1265771 九、發明說明: 【發明所屬之技術領域】 本發明係關於一種固定結構,尤其是一種關於機箱架 之固定結構。 碎 【先前技術】 因應商業經營壤境的快速變遷,資訊市場出現風起雲 湧的創新變革’而其中最明顯的趨勢就是IT運作環境持續 • 趨向極簡化,以方便企業在最短的時間、最好的效能來掌 握本身的資訊架構。 愈來愈多的企業、以及機關團體利用區域網路進行資 源分享。其中,交換益在區域網路中即扮演一種可供使用 者進行資源分享,封包資料路徑選擇之功用。藉由交換器 來連接網路設備’其便利性遠超過網路設備間相互串接來 的更有效益。 當企業使用交換器或機箱架可安置型電子裝置 • (Rack-Mountable Unit)時,由於其功能較為先進,而且 價格昂貴。為了保持交換器壽命且避免散熱不良,而且為 了讓使用者操作方便,多半將上述之電子裝置利用複數固 定件(Brackets)鎖固於機箱架(Rack Housing)上。將交換 ' 器設置在機箱架上使其疊置排列,則更可為企業節省許多 . 空間及能源。 請參照第1圖所示,其係為習知技術之電子裝置固定 於機箱架之一示意圖。習知的機箱架固定結構1〇係具有 1265771 一機箱架11、複數固定件12、複數第一螺絲13、以及複 數第二螺絲14,機箱架固定結構10係將電子裝置E固定 於機箱架11。組裝時,先利用複數第一螺絲13穿過固定 件12後鎖固於電子裝置E上,再利用複數第二螺絲14穿 過固定件12以鎖固於機箱架11。 其中,機箱架固定結構10中之固定件12,需配合電 子裝置E之尺寸而製作有不同之對應長度,以補足電子裝 置E之長度,以便將電子裝置E固定於機箱架11上。當 電子裝置E之尺寸較小時,甚至需要三個固定件12才能 同時將二個電子裝置E固定於機箱架11。 然而,隨著電子裝置E —同販售之複數固定件12,其 係為分離式的組件,對使用者而言組裝較麻煩且收藏不 易。而且只要遺失了其中一個固定件12,即會造成使用者 無法電子裝置E鎖固至機箱架11上之困擾。 有鑑於上述問題,發明人亟思一種能解決分離式固定 件造成組裝麻煩、收藏不易等問題之「機箱架固定結構」。 【發明内容】 有鑑於上述課題,本發明之目的為提供一種具有一體 式固定件之機箱架固定結構,以使機箱架固定結構便於收 藏。 緣是,為達上述目的,依本發明之機箱架固定結構, 用以將至少一電子裝置固定於一機箱架,機箱架固定結構 係包含一第一固定件、一第二固定件、一樞軸件、複數第 1265771 一鎖合件、以及複數第二鎖合件。其中,第一固定件係分 別具有至少一第一孔洞、以及複數第二孔洞。第二固定件 係具有至少一第三孔洞。第一固定件及第二固定件係分別 樞設於柩轴件。複數第一鎖合件係穿過第二孔洞,以將第 . 一固定件與電子裝置鎖固。複數第二鎖合件係分別穿過第 、 一孔洞及第三孔洞,以將第一固定件及第二固定件與機箱 架鎖固。 為達上述目的,依本發明之機箱架固定結構,係用以 p 將至少一電子裝置固定於一機箱架,機箱架固定結構係包 含一第一固定件、一第二固定件、一第三固定件、一第一 枢轴件、一第二框抽件、複數第一鎖合件、以及複數第二 鎖合件。其中,第一固定件係分別具有至少一第一孔洞、 以及複數第二孔洞。第三固定件係具有至少一第三孔洞。 第一固定件及第二固定件係分別樞設於第一柩軸件。第二 固定件及第三固定件係分別樞設於第二樞轴件。第一鎖合 件係分別穿過第二孔洞,以將第一固定件與電子裝置鎖 i 固。第二鎖合件係穿過第一孔洞以及第三孔洞,以將第一 固定件及第三固定件與機箱架鎖固。 承上所述,本發明之機箱架固定結構係具有連結成一 體之複數固定件。與習知技術相比,本發明之機箱架固定 、 結構之複數固定件係利用樞轴件而連結成一體,不但可同 、 時將至少一台之電子裝置固定於機箱架。當不使用時,係 可將固定件沿樞轴件轉動,進而減少收藏機箱架固定結構 所需要的空間。如此一來,則可方便使用者一起收藏複數 1265771 固定件,避免分開收藏而造成個別固定件之遺失,甚至導 致曰後無法有足夠的固定件來固定電子裝置。 【實施方式】 . 以下將參照相關圖式,說明依本發明之機箱架固定結 ^ 構之數個實施例。 第一實施例 p 第2圖係為本發明之機箱架固定結構之第一實施例之 一示意圖,機箱架固定結構20係包含一第一固定件21、 一第二固定件22、一樞轴件23、複數第一鎖合件24、以 及複數第二鎖合件25。 第一固定件21係分別具有至少一第一孔洞211、以及 複數第二孔洞212。本實施例中,第一固定件21係具有二 個第一孔洞211,以及四個第二孔洞212。當然,孔洞的 數量可視產品實際需要而定,而孔洞的位置也可視實際客 ® 戶需求而定,以符合各種不同尺寸之電子裝置E。 第二固定件22係具有至少一第三孔洞221,本實施例 中,第二固定件22係具有二個第三孔洞221。其中,第一 固定件21與第二固定件22之材質係可為一金屬、或一塑 . 膠,本實施例中係以金屬材質之第一固定件21及第二固 定件22為例。 第一固定件21及第二固定件22係分別樞設於樞軸件 23,其中,樞轴件23係可為一鉚釘(Rivet)、一拉釘(Blind 12657711265771 IX. Description of the Invention: TECHNICAL FIELD OF THE INVENTION The present invention relates to a fixed structure, and more particularly to a fixed structure for a chassis frame. Broken [previous technology] In response to the rapid changes in the commercial business environment, the information market has experienced a revolutionary innovation. The most obvious trend is that the IT operating environment continues. The trend is extremely simplified, so as to facilitate the company in the shortest time and the best performance. To master the information structure of itself. More and more companies and organizations use local networks for resource sharing. Among them, the exchange benefit plays a role of resource sharing and packet data path selection in the local area network. Connecting a network device through a switch is much more convenient than connecting the network devices together. When a company uses a switch or rack mountable electronic device (Rack-Mountable Unit), it is more advanced and expensive. In order to maintain the life of the switch and to avoid poor heat dissipation, and in order to facilitate the operation of the user, most of the above electronic devices are locked to the Rack Housing by means of a plurality of fasteners. By placing the switches on the chassis racks and stacking them, you can save a lot of money. Space and energy. Referring to Fig. 1, it is a schematic diagram of a conventional electronic device fixed to a chassis frame. The conventional chassis frame fixing structure 1 has a 1265771 one chassis frame 11, a plurality of fixing members 12, a plurality of first screws 13, and a plurality of second screws 14. The chassis frame fixing structure 10 fixes the electronic device E to the chassis frame 11 . In the assembly, the first plurality of screws 13 are passed through the