M443233 五、新型說明: 【新型所屬之技術領域】 本創作提供一種著陸式晶片卡讀卡模組,特別是指採 用壓扣著陸方式使ic晶片卡之晶片端子與讀卡模組之數據 端子相互貼觸而防止端子磨損的裝置。 【先前技術】 目前’日常生活中所使用之金融卡、電話卡或健保卡 皆已採用1C晶片卡(smart card) ’該等晶片卡在使用時,需 插入相對應的讀卡模組以存取晶片卡内的資料;所述之讀 卡模組可以安裝在諸如提款機、電話機、讀卡機、或筆記 型電腦等裝置内,以作為存取晶片卡上資料的介面。 現有晶片卡之一面設有晶片端子,因此現有之讀卡模 組内也設有相對應的複數數據端子(一般為8pin),所述數 據端子是設於讀卡模組之插槽内壁,於晶片卡插入插槽 後,能夠各自接觸該晶片端子,藉以存取晶片卡的資料。 且知,前述讀卡模組之數據端子一般是呈彎曲彈片型 態,並各自往插槽十央彈性挺伸,而有利於彈性貼觸該晶 片卡之晶片端子,但所述數據端子於長期彈性貼觸晶片卡 之晶片端子後,容易產生彈性疲乏的現象,導致所述數據 端子與晶片端子接觸不良,而造成無法存取資料的狀況。 為了改善數據端子的接觸性能並延長讀卡模組的使用 舜命,目刖市面上的讀卡模組都特別增加數據端子的彈性 強度’以延緩數據端子產生雜疲乏的時間;然而,前述 彈性較強的㈣舒卻又触出容易磨損數據端子及晶片 端子的問題’所辆子在長_損後又產生制不良的狀況。 3 M443233 有鑑於此,本創作人特以其專門從事各類型讀卡模組 之生產、製造及設計的多年經驗,進而研創出本創作,以 改善上述之問題。 【新型内容】 本創作之主要目的,係提供一種可採用壓扣著陸方式 使1C晶片卡之晶片端子與讀卡模組之數據端子相互貼觸而 防止端子磨損的裝置,以克服上述先前技術中,傳統讀卡 模組數據端子之彈性過強,導致晶片卡之晶片端子與數據 ® 端子容易磨損而接觸不良的問題。 為達成上述目的,本創作著陸式晶片卡讀卡模組,係 於一殼體内設置一插槽,並於殼體外壁形成一連通該插槽 的插口,該插槽底部内壁設有供晶片卡之晶片端子貼觸的 複數數據端子,其技術特徵為: 該插槽上方樞設有一兩端可相對應上下擺動之翹板, 該翹板往插口反方向的尾端設置有一能夠接受外力推觸而 令翹》板在該部位向上擺動的擋部,該fe板在相對於所述數 ®據端子上方的另一端則設置有一對應朝向數據端子位移下 壓的壓觸部。 藉由上述構造,當外來之晶片卡經由插口插入該插槽 時,由於翹板之擋部位於晶片卡移動路徑的尾端,因此擋 部能夠接受晶片卡前端推觸而上移,致使翹板在該部位隨 著擋部上移而擺動,進而讓翹板另一端的壓觸部下移壓觸 晶片卡頂面,進而將晶片卡下壓著陸至插槽底部,以驅使 晶片卡底面之晶片端子往下緊密貼觸插槽底部的數據端 子。 4 M443233 據此,可達到上述採用壓扣著陸方式使晶片卡之晶片 端子與讀卡模組之數據端子相互貼觸而防止端子磨損之目 的,進而提升所述晶片卡與讀卡模組之耐久使用壽命;此 外,藉由前述壓觸部下移壓觸晶片卡頂面的動作,令使用 者將晶片卡插入讀卡模組的瞬間產生段落感,且晶片卡接 受壓觸部壓扣後需稍微施力才能抽出插槽,因而產生定位 感,有利於使用者判斷晶片卡是否插入讀卡模組内正確位 置。 以下進一步說明本創作之具體實施方式: 依據上述主要結構特徵,所述的翹板兩側在壓觸部與 擋部之間分別設置一軸部,使該翹板得以軸部為支點而令 其兩端為可相對應上下擺動狀態。 實施時,所述翹板上方在相對於該擋部的上方設有一 彈性元件,該彈性元件恆常將該部位翹板及擋部下壓,以 令該擋部保持在鄰近該插槽底部的位置,並驅使翹板另一 端之壓觸部保持在遠離該插槽底部的位置。 依據上述主要結構特徵,該擋部上具有一傾斜面,該 傾斜面接受外力推觸而引導該擋部上移。 依據上述主要結構特徵,該壓觸部樞設有一按壓板, 該按壓板隨著該壓觸部下移接近或上移遠離所述數據端 子。 依據上述主要結構特徵,所述複數數據端子的電氣輸 出端往該插口之反方向延伸至該殼體後端而排列成一列, 且殼體後端設有一能夠遮蔽所述電氣輸出端以防止側錄的 保護蓋,據以達成防側錄功能。 5 之除靜=主彈=槽:設有複數防靜電用 除靜電彈片各凸出於插槽内,且所述 中所h片4導接地,據以將晶片卡插入插栌過程 達成防止靜電損壞晶片卡:能。 該座體上°、構特徵,該殼體包含—座體、一設於 板,及二設於所述上蓋與座㈣側的框 上鄰所述上蓋與座體之間,且座體 之間電器連接,且一 “d文所j框板與除靜電片 地。電彈片了〜料接於所㈣板與除靜電片上而接 出端=士==:徵,=巧:有複數訊號輸 =Γ=成型的方式=::== Γ— 觸開關之觸動彈片而令開關短路導通。、 相較於先前技術,本發明實具有如下之優點: 1.該勉板之壓觸部與按壓板於晶片卡完全插入該 卡頂面,而強制晶片卡下壓著陸至插槽底二; 2·所述數據端子之電氣輸出端排置在讀卡模 可有效防止資料經由數據端子遭受盜錄,额述電氣 輸出端並能夠接受保護蓋賴,而進—步提升防側錄能力、。 6 M443233 3. 由於所述除靜電彈片各自凸出於插槽内而位於晶片卡 的移動路徑上,可早期有效的發揮除靜電功能。 4. 所述數據端子具對稱性,因此晶片卡插入插槽時較 順暢,可靠性佳,且能夠避免晶片卡插入異常,而造成數 據端子變形失效。 5. 藉由殼體兩側之框板的設計,可避免使用者不當插 入晶片卡時,造成上蓋及座體破裂的狀況,進而提升殼體 結構之強度。 然而,為能明確且充分揭露本創作,併予列舉較佳實 施之圖例,以詳細說明其實施方式如後述: 【實施方式】 請參閱第一圖所示,揭示出本創作較佳實施例的立體 圖,第二圖揭示出第一圖之立體分解圖,第三圖揭示出第 一圖之A-A斷面圖,第四圖揭示出第三圖之一使用狀態 圖,第五圖揭示出第三圖之另一使用狀態圖,第六圖揭示 出第一圖之另一視角的立體分解圖,配合第一圖至第六圖 說明本創作一種著陸式晶片卡讀卡模組,包含於一殼體10 内形成一插槽11,並於殼體10前端外壁形成一連通插槽11 且能夠供給外來之晶片卡90插入的插口 12,該插槽11底 部内壁並設有複數數據端子40,其中: 該插槽11内樞設有一兩端可相對應上下擺動之翹板 50,該翹板50前端往插口 12方向延伸形成一位於所述數 據端子40上方的壓觸部51,且翹板50尾端往插口 12之反 方向延伸形成一能夠接受該晶片卡90推觸的擋部52,且擋 部52往下方凸伸至該晶片卡90插入插槽11之移動路徑末 7 M443233 端,使該翹板50尾端能夠隨著擋部52接受該晶片卡90插 入之外力推觸而向上擺動,並且讓壓觸部51相對應往所述 數據端子40向下移動,進而下壓該晶片卡90頂面,致使 晶片卡90底面之複數晶片端子91貼觸所述數據端子40。 藉由上述結構組成,可供據以實施本創作,當外來之 晶片卡90經由插口 12插入插槽11時,由於翹板50之擋部 52位於晶片卡90的移動路徑末端,因此擋部52能夠接受 晶片卡90前端推觸而旋擺上移,致使翹板50尾端隨著擋 隹部52旋擺上移而擺動,並且讓翹板50前端壓觸部51旋擺 下移壓觸晶片卡90頂面,藉以將晶片卡90下壓著陸至插 槽11底部,並驅使晶片卡90底面之晶片端子91往下貼觸 插槽11底部的數據端子40,俾使該等數據端子40與晶片 端子91相互導通,如此即可完成數據端子40對晶片卡90 資料的存取。 據此,可達到上述採用壓扣著陸方式使晶片卡90之晶 片端子91與讀卡模組之數據端子40相互貼觸而防止端子 鲁40、91磨損之目的,以克服上述先前技術中,傳統讀卡模 組數據端子之彈性過強,導致晶片卡之晶片端子與讀卡模 組之數據端子容易磨損而接觸不良的問題,進而提升所述 晶片卡90與讀卡模組之耐久使用壽命;此外,藉由前述壓 觸部51下移壓觸晶片卡90頂面的動作,令使用者將晶片 卡90插入讀卡模組的瞬間產生段落感,且晶片卡90接受 壓觸部51壓扣後需稍微施力才能抽出插槽11,因而產生定 位感,有利於使用者判斷晶片卡90是否插入讀卡模組内正 確位置。 8 衣更加具體的實施上,本創作也包含: 實施時,該殼體10包含一座體20、一設於座體2〇頂 鄯的上篥30、以及二設於所述上蓋30與座體20兩側的门 事嗅櫂板60 ’所述插槽11及插口 12形成於所述上蓋30與 庫雜20之間。 