1322659 九、發明說明: 【發明所屬之技術領域】 本發明係關於一種風扇及其扇框,特別是關於一種 具有扇窗結構之風扇及其扇框。 【先前技術】 目前電腦系統日益複雜,因此對風扇之散熱需求也 隨之增加,如果風扇在系統端運轉發生失效停轉,則系 統内部因背壓的關係會造成風量回灌,使失效的風扇逆 而散失風量,降低風扇的散熱能力。請參閱第丨圖所 示,習知技術係應用百葉窗設計於扇框之出風口,以解 決此一問題,一種習知之風扇模組係包括複數個風扇 1,各風扇1係包括一扇框u、一底座13以及一馬達(圖 未顯示)。.在各扇框u之出風口係設置一扇窗結構12, 扇窗結構12係具有3個窗葉121,並在扇框u上外 -固定部出以安裝窗葉121。當風扇模組之某士:: 1發生失效停止運轉時,窗葉121因重力或慣性作用而 關閉扇窗結構12,防止系統因背壓造成風量的回灌, 導致該失效風扇1產生逆轉而導致整體的散熱能 低。 •、降 然而,風扇1之扇窗結構12之設置缺失在於··扇 框Π需外加或重行製作對應的固定部m以安裝扇窗 結構12使得成本提高,扇窗結構12突出於扇框“ 需要額外的安裝空間,且扇窗結構12之開啟與閉合大 1322659 式受限於風扇模組於系統中 無法藉由重力或慣性作用V關心;ΐ構否二葉 使扇窗結構12之設計舆使用達到最佳:效用 法 以改==供一種具有扇窗结構之風扇及其扇框1322659 IX. Description of the Invention: [Technical Field] The present invention relates to a fan and a fan frame thereof, and more particularly to a fan having a fan window structure and a fan frame thereof. [Prior Art] At present, the computer system is increasingly complicated, so the heat dissipation requirement for the fan is also increased. If the fan fails to stop at the system end, the internal pressure of the system will cause the air volume to be recharged, causing the failed fan. Instead, the air volume is lost and the heat dissipation capability of the fan is reduced. Please refer to the figure, the conventional technology is applied to the air outlet of the fan frame to solve the problem. A conventional fan module includes a plurality of fans 1 , and each fan 1 includes a frame u , a base 13 and a motor (not shown). A window structure 12 is provided at the air outlet of each of the frame frames u. The fan window structure 12 has three window leaves 121, and the outer frame-fixing portion of the fan frame u is provided to mount the window leaf 121. When a certain failure of the fan module: 1: occurs, the window 121 closes the window structure 12 due to gravity or inertia, thereby preventing the system from being recharged due to back pressure, resulting in the reversal of the failed fan 1 The overall heat dissipation is low. • However, the fan window structure 12 of the fan 1 is missing in that the fan frame needs to be externally or re-made to make the corresponding fixing portion m to install the fan window structure 12, so that the cost is increased, and the fan window structure 12 protrudes from the fan frame. Additional installation space is required, and the opening and closing of the window structure 12 is large. The 1322659 type is limited by the fact that the fan module cannot be protected by gravity or inertia in the system; the structure of the fan window structure 12 is used. To achieve the best: use to change == for a fan with a fan window structure and its fan frame
以改善習知之扇窗結構的設計與魏,進I 體的散熱效能’降低生產成本及 為重要課題之- 及所需的安裝空間,已成 【發明内容】 =鐘於上述課題,本發明之目的為提供-種具有扇 ”構/之風扇及其驗,轉決當風扇失效停止運轉 涵β因系統内。(5之月I而造成風扇逆轉’導致系統散失 处篁而降低散熱的能力,進而維持風扇整體的散熱效 此’降低生產成本及所需的安裝空間。 緣是,為達上述目的,依據本發明之一種扇框係包 框體’一底座則是與框體連結並形成一開口,以及 一扇窗結構。扇窗結構係連結於框體上,並具有複數個 窗葉及複數個連結件,連結件係分別將窗葉連結於框體 之角落’窗葉於關閉時之形狀與開口之形狀相對應。 為達上述目的,依據本發明之一種風扇係包括一葉 輪、一馬達以及一扇框。馬達係連結並驅動葉輪轉動; 屬框係容置葉輪及馬達,並包括一框體',一馬達底座, 馬達底座與框體連結並形成一開口,及一扇窗結構,扇 窗結構連結於框體之開口,扇窗結構具有複敦個窗葉及 工322659 複數個連結件,連結件係分別將窗葉連結於框體之角 落,窗葉於關閉時之形狀與開口之形狀相對應。 承上所述’因依據本發明之—種具有扇窗結構之風 扇及其扇框係將扇窗結構之窗葉連結於框體之角落,使 扇j結構與框體整合設計,故無需增加框體之體積,免 ,安裝或m定扇窗結構所f之構件,簡化扇框之結構與 製造。