TWM539714U - Fan connector featuring two terminals in single slot to replace printed circuit board - Google Patents
Fan connector featuring two terminals in single slot to replace printed circuit board Download PDFInfo
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- TWM539714U TWM539714U TW105218917U TW105218917U TWM539714U TW M539714 U TWM539714 U TW M539714U TW 105218917 U TW105218917 U TW 105218917U TW 105218917 U TW105218917 U TW 105218917U TW M539714 U TWM539714 U TW M539714U
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Description
本創作係一種在單一插槽內配置二組端子以取代印刷電路之風扇連接器,尤指在一絕緣座體之插槽內嵌設有上下兩排端子,上排端子能連接至控制晶片,下排端子則能電氣連接至風扇,以在一外部插頭插入至該插槽內時,能被該等端子夾持,進而使訊號能被傳遞至風扇上之嶄新結構。 The present invention is a fan connector in which two sets of terminals are arranged in a single slot to replace a printed circuit, in particular, an upper and lower rows of terminals are embedded in a slot of an insulating base, and the upper row of terminals can be connected to the control chip. The lower row of terminals can be electrically connected to the fan to be clamped by the terminals when an external plug is inserted into the slot, thereby enabling the signal to be transmitted to the brand new structure on the fan.
按,隨著電子技術的快速發展,電子設備(如:個人電腦、伺服器等)的處理效率與速度也不斷提昇,在電子訊號內含之資訊量越大、處理速度越快的情況下,電子設備在運作時,其內部各元件的溫度也會急速上升,因此,如何有效對電子設備內部進行降溫,可說是影響其運作效率的關鍵因素之一。 According to the rapid development of electronic technology, the processing efficiency and speed of electronic devices (such as personal computers, servers, etc.) are also increasing. The greater the amount of information contained in electronic signals and the faster the processing speed, When the electronic equipment is in operation, the temperature of its internal components will rise rapidly. Therefore, how to effectively cool the inside of the electronic equipment can be said to be one of the key factors affecting its operational efficiency.
目前,電子設備皆係透過內部配置的「風扇」,產生氣流以進行降溫,而為了更精確地控制耗電,已有業者設計出能改變轉速的風扇,即,電子設備內之處理單元能夠根據當前的環境溫度,調節驅動風扇的電力訊號,以控制風扇的轉速(即,當溫度較低時,即放低風扇的轉速)。此一改變轉速之方法,多係以脈衝寬度調變(Pulse Width Modulation,以下簡稱PWM)技術產生脈衝式之電力訊號(以下簡稱PWM訊號),以透過改變 脈衝寬度、導通時間或佔空比(duty cycle),讓風扇的轉速能隨之改變。 At present, electronic devices generate airflow for cooling by means of an internally configured "fan", and in order to control power consumption more accurately, operators have designed a fan that can change the rotational speed, that is, the processing unit in the electronic device can be based on The current ambient temperature adjusts the power signal of the driving fan to control the speed of the fan (ie, when the temperature is low, the fan speed is lowered). In this method of changing the rotational speed, a pulse-type power signal (hereinafter referred to as a PWM signal) is generated by a Pulse Width Modulation (PWM) technique to change the transmission. The pulse width, on-time or duty cycle allows the fan's speed to change.