所述框板60分別框持於所述上蓋3〇與座體2〇兩側, 而虞生麩體10強度防護功能,可避免使用者不當插入晶片 + 時,造成上蓋30及座體20破裂的狀況,進而提升殼 體P結構之強度。 實施時’所述複數數據端子40是以迴路方式設計,並 採硐嵌件成型(InSert Molding)的方式嵌入座體20中,所 述數據端子40沿著晶片卡9〇插入插槽11之移動軸向佈 設,所述數據端子40分別具有一凸伸至插槽11内用以接 ^晶片端子91的圓弧部41。 同時,所述數據端子40之圓弧部41具對稱性,如此 晶片卡9〇插入插槽11時較順暢,可靠性佳,可避免晶片卡 9〇插入異常而造成數據端子4〇與圓弧部41變形失效。 實施時,所述魅板50兩側在壓觸部51與擔部52之間 具有/軸部53,使該翹板5〇得以軸部53為支點而令其兩 端為玎相對應上下擺動狀態。 此外,所述翹板50上方在相對於該擋部52的上方設 有一彈性元件54,該彈性元件54恆常將該部位翹板5〇及 擋部52下壓,以令擋部52保持在鄰近插槽Π底部的位置, ^驅使壓觸部51保持在遠離插槽11底部的位置。 實施時,該壓觸部51可進一步樞設一按壓板56,該按 M443233 壓板56頂部中央樞設於壓觸部51下方,且按壓板56底面 呈平坦型態,如此按壓板56能夠隨著壓觸部51旋擺下移 接近或上移遠離所述數據端子40之圓弧部41。 實施時,該擋部52上具有一朝向插口 12方向的傾斜 面521,該傾斜面521能夠接受該晶片卡90插入該插槽11 之外力推觸而引導擋部52旋擺上移。 實施時,該插槽11頂部的上蓋30底面形成一連通插槽 11的端槽31,該翹板50藉由軸部53樞置於插槽11頂部的 ® 端槽31内,且翹板50頂面鄰近擋部52的位置形成一定位 孔 55。. 實施時,該彈性元件54是設於端槽31頂部内壁與定 位孔55之間,以驅動擋部52旋擺下移至插槽11内且位於 晶片卡90插入插槽11之移動路徑尾端,並驅動壓觸部51 帶著滑塊56旋擺上移至端槽31内。 實施時,所述數據端子40往插口 12之反方向延伸至 該殼體10後端而分別形成電氣輸出端42,所述電氣輸出端 • 42能夠焊接於外來之電路板上,以提供讀卡之功能。 實施時,所述電氣輸出端42都位在同一側,並且併排 一列設置於讀卡模組後方,而殼體10後端可進一步設置一 能夠遮蔽所述電氣輸出端42以防止側錄的保護蓋70,進而 能夠進一步具備防側錄能力。 實施時,該座體20上鄰近插口 12的位置設一除靜電 片80,所述框板60與除靜電片80之間電性連接,且一同 焊接於外來之電路板上而接地。 實施時,該插槽11底部進一步設有複數防靜電用之除 M443233 靜电彈片^ ’所述除靜電彈片Μ各自凸出於插槽1 , 述彈片81分別連接至所述框板60與除靜電片 8〇上,而使所述除靜電彈片81相互導通並接地。電片 者手作之讀卡模組可提供防靜電功能,當使用 由插口 12插入插槽11時,由於二 ”有凸出的除靜電彈片8卜因此晶^ 過所述除靜電彈片81,而使所着靜電彈片81 9〇接觸數據端子40之前,先行導除晶片卡9〇上卡 晶片卡90上之靜電經由所述數據端子40導二 件造成損毁;亦即,本創作之讀卡模組除了可钱 外,並提供了防止端子磨損、防止側錄及防: ,于'此之外為了實現本創作著陸式晶片卡讀卡模組能夠安裳在 諸如提款機、電話機、讀卡機、或筆記型電料裝置内\ 以作為存取晶片卡上資料的介面,實施時本創作可以如第 圖斤示進步在座體20上設置一開關2卜該開關21具備 有一觸動彈片211挺伸於插槽η内,當晶片卡插入插槽u至定 位時可以碰觸開關21之觸動彈片211而令開關2ι短路導通,進 而使上述該等裝置能夠讀取晶片卡的資訊。 實施時如苐五、六圖所示,可以在座體2G上先預設供前述開 關電氣連接的複數訊號輸出端22,該訊號輸出端22可與前述複數 數據端子40同時制餅成型(Inse_ding)的方式嵌入座體 2〇中,再如第七圖所示,依序利用彈簧片212、防塵片犯、開關M443233 V. New description: [New technical field] This creation provides a landing chip card reader module, especially the use of the buckle landing method to make the chip terminal of the ic chip card and the data terminal of the card reader module mutually A device that is in contact with the terminal to prevent wear on the terminal. [Prior Art] At present, the financial card, telephone card or health insurance card used in daily life has adopted 1C chip card. 'When these chip cards are used, they need to insert the corresponding card reader module to access The data in the chip card; the card reading module can be installed in a device such as a cash machine, a telephone, a card reader, or a notebook computer as an interface for accessing data on the chip card. A chip terminal is disposed on one side of the existing chip card. Therefore, the existing card reading module is also provided with a corresponding plurality of data terminals (generally 8 pins). The data terminal is disposed on the inner wall of the slot of the card reading module. After the wafer card is inserted into the slot, the wafer terminals can be respectively contacted to access the data of the wafer card. It is known that the data terminals of the card reading module are generally in the form of a curved elastic piece, and each of them is elastically extended toward the slot, and is favorable for elastically contacting the wafer terminal of the wafer card, but the data terminal is long-term. When the wafer terminal of the wafer card is elastically attached, the phenomenon of elastic fatigue is liable to occur, resulting in poor contact between the data terminal and the wafer terminal, and the data cannot be accessed. In