200945673 九、發明說明: 【發明所屬之技術區域】 本發明係關於一種供内建電子電路之卡片裝設之卡片連 接器,尤有關於一種可阻止正規之卡片卩外之卡片插入之 卡片連接器。 ' 【先前技術】 如以下之專利文獻所記載,在數位相機或數位攝錄影 機、或個人電腦等中,係裝設有稱為記憶卡(memory card) 之小型且薄型之電子功能卡片來使用。此電子功能卡片, 係在由合成樹脂材料所形成之小型且薄型之盒體(case)(亦 有稱殼體(h〇using)之情形)内,收納有發揮作為記憶體晶 片、及記憶體控制器等功能之1(:晶#等。再者,在盒體之 表面’設有與内部之記憶體晶片及1C晶片等之電子電路導 通之複數個外部連接電極。 供此種:子功能卡片裝設之卡片連接器,係在框體之内 Ο 冑設有朝前後方向移動之滑塊⑷咖)、將此滑塊朝向框體 之插入口賦能之賦能構件、及將朝框體之深處側移動之滑 塊予以鎖疋之鎖定機構。如專利文獻i等所記载,在前述 ' ⑨塊係設有與在卡片之側部所形成之凹部嵌合之掛止構件 、鎖(latch))。右卡片裝設於框體内,且前述掛止構件與 Θ述凹〜° ’滑塊係藉由卡片之壓人力而在框體之内部 移動且由鎖定機構加以鎖定。此時,設於框體内之連接端 子與》又於卡片之下面之外部連接電極係連接。 此種卡片連接器係非常小型且以手指之觸感來判斷是否 137240.doc 200945673 裝設卡片,因此若卡片表背反向或前後反向地插入 入於框體之深處而使滑塊鎖定,儘管卡片之外部連接電極 未與連接端子導通,彳㈣者㈣可能無法料 錯誤之方向插入。 因此’在以下之專利文獻i所記載之卡片連接器中係 於框體之内部固^設有誤插人防止用之突起,且在卡片設 有當插入於框體内時與前述突起滑動之溝。若以正常^ 勢插入卡片,前述溝與前述突起即—致,而可將卡片插入 於框體之内部。又,若卡片以非正常之姿勢插人,則前述 溝與前述突起之位置不相對合,因此無法將B送至框體 之内部。 又以下之專利文獻2所記載之卡片連接器,係若卡片 以正常之姿勢插入於框體内,形成於卡片之側部之凹部與 設於滑塊之掛止凸部即卡合,且卡片與滑塊一體組合而可 朝框體之深處方向移動。另一方面,卡片以錯誤之姿勢插 入而使形成於卡片之凹部與滑塊之掛止凸部無法一致時, 滑塊係藉由卡片之側部而朝與插入方向交又之方向推壓而 使此滑塊在框體内被鎖定,使得無法再更進一步將卡片朝 框體之内方移動。 [專利文獻1]曰本特開2003-150921號公報 [專利文獻2]曰本特開2〇〇5_3〇1983號公報 【發明内容】 [發明所欲解決之問題] 前述專利文獻1所記載之卡片連接器,由於在卡片之面 137240.doc 200945673 = 向延伸之溝,™等配置於其内部 *。=::::約’而難以維持電路之設計之自由 難以適用於較薄尺寸之:片有在其厚度方向凹陷之溝,因此 片=誤=:文:2所記载之卡片連接器,係為於卡 橫方向動作之^ 使推壓於此卡片之側部之滑塊朝 ❹ ❹ 以正常之姿勢容易產生誤動作,儘管例如卡片 此外,專利文獻2所記载之卡# 人時,會有滑塊與此等二或其他異物插 點。 物门時-起在框體之内部移動之缺 背=習知之卡片連接器係在如原本應接受之卡片以表 旁面反向或前後反向等⑨又之卡片以表 止該插入為目的之結構,:::以錯誤之姿勢插入時’阻 似之2種卡片之情形下,^接不^在有採用例如存在形狀相 止另-方之卡片之插入之構造::一方之插入,但卻阻 本發明係解決上述 與原本應接受之正規卡片=喊’其目的在提供-種在供 規之卡片以錯誤之姿卡片插入時’或者前述正 卡片連接ϋ。 4 S於確實地阻止其插入之 J37240.doc 200945673 又’本發明之目的係提供一 時,可接受一方之卡片之插入 入之卡片連接器。 種存在形狀相似之2種卡片 ’且阻止另一方之卡片之插 [解決問題之技術手段] 第I之本發明之卡片連接器其特徵為設有·框體,立旦 有供内建有電子電路之卡片奸 八八 卞电路之卡片插入之收納區域;滑塊,立設 於前述框體之㈣且朝卡片之插人方向與排出方向作進退 動作’賦能構件’其對前述滑_卡#之㈣方向賦能; 及鎖定機構,其將朝卡片之插入括 J砂勒之别述滑塊予以 鎖疋; 且前述滑塊係财㈣構件,討朝向前錢納區域内 進退動作且於朝前述收納區域内突出之方向上被賦能; 該卡片連接H係設有限㈣,其係在前述_構件突出 於前述收納區域之狀態下於前述滑塊欲朝卡片之插入方向 移動時’與别述偵測構件碰觸而限制前述滑塊之移動者 而前述偵測構件藉由插人料述收納區域内之卡片之側; 而被塵入於前述滑塊時,前述搞測構件不會與前述限制; 碰觸’而使前料塊可移_由前述鎖定機構所鎖定之位 第1之本發明之卡片連接器’係以滑塊僅在卡片之插Λ 方向移動,且摘測構件可動作自如地設於此滑塊 此横測構件之動作狀態而容許滑塊之移動,或以滑塊 在框體之内部移動之方式加以鎖定。如此,由於滑塊:移 動方向僅為直線方向’且為搭載於此滑塊之偵測構件進行 137240.doc 200945673 動作之結構,因此可確實地進行滑塊之移動動作或滑塊之 鎖定動作。 又’第1之本發明之卡片連接器,係卡片未插入時滑塊 被鎖定,且僅在正規之卡以正常之姿勢插入時滑塊才可移 動之結構。因此,在寬度尺寸過小之卡片或異物誤插入 時,滑塊不會朝向框體之深處側移動,而容易阻止正規之 卡片之正常之姿勢下以外之插入。 本發明係在前述滑塊設有止動—per)部,且在直到插 入於前述收納區域之卡片之前端部與前述止動部碰觸之期 間,精由此卡片之側部而使前述_構件被虔入於前述滑 塊。 藉由上述結構,可僅在正規之卡片正常插入時,才籍由 卡片之插人力使滑塊朝框體之深處方向移動而鎖定。 有=本之卡片連接器其特徵為設有··框體,其具 有i、内建有電子電路之卡片插入之收 於前述框體之内部且朝卡片之插入方向與排出;=動 ^此構件’其對前述滑塊朝卡片之排出方 鎖疋機構,其將朝卡片之插 匕, 定; 方向移動之前述滑塊予以鎖 且别述滑塊係設有偵測構件,Α 作進退動作且於朝朝向別述收納區域内 動作且於朝則述收納區域内突出之方向; U卡片連接器係設有限制部,1 义 ^ ^ ii # Μ Λ > 則述偵測構件朝向 月塊被壓入之狀態下於前述滑 移動時,與前% 之插入方向 構件碰觸而限制前述滑塊之移動者, 137240.doc -11- 200945673 而在前述偵測構件突出於,、、 之側部的凹部内突屮古:形成於插入前述收納區域之卡片 會與前述限制部碰觸,測構件時’前述偵測構件不 機構所鎖定之位置。 則述滑塊可移動到由前述鎖定 上述第2之本發明之卡片 插入方向直線性…亦為滑塊僅在卡片之 π夕莉之結構,因此 作。又,僅於在卡片之侧部易產生滑塊之誤動 向時,滑塊才得以與此卡 凹部與伯測構件相對 *第2之本發”,:二==_。 到插入於前述收納_ °有心’且在直 碰觸之期間m、丨片之㈣部直到與前述止動邹 4間”述_構件係以突出 形成之凹部内為較佳。 在此卡片之側部所 在第1之本發明及第2之 閉前述收納區域之蓋體:月·J述框體係以具有封 成為較佳,再::::且别述限制部與前述蓋體-體形 或m 蓋體形成有孔或缺口,而前述孔 =述缺口之邊緣部之一部分係以作為前述限制部為較 在上述之構成中’係可將框體構成為薄型。 =者’可構成為設有切換機構,其係於前述资測構件在 谓測輸出之。以時、及被壓入於前述滑塊時,切換 若設為藉由偵測構件之位置而使切換機構動作之結構, 可一直確實掌握應接受之正規之卡片是否已正常插入。 【實施方式】 137240.doc 200945673 /:發明之效果j 在本發明中,係可在原 η你>。士斗、 又心止規之卡片以外之卡 片插入%•,或正規之卡片以錯誤之方a你 入 錯為之方向插入時,阻止其插 ,由於在卡片未插入時滑塊被鎖 之卡片更小之卡片或其他異物插 又,在第1之本發明令 定,因此寬度尺寸較正規 入時,容易阻止其插入。 ❹ 再者,本發明係可設為存在形狀類似之2種卡片時,可 使其-方之卡片插入且阻止另一方之卡片之插入。 圖1係為表示本發明之第1實施形態之卡片連接器之外觀 :立體圖,圖2係為將第1卡片裝設於第!實施形態之卡片 連接器之狀態予以知除甚种主_ 卸除蓋體而表木之立體®。 表不第!實施形態之卡片連接器之滑塊㈣測構件之立體 圖’圖?⑻係為進-步表示限制部之結構之立體圖。圖4200945673 IX. Description of the Invention: [Technical Area of the Invention] The present invention relates to a card connector for a card for a built-in electronic circuit, and more particularly to a card connector for preventing card insertion outside a regular card . [Prior Art] As described in the following patent documents, a small and thin electronic function card called a memory card is attached to a digital camera, a digital video camera, or a personal computer. use. The electronic function card is housed in a small and thin case (also referred to as a case), which is formed of a synthetic resin material, and functions as a memory chip and a memory. One of the functions of the controller (such as crystal #, etc., on the surface of the case) is provided with a plurality of external connection electrodes that are electrically connected to an internal electronic memory chip such as a memory chip or a 1C chip. The card connector of the card is disposed in the frame, and has a slider (4) that moves in the front-rear direction, an energizing member that energizes the slider toward the insertion opening of the frame, and a facing member The slider that moves on the deep side of the body is locked by the lock mechanism. As described in the patent document i or the like, in the above-mentioned '9-piece, a hanging member and a latch fitted to a concave portion formed at a side portion of the card are provided. The right card is mounted in the frame, and the hanging member and the concave-to-slider slider are moved inside the frame by the pressing force of the card and locked by the locking mechanism. At this time, the connection terminal provided in the casing is connected to the external connection electrode of the lower side of the card. The card connector is very small and judges whether the 137240.doc 200945673 is equipped with a card by the touch of a finger. Therefore, if the card table is reversed or inserted backwards and backwards in the depth of the frame, the slider is locked. Although the external connection electrode of the card is not electrically connected to the connection terminal, the (4) (4) may not be inserted in the wrong direction. Therefore, in the card connector described in the following Patent Document i, a projection for preventing misplacement is fixed inside the casing, and the card is provided to slide with the projection when inserted into the casing. ditch. If the card is inserted in a normal manner, the groove and the protrusion are aligned, and the card can be inserted into the inside of the frame. Further, if the card is inserted in an abnormal posture, the groove does not face the position of the projection, and therefore B cannot be sent to the inside of the casing. Further, in the card connector described in Patent Document 2, if the card is inserted into the casing in a normal posture, the concave portion formed on the side portion of the card is engaged with the hanging convex portion provided on the slider, and the card is engaged. It can be combined with the slider to move in the depth direction of the frame. On the other hand, when the card is inserted in the wrong posture so that the concave portion formed on the card does not coincide with the hanging convex portion of the slider, the slider is pressed in the direction of the insertion direction by the side portion of the card. The slider is locked in the frame so that the card can no longer be moved further inside the frame. [Patent Document 1] JP-A-2003-150921 [Patent Document 2] Japanese Unexamined Patent Publication No. Hei No. Hei. The card connector is placed inside the card* 137240.doc 200945673 = the groove to the extension. =:::: about 'and it is difficult to maintain the design of the circuit is difficult to apply to the thinner size: the sheet has a groove that is recessed in its thickness direction, so the film = error =: text: 2 card connector, In the case where the card is moved in the lateral direction of the card, the slider that is pressed against the side of the card is erroneously moved in a normal posture, although, for example, a card, the card #人 described in Patent Document 2, There are sliders with these two or other foreign objects. When the door is closed - the lack of movement inside the frame = the card connector of the conventional card is attached to the card as originally intended to be reversed or reversed, etc. In the case of the insertion of the card in the case of the insertion of the card in the case of the insertion of the card in the case of the insertion of the card, the insertion of the card: However, the invention is directed to the above-mentioned positive card connection 原 或者 喊 = = = = = = 其 = = ϋ ϋ ϋ ϋ ϋ 正规 正规 正规 正规 正规 正规 正规 正规 正规 正规 正规 正规 正规 正规 正规 正规 正规 正规 正规 正规4 S is surely prevented from being inserted. J37240.doc 200945673 Further, the object of the present invention is to provide a card connector into which a card of one party can be inserted. There are two kinds of cards of similar shape and the card of the other party is blocked. [Technical means for solving the problem] The card connector of the first aspect of the present invention is characterized in that it is provided with a frame, and the built-in electronic device is provided for the purpose of The card of the circuit is inserted into the storage area of the card; the slider is erected in the frame (4) and moves forward and backward toward the insertion direction and the discharge direction of the card. #的(四)direction empowerment; and a locking mechanism that locks the slider inserted into the card, including the J Shale; and the slider is a member of the fourth (four) member, and the forward and backward movements in the front Qianna area are Provided in a direction protruding in the storage area; the card connection H is provided with a limit (4) which is when the slider is to be moved in the insertion direction of the card in a state in which the member protrudes from the storage area When the detecting member touches and restricts the movement of the slider, the detecting member inserts the side of the card in the storage area; when the dust is introduced into the slider, the detecting member does not With the aforementioned restrictions; 'The front block is movable. The card connector of the present invention, which is locked by the aforementioned locking mechanism, is moved by the slider only in the direction in which the card is inserted, and the picking member is movably disposed on The slider allows the slider to move in the action state of the cross member, or locks the slider so as to move inside the frame. In this way, since the slider: the moving direction is only the linear direction ′ and the detecting member mounted on the slider performs the operation of 137240.doc 200945673, the slider moving operation or the slider locking operation can be surely performed. Further, the card connector of the first invention is a structure in which the slider is locked when the card is not inserted, and the slider can be moved only when the normal card is inserted in a normal posture. Therefore, when a card