M302791 八、新型說明: 【新型所屬之技術領域】 本創作係有關於一種記憶卡連接器,更詳而言之’係指一種 具有防止記憶卡被不當拔出,能確保使用上訊號傳輸穩定之記憶 卡連接器。 【先前技術】 按,與本創作有關之記憶卡連接器為一種藉按壓記憶卡來控 制***與退出(Push-PushType)的構造,其包括:具有導電端子 的絕緣框體、組裝於絕緣框體上用於導引記憶卡***與退出的退 卡機構,以及包覆於絕緣框體外周面的遮蔽體。惟,其中該退卡 機構固然可以提供記憶卡***及退出時的引導,但是,並無法於 記憶卡***後具有鎖固定位的功能,進言之,該記憶卡***後, 若是受到外力由***的反方向拔出時,記憶卡會被輕易的取出, 而影響正常的訊號傳輸,且,亦會造成導電端子不當的摩損,再 者’當使用在較差的工作環境,過度的震動將使記憶卡鬆動偏位, 而與導電端子無法確實接觸,因而,會有訊號傳輸不穩定現象。 【新型内容】 本創作記憶卡連接器之目的,即在提供一種記憶卡***與退 出具有導引功能,且***後具有鎖固定位效果,可使得記憶卡在 工作狀態不易受外力由***的反方向輕易的拔出,或不當碰撞造 成鬆動偏位,而能夠確保訊號傳輸的穩定。 為達到上述目的,本創作記憶卡連接器包括:收容有導電端 5 M302791 子的絕緣框體、設置於絕緣框體上用於導引記憶卡***與退出的 滑動導引機構,及提供滑動導引機構作動後回復力的彈性元件, 其特徵在於: 該連動部相對的一側設有軀動件,其上設有推部及拉部; 另’該滑動導引機構與絕緣框體之間設有被驅動件,其上具有被 推部、被拉部;又,該被驅動件對記憶卡的抵止係藉一止動體; 藉如是特徵,可配合該滑動導引機構之導槽的***行程/工作狀態 瞻 行程/退出行程等,使該推部與拉部作相對移動,即,導槽的*** 行程使該拉部驅動該被拉部,讓記憶卡***,並抵靠於該記憶卡, 而工作狀態行程則使得記憶卡保持在工作位置,該退出行程則使 得該推部驅動該被推部,讓記憶卡脫離被抵靠,並使記憶卡退出。 【實施方式] 請參閱第一圖,本創作記憶卡連接器丨包括:絕緣框體2、滑 動導引機構3、遮蔽體4、導電端子5、驅動件6及被驅動件7,以及 籲 止動件8,其中絕緣框體2,具有本體2〇及側邊21,該本體2〇上設 有複數端子收容槽22,藉一體成型將導電端子5收容於内 ,且該滑 塊20的一側設有組裝槽23,用於組裝該退卡機構3。另,組裝槽23 内'又有柱體231。又,該側邊21上設有凸扣210 (圖上僅示出-邊) 用於組裝遮蔽體4。 該滑動導引機構3係包含:滑動桿31、導桿32及彈性元件 33 ’其中滑動桿31 ±設有具***舆退出行程的導槽科,為心变導 槽用於導引心隱卡的***與退出。而滑動桿3ι的一側設有連動 6 M302791 部35 ’另,靠近導槽34的一側設有抵靠部37,且該抵靠部37上 設有一柱體371。該導桿32的兩端321,322經約九十度彎折,其 中一端321可於該滑動桿31滑動時,沿著導槽34***/退出行程 相對移位,另一端322組固於該絕緣框體2之側邊21的軸孔211 内(第二圖參照)。 該彈性元件33為壓縮彈簧,其一端331組裝套於柱體371, 並抵罪於該滑動桿31的抵靠部37上,另一端332組套於組裝槽 , 23之柱體231,可提供該滑動桿31作動後的回復力。 該遮蔽體4係為金屬材,其相對於絕緣框體2的凸扣21〇 , 係設有卡槽40,可組裝並包覆絕緣框體2,其面上設有可抵愿於 導桿32的擋片41,而四角落的焊接腳42係折彎成適合表面黏著 焊接。 該驅動件6係設於該連動部35相對的一侧,係由滑動捍31 一體 形成延伸臂,其上設置長圓形第一連動槽6〇,其兩端分別為推部 _ 61與拉部62,且長度小於(或等於)記憶卡***/退出行程。 該被驅動件7係為線材,可探入該第一連動槽6〇内,其一端7〇 以近九十度折彎,可探入第一連動槽60内,該端的一側為被推部 71,另一側為被拉部72。該被驅動件7的另一端73為自由端,經偏 斜彎折再以近九十度折彎。 該止動體8為具直線段80與彎孤段81之第二連動槽,可供被驅 動件7的自由端73探入,以便使得該自由端73能夠相對於被推部71 與被拉部72的作動,沿直線段80與彎弧段81對記憶卡抵止與否進 7 M3 02791 行控制。 請參閱第二圖為第一圖中取下遮蔽體4的組合平面圖,其中 清楚可看出該導桿32的-端321可於該滑動捍31滑動時,沿著 導槽34插A/退出行程相對移位,而使得該滑動捍具有供記憶 卡插退ih行程的定位控制。該被縣動件7的被推部7ι與被拉部 72隨著該驅動件6的推部61與拉部62的移位,可使得被驅動件 自由端73被連動沿著該止動體8的直線段8〇與彎弧段81移動及 p 偏位。 續請參閱第三圖A至E,如第三圖A所示,當記憶卡9*** 於本創作之記憶卡連接器1後,記憶卡9的前緣會抵靠在該連動 部35上,則該滑動桿31可被推移。當***至最終位置時,如第 一圖B所示,該導桿32的一端321隨著該滑動桿31的滑動,沿 著導槽34之***行程相對移位,此時,該該驅動件6的拉部位 拉引被驅動件7的被拉部72,使該被驅動件7隨著該滑動桿31相 釀對移位,此時彈性元件33 (壓縮彈簧)被壓縮而具有儲能,且該 被驅動件7的的自由端73則沿著止動體8的彎弧段81與直線段 80移動及偏位,而偏位抵壓於記憶卡9的缺邊90上。 當停止對記憶卡9***施力,如第三圖C所示,彈性元件33 (壓縮彈簧)釋放儲能,而使該導桿32的一端321定位在導槽34 的定位點上,此時記憶卡9則處於工作狀態,而該記憶卡9的缺 邊90仍被被驅動件7的的自由端73抵住,因而,外力並無法從 ***的反方向取下記憶卡9,而可確保記憶卡9工作狀態時訊號傳 8 M302791 輸不受影響。當要取出魄卡9 _,㈣三圖D解,麵該記 隱卡使其抵罪於最終位置,此時,該導桿犯的一端奶脫離導 槽34的定位點,彈性元件33 (壓縮彈箸)被壓縮而具有儲能當 停止對記憶卡9的抵壓,彈性元件% (壓縮彈菁)釋放儲能,推 引該β動杯31並使連動部35將記憶卡$順利推出,此時該導桿 32的-端321隨著該滑動桿31的滑動,沿著導槽34之退出行程 相對移位,同時,該獎動件6的推部61拉引被媒動件7的被推部 • 71 ’使該被驅動件7隨著該滑動捍Μ相對移位,進而連動該該被 驅動件7的自由端73沿著止動髏8的直線段8〇與彎弧段81移動 及偏位,脫離對記憶卡9的缺邊9〇抵止(如第三圖Ε),而回覆至 第三圖Α待插卡的狀態。 是以,本創作藉該驅動件6及被驅動件7,以及止動件8,配 合該滑動導引機構3的插卡與退卡行程作動,係可有效的將工作 中的記憶卡9抵住,而不易受外力由***的反方向輕易的拔出, 籲 或不當碰撞造成鬆動偏位,而能夠確保訊號傳輸的穩定。 續請參閱第四、五圖為本創作第二個實施例,本實施例之記 憶卡連接器Γ包括:絕緣框體2’、滑動導引機構3’、遮蔽體4’ 及導電端子5’ 、驅動件6’及被驅動件7’ ,以及止動件8’ ,其 中除該被驅動件T與第一實施例不相同外,其他構造皆與第一實 \ 施例相同,請參閱第四、五圖所示,該被驅動件7’為線材,其 一端70,以近九十度折彎,可探入該驅動件6’的第一連動槽 60’ ,該端70’的一側為被推部71’ ,另一側為被拉部72’ ,·另 9 M3 02791 一端為自由端73,,經適當彎折並與卡塊74,樞接,該卡塊74, 具有凸柱75,及抵止邊76,,其中該凸柱75,可探入止動件g,, 隨直線段80,與彎弧段8Γ移位帶動卡塊74,相位移動,使該抵 止邊76’能作偏位抵止與否的控制。 請參閱第第六圖A ’當記憶卡9’***於本創作之記憶卡連接 器1後’記憶卡9的剛緣會抵罪在該連動部35’上,則該滑動桿 31可被推移。當***至最終位置時’如第六圖b所示,該導桿32, 的一端32Γ隨著該滑動桿31’的滑動,沿著導槽34,之***行程 相對移動,同時,該媒動件6’的拉部62’拉引被獎動件7,的被拉 部72’,使該被驅動件7’隨著該滑動桿31相對移位,此時彈性元 件33’(壓縮彈簧)被壓縮而具有儲能,且該卡塊74,的凸柱75, 則沿著止動體8,的彎孤段81,與直線段8〇,移動及偏位,而偏位抵 壓於記憶卡9’的缺邊90,上。 當停止對記憶卡9’***施力,如第六圖c所示,彈性元件33, (壓縮彈簧)釋放儲能,而使該導捍32,的一端321,定位在導槽34, 的定位點上,此時記憶卡9,則處於工作狀態,而該記憶卡9,的缺 邊90’仍被該卡塊74’的抵止邊76,抵住,因而,外力並無法從*** 的反方向取下記憶卡9,,而可確保記憶卡9,工作狀態時訊號傳輸 不受影響。 當要取出記憶卡9’時,如第六圖D所示,按壓該記憶卡9, 使其抵靠於最終位置,此時,該導桿32,的一端321,脫離導槽 34’的定位點,彈性元件33,(壓縮彈簧)被壓縮而具有儲能, M302791 田#止對趨卡9’的抵壓,雜元件33,(壓、轉簧)釋放儲 犯’推引該滑動桿31’並使連動部35,將記憶卡9,順利推出, 此時該導捍32’❼一端321,隨著該滑動桿31,㈣動,沿著導 槽34之退出行程相對移動,同時,該驅動件6,的推部61,拉 弓I被驅動件7’的被推部71’,使該卡塊74,隨著該滑動桿31, 相對移位,進而連動該卡塊74,的凸柱75,沿著止動體8,的直 線段80與彎弧段81’移動及偏位,脫離對記憶卡9,的缺邊 • 90抵止(如第六圖E),而回覆至第六圖A待插卡的狀態。 疋以’本創作第二實施例將該該驅動件6’及被獎動件7,與卡 塊74’組合,同樣可配合該滑動導引機構3,的插卡與退卡行程作 動’係可有效的將工作中的記憶卡9’抵住。 請參閱第七圖為本創作第三個實施例,本實施例之記憶卡連 接器1”包括:絕緣框體2”、滑動導引機構3”、遮蔽體4”、導電端 子5”、驅動件6”及被驅動件7”,以及止動件8”,其中驅動件6,,、 馨 被驅動件7”、止動件8”,以及滑動桿32”兩端321”與322”設置的方 位顛倒與第一實施例不相同外,其他構造皆與第一實施例相同, ' 因此,以下僅就該驅動件6”及被驅動件7”,以及止動件8”詳細介紹。 如第七、八圖所示,該驅動件6”由滑動桿32” 一體形成延伸 臂,其上設置弧型之第一連動槽60”,第一連動槽60”上設置轴 孔60Γ,該轴孔60Γ的一側為推部61”,另一側為拉部62”。