.M304754 〜 八、新型說明: [新型所屬之技術領域】 本創作涉及一種磁碟機鎖固裝置,尤指一種穩固裝設 於一磁碟托盤内之磁碟機鎖固裝置。 [先前技術】 許多電腦或伺服器内之元件在不斷改進與更新,較典 型的包括組裝於電腦或伺服器内部之硬碟機記憶體等存儲 裝置。該等存儲裝置通常被多個螺絲鎖固於電腦機箱或伺 B 服器内之磁架上,而當對它們進行升級或更換時,需要用 螺絲起子將其逐一解下並重新旋固,該種方法使得安裝及 拆卸過程繁瑣,速度緩慢,降低了工作效率,且於安裝過 程中易將螺釘等物遺留於電腦或伺服器内部,影響電腦或 伺服器正常工作。另外,由於電腦殼體或伺服器本身空間 及結構配置問題,對該存儲裝置進行維修或拆換時,須於 電腦或伺服器内部操作,常會發生碰撞,極易對各元件産 Φ 生損壞。 後來出現了一種磁碟機固定裝置,該固定裝置包括一 彈性板體及一用於使磁碟機固定於一機架上之卡鈎元件, 該彈性板體具第一、二尾端,其上具一接合機構,用以與 一機架之接合機構相接合,使固定裝置固定於機架上。利 用此磁碟機固定裝置,可將磁碟機固定於機架内。然,使 用該種固定裝置對磁碟機進行安裝及拆卸時,需用戶將彈 性板體先定位後卡固,安裝過程中還會産生晃動,操作時 較為不便。 M304754 〜 【新型内容】 鑒於以上内容,有必要提供一種操作穩固之磁碟機鎖 固裝置。 一種磁碟機鎖固裝置,包括一用於鎖固一磁碟機之磁 架及一承載該磁碟機之托盤,該磁架設有一可使該托盤滑 入之滑道,該磁架設有一固定孔,該托盤包括一接收該磁 碟機之盤身、一裝設於盤身之前板及一可樞轉地裝設於該 前板上之操作柄,該操作柄對應該固定孔設有一固定部, * 該前板設有一可推動該操作柄向外侧轉動之彈性元件及一 鎖扣件,該操作柄裝設有一可旋轉卡扣於該鎖扣件之鎖固 件。 相對於習知技術,該磁碟機鎖固裝置結構簡單,將該 磁碟機鎖固於托盤中,移動該托盤之鎮固件即可將該托盤 固定與解鎖,方便了帶有磁碟機電腦用戶日常維護。 【實施方式】 φ 請參閱圖1,本創作磁碟機鎖固裝置包括一磁架10及 一用於接收一磁碟機80並將其固定於該磁架10上之托盤 20 〇 該磁架10包括兩相互平行之侧壁11及一裝設於該側 壁11間並垂直該侧壁11之托板13。每一侧壁11上緣分 別相對彎折有一上折邊112,該側壁11於該托板13與該 上折邊112間分別設有複數擋片113,其中一側壁11靠近 前邊緣處開設有一固定孔118。每一側壁11後端向内彎折 形成一後折邊115。托板13、側壁11及該後折邊115間形 M304754 、 成一滑道。 續請參閱圖2與圖3,該托盤20包括一盤身30、一 裝設於盤身30之前板40及一操作柄60。該盤身30包括 一用於接收該磁碟機80之托架31及一用於接收該前板40 之接收端33。該托架31開設有兩用於鎖固該磁碟機80之 螺絲孔35。該接收端33呈一半封閉之U形體,其包括一 對相互平行之上、下板,該上、下板對稱設有複數卡扣於 . 其上之彈性觸片334、兩對鈎孔332及一對樞轉孔37。該 • 前板40對應該接收端33之每一鈎孔332分別設有一彈性 卡鈎42。該前板40對應該盤身30之樞轉孔37設有一對 凹口 46。該前板40前侧設有一可作用於該操作柄60之彈 性元件,本實施例中該彈性元件為一彈片44。該前板40 設有一用於接收一鎖扣件50之滑道48 ,該滑道48後侧開 設有一滑槽438並凸設兩擋塊439。該鎖扣件50為一圓形 凸片,其設有圓形外緣。該鎖扣件50後侧對應該滑槽438 φ 設有一導柱52,該導柱52上、下兩侧分別形成可卡扣於 對應擋塊439之固持鈎54,該導柱52及該固持鈎54之後 端向一侧形成有一折片56。該操作柄60對應該盤身30之 柩轉孔37凸設有兩樞轉軸66,該兩枢轉轴66以一虛設之 轴線為中心轉動,於本實施例中該轴線為第一轴線,該操 作柄60靠近樞轉軸66之一端對應該磁架10之固定孔118 設有一鈎形固定部68。該操作柄60遠離該固定部68之一 端開設有一通孔64。該操作柄60後侧靠近該通孔64附近 分別開設有一第一定位孔65a及一第二定位孔65b。該操 M304754 ' 作柄60遠離該固定部68 —端邊緣向後凸設'—^扣部62。 該操作柄60還包括一鎖扣71及一與該鎖扣71連動之可 旋轉卡扣於該鎖扣件50之鎖固件75。該鎖固件75可繞另 一虛設之轴線轉動,本實施例中,該轴線為第二轴線,該 第二軸線與該第一轴線相互垂直,且該第二轴線垂直該鎖 扣件50所在平面。該鎖扣71上凸設兩凸柱712。該鎖固 件75對應該凸柱712開設有兩固持孔754。該鎖固件75 凸伸一擋臂752及一尾部,該尾部設一可卡扣於該第一定 ® 位孔65a或第二定位孔65b内之固持部756。 續請參閱圖4,組裝該磁碟機80於該托盤20上時, 先將一彈簧55套於該鎖扣件50之導柱52上,將該鎖扣 件50之導柱52滑入該前板40之滑槽438内,該彈簧55 前端剛好抵觸該滑槽438之外邊緣,同時該鎖扣件50之 固持鈞54對應卡扣於該前板40之擂塊439上,使該鎖扣 件50可滑動地卡扣於該前板40。然後向該盤身30之接收 φ 端33移動該前板40,使該前板40之卡鈞42對應卡扣於 該盤身30之鈎孔332内,該前板40卡扣於該盤身30。再 將該鎖扣71之凸柱712穿過該操作柄60之通孔64卡扣 於該鎖固件75之固持孔754内,使該鎖固件75可隨該鎖 扣71之轉動而轉動,將該鎖固件75轉動使該固持部756 卡扣於該第二定位孔65b處。再將該操作柄60之樞轉轴 66對應卡扣於該盤身30之樞轉孔37内。最後用螺絲穿過 該托盤20之螺絲孔35將該磁碟機80鎖固於該托盤20上。 續請參閱圖5至圖8,將該磁碟機80鎖固於該磁架 M304754 ~ 10時,將該裝有磁碟機80之托盤20滑入該磁架10之滑 道内,該托架31之兩側上邊緣剛好抵觸該側壁11之擋片 113,該擋片113抵觸該磁碟機80之側壁。當該托盤20 滑入該滑道末端時,該操作柄60之固定部68剛好與該側 壁11之固定孔118對齊。向遠離該操作柄60 —側扳動該 鎖扣件50,該彈簧55被該鎖扣件50與該前板40滑槽438 之外邊緣擠壓發生彈性變形。向該前板40方向轉動該操 , 作柄60,該操作柄60内侧擠壓該前板40之彈片44使其 ® 發生彈性變形。當該操作柄60完全嵌入該前板40内時, 該操作柄60之固定部68剛好卡入該側壁11之固定孔118 内。此時,鬆開該鎖扣件50,該彈簧55彈性恢復,使該 鎖扣件50回到初始位置。該鎖扣件50 —内邊緣剛好卡扣 該操作柄60之卡扣部62,使該操作柄60鎖固於該前板 40上。此時,該磁碟機80被鎖固於該磁架10上。順時針 轉動該操作柄60上之鎖扣71,使該鎖固件75之擋臂752 φ 擋扣於該鎖扣件50之内側壁上,該鎖固件75之固持部756 卡入該操作柄60之第一定位孔65a。此時即使滑動該鎖扣 件50,該擋臂752始終與該鎖扣件50卡扣,不能將該操 作柄60開啓。 解鎖時,先將該鎖固件75之固持部756從該第一定 位孔65a轉至該第二定位孔65b,向外側滑動該鎖扣件50 使該鎖扣件50與該操作柄60之卡扣部62解鎖,此時, 該操作柄60於該前板40之彈片44之彈力作用下向外轉 動,該操作柄60之固定部68與該磁架10之固定孔118 M3 04754 盤2〇被移出該磁架1〇之滑道,該托盤2。及 該磁碟機80被解鎖。 及 本創作磁碟機鎖固裝置中 之卡扣部心而僅_二及 柄60 ;該鎖扣71及_固# : ^固該操作 柄6〇上;該鎖扣71及_固件二二該操作 旋開之鎖簧及可水平伸增鎖固…了曰換“有用鑰匙 【圖式簡單說明】 鎖固該鎖扣件5°之鎖芯。 