TWI448010B - IC card connector - Google Patents

Description

IC卡用連接器IC card connector

本發明係關於一種具備複合之卡收容部之IC卡用連接器。The present invention relates to a connector for an IC card having a composite card housing portion.

電子裝置中，一般係透過IC卡連接器，將SD(secure digital，保全數位)卡、記憶條Duo(商標)等IC卡裝入於該各裝置，藉此進行各種功能之擴充。又，在IC卡連接器中，為了將形狀互異之複數個IC卡裝入一台電子裝置內來使用，已有提案例如專利文獻1所揭示，設置複合之卡收容部，其對各IC卡具有共通之卡槽，可分別選擇1枚IC卡進行插拔。In an electronic device, an IC card such as an SD (secure digital) card or a memory stick Duo (trademark) is generally inserted into each device through an IC card connector, thereby expanding various functions. Further, in the IC card connector, in order to use a plurality of IC cards having different shapes in one electronic device, it has been proposed to provide a composite card housing portion for each IC, as disclosed in Patent Document 1, for example. The card has a common card slot, and one IC card can be selected for insertion and removal.

在具有上述之複合之卡收容部之IC卡連接器中，各卡收容部為使一部分彼此重複，沿IC卡之插拔方向形成階層狀。例如，如專利文獻1中之第33圖至第35圖所揭示，當SD卡裝入時，與各IC卡之接觸墊對應之接觸端子群係個別設置於藉由被卡導件下壓之間隔板區隔之各卡收容部之一部分。各接觸端子群中之各接觸端子之焊接固定端子係壓入並支承於形成卡收容部之共通後壁。又，當各IC卡裝入複合之卡收容部時，抵接於各接觸端子中之各IC卡之接觸墊之接點部係朝共通之卡槽往同一方向延伸。In the IC card connector having the above-described composite card accommodating portion, each of the card accommodating portions is formed such that a part thereof overlaps with each other and forms a layer in the insertion/removal direction of the IC card. For example, as disclosed in FIG. 33 to FIG. 35 of Patent Document 1, when the SD card is loaded, the contact terminal groups corresponding to the contact pads of the respective IC cards are individually set to be pressed by the card guide. The partition plate is divided into a part of each card receiving portion. The soldering fixed terminals of the respective contact terminals in each of the contact terminal groups are press-fitted and supported by the common rear wall forming the card housing portion. Further, when the IC card is loaded into the composite card accommodating portion, the contact portions of the contact pads of the respective IC cards that are in contact with each of the contact terminals extend in the same direction toward the common card slot.

又，例如，如記憶條PRO Duo(商標)卡與記憶條PRO-HG Duo(商標)卡之關係，資料傳送速度互異之複數個IC卡時，在複數個IC卡相互間，即使IC卡本身之外形尺寸彼此相同，IC卡之電極墊之排列也有時互異。即使上述之情形，有時亦迫切期待該等之任一種卡可裝入共通卡連接器中之共通卡收容部。Further, for example, when the relationship between the PRO Duo (trademark) card and the memory stick PRO-HG Duo (trademark) card and the plurality of IC cards having different data transfer speeds, even among the plurality of IC cards, even the IC card The outer dimensions are the same as each other, and the arrangement of the electrode pads of the IC card is sometimes different. Even in the above case, it is sometimes desirable to have any of these cards can be loaded into the common card housing portion of the common card connector.

專利文獻1：日本特開2004-06963號公報Patent Document 1: Japanese Patent Laid-Open Publication No. 2004-06963

在如上所述之複合之卡收容部中之一共通卡收容部，假如可選擇性裝入例如記憶條PRO Duo(商標)卡與記憶條PRO-HG Duo(商標)卡時，在形成於如上所述之間隔板下方之卡收容部內，必須設置有對記憶條PRO Duo(商標)卡及記憶條PRO-HG Duo(商標)卡雙方共通所需之接觸端子、以及僅記憶條PRO-HG Duo(商標)卡所需之接觸端子。In the composite card accommodating portion of the composite card accommodating portion as described above, if, for example, a memory stick PRO Duo (trademark) card and a memory stick PRO-HG Duo (trademark) card can be selectively loaded, it is formed as above. The card accommodating portion below the partition plate must be provided with a contact terminal required for common to both the memory strip PRO Duo (trademark) card and the memory stick PRO-HG Duo (trademark) card, and only the memory stick PRO-HG Duo The contact terminal required for the (trademark) card.

又，上述之SD卡裝入時，被卡導件下壓之間隔板抵接於僅記憶條PRO-HG Duo(商標)卡所需之接觸端子之接點部。Further, when the SD card is loaded, the spacer is pressed by the card guide to abut against the contact portion of the contact terminal required for the memory strip PRO-HG Duo (trademark) card.

