M380560 五、新型說明: 【新型所屬之技術領域】 ⑽mi及—種移树姆置及其紐結構,奸冑且古㈣ 結構之雜存·置及其殼體結構。 冑从-種具有改良 【先前技術】 可攜式電子產品裳置因便於使用者 電腦或其週邊裝置(如印表機)相互鉢制,’而廣泛與個人 之應屬迷_之縣式_ 、 大,知且實地使用 換傳輸媒介。以慣用攜帶式儲存硬磾置間之資料交M380560 V. New type description: [New technical field] (10) mi and - species shifting tree and its new structure, traitorous and ancient (four) structure of the memory and its shell structure.胄 胄 种 具有 具有 先前 先前 可 可 可 可 可 可 可 可 可 可 可 可 可 可 可 可 可 可 可 可 可 可 可 可 可 可 可 可 可 可 可 可 可 可 可 可 可 可 可 可 可, large, know and use the transmission medium in the field. Use the information of the portable portable storage room
部設置-資_存電路,該電路還連殼體内 訊號接頭,該躺常見之標準規㈣普触體^之 (Universal Serial BUS,咖),隨著 通用序列匯k排 帶式儲存硬碟之可用容量亦大幅成長。β技術之突飛猛進’此種攜 如中國大陸外觀設計專利公告第3湖 _ 錯裝置,該鶴存離置柯插接至減 之移動存 ?二=_儲裝置於組裝時僅能依内部=== 女、種固疋尺寸之電路板。不改變内部容置空間、、 可選擇性安裝兩種不同尺寸之電路可ϊ *尺寸較大之电路板無法收容於容置空 電路板於容置空間内無法穩固定位。又次者會使較小尺寸之 結構是以,有必要設計-射克服上述_之_存職置及其殼體 【新型内容】 本創作之主要目的在於提供一種可選 移動存儲裝置及其殼體結構。 *裝不问尺寸電路板之 為=本創作之目的,本創作_如下技術方案: 裝置,其包括架體以及安裝於架體内之第— 種移動存错 壁、連接底壁之後端壁以及形成於底壁與後二之間的 == 3 M380560 ΓΐΐϊΐΐΓ所述第—電触之後端輕設㈣咖陷之後缺 ’所述木體6χ有凸伸向容置空間_以定位第 形之彈性腳’所轉性腳卡持於第一電路板之後缺口内。彈’邊 括用技存儲裝置殼體結構,包 底壁、自紐後端向战伸之^電路板,所述架體包括 用以收容電路板之容置空間,及====:=並 以抵持定位電路板之可彈性變形之彈性腳。伸谷置工間内用 性腳變形量大,當雷路你只朴,* 電板寸較大時,彈 ΐ= Μ所述移動存儲裝置殼體結構可選擇性安裝不同 【實施方式】 於以下本創作較佳實施例之詳細說明令,主 卡機等等:ΐ:::二=:器、無線網路卡及_ 體結構。請參閱第-圓至第七圖所示 = 置100、100,、100,,。所述移動^^置:= 於}以體結構(未標號〕、安裝於殼體結構内之電路板(未俨 對較相雜小n路板2錢尺寸相 向為前後方向,寬度方向為左_,厚度===長方 移動存儲裝置100係自後向前插接到賴外部設備上。下方向,即所述 ⑽目,—魏m動存儲裝置 ^又體、4。所核體結構包括架體i以及包覆於架體i外側之 外殼4。所述外殼4包括相互扣持之頂殼41與底殼42,且用以供所述 架體1於内部做前後方向上之滑動,從而使接頭1〇何伸出或收容於 殼體結構。所述架體!包括底壁n、位於底壁U前端之前端壁12、位 於底壁11後端並與前端壁12相對之後端壁13、位於前、後端壁12、 13之間的兩側壁14、15以及由底壁u、前端壁12、後端壁13、兩側 壁Η、15共同圍設而成之用以收容電路板之容置空間1〇。所述容置空 間1〇向前貫穿前端壁Π用以供接頭104進行穿梭。所述底壁u於^ L兩側土 14、15與刖知壁12之連接處設有兩向上凸伸之定位勾部 101,所述定位勾部1〇1可左右彈性變形用以挾持第一電路板2或第1 電路板3之兩側。所述兩側壁14、15位於底壁u之左右兩側端,其中 一側壁14設有向遠離另一側壁ls方向向外延伸之懸臂狀按鈕14〇,所 述按鈕140可供使用者按壓而向容置空間1〇内發生彈性變形。所述侧 壁Η還設有位於按鈕4〇上、下兩側之突起狀扣持塊14卜所述後端壁 12上設有自遠離底壁u之頂部13〇向前水平延伸之平板狀抵止壁Η】 以及位於抵止壁131兩側之向容置空間1〇内凸伸之兩彈性腳1〇3。所 述抵止壁131位於容置空間10上方。所述彈性腳1〇3之延伸起始位置 (未標號)低於頂部130,所述每一彈性腳1〇3包括自延伸起始位置向 前傾斜向上延伸之上斜支臂1033、自上斜支臂1〇33末端向前傾斜向下 延伸之下斜支臂1035以及連接上斜支臂1〇33與下斜支臂1〇35之轉折 部1034。所述彈性腳103為r〈」型,且所述上斜支臂1〇33與下斜支 臂1035可以轉折部1034為基點相互彈性靠近,且彈性腳1〇3始終於 前後方向上不發生偏移,即兩彈性腳103相互之間的距離始終保持不 變。所述架體1還設有自前端壁12與側壁14之相連部分向容置空間 10内凸伸之平板狀抵止塊102,所述抵止塊1〇2沿左右方向延伸且垂 直於底壁11。 請參閱第一圖至第二圖所示,所述外殼4包括包覆架體1上方之 頂殼41以及包覆架體1下方之底殼42,所述外殼4包括與架體1之侧 壁14位於同一側之側部4〇3以及貫穿側部4〇3用以收容按鈕14〇並提 供按紐140於前後方向上滑動空間之滑槽4〇1。所述滑槽4〇ι沿前後方 向延伸且長度大致等於一接頭1〇4伸出之長度加上按鈕14本身前後方 向上之長度。所述側部403還設有位於滑槽·兩側之前後兩對扣持 孔402,所述前後兩對扣持孔402之間的距離恰好為一接頭1〇4伸出之 長度’當架體1安裝至外殼4内時,所述架體!之一對扣持塊141可 藉由按麟動按紐M0而選擇性扣持於外殼之前後輯扣持孔4〇2中。 請參閱第二圖所示’所述架體!可選擇性收容第一電路板2或第 二電路板3。所述第-電路板2纽為矩形,設有用以安裝接頭1〇4之 前端25、與前端25相對之後端23以及位於前端25、後端23之間的 兩側之邊緣24。所述第-電路板2還凹設有一對前缺口 21以及位於前 缺口 21後方之-對後缺口 22。所述前缺口 21係自靠近於前端%之兩 邊緣24處向内凹陷而成。所述後缺口 22係自兩邊緣%與後端之 交接處向内凹陷而成。所述兩前缺口 21與兩後缺口 22於左右方向上 分別位於相互平行之兩直線上。所述第二電路板3之寬度、厚度及長 度均大於第一電路板2之相關尺寸,而形狀與第一電路板2大致相同。 所述第二電路板3包括用以安裝接頭1G4之前端35、與前端35相對後 知33以及位於刖端35、後端33之間的兩侧之邊緣34。所述第二電路 板3還凹設有一對前缺口 31以及位於前缺口 31後方之一對後缺口 32。 所述如缺口 31自罪近於前端35之兩邊緣34處向内凹陷而成。所述後 缺口 32係自兩邊緣34與後端33之交接處向内凹陷而成。所述兩前缺 口 31與兩後缺口 32於左右方向上分別位於相互平行之兩直線上。