M427605 五、新型說明: 【新型所屬之技術領域】 本創作係為一種組裝模組及其具有組裝模組之電腦系 統,特別是一種利用簡易的支撐架來組裝之組裝模組及其 具有組裝模組之電腦系統之創作。 【先前技術】 隨著科技的進步,筆記型電腦已經是普遍的電子產 品,也因此現今的筆記型電腦已經具有可隨使用者需求而 變更規格之設計,例如更改記憶體之大小或是抽換儲存裝 置。而其中為了避免儲存裝置之損壞,現今的筆記型電腦 對於抽換儲存裝置之結構設計通常都會特別重視。 接著請參考圖1係先前技術之組裝模組之其中一實施 例之架構圖。 在先前技術中之其中一實施例中已經揭示一種用於筆 記型電腦之組裝模組90。組裝模組90可包括固定架91、 支撐座92、絕緣片93及蓋體94。儲存裝置96係安裝於固 定架91内,再藉由支撐座92固定。儲存裝置97與支撐座 92之間還具有絕緣片93,以避免因為接觸到金屬材質之支 撐座92而對儲存裝置96的運作產生干擾。最後再利用蓋 體94覆蓋住以保護整體的結構。 固定架91及支撐座92安裝儲存裝置96後,再藉由複 數之鎖固件95來固定,其中鎖固件95可以為鉚釘或是螺 絲。由此可知,由於先前技術之組裝模組90使用了數量較 多的鎖固件95,因士 a 支樓座92及概;^ /造成成本增加。且在先前技術中的 成本增加。另一方而會配合儲存裝置96之大小,而使得 不穩固,會使得儲存技-術模組⑽1方式並 資料損毁。 裝置96谷易搖晃,可能會造成儲存的 有鑑於此,因y_ 士、 有其結構之電腦“,&要創料—輯的組錢組及具 '、、、,以解決先前技術的缺失。 【新型内容】 本創作之主要目的係在 用簡易的切架來纟讀儲存裝置其具有利 系統本|]作之另—目的係在提供'種具有組裝模組之電腦 統之二t創? it裝模組用以於電腦系 一支撐h 5 I模組包括固定架、至少 寸,架定 裝=定架。其中各至少_支撐架包括;== 第二鎖固穿孔與壓持部。 於第-鎖固臂,第一鎖固臂及第二鎖連接 裝置。至少-鎖固件係穿過至少一固定錯存 -穿孔以將至少一支撐架固定於固定架上及苐 持部接觸於儲存裝置,以藉由夹持方式^ 1 M427605 本創作之具有組裝模組之電腦系統包括殼體、儲存裝 置及組裝模組。組裝模組係設置於殼體内以安裝儲存裝 置。組裝模組包括固定架、至少一支撐架及至少一鎖固件。 固定架係配合儲存裝置之尺寸。固定架具有至少一固定 孔。至少一支撐架係連接儲存裝置與固定架。其中各至少 一支撐架包括第一鎖固臂、第二鎖固臂及連接面。第一鎖 固臂具有第一穿孔與壓持部。第二鎖固臂具有第二穿孔。 第二鎖固臂係經由連接面連接於第一鎖固臂,第一鎖固臂 及第二鎖固臂係用以夾持儲存裝置。至少一鎖固件係穿過 至少一固定孔、第一穿孔及第二穿孔以將至少一支撐架固 定於固定架上,並使得第一鎖固臂之壓持部接觸於儲存裝 置,以藉由夾持方式固定儲存裝置。 由於本創作構造新穎,能提供產業上利用,且確有增 進功效,故依法申請新型專利。 【實施方式】 為讓本創作之上述和其他目的、特徵和優點能更明顯 易懂,下文特舉出本創作之具體實施例,並配合所附圖式, 作詳細說明如下。 以下請先參考圖2係本創作之組裝模組設置於電腦系 統内之示意圖。 本創作之電腦系統1可為一筆記型電腦,但本創作並 不以此為限。電腦系統1包括殼體2、儲存裝置3及組裝 模組10。殼體2係包覆電腦系統1内之主要零組件,亦包 括包覆儲存裝置3。殼體2還具有蓋體2a,使用者可藉由 5 M427605 拆卸蓋體2a來更換儲存裝置3或其他的電子元件。儲存裝 置3可為硬碟(Hard Disk Drive,HDD),但本創作並不以 此為限,本創作亦不限定儲存裝置3之大小。組裝模組10 係用以安裝儲存裝置3,並設置於電腦系統1之殼體2内。 當組裝模組10安裝儲存裝置3後,再藉由殼體2之蓋體 2a以保護儲存裝置3。 關於組裝模組10之詳細構造請一併參考圖3及圖4關 於本創作之組裝模組之相關示意圖,其中圖3係本創作之 組裝模組之第一實施例之分解圖,圖4係本創作之組裝模 組之第一實施例之組裝圖。 組裝模組10包括固定架21、至少一支撐架30及至少 一鎖固件41。固定架21係配合儲存裝置3之尺寸,以放 置儲存裝置3,例如2.5吋或3.5吋規格之儲存裝置3,但 本創作並不以此為限。固定架21具有至少一固定孔211, 用以配合支撐架30之數量以固定支撐架30。 支撐架30係為金屬材質,用以夾持儲存裝置3,並固 定於固定架21上。在本創作之第一實施例中,組裝模組 10具有第一支撐架30a及第二支撐架30b,其分別對應固 定架21上的第一固定孔211a及第二固定孔211b。其中固 定架21為一矩形,因此包括二長邊21a及二短邊21b,第 一固定孔211a及第二固定孔211b係分別位於固定架21之 兩對邊,亦即位於二長邊21a或二短邊21b上。在本實施 例中,第一固定孔211a及第二固定孔211b係分別位於固 定架21之二長邊21a上使第一支撐架30a及第二支撐架 30b固定於第一固定孔211a及第二固定孔211b時,第一支 M427605 撐架30a及第二支撐架30b能朝向相反方向,讓儲存裝置 3能更穩定地固定於固定架21上。支撐架30與儲存裝置3 之間還可具有絕緣片51 ’以避免因為接觸到金屬材質之支 撐架30影響到儲存裝置3之功能。在本創作之第一實施例 中,絕緣片51之面積係配合支撐架3〇接觸於儲存裝置3 之接觸面的大小,並且在本創作之較佳實施例令,絕<緣片 51之面積係大於支撐架30接觸於儲存裝置3之面積。需 注意的是,本創作並不限定必須有兩個第一支撐架3〇a及 第二支撐架30b,用單一個支撐架3〇或多數個支'撑架3〇 皆吁達到本創作的目的。 鎖固件41可為一螺絲,但本創作並不以此為限。鎖固 件41用以通過固定架21之固定孔211以將支撐架3〇固定 於固定架21上。當鎖固件41為螺絲時,固定孔211内還 巧*具有螺帽42以配合鎖固件41之鎖固。M427605 V. New Description: [New Technology Field] This creation is a modular module and its computer system with assembled modules, especially an assembly module assembled with a simple support frame and its assembly die. The creation of the computer system of the group. [Prior Art] With the advancement of technology, notebook computers are already popular electronic products, so today's notebook computers have been designed to change specifications according to user needs, such as changing the size of memory or swapping Storage device. In order to avoid damage to the storage device, today's notebook computers usually pay special attention to the structural design of the removable storage device. Referring now to Figure 1, there is shown an architectural diagram of one of the prior art assembly modules. An assembly module 90 for a notebook computer has been disclosed in one of the prior art embodiments. The assembly module 90 can include a mounting bracket 91, a support base 92, an insulating sheet 93, and a cover 94. The storage device 96 is mounted