藉此，由於抵接於間隔板之接觸端子使間隔板往上揚，因此SD卡用接觸端子之接點部無法獲得適當接觸力，或記憶條卡用接觸端子或間隔板可能變形。Thereby, since the spacer is raised by the contact terminal abutting on the spacer, the contact portion of the contact terminal for the SD card cannot obtain an appropriate contact force, or the contact terminal or the spacer for the memory card may be deformed.

又，當間隔板被按壓時，接觸端子之接點部被選擇性***之缺口部或孔等形成於間隔板藉此防止接觸端子之接點部與間隔板之抵接會損害該間隔板之強度。其結果，當裝入記憶條PRO Duo(商標)卡或記憶條PRO-HG Duo(商標)卡時，會因強度不足而造成間隔板變形，因此在記憶條卡用連接器端子之接點部會有無法獲得適當之接觸力之虞。Further, when the spacer is pressed, the contact portion of the contact terminal is formed in the spacer by the selectively inserted notch portion or hole or the like, thereby preventing the contact portion of the contact terminal from abutting against the spacer to damage the spacer. strength. As a result, when the memory stick PRO Duo (trademark) card or the memory stick PRO-HG Duo (trademark) card is loaded, the spacer is deformed due to insufficient strength, so the contact portion of the connector terminal of the memory card is used. There will be no chance of getting the right contact.

考量以上問題，本發明之目的在於，提供一種IC卡用連接器，其具備複合之卡收容部，可將IC卡本身之外形尺寸彼此相同、其電極墊之排列互異者收容於共通之卡槽，並且能以接觸端子之接點部之適當接觸力進行電子裝置與裝入於IC卡用連接器之IC卡之電氣連接。In view of the above problems, an object of the present invention is to provide a connector for an IC card, which is provided with a composite card accommodating portion, which can accommodate the same size of the IC card itself and the arrangement of the electrode pads in a common card. The slot can electrically connect the electronic device to the IC card mounted in the IC card connector with an appropriate contact force of the contact portion of the contact terminal.

為達成上述目的，本發明之IC卡用連接器，具備：IC卡收容部，其包含：上方側部分，以可插拔方式收容第1 IC卡；以及下方側部分，係透過形成上方側部分底部之間隔構件而形成於上方側部分之下方位置，以可插拔方式收容第2 IC卡，該第2 1C卡係將與第1 IC卡之電極墊之排列不同之複數個電極墊之相互間隔設成彼此相同、且資料傳送速度互異之2種IC卡中任一方；第1接觸端子群，配置於上方側部分，用以電氣連接於第1 IC卡之電極墊；以及第2接觸端子群，配置於下方側部分，用以電氣連接於第2 IC卡之電極墊；當第1 IC卡或第2 IC卡分別裝入IC卡收容部之上方側部分、下方側部分時，在第1 IC卡及第2 IC卡中，從IC卡收容部之端部露出至外部之端部長度彼此大致相同。In order to achieve the above object, the IC card connector of the present invention includes: an IC card housing portion including: an upper side portion for accommodating the first IC card in a pluggable manner; and a lower side portion for transmitting the upper side portion The bottom spacer member is formed at a position below the upper side portion, and the second IC card is accommodated in a pluggable manner. The second IC card is a plurality of electrode pads different from the arrangement of the electrode pads of the first IC card. One of two types of IC cards having the same interval and different data transfer speeds; the first contact terminal group is disposed on the upper side portion for electrically connecting to the electrode pads of the first IC card; and the second contact The terminal group is disposed on the lower side portion for electrically connecting to the electrode pad of the second IC card; and when the first IC card or the second IC card is respectively mounted on the upper side portion and the lower side portion of the IC card housing portion, In the first IC card and the second IC card, the lengths of the end portions exposed from the end portions of the IC card housing portion to the outside are substantially the same.

依本發明之IC卡用連接器，IC卡收容部具備：上方側部分，以可插拔方式收容第1 IC卡；以及下方側部分，以可插拔方式收容第2 IC卡，該第2 IC卡係將與第1 IC卡之電極墊之排列不同之複數個電極墊之相互間隔設成彼此相同、且資料傳送速度互異之2種IC卡中任一方；當第1 IC卡或第2 IC卡分別裝入IC卡收容部之上方側部分、下方側部分時，由於在第1 IC卡及第2 IC卡中，從IC卡收容部之端部露出至外部之端部長度彼此大致相同，因此可將IC卡本身之外形尺寸彼此相同，其電極墊之排列互異者收容於共通之卡收容部，並且，由於間隔構件形成上方側部分之底部，因此不會隨著第1 IC卡及第2 IC卡之插拔而移動間隔構件，因此，能以接觸端子之接點部之適當接觸力進行電子裝置與裝入IC卡用連接器之IC卡之電氣連接。According to the connector for an IC card of the present invention, the IC card accommodating portion includes: an upper side portion for accommodating the first IC card in a pluggable manner; and a lower side portion for accommodating the second IC card in a pluggable manner, the second The IC card is one of two types of IC cards which are different from each other in the arrangement of the electrode pads of the first IC card, and which are mutually identical and have different data transfer speeds; when the first IC card or the first IC card When the IC card is mounted in the upper side portion and the lower side portion of the IC card housing portion, the lengths of the end portions of the first IC card and the second IC card that are exposed from the end portion of the IC card housing portion to the outside are substantially the same. In the same manner, the outer dimensions of the IC card itself can be the same, and the arrangement of the electrode pads is accommodated in the common card housing portion, and since the spacer member forms the bottom portion of the upper side portion, it does not follow the first IC. Since the card and the second IC card are inserted and removed to move the spacer member, the electronic device can be electrically connected to the IC card of the IC card connector by an appropriate contact force of the contact portion of the contact terminal.