or a foreign object having a too small width is erroneously inserted, the slider does not move toward the deep side of the casing, and it is easy to prevent the insertion of the normal card from the normal posture. In the present invention, the slider is provided with a stopper-per part, and the side portion of the card is in contact with the stopper portion until the end portion of the card inserted into the storage region is in contact with the stopper portion. The member is broken into the aforementioned slider. With the above configuration, it is possible to lock the slider toward the depth of the casing only by the insertion force of the card when the normal card is normally inserted. The card connector of the present invention is characterized in that: a frame body is provided, and the card having the built-in electronic circuit is inserted into the inside of the frame body and is inserted into the card insertion direction and discharged; The member's locking mechanism for the discharge of the slider toward the card, which will be fixed to the insertion of the card; the slider that moves in the direction is locked and the slider is provided with a detecting member, And the direction of the movement toward the storage area and the direction of the storage area; the U card connector is provided with a restriction portion, 1 meaning ^ ^ ii # Μ Λ > In the state of being pressed, the slider is moved in contact with the first % of the insertion direction member to restrict the movement of the slider, 137240.doc -11- 200945673 and the detecting member protrudes from the side of the side In the concave portion of the portion, the card formed in the storage area is in contact with the restricting portion, and the detecting member is in a position where the detecting member is not locked by the mechanism. Then, the slider can be moved to the linearity of the card insertion direction of the present invention locked by the above-mentioned second invention, and the slider is only in the structure of the card. Moreover, when the erroneous direction of the slider is likely to occur on the side of the card, the slider can be opposed to the second concave portion of the card recessed portion and the second measuring member. 2:==_. _ ° intentional 'and during the period of direct touch m, the (four) part of the cymbal until the above-mentioned stop _ 4 is preferably formed in the recess formed by the protrusion. The first invention of the first side of the card and the second cover of the storage area for closing the storage area are preferably provided with a seal, and the cover is preferably replaced with a cover and a cover. The body-body or the m-cap body is formed with a hole or a notch, and the hole: one of the edge portions of the notch is formed as the above-mentioned restricting portion, and the frame may be formed to be thin. The = can be configured to have a switching mechanism that is outputted by the aforementioned measurement component. When the slider is pressed in time and when the slider is pressed, if the switching mechanism is operated by the position of the detecting member, it is possible to surely grasp whether or not the regular card to be accepted has been normally inserted. [Embodiment] 137240.doc 200945673 /: Effect of the invention j In the present invention, it can be in the original η you>. Cards other than the card, and the card of the heart-breaking card are inserted into the %•, or the regular card is inserted in the wrong direction. When you insert it in the wrong direction, it is blocked, because the card is locked when the card is not inserted. Small cards or other foreign objects are inserted, and in the first invention, the width is smaller than the regular size, and it is easy to prevent the insertion. Further, in the present invention, when two types of cards having similar shapes are present, the card of the same type can be inserted and the insertion of the other card can be prevented. 1 is a perspective view showing the appearance of a card connector according to a first embodiment of the present invention, and FIG. 2 is a view showing a state in which a first card is attached to a card connector of an embodiment of the present invention. In addition to the cover body, the stereoscopic table of the wood. The table is not the first! The slider of the card connector of the embodiment (4) The perspective view of the measuring member Fig. 8 is a perspective view showing the structure of the restricting portion in the step-by-step manner. Figure 4
與圖5係為將p卡片裝設於第i實施形態之卡片連接器之 狀態予以卸除蓋體而以動作別來表示之俯視圖。圖6係為 將第2卡片裝㈣第i實施形態之狀態予以㈣蓋體而表示 之俯視圖。 立圖^係為表示本發明之第2實施形態之卡片連接器之限制 部之結構之立體圖。圖8與圖9係為 ㈣態之卡片連接器之狀態予以卸除蓋體而以動作別第來^ :之俯視圖。圖1〇係為將第1卡片襄設於第2實施形態之狀 L予以卸除蓋體而表示之俯視圖。 係為表不第1實施形態之卡片連接器與第2實施形態 137240.doc •13- 200945673 之I片連接器之框體本體之底部之結構之俯視圖。 圖:為Γ卡片之俯視圖,圖13係為第1卡片之左側視 圖’圖14係為從斜下側表 第2卡片之俯視圖。 第卡片之立體圖。圓15係為 卡=1=實施形態之卡片連接器20中,係裝設第1 ‘、、'之卡片,惟無法裝設第2卡片C2。在第2 實施形態之卡片連接器7〇中 ^係裝β又第2卡片C2作為正規 之卡片’惟無法裝設^卡片Cle幻卡片ci與第2卡片a 係盒體之尺寸相同而盒體之結構稍有相異。首先,說 1卡與第2卡之形狀及其相異點。 Π (第1卡之形狀) 圖12乃至圖14所示之第1卡片C卜係作為所謂多媒體卡 片等之記憶體裝置(memory device)來使用。第i卡片 具有塑膠製之盒體1,而在此盒體1内,收納有發揮作為快 閃記憶體等之記憶體晶片、或記憶體控制器功 、 等。 L曰日月 如圖η所示’盒體i係具有表面la與背面lb。表面g 背面ib係彼此平行之平面,表面la與背面lb之間隔係為第 1卡片C1之厚度尺寸T。如圖14所示’在背面以前方,《、 露出有複數個(13個)之外部連接電極5。外部連接電極5系 表面係與盒體1之背面lb大致同一面。 5之 在此,所謂「表面」與「背面」係為便於用以識別 外部連接電極5之面與不具有外部連接電極5之面 石稱, 任一面為表面la或任一面為背面lb均可。 137240.doc -14- 200945673 如圖12乃至圖14所示,盒體丨係具有前端部lc、後端部 1 d。此外具有右側部丨6與左側部丨f。 如圖13所示,前端部1(:係為與表面u垂直之平面,而在 表面1 a與者面1 b之角部係形成有前方傾斜面2。後端部i d • 係為與表面1 a及背面1 b垂直之平面6右側部1 e與左側部1 f . 係為與表面1a及背面卟垂直之平面。如圖12所示,在前端 部1e與右側部ie之邊界部及前端部lc與左側部lf之邊界 φ °卩亦即刖端部1 c之左右兩側部,係形成有屬於圓筒面之 邛分之前方角落曲面3、3。在後端部ld與右側部le之邊 界部及後端部id與左側部if之邊界部,亦即後端部ld之左 右兩側邠,亦形成有屬於圓筒面之一部分之後方角落曲面 4、4 〇 如圖12所示’在從表面la側觀看盒體u之俯視圖中,盒 體1之形狀係為經由前後延伸之中心線〇_〇而左右對稱之形 狀。 Φ 在盒體1之前方部分中,係形成有從右側部le與左側部Fig. 5 is a plan view showing the state in which the p card is attached to the card connector of the i-th embodiment, and the cover is removed. Fig. 6 is a plan view showing a state in which the second card package (four) is in the i-th embodiment and (4) a cover. The diagram is a perspective view showing a configuration of a restriction portion of the card connector according to the second embodiment of the present invention. Fig. 8 and Fig. 9 are plan views showing the state of the card connector in the (fourth) state in which the cover is removed and the operation is performed. Fig. 1 is a plan view showing the first card in a state in which the first card is placed in the second embodiment, and the cover is removed. A plan view showing the structure of the bottom of the casing body of the one-piece connector of the first embodiment of the card connector of the first embodiment and the second embodiment 137240.doc • 13-200945673. Fig. 13 is a plan view of the card, and Fig. 13 is a left side view of the first card. Fig. 14 is a plan view of the second card from the oblique lower side. A perspective view of the card. The circle 15 is a card = 1 = the card connector 20 of the embodiment is provided with a card of the first ', ', but the second card C2 cannot be installed. In the card connector 7 of the second embodiment, the second card C2 is installed as a regular card, but the card Cle cannot be mounted. The card Cle is the same size as the second card a box. The structure is slightly different. First, say the shape of the 1 card and the 2 card and their differences. Π (Shape of the first card) The first card C shown in Fig. 12 to Fig. 14 is used as a memory device such as a multimedia card. The i-th card has a case 1 made of plastic, and a memory chip or a memory controller function that functions as a flash memory or the like is housed in the case 1. L曰日月 As shown in Figure η, the box i has a surface la and a back surface lb. The surface g is a plane parallel to each other, and the interval between the surface la and the back surface lb is the thickness T of the first card C1. As shown in Fig. 14, 'the front side is front, and a plurality of (13) external connection electrodes 5 are exposed. The surface of the external connection electrode 5 is substantially flush with the back surface 1b of the casing 1. Here, the "surface" and the "back surface" are used to facilitate the surface for identifying the external connection electrode 5 and the surface of the surface without the external connection electrode 5, either of which is the surface la or either surface is the back surface lb. . 137240.doc -14- 200945673 As shown in Fig. 12 to Fig. 14, the casing has a front end portion lc and a rear end portion 1d. Furthermore, it has a right side portion 6 and a left side portion 丨f. As shown in Fig. 13, the front end portion 1 (: is a plane perpendicular to the surface u, and a front inclined surface 2 is formed at a corner portion of the surface 1a and the face 1b. The rear end portion id is tied to the surface 1 a and the back surface 1 b the vertical plane 6 the right side portion 1 e and the left side portion 1 f . are planes perpendicular to the surface 1 a and the back surface 。. As shown in FIG. 12 , at the boundary between the front end portion 1 e and the right side portion ie The boundary between the front end portion lc and the left side portion lf, that is, the left and right side portions of the end portion 1c, is formed by the front corner curved surfaces 3 and 3 which belong to the cylindrical surface. The rear end portion ld and the right side are formed. The boundary portion between the boundary portion and the rear end portion id of the portion and the left portion if, that is, the left and right sides of the rear end portion ld, are also formed with a corner surface 4, 4 which is a part of the cylindrical surface, as shown in FIG. In the plan view of the case u viewed from the side of the surface la, the shape of the case 1 is a shape that is bilaterally symmetrical via a center line 〇_〇 extending forward and backward. Φ is formed in the front part of the case 1 There are left and left parts from the right side
