1322231 [0003] [0004] 095121473 六、發明說明: 【發明所屬之技術領域】 [_ι] 本發明係關於一種端子座、扇框及端子連結於座體之 方法,特別關於一種可熱插拔(hot swap)之端子座、 扇框及端子連結於座體之方法。 【先前技術】 隨著電子系統的功能與運作速度提升,其所產生的熱 亦相對增加,為維持電子系統的正常運作,習知技術係 配置一風扇作為散熱裝置,藉由氣流強制散熱,使電子 系統維持於正常的操作溫度。 請參照圖1所示,一種習知之風扇丨丨係藉由一組導線 12連接至一系統14 (例如主機板或電路板),以接收電 源與驅動訊號而作動。其中’該組導線12係以焊接方式 連接至該系統14 ’或是將該組導線1.2與一具管狀端子的 端子座13連接,再藉由該端子座13連接至該系統14。然. 而田該風扇11故障時’上述之連接方式無法於電子系 持續運作時進行更換。為解決上述問題,如圖2所示, —* 矣 〇 0之可熱插拔風扇2係可直接於系統端插拔抽換’ ^ 拔風扇2包括-端子座2G,其係組裝於該風扇2之 一扇框21卜 ^ ’該端子座2〇包括一座體2〇1及複數個向外突 Λ座體201端子孔203的端子202。當該風扇2與系統端 該風扇2係藉由該等端子202於風扇2徑向上之位 移’而與^端電性連接。 ;3 4端子2〇2係為一徑向外凸式端子,為使該等 端子2 〇 2可於y在a ;I向上產生位移,該等端子2 〇 2必須保有一 表單編號a〇i〇1 第 3 頁/共 23 頁 0983364075-0 1322231 定的彈性,而限制該等端子202之厚度及材質。而此限制 不僅會增加該等端子202插入該等端子孔203的難度,更 會提高該等端子202斷裂的可能性,進而降低組裝良率。 【發明内容】 [0005] 有鑑於上述課題,本發明之目的為提供一種風扇及其 端子座及端子座形成方法,以降低端子斷裂機率、增加 端子連接強度及大幅提高生產及組裝良率。 [0006] 緣是,為達上述目的,本發明提出一種風扇,該風扇 包括至少一轉子、一殼體及至少一端子座。該殼體容納 該轉子,該端子座包括一座體及至少一铡刀式端子。該 座體位於該殼體周緣,具有至少一端子槽。該铡刀式端 子係分別對應設置於該端子槽内。 , 4 [0007] 本發明再提出一種風扇,該風扇包括至少一轉子、一 殼體及至少一夾持式端子座。該殼體容納該轉子,該夾. 持式端子座包括一座體及至少一接腳。讓座體位於該殼 體周緣,具有至少一端子槽。該接腳係分別對應設置於 該端子槽内,該接腳之中段或前端的接觸部係朝該風扇 之非徑向方向延伸。 [0008] 本發明提出一種铡刀式端子座,該铡刀式端子座包括 一座體及至少一铡刀式端子。該座體具有至少一端子槽 。該鰂刀式端子係分別對應設置於該端子槽内。 [0009] 本發明提出一種鰂刀式端子座形成方法,係提供具一 端子槽之一座體及至少一铡刀式端子。對應置入該铡刀 式端子於該端子槽中,再嵌固該固定部於該座體。 095121473 表單編號A0101 第4頁/共23頁 0983364075-0 [0010]1322231 本發明再提出一種铡刀式端子座形成方法,係提供至 少一鰂刀式端子。置該铡刀式端子於一模具之適當位置 ,再於該模具中形成一座體,且該铡刀式端子被固定於 該座體上。 [0011] 综上所述,因本發明之一種風扇及其端子座及端子座 形成方法,藉由將其端子設計為铡刀式或夾持式,以提 高端子電性接觸面積、增強端子強度、避免端子發生接 觸不良之情形以及提供一定程度之固持力。由於本發明 之铡刀式端子作用面與插拔方向相異,故鰂刀式端子的 厚度無限制且強度較大,因此可以大幅提高端子座之生 產及組裝良率。此外,由於本發明之鰂刀式端子是為板 狀結構體,因此可以在端子座之座體成形之際,内嵌於 座體中,因而可以大幅提高铡刀式端子與座體之間的接 合強度,進而大幅提高生產良率及生產速度。 【實施方式】 [0012] 以下將參照相關圖式,說明依據本發明較佳實施例之 一種端子座、扇框及端子連結於座體之方法,其中相同 的元件將以相同的參照符號加以說明。 [0013] 請參照圖3所示,依據本發明較佳實施例之一風扇6包 括扇框3、轉子4及控制裝置(未圖示)。該控制裝置與 該轉子4係容置於該扇框3内,該控制裝置例如為風扇6之 驅動電路,用以控制該轉子4之作動。該風扇6例如是熱 插拔風扇。該轉子4具有至少一扇葉7及一轂部8,該扇葉 7係位於該轂部8周緣。該扇葉7可以是轴流式扇葉、側流 式扇葉、平板扇葉或曲形扇葉。 095121473 表單編號A0101 第5頁/共23頁 0983364075-0 [0014]1322231 該扇框3包括一框體35及至少一端子座30,其中該端 子座30係連結於該框體35之周緣且與該控制裝置電連結 。該端子座3 0包括一座體31以及至少一铡刀式端子32。 [0015] 該座體31係連結於該框體35之周緣,並具有至少一端 子槽311。該座體31可設置於該框體35之角落、側壁或該 框體@5之任意位置。此外,該座體31與該框體35可以是 射出成型等一體成型,也可以是相互組裝成型。該座體 31可配合該框體35之結構形狀設計為不同之形狀,例如 該座體31剖面係可呈平板狀、L型或U型等。該座體31之 材質係可為塑膠。 [0016] 該铡刀式端子32係對應設置於該端子槽311内,在本 實施例中,該铡刀式端子32係可為平板結構、曲板結構 、U型板結構、L型板結構或其他折板結構。該铡刀式端 子32之延伸方向較佳是與該端子座30的作用方向相仿, 如此該端子座30即可在該铡刀式端子32不需形變或僅些 許形變下,進行插拔動作。如此,本發明之鰂刀式端子 32厚度可以遠大於習知端子厚度而具較大之強度,故在 端子組裝於端子座之際,端子不會有斷裂之情形,進而 大幅提高生產與組裝良率。 [0017] 還有,當該鰂刀式端子32數目為二個或二個以上時, 該端子槽311數目較佳係為與該鰂刀式端子32數目相等或 更多。如圖3所示,設置於該端子槽311之該鰂刀式端子 32可為齊頭排列,但不以此為限,且每一鰂刀式端子32 的尺寸大小、高低配置或角度配置可相同,也可以不同 ,係依據實際需求而定。 095121473 表單編號A0101 第6頁/共23頁 0983364075-0 [0018]1322.231 如圖3所示,該鰂刀式端子32具有至少一本體321、一 訊號部322及一固定部323,該訊號部322係與該控制裝 置連結,該固定部323係用以使該铡刀式端子32固定於該 座體31内。在本實施例中,該本體321或該訊號部322可 經由例如至少一導線與該控制裝置電性連接,該固定部 323係可例如為倒勾狀。該铡刀式端子32可於該座體31成 形之際,置於該座體31成形模具中,而讓該座體31至少 包覆該固定部323,進而使該铡刀式端子32被固定於該端 子槽311内。另外,該铡刀式端子32也可以在該座體31成 形後,再嵌入於該端子槽311内,並藉由該固定部323而 固定於該端子槽311。 [0019] 該本體321係用以與一夾持式端子座5電性連接,以接 收傳遞風扇6與該夾持式端子座5間的訊號,前述訊號例 如是電源訊號、驅動訊號、警示訊號、狀態訊號等。該 本體321係被該夾持式端子座5夾持電性連接。該本體321 例如是平板結構、曲板結構、U型板結構、L型板結構或 其他折板結構。 [0020] 請同時參照圖3及圖4,該本體321與該訊號部322可 以是導電材質所構成,也可以是非導電材質所構成。該 非導電材質可以是塑膠。在該本體321或該訊號部322為 非導電材質所構成時,該本體321或該訊號部322至少一 側端面(如板狀端面等)上係形成有至少一導電膜321a ,該導電膜321a係與由導電材質所構成的該訊號部322或 該本體321電連接。該導電膜321a可以部分内埋於該本體 321或該訊號部322内,也可以只形成於該本體321或該 095121473 表單編號A0101 第7頁/共23頁 0983364075-0 1322231 訊號部322表面。