TWM303590U - Mounting device for disk drives - Google Patents

Description

M303590 VIII. New description: [New technical field] - This work involves a disk drive locking device, especially a disk drive locking device that is easy to use. [Prior Art] Many of the components in the computer are accompanied by the development of technology and continuous improvement and updating, and typically include a disk drive device such as a hard disk drive memory and a disk drive incorporated in a computer. These disk drives are usually locked by a plurality of screws on a magnetic frame in the computer case, and when they are upgraded or replaced, they need to be unscrewed and re-screwed one by one with a screwdriver, which makes the installation The disassembly process is cumbersome, slow, and reduces work efficiency, and it is easy to leave screws and the like inside the computer during the installation process. In addition, due to the space and structural configuration of the computer housing itself, when the disk drive is repaired or replaced, it must be operated inside the computer, often colliding, and it is easy to damage various components. Later, a disk drive fixture has been developed, the fixture comprising an elastic plate body and a hook member for fixing the disk drive to a frame, the elastic plate body having first and second ends, An engaging mechanism is provided for engaging with the engaging mechanism of a frame to fix the fixing device to the frame. With this drive fixture, the drive can be fixed in the rack. However, when the type of the fixing device is used for mounting and dismounting the disk drive, the user needs to position and fix the elastic plate body first, which is very inconvenient to operate. [New content] In view of the above, it is necessary to provide a disk drive locking device with a simple structure and convenient operation 6 M303590. a disk drive locking device for fixing at least a disk drive having a side opening and a fixing hole, the locking device comprising at least one magnetic frame for receiving the disk drive and i not being the magnetic frame The first driving member, the magnetic frame includes one of the first side wall and the second side wall of the two parallel slantes, and the second side wall is provided with at least one elastic holding member, the holding member has a free end, the holding The fixing hole corresponding to the disk drive is provided with a fixing pin, and the first driving member is provided with a lifting portion corresponding to the holding member, and the lifting portion is rotatable on the plane of the second side wall by the first driving member The free end of the holder is moved outwardly away from the second side wall of the magnetic frame, thereby disengaging the fixing pin from the fixing hole of the disk drive. Compared with the prior art, the disk drive locking device has a simple structure, and only needs to be pulled and pulled to fix and unlock the disk drive during installation and disassembly, which is convenient for the user's use and daily maintenance. [Embodiment] _ Referring to FIG. 1, the present invention relates to a disk drive locking device for fixing two disk drives 60 having a fixing hole 63 on a side surface thereof, which includes a magnetic frame 1 and a driving device 20. Referring to FIG. 2, the magnetic frame 10 includes a bottom wall 13 and a first side wall and a second side wall 12 formed perpendicularly on opposite sides of the opposite side of the bottom wall 13. The first and first side walls 11, 12 are oppositely disposed with two pairs of slide rails 112 in parallel with the bottom wall η. The bottom wall 13, the first side wall u and the second side wall 12 are surrounded to form an accommodation space for receiving the disk drive 60. A plurality of elastic contacts 114 are disposed on the first side wall 11. The second side wall 12 is parallel with 7 M303590' and is provided with two elastic retaining members 126 having free ends. Each of the retaining members 126 is provided with a fixing pin corresponding to the fixing hole 63 of the disk drive 60. The 126 is bent outwardly at the free end and has a flange. 1261. Each of the flanges 1261 protrudes from a protrusion 1262. The second side wall 12 is bent outwardly with two holding hooks 127 near the ends of the two holding members 126. Two pivoting fins 124 are protruded from the second side wall 12 adjacent to the two holding hooks 127. An elastic tongue 129 is disposed between the two pivoting columns. The end of the tongue 129 is slightly inclined outwardly, and a convex hull 1292 is formed outside the tongue 129. Referring to Figure 3, the drive unit 20 includes a first drive member π and a second drive member 40. The first driving member 30 and the second driving member 4 are respectively provided with frame rotating holes 々I corresponding to the two frame rotating columns 124 of the magnetic frame 10. The first driving member 30 and the second driving member 40 respectively have arc-shaped guiding grooves 33 and 43 corresponding to the two holding fishing rods 127 of the magnetic frame 1 . The end edges of the first driving member 30 and the second driving member 40 are respectively bent with the flanges 37, 47 which are parallel to the two holding members 126 φ the folded edges 1261. The two flanges 37 and 47 respectively define guiding grooves 373 and 473 corresponding to the protrusions 1262 of the two holding members 126 to form a lifting portion for driving the two holding members 126. The two guiding slots 373 and 473 extend obliquely outwardly away from the second side wall 12, and include lifting ends 3731, 4731 and holding ends 3739 and 4739 respectively, which can be opposite to the protrusions 1262 of the two holding members 126. The second side wall 12 moves outward. A linkage device that can be driven by each other is disposed between the first driving member 30 and the second driving member 40. The linkage device includes a sliding slot 35 formed on the first driving member 30 and a guiding post 45 corresponding to the sliding slot 35 protruding from the second driving member 40. 