與習知技術相較’本發明僅需修改框體之開口的 角落’框體之其餘部分仍保有既有結構,窗葉藉由系統 内部之背㈣關閉’故不受限於風扇設置於系統内的位 置與方向,均能㈣保扇窗結構之_,進而維持風扇 整體的散熱效能,降低生產成本及所需的安裝空間。 【實施方式】 .以下將參照相關圖式,說明依據本發明較佳實施例 之一種具有扇窗結構之風扇及其扇框,其中相同的元件 將以相同的參照符號加以說明。 請參閱第2圖與第4圖,本發明較佳實施例之一種 風扇2係包括—底座%、—馬達(圖未顯示)以及一 扇框20。風扇2係可為一轴流式風扇或一離心式風扇, 馬達係連結並驅動風扇2之一葉輪(圖未顯示)轉動;扇 框20係容置葉輪及馬達,並包括一框體21、一底座30, 底座30與框體21連結以及一扇窗結構22環設於該底 座30之周圍,亦即,該扇窗結構22較佳係位於該扇框 20之開口 211處。其中扇窗結構2》連結於框體21 1322659 之四個角落的固定孔附近空間内,扇窗結構22具有複 數個窗葉221及複數個連結件222,各窗葉221係可與 各連結件222 —體成型製成,且連結件222係分別將窗 葉221連結於框體21之角落,其連結方式例如但不^ 於以樞接、扣接或卡接結合,當窗葉221關閉時,其^ 狀係與開口 2U相對應’可減少遮蔽底座3〇處之材料, 而減少其體積。此外,該扇框2〇可分為圓周部213和 外擴部2U,而該扇框20 t包括導流靜葉4 座30與圓周部213。。 於良 風扇2安裴於系統,扇窗結構22之作動如下「者 風扇2正常運轉時,窗t m係 : 心朝向出涵古a 上 疋·《开马%轉中 二: 當系統中風扇2發生故障或停 時,系統之其他正常風扇繼續運轉並造成一李统 Μ ’使得扇窗結構22之窗葉22 」統 係共同覆蓋開口 211,以防止:閉且該些窗葉 ^ , ^ 以防止虱流回灌,故能夠維持季 ==散熱效能’如第3圖係第2圖之扇窗結 得之風扇及其扇框,者脔簦 盆⑽…过 葉全部關閉時之示意圖, ^ = Π221僅覆蓋開口211並未覆蓋底座3〇之,· 未突出於該扇框2〇外應’ 框2〇開口 211所在平面上。 乂及位於扇 係 落’以限制窗葉221開敬的最大角度,該最大角度:: i::2於:度;限制件212係可與連結件222 1 s限制件212亦可一體成型於框體21之 風扇2運轉而窗葉221以連結件從為旋轉中心 的?=:向開啟時,限制件212係限制窗葉⑶開啟 法度:90度以下,可避免因開啟角度過大而無 法藉由系統背壓將窗葉221關閉。 綜上所述,本發明之—種具有扇窗結構之風扇及其 將該扇窗結構之窗葉連結於該框體之角落,使扇 广構與框體整合設計,故無需增加框體之體積,免除 安襄或固^扇窗結構所需之構件,簡化扇框之結構與製 造。與習知技術相較’本發明僅需修改框體之開口的角 落’框體之其餘部分仍保有既有結構,且透過此設計, 窗葉之形狀可對應開口形狀設計,窗葉之用料成本降 低’而窗葉可藉由系統内部之背壓作關閉,故不受限於 風扇設置於系統内的位置與方向,均_.確保該扇窗結 構之關閉,進而維持風扇整體的散熱效能,降低生產成 本及所需的安裝空間。 以上所述僅為舉例性,而非為限制性者。任何未脫 離本發明之精神與料,㈣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圖係為一種習知之風扇模組之示意圖。 .第2圖係依據本發明較佳實施例之-種具有扇窗結構 1322659 之風扇及其扇框之示意圖。 第3圖係第2圖之扇窗結構之風扇及其扇框,當窗葉全 部關閉時之示意圖。 第4圖係第2圖中入部分之放大示意圖。 第5圖係第2圖中B部分之放大示意圖。 元件符號說明: 1、2 風扇 11、20 扇框 111 固定部 12、22 扇窗結構 121 、 221 窗葉 13、30 底座 21 框體 211 開口 212 限制件 222 連結件 213 圓周部 214 外擴部 40 導流靜葉In order to improve the design of the conventional fan window structure and the heat dissipation performance of Wei, I, the production cost, and the important problems - and the required installation space, have become [invention] = clock in the above subject, the present invention The purpose is to provide a fan with a fan structure and its test, and the ability to reduce the heat dissipation when the fan fails to stop operating due to the failure of the fan due to the failure of the fan due to the reversal of the fan. In addition, the heat dissipation effect of the entire fan is maintained to reduce the production cost and the required installation space. The edge is that, in order to achieve the above object, a frame frame frame body according to the present invention is connected to the frame body and forms a frame. An opening, and a window structure. The fan window structure is coupled to the frame body, and has a plurality of window leaves and a plurality of connecting members, wherein the connecting members respectively connect the window leaves to the corner of the frame body. The shape corresponds to the shape of the opening. To achieve the above object, a fan according to the present invention includes an impeller, a motor and a frame. The motor is coupled to drive the impeller to rotate; The motor includes a frame body, a motor base, the motor base is coupled to the frame body to form an opening, and a window structure, the window window structure is coupled to the opening of the frame