該 被驅動件7”為線材,其一端70”以近九十度折彎,可探入該第一 連動槽60”内;該端的一側為被推部7Γ,另一侧為被拉部72”, M302791 另-端73為自由端,經九十度折彎。該止動體8”為具有一次彎 曲的第二連動猶”,可供該獅動件7,,&自由端73,,探入滑 移藉以可配合該滑動桿32”的導槽34,,提供被媒動件7”對記憶 卡抵止與否進行控制。 續請參閱第九® A至E,如第九@ a卿,當纖卡%*** 於本創作之織卡連接H 1”後,織卡9”的前緣會抵靠在該連動 部35”上,則該滑動桿31,,可被推移。當***至最终位置時如第 | 九圖B所示,該導桿32”的一端321,,可於該滑動桿31,,滑動時沿 著導槽34”之***行程相對移位,同時,該驅動件6,,的拉部62,,拉 引被驅動件7”的被拉部72”,使該被驅動件7”以自由端73”隨 著該滑動桿31”沿著該第二連動槽8〇”相對移位,抵壓於記憶卡9” 的缺口 91”端緣上(標號T),此時彈性元件33”(壓縮彈簧)被壓縮 而具有儲能。 當停止對記憶卡9”***施力,如第九圖c所示,彈性元件33,, _ (壓縮彈簧)釋放儲能,而使該導捍32,,的一端321”定位在導槽 34”的定位點上,此時記憶卡9”則處於工作狀態,而該記憶卡9,, 的缺口 91”端緣仍卡抵於該被驅動件7”上(標號τ),因而,外力 並無法從***的反方向取下記憶卡9”,而可確保記憶卡9”工作狀 癌時訊被傳輸不受影響。 當要取出記憶卡9”時,如第九圖D所示,按壓該記憶卡9,, 使其抵靠於最終位置,此時,該導桿32”的一端321”脫離導槽34,, 的定位點,彈性元件33”(壓縮彈簧)被壓縮而具有儲能,當停止 12 M3 02791 對'己憶卡9的抵壓,彈性元件33”(壓縮彈簧)釋放儲能,推引該 /月動桿31並使連動部35;”將記憶卡9 “順利推出,此時該導桿於” 的-端321”隨滑動桿31,,的滑動,沿著導槽34,,之退出行程相對 移動’晴,該軸件6”的推部61,,推引被驅動件7,,的被推部 71 ’使該被驅動件7”以自由端73”隨著該滑動桿31,,沿著該第 一連動槽80相對移位,脫離對記憶卡9”的缺口 91,,端緣的抵止 (如第九圖15) ’而回覆至第九圖A待插卡的狀態。 _ 疋以’本創作藉該驅動件6,,及被驅動件7”,以及止動件8”, 配合該滑動導引機構3”的插卡與退卡行程作動,同樣可有效的將 工作中的記憶卡9”抵住,而不易受外力由***的反方向輕易的拔 出,或不當碰撞造成鬆動偏位,而能夠確保訊號傳輸的穩定。 再,清參閱第十至第十一圖,本實施例之記憶卡連接器i,” 包括·絕緣框體2”’、滑動導引機構3”,、遮蔽體4”,及導電端子5”,, 以及驅動件6’’’及被驅動件7,,,,以及止動件8”,,其中該驅動件6,,, ⑩ 係由滑動捍31’’’一體形成支臂60,,,,其端部設有支轴601”,,且該支 軸60Γ”的兩端分別為推部61,”與拉部62,”。該被堪動件7”,為滑塊 70”’ ’其腹部設有連動槽7〇1”,,其長度小於或等於記憶卡***/退 出行程,可供該支轴601”,探入並在其内滑移,該連動槽7〇1 ”,的兩 端分別為被推部71,,,與被拉部72,,,。該止動趙8,,,係由該滑塊70,,, 靠近該被推部71”,的端緣形成倒勾73”,,藉以可配合該滑塊7〇,,,的 移位,對記憶卡抵止與否進行控制。 續請參閲第十二圖A至E,如第十二圖A所示,當記憶卡9,,, 13 M3 02791 ***於本_之城卡連《 r”後,峨卡9”,的前緣會抵靠在 該連動部35,,’上,_滑動桿31,”可被推移。當插人至最終位置 時’如第十二圖B所示,該導桿32”,的一端321,,’可於該滑動桿 川”滑動時’沿著導槽34”,之***行程相對移位,同時,該支轴 601’”的拉部62”,拉引該滑塊70,”的被拉部72,,’,與該滑槽弘,”作 相對移位,此時彈性元件33”,⑽縮彈簧)被壓儲能, 且該倒勾73”,在滑塊70”,相對導橹34,”移位後,抵·記憶卡9”, 的缺邊90”,上。 S停止對s己憶卡9”***施力,如第十二圖〇所示,彈性元件 33 (壓縮彈簧)釋放儲能,而使該導桿32’”的一端nr,,定位在 導槽34’”的定位點上,此時記憶卡9”,則處於工作錄,而該記憶 卡9’’’的缺邊90’’’仍被倒勾73,,,卡抵,因而,外力並無法從***的 反方向取下記針9”’,而可雜織卡9’”卫作雜時訊號傳輸 不受影響。 當要取出記憶卡9’”時,如第十二圖d所示,按壓該記憶卡9”, 使其抵靠於最終位置,此時,該導捍32”,的一端321”,脫離導槽34,,, 的定位點,元件33”,(1 轉簧)被壓縮而具機能,當停 止對記憶卡9”’的抵壓,彈性元件33”,(壓縮彈簧)釋放儲能,推 引該滑動桿3Γ”並使連動部35”,將記憶卡9”,順利推出,此時該導 桿32”’的一端32Γ”隨滑動桿31,,,的滑動,沿著導槽34”,之退出 行程相對移動,同時,該支軸6〇1,,,的推部61,,,推引該滑塊70,,,的 被推部7Γ” ’與該滑槽34’”作相對移位,並促使該倒勾73’’’脫離 M302791 對記憶卡9,”的缺邊90,,,的抵止(如第十二圖E),而回覆至第十二 圖A待插卡的狀態。 疋以,本創作藉該驅動件6”,及被驅動件7”,,以及止動件8,,, 配口該/月動導引機構3”的插卡與退卡行程作動,同樣可有效的將 工作中的記憶卡9”’抵住,而不易受外力由***的反方向輕易的拔 A ’或不當碰撞造賴動驗,輪夠雜峨傳輸的穩定。 綜上所述’本創作記憶卡連捿器確能達到創作目的,符合新 ⑩ ㈣利餅,惟,以上所述者僅為本創作之較佳實施例,大凡依 據本創作料之各種修飾錢化,/^應&含於料射請範圍内。 【圖式簡單說明】 第-圖為本創作記憶卡連接器之第一實施例的立體分解圖。 第二圖為第一圖取下遮蔽體的組合平面圖。 第二圖A至E為本創作記憶卡連捿器之第一實施例,將記憶卡插 入與退出的動作示意圖。 籲 第四圖為本創作記憶卡連接器之第二實施例的立體分解圖。 第五圖為第四圖取下遮蔽體的組合平面圖。 第六圓A至E為本劍作記憶卡連捿器之第二實施例,將記憶卡插 入與退出的動作示意圖。 第七圖為本創作記憶卡連接器之第三實施例的立體分解圖。 第八圖為第七圖取下遮蔽體的組合平面圖。 第九圖A至E為本創作記憶卡連接器之第三實施例,將記憶卡插 入與退出的動作示意圖。 15 M302791 第十圖為本創作記憶卡連接器之第四實施例的立體分解圖。 第十一圖為第十圖取下遮蔽體的絚合平面圖。 第十二圖A至E為本創作記憶卡連接器之第四實施例,將記憶卡 ***與退出的動作示意圖。 【主要元件符號說明】 記憶卡連接器 1、1,、1”、1”, 絕緣框體 2、2,、2”、2”, 滑動導引機構 3、3、3,、3,,, 遮蔽體 4、4,、4”、4”, 導電端子 5、5,、5”、5”, 驅動件 6、6,、6,,、6”, 被驅動件 7、7、7,、7”, 止動件 8、8,、8”、8”, 記憶卡 9、9、9,,' 9,,, 卡抵處 T 本體 20 側邊 21 組裝槽 23 凸扣 210 轴孔 211 桎體 231 滑動桿 31、31,、31”、31”, 導桿 32、32’、32”、32”, 彈性元件 33、33’、33”、33”, 導槽 34、34’、34”、34”, 連動部 35、35’、35”、35,,, 抵靠部 37 柱體 371 導桿的一端 321、321,、32Γ、321,,, 導桿另一端 322 M302791 壓縮彈簧兩端 331 、 332 卡槽 40 擋片 41 焊接腳 42 第一連動槽 60、60” 支臂 60”, 推部 6 卜 61, 、6Γ、6Γ” 拉部 62、62’ 、62”、62”’ 滑塊 70”, 被推部 71 > IV 、7Γ、71”, 被拉部 72、72, 、72” 、 72”, 自由端 73、73, 倒勾 73”, 卡塊 74, 凸柱 75, 抵止邊 76, 直線段 80 、 80’ 、 80” 彎弧段 8 卜 81, 缺邊 90、90’、 90,,’ 缺口 91” 支軸 601”, 連動槽 701”, 17M302791 VIII. New Description: [New Technology Field] This creation is about a memory card connector. More specifically, it means that it prevents the memory card from being improperly pulled out, which ensures the stable transmission of the signal. Memory card connector. [Previous Art] According to the memory card connector related to the present creation, a structure for controlling a push-and-push type by pressing a memory card includes: an insulating frame having a conductive terminal, and being assembled in an insulating frame The card ejecting mechanism for guiding the insertion and withdrawal of the memory card, and the shielding body covering the outer peripheral surface of the insulating frame. However, the card ejecting mechanism can provide the function of inserting and withdrawing the memory card, but it cannot