fixing member 12 and then locked to the electronic device E, and then the second plurality of screws 14 are passed through the fixing member 12 to be locked to the chassis frame 11. The fixing member 12 of the chassis frame fixing structure 10 is required to have different lengths corresponding to the size of the electronic device E to complement the length of the electronic device E to fix the electronic device E to the chassis frame 11. When the size of the electronic device E is small, even three fixing members 12 are required to simultaneously fix the two electronic devices E to the chassis frame 11. However, with the electronic device E being the same as the plurality of fasteners 12 sold, it is a separate component, which is cumbersome to assemble and inconvenient for the user. Moreover, as long as one of the fixing members 12 is lost, the user may not be able to lock the electronic device E to the chassis frame 11. In view of the above problems, the inventor has conceived a "chassis frame fixing structure" which can solve the problem that the separate fixing member causes assembly troubles and is difficult to collect. SUMMARY OF THE INVENTION In view of the above problems, an object of the present invention is to provide a chassis frame fixing structure having an integral fixing member, so that the chassis frame fixing structure is convenient for collection. In order to achieve the above object, the chassis frame fixing structure according to the present invention is used for fixing at least one electronic device to a chassis frame, and the chassis frame fixing structure comprises a first fixing member, a second fixing member and a pivot. The shaft member, the plurality of 12665711 one lock member, and the plurality of second lock members. The first fixing member has at least one first hole and a plurality of second holes, respectively. The second fixing member has at least one third hole. The first fixing member and the second fixing member are respectively pivotally disposed on the boring shaft member. The plurality of first locking members pass through the second holes to lock the first fixing member and the electronic device. The plurality of second locking members respectively pass through the first hole, the third hole and the third hole to lock the first fixing member and the second fixing member to the chassis frame. In order to achieve the above object, the chassis frame fixing structure of the present invention is used for fixing at least one electronic device to a chassis frame, and the chassis frame fixing structure comprises a first fixing member, a second fixing member and a third portion. The fixing member, a first pivot member, a second frame pull member, a plurality of first lock members, and a plurality of second lock members. The first fixing member has at least one first hole and a plurality of second holes respectively. The third fixing member has at least one third hole. The first fixing member and the second fixing member are respectively pivoted on the first boring member. The second fixing member and the third fixing member are respectively pivotally disposed on the second pivot member. The first locking member passes through the second hole respectively to lock the first fixing member and the electronic device. The second locking member passes through the first hole and the third hole to lock the first fixing member and the third fixing member to the chassis frame. As described above, the chassis frame fixing structure of the present invention has a plurality of fixing members joined together in one body. Compared with the prior art, the plurality of fixing members of the chassis frame fixing and structure of the present invention are integrally connected by a pivot member, and at least one electronic device can be fixed to the chassis frame at the same time. When not in use, the fixture can be rotated along the pivot member, thereby reducing the space required to secure the chassis frame. In this way, the user can