in the fixing frame 91 and fixed by the support base 92. An insulating sheet 93 is also disposed between the storage device 97 and the support base 92 to avoid interference with the operation of the storage device 96 due to contact with the metal support 92. Finally, the cover 94 is covered to protect the overall structure. After the mounting frame 91 and the support base 92 are mounted with the storage device 96, they are fixed by a plurality of fasteners 95, wherein the locking member 95 can be a rivet or a screw. It can be seen that since the assembly module 90 of the prior art uses a relatively large number of locks 95, the cost is increased due to the cost of the building block 92. And the cost in the prior art increases. The other side will match the size of the storage device 96, making it unstable, which will cause the storage technology module (10) 1 mode and data to be destroyed. The device 96 is easy to shake, which may cause storage. In view of this, the y_shi, the computer with its structure ", & want to create materials - the group of money groups and with ',,, to solve the lack of prior art [New content] The main purpose of this creation is to use a simple cutting frame to read the storage device, which has a beneficial system. The other purpose is to provide a computer system with an assembled module. The IT module is used to support the computer system. The h 5 I module includes a fixed frame, at least an inch, and a fixed frame = fixed frame. Each of the at least the support frame includes; == the second locking through hole and the pressing portion The first locking arm, the first locking arm and the second locking connecting device. At least the locking member passes through the at least one fixed stagger-perforation to fix the at least one supporting frame to the fixing frame and the clamping portion contacts In the storage device, by means of the clamping method, the computer system with the assembled module comprises a housing, a storage device and an assembly module. The assembly module is arranged in the housing to mount the storage device. The set includes a fixing frame, at least one supporting frame and at least one locking device The fixing frame is matched with the size of the storage device. The fixing frame has at least one fixing hole, and at least one supporting frame is connected to the storage device and the fixing frame, wherein each of the at least one supporting frame comprises a first locking arm, a second locking arm and a connecting surface. The first locking arm has a first through hole and a pressing portion. The second locking arm has a second through hole. The second locking arm is connected to the first locking arm via the connecting surface, the first locking arm and the second The locking arm is configured to clamp the storage device. At least one locking member passes through the at least one fixing hole, the first through hole and the second through hole to fix the at least one supporting frame to the fixing frame, and the first locking arm is The pressing portion is in contact with the storage device to fix the storage device by clamping. Since the creation structure is novel, it can provide industrial use, and indeed has the effect of improving, so the new patent is applied according to law. [Embodiment] The above and other objects, features and advantages will be more apparent and understood. The specific embodiments of the present invention are set forth below, and are described in detail below with reference to the accompanying