圖1係本創作較佳實 圖。 置之立體分解 Θ :^作較佳實施方式磁碟機鎖固裝置中托般之乃 部立體分解圖。 罝γ托i之局 圖3係圖2另一1 口力視角之立體分解圖。 圖4係圖3中前 * 圖5係圖"磁:趟! 部剖視之立體組裝圖。 口甲磁碟機鎖固前之立體組 【6係圖1中磁碟機鎖固後之立體也:。 圖7係圖”鎖扣處於鎖固狀4之;:。 圖8係圖7中鎖扣處於開戌狀局,視正視圖。 【主要元件符號說明】 〜、之局部剖視正視圖。 磁架 上折邊 後折邊 托板 盤身 10 112 115 13 30 11 113 118 20 側壁 擋片 固定孔 托盤 托架 11 31 • M304754.M304754 ~ VIII, new description: [New technical field] This creation relates to a disk drive locking device, especially a disk drive locking device that is stably installed in a disk tray. [Prior Art] Many components in a computer or server are constantly being improved and updated, and more typically include a storage device such as a hard disk drive built in a computer or a server. The storage devices are usually locked by a plurality of screws on a magnetic frame in a computer case or a servo server, and when they are upgraded or replaced, they need to be unscrewed and re-screwed one by one with a screwdriver. The method makes the installation and disassembly process cumbersome, slow, reduces work efficiency, and it is easy to leave screws and the like inside the computer or server during the installation process, which affects the normal operation of the computer or the server. In addition, due to the space and structural configuration of the computer case or the server itself, when the storage device is repaired or replaced, it must be operated inside the computer or the server, often colliding, and it is easy to damage the 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 fixing device is used for mounting and dismounting the disk drive, the user needs to position and fix the elastic plate body first, and the device may be shaken during the installation process, which is inconvenient to operate. M304754 ~ [New Content] In view of the above, it is necessary to provide a compact disk drive locking device. A disk drive locking device includes a magnetic frame for locking a disk drive and a tray for carrying the disk drive, the magnetic frame is provided with a slide rail for sliding the tray into the magnetic frame, and the magnetic frame is fixed a tray, the tray includes a disk body for receiving the disk drive, a front plate mounted on the disk body, and an operating handle pivotally mounted on the front plate, the handle is fixed to the fixing hole The front plate is provided with an elastic member for pushing the operating handle to the outside and a locking member, and the operating handle is provided with a locking member that is rotatably buckled to the locking member. Compared with the prior art, the disk drive locking device has a simple structure, and the disk drive is locked in the tray, and the tray firmware is fixed to unlock and unlock the tray, thereby facilitating the computer with the disk drive. Daily maintenance of the user. [Embodiment] φ Referring to FIG. 1, the present invention relates to a magnetic disk drive device including a magnetic frame 10 and a tray 20 for receiving and fixing a disk drive 80 to the magnetic frame 10. 