當該本體321與該訊號部322同時為非 導電材質所構成時,該導電膜321a則會同時在該本體321 與該訊號部322上,形成一導電通路或二個以上的導電通 路。 [0021] 另外,該導電膜32la之個數為二個或二個以上時,各 導電膜可以僅形成於該本體321或該訊號部322之一侧端 面、相異端面、或部分在同一端面部分在相異端面。 [0022] 另外,該夾持式端子座5係與該座體31相對應,且具 有至少一接腳52及一座體51,該接腳52係容置於該座體 51内,且與該本體321對應設置,用以與該本體321電性 連接。該接腳52例如是彈性結構體、具彎折的結構體、 具突出部521的結構體等,其中該突出部521較佳係朝向 該内壁或與該接腳52延伸面成一角度。該本體321或該導 電膜321a可以被該接腳52與該座體51内壁一起夾持,也 可以僅被多個接腳52 —起夾持。或者,可以藉由調整該 ·. . 導電膜321a與相配合之接腳52的數量,而增加訊號傳導 數量,進而可以大幅減少端子數、縮小端子座體積等。 [0023] ' 該夾持式端子座5係可設置於一外部系統殼體、一介 面卡、一主機板、一電路板或其他外部系統上。另外, 上述實施例雖以該端子座30設置於該框體35,該夾持式 端子座5未設置於該框體35上為例進行說明,然並不以此 為限,也可以變更為該夾持式端子座5設置於該框體35, 該端子座30未設置於該框體35上。該夾持式端子座5的接 腳52之中段或前端的接觸部係朝風扇6之非徑向方向延伸 或朝非該鰂刀式端子32之延伸方向延伸。藉由端子座30 095121473 表單編號A0101 第8頁/共23頁 0983364075-0 1322231 之鰂刀式端子32與夾持式端子座5的接合,即可使風扇6 與外部系統在無其他固定結構的情形下,具有一定程度 之固接力。 另外,該風扇6之框體35或座體31更可具有至少一孔槽34 ,該孔槽34可用以容置一顯示器(圖未顯示),其中該 顯示器係可為一發光二極體(Light Emitting Diode, LED)、一雷射二極體(Laser Diode, LD)、一有機-電激發光元件(Organic ElectroLuminescent Device, OELD)或一場發射元件(Field Emission Device,FED),該孔槽34係可設置於該框體35任何位 置,亦可設置於該座體31上。 [0024] 如圖3與圖5所示,本發明之端子座形成方法係包括下 列步驟:步驟S1係提供一座體31,該座體31具有至少一 個端子槽311。步驟S2係提供至少一個鰂刀式端子32。步 驟S3,將該鰂刀式端子32對應置入該端子槽311内,並以 該固定部323嵌固於該座體31。 [0025] 另外,如圖3與圖6所示,本發明之端子座也可以改由 下列步驟形成:步驟S11係提供至少一個鰂刀式端子32。 步驟S12係將該铡刀式端子32置於一模具之適當位置。步 驟S1 3以射出成形法或壓出成形法於該模具中形成該座體 31,此時該鰂刀式端子32也同時被固定於該座體31之端 子槽311内。 另外,當本發明風扇6之端子座30改為夾持式端子座5 時,僅需將铡刀式端子32替換為接腳52即可輕易以前述 方法形成此夾持式端子座。或者,形成座體31或51之際 095121473 表單編號A0101 第9頁/共23頁 0983364075-0 [0026] [0027]1322231 [0028] [0029] [0030] [0031] [0032] [0033] ,可以與該框體35—體成型,也可以在座體31或51形成 後再與該框體35組裝在一起。前述座體之材質係可以為 塑膠。 綜上所述,因本發明之一種風扇及其端子座及端子座 形成方法,藉由將其端子設計為铡刀式或夾持式,以提 高端子電性接觸面積、增強端子強度、避免端子發生接 觸不良之情形以及提供一定程度之固持力。由於本發明 之铡刀式端子作用面與插拔方向相異,故铡刀式端子的 厚度無限制且強度較大,因此可以大幅提高端子座之生 產及組裝良率。此外,由於本發明之鰂刀式端子是為板 狀結構體,因此可以在端子座之座體成形之際,内嵌於 座體中,因而可以大幅提高鰂刀式端子與座體之間的接 合強度,進而大幅提高生產良率及生產速度。 以上所述僅為舉例性,而非為限制性士。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】 圖1為習知風扇連結於一系統的示意圖; 圖2為習知可熱插拔風扇及其端子座的示意圖; 圖3為本發明一較佳實施例之風扇的分解示意圖; 圖4為本發明一較佳實施例之铡刀式端子的示意圖; 圖5為本發明一較佳實施例之端子座形成方法的流程 圖。以及 095121473 表單編號A0101 第10頁/共23頁 0983364075-0 [0034]1322231 圖6為本發明另一較佳實施例之端子座形成方法的流 程圖。 【主要元件符號說明】 [0035] 11 :風扇 12 :導線 13 :端子座 14 :系統 2 :風扇 20 :端子座 201 ' 31、51 :座體 2 0 2 :端子_ 203 :端子孔 21 :殼體 3 :扇框 30 :端子座 311 :端子槽 3 2 :鰂刀式端子 321 :本體 321a :導電膜 322 :訊號部 323 :固定部 34 :孔槽 3 5 :框體 4 :轉子 5:夾持式端子座 52 :接腳 521 :突出部 6 :風扇 7 :扇葉 8 :轂部 S1 〜S3、S1卜 S13 :步驟 095121473 表單編號A0101 第11頁/共23頁 0983364075-01322231 [0003] [0003] 095121473 VI. Description of the invention: [Technical field of the invention] [_ι] The present invention relates to a method for connecting a terminal block, a fan frame and a terminal to a seat body, in particular, a hot swappable ( Hot swap) The method of connecting the terminal block, the fan frame and the terminal to the base. [Prior Art] As the functions and operating speeds of electronic systems increase, the heat generated by them increases relatively. In order to maintain the normal operation of the electronic system, the conventional technology configures a fan as a heat sink to force heat dissipation through the airflow. The electronic system is maintained at normal operating temperatures. Referring to Figure 1, a conventional fan system is coupled to a system 14 (e.g., a motherboard or circuit board) by a set of wires 12 for receiving power and drive signals. Wherein the set of wires 12 are soldered to the system 14' or the set of wires 1.2 are connected to a terminal