第2圖係表示本發明之IC卡用連接器之一例之外觀。Fig. 2 is a view showing an appearance of an example of the connector for an IC card of the present invention.

第2圖所示之IC卡用連接器係配置於既定之電子裝置，例如行動電話、PDA、相機等之內部者。The IC card connector shown in Fig. 2 is disposed inside a predetermined electronic device such as a mobile phone, a PDA, or a camera.

第2圖所示之IC卡用連接器係用以電氣連接例如以可插拔方式收容於該卡收容部之作為IC卡之記憶卡，例如作為第1 IC卡之SD卡(secure digital card)(商標)SDC(參照第8圖)、或作為第2 IC卡之記憶條(memory stick)PRO-HG Duo(商標)卡22(參照第12A圖)中任一電極部與配置於既定電子裝置內部之訊號輸入輸出用等之基板PB之連接端子部者。另外，該IC卡用連接器，亦可取代記憶條(memory stick)PRO-HG Duo(商標)卡(以下亦稱HG-Duo卡22)，而以可插拔方式裝入，例如外形尺寸彼此相同之稱為記憶條PRO-Duo(商標)之記憶卡(以下亦稱Duo卡23)(參照第12B圖)。The IC card connector shown in FIG. 2 is for electrically connecting, for example, a memory card as an IC card that is detachably housed in the card accommodating portion, for example, a first digital card (secure digital card). (trademark) SDC (refer to Fig. 8) or any of the electrode portions of the second IC card memory stick (PRO-HG Duo (trademark) card 22 (see Fig. 12A) and arranged in a predetermined electronic device For the internal signal input/output, etc., the connection terminal of the substrate PB. In addition, the connector for the IC card can also be replaced with a memory stick PRO-HG Duo (trademark) card (hereinafter also referred to as an HG-Duo card 22), and can be inserted in a pluggable manner, for example, the outer dimensions of each other. The same is called a memory stick PRO-Duo (trademark) memory card (hereinafter also referred to as Duo card 23) (refer to Fig. 12B).

另外，IC卡並非限於上述之SD卡，亦可選自MMC(Multi media card)卡(商標)、內裝快閃記憶體或超小型硬碟之記憶卡等任一卡。Further, the IC card is not limited to the above-described SD card, and may be selected from any card such as an MMC (Multimedia card) card (trademark), a memory card containing a flash memory or an ultra-small hard disk.

SD卡SDC係設定為例如，厚度約為2.1mm，其長寬尺寸分別約為32mm、24mm。HG-Duo卡22之長邊尺寸及寬度尺寸係較SD卡SDC之長邊尺寸及寬度尺寸為小。The SD card SDC is set, for example, to have a thickness of about 2.1 mm and a length and a width of about 32 mm and 24 mm, respectively. The long side dimension and width dimension of the HG-Duo card 22 are smaller than the long side size and width dimension of the SD card SDC.

板狀之HG-Duo卡22具有例如第12A圖所示，相對向之表面部22A及背面部22B。另外，在第12A圖中，僅表示HG-Duo卡22之背面部22B。又，HG-Duo卡22在其前端之角部具有去角部22c。The plate-shaped HG-Duo card 22 has, for example, a surface portion 22A and a back surface portion 22B as shown in Fig. 12A. Further, in Fig. 12A, only the back portion 22B of the HG-Duo card 22 is shown. Further, the HG-Duo card 22 has a chamfered portion 22c at a corner portion of the front end thereof.

在HG-Duo卡22中之背面部22B，在形成於相鄰於該去角部22c之部分之較淺之凹部22b周圍，突起部係沿HG-Duo卡22之側面形成既定長度。In the back surface portion 22B of the HG-Duo card 22, the projection portion is formed to have a predetermined length along the side surface of the HG-Duo card 22 around the shallow concave portion 22b formed in the portion adjacent to the chamfer portion 22c.