前述透過PWM技術控制風扇轉速的方法,雖能讓風扇更有效率地進行散熱,但在實務上仍有許多不盡完美之處,首先,由於風扇並不能直接被該PWM訊號驅動,必須透過一PWM模組,先將接收到的PWM訊號進行轉換,始能正確運轉。而目前業界的作法,係在電子設備內鄰近風扇的位置裝設一電路板,該電路板上設有該PWM模組及二插座,該等插座係分別供一主機插頭及一風扇插頭插接,使該主機插頭傳來的PWM訊號,能透過該電路板上之印刷電路,導引至該PWM模組,轉換成對應之電源訊號後,再經由該風扇插頭,驅動風扇旋轉。然而,此一作法會佔據電子設備內的過多空間(即,電路板及其上之傳輸線佔用空間過大),影響整體配置,且在安裝上亦頗為繁瑣,對於業者而言會造成許多限制。 The above method of controlling the fan speed through the PWM technology allows the fan to dissipate heat more efficiently, but there are still many imperfections in practice. First, since the fan cannot be directly driven by the PWM signal, it must pass through a The PWM module first converts the received PWM signal and starts to operate correctly. The current practice in the industry is to install a circuit board in the vicinity of the fan in the electronic device. The circuit board is provided with the PWM module and two sockets, and the sockets are respectively connected with a host plug and a fan plug. The PWM signal transmitted from the host plug can be guided to the PWM module through the printed circuit on the circuit board, converted into a corresponding power signal, and then driven by the fan plug to drive the fan to rotate. However, this practice will occupy too much space in the electronic device (that is, the circuit board and the transmission line on it) take up too much space, affecting the overall configuration, and is also cumbersome to install, which will cause many restrictions for the industry.
為解決此一問題,創作人曾設計出一種風扇連接器,並已申請專利保護,請參閱第1圖所示,該風扇連接器1係鎖固於一風扇10上,且包括一絕緣座體11、一控制晶片12、一組訊號端子13及一組電源端子14,其中,該絕緣座體11之前端設有相連通之第一插槽111及一第二插槽112,該訊號端子13之一端係伸入至該第一插槽111之頂側,其另一端電氣連接至該控制晶片12;該電源端子14之構型則呈U字形,其一端伸入至該第一插槽111之底側,其另一端則伸入至該第二插槽112,以能透過一風扇插頭101,與該風扇10上之傳輸線102相連接,據此,由於該等端子13、14能取代傳統印刷電路的傳輸訊號功能,故,透過該風扇連接器1之設計,即能大幅縮減風扇10周遭所需的配置空間。 In order to solve this problem, the creator has designed a fan connector and has applied for patent protection. As shown in FIG. 1 , the fan connector 1 is locked to a fan 10 and includes an insulating seat. 11. A control chip 12, a set of signal terminals 13 and a set of power terminals 14, wherein the front end of the insulating base 11 is provided with a first slot 111 and a second slot 112, and the signal terminal 13 One end extends into the top side of the first slot 111, and the other end is electrically connected to the control wafer 12; the power terminal 14 is U-shaped and has one end extending into the first slot 111. The bottom side of the bottom side extends into the second slot 112 to be connected to the transmission line 102 on the fan 10 through a fan plug 101. Accordingly, the terminals 13 and 14 can replace the conventional The transmission signal function of the printed circuit is such that the design of the fan connector 1 can greatly reduce the configuration space required for the fan 10 to be around.
惟,創作人在後續的研究過程中,發現前述之風扇連接器1 仍有可改良的空間,應能進一步縮減其體積及改良組裝方式,因此,如何在前述創作基礎下,進一步改良風扇連接器之結構與端子的配置方式,以令該風扇連接器能更符合當前業界「輕薄短小」的設計趨勢,即成為本創作在此亟欲解決的重要課題。 However, the creator discovered the aforementioned fan connector 1 during the subsequent research. There is still room for improvement, which should be able to further reduce its size and improve the assembly method. Therefore, how to further improve the structure of the fan connector and the arrangement of the terminals under the above-mentioned creation, so that the fan connector can better conform to the current The design trend of "light, thin and short" in the industry has become an important issue that this creation is intended to solve.
