CN111090308A - Built-in hard disk frame structure capable of being unlocked in sliding mode - Google Patents

Abstract

The invention discloses a sliding unlocking built-in hard disk frame structure, and mainly relates to the field of hard disk maintenance. Including fixed frame of quick-witted case, hard disk frame, the one end and the fixed frame rotation of quick-witted case of hard disk frame are connected, the other one end of hard disk frame is free end, its characterized in that: the bilateral symmetry of hard disk frame is equipped with the pendulum rod, the one end and the hard disk frame rotation of pendulum rod are connected, the other one end of pendulum rod contacts with the bottom of the fixed frame of quick-witted case, be equipped with compression spring between hard disk frame and the pendulum rod, compression spring provides the pivoted thrust that makes progress for the free end of hard disk frame, mobilizable limiting plate that is connected with on the fixed frame of quick-witted case, be equipped with the fixed block on the free end of hard disk frame, the fixed block is located the below that the limiting plate removed the route. The invention has the beneficial effects that: the maintenance device greatly reduces the maintenance time of the hard disk in the hard disk frame, is simple to operate and convenient to maintain, and can meet the requirement of quickly maintaining the server.

Description

Built-in hard disk frame structure capable of being unlocked in sliding mode

Technical Field

The invention relates to the field of hard disk maintenance, in particular to a sliding unlocking built-in hard disk frame structure.

Background

Because the server has a large number of served terminals and a high load capacity, a plurality of hard disk frames are simultaneously arranged in the chassis, and a plurality of groups of hard disks are arranged in the hard disk frames so as to meet the use requirement; due to the arrangement, when the hard disk on the outer side is maintained, the hard disk can be directly pulled out of the hard disk frame, but when the hard disk in the hard disk frame on the inner side is maintained, the hard disk can not be directly pulled out due to the blocking of other hard disk frames on two sides, and generally needs to be disassembled for maintenance, so that the maintenance efficiency is greatly reduced, and the working strength is greatly increased due to the large number of the hard disks; the existing solution is that the hard disk frame of inboard generally sets up at the convertible, set up a pulling handle on the hard disk frame, dismantle one side of hard disk frame the back directly with its certain angle of rotation, then take the hard disk out, compare the mode that needs whole dismantlement hard disk frame and made things convenient for many, but to large-scale server, hard disk quantity is very much, the work load is still great, again because the tolerance of current user to the shut down of server further descends, need in the time of regulation timely maintenance finish, otherwise can run off a large amount of users, be unfavorable for the high-efficient orderly development of company, and the needs that carry out quick maintenance to the hard disk still can't be satisfied to the modified device.

Disclosure of Invention

The invention aims to provide a sliding unlocking built-in hard disk frame structure, which greatly reduces the time for overhauling a hard disk in a hard disk frame, is simple to operate and convenient to maintain, and can meet the requirement of quickly overhauling a server.

In order to achieve the purpose, the invention is realized by the following technical scheme:

the utility model provides a built-in hard disc frame structure of slip unblock, includes the fixed frame of quick-witted case, hard disc frame, the one end and the fixed frame of quick-witted case of hard disc frame rotate to be connected, the other one end of hard disc frame is the free end, the bilateral symmetry of hard disc frame is equipped with the pendulum rod, the one end and the hard disc frame of pendulum rod rotate to be connected, the other one end of pendulum rod contacts with the bottom of the fixed frame of quick-witted case, be equipped with compression spring between hard disc frame and the pendulum rod, compression spring provides the pivoted thrust that makes progress for the free end of hard disc frame, the mobilizable limiting plate that is connected with on the fixed frame of quick-witted case, be equipped with the fixed block on the free end of hard disc frame, the fixed.

Furthermore, the limiting plate is connected to the case fixing frame in a sliding mode, a return spring is arranged between the limiting plate and the case fixing frame, and the return spring provides tension for keeping the limiting plate above the fixing block.