function as a lock fixing bit after the memory card is inserted. In other words, if the memory card is inserted, if it is subjected to an external force, it is inserted. When pulled out in the opposite direction, the memory card will be easily removed, which will affect the normal signal transmission, and will also cause improper wear of the conductive terminals. In addition, when used in a poor working environment, excessive vibration will cause the memory card. The looseness is biased, and the conductive terminals are not in contact with each other. Therefore, signal transmission is unstable. [New content] The purpose of the creative memory card connector is to provide a guiding function for inserting and retracting a memory card, and having a locking fixed position effect after insertion, so that the memory card is not easily subjected to external force by the inserted reverse The direction is easily pulled out, or the improper collision causes a loose bias, which ensures the stability of the signal transmission. In order to achieve the above object, the memory card connector includes: an insulating frame body having a conductive end 5 M302791, a sliding guiding mechanism disposed on the insulating frame for guiding insertion and withdrawal of the memory card, and providing a sliding guide The elastic component of the restoring force of the guiding mechanism is characterized in that: the opposite side of the linking portion is provided with a body member, and the pushing portion and the pulling portion are disposed thereon; and between the sliding guiding mechanism and the insulating frame body The driven member has a driven portion and a pulled portion thereon; and the driven member resists the memory card by a stop body; if it is a feature, the guide groove of the sliding guiding mechanism can be matched The insertion stroke/working state of the stroke/exit stroke, etc., causes the push portion and the pull portion to move relative to each other, that is, the insertion stroke of the guide groove causes the pull portion to drive the pulled portion, insert the memory card, and abut against The memory card, while the working state stroke maintains the memory card in the working position, the exiting stroke causes the pushing portion to drive the pushed portion, causing the memory card to be disengaged and the memory card to be withdrawn. [Embodiment] Referring to the first figure, the creative memory card connector 丨 includes: an insulating frame 2, a sliding guiding mechanism 3, a shielding body 4, a conductive terminal 5, a driving member 6 and a driven member 7, and a call The movable member 8 has an inner casing 2 and a side edge 21, and the main body 2 is provided with a plurality of terminal receiving grooves 22, and the conductive terminal 5 is received therein by integral molding, and one of the sliders 20 An assembly groove 23 is provided on the side for assembling the card ejecting mechanism 3. In addition, the inside of the assembly tank 23 has a column 231. Further, the side edge 21 is provided with a buckle 210 (only the side is shown) for assembling the shield 4. The sliding guiding mechanism 3 comprises: a sliding rod 31, a guiding rod 32 and an elastic member 33'. wherein the sliding rod 31 is provided with a guiding groove with an insertion 舆 exiting stroke, and the cardiac guiding groove is used for guiding the cryptographic card Insert and exit. On one side of the sliding rod 3i, there is a linkage 6 M302791 portion 35'. On the side close to the guiding groove 34, an abutting portion 37 is provided, and the abutting portion 37 is provided with a cylinder 371. The two ends 321 and 322 of the guiding rod 32 are bent at about ninety degrees, wherein one end 321 can be relatively displaced along the guiding groove 34 when the sliding rod 31 slides, and the other end 322 is fixed to the same. The inside of the shaft hole 211 of the side 21 of the insulating frame 2 is referred to (refer to the second drawing). The elastic member 33 is a compression spring, and one end 331 is assembled on the cylinder 371 and is disposed on the abutting portion 37 of the sliding rod 31. The other end 332 is sleeved on the assembly groove 23, and the cylinder 231 can provide the same. The restoring force of the sliding lever 