order to improve the contact performance of the data terminals and prolong the use of the card reader module, the card reader modules on the market have specially increased the elastic strength of the data terminals to delay the time when the data terminals are fatigued; however, the aforementioned flexibility The stronger (four) Shu also touched the problem of easy wear and tear of the data terminals and the wafer terminals, and the vehicle was in a bad condition after the length _ loss. 3 M443233 In view of this, the author has developed his work to improve the above problems with his many years of experience in the production, manufacture and design of various types of card reader modules. [New content] The main purpose of the present invention is to provide a device for preventing the terminal from being worn by the chip terminal of the 1C chip card and the data terminal of the card reading module by using a buckle landing method to overcome the above prior art. The flexibility of the data terminal of the conventional card reading module is too strong, which causes the wafer terminal and the data terminal of the wafer card to be easily worn and the contact is poor. In order to achieve the above object, the landing chip card reader module is provided with a slot in a casing, and a socket for connecting the slot is formed on the outer wall of the casing, and the inner wall of the bottom of the slot is provided with a chip. The technical data of the plurality of data terminals that are touched by the chip terminal of the card is: a pivoting plate is arranged on the upper side of the slot, and the rocker is provided with an external force corresponding to the opposite end of the socket. a stopper that pushes the plate to swing upward at the portion, and the other end of the board is disposed at a position opposite to the number of the data terminals, and a pressure contact portion corresponding to the displacement of the data terminal is provided. With the above configuration, when the external wafer card is inserted into the slot via the socket, since the blocking portion of the rocker is located at the trailing end of the movement path of the wafer card, the blocking portion can be pushed up by the front end of the wafer card, thereby causing the rocker At this position, the swaying portion moves up as the blocking portion moves upward, so that the pressure contact portion at the other end of the rocking plate moves down and touches the top surface of the wafer card, thereby pushing the wafer card down to the bottom of the slot to drive the wafer terminal on the bottom surface of the wafer card. Close the data terminal at the bottom of the slot. 4 M443233 According to the above, the above-mentioned crimping and landing method can be adopted to make the wafer terminal of the chip card and the data terminal of the card reading module contact each other to prevent the terminal from being worn, thereby improving the durability of the chip card and the card reading module. The service life is further improved by the action of the pressure contact portion being pressed down to the top surface of the wafer card, so that the user inserts the wafer card into the card reading module to generate a paragraph sense, and the wafer card needs to be slightly pressed after receiving the pressure contact portion. The force can be pulled out of the slot, thus