又，於相對於HG-Duo卡22之側面之突起部分隔既定距離之部分設置有退避部22a。退避部22a形成較其他部分之厚度為薄。Further, a relief portion 22a is provided at a portion spaced apart from the projection portion on the side surface of the HG-Duo card 22. The relief portion 22a is formed to be thinner than the other portions.

在HG-Duo卡22之背面部22B之前端部，複數個凹部係與其長邊大致平行以既定間隔形成於從凹部22b分隔至卡之中央側之位置。各凹部之寬度及沿HG-Duo卡22之長邊方向之長度設定成彼此相同。相鄰之凹部相互間、及位於其行端之凹部與凹部22b之間係藉由間隔壁進行間隔。At the end portion of the back surface portion 22B of the HG-Duo card 22, a plurality of concave portions are formed at a predetermined interval from the concave portion 22b to the center side of the card at substantially the same distance from the long side. The width of each concave portion and the length in the longitudinal direction of the HG-Duo card 22 are set to be the same as each other. The adjacent recesses are spaced apart from each other and between the recesses at the row ends and the recesses 22b by partition walls.

第12A圖中，在最接近凹部22b之第1凹部之底面配置有作為電極部之接觸墊22cp1(#1)。在相鄰之第2凹部之底面配置有與接觸墊22cp1相同長度之接觸墊22cp2(#2)。在第3凹部之底面，被分割之接觸墊22cp3(#3)與接觸墊22cp11(#11)係保持既定間隙配置成一行。在第5凹部之底面，被分割之接觸墊22cp5(#5)與接觸墊22cp13(#13)係保持既定間隙配置成一行。第6凹部之底面配置有與接觸墊22cp1相同長度之接觸墊22cp6(#62)。在第7凹部之底面，被分割之接觸墊22cp7(#7)與接觸墊22cp14(#14)係保持既定間隙配置成一行。在從第8號到第10號之凹部之底面分別配置有與接觸墊22cp1相同長度之接觸墊22cp8(#8)、接觸墊22cp9(#9)、以及接觸墊22cp10(#10)。面臨接觸墊22cp1～接觸墊22cp10中之HG-Duo卡22之前端側之各端部Ef係配置成位於與其短邊平行之共通之直線上。又，面臨接觸墊22cp1、接觸墊22cp2、接觸墊22cp6、接觸墊22cp8～接觸墊22cp14之HG-Duo卡22之後端側之各端部Er亦配置成位於與其短邊平行之共通之直線上。In Fig. 12A, a contact pad 22cp1 (#1) as an electrode portion is disposed on the bottom surface of the first concave portion closest to the concave portion 22b. A contact pad 22cp2 (#2) having the same length as the contact pad 22cp1 is disposed on the bottom surface of the adjacent second recess. On the bottom surface of the third recess, the divided contact pads 22cp3 (#3) and the contact pads 22cp11 (#11) are arranged in a line in a predetermined gap. On the bottom surface of the fifth recess, the divided contact pads 22cp5 (#5) and the contact pads 22cp13 (#13) are arranged in a line in a predetermined gap. The bottom surface of the sixth recess is provided with a contact pad 22cp6 (#62) of the same length as the contact pad 22cp1. On the bottom surface of the seventh recess, the divided contact pads 22cp7 (#7) and the contact pads 22cp14 (#14) are arranged in a line in a predetermined gap. Contact pads 22cp8 (#8), contact pads 22cp9 (#9), and contact pads 22cp10 (#10) having the same length as the contact pads 22cp1 are disposed on the bottom surfaces of the recesses from the eighth to the tenth, respectively. Each of the end portions Ef of the front end side of the HG-Duo card 22 facing the contact pads 22cp1 to 22cp10 is disposed on a straight line which is parallel to the short sides thereof. Further, each end portion Er of the rear end side of the HG-Duo card 22 facing the contact pad 22cp1, the contact pad 22cp2, the contact pad 22cp6, and the contact pad 22cp8 to the contact pad 22cp14 is also disposed on a straight line which is parallel to the short side thereof.

另外，在第4圖、第12A圖及第12B圖中，符號#1～#14係為便於說明IC卡之各接觸墊與後述接觸端子18ai(參照第4圖)之對應關係而附加者。In addition, in FIGS. 4, 12A, and 12B, symbols #1 to #14 are attached to facilitate the explanation of the correspondence between the contact pads of the IC card and the contact terminals 18ai (see FIG. 4) which will be described later.

板狀之Duo卡23例如，具有如第12B圖放大所示，相對向之表面部23A及背面部23B。另外，在第12B圖中，僅表示Duo卡23之背面部23B。又，Duo卡23在其前端之角部具有去角部23c。The plate-shaped Duo card 23 has, for example, an enlarged surface portion 23A and a back surface portion 23B as shown in Fig. 12B. Further, in Fig. 12B, only the back portion 23B of the Duo card 23 is shown. Further, the Duo card 23 has a chamfered portion 23c at a corner portion of the front end thereof.