有鑑於以往電子設備欲傳輸PWM訊號,以控制風扇之轉速時,必須在鄰近風扇之位置裝設一電路板,以配置PWM模組及二組插座,致使佔用空間過大的問題,創作人憑藉著多年來的實務經驗,並以先前設計的風扇連接器為基礎,進行再次改良後,終於設計出本創作之一種在單一插槽內配置二組端子以取代印刷電路之風扇連接器,期能提供一種體積更輕便、更易於組裝且成本更低的連接器。 In view of the fact that in the past, when an electronic device wants to transmit a PWM signal to control the speed of the fan, a circuit board must be installed adjacent to the fan to configure the PWM module and the two sets of sockets, resulting in an excessive space occupation, and the creator relies on Based on years of practical experience and based on the previously designed fan connector, after re-improvement, I finally designed a fan connector that is equipped with two sets of terminals in a single slot to replace the printed circuit. A connector that is lighter in weight, easier to assemble, and less expensive.
本創作之一目的,係提供一種在單一插槽內配置二組端子以取代印刷電路之風扇連接器,係裝設於一電子設備中,該風扇連接器包括一絕緣座體、一控制晶片、複數支第一連接端子及複數支第二連接端子,該絕緣座體係裝設於該電子設備中鄰近一風扇之位置,該絕緣座體之前側面係設有一插槽,其後側面則設有複數個端子槽,各該端子槽能連通至該插槽;該控制晶片係裝設於該絕緣座體上;該等第一連接端子係嵌設於該絕緣座體中,該等第一連接端子之一端係露出至該插槽內鄰近頂部之位置,其另一端則能與該控制晶片相電氣連接;該等複數支第二連接端子之一端能分別穿過至各該端子槽,以伸入該插槽中鄰近底端之位置,其另一端則能電氣連接至該風扇,以在一外部插頭插入至該插槽內的情況下,該等第一連接端子及第二連接端子能分別抵靠至該外部插頭之頂面及底面, 且分別電氣連接至該外部插頭上之電極接點,使該外部插頭傳送之訊號能透過該等第一連接端子、控制晶片及該第二連接端子,傳遞至該風扇,並驅動該風扇運轉。據此,由於該風扇連接器上僅具有單一個與插接用之插槽,且該等第二連接端子能直接與風扇上之傳輸線相連接,因此能進一步縮減體積,同時簡化組裝繁複度。 One of the purposes of the present invention is to provide a fan connector in which a plurality of sets of terminals are arranged in a single slot instead of a printed circuit, and is mounted in an electronic device. The fan connector includes an insulating base, a control chip, a plurality of first connecting terminals and a plurality of second connecting terminals, wherein the insulating seat system is disposed in the electronic device adjacent to a fan, the insulating seat is provided with a slot on the front side, and the rear side is provided with a plurality of Each of the terminal slots is connectable to the slot; the control chip is mounted on the insulating base; the first connecting terminals are embedded in the insulating base, and the first connecting terminals are One end is exposed to a position adjacent to the top in the slot, and the other end is electrically connected to the control chip; one end of the plurality of second connection terminals can respectively pass through each of the terminal slots to extend into The slot is adjacent to the bottom end, and the other end of the slot is electrically connected to the fan. When an external plug is inserted into the slot, the first connection terminal and the second connection terminal can respectively be respectively received. Rely on The outer plug top and bottom surfaces, And electrically connected to the electrode contacts on the external plug, so that the signal transmitted by the external plug can be transmitted to the fan through the first connection terminal, the control chip and the second connection terminal, and the fan is driven to operate. Accordingly, since the fan connector has only a single socket for plugging, and the second connecting terminals can be directly connected to the transmission line on the fan, the volume can be further reduced, and the assembly complexity can be simplified.