block 13 of a tubular terminal and connected to the system 14 by the terminal block 13. However, when the fan 11 fails, the above connection method cannot be replaced when the electronic system is continuously operated. In order to solve the above problem, as shown in FIG. 2, the hot-swappable fan 2 of the ** 矣〇0 can be directly inserted and removed from the system end. ^ The fan 2 includes a terminal block 2G, which is assembled to the fan. 2 One of the fan frames 21b' The terminal block 2 includes a body 2〇1 and a plurality of terminals 202 of the terminal holes 203 of the outwardly protruding body 201. When the fan 2 and the system end of the fan 2 are in the radial direction of the fan 2 by the terminals 202, they are electrically connected to the end. ; 3 4 terminal 2〇2 is a radial convex terminal, in order for the terminals 2 〇2 to be displaced in a; I, the terminal 2 〇 2 must have a form number a〇i 〇1 Page 3 of 23 0983364075-0 1322231 defines the elasticity and limits the thickness and material of the terminals 202. Moreover, this limitation not only increases the difficulty of inserting the terminals 202 into the terminal holes 203, but also increases the possibility of the terminals 202 breaking, thereby reducing the assembly yield. SUMMARY OF THE INVENTION [0005] In view of the above problems, an object of the present invention is to provide a fan, a terminal block thereof, and a terminal block forming method for reducing the probability of terminal breakage, increasing terminal connection strength, and greatly improving production and assembly yield. [0006] The reason is that, in order to achieve the above object, the present invention provides a fan comprising at least one rotor, a casing and at least one terminal block. The housing houses the rotor, the terminal block including a body and at least one trowel type terminal. The base is located at a periphery of the housing and has at least one terminal slot. The boring-type terminal systems are respectively disposed in the terminal slots. 4 [0007] The present invention further provides a fan including at least one rotor, a housing, and at least one clamped terminal block. The housing houses the rotor, and the clamp terminal block includes a body and at least one pin. The seat body is located at the periphery of the housing and has at least one terminal slot. The pins are respectively disposed in the terminal slots, and the contact portions of the middle or the front end of the pins extend in a non-radial direction of the fan. The present invention provides a guillotine terminal block that includes a body and at least one guillotine terminal. The base has at least one terminal slot. The boring-type terminals are respectively disposed in the terminal slots. The present invention provides a method for forming a boring-type terminal block, which is provided with a seat body having a terminal slot and at least one trowel type terminal. The boring-type terminal is inserted into the terminal slot, and the fixing portion is embedded in the base. 095121473 Form No. A0101 Page 4 of 23 0983364075-0 [0010] 1322231 The present invention further provides a method of forming a rake type terminal block, which provides at least one rake type terminal. The boring-type terminal is placed at a proper position in the mold, and then a body is formed in the mold, and the boring-type