conveniently collect a plurality of 1265771 fixing members, avoiding the loss of individual fixing members due to separate collection, and even causing insufficient fixing members to fix the electronic device after the shackles. [Embodiment] Several embodiments of the chassis frame fixing structure according to the present invention will be described below with reference to the related drawings. The first embodiment is a schematic view of a first embodiment of the chassis frame fixing structure of the present invention. The chassis frame fixing structure 20 includes a first fixing member 21, a second fixing member 22, and a pivot. The member 23, the plurality of first locking members 24, and the plurality of second locking members 25. The first fixing member 21 has at least one first hole 211 and a plurality of second holes 212, respectively. In this embodiment, the first fixing member 21 has two first holes 211 and four second holes 212. Of course, the number of holes can be determined by the actual needs of the product, and the location of the holes can be determined by the actual customer's needs to meet the electronic devices E of various sizes. The second fixing member 22 has at least one third hole 221. In this embodiment, the second fixing member 22 has two third holes 221. The material of the first fixing member 21 and the second fixing member 22 may be a metal or a plastic. In the embodiment, the first fixing member 21 and the second fixing member 22 of the metal material are taken as an example. The first fixing member 21 and the second fixing member 22 are respectively pivotally mounted on the pivot member 23, wherein the pivot member 23 can be a rivet (Rivet) and a pull stud (Blind 1265771).
Rivet)、或一螺絲螺帽組,本實施例中,柩軸件23係以一 鉚釘為例。 本實施例中,第一固定件21係具有一第一樞接部 213,第二固定件22係具有一第二樞接部223,使得樞軸 件23係分別穿過第一樞接部213及第二枢接部223,俾使 第一固定件21及第二固定件22以樞轴件23作為一轉轴 旋轉,而可自由轉動開合。本實施例中,樞軸件23係平 行於第一固定件21及第二固定件22。藉由樞軸件23也使 得第一固定件21及第二固定件22連結成為一體。 請參照第3圖,其係為本發明之機箱架固定結構之第 一實施例之另一示意圖。機箱架固定結構20係用以將至 少一電子裝置E固定於一機箱架R。其中,電子裝置E可 為一交換器、一路由器、或一伺服器。本實施例中,第一 固定件21及第二固定件22係分別具有一開口 214、224, 可用以監控電子裝置E之狀態,例如故障燈號是否異常。 請同時參照第2圖及第3圖,複數第一鎖合件24係 穿過第二孔洞212,以將第一固定件21與電子裝置E鎖 固。複數第二鎖合件25係分別穿過第一孔洞211及第三 孔洞221,以將第一固定件21及第二固定件22與機箱架 R鎖固。本實施例中,機箱架固定結構20更包含複數第三 鎖合件26,其係分別穿過第二固定件22之一第四孔洞 222,以將第二固定件22與另一電子裝置E鎖固。如此一 來,機箱架固定結構20即可同時固定二台電子裝置E於 機箱架R。 1265771 如第4圖所示,當不使用機箱架固定結構20時,可 將第一固定件21與第二固定件22靠合,以減少機箱架固 定結構20收藏所需的空間,也可避免第一固定件21或第 二固定件22因分別收藏而造成遺失。 、 第二實施例 第5圖係為本發明之機箱架固定結構之第二實施例之 一示意圖。機箱架固定結構30係包含一第一固定件31、 _ 一第二固定件32、一樞轴件33、複數第一鎖合件34、以 及複數第二鎖合件35。 其中,第一固定件31中除了第一樞接部313之外, 其功效與特徵係與第一實施例中之第一固定件21相同; 第二固定件32中除了第二樞接部323之外,其功效與特 徵係與第一實施例中之第二固定件22相同,於此不再贅 述。 第一固定件31係具有一第一樞接部313,第二固定件 • 32係具有一第二樞接部323,使得樞軸件33係分別穿過 第一柩接部313及第二樞接部323,俾使第一固定件31及 第二固定件32以柩轴件33作為一轉軸旋轉,而可自由開 合。 • 樞軸件33係可為一鉚釘、一拉釘、或一螺絲螺帽組。 • 本實施例中,樞軸件33係以一螺絲螺帽組為例。樞軸件 33更可具有一彈簧墊圈331,以加強樞軸件33與第一固 定件31及第二固定件32之連結。本實施例中,樞軸件33 11 1265771 係垂直於第-固定件31及第二固定件32。藉由枢轴件幻 也,第2定件31及第二固定件32連結成為 _ 第6圖,其係為本發明之機箱架固定結構之第 ^實施例之另—示4圖。機箱架固定結構3 0係用以將至 少一電子裳置E固定於一機箱架R。其中 機箱架R係與第一實施例中之電子裝置£及機箱Μ且有 相同之功能及特徵,在此不再贅述。 、 * :同時茶知第5圖及第6圖,複數第一鎖合件%係 >穿過第二孔洞312,以將第一固定件3ι與電子裝置㈣ 固、。複數第二鎖合件35係分別穿過第一孔洞3ιι及第三 同21卩將第-固定件31及第二固定件32與 R鎖固。 如第7圖所不,當不使用第一固定件31及第二固定 件32時,可將第一固定件31與第二固定件32旋轉靠合, 以減少收藏的空間,也可避免第一固定件31或第二固定 > 件32因分別收藏而造成遺失。 1三實施例 一 =8圖係為本發明之機箱架固定結構之第三實施例之 示w圖機箱采固定結構4〇係包含—第一固定件“、 一第二固料42、—第三固料43、-第-樞軸件44、 -第二樞軸件45、複數第一鎖合件私、以及複數第二鎖 °件47其中’機箱架固定結構4G係用以將至少-電子 裝置Ε固疋於一機相架R。本實施例中,電子裝置Ε及機 12 1265771 箱架R係與第一實施例中之電子裝置E及機箱架R具有相 同之功能及特徵,在此不再贅述。 第一固定件41係分別具有至少一第一孔洞411、以及 複數第二孔洞412。本實施例中,第一固定件41係具有二 個第一孔洞411,以及四個第二孔洞412。當然,孔洞的 數量及設置之位置可視產品實際需要而定。 第三固定件43係具有至少一第三孔洞431,本實施例 中,第三固定件43係具有二個第三孔洞431。另外,第一 固定件41、第二固定件42、與第三固定件43之材質係可 為一金屬、或一塑膠,本實施例中係以金屬為例。 第一固定件41及第二固定件42係分別柩設於第一樞 轴件44,而第二固定件42及第三固定件43係分別柩設於 第二樞轴件45。其中,第一樞軸件44及第二樞轴件45係 可分別為一鉚釘、一拉釘、或一螺絲螺帽組。 本實施例中,第一固定件41係具有一第一樞接部 413,第二固定件42係具有一第二枢接部421及一第三樞 接部422,第三固定件43係具有一第四樞接部432。其中, 第一樞轴件44係分別穿過第一樞接部413及第二樞接部 421、第二樞轴件45係分別穿過第三樞接部422及第四樞 接部432,俾使第一固定件41及第二固定件42以第一樞 轴件44作為一轉轴旋轉,而第二固定件42及第三固定件 43係以第二樞轴件45作為一轉轴旋轉。 本實施例中,第一樞軸件44及第二樞轴件45係平行 於第一固定件41、第二固定件42及第三固定件43。