為便 貴審查委員能對本創作之結構特徵、作動方式及技術訴求有進一步的認識與理解,茲舉實施例配合圖式,詳細說明如下: In order to facilitate the review committee members to have a better understanding and understanding of the structural features, actuation methods and technical appeals of this creation, the following examples are combined with the drawings, which are described in detail as follows:
[習知] [知知]
1‧‧‧風扇連接器 1‧‧‧Fan Connector
10‧‧‧風扇 10‧‧‧fan
101‧‧‧風扇插頭 101‧‧‧Fan plug
102‧‧‧傳輸線 102‧‧‧ transmission line
11‧‧‧絕緣座體 11‧‧‧Insulated body
111‧‧‧第一插槽 111‧‧‧First slot
112‧‧‧第二插槽 112‧‧‧second slot
12‧‧‧控制晶片 12‧‧‧Control chip
13‧‧‧訊號端子 13‧‧‧ Signal Terminal
14‧‧‧電源端子 14‧‧‧Power terminal
[本創作] [This creation]
2‧‧‧風扇連接器 2‧‧‧Fan Connector
21‧‧‧絕緣座體 21‧‧‧Insulated body
210‧‧‧插槽 210‧‧‧ slots
211‧‧‧端子槽 211‧‧‧Terminal slot
212‧‧‧安裝槽 212‧‧‧Installation slot
212a‧‧‧導引槽 212a‧‧‧ guiding slot
213‧‧‧鎖固部 213‧‧‧Locking
22‧‧‧控制晶片 22‧‧‧Control wafer
23‧‧‧絕緣板體 23‧‧‧Insulation board
230‧‧‧定位孔 230‧‧‧Positioning holes
P1‧‧‧第一連接端子 P1‧‧‧First connection terminal
P2‧‧‧第二連接端子 P2‧‧‧second connection terminal
P21‧‧‧夾持部 P21‧‧‧ gripping department
P22‧‧‧彈片 P22‧‧‧Shrap
P3‧‧‧傳輸線 P3‧‧‧ transmission line
第1圖係申請人先前設計之風扇連接器示意圖;第2圖係本創作之風扇連接器之外觀示意圖;第3圖係本創作之風扇連接器之爆炸圖;第4圖係本創作之風扇連接器之絕緣座體示意圖;及第5圖係本創作之風扇連接器之剖面圖。 1 is a schematic diagram of a fan connector previously designed by the applicant; FIG. 2 is a schematic view of the appearance of the fan connector of the present invention; FIG. 3 is an exploded view of the fan connector of the present invention; A schematic view of the insulator of the connector; and Figure 5 is a cross-sectional view of the fan connector of the present invention.
本創作係一種在單一插槽內配置二組端子以取代印刷電路之風扇連接器,請參閱第2~3圖所示,係本創作之第一較佳實施例,該風扇連接器2係裝設於一電子設備中,包括一絕緣座體21、一控制晶片22、複數支第一連接端子P1及複數支第二連接端子P2。請參閱第2~5圖所示,該絕緣座體21係裝設於該電子設備中鄰近一風扇之位置,其前側面設有一插槽210,其後側面則設有複數個端子槽211,各該端子槽211能連通至該插槽210,為便於說明,茲以第2及3圖之左下方為「前方」、右上方為「後方」 說明各元件之結構關係。 This is a fan connector in which two sets of terminals are arranged in a single slot to replace the printed circuit. Please refer to the second preferred embodiment of the present invention. The fan connector 2 is mounted. It is disposed in an electronic device and includes an insulating base 21, a control wafer 22, a plurality of first connecting terminals P1, and a plurality of second connecting terminals P2. As shown in FIG. 2 to FIG. 5 , the insulating base 21 is disposed adjacent to a fan in the electronic device, and has a slot 210 on the front side and a plurality of terminal slots 211 on the rear side. Each of the terminal slots 211 can communicate with the slot 210. For convenience of explanation, the left and bottom of the second and third figures are "front" and the upper right is "rear". Explain the structural relationship of each component.
該控制晶片22係裝設於該絕緣座體21上,該等第一連接端子P1係嵌設於該絕緣座體21中(可由射出成形製程埋設於該絕緣座體21內,亦可由嵌插方式裝入),其一端係露出至該插槽210內鄰近頂部之位置,其另一端則能與該控制晶片22相電氣連接。 The control chip 22 is mounted on the insulating base 21, and the first connecting terminals P1 are embedded in the insulating base 21 (embedded in the insulating base 21 by an injection molding process, or by inserting The method is mounted with one end exposed to the top of the slot 210 adjacent to the top, and the other end of which is electrically connected to the control wafer 22.
