200945678 九、發明說明: * 【發明所屬之技術領域】 • 本發明涉及一種硬碟轉接裝置,特別涉及一種轉接卡 的硬碟轉接裝置。 【先前技術】 硬碟通常被用於存儲資訊。為實現硬碟之間的資源分 享,通常需要一連接於兩硬碟之間的硬碟轉接裝置,實現 ^兩硬碟之間資料的傳輸。 業界常用的硬碟轉接裝置包括轉接板和軟排線。轉接 板上設有控制晶片、電路、插座和插槽。其中,電路用於 連接控制晶片、插座和插槽。該軟排線可插設入插槽内。 使用時:先將軟排線的一端端子插設於插槽内,另一端端 子插設於一硬碟上;再將轉接板的插座插設於另一硬碟 上,最後通過轉接板上的晶片來控制兩硬碟之間的資料傳 輸。 〇 然而,在使用時,通常軟排線上與硬碟連接的端子需 要多次重複插拔,這樣會導致該端子會發生變形,從而會 影響該端子與硬碟之間的連接。 【發明内容】 有鑒於此,有必要提供一種便於與硬碟連接的硬碟轉 接裝置。 一種用於連接第一硬碟和第二硬碟的硬碟轉接裝置, 6 200945678 包括轉接卡和轉接板,轉接卡包括相互連通的第—金手指 和第-金手指’第-金手指與第—硬碟連接,第二金手指 與轉接板連接,再通過轉接板連接於第二硬碟上,轉接板 用於控制第—硬碟與第二硬碟之間的資料傳輸。 上述硬碟轉接裝置是通過金手指與硬碟相連接,因為 金手指較排線的端子硬度高,所以,在插拔的過程中不易 發生變形’便於硬碟轉接襄置與硬碟之間的連接。 ®【實施方式】 八2圖1所示’為—較佳實施方式硬碟轉接裝置10〇的 :解圖。硬碟轉接裝置⑽用於連接兩 =括轉接B。、轉接板2〇、承載趙3〇以及= =疋件50。其卜轉接卡1〇通過固定板4〇和固定= 固疋於承載體30上’且與轉接板2〇電性連接。 轉接卡10大致為矩形、屋声蛊 10上讯右笛人谷度為0.2mm的板。轉接卡 ❹装中2 Γ 、第二金手指12和兩定位部13。 ' 手指11和第二金手指12對稱地設置於轉 卡10的相對兩邊緣處,兩定位部13對稱地^署於結 10的另外兩相對的邊#」對稱地設置於轉接卡 位孔131。㈣邊緣處。兩定位部13上各開設有一定 轉接板20上設有用於與第一金 和與插槽21相對設置的插栝 槽21 (圖未示)。轉接板20 :插碩22内設有多個插腳 和插頭22的電路等(圖未示)。 、 槽21 7 200945678 承載體30上設置有便於承載硬碟的收容槽31。承載 * 體30的一邊緣處凸設有長條形的固定部32,固定部32上 . 開設有兩固定孔321,固定孔321設有内螺紋。兩固定孔 321之間的距離等於兩定位孔131之間的距離。 固定板40為一長條形的平板,其上開設有兩穿孔41。 兩穿孔41之間的距離與兩固定孔321之間的距離相等,與 兩定位孔131之間的距離也相等。固定件50可順次通過穿 孔41和定位孔131後螺合入固定孔321内,從而將轉接卡 ® 10固定固定於承載體30上。 如圖2所示,組裝時:首先,將轉接卡10的兩定位孔 131分別與固定部32的固定孔321相對,將固定板40的 兩穿孔41分別與轉接卡10的兩定位孔131相對;然後, 將固定件50順次通過穿孔41和定位孔131螺合入固定孔 321内,此時,轉接卡10固接到承載體30上;最後,第 二金手指12插設入插槽21内,至此,硬碟轉接裝置組裝 ❹完畢。 同時參閱圖3,使用時,將第一金手指11插設於第一 硬碟61上,插頭22插設於第二硬碟62上,通過轉接板 20上的晶片來控制第一硬碟61與第二硬碟62之間的資料 傳輸。 上述硬碟轉接裝置是通過金手指11與第一硬碟61相 連接,因為金手指較排線的端子硬度高,所以,在插拔的 過程中不易發生變形,便於硬碟轉接裝置100與第一硬碟 61之間的連接。 8 200945678 【圖式簡單說明】 圖1為一較佳實施方式具有轉接卡的硬碟轉接轉置的 立體圖。 圖2為硬碟轉接裝置的組裝圖。 圖3為硬碟轉接裝置用於連接兩硬碟時的使用狀態 圖。 ®【主要元件符號說明】 硬碟轉接裝置 100 轉接卡 10 第一金手指 11 第二金手指 12 定位部 13 定位孔 131 轉接板 20 插槽 21 插頭 22 承載體 30 收容槽 31 固定部 32 固定孑L 321 固定板 40 穿孔 41 固定件 50 第一硬碟 61 第二硬碟 62 9200945678 IX. Description of the invention: * [Technical field to which the invention pertains] The present invention relates to a hard disk transfer device, and more particularly to a hard disk transfer device for a riser card. [Prior Art] A hard disk is usually used to store information. In order to achieve resource sharing between hard disks, a hard disk transfer device connected between two hard disks is usually required to realize data transfer between two hard disks. Hard disk adapters commonly used in the industry include adapter boards and flexible cables. Control boards, circuits, sockets and slots are located on the transfer board. Among them, the circuit is used to connect the control chip, socket and slot. The flexible cable can be inserted into the slot. When in use: first insert one end of the flexible cable into the slot, and the other terminal is inserted into a hard disk; then plug the socket of the adapter into another hard disk, and finally pass the adapter plate. The upper chip controls the data transfer between the two hard disks. 〇 However, in use, the terminal connected to the hard disk on the flexible cable usually needs to be repeatedly inserted and removed several times. This will cause the terminal to be deformed, which will affect the connection between the terminal and the hard disk. SUMMARY OF THE INVENTION In view of the above, it is necessary to provide a hard disk transfer device that facilitates connection with a hard disk. A hard disk transfer device for connecting a first hard disk and a second hard disk, 6 200945678 includes a riser card and an adapter plate, and the riser card includes a first-gold finger and a first-gold finger'- The gold finger is connected to the first hard disk, the second golden finger is connected to the adapter plate, and then connected to the second hard disk through the adapter plate, and the adapter plate is used for controlling between the first hard disk and the second hard disk. Data transmission. The above-mentioned hard disk transfer device is connected with a hard disk by a gold finger, because the gold finger has a higher hardness than the terminal of the wire, so that it is not easily deformed during the process of plugging and unloading, and