creating a sense of positioning, which is useful for the user to determine whether the wafer card is inserted into the correct position in the card reading module. The following is a detailed description of the specific implementation of the present invention: According to the main structural features described above, a shaft portion is respectively disposed between the pressure contact portion and the blocking portion on both sides of the rocker plate, so that the rocker plate has a shaft portion as a fulcrum and two The end is in a state of being able to swing up and down. When implemented, an elastic member is disposed above the rocker above the blocking portion, and the elastic member constantly presses the portion of the rocker and the blocking portion to maintain the blocking portion adjacent to the bottom of the slot. And drive the pressure contact at the other end of the rocker away from the bottom of the slot. According to the above main structural features, the blocking portion has an inclined surface which is guided by an external force to guide the blocking portion to move upward. According to the above main structural features, the pressure contact portion is pivotally provided with a pressing plate that moves closer to or upwardly away from the data terminal as the pressure contact portion moves downward. According to the above main structural features, the electrical output ends of the plurality of data terminals extend in the opposite direction of the socket to the rear end of the housing and are arranged in a row, and the rear end of the housing is provided with a cover capable of shielding the electrical output to prevent the side The protective cover is recorded to achieve the anti-sliding function. 5 De-static = main bullet = slot: There are a plurality of anti-static anti-static shrapnel protruding from the slot, and the middle plate 4 is grounded, so that the chip card is inserted into the transplanting process to prevent static electricity. Damage to the wafer card: Yes. The housing is provided with a body, a housing, a plate, and a frame disposed on the side of the upper cover and the seat (four) adjacent to the upper cover and the base, and between the seats Electrical connection, and a "d text j frame board and static electricity sheet. Electric shrapnel ~ material connected to the (four) board and the static electricity on the board and the end = Shi ==: sign, = Q: there are multiple signal loss =Γ=Molding method=::== Γ—Touching the switch to touch the shrapnel and short-circuiting the switch. Compared with the prior art, the present invention has the following advantages: 1. The pressure contact portion and the pressing of the seesaw The board is fully inserted into the top surface of the card, and the wafer card is forced to land down to the bottom 2 of the slot; 2. The electrical output end of the data terminal is arranged in the card reader mode to prevent data from being stolen through the data terminal. The electric output terminal can receive the protection cover, and the anti-side recording capability can be improved step by step. 6 M443233 3. Since the static elimination elastic pieces are respectively protruded from the slot and are located on the moving path of the wafer card, Early effective use of static elimination. 