201106838 六、發明說明: 【發明所屬之技術領域】 本發明係有關於一種固定裝置,特別是一種介面卡固定裝置。 【先前技術】 在現今科技與資訊不斷地蓬勃發展,電腦設備已是相當普及 的電子裝置’目前市面上所見的電腦設備,像是桌上型電腦、筆 記型電腦、或是伺服器,所使用的電腦周邊硬體系統,例如控制 器川面卡(Peripheral Component Interconnect Card,PCI card)或 疋視訊圖形陣列顯示卡(Video Graphics Array Card,VGA card ) 等外接式硬體裝置,必須與主機板相互電性連接,以使電腦主機 與電腦周邊硬體系統互相通訊及傳遞訊號,以執行周邊硬體之預 5又功旎。為了防止介面卡因外力而鬆動或脫落,須透過一固定手 段將介面卡固定於電腦主機板之插槽内。 目刖用於伺服器電腦之介面卡固定方式,係於伺服器電腦殼 體6又置一介面卡支架,以將包含複數個介面卡插槽的轉接板固定 於支架中。其中’介面卡係固定於介面卡支架中,並電性連接於 各’丨面卡插槽。接1以螺絲將介面卡支架鎖合固定於殼體内部之 預疋位置’並使轉接板電性連接於主機板,以使介面卡與主機板 電性連接。 、…、:而在文裝或拆卸介面卡作業時,必須藉助手工具鎖固或 ^脫螺絲’且需要耗㈣間細或鬆爾絲,使更齡面卡的過 程因鎖固或拆卸螺絲而花#過久時間。_,賴容易掉落於主 201106838 機板上,峻成主機板之電路短路燒毀的問題。且由於不同機種 之舰益電腦的殼體尺寸與線路配置不盡相同,導致前述的介面 卡支架並無_餘各賴種的值料财料產生了另一 個使用上的不便,以及製造成本增加的問題。 另外’美國專利第7,⑹,798號專利案(以下稱第798號專利 案)揭露-種擴充卡固定裝置,其包括有—第—固定架、一第二固 定架、及-後板。後板上設有複數個卡槽,㈣—固定架係 =可轉動之關係固定於後板上。第二固定架係固定於第一固定 架’且第二11絲設錢數地接部,轉擴充相定於擴充卡 槽内。 第798號專利案雖解決介面卡以螺絲鎖合固定所產生之問 題’但第798號專儲僅__元件以面接_方式直接壓抵 多個介面卡而予關定,若是電職置受職重的搖晃或外力撞 擊’壓制元件將極易自介面卡上鬆脫,而失去其之功能。 【發明内容】 鑒於以上的問題’本發明提供一種介面卡固定裝置,藉以改 .良習用介面卡固絲置並無法翻於不同__㈣電腦,以 及習用介面卡峡裝置叫—_元件直接龜多彳时面卡,導 致壓制it件容錢外力料而鬆脫,進而喪失魏侧等問題。 本發明之介φ卡m定裝置,制以將介面卡@定於電腦裝置 的成體内’其包括有-本體及—壓制件。本體係固定於殼體上, 本體具有至少及-容置槽,且本體具有财過容置槽的一 201106838 導引槽,介面卡係於導引槽内滑移至結合位置。壓制件的一端為 極設端’另—端為壓制端,其巾樞設端雜設於滑㈣,使壓制 件沿著滑執位移’並令㈣端於—釋放位置與抵位置之間柩 轉。 *壓制端樞轉至壓抵位置時,壓制端係固設於本體的容置槽 内’並驗介面卡轉於結合位置,且壓綱與樞賴之間具有 一夹角。 本發明另揭露-介面卡m定I置,制以將介面卡固定於電 腦裳置的殼勒’其包括有—本體及—壓制件。本體係固定於殼 體上本體的-端為第-樞設端,且第一枢設端具有一容置槽, 本體具有㈣過容置槽的—導引槽,介面卡係於導引槽内滑移至 、、Ό 5位置。壓制件的一端為第二樞設端,另一端為壓制端,其中 第一樞賴與本體的第—樞設端她接’壓綱可於—釋放位置 與一壓抵位置之間樞轉。 樞轉至壓抵位置時,壓制端係固設於本體的容置槽 内,並壓齡面卡簡於結合位置,且壓綱與第二倾端之間 具有一夾角。 本發明之功效在於’介面卡固定裝置可剌於不同機種的電 腦裝置及介面卡的組配’且㈣件之㈣端侧設於本體的容置 槽内’以與介面卡呈干涉Μ係,並且_件的壓綱與植設端之 間具有-夾角’以咖驗介面卡偏树結合位置科致鬆脫。 以上之關於本發财容之說明及以下之實施方式之說明係周 201106838 ’並且提供本發明之專利申請範圍更 以示範與解釋本發明之原理 進一步之解釋。 【實施方式】 第1A圖j、第1B圖」、及「第2圖」為本發明第一實施 體示思圖本發明第一實施例之介面卡固定裝置100係將 一介面卡200固定於電腦裝置300之殼體310内,其中電腦裝置 3〇(^内可電性裝設多·個介面卡·,而介面卡固絲置刚的設置 數罝係根據介©卡㈣數量所決定,因此介面相定裝置1⑻與 介面卡200為一對一的結合關係。 本發明第-實施例之介面卡固定裝置丨⑽包括有一本體11〇 及一壓制件120。本體110係設計為一長條型結構,於本體11〇 的一側面上具有至少二組的卡鉤114,並勾扣於殼體31〇的扣孔 311内,使本體110固定於殼體31〇上。值得注意的是,熟悉此項 技術者亦可改變本體110與殼體310之間的結合手段,並不以本 實施例為限。 請繼續參閱「第1A圖」及「第1B圖」,本體11〇的二相對 側邊分別開設有相對應的滑軌111 ’本體110的一端更具有向内凹 設的容置槽112,且本體110更具有橫穿過容置槽112的導引槽 113(導引槽113即沿著本體110的長軸方φ設置),因此容置槽112 與導引槽113係呈相互垂直的設置關係。 壓制件120的一端為樞設端121,另一端為壓制端122。其中., 樞設端121的内壁面凸設有二相對的樞軸1211,係分別插設於二 201106838 滑執m.内’雜制件12G與本體⑽她接,並且壓制件i2〇 y沿著滑軌111而相對於本體11G往復位移,而獅端122亦隨 者壓制件120於本體110上進行滑移。另外,壓制件12〇更具有 -操作部123 ’以便於朗者可握持操作部⑵而難制件⑼ 執行滑移或是樞轉的作動’且_件12G的獅端122上更具有 一限位部1221。 如「第3圖」至「第5圖」所示之作動狀態示意圖,當介面 卡200欲裝设至殼體31〇内時,介面卡固定裝置1〇〇之壓制件⑼ 係先沿著雜iinf移至賴11G的上方並轉至槪位置(即壓 制件120相對於本體no向上樞轉),再以限位部咖抵靠於本體 110上,使壓制件120不致自釋放位置上脫離。介面卡2〇〇係沿著 向下的裝設方向進入本體110的導引槽113内,並沿著導引槽ιΐ3 滑移至結合位置,而此一結合位置係指介面卡2〇〇與電腦裝置内 之電性插槽(圖中未示)相互電性連接的位置。 § 面卡200滑移至結合位置後,壓制件丨2〇即可自釋放位 置脫離,並沿著滑執111向下滑移。此時,壓制件12〇的壓制端 122樞轉至壓抵位置’並且固設於本體11〇的容置槽112内而與介 面卡200的裝設方向形成干涉關係,以壓抵介面卡2〇〇保持於結 合位置而不致鬆脫。由於壓制端122與樞設端121的軸心並非位 於同一轴線上,因此壓制端122與樞設端121之間具有一炎角0, 以穩固的壓抵住介面卡200,確保壓制件120不會因介面卡2〇〇 的反作用力推抵而喪失其壓制效果。 201106838 「第6A圖」、「第6B圖」、及「第7圖」為本發明第二實施 例之立體示意圖。本發明第二實施例之介面卡岭裝置励係將 一介面卡200固定於電腦裝置3〇〇之殼體31〇内,其中電腦裝置 300内可電縣設錄介面卡·,时面卡固定n⑻的設置 數量係根據介面卡200數量所決定,因此介面卡固定裝置1〇〇與 介面卡200為一對一的結合關係。 本發明第二實施例之介面卡固定装置1〇〇包括有一本體11〇 及一壓制件130。本體11〇係設計為一長條型結構,於本體11() 的一侧面上具有至少二組的卡鉤114 ’並勾扣於殼體31〇的扣孔 311内’使本體110固定於殼體310上。值得注意的是,熟悉此項 技術者亦可改變本體110與殼體310之間的結合手段,並不以本 實施例為限。 請繼續參閱「第6A圖」及「第6B圖」,本體11〇的一端為 第一枢設端115,且第一樞設端115具有向内凹設的容置槽112。 本體110更具有橫穿過容置槽112的導引槽113(導引槽113即沿 著本體110的長軸方向設置),因此容置槽112與導引槽113係呈 相互垂直的設置關係。