drawings. The computer system 1 of the present invention can be a notebook computer, but the creation is not limited thereto. The computer system 1 includes a housing 2, a storage device 3 and an assembly module 10 The housing 2 covers the main components in the computer system 1, and also includes a covering storage device 3. The housing 2 also has a cover 2a, and the user can replace the storage device 3 by disassembling the cover 2a by 5 M427605 or Other electronic components. The storage device 3 can be a hard disk drive (HDD), but the creation is not limited thereto. The creation does not limit the size of the storage device 3. The assembly module 10 is used for installation and storage. The device 3 is disposed in the casing 2 of the computer system 1. After the assembly module 10 is mounted with the storage device 3, the storage device 3 is protected by the cover 2a of the casing 2. For a detailed structure of the assembly module 10, please refer to FIG. 3 and FIG. 4 for a schematic diagram of the assembled module of the present invention. FIG. 3 is an exploded view of the first embodiment of the assembled module of the present invention, and FIG. An assembly diagram of the first embodiment of the assembled module of the present invention. The assembly module 10 includes a mounting bracket 21, at least one support bracket 30, and at least one locking member 41. The holder 21 is sized to match the size of the storage device 3 to accommodate the storage device 3, such as a 2.5" or 3.5" storage device 3, but this creation is not limited thereto. The fixing frame 21 has at least one fixing hole 211 for matching the number of the supporting frames 30 to fix the supporting frame 30. The support frame 30 is made of a metal material for holding the storage device 3 and is fixed to the holder 21. In the first embodiment of the present invention, the assembly module 10 has a first support frame 30a and a second support frame 30b respectively corresponding to the first fixing hole 211a and the second fixing hole 211b of the fixing frame 21. The fixing frame 21 is a rectangular shape, and thus includes two long sides 21a and two short sides 21b. The first fixing hole 211a and the second fixing hole 211b are respectively located on two opposite sides of the fixing frame 21, that is, on the two long sides 21a or Two short sides 21b. In this embodiment, the first fixing hole 211a and the second fixing hole 211b are respectively located on the two long sides 21a of the fixing frame 21, so that the first supporting frame 30a and the second supporting frame 30b are fixed to the first fixing hole 211a and the first When the fixing holes 211b are fixed, the first M427605 bracket 30a and the second supporting frame 30b can face in opposite directions, so that the storage device 3 can be more stably fixed to the fixing frame 21. An insulating sheet 51' may also be provided between the support frame 30 and the storage device 3 to avoid the effect of the storage device 3 being affected by the support frame 30 contacting the metal material. In the first embodiment of the present invention, the area of the insulating sheet 51 is matched to the size of the contact surface of the support frame 3 which is in contact with the storage device 3, and in the preferred embodiment of the present invention, the <edge piece 51 The area is larger than the area in which the support frame 30 is in contact with the storage device 3. It should be noted that this creation does not necessarily mean that there must be two first support frames 3〇a and a second support frame 30b, and a single support frame 3〇 or a plurality of support frames 3〇 are all appealing to the creation. purpose. The lock 41 can be a screw, but the creation is not limited thereto. The locking member 41 is configured to pass the fixing hole 211 of the fixing bracket 21 to fix the supporting frame 3 to the fixing frame 21. When the lock 41 is a screw, the fixing hole 211 also has a nut 42 to fit the lock of the lock 41.