4. The data terminals are symmetrical, so the wafer It is smoother and more reliable when inserted into the slot, and can avoid abnormal insertion of the wafer card, which causes the data terminal to be deformed. 5. By the frame plate on both sides of the housing, the user can avoid the improper insertion of the wafer card. The condition of the upper cover and the seat is broken, and the strength of the structure of the casing is increased. However, in order to clearly and fully disclose the present invention, a preferred embodiment of the present invention will be described in detail to explain its embodiment as follows: [Embodiment] Referring to the first figure, a perspective view of a preferred embodiment of the present invention is disclosed. The second figure reveals an exploded perspective view of the first figure, and the third figure discloses an AA cross-sectional view of the first figure. One of the third figures uses a state diagram, the fifth diagram reveals another state of use diagram of the third diagram, and the sixth diagram reveals an exploded perspective view of another perspective of the first diagram, with the first to sixth diagrams. The invention relates to a landing type wafer card reading module, which comprises a slot 11 formed in a casing 10, and a socket 11 formed on the outer wall of the front end of the casing 10 and capable of feeding the socket of the foreign wafer card 90. 12, the inner wall of the bottom of the slot 11 is provided with a plurality of data terminals 40, wherein: the slot 11 is internally provided with a rocker 50 which can swing up and down correspondingly at both ends, and the front end of the rocker 50 extends toward the socket 12 to form a The pressure contact portion 51 is located above the data terminal 40, and the tail end of the rocker 50 extends in the opposite direction of the socket 12 to form a blocking portion 52 capable of receiving the push of the wafer card 90, and the blocking portion 52 protrudes downward to The wafer card 90 is inserted into the end of the movement path 7 M443233 of the slot 11, so that the tail end of the rocker 50 can swing upward as the stopper 52 receives the insertion of the wafer card 90, and the pressing portion 51 is allowed to be pressed. Correspondingly, the data terminal 40 is moved downward, and the top surface of the wafer card 90 is pressed down, so that the plurality of wafer terminals 91 on the bottom surface of the wafer card 90 are in contact with the data terminal 40. With the above structural composition, it is possible to implement the present invention. When the foreign wafer card 90 is inserted into the slot 11 via the socket 12, since the blocking portion 52 of the rocker 50 is located at the end of the moving path of the wafer card 90, the blocking portion 52 is provided. The front end of the wafer card 90 can be pushed up and the swivel up, so that the tail end of the rocker 50 swings as the sway portion 52 swings upward, and the front end pressing portion 51 of the rocker 50 is swung down and pressed against the wafer. The top surface of the card 90 is used to press the wafer card 90 down to the bottom of the slot 11 and drive the chip terminal 91 on the bottom surface of the wafer card 90 downwardly to the data terminal 40 at the bottom of the slot 11, so that the data terminals 40 and The wafer terminals 91 are electrically connected to each other, so that the data terminal 40 can access the data of the wafer card 90. Accordingly, the