Furthermore, be equipped with the slip button on the limiting plate, be equipped with first spout on the fixed frame of quick-witted case, slip button sliding connection is in first spout, reset spring provides and keeps the pull force that the slip button is close to hard disk frame one end at first spout.

Further, still include bearing structure, bearing structure includes bracing piece, support dog, torsional spring, the bracing piece rotates the one side of connecting at the hard disk frame except the position at both ends, the torsional spring is fixed between bracing piece and hard disk frame, it fixes on the fixed frame of quick-witted case to support the dog, the bottom of bracing piece is equipped with the first chamfer of dodging when the hard disk frame rotates, it is located the first chamfer of dodging along with hard disk frame pivoted route to support the dog first dodge the chamfer and dodge after the support dog, the torsional spring provides and makes the first pulling force of dodging the chamfer and reseing.

Further, the top of bracing piece is equipped with the toggle button, be equipped with the second spout on the hard disk frame, toggle button sliding connection is in the second spout, the torsional spring provides and keeps shifting the button in the one end that the support dog was kept away from to the second spout, one side of hard disk frame is equipped with first spacing post, be equipped with first spacing slide opening on the fixed frame of machine case, first spacing post sliding connection is in first spacing slide opening, the bottom of bracing piece is located the top of support dog when first spacing post is located first spacing slide opening top.

Furthermore, the limiting plate is equipped with the second near the one end of hard disk frame and dodges the chamfer, when hard disk frame rotates downwards the chamfer is dodged to the second and is located bracing piece bottom along with hard disk frame pivoted route.

Furthermore, a fixed plate is arranged on one side of the hard disk frame, a gap is reserved between the fixed plate and the hard disk frame, and the swing rod rotates up and down in the gap.

Furthermore, a second limiting sliding hole is formed in the fixing plate, a second limiting column is arranged on the swing rod, and the second limiting column is connected in the second limiting sliding hole in a sliding mode.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, one end of the hard disk frame is rotatably connected to the case fixing frame, the swing rod is arranged at the bottom of the hard disk frame, the compression spring is arranged between the hard disk frame and the swing rod, the compression spring is compressed when the hard disk frame is normally placed, so that the hard disk frame generates upward rotating power, the hard disk frame can automatically bounce after the limit is removed, the hard disk frame does not need to be operated in time waste, the overhaul time is greatly reduced, the maintenance efficiency is improved, and the hard disk frame is more convenient to use.

2. The invention utilizes the matching of the limit plate on the hard disk frame and the fixed block on the case fixed frame, thereby realizing the limit of the hard disk frame, and the free end of the hard disk frame can be firmly fixed on the case fixed frame in the vertical direction.

Drawings

FIG. 1 is a schematic perspective view of the present invention.

Fig. 2 is a partially enlarged view of a portion a of fig. 1 according to the present invention.

Fig. 3 is a schematic view showing the internal structure of the storage state of the present invention.

Fig. 4 is a schematic structural view of a portion B in fig. 3 according to the present invention.

Fig. 5 is a schematic view of the structure of the hard disk case of the present invention in a storage state.

FIG. 6 is a schematic structural view of the C-site of FIG. 5 according to the present invention.

Fig. 7 is an internal structural view of a maintenance state of the present invention.

Fig. 8 is a partial enlarged view in the direction D of fig. 7 of the present invention.

Fig. 9 is a schematic partial exploded view of the present invention.

Reference numerals shown in the drawings:

1. a case fixing frame; 2. a hard disk frame; 3. a swing rod; 4. a compression spring; 5. a limiting plate; 6. a fixed block; 7. a return spring; 8. a slide button; 9. a first chute; 10. a support bar; 11. a support block; 12. a torsion spring; 13. a first avoidance chamfer; 14. a knob is toggled; 15. a second chute; 16. a first limit post; 17. a first limiting slide hole; 18. a second avoidance chamfer; 19. a fixing plate; 20. a second limiting slide hole; 21. a second limit post.