31 after actuation. The shielding body 4 is made of a metal material, and is provided with a card slot 40 with respect to the protruding button 21 of the insulating frame 2, and the insulating frame 2 can be assembled and covered, and the surface is provided with a guide rod. The flap 41 of 32, and the welded legs 42 of the four corners are bent to fit the surface adhesive weld. The driving member 6 is disposed on the opposite side of the linking portion 35, and is integrally formed with an extending arm by a sliding cymbal 31, and an elongated circular first linking groove 6 设置 is disposed thereon, and the two ends thereof are respectively a pushing portion _ 61 and pulling Port 62, and the length is less than (or equal to) the card insertion/exit stroke. The driven member 7 is a wire which can be inserted into the first linking groove 6〇, and one end 7〇 is bent at approximately ninety degrees, and can be probed into the first linking groove 60, and one side of the end is the pushed portion. 71, the other side is the pulled portion 72. The other end 73 of the driven member 7 is a free end and is bent at an angle of approximately ninety degrees. The stop body 8 is a second interlocking groove having a straight section 80 and a curved segment 81 for allowing the free end 73 of the driven member 7 to penetrate so that the free end 73 can be pulled relative to the pushed portion 71. The operation of the portion 72 controls the movement of the memory card along the straight line segment 80 and the curved portion 81 to 7 M3 02791. Please refer to the second figure for the combined plan view of the shielding body 4 in the first figure, wherein it can be clearly seen that the end 321 of the guiding rod 32 can be inserted/exited along the guiding slot 34 when the sliding jaw 31 slides. The stroke is relatively shifted, so that the sliding jaw has a positioning control for the memory card to be inserted into the ih stroke. The pushed portion 7 of the driven member 7 and the pulled portion 72 are displaced by the pushing portion 61 and the pulling portion 62 of the driving member 6, so that the driven member free end 73 is interlocked along the stopping body. The straight line segment 8〇 of 8 and the curved arc segment 81 move and p are offset. Referring to FIG. 3 to FIG. 3A, as shown in FIG. 3A, when the memory card 9 is inserted into the memory card connector 1 of the present invention, the leading edge of the memory card 9 abuts against the linking portion 35. Then the slide bar 31 can be pushed. When inserted into the final position, as shown in the first figure B, the one end 321 of the guiding rod 32 is relatively displaced along the insertion stroke of the guiding groove 34 as the sliding rod 31 slides. At this time, the driving member The pulling portion of the 6 pulls the pulled portion 72 of the driven member 7 so that the driven member 7 is displaced with the sliding rod 31, and the elastic member 33 (compression spring) is compressed to have energy storage. The free end 73 of the driven member 7 is moved and offset along the curved portion 81 and the straight portion 80 of the stopping body 8, and the offset is pressed against the missing edge 90 of the memory card 9. When the insertion of the force on the memory card 9 is stopped, as shown in the third figure C, the elastic member 33 (compression spring) releases the energy storage, and the one end 321 of the guide rod 32 is positioned at the positioning point of the guide groove 34. The memory card 9 is in an active state, and the missing edge 90 of the memory card 9 is still held by the free end 73 of the driving member 7, so that the external force cannot remove the memory card 9 from the opposite direction of the insertion, thereby ensuring When the memory card 9 is working, the signal is transmitted. 