另外,第一樞設端115更具有二相對的第 一樞軸1151、二相對的定位孔1152、以及二相對的止擋肋1153。 壓制件130的一端為第二樞設端131,另一端為壓制端132。 其中,第二樞設端131開設有二相對的第一樞孔1311 ’以供本體 110的二第一樞軸1151分別插設於其中’使壓制件130與本體110 相樞接。壓制件130的二相對内壁面上分別凸設有一限位凸點 201106838 1321 ’且壓制件13〇亦凸設有二相對的凸塊i33,而_件⑽ 的樞轉路徑鱗致凸塊133與本體u㈣止獅1153之間構成干 涉關係。另外’ _件13〇的壓制端132上更具有二操作部m2, 以便於使財可麟雜部1322研_件13()執行轉作動。 如「第8圖」至「第10圖」所示之作動狀態示意圖,當介面 卡200欲裝设至殼體31〇内時,介面卡固定裝置薦之壓制件⑽ 係先極轉至釋放位置(即壓制件13G相對於本體⑽向上轉),並 以限位凸點1321抵靠於本體⑽上,使壓· 13()不致自釋放位 置上脫離。介面卡係沿著向下触設方向進人本體11〇的導 引槽113 N ’並沿著導引槽113滑移至結合位置,而此一結合位 置係指介面卡2GG與電腦裝置内之電性織(财未示)相互電性 連接的位置。 當介面卡200滑移至結合位置後,壓制件13〇的壓制端 樞轉至壓抵位置,並且gj設於本體11Q的容置槽112内而與介面 卡200的裝設方向形成干涉關係,以壓抵介面卡2〇〇保持於結合 位置而不致鬆脫。由於壓制端132與第二樞設端131的軸心並非 位於同一軸線上,因此壓制端132與第二柩設端131之間具有一 夾角Θ,以穩固的壓抵住介面卡2〇〇,確保壓制件13〇不會因介面 卡200的反作用力推抵而喪失其壓制效果。 當壓制件130的壓制端132樞轉至壓抵位置時,壓制件13〇 的凸塊133與本體11〇的止擋肋1153因干涉關係而相互抵靠,藉 由壓制件130之材料可彈性變形的特性,以及透過使用者的略為 201106838 施力,方可使凸塊133跨過止擋肋1153而順利的令壓制件130向 下樞轉,而凸塊133與止擋肋1153的干涉關係即提供使用者一明 確的操作手感。另外’當壓制件13〇的壓制端132樞轉並固設於 本體110的容置槽112内,壓制件13〇的限位凸點1321係嵌設於 本體110的定位孔1152内,以提供壓制件130更有效的固持力量, 避免壓制端132因外力而自壓抵位置鬆脫。 本發明所揭露之介面卡固定裝置可適用於不同機種的電腦裝 置及介面卡的組配,並藉由壓制件之壓制端與介面卡之間構成干 涉關係,以壓抵介面卡自結合位置上鬆脫,且壓制件的壓制端與 樞設端之間具有一夾角,以穩固壓抵介面卡保持於結合位置,避 免介面卡因反作用力或外力的影響而脫離結合位置,使得介面卡 穩定地裝設於殼體上而不致鬆脫。 雖然本發明之實闕揭露如上所述,然並㈣以限定本發 明,任何熟習相隨藝者,在稀離本發明之精神和範圍内,舉 凡依本發明申請範_狀雜、構造、特徵域神#可做些許 之變更,因此本發明之專_護顧須視本賴#_之申請專 利範圍所界定者為準。 【圖式簡單說明】 第1A圖為本發明第一實施例之介面卡固定裴置之分解示意圖; 第1B圖為本發明第-實施例之介面卡固定裝置之立體組合圖; 第2圖為本發明第一實施例之分解示意圖; 第3圖為本發明第-實施例之組裝狀態之局部放大立體示意圖; 201106838 第4圖為本發明第—實施例之組裝狀態之 Ά ^ m λ V-, 丨双大立體不意圖; 弟5圖為第4圖之平面側視圖; 第6Α圖為本發明第二實施例之介面卡固定裝置之分解示意圖; 第册圖為本發明第二實施例之介面卡固定裝置之立體組合圖; 第7圖為本發明第二實施例之分解示意圖; 第8圖為本發明第二實施例之組裝狀態之局名隨大立體示音圖; 第9圖為本發明第二實施例之組裝狀態之局部放大立體示意圖; 以及 第10圖為第9圖之平面侧視圖。 【主要元件符號說明】 <第一實施例> 100 110 111 112 113 114 120 121 1211 122 1221 介面卡固定裝置 本體 滑軌 容置槽 φ 導引槽 卡鉤 壓制件 框設端 樞轴 壓制端 限位部 12 201106838 123 操作部 200 介面卡 300 電腦裝置 310 殼體 311 扣孔 θ 夾角 <第二實施例〉 100 介面卡固定裝置 110 本體 112 容置槽 113 導引槽 114 卡鉤 115 第一樞設端 1151 第一枢轴 1152 定位孔 1153 止擋肋 130 壓制件 131 第二樞設端 1311 第一枢孔 132 壓制端 1321 限位凸點 1322 操作部 13 201106838 133 凸塊 200 介面卡 300 電腦裝置 310 殼體 311 扣孔201106838 VI. Description of the Invention: [Technical Field of the Invention] The present invention relates to a fixing device, and more particularly to an interface card fixing device. [Prior Art] In today's technology and information continues to flourish, computer equipment is already a very popular electronic device 'the computer equipment currently seen on the market, such as desktop computers, notebook computers, or servers. The peripheral hardware system of the computer, such as a Peripheral Component Interconnect Card (PCI card) or an external hardware device such as a Video Graphics Array Card (VGA card), must be electrically connected to the motherboard. Sexual connection, so that the computer host and the computer peripheral hardware system communicate with each other and transmit signals to perform the pre-work of the peripheral hardware. In order to prevent the interface card from loosening or falling off due to external force, the interface card must be fixed in the slot of the computer motherboard through a fixed hand. The method of securing the interface card for the server computer is to attach an interface card holder to the server computer housing 6 to fix the adapter plate including the plurality of interface card slots in the bracket. The interface card is fixed in the interface card holder and electrically