Detailed Description

The invention will be further illustrated with reference to the following specific examples. It should be understood that these examples are for illustrative purposes only and are not intended to limit the scope of the present invention. Further, it should be understood that various changes or modifications of the present invention may be made by those skilled in the art after reading the teaching of the present invention, and these equivalents also fall within the scope of the present application.

The invention relates to a sliding unlocking built-in hard disk frame structure, which comprises a main body structure and a case fixing frame 1 and a hard disk frame 2, wherein the case fixing frame 1 is fixed in a case of a server through screws and used for supporting and fixing the hard disk frame 2, a groove type structure is preferably formed by a bottom plate and side plates, the hard disk frame 2 is positioned in the groove type structure, one end of the hard disk frame 2 is rotatably connected with the side plates of the case fixing frame 1 through a rotating shaft, one ends of two sides of the hard disk frame 2 are rotatably connected with the case fixing frame 1, the other end of the hard disk frame 2 is a free end and can rotate up and down along a rotating position relative to the case fixing frame 1, swing rods 3 are symmetrically arranged at two sides of the hard disk frame 2, one ends of the swing rods 3 are rotatably connected with the hard disk frame 2, the other end of the swing rods 3 is a free end and is contacted with the bottom of the case fixing frame 1, be equipped with compression spring 4 between hardpan frame 2 and the pendulum rod 3, compression spring 4 provides the pivoted thrust that makes progress for the free end of hardpan frame 2, when not maintaining the hard disk, the hard disk level is placed, the bottom of pendulum rod 3 contacts with the bottom plate of the fixed frame of quick-witted case 1, compression spring 4 is in the state of being compressed, consequently it can produce ascending thrust to the free end of hardpan frame 2, mobilizable limiting plate 5 that is connected with on the fixed frame of quick-witted case 1, limiting plate 5 can move on the fixed frame of quick-witted case 1, be equipped with fixed block 6 on the free end of hardpan frame 2, fixed block 6 is located the below of limiting plate 5 removal route, can make it move the top of fixed block 6 through removing limiting plate 5, and hardpan frame 2 bottom is located the bottom plate of the fixed frame of quick-witted case 1 this moment, and the position at the top is restricted by the cooperation of limiting, consequently it has realized fixedly in vertical direction, horizontal position fixes on quick-witted case fixed frame 1 through the pivot, consequently can realize the effective fixed of hard disk frame 2, then through removing limiting plate 5, can make the top position of hard disk frame 2 unrestricted, consequently can upwards rotate along the rotational position is automatic under compression spring 4's thrust effect, expose the hard disk on the hard disk frame 2, the convenience is operated hard disk wherein, this process only need remove limiting plate 5's position, and hard disk frame 2's fixed effect does not receive the influence, very big going on of maintenance work has been made things convenient for.

Preferably, the limiting plate 5 is slidably connected to the case fixing frame 1, a slide rail is arranged on a side plate of the case fixing frame 2, the limiting plate 5 horizontally slides on the slide rail, a clamping groove is arranged at one end, close to the fixing block 6, of the limiting plate 5, the clamping groove is connected with the fixing block 6 in a clamping manner, so that the limiting plate 5 can limit the top position and the bottom position of the hard disk frame 2 and can also limit the bottom position of the hard disk frame 2, a better fixing effect on the hard disk frame 2 can be achieved, a reset spring 7 is arranged between the limiting plate 5 and the case fixing frame 1, the reset spring 7 provides tension for keeping the limiting plate 5 above the fixing block 6, the reset spring 7 is in a stretching state when the hard disk is not maintained, the limiting plate 5 is pulled towards the fixing block 6, the clamping groove is connected to the fixing block 6 in a clamping manner, the stability of the hard disk working state is ensured.