8 M302791 The input is not affected. When the Leica 9 _, (4) three-figure D solution is to be removed, the hidden card is placed against the final position. At this time, the one end of the guide rod is detached from the positioning point of the guide groove 34, and the elastic member 33 (compressed bomb)箸) is compressed to have energy storage. When the pressure on the memory card 9 is stopped, the elastic element % (compressed elastic phthalocyanine) releases the energy storage, and the β-moving cup 31 is pushed and the interlocking portion 35 smoothly pushes out the memory card $. The end 321 of the guide rod 32 is relatively displaced along the exit stroke of the guide groove 34 as the slide rod 31 slides, and at the same time, the push portion 61 of the medal member 6 pulls the quilt by the medium member 7. The pushing portion 71 71 causes the driven member 7 to be relatively displaced with the sliding jaw, thereby interlocking the free end 73 of the driven member 7 along the straight line segment 8〇 of the stopping jaw 8 and the curved portion 81 And the offset, the detachment from the missing edge of the memory card 9 (as shown in the third figure), and the reply to the state of the third image to be inserted. Therefore, the present invention can effectively operate the memory card 9 in operation by the driving member 6 and the driven member 7 and the stopper 8 in cooperation with the card insertion and withdrawal timing of the sliding guiding mechanism 3. Living, but not vulnerable to external forces easily pulled out in the opposite direction of the insertion, the call or improper collision caused loose bias, and can ensure the stability of signal transmission. For the second embodiment of the present invention, the memory card connector 本 of the present embodiment includes: an insulating frame 2', a sliding guiding mechanism 3', a shielding body 4', and a conductive terminal 5'. , the driving member 6' and the driven member 7', and the stopper 8', wherein the other structures are the same as the first embodiment except that the driven member T is different from the first embodiment, please refer to As shown in FIGS. 5 and 5, the driven member 7' is a wire, and one end 70 thereof is bent at approximately ninety degrees, and can be penetrated into the first linking groove 60' of the driving member 6', one side of the end 70' For the pushed portion 71', the other side is the pulled portion 72', and the other end of the M3 02791 is the free end 73, which is appropriately bent and pivotally connected with the block 74, the block 74 has a stud 75, and the abutting edge 76, wherein the stud 75 can be probed into the stopper g, and the linear segment 80 is displaced with the curved segment 8Γ to drive the block 74 to move the phase so that the abutting edge 76 'Can control the deviation or not. Referring to Fig. 6A', when the memory card 9' is inserted into the memory card connector 1 of the present invention, the rigid edge of the memory card 9 is placed on the interlocking portion 35', and the slider 31 can be pushed. When inserted into the final position, as shown in the sixth figure b, one end 32 of the guide rod 32, along with the sliding of the sliding rod 31', moves along the guide groove 34, and the insertion stroke relatively moves, and at the same time, the medium movement The pulling portion 62' of the piece 6' pulls the pulled portion 72' of the medal member 7, so that the driven member 7' is relatively displaced with the sliding rod 31, at this time the elastic member 33' (compression spring) Compressed to have energy storage, and the studs 75 of the block 74 are along the curved body 81, the curved segment 81, and the straight segment 8 〇, moving and offset, and the bias is pressed against the memory The missing edge of the card 9' is 90, on. When the insertion of the force on the memory card 9' is stopped, as shown in the sixth figure c, the elastic member 33, (compression spring) releases the energy storage, and the one end 321 of the guide 32 is positioned at the guide groove 34. At this point, at this time, the memory card 9 is in the working state, and the missing edge 90' of the memory card 9, is still resisted by the abutting edge 76 of the block 74', and thus the external force cannot be reversed from the insertion. The memory card 9 is removed in the direction, and the memory card 9 is ensured, and the signal transmission is not affected during the working state. When the memory card 9' is to be taken out, as shown in the sixth drawing D, the memory card 9 is pressed to abut against the final position. At this time, the one end 321 of the guiding rod 32 is disengaged from the guiding groove 34'. Point, the elastic member 33, (compression spring) is compressed