請參閱第2~4圖所示,該等第二連接端子P2能由該絕緣座體21之後端,嵌插至該等端子槽211中,其一端係分別穿過至各該端子槽211,伸入該插槽210中鄰近底端之位置,其另一端則能電氣連接至該風扇,以在一外部插頭(如:對接卡)插入至該插槽210內的情況下,該等第一連接端子P1及第二連接端子P2能分別抵靠至該外部插頭之頂面及底面,且分別電氣連接至該外部插頭上之電極接點,使該外部插頭傳送之訊號能透過該等第一連接端子P1、控制晶片22及該第二連接端子P2,傳遞至該風扇,並驅動該風扇運轉。 Referring to FIGS. 2 to 4, the second connection terminals P2 can be inserted into the terminal slots 211 from the rear end of the insulating base 21, and one end thereof passes through each of the terminal slots 211, respectively. Extending into the slot 210 adjacent to the bottom end, the other end of which can be electrically connected to the fan to insert an external plug (eg, a docking card) into the slot 210, the first The connection terminal P1 and the second connection terminal P2 can respectively abut the top surface and the bottom surface of the external plug, and are respectively electrically connected to the electrode contacts on the external plug, so that the signal transmitted by the external plug can pass through the first The connection terminal P1, the control wafer 22, and the second connection terminal P2 are transmitted to the fan, and the fan is driven to operate.
如此,由於該風扇連接器2能將控制晶片22及二組連接端子P1、P2等電子零件整合至該絕緣座體21中,故,業者即無須另行在鄰近風扇之位置焊接一電路板,以配置該控制晶片22及供習知訊號插頭與風扇插頭插接之插座,而能透過該風扇連接器2,完成與習知技術相同之訊號傳輸功能。此外,本創作與申請人先前申請之風扇連接器相比,由於再次減少了插槽數量,故,不僅體積能更為精簡,且在組裝方式及原料成本上亦有大幅改良。 In this way, since the fan connector 2 can integrate the electronic components such as the control chip 22 and the two sets of connection terminals P1 and P2 into the insulating base 21, the manufacturer does not need to separately solder a circuit board adjacent to the fan. The control chip 22 and the socket for the conventional signal plug and the fan plug are connected, and the same signal transmission function as the prior art can be completed through the fan connector 2. In addition, compared with the fan connector previously applied by the applicant, this creation not only reduces the number of slots, but also not only the volume can be more streamlined, but also greatly improves the assembly method and raw material cost.
復請參閱第2及3圖所示,在本實施例中,該等第二連接端子P2之另一端係設有一夾持部P21,該夾持部P21之斷面構型呈U字形,以能夾 持住該風扇上之傳輸線P3,意即,該等第二連接端子P2能與該風扇上之傳輸線P3結合成一體,而無須如習知技術般,透過一風扇插頭相連接。 Referring to Figures 2 and 3, in the present embodiment, the other end of the second connection terminal P2 is provided with a clamping portion P21 having a U-shaped cross-sectional configuration. Capable The transmission line P3 on the fan is held, that is, the second connection terminals P2 can be integrated with the transmission line P3 on the fan without being connected through a fan plug as in the prior art.