為了能夠更清楚支撐架30之作用方式,接下來請參考 圖5A及圖5B關於本創作之第一實施例之支撐架之相關八 意圖,其中圖5A係本創作之組裝模組之支樓架之第一實 施例之外觀示意圖,圖5B係本創作之支撐架與儲存裝置組 裝之第一實施例之侧視圖。In order to better understand the mode of action of the support frame 30, please refer to FIG. 5A and FIG. 5B for the related intentions of the support frame of the first embodiment of the present invention, wherein FIG. 5A is a support frame of the assembled module of the present invention. A schematic view of the appearance of the first embodiment, and FIG. 5B is a side view of the first embodiment of the assembly of the support frame and the storage device of the present invention.
,、一”一 々一喷因貫及連接 面33。第一鎖固臂31及第二鎖固臂32間係藉由連接面B 互相連接,以使得第一鎖固臂31、連接面33與第二鎖固 臂32共同形成一 U型。支撐架30係藉由第一鎖固臂^ 及第二鎖固臂32以夾持儲存裝置3。支撐架3〇的各轉 係設置圓角轉彎處34,其中第一鎖固臂31與連接面 第一鎖固臂32與連接 以避免直接與錯存裝 j接處亦包括圓角轉f處34 , 損壞。此外,圓角轉彎虎,之邊緣接觸而造成錯存裝置3的 觸於切架30之_^4亦可避免儲存裝置3之邊緣接 固臂32_而較不易^,,得第-鎖固臂3!及第二鎖 311及壓持部312,^鎖固。第一鎖固臂具有第一穿孔 第一穿孔3^係對應!^固/32上具有第二穿孔切, 接穿過第一穿孔3ΐι 、弟_—穿孔32卜使得鎖固件41可直 撐架3〇連同儲存裝置,=穿孔321及固定孔21丨,以將支 有兩個支撐架3〇及兩,固定於固定架21上。而當具 與本創作之第一 固疋孔211時,就如同圖3及圖4 揮架3〇b之_ =,示’第一支撐架30a及第二支 定架21之二長邊。2朝向相反方向,以配合分別位於固 21沁。 &上之第一固定孔211a及第二固定孔 則對應於儲存裝儲存裝置3之其中一側邊,壓持部312 41穿過第一穿孔3丨之另一側邊。當支撐架30藉由鎖固件 鎖固臂31之壓拉Λ 1及第二穿孔321而鎖固時,可使第一 持部312之變开/ 312接觸到儲存裝置3,it-步藉由壓 就如圖5B所示,^生朝向儲存裝置3之側邊的夾持力。 以藉由朝向儲丄 鎖口是31之壓持部312會向内變形, 在本創作3置3之側邊夾持的方式固定儲存裝置3。 突出點331。第一办實施方式中,連接面33還包括了第一 凹點3a,以使蚀六大出點331係配合儲存裝置3上的第一 其中第—凹子I置3與支樓架3Ga組裝時能夠更穩固。 a可為忒置於儲存裝置3上之螺絲孔,但本 M427605 創作並不以此為限β 接著請一併參考圖6Α及圖6Β關於本創作之第二實施 例之支稽架之相關示意圖,其中圖6 A係本創作之組裝模 組之支撐架之第二實施例之外觀示意圖,圖6B係本創作之 支撐架與儲存裝置組裝之第二實施例之侧視圖。 在本創作之第二實施例中’支樓架30’之壓持部312上 還具有第二突出點313。第二突出點313之位置係對應儲 存裝置3上的第二凹點3b,其中第二凹點3b係與第一凹 點3a相同,皆可為設置於儲存裝置3上之螺絲孔,但本創 作並不以此為限。 最後請一併參考圖7及圖8關於本創作之組裝模組之 第三實施例之相關示意圖,其中圖7係本創作之組裝模組 之第三實施例之分解圖,圖8係本創作之組裳模組之第三 實施例組裝後之側視圖。 在本創作之第二實施例中’組裝模組1 〇 ’之固定竿21, 更包括延伸出第一夾持區塊22及第二失持區塊23。第一 失持區塊22及第二夾持區塊23.之間可構成放置儲存裝置 3之容置空間。因此當組裝儲存裝置3時,係先將儲存裝 置3放置入第一夾持區塊22及第二夾持區塊23之間的容 置空間,另一邊再藉由支撐架3〇固定於固定架21上。如 此一來,儲存裝置3可藉由第一夾持區塊22及第二失持區 塊23之夾持以及支撐架3〇的作用而固定於固定架21,。 由上述的說明可知’本創作之組裝模組1〇或組裝模組 1〇’的組裝方式簡單,且不需要用到太多的鎖固件41或是使 用較大面積的支撐架30’可節省下許多成本。 9 M427605 综上所陳,本創作無論就目的、手段及功效,在在均 顯示其迥異於習知技術之特徵,懇請貴審查委員明察, 早曰賜准專利,俾嘉惠杜會,實感德便。惟應注意的是, 上述諸多實施例僅係為了便於說明而舉例而已,本創作所 主張之權利範圍自應以申請專利範圍所述為準,而非僅限 於上述實施例。 【圖式簡單說明】 圖1係先前技術之組裝模組之其中一實施例之架構圖。 圖2係本創作之組裝模組設置於電腦系統内之示意圖。 圖3係本創作之組裝模組之第一實施例之分解圖。 圖4係本創作之組裝模組之第一實施例之組裝圖。 圖5A係本創作之組裝模組之支撐架之第一實施例之外觀 示意圖。 圖5 B係本創作之支撐架與儲存裝置組裝之第一實施例之側 視圖。 圖6A係本創作之組裝模組之支撐架之第二實施例之外觀 示意圖。 圖6B係本創作之支撐架與儲存裝置組裝之第二實施例之側 視圖。 圖7係本創作之組裝模組之第三實施例之分解圖。 圖8係本創作之組裝模組之第三實施例組裝後之側視圖。 【主要元件符號說明】 M427605 先前技術: 組裝模組90 固定架91 支撐座92 絕緣片93 蓋體94 鎖固件95 儲存裝置96 本創作: 電腦系統1 殼體2 蓋體2a 儲存裝置3 第一凹點3a 第二凹點3b 組裝模組10、10’ 固定架21、21’ 長邊21 a 短邊21 b 固定孔211 第一固定孔211a 第二固定孔211b M427605 第一夾持區塊22 第二夾持區塊23 支撐架30、30’ 第一支撐架30a 第二支撐架30b 第一鎖固臂31 第一穿孔311 壓持部312 第二突出點313 第二鎖固臂32 第二穿孔321 連接面33 第一突出點331 圓角轉彎處34 鎖固件41 螺帽42 絕緣片51The first locking arm 31 and the second locking arm 32 are connected to each other by the connecting surface B such that the first locking arm 31 and the connecting surface 33 are connected to each other. The second locking arms 32 together form a U-shaped shape. The supporting frame 30 is used to clamp the storage device 3 by the