to have energy storage, the M302791 field # is pressed against the card 9', the miscellaneous element 33, (pressure, spring) releases the scam "pushing the sliding rod 31" 'And the interlocking portion 35, the memory card 9, smoothly pushed out, at this time the guide 32' ❼ one end 321 , with the sliding rod 31, (four) moving, relative movement along the guiding groove 34, while The pushing portion 61 of the driving member 6 pulls the pushed portion 71' of the driven member 7', so that the locking block 71 is relatively displaced with the sliding rod 31, thereby interlocking the convex portion of the blocking member 74. The column 75, along the linear segment 80 of the stop body 8, moves and deviates from the curved segment 81', and is separated from the missing edge of the memory card 9, 90 (as shown in Figure 6), and replies to the first Figure 6 shows the status of the card to be inserted. In the second embodiment of the present invention, the driving member 6' and the medalized member 7 are combined with the card block 74', and the card insertion and withdrawal mechanism of the sliding guide mechanism 3 can also be actuated. It can effectively hold the working memory card 9'. Please refer to the seventh embodiment for the third embodiment of the present invention. The memory card connector 1" of the present embodiment includes: an insulating frame 2", a sliding guiding mechanism 3", a shielding body 4", a conductive terminal 5", and a driving a piece 6" and a driven member 7", and a stopper 8", wherein the driving member 6,, the squirrel driven member 7", the stopper 8", and the both ends 321" and 322" of the sliding lever 32" are disposed The orientation of the orientation is different from that of the first embodiment, and the other configurations are the same as those of the first embodiment. Therefore, only the driver 6" and the driven member 7", and the stopper 8" will be described in detail below. As shown in the seventh and eighth figures, the driving member 6" is integrally formed with an extending arm by a sliding rod 32", and an arc-shaped first linking groove 60" is disposed thereon, and the first linking groove 60" is provided with a shaft hole 60". One side of the shaft hole 60A is a pushing portion 61", and the other side is a pulling portion 62". The driven member 7" is a wire, and one end 70" is bent at nearly ninety degrees and can be penetrated into the first linking groove 60"; one side of the end is the pushed portion 7Γ, and the other side is the pulled portion 72. ", M302791 The other end 73 is the free end, bent by ninety degrees. The stopping body 8" is a second interlocking spring having a one-time bending, and the lion moving member 7, the & free end 73, is guided by the guide groove 34 which can be engaged with the sliding rod 32". , providing the mediator 7" to control whether the memory card is resisted or not. Continued to refer to ninth ® A to E, such as ninth @ aqing, when the fiber card % is inserted into the woven card connection H 1" of the present creation, the leading edge of the woven card 9" will abut against the linkage 35" Above, the sliding rod 31 can be pushed. When inserted into the final position, as shown in FIG. 9B, one end 321 of the guiding rod 32" can be slid along the sliding rod 31. The insertion stroke of the guide groove 34" is relatively displaced, and at the same time, the pulling portion 62 of the driving member 6, pulls the pulled portion 72" of the driven member 7", so that the driven member 7" is at the free end 73. "With the sliding lever 31" being relatively displaced along the second interlocking groove 8", pressing against the end edge of the notch 91" of the memory card 9" (reference numeral T), at this time the elastic member 33" (compression spring) ) is compressed to have energy storage. When the insertion of the force on the memory card 9" is stopped, as shown in the ninth diagram c, the elastic member 33, _ (compression spring) releases the energy storage, and the one end 321" of the guide 32, is positioned in the guide groove 34. At the positioning point, at this time, the memory card 9" is in the working state, and the end edge of the notch 91" of the memory card 9, is still stuck on the driven member 7" (reference numeral τ), and thus, the external