terminal is fixed to the base. [0011] In summary, according to the fan of the present invention and the terminal block and the terminal block forming method thereof, the terminal is designed as a boring tool or a clamping type to improve the electrical contact area of the terminal and enhance the strength of the terminal. Avoid contact failure of the terminals and provide a certain degree of holding power. Since the action surface of the trowel type terminal of the present invention is different from the insertion and removal direction, the thickness of the trowel type terminal is not limited and the strength is large, so that the production and assembly yield of the terminal block can be greatly improved. Further, since the trowel type terminal of the present invention is a plate-like structure, it can be embedded in the seat body when the seat body of the terminal block is formed, so that the joint between the rivet type terminal and the seat body can be greatly improved. Strength, which in turn greatly increases production yield and production speed. [Embodiment] Hereinafter, a method of connecting a terminal block, a fan frame, and a terminal to a base according to a preferred embodiment of the present invention will be described with reference to the accompanying drawings, wherein the same elements will be described with the same reference numerals. . Referring to FIG. 3, a fan 6 according to a preferred embodiment of the present invention includes a fan frame 3, a rotor 4, and a control device (not shown). The control device and the rotor 4 are housed in the fan frame 3. The control device is, for example, a driving circuit of the fan 6, for controlling the operation of the rotor 4. The fan 6 is, for example, a hot plug fan. The rotor 4 has at least one blade 7 and a hub 8, which is located at the periphery of the hub 8. The blade 7 may be an axial fan blade, a side flow fan blade, a flat blade blade or a curved blade blade. 095121473 Form No. A0101 Page 5 of 23 0983364075-0 [0014] 1322231 The frame 3 includes a frame 35 and at least one terminal block 30, wherein the terminal block 30 is coupled to the periphery of the frame 35 and The control device is electrically connected. The terminal block 30 includes a body 31 and at least one file terminal 32. [0015] The base body 31 is coupled to the periphery of the frame body 35 and has at least one end slot 311. The base 31 can be disposed at a corner of the frame 35, a side wall or any position of the frame @5. Further, the seat body 31 and the frame body 35 may be integrally molded by injection molding or the like, or may be assembled to each other. The seat body 31 can be designed to have different shapes according to the structural shape of the frame body 35. For example, the seat body 31 can be in the form of a flat plate, an L-shape or a U-shape. The material of the seat body 31 can be plastic. [0016] The boring-type terminal 32 is correspondingly disposed in the terminal slot 311. In the embodiment, the boring-type terminal 32 can be a flat plate structure, a curved plate structure, a U-shaped plate structure, an L-shaped plate structure or the like. Folding structure. The direction in which the riving-type terminal 32 extends is preferably similar to the direction in which the terminal block 30 is applied. Thus, the terminal block 30 can be inserted and removed