藉由 13 1265771 第一樞軸件44及第二樞軸件45而使得第一固定件4卜第 二固定件42及第三固定件43連結成為一體。 再請參照第8圖,第一固定件41、第二固定件42及 第三固定件43係分別具有一開口 414,424,434,可用以監 • 控電子裝置E之狀態,例如故障燈號是否異常。 - 複數第一鎖合件46係穿過第二孔洞412,以將第一固 定件41與電子裝置E鎖固。複數第二鎖合件47係分別穿 過第一孔洞411及第三孔洞431,以將第一固定件41、第 • 二固定件42及第三固定件43與機箱架R鎖固。 第9圖係為本發明之機箱架固定結構之第三實施例之 另一示意圖。本實施例中,機箱架固定結構40更包含複 數第三鎖合件48及複數第四鎖合件49,第三鎖合件48係 分別穿過第四孔洞423,以將第二固定件42與另一電子裝 置E鎖固,第四鎖合件49係分別穿過第五孔洞433,以將 第三固定件43與又一電子裝置E鎖固,俾使機箱架固定 結構40同時鎖固三台電子裝置E。 ® 如第10圖所示,當不使用機箱架固定結構40時,可 將第一固定件41、第二固定件42與第三固定件43折合, 以減少收藏的空間,也可避免第一固定件41、第二固定件 42及第三固定件43因分別收藏而造成遺失。 - 第四實施例 第11圖係為本發明之機箱架固定結構之第四實施例 之一示意圖。機箱架固定結構50係包含一第一固定件51、 1265771 一第二固定件52、一第三固定件53、一第一樞軸件54、 一第二樞軸件55、複數第一鎖合件56、以及複數第二鎖 合件57。其中,機箱架固定結構50係用以將至少一電子 裝置E固定於一機箱架R。本實施例中,電子裝置E及機 • 箱架R係與第一實施例中之電子裝置E及機箱架R具有相 • 同之功能及特徵,在此不再贅述。另外,除了第一固定件 51之第一樞接部513、第二固定件52之第二樞接部521 及第三枢接部522、以及第三固定件53之第四柩接部532 φ 之外,本實施例中之第一固定件51、第二固定件52及第 三固定件53係與第三實施例中之第一固定件41、第二固 定件42及第三固定件43具有相同之功能及特徵,於此不 再贅述。 第一固定件51及第二固定件52係分別樞設於第一樞 轴件54,而第二固定件52及第三固定件53係分別樞設於 第二樞軸件55。其中,第一樞軸件54及第二樞軸件55係 可分別為一鉚釘、一拉釘、或一螺絲螺帽組。本實施例中, ® 第一樞軸件54及第二樞轴件55係分別以一螺絲螺帽組為 例。 本實施例中,第一樞轴件54及第二樞軸件55係分別 垂直於第一固定件51、第二固定件52及第三固定件53。 • 藉由第一樞軸件54及第二樞軸件55而使得第一固定件 • 51、第二固定件52及第三固定件53連結成為一體。 再請參照第11圖,複數第一鎖合件56係穿過第二孔 洞512,以將第一固定件51與電子裝置E鎖固。複數第二 15 1265771 鎖合件57係分別穿過第一孔洞511及第三孔洞531,以將 第一固定件51、第二固定件52及第三固定件53與機箱架 R鎖固。本實施例中,機箱架固定結構50更包含複數第三 鎖合件58及第四鎖合件59,其功能及特徵係與前述第三 • 實施例之第三鎖合件48及第四鎖合件49相同,於此不再 - 贅述。 第12圖係為本發明之機箱架固定結構之第四實施例 之另一示意圖。請同時參照第11圖及第12圖,本實施例 ❿ 中,第一樞轴件54係分別穿過第一樞接部513及第二樞 接部521、第二樞轴件55係分別穿過第三樞接部522及第 四樞接部532,俾使第一固定件51及第二固定件52以第 一樞軸件54作為一轉軸旋轉,而第二固定件52及第三固 定件53以第二樞轴件55作為一轉軸旋轉。 當不使用機箱架固定結構50時,可將第一固定件51、 第二固定件52與第三固定件53旋合,以減少收藏的空 間,也可避免第一固定件51、第二固定件52及第三固定 *件53因分別收藏而造成遺失。 綜上所述,本發明之機箱架固定結構係具有連結成一 體之複數固定件。與習知技術相比,本發明之機箱架固定 結構之複數固定件係利用樞軸件而連結成一體,不但可同 • 時將至少一台之電子裝置固定於機箱架。當不使用時,係 - 可將固定件沿枢軸件轉動,進而減少收藏機箱架固定結構 所需要的空間。如此一來,則可方便使用者一起收藏複數 固定件,避免分開收藏而造成個別固定件之遺失,甚至導 1265771 致日後無法有足夠的固定件來固定電子裝置。 以上所述僅為舉例性,而非為限制性者。任何未脫離 本發明之精神與範疇,而對其進行之等效修改或變更,均 應包含於後附之申請專利範圍中。 【圖式簡單說明】 第1圖係為習知技術之電子裝置固定於機箱架之一 不意圖, φ 第2圖係為本發明之機箱架固定結構之第一實施例 之^一不意圖, 第3圖係為本發明之機箱架固定結構之第一實施例 之另一示意圖; 第4圖係為本發明之機箱架固定結構之第一實施例 之再一示意圖; 第5圖係為本發明之機箱架固定結構之第二實施例 之一示意圖; • 第6圖係為本發明之機箱架固定結構之第二實施例之 另一示意圖; 第7圖係為本發明之機箱架固定結構之第二實施例之 再一示意圖; • 第8圖係為本發明之機箱架固定結構之第三實施例之 - 一示意圖; 第9圖係為本發明之機箱架固定結構之第三實施例之 另一示意圖; 17 1265771 第ίο圖係為本發明之機箱架固定結構之第三實施例 之再一示意圖; 第11圖係為本發明之機箱架固定結構之第四實施例 之一示意圖;以及 第12圖係為本發明之機箱架固定結構之第四實施例Rivet), or a screw nut set, in this embodiment, the boring member 23 is exemplified by a rivet. In this embodiment, the first fixing member 21 has a first pivoting portion 213, and the second fixing member 22 has a second pivoting portion 223, so that the pivoting member 23 passes through the first pivoting portion 213, respectively. And the second pivoting portion 223, the first fixing member 21 and the second fixing member 22 are rotated by the pivoting member 23 as a rotating shaft, and can be freely rotated and opened. In this embodiment, the pivot member 23 is parallel to the first fixing member 21 and the second fixing member 22. The first fixing member 21 and the second fixing member 22 are also integrally coupled by the pivot member 23. Please refer to Fig. 3, which is another schematic view of the first embodiment of the chassis frame fixing structure of the present invention. The chassis frame fixing structure 20 is for fixing at least one electronic device E to a chassis R. The electronic device E can be a switch, a router, or a server. In this embodiment, the first fixing member 21 and the second fixing member 22 respectively have an opening 214, 224 for monitoring the state of the electronic device E, for example, whether the fault light is abnormal. Referring to Figures 2 and 3 simultaneously, the plurality of first locking members 24 pass through the second holes 212 to lock the first fixing member 21 and the electronic device E. The plurality of second locking members 25 pass through the first hole 211 and the third hole 221, respectively, to lock the first fixing member 21 and the second fixing member 22 with the chassis frame R. In this embodiment, the chassis