所 述第一電路板2兩前缺口 21之間的距離等於第二電路板3兩前缺口 31 之間的距離。藉如是排配,所述架體丨容置空間1〇内之兩定位勾腳ι〇ι 可用以穩定夾持第一電路板2之兩前缺口 21又可用以穩定夾持第二電 路板3之兩前缺口 31,防止第一電路板2或第二電路板3於容置空間 10則端發生前後方向或左右方向之晃動。所述第一電路板2兩後缺口 22之間的距離等於第二電路板3兩後缺口 32之間的距離,藉如是排 配’所述兩彈性腳103於用以定位第一電路板2後端23時與用以定位 第一電路板3後端33時於左右方向上可保持距離固定不變,避免架體 1於需配合第一或第二電路板2、3時還要設置不同距離之兩彈性腳 103,結構較簡單。惟,所述第一電路板2之前缺口 21與後缺口 22之 間的距離小於所述第二電路板3之前缺口 31與後缺口 32之間的距離。 請參閱第二圖至第四圖所示,當第—電路板2組裝到所述殼體結 構4 ’所述第-電路板2收容於架體i之容置空間1〇内,所述前端25 凸伸出前碰12贱安裝接頭1Q4,所述兩邊緣24之前缺口 21與容 置空間10兩側之定位勾腳1〇1相卡持,所述後端Β抵持於抵止壁⑶ 下方,所述兩彈性腳103卡持於後端Μ之兩後缺口 η内且彈性腳 啲不發生彈性變形。所述定位勾腳1〇1可於上下方向及左右方向上定 ,第-電路板2之前半部分’而所猶⑽1G3可於左右方向上定位 第-電路板2之後半部分,第—電路板2後半部分之上下方向由抵止 ,131限制,藉如是排配’所述第一電路板2即可於架體i内得到穩 疋之固持。於其他實施方式中,所述彈性腳1〇3亦可向後發生一定之 彈性變形’所述前端2S -側頂持於抵止塊1〇2上,藉如是排配,所述 抵止塊102可於前後方向上抵消第一電路板2與彈性腳1〇3之間的應 力,使第一電路板2與架體1之間内部應力結構相對較穩定。當第二 電路板3組裝到架體丨時’與第—電路板2相同之係、所述第二電路板3 同樣係藉由定位勾腳101以及彈性腳1〇3而於左右方向上固定於架體t 内。惟’由於第三電路板3之長度大於第-電路板2之長度,使得第 一電路板3前缺口 31與後缺口 32之間的距離大於第一電路板2前缺 口 21,後缺口 22之間的距離,是以,所述彈性腳1〇3與第二電路板3 之後端33相配合時,所述彈性腳1〇3需向後水平壓縮變形,藉如是排 配’所述下斜支臂1〇35之末端卡扣頂持於後缺口 32内而使所述第 二電路板3之後端23於前後方向以及左右方向上被固定。所述外殼4 ,裝於架體1外侧,當按壓並推進按紐14G時,所述第—電路板2或 第二電路板3前方之接頭104可凸伸出外殼4以與外部設備進行訊號 傳輸丄當按壓並後退按鈕丨40時,所述接頭1〇4回收至外殼4内部。 凊參閱第五圖至第六圖所示,為本實施新型之第二實施方式移動 存儲裝置100,,所述移動存儲裝| 1〇〇,與第一實施方式中之移動存储 裝置100結構大致相同,兩者之主要區別在於:所述彈性腳1〇3,包括 形狀不同之第一彈性腳1031,與第二彈性腳1032,。與第一實施方式中 之彈! 生腳103相同之處在於所述第一彈性腳腦,同樣係自後端壁u 向谷置空間10内延伸而成,但本實施方式中之所述第一彈性腳1〇31’ 包括自後端壁13水平向前延伸之前伸支臂(未圖示)、位於前伸支臂 末端之轉折部1037’以及自轉折部1〇37,向斜上方傾斜向前延伸之上斜 支臂1038’,當第一彈性腳1〇31’受到抵壓時,所述上斜支臂1〇38,可以 轉折部1037’為基點向後旋轉變形。所述第二彈性腳1〇32’係自遠離第 一彈性腳1031’之一側側壁14向容置空間10内側向延伸而成。所述第 二彈性腳1032’包括自側壁14朝容置空間10内部向後傾斜延伸之後斜 支臂1033’、位於後斜支臂1〇33,末端之轉折部1034’以及自轉折部1〇34, 進一步向容置空間10内部向前傾斜延伸之前斜支臂1〇35,。當第二彈 性腳,1032,受壓時,所述前斜支臂聰,與餅支臂删,以轉折部 1034’為基點相互靠近而發生彈性變形。所述第一彈性腳1〇31,之壓縮方 向位於一沿前後方向延伸之豎直面上’而第二彈性腳1〇32,之壓縮方向 位於一水平面上。藉如是排配,所述第一電路板2或第二電路板3之 後端23、33同樣可由第一、第二彈性腳顧,、顧,固定前後方向以 及左右方向。 味參閱第七圖所示,為本創作之第三實施方式移動存儲裝置 刚” ’所輕動存職置贈,與第…第二實施方式之腾存齡置 100、100’之結構大致相同,三者之差異在於:所述移動存儲裝置1〇〇” 之兩彈性腳1G3”均與第二實施方式中之第—彈性腳1G33,結構相同,而 所在位置與第-實施方式中之彈性腳1Q3相同。即,所述彈性聊赃, 包括自後端壁13水平㈣延伸之前伸支f 1G33,,、位於前伸支臂咖” ΐΪΐοΐΠ1034,’以及自轉折部刪”向斜上方傾斜向前延伸之上斜 支#1035,當兩彈性腳1〇3”受到抵猶,所述上 折部1034”為基點向後旋轉變形。 7以轉 在ιΐΐίϊΓΓ,所述彈性腳1G3、1G3,、1G3,,均分別成對設置, 在S實财式巾’如射所示三種不_狀之彈 式,均可達成本創作需要解決的技術目的。 綜上所述,所述移動存儲裝置100、100,、10 形之彈性_、肪,、财,續鍾結構可選紐地 M380560 以上ΐΐϋίΐΓ合新偷卿,纽域咖帽。惟, 以上所述者僅為摘作之紐實施例,本 =限,舉凡熟習本隸藝之人士援依本創 或變化,皆應涵蓋於以下申請專利範圍内。_所作之專效修飾 【圖式簡單說明】Department set-capacity_storage circuit, the circuit is also connected to the signal connector in the housing, the common standard gauge (4) universal serial BUS (coffee), along with the universal serial sink k-belt storage hard disk The available capacity has also grown significantly. The rapid advancement of β technology is such that the third lake _ wrong device, such as the mainland China patent design announcement, is plugged into the mobile storage. The second = _ storage device can only be assembled according to the internal == = Female, type of solid board. The circuit can be installed in two different sizes without changing the internal accommodating space. * A large-sized circuit board