在Duo卡23中之背面部23B，在形成於相鄰於該去角部23c之部分之較淺之凹部23b周圍，突起部係沿Duo卡23之側面形成既定長度。In the back surface portion 23B of the Duo card 23, the projection portion is formed along the side surface of the Duo card 23 at a predetermined length around the shallow recess portion 23b formed in a portion adjacent to the chamfer portion 23c.

又，於相對於Duo卡23之側面之突起部分隔既定距離之部分設置有退避部23a。退避部23a形成較其他部分之厚度為薄。Further, a retracting portion 23a is provided in a portion spaced apart from the projection portion on the side surface of the Duo card 23 by a predetermined distance. The relief portion 23a is formed to be thinner than the other portions.

在Duo卡23之背面部23B之前端部，複數個凹部係與其長邊大致平行以既定間隔形成於從凹部23b分隔至卡之中央側之位置。各凹部之寬度及沿Duo卡23之長邊方向之長度設定成彼此相同。相鄰之凹部相互間、及位於其行端之凹部與凹部23b之間係藉由間隔壁進行間隔。At a front end portion of the rear surface portion 23B of the Duo card 23, a plurality of concave portions are formed at a predetermined interval from the concave portion 23b to a position on the center side of the card, substantially parallel to the long side thereof. The width of each concave portion and the length in the longitudinal direction of the Duo card 23 are set to be the same as each other. Adjacent recesses are spaced apart from each other and between the recesses at the row ends and the recesses 23b by partition walls.

第12B圖中，在最接近凹部23b之第1凹部之底面配置有作為電極部之接觸墊23cp1(#1)。在從相鄰於該凹部之第2號到第10凹部之底面分別配置有與接觸墊23cp1相同長度之接觸墊23cp2(#2)、23cp3(#3)、23cp4(#4)、23cp5(#5)、23cp6(#6)、23cp7(#7)、23cp8(#8)、23cp9(#9)、23cp10(#10)。、接觸墊23cp9(#9)、以及接觸墊22cp10(#10)。面臨接觸墊23cp1～接觸墊23cp10中之Duo卡23之前端側及後端側之各端部Ef及Er係分別配置成位於與其短邊平行之共通之直線上。另外，從Duo卡23之前端面到接觸墊23cp1～接觸墊23cp10之後端部Er之距離L3係較從HG-Duo卡22之前端面到接觸墊22cp1、接觸墊22cp2、接觸墊22cp6、接觸墊22cp8～接觸墊22cp14之後端部之距離L2為短。換言之，Duo卡23中之接觸墊23cp1～接觸墊23cp10之長度係如第12A圖及第12B圖所示，被設定為較HG-Duo卡22中之接觸墊22cp1及接觸墊22cp10之長度為小。In Fig. 12B, a contact pad 23cp1 (#1) as an electrode portion is disposed on the bottom surface of the first concave portion closest to the concave portion 23b. Contact pads 23cp2 (#2), 23cp3 (#3), 23cp4 (#4), 23cp5 (#) of the same length as the contact pads 23cp1 are disposed on the bottom surfaces of the second to the tenth recesses adjacent to the recesses, respectively. 5), 23cp6 (#6), 23cp7 (#7), 23cp8 (#8), 23cp9 (#9), 23cp10 (#10). , contact pad 23cp9 (#9), and contact pad 22cp10 (#10). Each of the end portions Ef and Er of the front end side and the rear end side of the Duo card 23 facing the contact pads 23cp1 to 23cp10 is disposed on a straight line which is parallel to the short sides thereof. In addition, the distance L3 from the front end surface of the Duo card 23 to the end portion Er after the contact pad 23cp1 to the contact pad 23cp10 is from the front end surface of the HG-Duo card 22 to the contact pad 22cp1, the contact pad 22cp2, the contact pad 22cp6, and the contact pad 22cp8~ The distance L2 at the end after the contact pad 22cp14 is short. In other words, the lengths of the contact pads 23cp1 to 23cp10 in the Duo card 23 are set to be smaller than the lengths of the contact pads 22cp1 and the contact pads 22cp10 in the HG-Duo card 22 as shown in FIGS. 12A and 12B. .

IC卡用連接器係如第1圖所示，其構成包含：基座構件12，排列有對所收容之SD卡SDC、HG-Duo卡22或Duo卡23進行電氣連接之複數個接觸端子等；以及蓋構件10，與基座構件12協同動作，形成各卡之複合收容部。The connector for an IC card is as shown in Fig. 1, and includes a base member 12 in which a plurality of contact terminals for electrically connecting the accommodated SD card SDC, HG-Duo card 22 or Duo card 23 are arranged. And the cover member 10 cooperates with the base member 12 to form a composite housing portion of each card.