又,請參閱第2~5圖所示,該絕緣座體21之後側面鄰近頂端之位置尚設有安裝槽212,該安裝槽212能連通至該插槽210,且其內壁之底側設有複數道導引槽212a,該等導引槽212a之寬度係與該等第一連接端子P1相匹配;該風扇連接器2尚包括一絕緣板體23,該等第一連接端子P1鄰近另一端之部位係固設於該絕緣板體23中,在該絕緣板體23被插接至該安裝槽212中的過程中,該等第一連接端子P1之一端沿著該等導引槽212a,穿過該安裝槽212,進而伸入至該插槽210中,且該絕緣板體23之側緣能與該安裝槽212之內壁面相嵌卡。 Moreover, as shown in FIG. 2 to FIG. 5, a mounting groove 212 is further disposed at a position adjacent to the top end of the insulating seat 21, and the mounting groove 212 can communicate with the slot 210, and the bottom side of the inner wall is provided. There are a plurality of guiding grooves 212a, and the width of the guiding grooves 212a is matched with the first connecting terminals P1; the fan connector 2 further includes an insulating plate body 23, and the first connecting terminals P1 are adjacent to each other. One end portion is fixed in the insulating plate body 23, and one end of the first connecting terminal P1 is along the guiding groove 212a during the process of inserting the insulating plate body 23 into the mounting groove 212. And passing through the mounting groove 212, and then extending into the slot 210, and the side edge of the insulating plate body 23 can be engaged with the inner wall surface of the mounting groove 212.
該控制晶片22係能以各種方式安裝於該絕緣座體21中(如:嵌入該絕緣座體21上之一安裝孔中),在本實施例中,該控制晶片22係安裝於該絕緣板體23上,該絕緣板體23上設有一定位孔230,該等第一連接端子P1之另一端能延伸至該定位孔230內,且該控制晶片22能定位至該定位孔230中,使其接腳分別與該等第一連接端子P1之另一端相電氣連接。 The control wafer 22 can be mounted in the insulating body 21 in various manners (eg, embedded in one of the mounting holes of the insulating body 21). In this embodiment, the control chip 22 is mounted on the insulating plate. a positioning hole 230 is disposed on the insulating plate body 23, and the other end of the first connecting terminal P1 can extend into the positioning hole 230, and the control wafer 22 can be positioned into the positioning hole 230, so that the control chip 22 can be positioned into the positioning hole 230. The pins are electrically connected to the other ends of the first connection terminals P1, respectively.
請參閱第4圖所示,為提昇該等連接端子P1、P2與該外部插頭之間的定位強度,該等第二連接端子P2之一端係朝該第一連接端子P1的方向延伸設有一彈片P22,該彈片P22係呈一V字形,且係從該等第二連接端子P2之一端,朝上方及後方延伸,使該彈片P22的一側能形成一抵接臂,以推抵插入至插槽210內之外接插頭。此外,該風扇連接器2可直接鎖固於風扇之前端,請參閱第2圖所示,該絕緣座體21鄰近兩側面的部位分別設有一鎖固部213(如:一鎖孔),以能被鎖固至該風扇的前端。 Referring to FIG. 4, in order to increase the positioning strength between the connecting terminals P1 and P2 and the external plug, one end of the second connecting terminal P2 extends in a direction of the first connecting terminal P1 and is provided with a spring piece. P22, the elastic piece P22 has a V-shape and extends from one end of the second connection terminal P2 toward the upper side and the rear side, so that one side of the elastic piece P22 can form an abutting arm for pushing into the insertion. The plug 210 is externally connected to the plug. In addition, the fan connector 2 can be directly locked to the front end of the fan. As shown in FIG. 2, the insulating seat 21 is respectively provided with a locking portion 213 (such as a locking hole) adjacent to the two sides. Can be locked to the front of the fan.
在此要特別一提者,雖然該風扇連接器2中設有該控制晶片22,但該風扇連接器2亦可用於傳輸非PWM訊號,例如:在該外部插頭插入該插槽210後,該電子設備之處理單元能控制該外部插頭將普通的供電訊號,直接經由底部之電極接點,傳送至該等第二連接端子P2,以驅動該風扇。 In particular, although the control chip 22 is disposed in the fan connector 2, the fan connector 2 can also be used to transmit a non-PWM signal, for example, after the external plug is inserted into the slot 210, The processing unit of the electronic device can control the external plug to transmit the normal power supply signal directly to the second connection terminal P2 via the electrode contact at the bottom to drive the fan.