cannot be accommodated in the accommodating space. The circuit board cannot be stably fixed in the accommodating space. The second one will make the structure of the smaller size, and it is necessary to design-shoot to overcome the above-mentioned _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ Body structure. *Installation without regard to the size of the circuit board = the purpose of this creation, the following technical solutions: the device, including the frame and the first movement of the wrong wall installed in the frame, the end wall after connecting the bottom wall and Between the bottom wall and the second two == 3 M380560 ΓΐΐϊΐΐΓThe first end of the first electric contact is lightly set (4) After the coffee is trapped, the wooden body 6χ has a convex extension to the accommodating space _ to locate the elasticity of the shape The foot 'turned foot is held in the gap behind the first circuit board. The shell structure of the storage device includes a bottom wall, a circuit board extending from the rear end of the rear end, and the frame body includes a receiving space for accommodating the circuit board, and ====:= To resist the elastic deformation of the positioning circuit board. The amount of internal use of the stretched foot in the stretched-slot work room is large. When the lightning path is only simple, * when the electric plate is large, the magazine ΐ = Μ the mobile storage device shell structure can be selectively installed differently [embodiment] The following detailed description of the preferred embodiment of the present invention, the main card machine and the like: ΐ::: two =: device, wireless network card and _ body structure. Please refer to the range from -round to seventh = set to 100, 100, 100,,. The moving device is set to a circuit board (not labeled) and mounted in the housing structure (the future is opposite to the opposite phase, and the width direction is leftward. _, thickness === rectangular mobile storage device 100 is inserted from the back to the front to the external device. The lower direction, that is, the (10) mesh, - Wei m mobile storage device ^ body, 4. the nuclear structure The frame body i includes a casing 4 that is wrapped around the outer side of the frame body i. The outer casing 4 includes a top case 41 and a bottom case 42 that are mutually fastened, and is used for sliding the frame body 1 in the front and rear direction. Thus, the joint 1 is extended or received in the housing structure. The frame body includes a bottom wall n, a front end wall 12 at the front end of the bottom wall U, a rear end of the bottom wall 11 and a rear end opposite the front end wall 12. The wall 13 and the two side walls 14 and 15 between the front and rear end walls 12 and 13 are surrounded by a bottom wall u, a front end wall 12, a rear end wall 13, and two side walls 15, 15 for accommodating the circuit. The accommodating space of the slab is 1 〇. The accommodating space 1 〇 runs forward through the front end wall for