具有門形剖面狀之蓋構件10係由薄板金屬材料形成。第4圖所示之基座構件12之爪部12a～12d分別被卡合之卡合孔(未圖示)係與該爪部對應，分別形成於蓋構件10之兩側面部。The cover member 10 having a gate-shaped cross section is formed of a thin metal material. The engaging holes (not shown) in which the claw portions 12a to 12d of the base member 12 shown in Fig. 4 are engaged with each other are associated with the claw portions, and are formed on both side surfaces of the cover member 10, respectively.

因此，藉由該各卡合孔與基座構件12之各爪部12a～12d分別被卡合，使得蓋構件10固定於基座構件12。Therefore, the respective engagement holes and the claw portions 12a to 12d of the base member 12 are engaged with each other, so that the cover member 10 is fixed to the base member 12.

又，如第2圖所示，在連結蓋構件10之兩側面部之上面部之一側面部側設置有可移動地支承後述排出(eject)機構24中之凸輪桿24L之推壓彈簧10f。具有彈性之推壓彈簧10f之基端部係一體形成於蓋構件10。推壓彈簧10f係例如蓋構件10之一部分藉由衝壓加工向其內側衝壓形成。因此，在與蓋構件10中之推壓彈簧10f對應之部分之周圍形成有開口。Further, as shown in FIG. 2, a pressing spring 10f that movably supports the cam lever 24L in the eject mechanism 24, which will be described later, is provided on one side surface side of the upper surface portion of the side surface of the joint cover member 10. The base end portion of the elastic pressing spring 10f is integrally formed with the cover member 10. The pressing spring 10f is, for example, a part of the cover member 10 formed by press working to the inside thereof. Therefore, an opening is formed around the portion corresponding to the pressing spring 10f in the cover member 10.

基座構件12中之蓋收容部係如第3圖及第4圖所示，與上方及後述接觸端子固定部側相反側之端部形成開口。蓋收容部係如第1圖所示，在其上方側部分14U收容有SD卡SDC，在其下方側部分14D將其一部分重複，作成複合之卡收容部，用以收容HG-Duo卡22或Duo卡23。As shown in FIGS. 3 and 4, the cover accommodating portion of the base member 12 has an opening formed at an end portion on the side opposite to the side of the contact terminal fixing portion described above. As shown in Fig. 1, the cover accommodating portion houses the SD card SDC in the upper side portion 14U and repeats a part of the lower portion 14D to form a composite card accommodating portion for accommodating the HG-Duo card 22 or Duo card 23.

因此，藉由上述之蓋構件10覆蓋基座構件12，藉此如第1圖所示，在蓋收容部之一端部形成有共通之卡槽，可使SD卡SDC、HG-Duo卡22及Duo卡23中之一枚IC卡選擇性通過。Therefore, the base member 12 is covered by the cover member 10 as described above, whereby as shown in FIG. 1, a common card slot is formed at one end of the cover accommodating portion, so that the SD card SDC, the HG-Duo card 22, and One of the IC cards of the Duo card 23 is selectively passed.

作為該共通卡槽之開口端部雖省略圖示，但具有與所***之SD卡SDC及HG-Duo卡22及Duo卡23之形狀對應之階梯形之橫剖面。Although the opening end portion of the common card slot is not shown, it has a stepped cross section corresponding to the shape of the inserted SD card SDC, HG-Duo card 22, and Duo card 23.

該開口端部具有大致長方形橫剖面，係藉由HG-Duo卡22及Duo卡23通過之第1導引部、具有重疊大小大致長方形之橫剖面且SD卡SDC通過之第2導引部、以及連結第1導引部之上端與第2導引部之下端之一對斜面部形成。The open end portion has a substantially rectangular cross section, and is a first guiding portion through which the HG-Duo card 22 and the Duo card 23 pass, a second guiding portion having a cross section of a substantially rectangular shape and a SD card SDC passing through, And forming a pair of inclined faces on the upper end of the first guiding portion and the lower end of the second guiding portion.

藉此，SD卡SDC、HG-Duo卡22及Duo卡23之行進方向側之端部係分別向上方側或下方側被導引至第2導引部及第1導引部而予以通過。Thereby, the end portions of the SD card SDC, the HG-Duo card 22, and the Duo card 23 on the traveling direction side are guided to the second guide portion and the first guide portion, respectively, and pass through.

基座構件12係以例如成形樹脂材料一體成形。基座構件12係如第3圖所示，包含：側壁12RW、12LW，分別形成以可插拔方式收容SD卡SDC、HG-Duo卡22及Duo卡23之卡收容部之兩側部；以及接觸端子固定壁部12FW，配置有HG-Duo卡22及Duo卡23用之接觸端子18ai(i=1～14)、SD卡SDC用之接觸端子16ai(i=1～9)。The base member 12 is integrally formed of, for example, a molded resin material. As shown in FIG. 3, the base member 12 includes side walls 12RW and 12LW, and respectively forms side portions of the card housing portion for accommodating the SD card SDC, the HG-Duo card 22, and the Duo card 23 in a pluggable manner; The contact terminal fixing wall portion 12FW is provided with a contact terminal 18ai (i = 1 to 14) for the HG-Duo card 22 and the Duo card 23, and a contact terminal 16ai (i = 1 to 9) for the SD card SDC.