8 M303590 ▲ The first driving member 30 has a first positioning hole 38a and a second positioning hole 38b adjacent to the sliding groove 35 corresponding to the convex cover 1292 of the second side wall 12 tongue 129. The two positioning holes 38a, 38b are for receiving the convex hull 1292. The positioning holes 38a, 38b may also be provided as notches. The first driving member 30 is bent away from the edge of the flange 37 to have an operating portion 39. Continuing to refer to FIG. 4, the guide post 45 of the second driving member 40 is first received in the sliding slot 35 of the first driving member 30, and the two holding hooks 127 of the second sidewall 12 are respectively corresponding to the card. The guides 33, 43 of the first drive member 30 and the second drive member 40 are inserted. Then, the bent ends of the two holding members 126 are respectively inserted into the guiding grooves 373 and 473 of the first driving member 30 and the second driving member 40 respectively. Finally, the pivoting holes 31, 41 of the first driving member 30 and the second driving member 40 are pivotally connected to the pivoting posts 124 corresponding to the second side wall 12 by riveting or other means. At this time, the first driving member 30 and the second driving member 40 are mounted on the second side wall 12 of the magnetic frame 10. The tongue 129 of the second side wall 12 elastically resists the φ first driving member 30. Rotating the first driving member 30 causes the convex hull 1292 of the tongue 129 to slide into the second positioning hole 38b of the first driving member 30, thereby holding the first driving member 30 in the position, in the process. The first driving member 30 drives the second driving member 40 to rotate relative to the second side wall 12. The protrusions 1262 of the two holding members 126 slide to the lifting ends 3731 of the two guiding grooves 373 and 473, respectively. 4, the free ends of the two holding members 126 are elastically deformed away from the second side wall 12, and the fixing pins 1264 of the two holding members 126 are outwardly moved out of the accommodating space. Referring to FIG. 5, in use, the two disk drives 60 are respectively slid into the slide rails 112 of the 9 M303590 'magnetic frame 10, so that the fixing holes 63 of the two disk drives 60 and the magnetic frame 10 are respectively The fixing pins 1264 are placed correspondingly. Pushing the first driving member 30 clockwise to disengage the convex hull 1292 of the tongue 129 from the second positioning hole 38b of the first driving member 30 until the convex hull 1292 of the tongue 129 is engaged with the first driving In the first positioning hole 38a of the member 30, the protrusions 1262 of the holding member 126 slide from the lifting ends 3731 and 4731 of the two guiding grooves 373 and 473 to the holding of the guiding grooves 373 and 473, respectively. The fixing pins 1264 of the two holding members 126 are respectively engaged in the fixing holes 63 of the two disk drives 60. At this time, the two disk drives 60 are fixed to the magnetic frame 10. As another embodiment of the present invention, the locking device can eliminate the positioning of the tongue 129 of the magnetic frame 10 and the positioning holes 38a, 38b corresponding to the first driving member 30 and the second driving member 40. The locking device can elastically deform the holding member 126 by manually controlling the rotation of the first driving member 30, and the two fixing pins φ 1264 are inserted into the two by the elastic recovery of the two holding members 126 themselves. The first driving member 30 and the second driving member 40 are returned to the initial position in the fixing hole 63 of the disk drive 60. The driving device 20 of the present invention can be configured as a single driving member 30 and a corresponding mating structure to realize the locking of the present invention. In summary, this creation meets the requirements of the new patent and submits a patent application in accordance with the law. However, the above are only preferred embodiments of the present invention, and those skilled in the art will be able to cover the equivalent modifications or variations in the spirit of the present invention. M303590 [Simple description of the diagram] Stereoscopic decomposition of the locking mechanism of the disk drive device. Stereoscopic mode of the magnetic disk locker of the disk drive device Fig. 1 is a better example of the present invention. Figure 2 is a preferred embodiment of the present creation. The three-dimensional assembly diagram of the first driving member and the second driving member of the disk drive locking device of the preferred embodiment is reproduced.