the joint 104 to shuttle. The bottom wall u is on both sides of the soil 14, 1 The positioning hook portion 101 is provided with two upwardly protruding positioning hooks 101. The positioning hook portion 1〇1 can be elastically deformed left and right to hold both sides of the first circuit board 2 or the first circuit board 3. The two side walls 14 and 15 are located at the left and right side ends of the bottom wall u. One of the side walls 14 is provided with a cantilevered button 14 向外 extending outwardly away from the other side wall ls. The button 140 can be pressed by the user. Elastic deformation occurs in the accommodating space 1 。. The side wall Η is further provided with a protrusion-shaped holding block 14 on the upper and lower sides of the button 4, and the rear end wall 12 is provided with a self-away from the bottom wall u The top 13 〇 水平 水平 〇 〇 以及 以及 以及 以及 以及 以及 以及 以及 以及 以及 以及 以及 以及 以及 以及 以及 以及 以及 以及 以及 以及 以及 以及 以及 以及 以及 以及 以及 以及 以及 以及 以及 以及 131 131 131 131 131 131 131 131 Above the space 10. The extended starting position (not numbered) of the elastic foot 1〇3 is lower than the top 130, and each of the elastic feet 1〇3 includes a self-extended starting position that is inclined forwardly upwardly and upwardly above the inclined arm. 1033, from the upper oblique arm 1〇33 end inclined forwardly downwardly extending downward oblique arm 1035 and connected upper oblique arm 1〇33 and down oblique The turning portion 1034 of the arm 1 is 35. The elastic leg 103 is of the r<" type, and the upper inclined arm 1〇33 and the lower inclined arm 1035 can be elastically close to each other with the turning portion 1034 as a base point, and the elastic leg 1 The 〇3 is always offset in the front-rear direction, that is, the distance between the two elastic legs 103 is always constant. The frame body 1 is also provided with the connecting portion from the front end wall 12 and the side wall 14 to the accommodating space 10 a flat abutting block 102 projecting inwardly, the abutting block 1〇2 extending in the left-right direction and perpendicular to the bottom wall 11. Referring to the first to second figures, the outer casing 4 includes a covering frame body a top case 41 above and a bottom case 42 below the cover frame 1. The case 4 includes a side portion 4〇3 on the same side as the side wall 14 of the frame body 1 and a through side portion 4〇 for receiving The button 14 turns and provides a slider 4〇1 for sliding the space in the front-rear direction of the button 140. The chute 4〇 extends in the front and rear directions and has a length substantially equal to the length of the extension of the joint 1〇4 plus the length of the front and rear of the button 14 itself. The side portion 403 is further provided with two pairs of fastening holes 402 in front of the two sides of the sliding groove. The distance between the two pairs of front and rear fastening holes 402 is exactly the length of a joint 1〇4. When the body 1 is mounted into the outer casing 4, the