connected to each of the "face card slots". Connect the connector card holder to the pre-clamping position of the housing by screws and electrically connect the adapter board to the motherboard to electrically connect the interface card to the motherboard. ,...,: When working in the text or disassembly interface card, you must use the hand tool to lock or remove the screw 'and need to use (four) thin or loose wire, so that the process of the older card is locked or removed. And spend # too long time. _, Lai is easy to fall on the main 201106838 board, the problem of the short circuit of the motherboard is broken. Moreover, since the shell size and the line configuration of the different types of the ship's computer are not the same, the above-mentioned interface card bracket has no other inconvenience in use, and the manufacturing cost increases. The problem. Further, the 'U.S. Patent No. 7, (6), No. 798 (hereinafter referred to as Patent No. 798) discloses an expansion card fixing device including a first fixing frame, a second fixing frame, and a rear plate. There are a plurality of card slots on the rear panel, and (4) - the fixed frame system is fixed to the rear plate in a rotatable relationship. The second fixing frame is fixed to the first fixing frame ′ and the second 11 wire is provided with the money number grounding portion, and the rotation expansion phase is fixed in the expansion card slot. Although the No. 798 patent case solves the problem that the interface card is screwed and fixed, the No. 798 special store only __ components are directly pressed against a plurality of interface cards in a face-to-face manner, and are determined by the electric service. The shaking of the job or the impact of the external force's pressing element will make it easy to loosen the interface card and lose its function. SUMMARY OF THE INVENTION In view of the above problems, the present invention provides an interface card fixing device, whereby a good device interface card can not be turned over to different __ (four) computers, and the conventional interface card device is called - _ component direct turtle When you look at the face card, it will cause the pressing of the piece to allow the money to be loosened, and then lose the Wei side and other issues. The φ card m fixing device of the present invention is constructed to set the interface card@in the body of the computer device, which includes the body and the pressing member. The system is fixed on the casing, the body has at least a accommodating groove, and the body has a 201106838 guiding groove, and the interface card is slid in the guiding groove to the bonding position. One end of the pressing member is a pole end end, and the other end is a pressing end, and the towel pivoting end is mixed with the sliding (four), so that the pressing member is displaced along the sliding handle and the (four) end is between the releasing position and the abutting position. turn. * When the pressing end is pivoted to the pressing position, the pressing end is fixed in the receiving groove of the body ′ and the interface card is rotated to the bonding position, and the pressing frame has an angle with the pivot. According to the claimed invention, the interface card is fixed, and the connector card is fixed to the body of the computer, which