If朝向中心線〇-〇凹陷之前方凹部6、6。前方凹部6、6係 具有與右侧部1 e及左側部1 f平行且從右侧部丨e及左侧部J f 朝向中心線〇-〇位於内側相當於距離W1之内側面6a、6a; - 及與背面1b平行之内底面6c、6c。在右側之前方凹部6之 後端部與右側部le之間、及左側之前方凹部6之後端部與 左側部If之間,係各自形成有傾斜部6b、处。傾斜部6b、 6b係為隨著朝向後方從中心線〇_〇逐漸遠離之面,而傾斜 部6b、6b係為平面或具有曲率之曲面。 137240.doc 15· 200945673 如圖13所示’前方凹部6、6係從盒體2之表面u朝向背 面lb凹陷。從盒體】之表面la至前方凹部6之内底面心之距 離’亦即從前方凹部6、6之表面la朝向背㈣之深度尺寸 “ ’係為第!卡片C1之整體之厚度尺寸τ之大致1/2。此 外’前述前方凹部6、6從表面la凹陷所形成之結果,在較 其更背面側,係形成有屬於由背面lb與前述内底面6c、6c 所包夾之部分之薄壁部7、7。此帛壁部7、7之厚度尺寸 t2,亦為第1卡片C1之整體之厚度尺寸T之大致1/2。 i方凹°卩6、6係在前端部lc之左右兩側部開放於前方。 因此,如圖14所示,前端部之厚度尺寸,其中央之絕大 刀雖為T,惟在兩側部中,厚度尺寸係為^如圖12所 示,前方凹部6、6之前後之長度尺寸L1係為從盒體丨之前 知部1 c至傾斜部6b、6b之後端部之距離。 在盒體1之右側部16之左側部If中,係為在較前方凹部 6、6之後端部更後方空出相當於距離L2之位置形成有中間 凹部8、8。中間凹部8、8之前後方向之長度尺寸。係較前 述前方凹部6、6之前後方向之長度尺寸L1更短。 中間凹部8、8係具有較右側部1 e及左側部1 f更位於中心 線0-0側且與右側部丨e及左側部丨f平行之内側端8a、8a。 從右側之中間凹部8中之右側部le至内側端8&之寬度尺 寸’以及從左側之中間凹部8中之左側部if至前内端8b之 寬度尺寸W2,係與前述前方凹部6、6之寬度尺寸W1大致 相同。 中間凹部8、8係具有前内端8b與後内端8c,前内端8b與 137240.doc -16· 200945673 後内端8c之間之前後之間隔,係為中間凹部8、8之長度尺 寸L3。 如圖13與圖14所示’中間凹部8、8係具有内底端8d、 8d,而此内底端8d、8d係與背面lb平行。從表面la至内底 端8d、8.d之尺寸,係為中間凹部8、8之深度尺寸t3,而此 深度尺寸t3係較前述前方凹部6之深度尺寸tl更大。由於中 間凹部8、8之深度尺寸t3係較前方凹部6、6之深度尺寸tl ❹ 更大,因此如圖2所示,設於滑塊40之保持板彈簧49之掛 止部49a容易進入中間凹部8、8。 如圖12所示,在較盒體丨之後端部1(1稍微内側,係形成 有從表面la凹陷之捏凹部9。如圖1所示,若第i卡片€1裝 設於卡片連接器20,則具有前述捏凹部9之後端部份,即 從卡片連接器20突出。以將手指指甲掛在此捏凹部9等方 式’可將第1卡片C1從卡片連接器2〇拉出。 (第2卡片之形狀) © 如圖15所示,第2卡片C2係具有盒體U,在此盒體u 内收納有§己憶體晶片或其他;[c晶片等。 在第2卡片C2之盒體Μ右側部16之前方與左侧部此 前方所形成之前方凹部16、16,雖較^卡片〇之左右兩 - 侧部之前方凹部6、6更長,惟關於此以外之形狀,第咔 片C1與第2卡片€2在所有均為相同。亦即,第2卡片Q之 盒體U之厚度尺寸Τ與寬度尺寸w〇及縱方向之長度尺寸之 =,係與第i卡片C1之盒體!相同。在第2卡片。之盒體 斤形成之中間凹部8、8之形狀與此尺寸及位置,係與第 137240.doc •17· 200945673 1卡片C1之盒體1相同。除此之外,在圖15中,對於與第1 卡片C1之盒體丨相同之部分係賦予相同符號,且省略其詳 細之說明。 在圖15所示之第2卡片〇所形成之前述前方凹部16、 16,係在接近中心線〇-〇之位置具有内側面16a。内側面 16a之位置,亦即前方凹部16、16之寬度尺寸贾丨係與圖u 所不之盒體1之前方凹部6、6之寬度尺寸W1相同。此外從 盒體11之表面la至前方凹部16之内底面16c之尺寸,亦即 鈉方凹邛16、16之深度尺寸,係與圖13所示之盒體1之前 方凹部6、6之深度尺寸u相同。在第2卡片C2之盒體u 中,雖於較前方凹部6、ό更背面側設有薄壁部丨7、丨7,惟 此薄壁部17、17之寬度尺寸及厚度尺寸,亦與第i卡片C1 之薄壁部7、7相同。 然而’圖15所示之盒體1!之前方凹部丨6、丨6及薄壁部 17、17之長度尺寸L11,亦即,從前端部lc至位於前方凹 部16、16之後端之傾斜部1 6b之後端之距離l 11,係較圖1 2 所示之盒體1之前方凹部6、6及薄壁部7、7之長度尺寸L1 更長。第1卡片C1與第2卡片C2係僅藉由前方凹部6、6之 長度尺寸L1、與前方凹部16、16之長度尺寸L11之不同才 可彼此識別。 在第2卡片C2之盒體11所形成之中間凹部8、8之長度尺 寸L3 ’係與盒體1之中間凹部8、8之長度尺寸L3相同。此 外’圖15所示之長度尺寸L11 + L12係與圖12所示之長度尺 寸L1 + L2相同。換言之,從圖15所示之盒體n中之前端部 137240.doc -18- 200945673 ic:中間凹部8、8之前内端扑、8b之距離,係與圖u所示 之盒體1之前述距離相同。 /、 在第2卡片C2之盒體Π之背面lb所出現之外部連接電極 之數量及位置以及形狀,係與在圖14所示之第丨卡片ci之 盒體1之背面沁所出現之外部連接電極5完全相同。 . 第1卡片C1與第2卡片C2係其規格有所相異。規格之不 同係例如驅動電壓之不同,亦即應經由電源用之外部連接 φ 電極而供給至盒體1、11内之電路之電壓之相異。或者, 刖述規格之相異,係為收納在盒體1、11之内部之記憶體 晶片之記憶體容量之不同。 如圖12與圖15所示,第1卡片C1之盒體1與第2卡片C2之 盒體11,均為相對於中心線〇_〇呈左右對稱形狀,而整體 之平面形狀為長方形。因此,可有效地廣泛使用盒體i、 11之内部之空間’既為小型且薄型,又可集積内部之IC晶 片或其他電路而加以配置。 〇 而且’前方凹部6或前方凹部16與中間凹部8僅從盒體 1、11之表面1 a側凹陷,因此容易區別盒體之表背。此 外’由於前方凹部6或前方凹部16在左右兩側部1 e、1 f中 形成於前方之區域,因此盒體之前後亦易於區別。 • (第1實施形態之卡片連接器20之結構) 兹說明本發明之第1實施形態之卡片連接器20之結構。 如圖1所示’此卡片連接器20係具有框體21。框體21係 由合成樹脂製之框體本體22、及以金屬板所形成而被覆在 框體本體22之上方之蓋體23所構成。 137240.doc -19- 200945673 如圖2與圖4所示,框體本體22係為框體形狀。框體本體 22係為由前壁部24、後壁部25、右壁部26、左壁部27及底 壁部28—體形成。前壁部24之上面24a、後壁部25之上面 25a、右壁部26之上面26a以及左壁部27之上面27a係彼此 同一面。如圖1所示,蓋體23之天頂板23 a之下面,係以與 框體本體22之前述各壁部之上面24a、25a、26a、27a密接 之方式設置。在蓋體23中係設有後側板23b與右側板23c及 左側板23d,此等係從天頂板23a折彎成直角。後側板23b 係設置在框體本體22之後壁部25之外面,而右側板23c與 左側板23d係各自設置於框體本體22之右壁部26之外面與 左壁部27之外面。 框體2 1之厚度尺寸係以從框體本體22之底壁部28之下 面,至蓋體23之天頂板23a之上面之高度尺寸所決定。在 框體21之内部,係形成有屬於底壁部28之上面與天頂板 23a之下面之間之間隙之卡片之收納區域。此收納區域之 内側之高度尺寸,係由從框體本體22之底壁部28之上面, 至盍體23之天頂板23a之下面之高度尺寸所決定。收納區 域之内側之咼度尺寸’係與第1卡片C1以及第2卡片C2之 整體之厚度尺寸T大致相同,或為較厚度尺寸τ僅稱大之尺 寸。 如圖2及圖4所示’框體本體22之左壁部27之内面為導引 基準面27b,而第1卡片C1與第2卡片C2係其左侧部1 f一面 滑動於刖述導引基準面27b,一面朝向框體2丨之深處側 ((a))側)插入。在框體本體22之前壁部24,係形成有在前 137240.doc -20- 200945673 述導引基準面27b空出間隔而相對向之右導引面241)。 由左壁部27之内面之導引基準面27b、前壁部24之右導 引面24b、底壁部28之上面及天頂板23a之下面所包圍之部 分,係為卡片之插入口 29。此插入口 29之寬度尺寸,係與 . 第1卡片C1與第2卡片C2之寬度尺寸W0大致相同,或為僅 稍大之尺寸。 如圖2與圖4等所示,在框體本體22之内部之右側設有滑 ⑩ 塊40,而此滑塊4〇係沿著右壁部26之内面朝(aMb)方向滑 動自如地設置。(a)方向係為框體21内之深處側及卡片之插 入方向,(b)方向係為框體21之前方側及卡片之排出方向。 在框體本體22之後壁部25之内面與滑塊4〇之間,係介設有 壓縮線圈彈簧5 1作為賦能構件,藉由此壓縮線圈彈簧5 1之 彈性力而使滑塊40朝(b)方向賦能。 如圖3(A)所不,在滑塊4〇之左侧部係形成有導引面4 ^。 導引面41係在於前述前壁部24所形成之右導引面24b之深 ® 4側位於大致相同位置,而與在左壁部27所形成之導引基 準面27b平行。在框體21之内部,由導引基準面與導引 面41所包夹之空間係為卡片之收納區域。 在滑塊40之深處侧((勾側)之端部,係朝向收納區域内一 • 體設有朝⑷方向突出之止動部44。在較止動部44更前面側 ((b)側)’係-體形成有導引凸部45。導引凸部45係在較前 述V引面41更上方朝向收納區域内朝⑷方向突出,且以均 勻之厚度尺寸朝前後方向(⑷_(b)方向)延伸。在較前述止 動。p 44更月;|面側,係於下半部形成有具有與前述導引面μ 137240.doc •21- 200945673 形成連續之導引面之下部導引部41a,而於上半部突出有 前述導引凸部45。 導引凸部45之厚度尺寸ta係與圖13所示之第】卡片〇1之 則方凹部6之深度尺寸tlA致一致,且下部導引部仏之高 度尺寸,係與第1卡片C12薄壁部7之厚度尺寸U大致一 致。如圖4所*,若插入第i卡片C1,則其右前方之薄壁部 7即進入前述下部導引部41a之内部,且導引凸部45即進入 在第1卡片C1之右前方所形成之前方凹部6。 如圖3(A)所示,在滑塊4〇之上部,係形成有朝圖示左方 向開放之滑動凹部4〇a,而在此滑動凹部4〇a之内部,收納 有偵測構件46。偵測構件46係為合成樹脂製,且朝滑塊4〇 之移動方向之(a)-(b)方向正交之(c)_(d)方向滑動自如地設 置。朝向偵測構件46之收納區域之側係突出成三角形狀, 且具有朝向(a)側之第1傾斜面46a與朝向(b)側之第2傾斜面 46b ° 在滑動凹部40a内係設有賦能構件之扭矩壓縮彈簧47, 該賦能構件係將偵測構件46朝向收納區域賦能。在前述滑 動凹部40a内,係設有用以限制前述偵測構件私之突出量 之止動部,於外力未作用於偵測構件46時,從第i傾斜面 46a與第2傾斜面46b之邊界部之頂部46c之導引面41突出之 尺寸,係與從前述導引凸部45之導引面41突出之尺寸大致 相等。此外,在從導引面41突出之部分之偵測構件46之厚 度尺寸,係與前述導引凸部45之厚度尺寸^大致相等,且 偵測構件46之高度位置亦與導引凸部45大致相等。 137240.doc •22- 200945673 如圖3⑷所示’悄測構件46之上面偏,係與滑塊4〇之 上面大致同一面。在债測構件46係一體形成有從前述上面 朝上方突出之選擇凸部46^此選擇凸部4心係較滑塊 40之前述上面更朝上方突出。 . 前述偵測構件46之第1傾斜面46a與第2傾斜面46b係在與 _ ㈣凸部45之⑻側之端部鄰接之位置突出於收納區域内。、 如圖4所示,裝設有第!卡片⑽,於第1卡片^之前端部 〇 lc碰觸止動部44之前之時點,或碰觸之瞬前,第丨卡片C1 之右前方之前方凹部6係為於較偵測構件46更前方。因 此,偵測構件46係藉由較第!卡片C1之前方凹部6更後方之 右側部le而朝(d)方向推壓,而偵測構件46係壓入於滑塊4〇 之内部。 另一方面,如圖6所示,插入第2卡片C2,而其前端部u 與止動部44碰觸時,偵測構件46係進入第2卡片C2之右前 方之前方凹部16内,而偵測構件46係朝向收納區域朝⑷方 ❹ 向突出。 如圖1及圖3(B)所示,在前述蓋體23之天頂板23a,係開 口有在厚度方向貫通之孔部(或缺口部)55。孔部55係為(c) . 側之部分以較短之距離朝(a)-(b)延伸之限制移動部55a,而 (d)側之α卩分係為以較長之距離朝(a)_(b)方向延伸之插入移 動4 55b。在孔部55之邊緣部,係在限制移動部5 與插入 移動部55b之邊界部形成有段差部,而此段差部係成為限 制部56。 則述限制移動部55a之寬度尺寸b 1 ’係為可與在前述偵 137240.doc •23· 200945673 測構件46所形成之選擇凸部46e碰觸之大小。如圖3(a) (B)所示,於偵測構件46朝(c)方向突出時,若滑塊仂朝。) 方向移動’則偵測構件46之選擇凸部46e即與限制部%碰 觸’而限制朝滑塊40之(a)方向之更進一步之移動。亦即 滑塊40之移動範圍係限定為限制移動部55&之範圍。 前述插入移動部55b之寬度尺寸B2,係較前述選擇凸部 46e之寬度尺寸更大。如圖4所示,在偵測構件粍朝…)方向 壓入之狀態下,若滑塊40朝(a)方向移動,則選擇凸部4心 在插入移動部55b内可朝(a)方向移動較長。 ❾ 如圖3(A)所示,在滑塊40之前面側(〇3)側)之上面,係形 成有保持凹部40b,而在此保持凹部4〇b内,保持有保持板 彈簧49。此保持板彈簧49係具有折彎成山狀之掛止部 49a,而此掛止部49a係較導引面41更朝(c)方向突出。掛止 部49a之厚度尺寸係與前述導引凸部“之厚度尺寸匕大致相 同,而掛止部49a從導引面41突出之高度位置,係與導引 凸部45之突出位置大致一致。 如圖4所示,第1卡片C1之前端部ic與止動部44碰觸時, 〇 别述掛止部49a係與在第丨卡片c丨之右側部所形成之中間凹 部8嵌合。同樣地,如圖6所示,插入第2卡片。而使其前 端4 lc與止動部44碰觸時,前述掛止部49a亦與在第2卡片 C2之右側部所形成之中間凹部8嵌合。 - 在π塊40與框體21之間,係設有用以將滑塊在深處側 (⑷側)鎖疋之鎖定機構35。鎖定機構35係由在滑塊4〇之上 面所开ν成之溝凸輪(cam)42、及在框體2】所設之鎖定銷 137240.doc -24· 200945673 (pin)36所構成。 ❹ 鎖定鎖36係基端部363與前端部36b折彎成直角。如圖4 所示’鎖定銷36之基端部36a係轉動自如地支撐在保持凹 部24c内,該保持凹部24c係形成於框體本體22之前壁部以 之上部。鎖定銷36之前端部36b,係滑動自如地插入於溝 凸輪42内。如圖!所示,在以金屬板所形成之蓋體23之天 頂板23a,係於右前方側一體形成有鎖定板彈簧”。此鎖 定板彈簧37係為將天頂板23a之一部分切割所形成之懸臂 支撐彈簧。前述鎖定銷36係藉由此鎖定板彈簧37所推壓, 且前端部36b係推緊於溝凸輪42之溝底部。 如圖4所示,溝凸輪42係具有位於深處側勾側)之端部 之鎖定解除部42a、及位於較此鎖定解除部42&更前面側 ((b)側)之鎖定部42b。在鎖定解除部42&與鎖定部之 間’係於左側形成有往路溝42c,且於右側形成有返路溝 42d。在溝凸輪42之内部,係於鎖定解除部up往路溝 心、鎖定部42b、返路溝似之各部之邊界部形成有段 差,而鎖定銷36之前端部施係僅可以鎖定解除部主 路溝仏i定部42b—返路溝42d—鎖定解除部❻之順序 滑動’且無法沿循其相反之行程。 在圖4中,係滑塊40藉由壓縮線圈彈簧51之賦能 面側((b)側)移動,而抵靠於框體本體。之前壁部2心此 時’敎銷36之前端部36b係位於溝凸輪& =插若選擇凸―被圖糊示之限制二 入移動部55b内移動,而使滑塊4〇可移動到深處 137240.doc -25· 200945673 側((a)側)’則如圖5所示,鎖定銷刊之前端部即通過溝 凸輪42之往路溝42c内而到達鎖定部42b,而滑塊4〇係以不 會被送回前面側((b)側)之方式鎖定。 其後,若使滑塊40朝深處側((a)側)僅移動較短之距離, 則鎖定銷36之前端部36b即從溝凸輪42之鎖定部4以脫離, 而朝向返路溝42d導引,且滑塊4〇之鎖定被解除。因此, 滑塊40係恢復為圖4所示之初期位置於此期間,鎖定銷 36之确编部36b即從返路溝42d被送回鎖定解除部42a。 如圖1所示,在蓋體23之左側板23d,係一體形成有側壓 板彈簧58。如圖4所示,側壓板彈簧58係進入於框體以之 内部,且位於框體21之收納區域内之上方部分。 如圖4所示,若第i卡片C1以正常之姿勢插入,則前述側 壓板彈簧58即進入於第丨卡片C1之左側之前方凹部6内。由 於側壓板彈簧58在前方凹部6内且進入於薄壁部7之上,因 此可防止插入於框體2〗之内部之卡片之前部從底壁部以浮 起。如圖5所示,若滑塊40與第!卡片C1一同朝深處側((a) 側)壓入而鎖定,則側壓板彈簧5 8即彈壓第j卡片c丨之左側 部If,而使第1卡片C1朝(d)方向推壓。因此,藉由第1卡片 C1,滑塊40上之偵測構件46即成為朝(£〇方向確實推壓, 且易於防止設於偵測構件46之選擇凸部46e,不慎被限制 部56所限制等之誤動作。 在圖11係表示框體本體22之底壁部28之形狀。在底壁部 28係於深處側((a)側)設有連接端子61。連接端子6ι係以與 在圖14所示之第1卡片ci之背面1 b所露出之外部連接電極5 137240.doc •26· 200945673 相同數量且相同間距(pitch)排列。在底壁部28之前面側係 戎:有外部端子62。複數個連接端子61與複數個外部端子62 係各自以一對一導通。 如圖2所示’連接端子61係從底壁部28朝上方突出,若 第1卡片C1正常裝設到圖5所示之位置,則各個連接端子6 j 即與在第1卡片C1所設之外部連接電極5連接。此外,外部 端子62係焊接在供卡片連接器2〇安裝之電路基板等之電極 ❹If facing the center line 〇-〇 recessed front recesses 6, 6. The front recesses 6 and 6 have inner side faces 6a, 6a which are parallel to the right side portion 1e and the left side portion 1f and which are located from the right side portion 丨e and the left side portion Jf toward the center line 〇-〇 on the inner side corresponding to the distance W1. - and the inner bottom surfaces 6c, 6c parallel to the back surface 1b. An inclined portion 6b is formed between the rear end portion of the right front recessed portion 6 and the right side portion le, and between the rear end portion of the left front recess portion 6 and the left side portion If. The inclined portions 6b and 6b are surfaces that gradually move away from the center line 〇_〇 toward the rear, and the inclined portions 6b and 6b are flat surfaces or curved surfaces having curvature. 137240.doc 15· 200945673 As shown in Fig. 13, the front recesses 6, 6 are recessed from the surface u of the casing 2 toward the back surface lb. The distance from the surface la of the casing to the inner bottom of the front recess 6 is the depth dimension "from the surface la of the front recesses 6, 6 toward the back (4)" is the thickness dimension τ of the entire card C1. Further, 1/2. Further, as a result of the fact that the front recesses 6, 6 are recessed from the surface 1a, on the back side thereof, a thin portion which is surrounded by the back surface 1b and the inner bottom surfaces 6c, 6c is formed. The thicknesses t2 of the wall portions 7 and 7 are also approximately 1/2 of the thickness dimension T of the entire first card C1. The i-concave angles 卩6 and 6 are at the front end portion lc. The left and right sides are open to the front. Therefore, as shown in Fig. 14, the thickness of the front end portion is T in the center, but in both sides, the thickness is ^ as shown in Fig. 12, front The length dimension L1 of the recessed portions 6, 6 before and after is the distance from the front portion 1c of the casing 至 to the rear end portion of the inclined portions 6b, 6b. In the left side If of the right side portion 16 of the casing 1, it is The intermediate recesses 8 and 8 are formed at positions corresponding to the distance L2 from the rear end portions of the front recesses 6 and 6. The intermediate recesses 8 and 8 are formed. The length dimension of the direction is shorter than the length dimension L1 of the front and rear recesses 6, 6 in the front and rear directions. The intermediate recesses 8, 8 are located on the side of the center line 0-0 more than the right side portion 1e and the left side portion 1f. The inner side ends 8a, 8a of the right side portion 丨e and the left side portion 丨f are parallel. From the right side portion le of the right middle recess portion 8 to the width dimension ' of the inner end portion 8& and the left side portion if from the left side intermediate recess portion 8 to The width dimension W2 of the front inner end 8b is substantially the same as the width dimension W1 of the front recesses 6, 6. The intermediate recesses 8, 8 have a front inner end 8b and a rear inner end 8c, and the front inner end 8b and 137240.doc - 16· 200945673 The interval between the rear inner ends 8c is the length dimension L3 of the intermediate recesses 8, 8. As shown in Fig. 13 and Fig. 14, the intermediate recesses 8, 8 have inner bottom ends 8d, 8d, and The inner bottom ends 8d, 8d are parallel to the back surface lb. The dimensions from the surface la to the inner bottom