frame body! One of the pair of latching blocks 141 can be selectively held in the front and rear latching holes 4〇2 by pressing the button M0. Please refer to the frame shown in the second figure! The first circuit board 2 or the second circuit board 3 can be selectively housed. The first circuit board 2 has a rectangular shape, and has a front end 25 for mounting the joint 1〇4, a rear end 23 opposite the front end 25, and an edge 24 on both sides between the front end 25 and the rear end 23. The first circuit board 2 is further recessed with a pair of front notches 21 and a rear-facing notch 22 located behind the front notch 21. The front notch 21 is recessed inwardly from two edges 24 near the front end. The rear notch 22 is recessed inwardly from the intersection of the two edges and the rear end. The two front notches 21 and the two rear notches 22 are respectively located on two straight lines parallel to each other in the left-right direction. The width, thickness and length of the second circuit board 3 are larger than the relevant dimensions of the first circuit board 2, and the shape is substantially the same as that of the first circuit board 2. The second circuit board 3 includes a front end 35 for mounting the joint 1G4, a rear end 33 opposite the front end 35, and an edge 34 on both sides between the rear end 35 and the rear end 33. The second circuit board 3 is further recessed with a pair of front notches 31 and a pair of rear notches 32 located behind the front notch 31. The gap 31 is recessed inwardly from the edge 34 of the front end 35. The rear notch 32 is recessed inwardly from the intersection of the two edges 34 and the rear end 33. The two front notches 31 and the two rear notches 32 are respectively located on two straight lines parallel to each other in the left-right direction. The distance between the two front notches 21 of the first circuit board 2 is equal to the distance between the two front notches 31 of the second circuit board 3. By means of the arrangement, the two positioning hooks ι〇ι in the frame accommodating space 1 可用 can be used to stably hold the two front notches 21 of the first circuit board 2 and can be used to stably clamp the second circuit board 3 . The two front notches 31 prevent the first circuit board 2 or the second circuit board 3 from swaying in the front-rear direction or the left-right direction at the end of the accommodating space 10. The distance between the two rear notches 22 of the first circuit board 2 is equal to the distance between the two rear notches 32 of the second circuit board 3, such as the arrangement of the two elastic legs 103 for positioning the first circuit board 2 When the rear end 23 is used to position the rear end 33 of the first circuit board 3, the distance can be kept constant in the left-right direction, so as to prevent the frame body 1 from being set differently when the first or second circuit boards 2 and 3 are to be matched. The two elastic legs 103 are relatively simple in