includes the body and the pressing member. The first end of the main body of the system is fixed to the first pivoting end, and the first pivoting end has a receiving groove, and the main body has (4) a guiding groove for the receiving groove, and the interface card is attached to the guiding slot. Slip inside to , Ό 5 position. One end of the pressing member is a second pivoting end, and the other end is a pressing end, wherein the first pivoting body and the first pivoting end of the body are connected to each other to pivot between a release position and a pressing position. When pivoting to the pressing position, the pressing end is fixed in the receiving groove of the body, and the pressing surface card is simplified at the bonding position, and the pressing portion has an angle with the second tilting end. The effect of the invention is that the interface card fixing device can be assembled with the computer device and the interface card of different models, and the (four) end side of the (four) member is disposed in the receiving groove of the body to interfere with the interface card. And the _ piece of the pressure and the planting end has an - angle 'to make the interface card card partial tree combined position to loose. The above description of the present invention and the following description of the embodiments of the present invention are intended to provide a further explanation of the principles of the invention. [Embodiment] FIG. 1A, FIG. 1B, and FIG. 2 are the first embodiment of the present invention. The interface card fixing device 100 of the first embodiment of the present invention fixes an interface card 200 to In the housing 310 of the computer device 300, wherein the computer device 3〇(^ can be electrically mounted with a plurality of interface cards), and the number of installations of the interface card is determined according to the number of the card (4). Therefore, the interface determining device 1 (8) and the interface card 200 are in a one-to-one relationship. The interface card fixing device (10) of the first embodiment of the present invention comprises a body 11A and a pressing member 120. The body 110 is designed as a strip. The structure has at least two sets of hooks 114 on one side of the body 11〇, and is hooked into the buckle holes 311 of the casing 31〇 to fix the body 110 to the casing 31. It is worth noting that Those skilled in the art can also change the bonding means between the main body 110 and the housing 310, which is not limited to this embodiment. Please continue to refer to "1A" and "1B". The side edges are respectively provided with corresponding sliding rails 111. The one end of the body 110 is more concave inward. The accommodating groove 112 is provided, and the body 110 further has a guiding groove 113 traversing the accommodating groove 112 (the guiding groove 113 is disposed along the long axis φ of the body 110), so the accommodating groove 112 and the guiding The groove 113 is disposed in a mutually perpendicular relationship. One end of the pressing member 120 is a pivoting end 121, and the other end is a pressing end 122. The inner wall surface of the pivoting end 121 is convexly provided with two opposite pivots 1211, respectively Inserted in the second 201106838 slippery m. The 'hybrid 12G is connected to the body (10), and