force is It is not possible to remove the memory card 9" from the opposite direction of the insertion, and it is ensured that the memory card 9" working cancer time is transmitted without being affected. When the memory card 9" is to be taken out, as shown in the ninth diagram D, the memory card 9 is pressed to abut against the final position. At this time, the one end 321" of the guide rod 32" is separated from the guide groove 34, The positioning point, the elastic element 33" (compression spring) is compressed to have energy storage, when the stop of 12 M3 02791 against the 'remember card 9, the elastic element 33' (compression spring) releases the energy storage, deduce the / The lunar movement lever 31 causes the interlocking portion 35 to "successfully push out the memory card 9", and at this time, the "end end 321" of the guide rod slides along the sliding rod 31, along the guide groove 34, and the withdrawal stroke Relatively moving 'clear, the pushing portion 61 of the shaft member 6', pushing the driven member 7, the pushed portion 71' causes the driven member 7" to follow the sliding rod 31 with the free end 73", The first interlocking groove 80 is relatively displaced along the first engaging groove 80, and is detached from the notch 91 of the memory card 9", and the end edge is abutted (as shown in FIG. 15) and is returned to the state of the ninth drawing A to be inserted.作In the present invention, the driving member 6, and the driven member 7", and the stopper 8" cooperate with the card of the sliding guiding mechanism 3" and the card withdrawal stroke, It can effectively hold the working memory card 9", and it is not easy to be pulled out by the external force in the opposite direction of the insertion, or the loose collision can be caused by improper collision, and the signal transmission can be stabilized. To the eleventh diagram, the memory card connector i of the present embodiment, "including the insulating frame 2"', the sliding guide mechanism 3", the shielding body 4", and the conductive terminal 5", and the driving member 6 ''' and the driven member 7,,, and the stopper 8", wherein the driving member 6, 10, 10 is integrally formed by the sliding jaw 31"", and the end portion thereof is provided There is a support shaft 601", and the two ends of the support shaft 60"" are respectively a pushing portion 61," and the pulling portion 62,". The movable member 7" is a slider 70"' The slot 7〇1", the length of which is less than or equal to the insertion/exit stroke of the memory card, is available for the support shaft 601" to penetrate and slide within the support shaft, and the two ends of the linkage groove 7〇1" are respectively Pushing portion 71,,, and pulled portion 72,,,. The stop Zhao 8, is formed by the slider 70, close to the edge of the pushed portion 71", forming an undercut 73", thereby accommodating the displacement of the slider 7〇, Control whether the memory card is resisted or not. Continued, please refer to Figure 12A to E. As shown in Figure 12A, when the memory card 9,, 13 M3 02791 is inserted in the city card with "r", Leica 9", The leading edge will abut against the linkage 35, 'on, the _ slide bar 31,' can be pushed. When inserted into the final position, as shown in Fig. 12B, one end of the guide 32" 321, the 'insertion of the slider can be 'slid along the guide groove 34', the insertion stroke is relatively displaced, and at the same time, the pull portion 62" of the support shaft 601'" pulls the slider 70," The pulled portion 72,, ', and the chute, "relatively displaced, at this time the elastic member 33", (10) the contraction spring is stored, and the barb 73", at the slider 70", The relative guide 34, "after the shift, the memory card 9", the missing edge 90", is on. S stops the insertion of the suffix card 9". As shown in Fig. 12, the elastic member 33 (compression spring) releases the energy storage, and the end nr of the guide 32'" is positioned in the guide groove. At the positioning point of 34'", at this time, the memory card 9" is in the work record, and the missing edge 90''' of the memory card 9''' is still barbed 73, and the card is offset, thus, the external force is It is not possible to remove the stylus 9"' from the opposite direction of the insertion, and the