structure. However, the distance between the front notch 21 and the rear notch 22 of the first circuit board 2 is smaller than the distance between the front notch 31 and the rear notch 32 of the second circuit board 3. Referring to the second to fourth figures, when the first circuit board 2 is assembled to the housing structure 4', the first circuit board 2 is received in the housing space 1 of the frame i, the front end The front end of the two edges 24 is engaged with the positioning hooks 1〇1 on both sides of the accommodating space 10, and the rear end Β abuts against the abutting wall (3). The two elastic legs 103 are clamped in the two rear notches η of the rear end 且 and the elastic ankles are not elastically deformed. The positioning hook 1〇1 can be set in the up and down direction and the left and right direction, the first half of the first circuit board 2 and the (10) 1G3 can be positioned in the left and right direction of the second circuit board 2, the first circuit board 2 The upper and lower parts of the second half are restrained by the stopper 131, and if the first circuit board 2 is arranged, the solid body can be stably held in the frame i. In other embodiments, the elastic foot 1〇3 may also be elastically deformed backwards. The front end 2S-side is supported on the abutting block 1〇2, and if it is arranged, the resisting block 102 The stress between the first circuit board 2 and the elastic legs 1〇3 can be cancelled in the front-rear direction, so that the internal stress structure between the first circuit board 2 and the frame body 1 is relatively stable. When the second circuit board 3 is assembled to the frame body, the same structure as the first circuit board 2, and the second circuit board 3 are fixed in the left-right direction by the positioning foot 101 and the elastic foot 1〇3. In the frame t. However, because the length of the third circuit board 3 is greater than the length of the first circuit board 2, the distance between the front notch 31 and the rear notch 32 of the first circuit board 3 is greater than the front notch 21 of the first circuit board 2, and the rear notch 22 The distance between the elastic feet 1〇3 and the rear end 33 of the second circuit board 3 is required to be horizontally compressed and deformed backwards, for example, by arranging the lower oblique branch The end of the arm 1〇35 is buckled in the back notch 32 to fix the rear end 23 of the second circuit board 3 in the front-rear direction and the left-right direction. The outer casing 4 is mounted on the outer side of the frame body 1. When the button 14G is pressed and pushed, the connector 104 in front of the first circuit board 2 or the second circuit board 3 can protrude from the outer casing 4 to signal with an external device. When the transfer button is pressed and the button 丨40 is retracted, the joint 1〇4 is recovered to the inside of the casing 4. Referring to the fifth to sixth embodiments, in the mobile storage device 100 according to the