ends 8d, 8.d are the depth dimension t3 of the intermediate recesses 8, 8 and the depth dimension t3 is larger than the front recesses. The depth dimension t1 of 6 is larger. Since the depth dimension t3 of the intermediate recesses 8, 8 is smaller than the depth of the front recesses 6, 6, T1 ❹ is larger, so as shown in Fig. 2, the hanging portion 49a of the retaining plate spring 49 provided on the slider 40 easily enters the intermediate recesses 8, 8. As shown in Fig. 12, at the end portion 1 after the casing is closed (1 slightly inside, a pinch concave portion 9 recessed from the surface 1a is formed. As shown in Fig. 1, if the i-th card is installed in the card connector 20, the rear end portion of the kneading portion 9 is The card connector 20 is protruded. The first card C1 can be pulled out from the card connector 2 by hooking the fingernail to the kneading portion 9. (The shape of the second card) © As shown in Fig. 15, the second The card C2 has a casing U in which a CMOS film or the like is accommodated in the casing u; [c wafer or the like. The front recesses 16 and 16 formed in front of the right side portion 16 of the second card C2 and the front side portion of the left side portion are longer than the left and right side recess portions 6, 6 of the card card. Regarding the shape other than this, the second sheet C1 and the second card €2 are the same in all. That is, the thickness dimension Τ and the width dimension w 〇 of the casing U of the second card Q and the length dimension of the longitudinal direction are the same as those of the casing of the i-th card C1. In the 2nd card. The shape and the size and position of the intermediate recesses 8, 8 formed by the box body are the same as those of the box body 1 of the 137240.doc • 17·200945673 1 card C1. In addition, in FIG. 15, the same reference numerals are given to the same portions as those of the first card C1, and the detailed description thereof will be omitted. The front recesses 16, 16 formed in the second card cartridge shown in Fig. 15 have an inner side surface 16a at a position close to the center line 〇-〇. The position of the inner side surface 16a, that is, the width dimension of the front recessed portions 16, 16 is the same as the width dimension W1 of the front recessed portions 6, 6 of the casing 1 which is not shown in Fig. Further, the dimension from the surface la of the casing 11 to the inner bottom surface 16c of the front recess 16, that is, the depth dimension of the sodium recesses 16, 16 is the depth of the recesses 6, 6 of the casing 1 shown in Fig. 13. The size u is the same. In the case u of the second card C2, the thin portions 丨7 and 丨7 are provided on the back side of the front recessed portion 6 and the yoke, but the width and thickness of the thin portions 17 and 17 are also The thin wall portions 7, 7 of the i-th card C1 are the same. However, the length dimension L11 of the front recessed portion 丨6, the cymbal 6 and the thin portions 17, 17 shown in Fig. 15 is the inclination from the front end portion lc to the rear end of the front recess portions 16, 16. The distance l 11 at the rear end of 1 6b is longer than the length dimension L1 of the front recessed portions 6, 6 and the thin-walled portions 7, 7 of the casing 1 shown in Fig. 12. The first card C1 and the second card C2 can be recognized by the difference between the length dimension L1 of the front recesses 6, 6 and the length dimension L11 of the front recesses 16, 16. The length L3' of the intermediate recesses 8, 8 formed in the casing 11 of the second card C2 is the same as the length L3 of the intermediate recesses 8, 8 of the casing 1. Further, the length dimension L11 + L12 shown in Fig. 15 is the same as the length dimension L1 + L2 shown in Fig. 12. In other words, from the front end 137240.doc -18- 200945673 ic of the casing n shown in Fig. 15, the distance between the inner end and the inner end of the intermediate recesses 8, 8 is the same as that of the casing 1 shown in Fig. The distance is the same. /, the number and position and shape of the external connection electrodes appearing on the back surface 1b of the cassette body of the second card C2 are external to the back surface of the case 1 of the second card ci shown in FIG. The connection electrodes 5 are identical. The first card C1 and the second card C2 differ in their specifications. The difference in specifications is, for example, the difference in driving voltage, that is, the voltage supplied to the circuits in the casings 1 and 11 via the external connection of the φ electrodes for power supply. Alternatively, the difference in the specifications is the difference in the memory capacity of the memory chips housed inside the casings 1 and 11. As shown in Fig. 12 and Fig. 15, the casing 1 of the first card C1 and the casing 11 of the second card C2 are both symmetrical with respect to the center line 〇_〇, and the overall planar shape is a rectangle. Therefore, the space inside the casings i and 11 can be effectively used widely. It is small and thin, and can be assembled by stacking internal IC wafers or other circuits. Further, the front recess 6 or the front recess 16 and the intermediate recess 8 are recessed only from the surface 1 a side of the casings 1 and 11, so that it is easy to distinguish the front and back of the casing. Further, since the front recessed portion 6 or the front recessed portion 16 is formed in the front region in the left and right side portions 1e, 1f, the casing is also easily distinguished from before and after. (Configuration of Card Connector 20 of First Embodiment) The structure of the card connector 20 according to the first embodiment of the present invention will be described. As shown in Fig. 1, the card connector 20 has a housing 21. The casing 21 is composed of a frame body 22 made of synthetic resin and a lid body 23 formed of a metal plate and covered on the frame body 22. 137240.doc -19- 200945673 As shown in Fig. 2 and Fig. 4, the frame body 22 is in the shape of a frame. The frame main body 22 is formed by the front wall portion 24, the rear wall portion 25, the right wall portion 26, the left wall portion 27, and the bottom wall portion 28. The upper surface 24a of the front wall portion 24, the upper surface 25a of the rear wall portion 25, the upper surface 26a of the right wall portion 26, and the upper surface 27a of the left wall portion 27 are flush with each other. As shown in Fig. 1, the lower surface of the zenith 23a of the lid body 23 is provided in close contact with the upper faces 24a, 25a, 26a, 27a of the respective wall portions of the frame body 22. The rear side plate 23b and the right side plate 23c and the left side plate 23d are provided in the lid body 23, and these are bent at right angles from the zenith plate 23a. The rear side plate 23b is provided on the outer surface of the wall portion 25 after the frame body 22, and the right side plate 23c and the left side plate 23d are respectively provided on the outer surface of the right wall portion 26 of the frame body 22 and the outer surface of the left wall portion 27. The thickness of the frame body 2 is determined by the height from the lower surface of the bottom wall portion 28 of the frame body 22 to the upper surface of the zenith 23a of the lid body 23. Inside the casing 21, a storage region of a card belonging to a gap between the upper surface of the bottom wall portion 28 and the lower surface of the zenith plate 23a is formed. The height dimension of the inner side of the storage area is determined from the upper surface of the bottom wall portion 28 of the frame body 22 to the height of the lower surface of the zenith 23a of the body 23. The thickness dimension "on the inner side of the storage area" is substantially the same as the thickness T of the entire first card C1 and the second card C2, or is a size larger than the thickness τ. As shown in Fig. 2 and Fig. 4, the inner surface of the left wall portion 27 of the casing main body 22 is the guide reference surface 27b, and the first card C1 and the second card C2 are slid on the left side portion 1f. The reference datum surface 27b is inserted toward the deep side ((a)) side of the casing 2丨. In front of the frame body 22, the wall portion 24 is formed with a gap between the guide reference surface 27b and the right guide surface 241) in the first 137240.doc -20-200945673. The portion surrounded by the guide reference surface 27b of the inner surface of the left wall portion 27, the right guide surface 24b of the front wall portion 24, the upper surface of the bottom wall portion 28, and the lower surface of the zenith plate 23a is a card insertion opening 29. The width dimension of the insertion opening 29 is substantially the same as the width dimension W0 of the first card C1 and the second card C2, or a slightly larger size. As shown in FIG. 2 and FIG. 4 and the like, a sliding block 40 is provided on the right side of the inside of the casing main body 22, and the slider 4 is slidably slidably along the inner surface of the right wall portion 26 toward the (aMb) direction. Settings. (a) The direction is the deep side in the casing 21 and the insertion direction of the card, and the direction (b) is the front side of the casing 21 and the discharge direction of the card. Between the inner surface of the wall portion 25 and the slider 4 behind the frame body 22, a compression coil spring 51 is interposed as an energizing member, whereby the elastic force of the coil spring 51 is compressed to cause the slider 40 to face (b) Directional empowerment. As shown in Fig. 3(A), a guide surface 4^ is formed on the left side portion of the slider 4''. The guide surface 41 is located at substantially the same position on the deep side 4 of the right guide surface 24b formed by the front wall portion 24, and is parallel to the guide reference surface 27b formed in the left wall portion 27. Inside the casing 21, the space enclosed by the guide reference surface and the guide surface 41 is a storage area of the card. At the end portion of the slider 40 (the side of the hook), a stopper portion 44 that protrudes in the direction of (4) is provided toward the storage region. The front side of the stopper portion 44 ((b) The guide body portion 45 is formed with a guide convex portion 45. The guide convex portion 45 protrudes toward the (4) direction toward the storage region from above the V-lead surface 41, and is oriented in the front-rear direction with a uniform thickness dimension ((4)_( b) direction) extension. In the case of the above-mentioned stop, p 44 is more moon; | face side, formed in the lower half is formed with a lower surface of the guide surface which is continuous with the aforementioned guide surface μ 137240.doc • 21- 200945673 The guiding portion 41a protrudes from the upper half of the guiding convex portion 45. The thickness dimension ta of the guiding convex portion 45 is related to the depth dimension tlA of the rectangular recessed portion 6 of the first card shown in FIG. The height dimension of the lower guide portion 大致 is substantially the same as the thickness U of the thin portion 7 of the first card C12. As shown in Fig. 4, if the i-th card C1 is inserted, the thin portion of the right front side is 7 enters the inside of the lower guiding portion 41a, and the guiding convex portion 45 enters the front concave portion 6 formed on the right front side of the first card C1. Fig. 3(A) As shown in the upper portion of the slider 4, a sliding recess 4a is opened in the left direction of the drawing, and a detecting member 46 is housed inside the sliding recess 4a. It is made of synthetic resin, and is slidably provided in the (c)-(d) direction orthogonal to the (a)-(b) direction of the moving direction of the slider 4〇. The side of the storage area facing the detecting member 46 is slidably disposed. a triangular compression shape, and having a first inclined surface 46a facing the (a) side and a second inclined surface 46b facing the (b) side; a torque compression spring 47 having an energizing member is disposed in the sliding recess 40a. The energy component is configured to energize the detecting member 46 toward the receiving area. In the sliding recess 40a, a stopping portion for limiting the protruding amount of the detecting member is provided, and when the external force does not act on the detecting member 46, The size protruding from the guide surface 41 of the top portion 46c of the boundary portion between the i-th inclined surface 46a and the second inclined surface 46b is substantially equal to the size protruding from the guide surface 41 of the guide convex portion 45. The thickness of the detecting member 46 protruding from the guiding surface 41 is thicker than the guiding convex portion 45 The heights ^ are substantially equal, and the height position of the detecting member 46 is also substantially equal to the guiding convex portion 45. 137240.doc • 22- 200945673 As shown in Fig. 3 (4), the upper side of the measuring member 46 is offset from the slider 4 The top surface of the crucible has substantially the same surface. The debt detecting member 46 is integrally formed with a selective convex portion 46 that protrudes upward from the upper surface. The convex portion 4 is selected to protrude upward from the upper surface of the slider 40. The first inclined surface 46a and the second inclined surface 46b of the measuring member 46 protrude in the housing region at a position adjacent to the end portion on the (8) side of the _ (four) convex portion 45. As shown in Figure 4, the first is installed! The card (10) is before the first card ^ before the end 〇 lc touches the stop portion 44, or before the touch, the front right recess 6 of the right front card C1 is more than the detecting member 46 In front. Therefore, the detecting member 46 is by the first! The right side portion le of the card recess C6 is pushed rearward in the direction of (d), and the detecting member 46 is pressed into the inside of the slider 4A. On the other hand, as shown in FIG. 6, when the second card C2 is inserted and the front end portion u is in contact with the stopper portion 44, the detecting member 46 enters the front concave portion 16 in the right front side of the second card C2, and The detecting member 46 protrudes toward the storage area toward the (4) direction. As shown in Fig. 1 and Fig. 3(B), the apex plate 23a of the lid body 23 has a hole portion (or a notch portion) 55 that penetrates in the thickness direction. The hole portion 55 is (c). The side portion is a shorter moving distance toward the (a)-(b) restricting moving portion 55a, and the (d) side is at a longer distance ( a) Insertion movement 4 55b extending in the direction of _(b). At the edge portion of the hole portion 55, a step portion is formed at a boundary portion between the restriction moving portion 5 and the insertion moving portion 55b, and this step portion is a restriction portion 56. The width dimension b 1 ' of the restriction moving portion 55a is sized to be in contact with the selection convex portion 46e formed by the detecting member 146240.doc • 23· 200945673. As shown in Fig. 3 (a) and (B), when the detecting member 46 protrudes in the (c) direction, the slider is turned toward the side. When the direction is moved, the selective convex portion 46e of the detecting member 46 is in contact with the restricting portion % to restrict further movement toward the (a) direction of the slider 40. That is, the range of movement of the slider 40 is limited to limit the range of the moving portion 55 & The width dimension B2 of the insertion moving portion 55b is larger than the width dimension of the selection convex portion 46e. As shown in FIG. 4, in a state where the detecting member is pressed in the direction of ...), if the slider 40 is moved in the (a) direction, the center of the selected convex portion 4 is inserted into the moving portion 55b toward the (a) direction. Move longer. As shown in Fig. 3(A), on the upper surface side (〇3) side of the slider 40, a holding recess 40b is formed, and in this holding recess 4b, a retaining plate spring 49 is held. The holding plate spring 49 has a hanging portion 49a bent in a mountain shape, and the hanging portion 49a protrudes more toward the (c) direction than the guiding surface 41. The thickness of the hanging portion 49a is substantially the same as the thickness 匕 of the guiding convex portion, and the height at which the hanging portion 49a protrudes from the guiding surface 41 substantially coincides with the protruding position of the guiding convex portion 45. As shown in Fig. 4, when the front end portion ic of the first card C1 comes into contact with the stopper portion 44, the hooking portion 49a is fitted to the intermediate recess portion 8 formed on the right side portion of the second card c. Similarly, as shown in Fig. 6, the second card is inserted, and when the distal end 4lc is in contact with the stopper 44, the hanging portion 49a is also formed with the intermediate recess 8 formed on the right side portion of the second card C2. Engagement - A locking mechanism 35 for locking the slider on the deep side ((4) side) is provided between the π block 40 and the frame 21. The locking mechanism 35 is provided above the slider 4 The cam 42 is opened and the locking pin 137240.doc -24·200945673 (pin) 36 provided in the frame 2 is formed. ❹ The locking lock 36 is folded at the base end portion 363 and the front end portion 36b. The base end portion 36a of the lock pin 36 is rotatably supported in the holding recess 24c, and the holding recess 24c is formed in the frame body 22 as shown in FIG. The front wall portion is at the upper portion, and the front end portion 36b of the lock pin 36 is slidably inserted into the groove cam 42. As shown in Fig., the zenith 23a of the cover 23 formed of a metal plate is attached to the right. A locking plate spring is integrally formed on the front side. This lock plate spring 37 is a cantilever support spring formed by cutting a part of the zenith plate 23a. The lock pin 36 is pressed by the lock plate spring 37, and the front end portion 36b is pushed against the bottom of the groove of the groove cam 42. As shown in Fig. 4, the groove cam 42 has a lock releasing portion 42a at the end portion of the deep side hook side, and a lock portion 42b located on the front side ((b) side) of the lock releasing portion 42 & A forward groove 42c is formed on the left side between the lock releasing portion 42& and the lock portion, and a return groove 42d is formed on the right side. In the inside of the groove cam 42, a step is formed in the boundary portion between the lock releasing portion up, the lock portion 42b, and the return groove, and the front end portion of the lock pin 36 can be locked only to the main portion of the release portion. The groove i fixed portion 42b - the return groove 42d - the lock releasing portion ❻ is sequentially slid 'and cannot follow the opposite stroke. In Fig. 4, the slider 40 is moved against the frame body by the energizing surface side ((b) side) of the compression coil spring 51. The front wall portion 2 is now moved to the groove cam & In the depth 137240.doc -25· 200945673 side ((a) side)', as shown in Fig. 5, the front end of the locking pin is passed through the inside of the groove 42c of the groove cam 42 to reach the locking portion 42b, and the slider 4 The tether is locked in such a way that it will not be returned to the front side ((b) side). Thereafter, when the slider 40 is moved to the deep side ((a) side) by only a short distance, the front end portion 36b of the lock pin 36 is disengaged from the lock portion 4 of the groove cam 42, and is directed toward the return groove. 42d is guided, and the lock of the slider 4〇 is released. Therefore, the slider 40 is returned to the initial position shown in Fig. 4, and the correcting portion 36b of the lock pin 36 is returned to the lock releasing portion 42a from the return groove 42d. As shown in Fig. 1, a side plate spring 58 is integrally formed on the left side plate 23d of the lid body 23. As shown in Fig. 4, the side plate spring 58 enters the frame and is located in the upper portion of the housing 21 in the storage area. As shown in Fig. 4, when the i-th card C1 is inserted in the normal posture, the side plate spring 58 enters the left concave portion 6 on the left side of the second card C1. Since the side plate spring 58 enters the thin portion 7 in the front recessed portion 6, it is possible to prevent the front portion of the card inserted into the frame 2 from floating from the bottom wall portion. As shown in Figure 5, if the slider 40 and the first! When the card C1 is pressed into the deep side ((a) side) and locked, the side plate spring 58 presses the left side If of the j-th card c, and presses the first card C1 in the (d) direction. Therefore, with the first card C1, the detecting member 46 on the slider 40 is urged toward the (curly direction), and the selective convex portion 46e provided on the detecting member 46 is easily prevented from being inadvertently restricted. Fig. 11 shows the shape of the bottom wall portion 28 of the frame body 22. The bottom wall portion 28 is provided on the deep side ((a) side) with a connection terminal 61. The connection terminal 6 is It is arranged in the same number and at the same pitch as the external connection electrodes 5 137240.doc • 26· 200945673 exposed on the back surface 1 b of the first card ci shown in Fig. 14. The front side of the bottom wall portion 28 is 戎: There are external terminals 62. The plurality of connection terminals 61 and the plurality of external terminals 62 are respectively turned on one to one. As shown in Fig. 2, the connection terminal 61 protrudes upward from the bottom wall portion 28, and if the first card C1 is normally mounted At the position shown in Fig. 5, each of the connection terminals 6j is connected to the external connection electrode 5 provided in the first card C1. Further, the external terminal 62 is soldered to a circuit board on which the card connector 2 is mounted. Electrode