above-mentioned prior art and the conventional method can be overcome by the above-mentioned prior art, that the wafer terminal 91 of the wafer card 90 and the data terminal 40 of the card reading module are in contact with each other to prevent the terminal wires 40 and 91 from being worn. The elasticity of the data terminal of the card reading module is too strong, so that the chip terminal of the chip card and the data terminal of the card reading module are easily worn and the contact is poor, thereby improving the durable service life of the chip card 90 and the card reading module; In addition, the operation of pressing the top surface of the wafer card 90 by the pressure contact portion 51 causes the user to insert the wafer card 90 into the card reading module, and the wafer card 90 is pressed by the pressure contact portion 51. After a slight force is applied, the slot 11 can be pulled out, thereby creating a sense of positioning, which is advantageous for the user to determine whether the wafer card 90 is inserted into the correct position in the card reading module. In a more specific implementation, the present invention also includes: In implementation, the housing 10 includes a body 20, an upper jaw 30 disposed on the dome of the base 2, and two upper covers 30 and a seat. The door olfactory plate 60' on both sides of the 20' is formed between the upper cover 30 and the magazine 20. The frame plate 60 is respectively framed on the two sides of the upper cover 3 and the base 2, and the strength protection function of the twine 10 prevents the user from improperly inserting the wafer +, causing the upper cover 30 and the base 20 to be broken. The condition, in turn, increases the strength of the structure of the housing P. When implemented, the complex data terminal 40 is designed in a loop manner and embedded in the body 20 by means of insert molding, and the data terminal 40 is inserted into the slot 11 along the wafer card 9〇. In the axial direction, the data terminals 40 respectively have a circular arc portion 41 protruding into the slot 11 for receiving the wafer terminal 91. At the same time, the arc portion 41 of the data terminal 40 has symmetry, so that the wafer card 9 is inserted into the slot 11 smoothly, and the reliability is good, so that the insertion of the wafer card 9 异常 is abnormal and the data terminal 4 〇 and the arc are caused. The deformation of the portion 41 is invalid. In the implementation, the two sides of the charm plate 50 have a shaft portion 53 between the pressure contact portion 51 and the shoulder portion 52, so that the rocker plate 5 is pivoted by the shaft portion 53 and the two ends thereof are swayed up and down. status. In addition, above the rocking plate 50, an elastic member 54 is disposed above the blocking portion 52, and the elastic member 54 constantly presses the portion of the rocker 5 and the blocking portion 52 to keep the blocking portion 52 at Adjacent to the bottom of the slot ,, ^ drives the pressure contact 51 to remain away from the bottom of the slot 11. In the implementation, the pressing portion 51 can further pivot a pressing plate 56. The top of the pressing plate 56 of the M443233 is pivoted under the pressing portion 51, and the bottom surface of the pressing plate 56 is in a flat state, so that the pressing plate 56 can follow The pressure contact portion 51 is swung downward to