the pressing member i2〇y is reciprocally displaced relative to the body 11G along the sliding rail 111, and the lion end 122 is also pressed with the pressing member 120. Sliding is performed on the body 110. In addition, the pressing member 12 has an operation portion 123' so that the operator can hold the operation portion (2) and the difficult member (9) performs the slipping or pivoting operation' and the member 12G There is a limit portion 1221 on the lion end 122. As shown in the action diagrams shown in "Fig. 3" to "Fig. 5", when the interface card 200 is to be installed in the casing 31, the interface card is fixed. The pressing member (9) of the device 1 is first moved along the miscellaneous iinf to the top of the Lai 11G and to the crucible position (ie, the pressing member 120 is opposite to the body no. Upward pivoting, and then the limiting portion is pressed against the body 110 so that the pressing member 120 is not detached from the releasing position. The interface card 2 is guided into the guiding groove of the body 110 in the downward mounting direction. 113, and slides along the guiding slot ιΐ3 to the bonding position, and the combined position refers to a position where the interface card 2 is electrically connected to an electrical slot (not shown) in the computer device. § After the face card 200 is slid to the bonding position, the pressing member 丨 2 〇 can be disengaged from the release position and slide down along the sliding handle 111. At this time, the pressing end 122 of the pressing member 12 枢 is pivoted to the pressing position. The position is fixed in the receiving groove 112 of the body 11〇 to form an interference relationship with the mounting direction of the interface card 200, so as to be pressed against the interface card 2〇〇 and held in the bonding position without being loosened. Since the pressing end 122 and the pivoting end 121 are not on the same axis, the pressing end 122 and the pivoting end 121 have an inflammatory angle of 0 to firmly press against the interface card 200 to ensure that the pressing member 120 is not The pressing effect will be lost due to the reaction force of the interface card 2〇〇. 201106838 "6A", "6B" and "7" are perspective views of a second embodiment of the present invention. The interface card device of the second embodiment of the present invention is configured to fix an interface card 200 to the casing 31 of the computer device 3, wherein the computer device 300 can be provided with a recording interface card, and the time card is fixed. The number of settings of n(8) is determined according to the number of interface cards 200, so the interface card fixing device 1 and the interface card 200 are in a one-to-one relationship. The interface card fixing device 1 of the second embodiment of the present invention includes a body 11A and a pressing member 130. The body 11 is designed as a long strip structure, and has at least two sets of hooks 114 ' on one side of the body 11 () and hooked into the button holes 311 of the housing 31 ' to fix the body 110 to the shell On body 310. It should be noted that those skilled in the art can also change the bonding means between the body 110 and the housing 310, and are not limited to this embodiment. Please continue to refer to FIG. 6A and FIG. 6B. One end of the body 11A