部0 如圖11所示,在框體本體22之底壁部28之右側部分係設 有切換機構65。在此切換機構65中係於底壁部28之上面設 有朝(a)-(b)方向延伸之一對滑動電極66、67。搭載在前述 滑塊40而將前述偵測構件46賦能之扭矩壓縮彈簧ο之2個 腕部47a、47b,係各自發揮作為接點功能, 47b均係彈壓於底壁部2g之上面。 且腕部47a、 ί月塊40位於前面側((1))側)時 如圔4所示 4一均係從滑動電極66、67脫離。此時,滑動電極“ 與滑動電極67係為料通。滑塊侧⑷方向推麼而移動 時’-方之腕部47a係、與滑動電極66接觸而移動於此滑動 電極6 6之上。 福測構件46在滑域40中朝⑷方向突出時,不會有在滑塊 4〇朝⑷方向移動時,腕部47b移動於偏離滑動 侧部分’而使腕部47b與滑動電極67接觸之情形 左 滑動電極66與滑動電極67不導通。 匕時 件46朝(d)方向推壓右在偵測構 狀態下,滑塊40朝⑷方向移動,則 137240.doc -27- 200945673 腕部俱滑動於滑動電極67之上,且經由金屬製且導電性 之扭㈣縮彈簧47而使滑動電極66與滑動電極π導通。 在控制部中,藉由監視滑動電極66與滑動電極⑺之導通 狀態’即可識別滑塊40朝⑷方向移動時,债測構件Μ是否 朝(c)方向突出,或是否朝(d)方向壓入。 (對於第1實施形態之卡片連接器2〇之正常之裝設動作) 在第1實施形態之卡片連接器20未裝設任何時,滑塊4〇 , 係朝插入口 29側((b)側)移動。此外,如圖3⑷(B)所示,在 滑塊4〇上,藉由扭矩壓縮彈簧47之賦能力而使偵測構件μ 〇 朝⑷方向移動,且使第丨傾斜面偏與第2傾斜面働從滑塊 40之左側部之偵測面41朝收納區域突出。 因此’即使從插入口 29插入厚度尺寸較第1卡片〇薄之 卡片或寬度尺寸較紐之卡片、或卡片以外之異物,且因此 異物使與滑塊40-體之止動部44被減,亦如圖3(b)所 不,朝(c)方向移動之偵測構件46之選擇凸部,在朝 方向僅移動限制移動部55a所限定之移動範圍之時點,盘 限制部56碰觸。因此,不會有滑塊40朝(a)方向更進一步移 © 動之情形。 此外,當選擇凸部46e與限制部%碰觸時,設於滑塊 之溝凸輪42之鎖定部42b,不會到達掛止在鎖定銷36之前 端部36b之位置,而滑塊40不會被鎖定機構35鎖定。因 - 此,只要取出厚度尺寸較第1卡片C1薄之卡片或寬度尺寸 較短之卡片、或是卡片以外之異物,滑塊40即可藉由壓縮 線圈彈I 5 1之賦能力朝(b)方向移動而恢復為初期位置。 137240.doc -28- 200945673 另外,如圖3(A)所示’在偵測構件46中係、設有朝向⑻方 向之第i傾斜面46a、及朝向⑷方向之第2傾斜面杨。因 形狀相異之卡片或異物被插入或被拔出時,由於卡片 或異物與第i傾斜面46a或第2傾斜面働滑動,因此卡片或 異物不會卡在偵測構件46。 、如圖11所不,卡片未插人,而滑塊4G朝⑻側移動而位於 初期位置知,搭載於滑塊4〇之扭矩麼縮彈菁之腕部… 參 ❹ 與腕部47b均位於較設於底壁部28之滑動電極“與滑動電 才° 7更朝⑻侧’而滑動電極66與滑動電極π未導通。 如圖3⑻所示,滑塊4〇僅朝⑷方向猶微移動,而於選擇 凸部心與限制部56碰觸之時點,不會到達圖U所示之腕 部仏與滑動電極66接觸之位置’而不會有滑動電極66虚 滑動電極67導通之情形。因此,當較第!卡片C1薄之卡片、 或寬度尺寸較知之卡片、其他異物被插人而推壓止動部44 時’可防止從切換機構65出現與正常裝設第工卡片^時相 同之1貞測輸出。 作 圖4與圖5係表示第1卡片ci以正常之方向裝設時之動 矣如圖2及圖4所示,若第1卡片。其前端部lc朝向前方, 以朝向上之正常之姿勢從插人㈣插人,則形成在 乂 盒體1之右側之薄壁部7,即通過在圖3㈧所 …塊4〇之前面側所設之保持板彈簧49之掛止部49a之 下:,且進-步通過突出於收納區域之侦測構件私之下侧 V引凸部45之下側。前述保持板彈簧49之掛止部杨係 I37240.doc •29- 200945673 2於在第1卡片C1之右側之前方凹部6之後端所形成之傾 斜袖而朝⑷方向變形。再者掛止部伙係滑動於第i卡片 C1之右側部16 ’ 1於第!卡片C1之前端部卜與止動部料碰 觸之時點’掛止部49a與第!卡片C1之中間凹部8丧合,而 使第1卡片C1與滑塊40暫時止動。 再者’在第1卡片C1之前端部1c與滑塊40之止動部44碰 瞬則偵測構件46之第1傾斜面46a係滑動於第i卡片 C1之前方凹部6之後方之傾斜部❿,且如圖4所示在前端 部㈣止動部44碰觸之時點,第i卡片C1之右側部16將债 測,件46_)方向推壓,且前述偵測構件46係與扭矩壓縮 彈簧4<7抵抗而被壓入於滑塊4〇内。 如圖4所不,藉由掛止部49a,在第ι卡片ο暫時止動於 滑塊40之狀態下,若第丨卡片C1壓入於框體21之内部,則 藉由第1卡片C1之前端部1c推壓止動部44,而使滑塊40朝 (a)方向移動。此時,由於偵測構件牝朝“)方向壓入因 此設於偵測構件46之選擇凸部46e係在圖3(B)所示之孔部 55之插入移動部55b側移動。因此,滑塊4〇朝(a)方向移動 時,選擇凸部46e不會碰觸限制部56,而朝(a)方向移動於 插入移動部55b内。 因此,如圖5所示,第1卡片C1與滑塊4〇係被移動至框體 21之深處方向,且在滑塊4〇所形成之溝凸輪42之鎖定部 42b卡止在鎖定銷36之前端部361?,而滑塊4〇在其位置鎖 定。 此時’如圖11所示,在框體本體Μ之深處側所設之連接 137240.doc -30- 200945673 =:61之各個,如圖14所示,係各自彈㈣第】卡片C1 之#面11>所露出之外部連接電極5來連接。 若弟1卡片C1以正常之姿勢 安勢插入,則圖11所示之偵測構 朝⑷^向㈣’因此’扭㈣縮彈簧47之腕部47b 移動日士向°由此’滑塊40與第1卡片C1 一同朝⑷方向 動I扭矩I缩彈菁47之一方之腕部47a與框體21之底 參 2滑動電極66接觸而滑動,並且另一方之腕部杨亦與 =电極67接觸而滑動。因此,藉由扭矩I缩彈菁47而使 =動電極66與滑動電極67導通,且在控制部係辨 片C1已正常裝填。 /吏第1卡片C1從卡片連接器峨離時,如圖5所示,從正 又之狀心將第1卡片C1朝深處側(⑷側)推壓。若滑塊 Γ與第1卡片C1一同朝深處側僅移動猶許,則鎖定鎖36之 :端部36b即從溝凸輪42之鎖定部仙偏離,且滑塊4〇以賦 -構件之力朝前方側((b)側)被送回。因此,如圖2所示, 滑塊4〇恢復為初期位置,且第1卡片以之㈣㈣❹入 口 29突出。 (對於第1實施形態之卡片連接器2〇之異常之裝設動作) 如圖12乃至圖14所示,第1卡片cn與第2卡片C2係其整 體之形狀及尺寸大致相同H於第i卡片與第2卡片 C2之驅動電壓相異之情形下等,有需要分別使用第1卡片 =之專用之卡片連接器20與第2卡片C2之專用之卡片連接 Γ。之凊形Jt情形下,需以不同之卡片不裝設於卡片連 接器之方式阻止。 137240.doc -31 - 200945673 第1實施形態之卡片連接器20係如前述僅第1卡片q作為 專用裝設者,且具有阻止第2卡片C2裝設之功能。 圖6係表示圖15所示之第2卡片C2插入於第丨實施形態之 .卡片連接器20時之動作。在圖6中,係第2卡片。將其前端 部lc朝向框體21之深處側,且表面u以朝上之姿勢插入: 此時,在第2卡片C2之右前方所設之薄壁部17,係可進如 圖3(A)所示之導引凸部45之下,且第2卡片口之前端部^ 與止動部44碰觸,而掛止部49a與中間凹部8嵌合,而第2 卡片C2會暫時止動於滑塊40。 然而,第2卡片C2係從前方凹部16之前端部卜之長度尺 寸L11較第I卡片C1更長,因此在前端部卜與止動部料碰觸 之時點,偵測構件46係為突出於前方凹部丨6内之狀態。 因此,若從圖6之狀態將第2卡片C2壓入於框體21之深處 側,而使滑塊40移動,則如圖3(B)所示,在偵測構件扑所 設之選擇凸部46e係移動於孔部55之限制移動部55&内,且 選擇凸部46e與限制部56碰觸,可阻止滑塊及第2卡片C2 更進一步朝深處側插入。 在選擇凸部46e與限制部56碰觸之時點,滑塊4〇並未在 鎖定機構35被鎖定’因此若解除對於第2卡片C2之推壓 力,則藉由壓縮線圈彈簧51之賦能力,而使第2卡片以及 滑塊40被送回插入口 29。 因此’使用者在錯誤裝設第2卡片C2而非第1卡片C1之 情形下’無法將該第2卡片C2推入至框體21之深處,而從 插入口突出’因此可容易辨識已誤差入了第2卡片。 137240.doc -32- 200945673 此外,對於前述卡錢接㈣,表f反向或前後反向插 入第1卡片C1時,係插入側之前部之側方部分與滑塊⑽之 導引凸部45碰觸,而無法將第丨卡片C1插入至與止動部44 碰觸之位置,因此使用者可容易理解錯誤之插入。 (第2實施形態之卡片連接器70之結構) . 圖7係表示第2實施形態之卡片連接器7〇之一部分。 第2實施形態之卡片連接器7〇係在蓋體^之天頂板2“ ❹ 中在'月塊40之上開口之孔部(或缺口部)155之形狀與圖 ()所示之第1貫施形態之卡片連接器2〇之孔部Μ之形狀 相異。然而,在孔部155之結構以外,第2實施形態之卡片 連接器70之各部之結構,係與第旧施形態之卡片連接器 之各部之結構完全相同。因此,在圖7乃至圖1〇所承之 第2實施形態之卡片連接器7时,對於孔部155以外之構成 要素係賦予與第i實施形態之卡片連接器2〇之說明所使用 者相同之符號,且省略其詳細之說明。 ϋ 如圖7所不,在天頂板23a所形成之孔部1之形狀,係 f圖3⑻所示之孔部55左右對稱。寬度尺寸Ba之限制移動 部155a’係形成於⑷側’而寬度尺寸Bb之插入移動部 1 55b係形成於⑷側亦即收納區域側。在限制移動部工%與 插入移動部155b之邊界部係設有限制部156。 阳制移動部155a之(a)-(b)方向之長度,係與圖3(B)所示 之限制移動部55a之長度相同,而插入移動部155b之長 度,亦與圖3(B)所示之插入移動部55b之長度相同。 在第2實施形態之卡片連接器7〇中,如圖8所示,係於伯 137240.doc -33· 200945673 測構件46從滑塊40朝(c)方向突出時,在偵測構件46所設之 選擇凸部46e係可移動於孔部155之插入移動部15%内。因 此,滑塊40移動至框體21之深處且由鎖定機構35所鎖定。 如圖10所示,若偵測構件46壓入於滑塊4〇内,則在偵測 構件46所設之選擇凸部46e即移動於孔部丨55之限制移動部 155a内。因此,若滑塊4〇稍朝(。方向移動,則選擇凸部 46e即與限制部156碰觸,而滑塊4〇無法移動至可由鎖定機 構35鎖定之位置。 (對於第2貫施形態之卡片連接器7〇之正常之裝設動作) 第2實施形態之卡片連接器7〇係為第2卡片〇之裝設專 用,具有阻止第1卡片(^之裝設之功能。 如圖8所不,右第2卡片C2係以前端部卜朝向前方而表面 la朝向上之正常之姿勢插入,則右側之薄壁部口即移動於 掛止部49a之下側,且進一步進入於偵測構件46與導引凸 部45之下侧之下部導引部仏内。若第2卡片c2之前端㈣ 碰觸與㈣體之幼料,_持板彈㈣之掛止 部49a即與第2卡片C2之中間凹部8嵌合。 然而,如圖8所示,由於第2卡片C2係較前方凹部16之長 度尺寸L11大,因此前端部u與止動部料碰觸時,偵測構Portion 0 As shown in Fig. 11, a switching mechanism 65 is provided on the right side portion of the bottom wall portion 28 of the casing main body 22. In the switching mechanism 65, a pair of sliding electrodes 66, 67 extending in the direction of (a) - (b) are provided on the upper surface of the bottom wall portion 28. The two arm portions 47a and 47b of the torque compression spring ο that is mounted on the slider 40 and that activates the detecting member 46 function as a contact function, and each of the 47b is biased on the upper surface of the bottom wall portion 2g. When the wrist portion 47a and the slab portion 40 are located on the front side ((1)) side, the detachment is performed from the sliding electrodes 66 and 67 as shown by 圔4. At this time, the sliding electrode "is in contact with the sliding electrode 67. When the slider side (4) is pushed and moved, the wrist portion 47a is moved in contact with the sliding electrode 66 to move over the sliding electrode 66. When the buckling member 46 protrudes in the (4) direction in the sliding domain 40, the wrist portion 47b does not move away from the sliding side portion' when the slider 4 is moved in the (4) direction, and the wrist portion 47b is in contact with the sliding electrode 67. In this case, the left sliding electrode 66 and the sliding electrode 67 are not conductive. When the pressing member 46 is pushed in the (d) direction, the slider 40 is moved in the (4) direction, and the 137240.doc -27- 200945673 The sliding electrode 66 is electrically connected to the sliding electrode π via a metal-made conductive twisting spring 47. In the control portion, the conduction state of the sliding electrode 66 and the sliding electrode (7) is monitored. 'When the slider 40 is moved in the (4) direction, the debt detecting member 突出 protrudes in the (c) direction or is pressed in the (d) direction. (The card connector 2 of the first embodiment is normal. Installation operation) The card connector 20 of the first embodiment is not installed At any time, the slider 4 is moved toward the insertion port 29 side ((b) side). Further, as shown in Fig. 3 (4) (B), on the slider 4, by the ability of the torque compression spring 47 The detecting member μ is moved in the (4) direction, and the second inclined surface and the second inclined surface are protruded from the detecting surface 41 of the left side portion of the slider 40 toward the receiving region. Therefore, even if the thickness is inserted from the insertion opening 29 A card having a smaller size than the first card or a card having a larger width or a foreign matter other than the card, and thus the foreign matter is reduced by the stopper 44 of the slider 40-body, as shown in FIG. 3(b). The selective convex portion of the detecting member 46 that moves in the direction of (c) touches the disk restricting portion 56 at the time when only the moving range defined by the restricting moving portion 55a is moved in the direction. Therefore, the slider 40 does not face (a) The direction is further moved. Further, when the selection convex portion 46e is in contact with the restriction portion %, the locking portion 42b provided in the groove cam 42 of the slider does not reach the hook pin 36 The position of the front end portion 36b, and the slider 40 is not locked by the locking mechanism 35. Therefore, as long as the thickness is taken out 1 card C1 thin card or card with a short width or a foreign object other than the card, the slider 40 can be restored to the initial position by the ability of the compression coil project I 5 1 to move in the (b) direction. .doc -28- 200945673 Further, as shown in Fig. 3(A), the detection member 46 is provided with an i-th inclined surface 46a oriented in the (8) direction and a second inclined surface facing in the (4) direction. When a card or a foreign object is inserted or pulled out, since the card or foreign matter slides with the i-th inclined surface 46a or the second inclined surface, the card or foreign matter does not get caught in the detecting member 46. As shown in Fig. 11, the card is not inserted, and the slider 4G is moved toward the (8) side and is located at the initial position. The torque of the slider 4 is mounted on the wrist of the slider 4 ... ❹ ❹ and the wrist 47b are located. The sliding electrode provided on the bottom wall portion 28 is "more toward the (8) side than the sliding electrode 7) and the sliding electrode 66 and the sliding electrode π are not turned on. As shown in Fig. 3 (8), the slider 4 犹 moves only toward the (4) direction. On the other hand, when the convex portion and the restricting portion 56 are touched, the position where the wrist portion 接触 and the sliding electrode 66 are in contact with each other is not reached, and the sliding electrode 66 is not turned on. Therefore, when a card thinner than the first card C1, or a card having a wider width, and other foreign matter are inserted and pushed against the stopper 44, it is prevented from appearing from the switching mechanism 65 as when the card is normally installed. Fig. 4 and Fig. 5 show the movement of the first card ci when it is mounted in the normal direction. As shown in Fig. 2 and Fig. 4, the first card has its front end portion lc facing forward. The normal posture toward the upper side is inserted from the insertion (four), and the thin wall portion 7 on the right side of the cassette body 1 is formed. 