frame fixing structure 20 further includes a plurality of third locking members 26 respectively passing through a fourth hole 222 of the second fixing member 22 to connect the second fixing member 22 with another electronic device E. Locking. In this way, the chassis frame fixing structure 20 can simultaneously fix two electronic devices E to the chassis frame R. 1265771 As shown in FIG. 4, when the chassis frame fixing structure 20 is not used, the first fixing member 21 and the second fixing member 22 can be engaged to reduce the space required for the chassis frame fixing structure 20 to be collected, and can also be avoided. The first fixing member 21 or the second fixing member 22 is lost due to separate collection. SECOND EMBODIMENT Fig. 5 is a schematic view showing a second embodiment of the chassis frame fixing structure of the present invention. The chassis frame fixing structure 30 includes a first fixing member 31, a second fixing member 32, a pivot member 33, a plurality of first locking members 34, and a plurality of second locking members 35. The first fixing member 31 has the same function and features as the first fixing member 21 in the first embodiment except for the first pivoting portion 313; the second fixing portion 32 includes the second pivoting portion 323. The functions and features are the same as those of the second fixing member 22 in the first embodiment, and details are not described herein again. The first fixing member 31 has a first pivoting portion 313, and the second fixing member 32 has a second pivoting portion 323, so that the pivoting member 33 passes through the first connecting portion 313 and the second pivoting portion respectively. The connecting portion 323 is configured to rotate the first fixing member 31 and the second fixing member 32 with the boring member 33 as a rotating shaft, and is freely opened and closed. • The pivot member 33 can be a rivet, a rivet, or a set of screw nuts. • In the present embodiment, the pivot member 33 is exemplified by a screw nut group. The pivot member 33 further has a spring washer 331 for reinforcing the connection of the pivot member 33 with the first fixing member 31 and the second fixing member 32. In this embodiment, the pivot members 33 11 1265771 are perpendicular to the first fixing member 31 and the second fixing member 32. By the pivotal member, the second stator 31 and the second stator 32 are joined to each other as a sixth embodiment, which is another embodiment of the chassis frame fixing structure of the present invention. The chassis frame fixing structure 30 is used to fix at least one electronic skirt E to a chassis R. The chassis R has the same functions and features as the electronic device and the chassis in the first embodiment, and details are not described herein. , * : At the same time, the fifth and sixth figures of the tea, the plurality of first locking members % > pass through the second hole 312 to fix the first fixing member 3 to the electronic device (4). The plurality of second locking members 35 lock the first fixing member 31 and the second fixing member 32 and R through the first holes 3 and 3, respectively. As shown in FIG. 7 , when the first fixing member 31 and the second fixing member 32 are not used, the first fixing member 31 and the second fixing member 32 can be rotated and rotated to reduce the space of the collection, and the first part can be avoided. A fixing member 31 or a second fixing member 32 is lost due to separate collection. 