first locking arm and the second locking arm 32. The rotation of the support frame 3 turns rounded and turned. At 34, wherein the first locking arm 31 and the connecting surface of the first locking arm 32 are connected to avoid direct connection with the wrong mounting j, and also include the rounded corners f, which are damaged. The edge contact causes the contact device 3 to touch the ejector 30 to avoid the edge of the storage device 3 to secure the arm 32_, which is relatively difficult, and the first locking arm 3! and the second lock 311 are obtained. And the pressing portion 312, ^ is locked. The first locking arm has a first perforation, the first perforation 3^ corresponds to the same; the solid/32 has a second perforation cut, and passes through the first perforation 3ΐι, brother_-perforation 32b enables the locking member 41 to be directly supported by the frame 3 together with the storage device, the perforation 321 and the fixing hole 21丨, so as to fix the two supporting frames 3 and 2, and fix it on the fixing frame 21. When the first fixing hole 211 is made, as in FIG. 3 and FIG. 4, the _= of the sway 3〇b indicates the two long sides of the first support frame 30a and the second support frame 21. The two directions are opposite directions. The first fixing hole 211a and the second fixing hole respectively corresponding to the solid 21 对应 are corresponding to one side of the storage device 3, and the pressing portion 312 41 passes through the first hole 3 丨When the support frame 30 is locked by the pressing Λ 1 and the second through hole 321 of the locking arm 31, the first holding portion 312 can be opened/312 to contact the storage device 3, - The step is to press the clamping force toward the side of the storage device 3 by pressing as shown in Fig. 5B. The pressing portion 312 which faces the magazine lock 31 is deformed inward, and is set in the creation 3 The storage device 3 is fixed by the side clamping. The protruding point 331. In the first embodiment, the connecting surface 33 further includes a first concave point 3a, so that the six large exit points 331 are matched with the storage device 3. The first one of the first recess 130 can be more stable when assembled with the support frame 3Ga. a can be a screw hole placed on the storage device 3, but the M427605 is not created by this. For the limitation of β, please refer to FIG. 6A and FIG. 6 for a related schematic diagram of the second embodiment of the present invention, wherein FIG. 6A is the appearance of the second embodiment of the support frame of the assembled module of the present invention. 2B is a side view of a second embodiment of the assembly of the support frame and the storage device of the present invention. In the second embodiment of the present invention, the pressing portion 312 of the 'building stand 30' further has a second protruding point. 313. The position of the second protruding point 313 is corresponding to the second concave point 3b on the storage device 3, wherein the second concave point 3b is the same as the first concave point 3a, and may be a screw hole disposed on the storage device 3, However, this creation is not limited to this. Finally, please refer to FIG. 7 and FIG. 8 for related diagrams of the third embodiment of the assembled module of the present invention, wherein FIG. 7 is an exploded view of the third embodiment of the assembled module of the present invention, and FIG. 8 is the original creation. A side view of the assembled third embodiment of the set of