without the deformation or only a slight deformation of the boring-type terminal 32. Thus, the thickness of the boring-type terminal 32 of the present invention can be much larger than the thickness of the conventional terminal and has a large strength. Therefore, when the terminal is assembled to the terminal block, the terminal does not break, thereby greatly improving the production and assembly. rate. Further, when the number of the boring-type terminals 32 is two or more, the number of the terminal slots 311 is preferably equal to or greater than the number of the trowel-type terminals 32. As shown in FIG. 3, the boring-type terminals 32 disposed in the terminal slot 311 can be aligned, but not limited thereto, and the size, height, or angle configuration of each trowel-type terminal 32 can be The same or different, depending on actual needs. 095121473 Form No. A0101 Page 6 of 23 0983364075-0 [0018] 1322.231 As shown in FIG. 3, the boring-type terminal 32 has at least one body 321, a signal portion 322 and a fixing portion 323, and the signal portion 322 The control unit is coupled to the control unit, and the fixing unit 323 is configured to fix the file terminal 32 in the base 31. In this embodiment, the body 321 or the signal portion 322 can be electrically connected to the control device via, for example, at least one wire. The fixing portion 323 can be, for example, a barb. The boring-type terminal 32 can be placed in the forming mold of the seat body 31 when the seat body 31 is formed, and the seat body 31 is covered with at least the fixing portion 323, so that the riving-type terminal 32 is fixed to the boring-type terminal 32. Inside the terminal slot 311. Further, the trowel type terminal 32 may be embedded in the terminal groove 311 after being formed in the terminal body 31, and fixed to the terminal groove 311 by the fixing portion 323. [0019] The body 321 is configured to be electrically connected to a clamping terminal block 5 for receiving a signal between the transmitting fan 6 and the clamping terminal block 5. The signals are, for example, a power signal, a driving signal, and a warning signal. , status signals, etc. The body 321 is electrically connected by the clamp type terminal block 5. The body 321 is, for example, a flat plate structure, a curved plate structure, a U-shaped plate structure, an L-shaped plate structure or other folded plate structure. [0020] Referring to FIG. 3 and FIG. 4 together, the body 321 and the signal portion 322 may be made of a conductive material or a non-conductive material. The non-conductive material can be plastic. When the body 321 or the signal portion 322 is made of a non-conductive material, the body 321 or the signal portion 322 is formed with at least one conductive film 321a on at least one end surface (such as a plate-like end surface, etc.), and the conductive film 321a The signal portion 322 or the body 321 composed of a conductive material is electrically connected. The conductive film 321a may be partially embedded in the body 321 or the signal portion 322, or may be formed only on the surface of the body portion 321 or the 095121473 form number A0101 page 7 / 23 page 0983364075-0 1322231 signal portion 322. When the body 321 and the signal portion 322 are both made of a non-conductive material, the conductive film 321a forms a conductive path or