3(b) is below the hanging portion 49a of the holding plate spring 49 provided on the front side of the block 4, and furtherly passes through the private lower side V of the detecting member protruding from the receiving portion. The lower side of the hanging plate spring 49 is slanted by the inclined sleeve formed at the rear end of the recessed portion 6 on the right side of the first card C1, and is then deformed in the direction of (4). The stop portion slides on the right side portion 16' 1 of the i-th card C1 at the end of the first card C1, and the end portion of the card C1 is in contact with the stop portion 49a and the intermediate recess portion 8 of the card card C1 The first card C1 and the slider 40 are temporarily stopped. Further, before the first card C1, the end portion 1c and the stopper portion 44 of the slider 40 touch the first inclined surface 46a of the detecting member 46. Sliding on the inclined portion 之后 behind the recessed portion 6 of the i-th card C1, and as shown in FIG. 4, when the front end portion (four) of the stopper portion 44 is touched, the right portion 16 of the i-th card C1 will be tested, and the piece 46_ The direction is pressed, and the detecting member 46 is pressed into the slider 4〇 against the torque compression spring 4<7. As shown in Fig. 4, by the hanging portion 49a When the first card C1 is pressed into the inside of the casing 21 while the first card C1 is temporarily stopped by the slider 40, the stopper portion 44 is pressed by the front end portion 1c of the first card C1. The slider 40 is moved in the direction of (a). At this time, since the detecting member is pressed in the ") direction, the selection convex portion 46e provided on the detecting member 46 is attached to the hole portion 55 shown in Fig. 3(B). The insertion moving portion 55b moves. Therefore, when the slider 4 is moved in the (a) direction, the selection convex portion 46e does not touch the restriction portion 56, but moves in the insertion movement portion 55b in the (a) direction. Therefore, as shown in FIG. 5, the first card C1 and the slider 4 are moved to the depth direction of the frame 21, and the locking portion 42b of the groove cam 42 formed in the slider 4 is locked to the locking pin. 36 is before the end 361?, and the slider 4 is locked in its position. At this time, as shown in FIG. 11, each of the connections 137240.doc -30- 200945673 =:61 provided on the deep side of the frame body ,, as shown in FIG. 14, is a respective one (four) 】 card C1 #面11> The exposed external connection electrodes 5 are connected. If the brother 1 card C1 is inserted in a normal posture, the detection mechanism shown in Fig. 11 is directed to (4) to (4) 'thus' the wrist portion 47b of the (four) contraction spring 47 is moved to the sun by the 'slider 40 Together with the first card C1, the arm portion 47a of one of the torque I in the direction of (4) moves in contact with the sliding electrode 66 of the bottom member 2 of the casing 21, and the wrist of the other side is also the electrode 67 contact and slide. Therefore, the =electromagnet 66 and the sliding electrode 67 are electrically connected by the torque I, and the disc C1 is normally loaded in the control unit. When the first card C1 is separated from the card connector, as shown in Fig. 5, the first card C1 is pressed toward the deep side ((4) side) from the positive center. If the slider 仅 moves only toward the deep side with the first card C1, the lock 36 is locked: the end portion 36b is deviated from the locking portion of the groove cam 42, and the slider 4 is biased by the member. It is sent back to the front side ((b) side). Therefore, as shown in Fig. 2, the slider 4 is restored to the initial position, and the first card is protruded by the (four) (four) intrusion port 29. (Installation operation of the abnormality of the card connector 2A of the first embodiment) As shown in Fig. 12 to Fig. 14, the shape and size of the first card cn and the second card C2 are substantially the same as H. In the case where the card and the driving voltage of the second card C2 are different, it is necessary to use a dedicated card connector 20 for the card connector 20 and the second card C2 for the first card = respectively. In the case of a Jt, it is necessary to prevent different cards from being installed in the card connector. 137240.doc -31 - 200945673 The card connector 20 of the first embodiment has only the first card q as a dedicated installer and has a function of preventing the second card C2 from being installed. Fig. 6 is a view showing an operation when the second card C2 shown in Fig. 15 is inserted into the card connector 20 of the second embodiment. In Fig. 6, the second card is attached. The front end portion lc is directed toward the deep side of the casing 21, and the surface u is inserted in an upward posture: at this time, the thin portion 17 provided on the right front side of the second card C2 can be advanced as shown in Fig. 3 ( A) below the guiding convex portion 45, and the front end portion of the second card opening is in contact with the stopper portion 44, and the hanging portion 49a is fitted into the intermediate recess portion 8, and the second card C2 is temporarily stopped. Move to the slider 40. However, the second card C2 has a longer length L11 from the front end portion of the front recessed portion 16 than the first card C1, so that the detecting member 46 is protruded at the point where the front end portion and the stopper portion are in contact with each other. The state of the front recess 丨6. Therefore, when the second card C2 is pressed into the deep side of the casing 21 from the state of FIG. 6, and the slider 40 is moved, as shown in FIG. 3(B), the selection of the detecting member is set. The convex portion 46e is moved in the restriction moving portion 55& of the hole portion 55, and the selection convex portion 46e is in contact with the regulating portion 56, and the slider and the second card C2 are prevented from being further inserted into the deep side. When the selection convex portion 46e and the restriction portion 56 are in contact with each other, the slider 4A is not locked by the lock mechanism 35. Therefore, by releasing the pressing force against the second card C2, by the ability of the compression coil spring 51, The second card and the slider 40 are returned to the insertion port 29. Therefore, 'when the user erroneously installs the second card C2 instead of the first card C1, 'the second card C2 cannot be pushed into the depth of the frame 21 and protrudes from the insertion port' so that it can be easily recognized. The error entered the second card. 137240.doc -32- 200945673 Further, in the case of the aforementioned card money connection (four), when the table f is reversely inserted or reversely inserted into the first card C1, the side portion of the front portion of the insertion side and the guide protrusion portion 45 of the slider (10) are attached. When the touch is made, the second card C1 cannot be inserted into the position where it touches the stopper 44, so that the user can easily understand the insertion of the error. (Configuration of Card Connector 70 of Second Embodiment) Fig. 7 is a view showing a part of the card connector 7 of the second embodiment. The card connector 7 of the second embodiment is a shape of a hole portion (or a notch portion) 155 which is opened on the moon block 40 in the zenith 2 of the lid body 2, and the first shape shown in the figure (). The shape of the hole portion 卡片 of the card connector 2 of the embodiment is different. However, in addition to the structure of the hole portion 155, the structure of each portion of the card connector 70 of the second embodiment is the same as that of the first embodiment. The structure of each part of the connector is completely the same. Therefore, in the card connector 7 of the second embodiment according to Fig. 7 to Fig. 1 , the card element of the i-th embodiment is connected to the components other than the hole 155. The description of the device 2 is the same as that of the user, and the detailed description thereof is omitted. ϋ As shown in Fig. 7, the shape of the hole portion 1 formed in the zenith plate 23a is the hole portion 55 shown in Fig. 3 (8). The symmetry dimension Ba is limited to the movement portion 155a' formed on the (4) side ', and the insertion movement portion 1 55b of the width dimension Bb is formed on the (4) side, that is, on the storage region side. The restriction movement portion % and the insertion movement portion 155b are formed. The boundary portion is provided with a restriction portion 156. (a)-(b) of the male movement portion 155a The length of the direction is the same as the length of the restricting movement portion 55a shown in Fig. 3(B), and the length of the insertion moving portion 155b is also the same as the length of the insertion moving portion 55b shown in Fig. 3(B). In the card connector 7 of the embodiment, as shown in FIG. 8, when the detecting member 46 protrudes from the slider 40 in the (c) direction, the detecting member 46 is provided in the 137240.doc -33·200945673 The selection convex portion 46e is movable within 15% of the insertion moving portion of the hole portion 155. Therefore, the slider 40 is moved to the depth of the frame body 21 and locked by the locking mechanism 35. As shown in Fig. 10, if the detecting member is When the 46 is pressed into the slider 4, the selective convex portion 46e provided in the detecting member 46 moves into the restricting moving portion 155a of the hole portion 55. Therefore, if the slider 4 is slightly moved toward the direction Then, the convex portion 46e is selected to be in contact with the regulating portion 156, and the slider 4A cannot be moved to a position that can be locked by the locking mechanism 35. (For the normal installation operation of the card connector 7 of the second embodiment) The card connector 7 of the second embodiment is dedicated to the installation of the second card magazine, and has the function of preventing the first card (the installation of the first card) As shown in Fig. 8, the right second card C2 is inserted in a normal posture in which the front end portion faces forward and the surface la faces upward, and the thin-walled portion on the right side moves to the lower side of the hanging portion 49a, and further The detection member 46 enters the lower portion of the guiding portion 46 and the lower portion of the guiding convex portion 45. If the front end (4) of the second card c2 touches the young material of the (4) body, the hanging portion 49a of the plate bomb (4) That is, the intermediate recessed portion 8 of the second card C2 is fitted. However, as shown in FIG. 8, the second card C2 is larger than the length L11 of the front recessed portion 16, so that the front end portion u and the stopper portion are in contact with each other. Detection structure