1 3 embodiment 1 = 8 is a third embodiment of the chassis frame fixing structure of the present invention, the figure shows that the chassis adopts a fixed structure, and the first fixing member, a second solid material 42, a three-solid material 43, a first pivot member 44, a second pivot member 45, a plurality of first lock members, and a plurality of second lock members 47, wherein the 'chassis frame fixing structure 4G is used to at least- The electronic device is fixed to a camera frame R. In this embodiment, the electronic device and the machine 12 1265771 frame R have the same functions and features as the electronic device E and the chassis R in the first embodiment. The first fixing member 41 has at least one first hole 411 and a plurality of second holes 412. In this embodiment, the first fixing member 41 has two first holes 411, and four first portions. Two holes 412. Of course, the number of holes and the position of the holes may be determined according to the actual needs of the product. The third fixing member 43 has at least one third hole 431. In this embodiment, the third fixing member 43 has two third portions. Hole 431. In addition, the first fixing member 41, the second fixing member 42, and the third fixing member The material of the 43 can be a metal or a plastic. In this embodiment, the metal is taken as an example. The first fixing member 41 and the second fixing member 42 are respectively disposed on the first pivot member 44, and the second fixing is performed. The first pivoting member 44 and the second pivoting member 45 are respectively a rivet, a rivet, or a screw snail. In the embodiment, the first fixing member 41 has a first pivoting portion 413, and the second fixing member 42 has a second pivoting portion 421 and a third pivoting portion 422. The third fixing member The 43 series has a fourth pivoting portion 432. The first pivoting member 44 passes through the first pivoting portion 413 and the second pivoting portion 421, respectively, and the second pivoting member 45 is respectively passed through the third pivoting portion. The first fixing member 41 and the second fixing member 42 rotate the first fixing member 41 and the second fixing member 42 as a rotating shaft, and the second fixing member 42 and the third fixing member 43 are rotated. The first pivoting member 44 and the second pivoting member 45 are parallel to the first fixing member 41, the second fixing member 42 and the third fixing member. 43. The first fixing member 4 and the second fixing member 42 and the third fixing member 43 are integrally coupled by the first pivot member 44 and the second pivot member 45. Referring to FIG. 8, A fixing member 41, a second fixing member 42, and a third fixing member 43 respectively have an opening 414, 424, 434, which can be used to monitor the state of the electronic device E, such as whether the fault light is abnormal. - The plurality of first locking members 46 Passing through the second hole 412 to lock the first fixing member 41 and the electronic device E. The plurality of second locking members 47 pass through the first hole 411 and the third hole 431 respectively to fix the first fixing member 41, The second fixing member 42 and the third fixing member 43 are locked with the chassis frame R. Figure 9 is another schematic view of a third embodiment of the chassis frame fixing structure of the present invention. In this embodiment, the chassis frame fixing structure 40 further includes a plurality of third locking members 48 and a plurality of fourth locking members 49. The third locking members 48 pass through the fourth holes 423 respectively to fix the second fixing member 42. The other locking device 49 is locked to the other electronic device E, and the fourth locking member 49 is respectively passed through the fifth hole 433 to lock the third fixing member 43 and the further electronic device E, so that the chassis frame fixing structure 40 is simultaneously locked. Three electronic devices E. As shown in FIG. 10, when the chassis frame fixing structure 40 is not used, the first fixing member 41, the second fixing member 42 and the third fixing member 43 can be folded to reduce the space of the collection, and the first one can be avoided. The fixing member 41, the second fixing member 42, and the third fixing member 43 are lost due to separate collection. - Fourth Embodiment Fig. 11 is a view showing a fourth embodiment of the chassis frame fixing structure of the present invention. The