two or more conductive paths on the body 321 and the signal portion 322 at the same time. [0021] When the number of the conductive films 32la is two or more, each conductive film may be formed only on one side end surface, a different end surface, or a part of the same end surface of the body 321 or the signal portion 322. Part of the different end faces. [0022] In addition, the clamping terminal block 5 corresponds to the base body 31, and has at least one pin 52 and a body 51. The pin 52 is received in the base body 51, and The body 321 is correspondingly disposed to be electrically connected to the body 321 . The pin 52 is, for example, an elastic structure, a structure having a bent structure, a structure having a protruding portion 521, and the like, wherein the protruding portion 521 is preferably oriented toward the inner wall or at an angle to the extending surface of the pin 52. The body 321 or the conductive film 321a may be sandwiched by the pin 52 together with the inner wall of the base 51, or may be sandwiched by only a plurality of pins 52. Alternatively, by adjusting the number of the conductive film 321a and the matching pin 52, the number of signal conduction can be increased, thereby further reducing the number of terminals, reducing the size of the terminal block, and the like. [0023] The clip-on terminal block 5 can be disposed on an external system housing, a interface card, a motherboard, a circuit board or other external system. In the above embodiment, the terminal block 30 is provided in the frame body 35, and the clamp type terminal block 5 is not provided on the frame body 35. However, the present invention is not limited thereto, and may be changed to The clamp type terminal block 5 is disposed on the frame body 35, and the terminal block 30 is not disposed on the frame body 35. The contact portion of the middle portion or the front end of the pin 52 of the clamp type terminal block 5 extends toward the non-radial direction of the fan 6 or extends in a direction other than the direction in which the guillotine terminal 32 extends. By the connection of the mortise terminal 32 of the terminal block 30 095121473 form number A0101, page 8 / 23 pages 0933336705-0 1322231, with the clamped terminal block 5, the fan 6 and the external system can be used without any other fixed structure. In the case, there is a certain degree of solidity. In addition, the frame 35 or the base 31 of the fan 6 may further have at least one slot 34, and the slot 34 may be used to accommodate a display (not shown), wherein the display may be a light-emitting diode ( Light Emitting Diode (LED), a Laser Diode (LD), an Organic ElectroLuminescent Device (OELD) or a Field Emission Device (FED), the slot 34 The frame body 35 can be disposed at any position of the frame body 35 or can be disposed on the seat body 31. As shown in FIG. 3 and FIG. 5, the terminal block forming method of the present invention comprises the following steps: Step S1 provides a body 31 having at least one terminal slot 311. Step S2 provides at least one sickle terminal 32. In step S3, the boring-type terminal 32 is correspondingly placed in the terminal slot 311, and is fixed to the base 31 by the fixing portion 323. In addition, as shown in FIGS. 3 and 6, the terminal block of the present invention may be formed by the following steps: Step S11 