10 includes two mutually parallel side walls 11 and a support plate 13 mounted between the side walls 11 and perpendicular to the side walls 11. The upper edge of each of the side walls 11 is respectively bent and has an upper folded edge 112. The side wall 11 is respectively provided with a plurality of blocking pieces 113 between the supporting plate 13 and the upper folded edge 112. One side wall 11 is opened near the front edge. Fixing hole 118. The rear end of each side wall 11 is bent inwardly to form a rear flange 115. The bracket 13, the side wall 11 and the rear flange 115 are shaped as M304754 to form a slide. Referring to Figures 2 and 3, the tray 20 includes a body 30, a front plate 40 mounted to the body 30, and an operating handle 60. The body 30 includes a bracket 31 for receiving the disk drive 80 and a receiving end 33 for receiving the front plate 40. The bracket 31 is provided with two screw holes 35 for locking the disk drive 80. The receiving end 33 is a semi-closed U-shaped body, and includes a pair of parallel upper and lower plates. The upper and lower plates are symmetrically provided with a plurality of elastic contacts 334, two pairs of hook holes 332 and A pair of pivot holes 37. The front plate 40 is provided with a resilient hook 42 for each of the hook holes 332 of the receiving end 33. The front plate 40 is provided with a pair of notches 46 corresponding to the pivot holes 37 of the body 30. The front side of the front panel 40 is provided with an elastic member that acts on the operating handle 60. In this embodiment, the elastic member is a resilient piece 44. The front plate 40 is provided with a slide 48 for receiving a locking member 50. The rear side of the slide 48 is provided with a sliding slot 438 and two stoppers 439 are protruded. The locking member 50 is a circular tab provided with a circular outer edge. A locking post 52 is disposed on the rear side of the locking member 50 corresponding to the sliding slot 438 φ. The upper and lower sides of the guiding post 52 respectively form a holding hook 54 that can be buckled to the corresponding blocking block 439. The guiding post 52 and the holding portion A hook 56 is formed on one side of the hook 54 to the side. The operating handle 60 is provided with two pivoting shafts 66 corresponding to the turning holes 37 of the disk body 30. The two pivoting shafts 66 are rotated about a virtual axis. In this embodiment, the axis is the first axis. In the wire, the handle 60 is disposed near one end of the pivot shaft 66 to correspond to the fixing hole 118 of the magnetic frame 10 and is provided with a hook-shaped fixing portion 68. The operating handle 60 defines a through hole 64 away from one end of the fixing portion 68. A first positioning hole 65a and a second positioning hole 65b are respectively defined in the rear side of the operating handle 60 near the through hole 64. The handle M304754 is located away from the end of the fixing portion 68 and protrudes rearwardly from the end edge. The handle 60 further includes a latch 71 and a lock 75 that is rotatably latched to the latch member 50 in conjunction with the latch 71. The locking member 75 is rotatable about another dummy axis. In this embodiment, the axis is a second axis, the second axis is perpendicular to the first axis, and the