1. Technical Field
The present disclosure relates to a mounting apparatus, and particularly, to a mounting apparatus for a computer.
2. Description of Related Art
Hard drives and optical drives are often received in a mounting apparatus to be quickly installed in a computer. The mounting apparatus are is to a computer case by latches, and the latches can be unlocked by pushing a button on the mounting apparatus. However, the latches may be inadvertently unlocked when the button is accidentally touched.
Therefore, what is needed is a mounting apparatus that overcomes the above-mentioned problem.
The components in the drawings are not necessarily drawn to scale, the emphasis instead being placed upon clearly illustrating the principles of a mounting apparatus. Moreover, in the drawings, like reference numerals designate corresponding parts throughout the several views.
Referring to
The mounting member 20 includes a top plate 22, a bottom plate 24, a side plate 26, and a back plate 27. The back plate 27 defines two mounting holes 272 therein. A blocking plate 28, in parallel with the side plate 26, is arranged between the top plate 22 and the bottom plate 24, and a chamber 29 is formed in between the top plate 22, the bottom plate 24, the side plate 26, and the blocking plate 28. The back plate 27 defines an opening 273 communicating with the chamber 29. The blocking plate 28 defines a passage 282. Two first spindle holes 222 are defined, one on the left side of the top plate 22 and the other on the left side of the bottom plate 24. Two pivot holes 224 are defined, one on the right side of the top plate 22 and the other on the right side of the bottom plate 24. Two first fixing holes 226 are defined, one on the rear right side of the top plate 22 and the other on the rear right side of the bottom plate 24. A second fixing hole 264 and a retaining hole 262 are defined on the rear side of the side plate 26, and the retaining hole 262 is defined in front of the second fixing hole 264.
The latch member 30 includes a front plate 32, and two spindle parts 34 and a hook 36 are respectively arranged on the left side and the right side of the front plate 32. Each spindle part 34 defines a second spindle hole 342 therein, and a latch 344 is arranged on each spindle part 34.
The first resilient member 50 includes a first end 52 and a second end 54.
The locking member 60 includes a pivot member 62, a sliding member 64, a fixing member 66, and a second resilient member 68. In the present embodiment, the second resilient member 68 is a compression spring.
Two sliding pins 623 are arranged on an upper surface and a lower surface of the pivot member 62. A blocking part 624 extends from the pivot member 62, and the blocking part 624 includes a bevel sliding surface 6240 and a blocking surface 6242. Two pivot parts 626 extend from the upper surface and the lower surface of the pivot member 62, and a pivot pin 628 extends from each of the pivot parts 626.
The sliding member 64 includes a button plate 642. Two first sliding plates 643 extend from a top side a bottom side of the button plate 642, and a second sliding plate 645 extends from a right side of the button plate 642. A first pillar 648 (
The fixing member 66 includes a fixing plate 662, and three fixing tabs 664 are arranged on the fixing plate 662 in accordance with the two first fixing holes 226 and the second fixing hole 264 of the mounting member 20. A second pillar 666 is arranged in the center of the fixing plate 662.
Referring to
The first resilient member 50 is arranged between the two second spindle holes 342 of the latch member 30, and the second spindle holes 342 are aligned with the first spindle holes 222 of the mounting member 20. The pole 40 penetrates through the two first spindle holes 222, the second spindle holes 342, and the first resilient member 50 to pivotally fix the latch member 30 to the mounting member 20; the first end 52 and the second end 54 of the first resilient member 50 abut the mounting member 20 and the latch member 30, respectively. In the present embodiment, the first resilient member 50 is a torsion spring. The mounting member 20 is mounted to the tray 10 with fasteners (not shown) which penetrate through the mounting holes 272 of the mounting member 20.
Referring to
When disassembling the mounting apparatus from the computer case, the button plate 642 of the sliding member 64 is pushed toward the data storage device 100 to force the sliding member 64 to slide backwards, and the second resilient member 68 is compressed. The front side of the sliding ditches 6432 of the sliding member 64 pushes the sliding pins 623 of the pivot member 62 toward the right side of the sliding ditches 6432, and the blocking part 624 of the pivot member 62 pivots around the pivot holes 224 away from the blocking plate 28. The blocking surface 6242 pushes against the hook 36 while pivoting, and release the hook 36 after the blocking surface 6242 has disengaged from the hook 36. The first resilient member 50 is released and forces the latch member 30 to pivot around the pole 40 away from the mounting member 20, and the latches 344 are received in the mounting member 20 to allow the mounting apparatus to be disassembled from the computer case. Since the blocking surface 6242 pushes the hook backwards before the hook is released, any inadvertent unlocking of the locking member 60 is prevented.
In other embodiments, the second resilient member 68 can engage to the tray 10 without using the fixing member 66.
Although the present disclosure has been specifically described on the basis of the exemplary embodiment thereof, the disclosure is not to be construed as being limited thereto. Various changes or modifications may be made to the embodiment without departing from the scope and spirit of the disclosure.
Number | Date | Country | Kind |
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201110061996.3 | Mar 2011 | CN | national |