Preferably, be equipped with the slip button 8 on the limiting plate 5, can be more convenient the removal of realization limiting plate 5 through slip button 8, be equipped with first spout 9 on the fixed frame 1 of quick-witted case, slip button 8 sliding connection is in first spout 9, slip button 8 outwards extends along the horizontal direction, the partial sliding connection that extends makes the both ends of first spout 9 carry out the restriction to the slip range of slip button 8 in first spout 9, just no longer moves when slip button 8 slides to the both ends of first spout 9, can restrict the moving range of limiting plate 5, conveniently control, reset spring 7 provides the pulling force that keeps slip button 8 at first spout 9 and is close to hard disk frame 2 one end, when needs the maintenance, only need to remove slip button 8 to the direction of keeping away from hard disk frame 2, just can remove hard disk frame 2's spacing and make its autogiration expose the hard disk, at the moment, the sliding button 8 is loosened, so that the sliding button can be automatically reset under the action of the reset spring 7, and the operation is more convenient.

Preferably, still include bearing structure, bearing structure is used for supporting hard disk frame 2, bearing structure includes bracing piece 10, support dog 11, torsional spring 12, the bracing piece 10 rotates the position except both ends and connects in one side of hard disk frame 2, rotates the both ends that the position of connecting promptly and is not at the bracing piece 10, makes the both ends of bracing piece 10 be located the both sides of pivoted position respectively, has guaranteed like this that the direction of rotation at both ends is opposite, torsional spring 12 fixes between bracing piece 10 and hard disk frame 2, preferably the upper end grafting of torsional spring 12 is fixed in the top of pivoted position on bracing piece 10, and lower extreme fix with screw is on hard disk frame 2, support dog 11 is fixed on fixed frame of quick-witted case 1, and preferably support dog 11 is formed by fixed frame of quick-witted case 1 extension inside, the bottom of bracing piece 10 is equipped with the first chamfer 13 of dodging, the first chamfer 13 of dodging is the oblique angle, when the hard disk frame 2 rotates, the supporting stop 11 is located on a path where the first avoidance chamfer 13 rotates along with the hard disk frame 2, after the first avoidance chamfer 13 avoids the supporting stop 11, the torsion spring 12 provides a pulling force for resetting the first avoidance chamfer 13, the torsion spring 12 normally deflects the upper side of the supporting rod 10 towards the direction away from the supporting stop 11, the corresponding first avoidance chamfer 13 at the bottom of the supporting rod 10 deflects towards the direction of the supporting stop 11, so that the supporting stop 11 can be ensured to be located on the rotating path of the first avoidance chamfer 13, when maintenance is needed, the hard disk frame 2 rotates, the supporting rod 10 thereon rotates along with the rotation, the first avoidance chamfer 13 rotates towards the direction away from the supporting stop 11 after touching the supporting stop 11, and the bottom of the first avoidance chamfer 13 resets under the action of the torsion spring 12 after the supporting stop 11, make first dodge chamfer 13 and be located the top of supporting dog 11, then hard disk frame 2 rotates and moves back under the effect of self gravity behind the top, the bottom of bracing piece 10 contacts the top of supporting dog 11 this moment and plays the supporting role, can realize that hard disk frame 2 keeps the state after the rotation, just at this moment very conveniently overhauls the hard disk in hard disk frame 2, very big convenient maintenance process, the practicality is stronger, bearing structure's existence, when the maintenance finishes need with hard disk frame 2 resets, only need rotate bracing piece 10, make first dodge chamfer 13 to keeping away from the direction rotation that supports dog 11, and then realize manual dodging, make hard disk frame 2 can rotate downwards smoothly, realize the restoration that the maintenance finishes, the operation is also very simple and convenient.