move up or away from the arc portion 41 of the data terminal 40. In implementation, the blocking portion 52 has an inclined surface 521 facing the socket 12, and the inclined surface 521 can receive the force of the wafer card 90 inserted into the slot 11 to guide the blocking portion 52 to swing upward. In implementation, the bottom surface of the upper cover 30 at the top of the slot 11 defines an end slot 31 that communicates with the slot 11. The rocker 50 is pivoted by the shaft portion 53 into the end slot 31 of the top of the slot 11, and the rocker 50 A positioning hole 55 is formed at a position of the top surface adjacent to the stopper 52. In implementation, the elastic member 54 is disposed between the top inner wall of the end groove 31 and the positioning hole 55 to drive the blocking portion 52 to swing downward into the slot 11 and at the end of the moving path of the wafer card 90 inserted into the slot 11. The end, and the driving pressure contact portion 51 is swung up into the end groove 31 with the slider 56. In practice, the data terminal 40 extends to the rear end of the housing 10 in the opposite direction of the socket 12 to form an electrical output 42 respectively. The electrical output 42 can be soldered to an external circuit board to provide a card reading. The function. In practice, the electrical output terminals 42 are all located on the same side, and are arranged side by side in the rear of the card reading module, and the rear end of the casing 10 may further be provided with a protection capable of shielding the electrical output terminal 42 to prevent side recording. The cover 70 can further be provided with anti-sliding capability. In the implementation, a static eliminating sheet 80 is disposed on the base 20 adjacent to the socket 12, and the frame 60 is electrically connected to the static eliminating sheet 80 and soldered to the external circuit board to be grounded. In the implementation, the bottom of the slot 11 is further provided with a plurality of anti-static anti-static M843233 electrostatic elastic sheets. The static-removable elastic sheets are respectively protruded from the slot 1. The elastic sheets 81 are respectively connected to the frame plate 60 and static electricity is removed. The sheets 8 are turned on, and the static eliminating elastic sheets 81 are electrically connected to each other and grounded. The card reader module can provide an anti-static function. When the slot 11 is inserted into the slot 11, the antistatic shrapnel 81 is embossed due to the embossing of the electrostatic shrapnel 81. Before the electrostatic elastic piece 81 9 〇 contacts the data terminal 40, the static electricity on the wafer card 90 of the wafer card 9 is firstly damaged by the data terminal 40; that is, the card is read by the present invention. In addition to the money, the module provides protection against terminal wear, prevention of side recording and prevention: In addition to this, in order to realize the creation of the landing chip card reader module can be installed in such as cash machines, telephones, reading In the card machine or the notebook type electric device, as an interface for accessing the data on the chip card, the present invention can be provided with a switch 2 on the body 20 as shown in the figure. The switch 21 is provided with a touch spring 211. Extending in the slot η, when