modules. In the second embodiment of the present invention, the fixing jaw 21 of the assembly module 1 〇 ′′ further includes a first clamping block 22 and a second missing block 23 . Between the first lost block 22 and the second clamping block 23, an accommodation space for the storage device 3 can be formed. Therefore, when the storage device 3 is assembled, the storage device 3 is first placed in the accommodating space between the first nip block 22 and the second nip block 23, and the other side is fixed to the fixed frame by the support frame 3 On the shelf 21. As a result, the storage device 3 can be fixed to the holder 21 by the clamping of the first clamping block 22 and the second holding block 23 and the action of the support frame 3〇. It can be seen from the above description that the assembly method of the assembly module 1〇 or the assembly module 1〇 of the present invention is simple, and it is not necessary to use too many fasteners 41 or use a large-area support frame 30' to save. There are many costs. 9 M427605 In summary, the creation of this creation, regardless of its purpose, means and efficacy, is different from the characteristics of the known technology. Please ask your review board to inspect the patent, and 俾嘉惠杜会,实感德Will. It is to be noted that the various embodiments described above are merely illustrative for ease of explanation, and the scope of the claims is intended to be limited by the scope of the application, and not limited to the above embodiments. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an architectural diagram of one embodiment of an assembly module of the prior art. FIG. 2 is a schematic diagram of the assembled module of the present invention installed in a computer system. Figure 3 is an exploded view of the first embodiment of the assembled module of the present invention. Figure 4 is an assembled view of the first embodiment of the assembled module of the present invention. Fig. 5A is a perspective view showing the first embodiment of the support frame of the assembled module of the present invention. Figure 5B is a side elevational view of the first embodiment of the assembly of the support frame and storage device of the present invention. Fig. 6A is a perspective view showing the second embodiment of the support frame of the assembled module of the present invention. Figure 6B is a side elevational view of a second embodiment of the assembly of the support and storage device of the present invention. Figure 7 is an exploded view of a third embodiment of the assembled module of the present invention. Figure 8 is a side elevational view of the assembled third embodiment of the assembled module of the present invention. [Main component symbol description] M427605 Prior art: Assembly module 90 Fixing frame 91 Support base 92 Insulation sheet 93 Cover 94 Locking device 95 Storage device 96 Creation: Computer system 1 Housing 2 Cover 2a Storage device 3 First concave Point 3a Second recess 3b Assembly module 10, 10' Fixing frame 21, 21' Long side 21 a Short side 21 b Fixing hole 211 First fixing hole 211a Second fixing hole 211b M427605 First clamping block 22 Two clamping block 23 support frame 30, 30' first support frame 30a second support frame 30b first locking arm 31 first perforation 311 pressing portion 312 second protruding point 313 second locking arm 32 second perforation 321 connecting surface 33 first protruding point 331 rounded corner 34 fastener 41 nut 42 insulating sheet 51
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