is a first pivoting end 115, and the first pivoting end 115 has an inwardly recessed receiving groove 112. The main body 110 further has a guiding groove 113 traversing the accommodating groove 112 (the guiding groove 113 is disposed along the long axis direction of the body 110), so that the accommodating groove 112 and the guiding groove 113 are arranged perpendicular to each other. . In addition, the first pivoting end 115 further has two opposite first pivots 1151, two opposite positioning holes 1152, and two opposite stop ribs 1153. One end of the pressing member 130 is a second pivoting end 131, and the other end is a pressing end 132. The second pivoting end 131 is provided with two opposite first pivot holes 1311' for the two first pivots 1151 of the body 110 to be respectively inserted therein, so that the pressing member 130 is pivotally connected to the body 110. A constraining protrusion 201106838 1321 ' is respectively protruded from the opposite inner wall surface of the pressing member 130, and the pressing member 13〇 is also convexly provided with two opposite protrusions i33, and the pivoting path of the piece (10) is formed by the scaled protrusion 133 and The body u (four) lion 1153 constitutes an interference relationship. Further, the pressing end 132 of the _ member 13 更 further has two operating portions m2 so as to cause the commissary 1322 to perform the turning operation. As shown in the diagrams of the operation states shown in "Fig. 8" to "Fig. 10", when the interface card 200 is to be installed in the casing 31, the recommended pressing member (10) of the interface card fixing device is firstly turned to the release position. (ie, the pressing member 13G is rotated upward relative to the body (10)) and abuts against the body (10) with the limiting bumps 1321 so that the pressure 13 () is not disengaged from the release position. The interface card enters the guiding slot 113 N ' of the body 11 沿着 in the downward contact direction and slides along the guiding slot 113 to the bonding position, and the combined position refers to the interface card 2GG and the computer device Electrically woven (not shown) electrically connected to each other. After the interface card 200 is slid to the bonding position, the pressing end of the pressing member 13 枢 is pivoted to the pressing position, and gj is disposed in the receiving groove 112 of the body 11Q to form an interference relationship with the mounting direction of the interface card 200. The interface card 2 is pressed against the interface card to be held in the bonding position without being loosened. Since the axial ends of the pressing end 132 and the second pivoting end 131 are not on the same axis, the pressing end 132 and the second clamping end 131 have an angle Θ to firmly press against the interface card 2〇〇. It is ensured that the pressing member 13 does not lose its pressing effect due to the reaction force of the interface card 200. When the pressing end 132 of the pressing member 130 is pivoted to the pressing position, the projections 133 of the pressing member 13 and the stopping ribs 1153 of the body 11 are abutted against each other by the interference relationship, and the material of the pressing member 130 is elastic. The deformation characteristics, and the force applied by the user, slightly 