件4 6係突出於前方β〗a m m L 月J乃凹416内。因此,如圖7所示,在偵測 構件46所設之選擇凸部46e係位W孔部155之插入移動部 b内而/月塊40與第2卡片C2一同推壓時,選擇凸部❿ 係移動於插入移動部1 $ & p » 夕勒邛155b内,且如圖9所示,滑塊4〇移 至由鎖定機構35所鎖定之位置。 137240.doc 200945673 滑塊40被鎖定時,在框體本體22之底壁部28所設之連接 端子61係與在第2卡片C2之背面所設之外埠連接電極連 接。 (對於第2實施形態之卡片連接器7〇之異常之裝設動作) 圖10係表示第1卡片C1插入於第2實施形態之卡片連接器 70之狀態。 ° ❹ ❹ 右第1卡片C1以前端部1(;朝向前方而表面1&朝向上之正 常之狀態裝設,則於前端部lc與滑塊40之止動部44碰觸之 時點,藉由第1卡片ci之右側部1e而使谓測構件46朝⑷方 向推麼。因此,在偵測構件46所設之選擇凸部4心係在孔 4 155之限制移動部155a内移動。因此,滑塊與第1卡片 ci一同朝⑷方向壓人時,選擇凸部46e係與限制部156碰 觸,而無法將滑塊40插入至由鎖定機構35所鎖定之位置。 因此’在應裝設第2卡片C2之卡片連接器7〇,誤插入第^ 卡片Cl時,將易於理解該誤插入。 。另外第2卡片C2以表背反向或前後反向裝設於卡片連 接Θ 70時’亦藉由卡片之側部而使制構件仏朝⑷方向壓 可阻切⑽插人至⑷方向之深處由敎機構^ 所鎖疋。 在第2實施形態之卡片連接器7〇中,係搭載有圖u所干 之切換機構65。缺而,/ > 科錢U所不 66盥冰動啻托 纟第2實施形態中,係以滑動電極 為較:。β 67較第1實施形態更稍微朝⑻方向延伸較長 此清形下,滑塊40朝⑻方向移動而位於初期位置時, 137240.doc -35- 200945673 扭矩壓縮彈簧47之腕部47a與腕部47b均位於較滑動電極66 及滑動電極67更(b)側,而滑動電極66與滑動電極67係為非 導通狀態。 如圖8與圖9所示,於第2卡片〇正常裝設時’係於滑塊 40朝(a)方向移動時,扭矩壓縮彈簧47之一方之腕部雖 滑動於滑動電極66上,惟另一方之腕部47b不會與滑動電 極67碰觸而移動於其左侧。因此,第2卡片〇正常裝設 時,滑動電極66與滑動電極67係為非導通狀態。 。另一方面,如圖10所示,若第1卡片C1插入於卡片連接 器7〇,或第2卡片C2以表背反向或前後反向之姿勢插入, 則偵測構件46即朝(d)方向推壓,且選擇凸部46e舆限制部 观觸’而限制滑塊40之⑷方向之移動。此情形下,若滑 塊40移動至選擇凸部46e與料彳料碰觸之位置,則腕= W與滑動電極66接觸,且腕部47b與滑動電極π接觸。如 此,僅在卡片連接器7〇即誤動作而限制滑塊之移動時, 月動電極66與滑動電極67才經由扭矩壓縮彈簧π導通。 控制部中,於滑動電極66與 電極7導通時,可辨識已 邱 插人動作,例如可進行停止連接端子61對於電壓 邛之通電等之對應。 & 【圖式簡單說明】 圖1係為表示本發明之第丨眘 體 〇 ❹ 圖; 之第1實施㈣之卡片連接器之立 圖2係為將第1卡片插入於第2 壯能·、 I心之卡片連接之 以卸除蓋體而表示之立體圖; 〇 137240.doc -36 - 200945673 圖3係為表示第i實施形態之連接器之—部分,㈧ 滑塊之立體圖,⑻係為滑塊與限制部之關係、之立體圖.” 狀Sit將第1卡片插入於第1實施形態之卡片連接器之 予1卸除蓋體而表示之俯視圖; 使=广將第1卡片插入於第1實施形態之卡片連接器而 月塊被鎖定之狀態予以卸除蓋體而表示之俯視圖; ❹The piece 4 6 protrudes from the front β a a m m L month J is concave 416. Therefore, as shown in FIG. 7, when the selective convex portion 46e provided in the detecting member 46 is positioned in the insertion moving portion b of the hole portion 155, and the month block 40 is pressed together with the second card C2, the convex portion is selected. The cymbal moves into the insertion moving portion 1 $ & p » 邛 邛 155b, and as shown in Fig. 9, the slider 4 is moved to the position locked by the locking mechanism 35. 137240.doc 200945673 When the slider 40 is locked, the connection terminal 61 provided in the bottom wall portion 28 of the casing main body 22 is connected to the 埠 connection electrode provided on the back surface of the second card C2. (Installation operation of the abnormality of the card connector 7A of the second embodiment) Fig. 10 shows a state in which the first card C1 is inserted into the card connector 70 of the second embodiment. ° ❹ ❹ The right first card C1 is mounted with the front end portion 1 (the front side and the front surface 1 & facing normal), when the front end portion lc is in contact with the stopper portion 44 of the slider 40, The right side portion 1e of the first card ci causes the pre-measuring member 46 to be pushed in the (4) direction. Therefore, the selective convex portion 4 provided in the detecting member 46 is moved in the restricted moving portion 155a of the hole 4 155. Therefore, When the slider is pressed in the (4) direction together with the first card ci, the selection convex portion 46e is in contact with the restriction portion 156, and the slider 40 cannot be inserted into the position locked by the lock mechanism 35. Therefore, it should be installed. When the card connector 7 of the second card C2 is inserted erroneously, the erroneous insertion will be easily understood. When the second card C2 is attached to the card connector 70 in the reverse direction or the front and rear directions, By the side of the card, the member is pressed in the direction of (4) to prevent the cutting (10) from being inserted into the depth of the direction (4) by the mechanism. The card connector 7 of the second embodiment is mounted. There is a switching mechanism 65 of the figure u. In the absence, / > Ke Qian U is not 66 盥 啻 啻 纟 纟 纟 2nd embodiment Compared with the first embodiment, the β 67 is slightly longer in the (8) direction than the first embodiment. When the slider 40 moves in the (8) direction and is located at the initial position, 137240.doc -35- 200945673 torque compression The wrist portion 47a and the wrist portion 47b of the spring 47 are both located on the side of the sliding electrode 66 and the sliding electrode 67 (b), and the sliding electrode 66 and the sliding electrode 67 are in a non-conducting state. As shown in Figs. 8 and 9, When the second card is normally installed, when the slider 40 moves in the (a) direction, the wrist of one of the torque compression springs 47 slides on the sliding electrode 66, but the other wrist 47b does not slide. The electrode 67 is moved to the left side of the electrode. Therefore, when the second card is normally mounted, the sliding electrode 66 and the sliding electrode 67 are in a non-conducting state. On the other hand, as shown in FIG. When the C1 is inserted into the card connector 7〇, or the second card C2 is inserted in the reverse direction of the front or back, or the front and rear directions are reversed, the detecting member 46 is pushed in the direction of (d), and the convex portion 46e is selected to be in contact with the restricting portion. 'And limit the movement of the slider 40 in the direction of (4). In this case, if the slider 40 moves to the selection When the convex portion 46e is in contact with the material, the wrist = W is in contact with the sliding electrode 66, and the wrist portion 47b is in contact with the sliding electrode π. Thus, only when the card connector 7 is erroneously operated to restrict the movement of the slider The month electrode 66 and the sliding electrode 67 are electrically connected via the torque compression spring π. In the control unit, when the sliding electrode 66 and the electrode 7 are electrically connected, the action of the insertion can be recognized, for example, the connection terminal 61 can be stopped for the voltage. Correspondence of power supply, etc. & BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a diagram showing a third embodiment of the present invention; FIG. 1 is a diagram showing a card connector of the first embodiment (4) in which a first card is inserted. Fig. 3 is a perspective view showing the connector of the i-th embodiment, (8) the slider of the connector of the second embodiment of the present invention. (3) is a perspective view showing the relationship between the slider and the restricting portion." The Sit inserts the first card into the card connector of the first embodiment, and the top view of the card connector is removed. 1 card inserted in the card of the first embodiment May connector block and the locked state be a plan view showing the lid body removed; ❹ The
二係為將第2卡片插入於第1實施形態之卡片連接器之 狀態予以卸除蓋體而表示之俯視圖; 圖7係為表示本發明之第2實施形態之卡片連接器之 與限制部之位置關係之部分立體圖; 圖8係為將第2卡片插入於第2實施形態之卡片連接器之 狀態予以卸除蓋體而表示之俯視圖; 圖9係為將第2卡片插入於第2實施形態之卡片連接器而 使滑塊被鎖定之狀態予以卸除蓋體而表示之俯視圖; 圖10係為將第1卡片插入於第2實施形態之卡片連接器之 狀態予以卸除蓋體而表示之俯視圖; ° 圖11係為表示第1實施形態與第2實施形態之卡片連接器 之框體之底部之結構之俯視圖; 圖12係為第1卡片之俯視圖; 圖13係為第1卡片之左側視圖; 圖14係為從下表示第1卡片之立體圖;及 圖15係為第2卡片之俯視圖。 【主要元件符號說明】 I 11 盒體 137240.doc -37- 200945673 la 表面 lb 背面 1 c 前端部 Id 後端部 1 e 右側部 If 左側部 5 外部連接電極 6, 16 前方凹部 6b, 16b 傾斜部 7, 17 薄壁部 8 中間凹部 20 第1實施形態之卡片連接器 21 框體 22 框體本體 23 蓋體 35 鎖定機構 36 鎖定銷 40 滑塊 41 導引面 41a 下部導引部 42 溝凸輪 44 止動部 45 導引凸部 46 偵測構件 137240.doc -38- 200945673 46e 選擇凸部 47 扭矩壓縮彈簧 47a, 47b 腕部 49 保持板彈簧 49a 掛止部 55 第1實施形態之孔部 . 56 限制部 70 第2實施形態之卡片連接器 155 第2實施形態之孔部 156 限制部 Cl 第1卡片 C2 第2卡片 137240.doc -39-The second embodiment is a plan view showing a state in which the second card is inserted into the card connector of the first embodiment, and the cover is removed. FIG. 7 is a view showing the card connector and the restricting portion according to the second embodiment of the present invention. FIG. 8 is a plan view showing a state in which the second card is inserted into the card connector of the second embodiment, and the cover is removed. FIG. 9 is a second card inserted in the second embodiment. FIG. 10 is a plan view showing the card connector in a state in which the slider is locked, and the cover is removed. FIG. 10 is a view showing a state in which the first card is inserted into the card connector of the second embodiment, and the cover is removed. Fig. 11 is a plan view showing the structure of the bottom of the casing of the card connector of the first embodiment and the second embodiment; Fig. 12 is a plan view of the first card; Fig. 13 is the left side of the first card. Figure 14 is a perspective view showing the first card from below; and Figure 15 is a plan view of the second card. [Description of main component symbols] I 11 Case 137240.doc -37- 200945673 la Surface lb Back 1 c Front end part Id Rear end part 1 e Right side part If left side part 5 External connection electrode 6, 16 Front recessed part 6b, 16b Inclined part 7, 17 thin portion 8 intermediate recess 20 card connector 21 of the first embodiment frame 22 frame body 23 cover 35 locking mechanism 36 locking pin 40 slider 41 guiding surface 41a lower guiding portion 42 groove cam 44 Stop portion 45 guide projection 46 detecting member 137240.doc -38- 200945673 46e Selecting convex portion 47 Torque compression spring 47a, 47b Wrist portion 49 Holding plate spring 49a Hanging portion 55 Hole portion of the first embodiment. 56 Restriction portion 70 Card connector 155 according to the second embodiment. Hole portion 156 of the second embodiment. Restriction portion C1 First card C2 Second card 137240.doc -39-