Figure 4 is a perspective assembled view of the disk drive of Figure 1 before being locked. FIG. 5 is an assembled view of the disk drive of FIG. 1 when it is locked. [Main component symbol description] Magnetic frame 10 First side wall 11 Slide rail 112 Contact piece 114 Second side wall 12 Frame rotating column 124 Holding member 126 Folding edge 1261 Stud 1262 Fixing pin 1264 Fixing hook 127 Tab 129 Convex bag 1292 Bottom Wall 13 Drive unit 20 First drive member 30 Second drive member 40 Turning hole 31, 41 Guide groove 33, 43 Chute 35 Guide post 45 Folding 37 - 47 Guide groove 373, 473 Lifting end 3731 Lifting end 4731 Holding End 3739 holding end 4739 first positioning hole 3 8 a 11 60 M303590 second positioning hole 38b disk drive fixing hole 63

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Claims (1)

M303590 IX. Patent application scope: 1. A disk drive locking device for fixing at least one disk drive having a fixed hole on a side surface, the locking device comprising at least one magnetic body for receiving the disk drive And a first driving member mounted on the magnetic frame, the magnetic frame includes two first sidewalls and a second sidewall disposed in parallel, wherein the second sidewall is provided with at least one elastic retaining member The holding member has a free end, and the holding member is provided with a fixing pin corresponding to the fixing hole of the disk drive. The first driving member is provided with a lifting portion corresponding to the holding member, and the lifting portion can be driven by the first ® The rotation of the member on the plane of the second side wall causes the free end of the holding member to move outward away from the second side wall of the magnetic frame, thereby disengaging the fixing pin from the fixing hole of the disk drive. 2. The disk drive locking device of claim 1, wherein the free end of the holding member protrudes from a protruding post, the lifting portion is a guiding groove, and the protruding column is slidable to the guiding Inside the slot. 3. The disk drive locking device of claim 2, wherein the retaining member and the first driving member respectively have a folded edge, and the protruding post and the guiding slot are respectively disposed on the two Corresponding to the hem. 4. The disk drive locking device of claim 2, wherein the guiding slot comprises a lifting end away from the second side wall and a holding end adjacent to the second side wall. 5. The disk drive locking device of claim 1, wherein the disk drive locking device further comprises a second driving member pivotally mounted to the second side wall, the first An interlocking device is disposed between the driving member and the second driving member, the linking device is configured to rotate the second driving member along with the rotation of the first driving member 13 M303590, and the second side wall is further disposed corresponding to the second driving member Another holding piece. 6. The disk drive locking device of claim 5, wherein two pivoting columns are protruded from the first side wall of the i, and the first driving member and the second driving member respectively correspond to the two pivoting columns A pivot hole is provided. The disk drive locking device of claim 1 or 5, wherein the edge of the first driving member is bent with an operating portion. The disk drive locking device of claim 5, wherein the first driving member defines a sliding slot, and the second driving member corresponds to the sliding slot to protrude the V-pillar The guide post constitutes the linkage. 9. The disk drive locking device of claim 5, wherein at least one of the first driving member and the second driving member defines an arcuate guiding groove, and the second side wall is oppositely guided. The slot is provided with a holding hook. 10. The disk drive locking device of claim 1, wherein the second side wall is provided with a resilient tongue, and the end of the elastic tongue is provided with a convex package. The first driving member corresponds to the convex portion. The bag is provided with at least one notch or hole. 11. A disk drive locking device for fixing a disk drive having a fixing hole on a side thereof, the locking device comprising a magnetic frame for receiving the disk drive and a driving device, the magnetic frame comprising two parallel Providing one of the first side wall and the second side wall, the first side wall is provided with two elastic holding members, the two holding members respectively have a free end, and each holding member is respectively provided with a fixing pin corresponding to the fixing hole of the disk drive The driving device includes a first driving member and a second driving member. The first driving member and the second driving member respectively have a lifting portion corresponding to the two holding members, and the first driving member can drive the second driving member to The second side wall M303590 'housing: moving on the plane, while moving, the two of the first and second driving members are lifted. P forcing the free ends of the two holding members to move in a plane perpendicular to the second side wall of the magnetic frame, thereby inserting or removing the two fixing pins into the fixed portion of the disk drive. The disk drive locking device has a protrusion protruding from the free end of each of the holding members, and the corresponding lifting portion is a guiding groove, and the protruding column can slide in the guiding groove. _ 13·If applying The disk drive locking device of claim 12, wherein each of the holding members and the corresponding driving member respectively has a folded edge, and each of the protruding posts and the corresponding guiding groove are respectively disposed correspondingly. The disk drive locking device of claim 13, wherein the guiding groove comprises a lifting end away from the second side wall and a proximity to the two sides The disk drive locking device of claim n, wherein the first driving member and the second driving member are provided with a linkage device, the first driving member and The second driving member is pivotally mounted on the second side wall. The disk drive locking device of claim 15, wherein the second side wall is provided with two pivoting columns, and the first driving member and the second driving member respectively have a pivoting corresponding to the pivoting column. The disk drive locking device of claim 15, wherein the first driving member defines a sliding slot, and the second driving member has a guiding post corresponding to the sliding slot, the sliding slot The magnetic disk machine locking device according to the invention of claim 5, wherein the edge of the first driving member is folded-operated. 19·If the patent scope is claimed In the disk drive locking device of the above aspect, at least one of the first driving member and the second driving member defines an arcuate guiding groove, and the second side wall is provided with a holding groove for the guiding groove. 20. The disk drive locking device of claim 5, wherein the second side wall is provided with a resilient tongue #, and the elastic tongue is provided with a tenon at the end. The bag is provided with at least one notch or hole. 16