second axis is perpendicular to the lock The plane of the fastener 50 is located. Two latches 712 are protruded from the latch 71. The locking member 75 defines two holding holes 754 corresponding to the protruding post 712. The locking member 75 protrudes from the arm 752 and a tail portion. The tail portion is provided with a holding portion 756 that can be locked in the first fixing hole 65a or the second positioning hole 65b. Referring to FIG. 4, when the disk drive 80 is assembled on the tray 20, a spring 55 is first placed on the guide post 52 of the lock member 50, and the guide post 52 of the lock member 50 is slid into the guide post 52. In the sliding groove 438 of the front plate 40, the front end of the spring 55 just abuts against the outer edge of the sliding groove 438, and the retaining jaw 54 of the locking member 50 is correspondingly fastened to the block 439 of the front plate 40, so that the lock The fastener 50 is slidably snapped to the front panel 40. Then, the front plate 40 is moved to the receiving end φ end 33 of the disk body 30, so that the latch 42 of the front plate 40 is correspondingly buckled in the hook hole 332 of the disk body 30, and the front plate 40 is buckled on the disk body. 30. Then, the protruding post 712 of the latch 71 is fastened into the retaining hole 754 of the locking member 75 through the through hole 64 of the operating handle 60, so that the locking member 75 can rotate with the rotation of the latch 71, The locking member 75 is rotated to snap the holding portion 756 to the second positioning hole 65b. Then, the pivot shaft 66 of the operating handle 60 is correspondingly engaged in the pivot hole 37 of the disc body 30. Finally, the disk drive 80 is locked to the tray 20 by screws through the screw holes 35 of the tray 20. Continuing to refer to FIG. 5 to FIG. 8 , when the disk drive 80 is locked to the magnetic frame M304754 ~ 10, the tray 20 of the disk drive 80 is slid into the slide of the magnetic frame 10, the bracket The upper edges of the two sides of the 31 just oppose the flap 113 of the side wall 11, and the flap 113 is in contact with the side wall of the disk drive 80. When the tray 20 is slid into the end of the slide, the fixing portion 68 of the operating handle 60 is just aligned with the fixing hole 118 of the side wall 11. The locking member 50 is pulled away from the side of the operating handle 60, and the spring 55 is elastically deformed by the locking member 50 and the outer edge of the sliding groove 438 of the front plate 40. The operation is performed in the direction of the front plate 40, and the handle 60 is pressed. The inside of the operating handle 60 presses the elastic piece 44 of the front plate 40 to elastically deform it. When the operating handle 60 is fully inserted into the front panel 40, the fixing portion 68 of the operating handle 60 just snaps into the fixing hole 118 of the side wall 11. At this time, the lock member 50 is released, and the spring 55 is elastically restored to return the lock member 50 to the initial position. The locking member 50 has an inner edge that just snaps the locking portion 62 of the operating