chassis frame fixing structure 50 includes a first fixing member 51, 1265771, a second fixing member 52, a third fixing member 53, a first pivot member 54, a second pivot member 55, and a plurality of first locks. A member 56 and a plurality of second lock members 57. The chassis frame fixing structure 50 is configured to fix at least one electronic device E to a chassis R. In this embodiment, the electronic device E and the chassis R have the same functions and features as those of the electronic device E and the chassis R in the first embodiment, and details are not described herein. In addition, the first pivoting portion 513 of the first fixing member 51, the second pivoting portion 521 and the third pivoting portion 522 of the second fixing member 52, and the fourth connecting portion 532 of the third fixing member 53 are respectively φ In addition, the first fixing member 51, the second fixing member 52, and the third fixing member 53 in the embodiment are the first fixing member 41, the second fixing member 42, and the third fixing member 43 in the third embodiment. Have the same functions and features, and will not be described here. The first fixing member 51 and the second fixing member 52 are respectively pivotally disposed on the first pivoting member 54, and the second fixing member 52 and the third fixing member 53 are respectively pivotally disposed on the second pivoting member 55. The first pivot member 54 and the second pivot member 55 are respectively a rivet, a pull stud, or a screw nut set. In this embodiment, the first pivot member 54 and the second pivot member 55 are respectively exemplified by a screw nut group. In this embodiment, the first pivot member 54 and the second pivot member 55 are perpendicular to the first fixing member 51, the second fixing member 52, and the third fixing member 53, respectively. • The first fixing member 51, the second fixing member 52, and the third fixing member 53 are integrally coupled by the first pivot member 54 and the second pivot member 55. Referring again to Fig. 11, a plurality of first locking members 56 are passed through the second holes 512 to lock the first fixing member 51 and the electronic device E. The second 15 1265771 locking member 57 passes through the first hole 511 and the third hole 531 respectively to lock the first fixing member 51, the second fixing member 52 and the third fixing member 53 with the chassis frame R. In this embodiment, the chassis frame fixing structure 50 further includes a plurality of third locking components 58 and a fourth locking component 59, the functions and features of which are the third locking component 48 and the fourth locking of the third embodiment. The fitting 49 is the same and will not be repeated here. Figure 12 is another schematic view of a fourth embodiment of the chassis frame fixing structure of the present invention. Referring to FIG. 11 and FIG. 12 simultaneously, in the embodiment, the first pivoting member 54 is respectively worn through the first pivoting portion 513, the second pivoting portion 521, and the second pivoting member 55. The third pivoting portion 522 and the fourth pivoting portion 532 are configured to rotate the first fixing member 51 and the second fixing member 52 with the first pivoting member 54 as a rotating shaft, and the second fixing member 52 and the third fixing member The member 53 rotates with the second pivot member 55 as a rotating shaft. When the chassis holder fixing structure 50 is not used, the first fixing member 51, the second fixing member 52 and the third fixing member 53 can be screwed together to reduce the space of the collection, and the first fixing member 51 and the second fixing portion can be avoided. The piece 52 and the third fixed piece 53 are lost due to separate collection. In summary, the chassis frame fixing structure of the present invention has a plurality of fixing members joined together in one body. Compared with the prior art, the plurality of fixing members