Preferably, a toggle button 14 is arranged at the top of the support rod 10, preferably, the toggle button 14 extends inwards along the horizontal direction, a second sliding groove 15 is arranged on the hard disk frame 2, the toggle button 14 is slidably connected in the second sliding groove 15, an extending part of the toggle button 14 in the horizontal direction is slidably connected in the second sliding groove 15, two ends of the second sliding groove 15 can limit the rotation range of the toggle button 14, and further can limit the rotation range of the support rod 10, the rotation of the support rod 10 is realized by matching with a torsion spring 12, the torsion spring 12 provides a function of keeping the toggle button 14 at one end of the second sliding groove 15 far away from the support stop 11, that is, the first avoidance chamfer 13 at the bottom is kept at a position facing the support stop 11; one side of the hard disk frame 2 is provided with a first limiting post 16, the case fixing frame 1 is provided with a first limiting slide hole 17, the first limiting post 16 is slidably connected in the first limiting slide hole 17, the first limiting slide hole 17 can limit the upper and lower range of the movement of the first limiting post 16, namely, the rotation angle of the hard disk frame 2 is ensured, and the hard disk maintenance caused by the overlarge rotation angle is avoided, the bottom of the support rod 10 is positioned above the support stop block 11 when the first limiting post 16 is positioned at the top of the first limiting slide hole 17, namely, when the hard disk frame 2 rotates to the maximum angle, the first avoiding chamfer 13 passes through the support stop block 11 and is positioned above the support stop block 11, in the rebounding process of the hard disk frame 2, the bottom of the support rod 10 can effectively contact the top of the support stop block 11, the support function is effectively played, and the stability of the hard disk frame 2 during maintenance is better ensured, when the hard disk frame is reset correspondingly, the first avoidance chamfer 13 can be manually avoided from the support stop block 11 only by rotating the toggle button 14, so that the hard disk frame 2 can smoothly rotate downwards to realize reset.

Preferably, one end of the limiting plate 5 close to the hard disk frame 2 is provided with a second avoidance chamfer 18, the second avoidance chamfer 18 is of an oblique angle structure, when the hard disk frame 2 rotates downwards, the second avoidance chamfer 18 is positioned on a path of the bottom of the supporting rod 10 rotating along with the hard disk frame 2, in the setting, when the maintenance is finished and the hard disk frame 2 is reset, the supporting rod 10 moves downwards, the bottom of the supporting rod 10 touches the second avoidance chamfer 18 on the limiting plate 5 to force the limiting plate 5 to move towards the direction far away from the hard disk frame 2, after the hard disk frame 2 descends, the limiting plate 5 is not extruded, the resetting is carried out under the tensile force of the reset spring 7, the hard disk frame 2 is automatically fixed after moving to the fixed block 6 on the hard disk frame 2 to reset, the setting of the device only needs to rotate the toggle button 14 after the maintenance, and then the hard disk frame 2 is pressed downwards, the automatic locking after the automatic reset can be realized, other operations are not needed, the operation is simplified to the utmost extent, the maintenance time is shorter, and the efficiency is higher.

Preferably, one side of hard disk frame 2 is equipped with fixed plate 19, bracing piece 10 rotates to be connected on fixed plate 19, leave the space between fixed plate 19 and the hard disk frame 2, pendulum rod 3 rotates from top to bottom in the space, can effectively guarantee pivoted stability, makes it be difficult to sit in the rotation process and has crowded rocking, has further improved the stability of device.

Preferably, a second limiting sliding hole 20 is formed in the fixing plate 19, a second limiting column 21 is formed in the swing rod 3, the second limiting column 21 is connected in the second limiting sliding hole 20 in a sliding mode, the arrangement of the second limiting sliding hole 20 limits the amplitude of the vertical swing of the swing rod 3, the swing rod 3 can swing by a proper amplitude under the elastic action of the compression spring 4, the phenomenon that the swing amplitude is too large and the movement of other parts is interfered is avoided, and the overall firmness of the device is improved.