在側壁12LW之外面係如第3圖所示，以既定間隔形成有與上述之蓋構件10之卡合孔對應之爪部12a、12b、12c及12d。在側壁12RW之外面亦以既定間隔形成有與上述之蓋構件10之卡合孔對應之同樣之爪部12a、12b、12c及12d。As shown in Fig. 3, the outer surface of the side wall 12LW is formed with claw portions 12a, 12b, 12c, and 12d corresponding to the engagement holes of the cover member 10 described above at predetermined intervals. Similarly to the outer surface of the side wall 12RW, the same claw portions 12a, 12b, 12c, and 12d corresponding to the engaging holes of the cover member 10 described above are formed at predetermined intervals.

例如，複數個接觸端子16ai係如第3圖所示，以既定相互間隔與側壁12RW、側壁12LW大致平行，排列於靠近卡收容部內之接觸端子固定壁部12FW之部分(上方側部分14U)。For example, as shown in FIG. 3, the plurality of contact terminals 16ai are arranged substantially in parallel with the side wall 12RW and the side wall 12LW at a predetermined interval, and are arranged in a portion (upper side portion 14U) close to the contact terminal fixing wall portion 12FW in the card housing portion.

又，複數個接觸端子18ai係以既定相互間隔與側壁12RW、側壁12LW大致平行，排列於靠近卡收容部內之接觸端子固定壁部12FW所接近之部分，即成為上方側部分14U之下方位置之下方側部分14D。上方側部分14U與下方側部分14D之間係如第1圖及第3圖所示，藉由與接觸端子固定壁部12FW形成一體而固定之間隔板30加以間隔。平坦之間隔板30係形成為與基座構件12之底面部大致平行，卡槽側之前端係延伸到後述誤***限制構件42之轉動區域內。間隔板30係如第9圖所示，當***SD卡SDC時，具有下壓之接觸端子16ai之接點部之前端***用之槽30ai(i=1～8)(參照第3圖)。Further, the plurality of contact terminals 18ai are arranged substantially in parallel with the side wall 12RW and the side wall 12LW at a predetermined interval, and are arranged in a portion close to the contact terminal fixing wall portion 12FW in the card housing portion, that is, below the upper portion 14U. Side portion 14D. As shown in FIGS. 1 and 3, the upper side portion 14U and the lower side portion 14D are spaced apart from each other by being integrally formed with the contact terminal fixing wall portion 12FW. The flat partition plate 30 is formed substantially in parallel with the bottom surface portion of the base member 12, and the front end of the card groove side extends into the rotation region of the erroneous insertion restricting member 42 which will be described later. As shown in FIG. 9, when the SD card SDC is inserted, the spacer 30 has a groove 30ai (i=1 to 8) for the insertion end of the contact portion of the contact terminal 16ai which is pressed down (see FIG. 3).

接觸端子16ai之接點部之前端係配置成避免抵接於配置於槽30ai之下方之一部分之接觸端子18ai。The front end of the contact portion of the contact terminal 16ai is disposed so as not to abut against the contact terminal 18ai disposed at a portion below the groove 30ai.

因此，由於可使間隔板30之厚度變薄，因此可將連接器有效作成小型化。Therefore, since the thickness of the partitioning plate 30 can be made thin, the connector can be effectively miniaturized.

又，在既定之槽30ai之周緣形成有防止誤***用之突起片30st，使得向蓋構件10僅突出既定高度。突起片30st係抵接以錯誤方向***之SD卡SDC之端部，藉此抑制SD卡SDC之***。因此，突起片30st可防止所謂之SD卡SDC之反面***或反向***。Further, a projection piece 30st for preventing erroneous insertion is formed on the periphery of the predetermined groove 30ai so that only a predetermined height is protruded toward the cover member 10. The protruding piece 30st abuts against the end of the SD card SDC inserted in the wrong direction, thereby suppressing the insertion of the SD card SDC. Therefore, the protruding piece 30st can prevent the reverse insertion or reverse insertion of the so-called SD card SDC.

