the bracket structure 111, the support rod 1113 supports the bracket body 1111; it should be noted that, when the hard disk 30 is connected to the bracket structure 111, the supporting rod 1113 needs to be detached from the bracket body 1111, and when the hard disk 30 is not provided to the disjointing structure, the supporting member can be connected to the rear end of the bracket body 1111 by a fixing means such as a screw.

In the above implementation, the support rod 1113 is provided inside the lining 1112, and when the hard disk 30 is detached from the disjointed structure, the bracket structure 111 can be made less likely to deform and maintain a stable shape by the support rod 1113.

As shown in fig. 6, fig. 6 is a schematic diagram of a bracket assembly 11 of a server hard disk bracket 10 according to an embodiment of the present disclosure, where the bracket assembly 11 further includes a light guide pillar 112, the light guide pillar 112 is provided with at least one elastic arm corresponding to the bracket body 1111, the light guide pillar 112 is disposed on one side of the bracket body 1111, and the light guide pillar 112 is located between the bracket body 1111 and the lining member 1112, so that a structure of at least a portion of the light guide pillar 112 is exposed to the bracket body 1111.

The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims (10)

1. A server hard disk carrier, comprising:

the bracket assembly is provided with an accommodating cavity and is configured to be detachably connected with the hard disk piece;

the structure of at least one part of the plugging component is configured in the accommodating cavity, one end of the plugging component is configured to be hinged with the bracket component, and the other end of the plugging component is configured as a free end;

the unlocking assembly is at least partially structurally configured in the accommodating cavity and is provided with a pressing part and an unlocking part, the unlocking part is configured to be locked with the free end, when the pressing part is pressed, the unlocking part is separated from the free end, and the plugging assembly rotates relative to the bracket assembly.

2. The server hard disk tray according to claim 1, wherein the unlocking assembly comprises a latch member and a button structure, the latch member is disposed in the accommodating cavity, the latch member is rotatably connected to the accommodating cavity, at least a part of the button structure is disposed in the accommodating cavity, and the button structure abuts against the latch member, so that the latch member is disengaged from the plug assembly when the button structure is pressed.

3. The server hard disk bracket according to claim 2, wherein the key structure comprises a key body and a key clamping portion, one end of the key body is provided with a key connecting portion for rotatably connecting with the accommodating cavity, the other end of the key body is provided with the key clamping portion, and the key connecting portion and the key clamping portion are both located on one side of the key body close to the latch piece, so that when the key body is pressed, the key clamping portion moves relative to the accommodating cavity through the key connecting portion.

4. The server hard disk bracket of claim 2 or 3, wherein the latch member comprises a latch body and a latch torsion spring, the latch body has a latch protrusion connected to the receiving cavity, the latch torsion spring is disposed on the latch protrusion, and the latch torsion spring abuts against the receiving cavity.

5. The server hard disk tray according to claim 1, wherein the plug assembly includes a plug, a plug rotation shaft and a plug torsion spring, the plug rotation shaft is disposed on the plug for forming the plug to rotate relative to the receiving cavity, the plug torsion spring is disposed on the plug rotation shaft, and the plug torsion spring abuts against the receiving cavity.

6. The server hard disk carrier of claim 1, wherein the carrier assembly comprises a cartridge structure configured to couple with the carrier structure and a carrier structure on a side of the cartridge structure facing away from the pluggable assembly, the carrier structure configured to receive at least a portion of the hard disk.

7. The server hard disk cartridge of claim 6, wherein the cartridge structure comprises a cartridge body and an EMI gasket, the EMI gasket is configured to couple with the cartridge body, and the EMI gasket is located on a side of the cartridge body facing away from the plugging assembly.

8. The server hard disk tray according to claim 6, wherein the tray structure comprises a tray body and a lining member, the tray body is configured with a plurality of shock absorbing bridges, such that when the tray body is configured in the server chassis, the shock absorbing bridges abut against the supporting structure of the server chassis, the lining member is located inside the tray body, the lining member is configured with a plurality of elastic protrusions, at least a part of the elastic protrusions is exposed out of the tray body, and the part of the elastic protrusions is configured to abut against the inner wall of the server chassis.

9. The server hard disk tray according to claim 8, wherein the tray structure further comprises a support bar disposed inside the lining member so that the support bar supports the tray body when the hard disk member is detached from the tray structure.

10. The server hard disk carrier of claim 8, wherein the carrier assembly further comprises a light guide pole disposed on a side of the carrier body, the light guide pole being positioned between the carrier body and the inner liner such that a structure of at least a portion of the light guide pole is exposed at the carrier body.

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