Example 1: the utility model provides a built-in hard disk frame structure of slip unblock, includes fixed frame 1 of quick-witted case, hard disk frame 2, the one end of hard disk frame 2 is connected through the pivot rotation with fixed frame 1 of quick-witted case, the other one end of hard disk frame 2 is free end, its characterized in that: the hard disk frame 2 is symmetrically provided with swing rods 3 at two sides, one end of each swing rod 3 is rotatably connected with the hard disk frame 2 through a rotating shaft, the other end of each swing rod 3 is in contact with the bottom of the case fixing frame 1, a compression spring 4 is arranged between each hard disk frame 2 and each swing rod 3, the compression spring 4 provides upward rotating thrust for the free end of each hard disk frame 2, the case fixing frame 1 is connected with a limiting plate 5 in a sliding manner, a reset spring 7 is arranged between each limiting plate 5 and the case fixing frame 1, the free end of each hard disk frame 2 is provided with a fixed block 6, each limiting plate 5 is provided with a sliding button 8, the case fixing frame 1 is provided with a first sliding groove 9, each sliding button 8 is connected in the first sliding groove 9 in a sliding manner, each reset spring 7 provides tension for keeping each sliding button 8 at the position, close to one end of each hard disk frame 2, each fixed block 6 is positioned below the moving path of, when the hard disk frame 2 is reset, the sliding button 8 needs to be moved again, the hard disk frame 2 is pressed downwards by the other hand, and the sliding button 8 is loosened after the hard disk frame 2 is leveled, so that the hard disk frame 2 can be fixed again.

Example 2: the difference from example 1 is that: the hard disk frame support structure further comprises a support structure, the support structure comprises a support rod 10, a support stop block 11 and a torsion spring 12, the support rod 10 is connected to one side of the hard disk frame 2 through rotation of a rotating shaft except the positions of two ends, the torsion spring 12 is fixed between the support rod 10 and the hard disk frame 2 through screws, the support stop block 11 is fixed on the fixed frame 1 of the case, the support rod 1 is preferably formed by extending the fixed frame 1 of the case in an inward integrated manner, a first avoidance chamfer 13 is arranged at the bottom of the support rod 10, when the hard disk frame 2 rotates, the support stop block 11 is positioned on a path along with the rotation of the hard disk frame 2 of the first avoidance chamfer 13, after the support stop block 11 is avoided by the first avoidance chamfer 13, the torsion spring 12 provides a pulling force for resetting the first avoidance chamfer 13, a toggle button 14 is fixedly welded at the top of the support rod 10, and a second, the toggle button 14 is slidably connected in the second sliding groove 15, the torsion spring 12 provides one end for keeping the toggle button 14 away from the supporting stop 11 in the second sliding groove 15, one side of the hard disk frame 2 is fixed with a first limiting column 16 through a screw, the case fixing frame 1 is provided with a first limiting sliding hole 17, the first limiting column 16 is slidably connected in the first limiting sliding hole 17, the bottom of the supporting rod 10 is positioned above the supporting stop 11 when the first limiting column 16 is positioned at the top of the first limiting sliding hole 17, the hard disk frame 2 can be supported by the supporting rod 10 after the hard disk frame 2 is bounced and rotated, so that the maintenance operation is facilitated, one end of the limiting plate 5, which is close to the hard disk frame 2, is provided with a second avoiding chamfer 18, and when the hard disk frame 2 rotates downwards, the second avoiding chamfer 18 is positioned on a path along with the rotation of the hard disk frame 2 at the bottom of the supporting rod 10, such setting can be when hard disk frame 2 resets, no longer need move slip button 8 with the hand, but the bottom of bracing piece 10 contacts the second and dodges automatic extrusion limiting plate 5 behind the chamfer 18, forces it to the direction removal of keeping away from hard disk frame 2, then after hard disk frame 2 resets, limiting plate 5 automatic re-setting gets back to the top of fixed block 6 under reset spring 7's effect, fixes hard disk frame 2, opens like this only need an operation slide slip button 8 promptly can, it only needs to rotate toggle button 14 then press down hard disk frame 2 can to reset, has further simplified operating procedure, makes the maintenance realize the utmost point simplification, saves maintenance time greatly.