the chip card is inserted into the slot u to the positioning, the touch tab 211 of the switch 21 can be touched to make the switch 2 ι short-circuit, so that the devices can read the information of the chip card. As shown in Figures 5 and 6, The plurality of signal output terminals 22 for electrically connecting the switches are preset on the base 2G, and the signal output end 22 can be embedded in the base 2 与 in a manner of simultaneous cake forming (Inse_ding) with the aforementioned plurality of data terminals 40, and then As shown in the seventh figure, the spring piece 212, the dustproof piece, and the switch are sequentially used.
飞U厶J J 希214、 ^ 動彈片211等零件組立成開關21,以實現搭配本創 乍著陸式阳片卡讀卡模組簡動方式啟動或關閉之功能。 ^圖不中’前述之開關21是設置在座體20上’實務上設置在 上盖30亦不失為可行的實施方式之一;又,所述之開關21型式 並不限於圖示中所揭示的形狀或構造,而且可以視需求更換不同 的開關,例如防水、防塵開關等等;惟開關型式之應用係屬一般 習知技術’在此不另贅述。 綜上所陳,僅為本創作之較佳實施例而已’並非用以 限定本創作;凡其他未脫離本創作所揭示之精神下而完成 的等效修飾或置換,均應包含於後述申請專利範圍内。 12 M443233 【圖式簡單說明】 第一圖是本創作較佳實施例的立體圖; 第二圖是第一圖之立體分解圖; 第三圖是第一圖之A-A斷面圖; 第四圖是第三圖之一使用狀態圖; 第五圖是第三圖之另一使用狀態圖; 第六圖是第一圖之另一視角的立體分解圖; 第七圖是座體上設置開關的實施例圖。 【主要元件符號說明】 10 殼體 11 插槽 12 插口 20 座體 21 開關 211 觸動彈片 212 彈簧片 213 防塵片 214 開關蓋子 22 訊號輸出端 30 上蓋 31 端槽 40 數據端子 41 圓弧部 13 M443233Flying U厶J J 214, ^ moving spring 211 and other parts set up the switch 21, in order to achieve the function of starting or closing with the smashing type of positive card reader module. ^The above-mentioned switch 21 is one of the embodiments provided on the base 20, which is practically disposed on the upper cover 30. Moreover, the type of the switch 21 is not limited to the shape disclosed in the drawings. Or the configuration, and different switches can be replaced as needed, such as waterproof, dustproof switches, etc.; however, the application of the switch type is a conventional technique 'will not be further described herein. In summary, it is merely a preferred embodiment of the present invention, which is not intended to limit the present invention; any equivalent modifications or substitutions that are made without departing from the spirit of the present invention should be included in the latter patent application. Within the scope. 12 M443233 [Simplified description of the drawings] The first drawing is a perspective view of the preferred embodiment of the present invention; the second drawing is an exploded perspective view of the first drawing; the third drawing is the AA sectional view of the first drawing; The third diagram uses a state diagram; the fifth diagram is another usage state diagram of the third diagram; the sixth diagram is an exploded perspective view of another perspective of the first diagram; and the seventh diagram is the implementation of setting a switch on the base. examples. [Main component symbol description] 10 Housing 11 Slot 12 Socket 20 Seat 21 Switch 211 Touching spring 212 Spring piece 213 Dust plate 214 Switch cover 22 Signal output 30 Upper cover 31 End slot 40 Data terminal 41 Arc section 13 M443233
42 電氣輸出端 50 翹板 51 壓觸部 52 擋部 521 傾斜面 53 軸部 54 彈性元件 55 定位孔 56 按壓板 60 框板 81 除靜電彈片 70 保護蓋 80 除靜電片 90 晶片卡 91 晶片端子42 Electrical output 50 Rocker 51 Pressure contact 52 Stop 521 Inclined surface 53 Shaft part 54 Elastic element 55 Positioning hole 56 Pressing plate 60 Frame plate 81 In addition to electrostatic shrapnel 70 Protective cover 80 In addition to electrostatic sheet 90 Wafer card 91 Wafer terminal
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