second embodiment of the present invention, the mobile storage device 1 is substantially similar in structure to the mobile storage device 100 in the first embodiment. Similarly, the main difference between the two is that the elastic foot 1〇3 includes the first elastic leg 1031 and the second elastic leg 1032. The same as the bullet! The raw foot 103 in the first embodiment, the first elastic cuff is also extended from the rear end wall u into the valley space 10, but the first in the embodiment. The elastic leg 1〇31' includes an extending arm (not shown) extending from the rear end wall 13 horizontally forward, a turning portion 1037' at the end of the front extending arm, and a self-turning portion 1〇37, inclined obliquely upward The upper oblique arm 1038' is extended forward, and when the first elastic leg 1〇31' is pressed, the upper oblique arm 1〇38 can be rotationally deformed backward by the turning portion 1037' as a base point. The second elastic leg 1〇32' extends from the side wall 14 away from the first elastic leg 1031' toward the inner side of the accommodating space 10. The second elastic leg 1032' includes an oblique arm 1033' extending obliquely from the side wall 14 toward the inside of the accommodating space 10, a rear inclined arm 1 〇 33, a distal turning portion 1034', and a self-turning portion 1 〇 34 Further, the inclined arm 1 〇 35 is further extended obliquely forward toward the inside of the accommodating space 10. When the second elastic foot 1032 is pressed, the front oblique arm is sturdy, and the pie arm is deleted, and the turning portion 1034' is made close to each other and elastically deformed. The first elastic leg 1〇31 has a compression direction on a vertical plane extending in the front-rear direction and a second elastic foot 1〇32, the compression direction being on a horizontal plane. By the arrangement, the rear ends 23, 33 of the first circuit board 2 or the second circuit board 3 can also be fixed by the first and second elastic legs, and the front and rear directions and the left and right directions can be fixed. For the sake of the seventh embodiment, the mobile storage device of the third embodiment of the present invention is provided with the same function as that of the second embodiment of the mobile storage device 100, 100'. The difference between the three is that the two elastic legs 1G3 of the mobile storage device 1′′ are the same as the first elastic leg 1G33 of the second embodiment, and the position is the same as that of the first embodiment. The foot 1Q3 is the same. That is, the elastic talk, including the extension f 1G33 from the horizontal (four) extension of the rear end wall 13, is located at the front extension arm coffee ΐΪΐ ΐΠ ΐΠ 1034, 'and the self-turning portion is deleted obliquely upward The front extension extends above the oblique branch #1035, and when the two elastic feet 1〇3" are received, the upper folded portion 1034" is rotated backwards and deformed by the base point. 