body, and the fan window structure has a restored window leaf and 322659 a plurality of connecting members, wherein the connecting members respectively connect the window leaves to the corners of the frame, and the shape of the window leaves when closed is corresponding to the shape of the opening. The invention has a window according to the invention. The structure fan and its fan frame connect the window leaf of the fan window structure to the corner of the frame body, so that the fan j structure and the frame body are integrated and designed, so there is no need to increase the volume of the frame body, and the installation or the m-shaped window structure is not required. The component of f simplifies the structure and manufacture of the fan frame. Compared with the prior art, the present invention only needs to modify the corner of the opening of the frame. The rest of the frame still retains the existing structure, and the window leaf is backed by the inside of the system. (4) Closing 'Therefore, it is not limited to the position and direction in which the fan is installed in the system, and it can (4) maintain the fan window structure, thereby maintaining the overall heat dissipation performance of the fan, reducing the production cost and the required installation space. .the following Referring to the related drawings, a fan having a fan window structure and a fan frame thereof according to a preferred embodiment of the present invention will be described, wherein the same elements will be described with the same reference numerals. Please refer to FIG. 2 and FIG. A fan 2 of the preferred embodiment includes a base %, a motor (not shown), and a frame 20. The fan 2 can be an axial fan or a centrifugal fan, and the motor is coupled to and drives the fan. An impeller (not shown) rotates; the fan frame 20 houses the impeller and the motor, and includes a frame 21 and a base 30. The base 30 is coupled to the frame 21 and a window structure 22 is disposed on the base. The window structure 22 is preferably located at the opening 211 of the fan frame 20. The window structure 2 is connected to the space near the fixing holes of the four corners of the frame 21 1322659, the window The structure 22 has a plurality of window 221 and a plurality of connecting members 222. Each of the window 221 is integrally formed with each of the connecting members 222, and the connecting member 222 connects the window 221 to the corner of the frame 21, respectively. Its connection method is, for example, but not for pivoting, Binding bonding or snap, when the vane 221 is closed, which ^ 2U shape corresponding to the opening line '3〇 shielding material can be reduced at the base, while reducing the volume thereof. Further, the frame 2〇 can be divided into a circumferential portion 213 and an outer expansion portion 2U, and the frame 20t includes a guide vane 4 seat 30 and a circumferential portion 213. . Yuliang fan 2 is installed in the system, and the operation of the fan window structure 22 is as follows: "When the fan 2 is in normal operation, the window tm system: the heart is facing the culvert a 疋 疋 · "Kai Ma% to the second: when the