201106838, can cause the protrusion 133 to smoothly pivot the pressing member 130 across the stop rib 1153, and the interference relationship between the protrusion 133 and the stop rib 1153 That is to provide a clear operational feel of the user. In addition, when the pressing end 132 of the pressing member 13 is pivoted and fixed in the receiving groove 112 of the body 110, the limiting protrusion 1321 of the pressing member 13 is embedded in the positioning hole 1152 of the body 110 to provide The pressing member 130 retains the force more effectively, and prevents the pressing end 132 from being pressed against the position due to an external force. The interface card fixing device disclosed in the invention can be applied to the assembly of computer devices and interface cards of different types of machines, and forms an interference relationship between the pressing end of the pressing member and the interface card to press the interface card to the self-bonding position. Loosen, and the pressing end of the pressing member has an angle between the pressing end and the pivoting end, so as to firmly hold the interface card to be held in the bonding position, thereby preventing the interface card from being separated from the bonding position due to the reaction force or the external force, so that the interface card is stably Installed on the housing without loosening. Although the present invention has been disclosed as described above, and (4) is intended to limit the scope of the present invention, it is intended to be within the spirit and scope of the present invention. Domain God # can make some changes, so the special _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1A is an exploded perspective view of an interface card fixing device according to a first embodiment of the present invention; FIG. 1B is a perspective assembled view of an interface card fixing device according to a first embodiment of the present invention; FIG. 3 is a partially enlarged perspective view showing the assembled state of the first embodiment of the present invention; 201106838 FIG. 4 is an assembled state of the first embodiment of the present invention Ά ^ m λ V-丨 丨 丨 ; ; ; ; ; ; ; ; 弟 5 ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; 3 is a schematic exploded view of a second embodiment of the present invention; FIG. 8 is an exploded perspective view of a second embodiment of the present invention; A partially enlarged perspective view of an assembled state of a second embodiment of the present invention; and a 10th plan view of a plan view of FIG. [Description of Main Element Symbols] <First Embodiment> 100 110 111 112 113 114 120 121 1211 122 1221 Interface card fixing device body rail accommodating groove φ Guide groove hook pressing member frame end pivot pressing end Limiting portion 12 201106838 123 Operating portion 200 Interface card 300 Computer device 310 Housing 311 Button hole θ Angle <Second embodiment > 100 Interface card fixing device 110 Body 112 accommodating groove 113 Guide groove 114 Hook 115 First Pivot end 1151 first pivot 1152 positioning hole 1153 stop rib 130 pressing member 131 second pivoting end 1311 first pivot hole 132 pressing end 1321 limiting bump 1322 operating portion 13 201106838 133 bump 200 interface card 300 computer Device 310 housing 311 buttonhole