provides at least one boring-type terminal 32. Step S12 places the file terminal 32 in position on a mold. In step S1 3, the seat body 31 is formed in the mold by an injection molding method or an extrusion molding method, and at this time, the file terminal 32 is also fixed in the terminal groove 311 of the seat body 31 at the same time. Further, when the terminal block 30 of the fan 6 of the present invention is changed to the clamp type terminal block 5, the clamp type terminal block can be easily formed by the above-described method simply by replacing the sickle type terminal 32 with the pin 52. Alternatively, when the base 31 or 51 is formed 095121473, the form number A0101, the 9th page, the total of 23 pages, the number of 0,933,364,407, 0, [0026] [0027] [0028] [0029] [0033] The frame body 35 may be integrally molded, or may be assembled with the frame body 35 after the seat body 31 or 51 is formed. The material of the aforementioned seat body may be plastic. In summary, according to the fan of the present invention and the terminal block and terminal block forming method thereof, the terminal is designed as a boring tool or a clamping type to improve the electrical contact area of the terminal, enhance the strength of the terminal, and avoid the occurrence of the terminal. Poor contact and provide a degree of retention. Since the action surface of the trowel type terminal of the present invention is different from the insertion and removal direction, the thickness of the trowel type terminal is not limited and the strength is large, so that the production and assembly yield of the terminal block can be greatly improved. In addition, since the trowel type terminal of the present invention is a plate-like structure, it can be embedded in the seat body when the seat body of the terminal block is formed, so that the squeegee type terminal and the seat body can be greatly improved. Bonding strength, which in turn greatly increases production yield and production speed. The above description is for illustrative purposes only and is not a limitation. 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 a conventional fan coupled to a system; FIG. 2 is a schematic view of a conventional hot-swappable fan and its terminal block; FIG. 3 is an exploded view of a fan according to a preferred embodiment of the present invention; 4 is a schematic view of a trowel type terminal according to a preferred embodiment of the present invention; and FIG. 5 is a flow chart showing a method of forming a terminal block according to a preferred embodiment of the present invention. And 095121473 Form No. A0101 Page 10 of 23 0983364075-0 [0034] 13223231 FIG. 6 is a flow chart showing a method of forming a terminal block according to another preferred embodiment of the present invention. [Main component symbol description] [0035] 11 : Fan 12 : Wire 13 : Terminal block 14 : System 2 : Fan 20 : Terminal block 201 ' 31, 51 : Seat 2 0 2 : Terminal _ 203 : Terminal hole 21 : Shell Body 3: Fan frame 30: Terminal block 311: Terminal slot 3 2 : Sickle terminal 321 : Main body 321a : Conductive film 322 : Signal portion 323 : Fixing portion 34 : Hole groove 3 5 : Frame 4 : Rotor 5 : Clamp Holding terminal block 52: pin 521: protruding portion 6: fan 7: blade 8: hub portion S1 to S3, S1, S13: step 095121473 Form No. A0101 Page 11 of 23 page 13833376075-0