反之,在該外部插頭傳輸之訊號為PWM訊號時,該風扇連接器2將先透過部份之第一連接端子P1,將訊號傳遞至該控制晶片22,轉換出調整後之供電訊號後,再由另一部份之第一連接端子P1,傳回外部插頭,再透過外部插頭上之電路,將訊號傳遞至該外部插頭底面之該等第二連接端子P2,進而驅動風扇。 On the other hand, when the signal transmitted by the external plug is a PWM signal, the fan connector 2 transmits the signal to the control chip 22 through the first connection terminal P1, and then converts the adjusted power supply signal. The other part of the first connection terminal P1 is passed back to the external plug, and then through the circuit on the external plug, the signal is transmitted to the second connection terminals P2 on the bottom surface of the external plug, thereby driving the fan.
以上所述,僅為本創作之若干較佳實施例,惟,本創作之技術特徵並不侷限於此,凡相關技術領域之人士,在參閱本創作之技術內容後,可輕易思及之變化,均應不脫離本創作之保護範疇。 The above description is only a few preferred embodiments of the present invention, but the technical features of the present invention are not limited thereto, and those skilled in the relevant art can easily think about changes after referring to the technical content of the present creation. , should not deviate from the protection of this creation.
2‧‧‧風扇連接器 2‧‧‧Fan Connector
21‧‧‧絕緣座體 21‧‧‧Insulated body
210‧‧‧插槽 210‧‧‧ slots
212‧‧‧安裝槽 212‧‧‧Installation slot
213‧‧‧鎖固部 213‧‧‧Locking
22‧‧‧控制晶片 22‧‧‧Control wafer
23‧‧‧絕緣板體 23‧‧‧Insulation board
230‧‧‧定位孔 230‧‧‧Positioning holes
P1‧‧‧第一連接端子 P1‧‧‧First connection terminal
P2‧‧‧第二連接端子 P2‧‧‧second connection terminal
P21‧‧‧夾持部 P21‧‧‧ gripping department
P22‧‧‧彈片 P22‧‧‧Shrap
P3‧‧‧傳輸線 P3‧‧‧ transmission line
Claims (6)
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
TW105218917U TWM539714U (en) | 2016-12-12 | 2016-12-12 | Fan connector featuring two terminals in single slot to replace printed circuit board |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
TW105218917U TWM539714U (en) | 2016-12-12 | 2016-12-12 | Fan connector featuring two terminals in single slot to replace printed circuit board |
Publications (1)
Publication Number | Publication Date |
---|---|
TWM539714U true TWM539714U (en) | 2017-04-11 |
Family
ID=59255635
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
TW105218917U TWM539714U (en) | 2016-12-12 | 2016-12-12 | Fan connector featuring two terminals in single slot to replace printed circuit board |
Country Status (1)
Country | Link |
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TW (1) | TWM539714U (en) |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US11114785B2 (en) | 2020-01-21 | 2021-09-07 | Dongguan Luxshare Technologies Co., Ltd | Connector |
US11133612B2 (en) | 2020-01-21 | 2021-09-28 | Dongguan Luxshare Technologies Co., Ltd | Fan connector |
US11381045B2 (en) | 2020-01-21 | 2022-07-05 | Dongguan Luxshare Technologies Co., Ltd | Fan connector |
-
2016
- 2016-12-12 TW TW105218917U patent/TWM539714U/en unknown
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US11114785B2 (en) | 2020-01-21 | 2021-09-07 | Dongguan Luxshare Technologies Co., Ltd | Connector |
US11133612B2 (en) | 2020-01-21 | 2021-09-28 | Dongguan Luxshare Technologies Co., Ltd | Fan connector |
US11381045B2 (en) | 2020-01-21 | 2022-07-05 | Dongguan Luxshare Technologies Co., Ltd | Fan connector |
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