7 is rotated at ιΐΐίϊΓΓ, the elastic feet 1G3, 1G3, and 1G3 , are respectively set in pairs, in the S real money type towel, as shown in the three types of _-like elastic type, can achieve the technical purpose of this creation needs to be solved. In summary, the mobile storage device 100, 100,, 10 shape elasticity _, fat, wealth, continued clock knot Optional New Zealand M380560 and above ΐΐϋίΐΓ合新偷卿, New Zealand café hat. However, the above mentioned are only for the example of the New Zealand, this is a limit, for those who are familiar with the literary arts, according to the creation or change, All should be covered in the scope of the following patent application. _ The special effect modification [simplified description]
第-圖為本創作機存置接頭伸出崎之示 電實施方式之移動存鍺裝置殼體:構鄉^The first figure is the mobile storage device housing of the creative machine storage connector.
一電路板與架體 第三圖為本創作第-實施方式巾鶴存 配合時之部分立體組合圖: I心弟 第四圖為本創作第一實施方式中移動存 配合時之部分立體組合圖; 錯裝置之第 二電路板與架體 第五圖為本糾乍第二實施方式中移動存 配合時之部分立體組合圖; 儲裝置之第一 電路板與架體 之第二電路板與架體 第六圖為本創作第二實施方式中移動存 配合時之部分立體組合圖; 、The third figure of a circuit board and the frame body is a partial three-dimensional combination diagram of the first embodiment of the creation of the towel crane: The fourth figure of the heart is the partial three-dimensional combination diagram of the movement in the first embodiment. The second circuit board of the wrong device and the fifth figure of the frame body are part of the stereoscopic combination diagram of the mobile device in the second embodiment; the first circuit board of the storage device and the second circuit board and frame of the frame body The sixth figure is a partial stereoscopic combination diagram of the mobile storage in the second embodiment of the present invention;
置之架體之示意圖 第七圖為本創作第三實施方式移動存儲裝 【主要元件符號說明】 、 移動存儲設備 容置空間 抵止塊 上斜支臂 轉折部 下斜支臂 第二彈性腳 前斜支臂 接頭 100、100’' 100” 架體 10 102 1033 、 1038’ 、 定位勾部 彈性腳 1035” 101 103、103’、103” 1034、1037’、1034,、1〇34. 1035 1032, 1035, 104 第—彈性腳 後斜支臂 前伸支臂 底壁 1031, 1033’ 1033” 11 9 M380560 前端壁 12 後端壁 13 頂部 130 抵止壁 131 側壁 14、15 按紐 140 扣持塊 141 第一電路板 2 前缺口 21 ' 31 後缺口 22、32 後端 23、33 邊緣 24、34 前端 25 ' 35 外殼 4 頂殼 41 底殼 42 滑槽 401 扣持孔 402 側部 403 第二電路板 3The seventh diagram of the frame is the third embodiment of the mobile storage device [main component symbol description], the mobile storage device accommodation space abutment block oblique arm extension portion lower oblique arm second elastic foot front oblique Arm joint 100, 100'' 100" frame 10 102 1033, 1038', positioning hook elastic foot 1035" 101 103, 103', 103" 1034, 1037', 1034, 1〇 34. 1035 1032, 1035 , 104 - elastic back foot inclined arm forward arm bottom wall 1031, 1033' 1033" 11 9 M380560 front end wall 12 rear end wall 13 top 130 abutting wall 131 side wall 14, 15 button 140 holding block 141 A circuit board 2 front notch 21' 31 rear notch 22, 32 rear end 23, 33 edge 24, 34 front end 25' 35 outer casing 4 top case 41 bottom case 42 chute 401 fastening hole 402 side 403 second circuit board 3
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