system fan 2 When a fault occurs or stops, other normal fans of the system continue to operate and cause a system to make the window leaf 22 of the window structure 22 cover the opening 211 to prevent: closing and closing the windows ^ , ^ Prevent turbulent recirculation, so it can maintain the season == heat dissipation performance. As shown in Figure 3, the fan window and its fan frame of the fan window in Fig. 2, the 脔簦 basin (10)... = Π 221 only covers the opening 211 and does not cover the base 3 ,, · does not protrude above the plane of the frame 2 应 'frame 2 〇 opening 211.乂 and the maximum angle at which the fan is lowered to limit the opening of the window leaf 221, the maximum angle: i::2 at: degrees; the limiting member 212 can be integrally formed with the connecting member 222 1 s limiting member 212 The fan 2 of the frame 21 is operated and the vane 221 is connected by a link from the center of rotation. =: When opening, the restriction member 212 restricts the opening of the window leaf (3): 90 degrees or less, to avoid the window leaf 221 being closed by the system back pressure due to the opening angle being too large. In summary, the fan having the fan window structure and the window leaf of the window structure are connected to the corner of the frame body, so that the fan wide structure and the frame body are integrated, so there is no need to increase the frame body. The volume is free of the components required for the ampule or solid window structure, simplifying the structure and manufacture of the fan frame. Compared with the prior art, the present invention only needs to modify the corner of the opening of the frame. The rest of the frame still retains the existing structure, and through this design, the shape of the window leaf can be corresponding to the shape of the opening, and the material of the window leaf The cost is reduced, and the window leaf can be closed by the back pressure inside the system, so it is not limited to the position and direction in which the fan is placed in the system. _. Ensure that the window structure is closed, thereby maintaining the overall heat dissipation performance of the fan. Reduce production costs and installation space required. The above is intended to be illustrative only and not limiting. Any equivalent modifications or changes made without departing from the spirit and scope of the 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 a conventional fan module. Figure 2 is a schematic illustration of a fan having a fan window structure 1322659 and its fan frame in accordance with a preferred embodiment of the present invention. Fig. 3 is a schematic view showing the fan of the fan window structure of Fig. 2 and its fan frame when the vane is completely closed. Figure 4 is an enlarged schematic view of the portion of the second drawing. Fig. 5 is an enlarged schematic view of a portion B in Fig. 2. Description of component symbols: 1, 2 fan 11, 20 fan frame 111 fixing part 12, 22 window structure 121, 221 window 13, 13 base 21 frame 211 opening 212 restricting piece 222 connecting piece 213 circumferential portion 214 outer expansion portion 40 Diversion vane