it is convenient for the hard disk transfer device and the hard disk. The connection between the two. ® [Embodiment] VIII 2 is shown in Fig. 1 as a preferred embodiment of the hard disk transfer device 10 :: solution. The hard disk transfer device (10) is used to connect two = transfer B. , the adapter plate 2 〇, carrying Zhao 3〇 and = = 疋 50. The adapter card 1 is electrically connected to the adapter plate 2 through the fixing plate 4 and fixed = fixed to the carrier 30. The riser card 10 is roughly rectangular, and the house sounds 10 on the board of the right flute with a valley of 0.2 mm. The adapter card has 2 Γ in the armor, a second gold finger 12 and two positioning portions 13. The finger 11 and the second gold finger 12 are symmetrically disposed at opposite edges of the card 10, and the two positioning portions 13 are symmetrically disposed on the other two opposite sides of the node 10 symmetrically disposed on the adapter card hole 131. (4) At the edge. Each of the two positioning portions 13 is provided with a certain adapter plate 20 and is provided with a insertion groove 21 (not shown) for being disposed opposite to the first gold and the slot 21. Adapter plate 20: A circuit or the like (not shown) in which a plurality of pins and plugs 22 are provided in the plug-in board 22. The slot 21 7 200945678 is provided with a receiving slot 31 for carrying the hard disk. An elongated fixing portion 32 is protruded from an edge of the bearing body 30. The fixing portion 32 is provided with two fixing holes 321 which are provided with internal threads. The distance between the two fixing holes 321 is equal to the distance between the two positioning holes 131. The fixing plate 40 is an elongated flat plate on which two through holes 41 are opened. The distance between the two through holes 41 is equal to the distance between the two fixing holes 321, and the distance between the two positioning holes 131 is also equal. The fixing member 50 can be screwed into the fixing hole 321 through the through hole 41 and the positioning hole 131 in order to fix the adapter card ® 10 to the carrier 30. As shown in FIG. 2, in the assembly, firstly, the two positioning holes 131 of the adapter card 10 are respectively opposed to the fixing holes 321 of the fixing portion 32, and the two through holes 41 of the fixing plate 40 and the two positioning holes of the riser card 10 are respectively disposed. 131 is opposite; then, the fixing member 50 is screwed into the fixing hole 321 through the through hole 41 and the positioning hole 131 in sequence, at this time, the adapter card 10 is fixed to the carrier 30; finally, the second gold finger 12 is inserted In the slot 21, the hard disk adapter is assembled. Referring to FIG. 3, in use, the first gold finger 11 is inserted on the first hard disk 61, the plug 22 is inserted on the second hard disk 62, and the first hard disk is controlled by the wafer on the adapter board 20. Data transfer between 61 and the second hard disk 62. The hard disk transfer device is connected to the first hard disk 61 by the gold finger 11 , because the gold finger has higher hardness than the terminal of the wire, so that deformation is less likely to occur during the insertion and removal process, and the hard disk transfer device 100 is facilitated. The connection with the first hard disk 61. 8 200945678 BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of a preferred embodiment of a hard disk transfer transposition with a riser card. Figure 2 is an assembled view of the hard disk transfer device. Fig. 3 is a view showing the state of use of the hard disk transfer device for connecting two hard disks. ® [Main component symbol description] Hard disk adapter 100 Riser card 10 First gold finger 11 Second gold finger 12 Positioning part 13 Positioning hole 131 Adapter plate 20 Slot 21 Plug 22 Carrier 30 Storage slot 31 Fixing part 32 fixing 孑L 321 fixing plate 40 perforation 41 fixing member 50 first hard disk 61 second hard disk 62 9