Claims (8)

1. The utility model provides a built-in hard disk frame structure of slip unblock, includes fixed frame (1), hard disk frame (2) of quick-witted case, the one end and the fixed frame (1) of quick-witted case of hard disk frame (2) rotate to be connected, the other one end of hard disk frame (2) is free end, its characterized in that: the bilateral symmetry of hard disk frame (2) is equipped with pendulum rod (3), the one end and the hard disk frame (2) rotation of pendulum rod (3) are connected, the other one end of pendulum rod (3) contacts with the bottom of the fixed frame of quick-witted case (1), be equipped with compression spring (4) between hard disk frame (2) and pendulum rod (3), compression spring (4) provide the pivoted thrust that makes progress for the free end of hard disk frame (2), mobilizable limiting plate (5) of being connected with on the fixed frame of quick-witted case (1), be equipped with fixed block (6) on the free end of hard disk frame (2), fixed block (6) are located the below that limiting plate (5) removed the route.

2. The sliding unlocking built-in hard disk frame structure according to claim 1, wherein: limiting plate (5) sliding connection is on quick-witted case fixed frame (1), be equipped with reset spring (7) between limiting plate (5) and the fixed frame of quick-witted case (1), reset spring (7) provide keep limiting plate (5) the pulling force in fixed block (6) top.

3. The sliding unlocking built-in hard disk frame structure according to claim 2, wherein: be equipped with on limiting plate (5) and slide button (8), be equipped with first spout (9) on the fixed frame of machine case (1), slide button (8) sliding connection is in first spout (9), reset spring (7) provide and keep slide button (8) at first spout (9) near the pulling force of hardpan frame (2) one end.

4. The sliding unlocking built-in hard disk frame structure according to claim 3, wherein: still include bearing structure, bearing structure includes bracing piece (10), support dog (11), torsional spring (12), bracing piece (10) rotates the one side of connecting in hard disk frame (2) except the position at both ends, torsional spring (12) are fixed between bracing piece (10) and hard disk frame (2), support dog (11) and fix on fixed frame (1) of quick-witted case, the bottom of bracing piece (10) is equipped with first chamfer (13) of dodging when hard disk frame (2) rotate, support dog (11) and be located first chamfer (13) of dodging along with hard disk frame (2) pivoted route first chamfer (13) of dodging dodge after supporting dog (11), torsional spring (12) provide the pulling force that makes first chamfer (13) of dodging reset.

5. The sliding unlocking built-in hard disk frame structure according to claim 4, wherein: the top of bracing piece (10) is equipped with and stirs button (14), be equipped with second spout (15) on hard disk frame (2), stir button (14) sliding connection in second spout (15), torsional spring (12) will stir button (14) and keep keeping away from the one end that supports dog (11) in second spout (15), one side of hard disk frame (2) is equipped with first spacing post (16), be equipped with first spacing slide opening (17) on the fixed frame of machine case (1), first spacing post (16) sliding connection is in first spacing slide opening (17), the bottom of bracing piece (10) is located the top that supports dog (11) when first spacing post (16) is located first spacing slide opening (17) top.

6. The sliding unlocking built-in hard disk frame structure according to claim 5, wherein: one end of the limiting plate (5) close to the hard disk frame (2) is provided with a second avoiding chamfer (18), and when the hard disk frame (2) rotates downwards, the second avoiding chamfer (18) is located on a path of the bottom of the supporting rod (10) rotating along with the hard disk frame (2).

7. The sliding unlocking built-in hard disk frame structure according to claim 1, wherein: one side of the hard disk frame (2) is provided with a fixed plate (19), a gap is reserved between the fixed plate (19) and the hard disk frame (2), and the swing rod (3) rotates up and down in the gap.

8. The sliding unlocking built-in hard disk frame structure according to claim 7, wherein: the fixed plate (19) is provided with a second limiting slide hole (20), the swing rod (3) is provided with a second limiting column (21), and the second limiting column (21) is connected in the second limiting slide hole (20) in a sliding mode.

Images