miscellaneous signal transmission of the woven card 9'" is not affected. When the memory card 9'" is to be removed, as shown in the twelfth figure d, the memory card 9" is pressed to abut against the final position, at which time one end 321" of the guide 32" is disengaged. The positioning point of the groove 34,,, the element 33", (1 spring) is compressed to function, and when the pressure on the memory card 9"' is stopped, the elastic element 33", (compression spring) releases the energy storage, pushes Leading the slide bar 3" and causing the interlocking portion 35" to smoothly push out the memory card 9", at this time, one end 32" of the guide bar 32"' slides along with the slide bar 31, along the guide groove 34" The exiting stroke is relatively moved, and at the same time, the fulcrum of the fulcrum 6 〇 1, , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , Shifting, and causing the barb 73''' to disengage from the M302791 to the memory card 9," the missing edge 90,,, the abut (as in the twelfth figure E), and the reply to the twelfth picture A to be inserted status. , , 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本Effectively, the working memory card 9"' is resisted, and it is not easy to be pulled by the external force from the opposite direction of the insertion or the improper collision. In summary, the author's memory card can achieve the purpose of creation, in line with the new 10 (four) cake, but the above is only the preferred embodiment of this creation, and the various modifications based on the creation of the material , / ^ should be & included in the scope of the shot. BRIEF DESCRIPTION OF THE DRAWINGS The first figure is an exploded perspective view of the first embodiment of the creative memory card connector. The second figure is a combined plan view of the first figure with the shield removed. The second figure A to E are schematic diagrams of the action of inserting and withdrawing the memory card in the first embodiment of the creation memory card connector. The fourth figure is an exploded perspective view of a second embodiment of the creative memory card connector. The fifth figure is a combined plan view of the fourth figure with the shield removed. The sixth circle A to E are the second embodiment of the sword as the memory card connector, and the action diagram of inserting and withdrawing the memory card. The seventh figure is an exploded perspective view of the third embodiment of the creative memory card connector. The eighth figure is a combined plan view of the seventh figure with the shielding body removed. The ninth embodiment A to E are diagrams showing the operation of inserting and retracting the memory card in the third embodiment of the creative memory card connector. 15 M302791 The tenth figure is an exploded perspective view of the fourth embodiment of the creative memory card connector. The eleventh figure is a plan view of the folding of the shielding body in the tenth figure. Fig. 12 through Figures A through E are diagrams showing the operation of inserting and ejecting a memory card in the fourth embodiment of the creative memory card connector. [Description of main component symbols] Memory card connector 1, 1, 1, 1", 1", insulating frame 2, 2, 2", 2", sliding guide mechanism 3, 3, 3, 3, Shielding bodies 4, 4, 4", 4", conductive terminals 5, 5, 5", 5", driving members 6, 6, 6, 6, 6", driven members 7, 7, 7, 7", stoppers 8, 8, 8,", 8", memory card 9, 9, 9, , ' 9,,, card, T, body 20, side 21, assembly groove 23, snap button 210, shaft hole 211 桎Body 231 sliding rods 31, 31, 31", 31", guide rods 32, 32', 32", 32", elastic members 33, 33', 33", 33", guide grooves 34, 34', 34" , 34", interlocking portions 35, 35', 35", 35,, abutting portion 37, one end of the column 371, 321, 321, 32 Γ, 321,, the other end of the guide rod 322 M302791 compression spring ends 331 , 332 card slot 40 baffle 41 welding leg 42 first linkage groove 60, 60" arm 60", push portion 6 卜 61, 6, Γ, 6 Γ" pull portion 62, 62', 62", 62"' slide Block 70", pushed portion 71 > IV, 7Γ , 71", drawn portion 72, 72, 72", 72", free end 73, 73, barb 73", block 74, stud 75, abutting edge 76, straight segments 80, 80', 80弯弯段8 卜81, missing edge 90, 90', 90,, 'notch 91' fulcrum 601", linkage groove 701", 17