handle 60 to lock the operating handle 60 to the front panel 40. At this time, the disk drive 80 is locked to the magnetic frame 10. The latch 71 on the operating handle 60 is rotated clockwise so that the blocking arm 752 φ of the locking member 75 is fastened to the inner side wall of the locking member 50, and the retaining portion 756 of the locking member 75 is engaged with the operating handle 60. The first positioning hole 65a. At this time, even if the lock member 50 is slid, the stopper arm 752 is always engaged with the lock member 50, and the handle 60 cannot be opened. When unlocking, the retaining portion 756 of the locking member 75 is firstly rotated from the first positioning hole 65a to the second positioning hole 65b, and the locking member 50 is slid outward to make the locking member 50 and the operating handle 60 The button portion 62 is unlocked. At this time, the operating handle 60 is rotated outwardly by the elastic force of the elastic piece 44 of the front plate 40. The fixing portion 68 of the operating handle 60 and the fixing hole 118 of the magnetic frame 10 are M3 04754. The tray 2 is removed from the slide of the magnetic frame 1 . And the disk drive 80 is unlocked. And the buckle portion of the present invention is only _2 and the handle 60; the lock 71 and _ solid #: ^ solid the handle 6 ;; the lock 71 and _ firmware 22 The operation is unscrewing the lock spring and can be horizontally extended and locked. The 有用 change "useful key [simple description of the figure] lock the lock piece 5 ° lock core. Figure 1 is a better real picture of the creation. The stereoscopic decomposition Θ : ^ is a preferred embodiment of the disk drive locking device in the like-like three-dimensional exploded view. 罝 γ 托 i the Figure 3 is a three-dimensional exploded view of the other 1 force view. 4 series in front of Fig. 3 * Fig. 5 is a three-dimensional assembly diagram of the section of the section: "Magnetic: 趟! Part of the three-dimensional assembly before the lock of the mouth-mounted disk drive [6 series of the three-dimensional lock of the disk drive in Figure 1 Also: Figure 7 is a diagram of the "locking lock in the shape of 4;:. Figure 8 is a front view of the lock in Figure 7 in an open position. [Main component symbol description] ~, partial cross-sectional front view. Magnetic frame Upper folded back Folded side Pallet 10 112 115 13 30 11 113 118 20 Side wall Stopper fixing hole Pallet bracket 11 31 • M304754
接 收 端 33 鈎 孔 332 觸 片 334 螺 絲 孔 35 樞 轉 孔 37 前 板 40 卡 鈎 42 滑 槽 438 擋 塊 439 彈 片 44 凹 Π 46 滑 道 48 鎖 扣 件 50 導 柱 52 固 持 鈎 54 彈 簧 55 折 片 56 操 作 柄 60 卡 扣 部 62 通 孔 64 第 一 定位孔 65 a 第 二 定位孔 65b 樞 轉 軸 66 固 定 部 68 鎖 扣 71 凸 柱 712 鎖 固 件 75 擋 臂 752 固 持 754 固 持 部 756 磁 碟 機 80 12Receiving end 33 Hook hole 332 Contact 334 Screw hole 35 Pivot hole 37 Front plate 40 Hook 42 Chute 438 Stop 439 Shrapnel 44 Concave 46 Slide 48 Locking member 50 Guide post 52 Holding hook 54 Spring 55 Fold 56 operating handle 60 snap portion 62 through hole 64 first positioning hole 65 a second positioning hole 65b pivot shaft 66 fixing portion 68 latch 71 boss 712 lock 75 retaining arm 752 holding 754 holding portion 756 disk drive 80 12