of the chassis frame fixing structure of the present invention are integrally connected by a pivot member, and at least one electronic device can be fixed to the chassis frame at the same time. When not in use, it can rotate the fixture along the pivot member, reducing the space required to secure the chassis frame. In this way, the user can conveniently collect a plurality of fixing members together, and avoid the loss of the individual fixing members due to the separate collection, and even the 1265771 cannot have enough fixing members to fix the electronic device in the future. The above is intended to be illustrative only and not limiting. Any equivalent modifications or alterations to the spirit and scope of the present invention are intended to be included in the scope of the appended claims. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view of an electronic device of the prior art fixed to a chassis frame, and FIG. 2 is a first embodiment of the chassis frame fixing structure of the present invention. FIG. 3 is another schematic view of the first embodiment of the chassis frame fixing structure of the present invention; FIG. 4 is still another schematic view of the first embodiment of the chassis frame fixing structure of the present invention; BRIEF DESCRIPTION OF THE DRAWINGS FIG. 6 is another schematic view of a second embodiment of a chassis frame fixing structure of the present invention; FIG. 7 is a frame fixing structure of the present invention. FIG. 8 is a third embodiment of the chassis frame fixing structure of the present invention. FIG. 9 is a third embodiment of the chassis frame fixing structure of the present invention. 17 1265771 is a schematic view of a third embodiment of the chassis frame fixing structure of the present invention; FIG. 11 is a schematic view showing a fourth embodiment of the chassis frame fixing structure of the present invention; And the first 2 is a fourth embodiment of the chassis frame fixing structure of the present invention
之另 一示意圖。 元件符號說明: 10 機箱架固定結構 11 機箱架 12 固定件 13 第一螺絲 14 第二螺絲 20 機箱架固定結構 21 第一固定件 211 第一孔洞 212 第二孔洞 213 第一極接部 214 開口 22 第二固定件 221 第三孔洞 222 第四孔洞 223 弟二極接部 224 開口 18 柩轴件 第一鎖合件 第二鎖合件 第三鎖合件 機箱架固定結構 第一固定件 第一孔洞 第二孔洞 第一樞接部 開口 第二固定件 第三孔洞 第四孔洞 第二柩接部 開口 樞軸件 彈簧墊圈 第一鎖合件 第二鎖合件 第三鎖合件 機箱架固定結構 第一固定件 第一孔洞 第二孔洞 19 第一枢接部 開口 第二固定件 第二枢接部 第三樞接部 第四孔洞 開口 第三固定件 第三孔洞 第四樞接部 第五孔洞 開口 第一枢軸件 第二框轴件 第一鎖合件 第二鎖合件 第三鎖合件 第四鎖合件 機箱架固定結構 第一固定件 第一孔洞 第二孔洞 第一樞接部 第二固定件 20 弟二枢接部 第三枢接部 第四孔洞 第三固定件 第三孔洞 第四柩接部 第五孔洞 第一樞軸件 第二枢軸件 第一鎖合件 第二鎖合件 第三鎖合件 第四鎖合件 電子裝置 機箱架 21Another schematic. Component symbol description: 10 chassis frame fixing structure 11 chassis frame 12 fixing member 13 first screw 14 second screw 20 chassis frame fixing structure 21 first fixing member 211 first hole 212 second hole 213 first pole portion 214 opening 22 Second fixing member 221 third hole 222 fourth hole 223 second pole connecting portion 224 opening 18 柩 shaft member first locking member second locking member third locking member chassis frame fixing structure first fixing member first hole Second hole first pivot joint opening second fixing member third hole fourth hole second joint portion opening pivot member spring washer first lock member second lock member third lock member chassis frame fixing structure a fixing member first hole second hole 19 first pivoting portion opening second fixing member second pivoting portion third pivoting portion fourth hole opening third fixing member third hole fourth pivoting portion fifth hole opening First pivot member second frame shaft member first lock member second lock member third lock member fourth lock member chassis frame fixing structure first fixing member first hole second hole first pivot portion Second fixing member 20 brother two pivoting portion third pivoting portion fourth hole third fixing member third hole fourth splicing portion fifth hole first pivot member second pivot member first locking member second lock Third locking piece fourth locking piece electronic device chassis frame 21