接觸端子16ai之構成包含：接點部，具有彈性，抵接於SD卡SDC之接觸墊，用以電氣連接；焊接端子部，焊接固定於配線基板PB之電極部，用以電氣連接；以及固定部，相互連結該接點部與焊接端子部，固定於基底材料12。薄板金屬材料，例如用彈簧用磷青銅製造之接觸端子16ai之固定部雖省略圖示，但在形成於接觸端子固定壁部12FW之槽，通過形成於接觸端子固定壁部12FW之透孔，從與SD卡SDC之***方向相反方向之側壓入，藉此固定於基座構件12。The contact terminal 16ai comprises: a contact portion having elasticity, abutting against a contact pad of the SD card SDC for electrical connection; a solder terminal portion soldered to the electrode portion of the wiring substrate PB for electrical connection; and fixing The contact portion and the solder terminal portion are connected to each other and fixed to the base material 12. The thin metal material, for example, the fixing portion of the contact terminal 16ai made of phosphor bronze for the spring is not shown, but is formed in the through hole formed in the contact terminal fixing wall portion 12FW through the through hole formed in the contact terminal fixing wall portion 12FW. The side of the SD card SDC is pressed in the opposite direction to the insertion direction, thereby being fixed to the base member 12.

接觸端子18ai(i=1～14)之構成包含：接點部，具有彈性，抵接於HG-Duo卡22及Duo卡23之接觸墊，用以電氣連接；焊接端子部，焊接固定於上述之配線基板之電極部，用以電氣連接；以及固定部，相互連結該接點部與焊接端子部，固定於基座構件12。接觸端子18ai係與基座構件12共同***成形設置。各接觸端子18ai之焊接端子部係如第4圖所示，從接觸端子固定壁部12FW之端部突出排列成一列狀。在2個接觸端子18ai與2個接觸端子18ai之相互間，如第3圖所示，配置有上述之接觸端子16ai之焊接端子部。The contact terminal 18ai (i=1 to 14) comprises: a contact portion having elasticity, abutting against a contact pad of the HG-Duo card 22 and the Duo card 23 for electrical connection; and a solder terminal portion soldered to the above The electrode portion of the wiring board is electrically connected; and the fixing portion is connected to the contact portion and the solder terminal portion, and is fixed to the base member 12. The contact terminal 18ai is inserted into the forming arrangement together with the base member 12. As shown in Fig. 4, the solder terminal portions of the contact terminals 18ai are arranged in a line from the end portions of the contact terminal fixing wall portions 12FW. As shown in Fig. 3, between the two contact terminals 18ai and the two contact terminals 18ai, the solder terminal portions of the above-described contact terminals 16ai are disposed.

其第1接地線用接觸端子(#10)，係配置在形成於最靠近側壁12RW之位置之卡收容部之底部。第1接地線用接觸端子(#10)具有接點部，抵接於HG-Duo卡22之接觸墊22cp10或Duo卡23之接觸墊23cp10，用以電氣連接。The first grounding wire contact terminal (#10) is disposed at the bottom of the card housing portion formed at the position closest to the side wall 12RW. The first grounding wire contact terminal (#10) has a contact portion that abuts against the contact pad 22cp10 of the HG-Duo card 22 or the contact pad 23cp10 of the Duo card 23 for electrical connection.

資料傳送線接觸端子(#14)係相鄰於對第1接地線用接觸端子(#10)以既定間隔從側壁12RW分隔之方向。資料傳送線用接觸端子(#14)之全長係設定為較之第1接地線用接觸端子(#10)之全長為短。The data transmission line contact terminal (#14) is adjacent to the first ground line contact terminal (#10) in a direction spaced apart from the side wall 12RW at a predetermined interval. The total length of the data transmission line contact terminal (#14) is set to be shorter than the total length of the first ground line contact terminal (#10).

又，資料傳送線用接觸端子(#14)具有接點部，抵接於HG-Duo卡22之接觸墊22cp9，用以電氣連接。Further, the data transmission line contact terminal (#14) has a contact portion and abuts against the contact pad 22cp9 of the HG-Duo card 22 for electrical connection.

相鄰於資料傳送線用接觸端子(#14)之卡檢測線用接觸端子(#6)之全長係設定成與上述之第1接地線用接觸端子(#10)之全長大致相同。然而，卡檢測線用接觸端子(#6)之接點部之位置為了成為較之第1接地線用接觸端子(#10)之接點部位置更靠近接觸端子固定壁12FW，配置有卡檢測線用接觸端子(#6)。卡檢測線用接觸端子(#6)具有接點部，抵接於HG-Duo卡22之接觸墊22cp6，用以電氣連接。The total length of the card detecting line contact terminal (#6) adjacent to the data transmission line contact terminal (#14) is set to be substantially the same as the total length of the first grounding wire contact terminal (#10) described above. However, the position of the contact portion of the contact terminal (#6) for the card detecting line is set closer to the contact terminal fixing wall 12FW than the contact portion of the first grounding wire contact terminal (#10). Wire contact terminal (#6). The contact terminal (#6) for the card detection line has a contact portion that abuts against the contact pad 22cp6 of the HG-Duo card 22 for electrical connection.

並列設置有相鄰於卡檢測線用接觸端子(#6)，3個資料傳送線用接觸端子(#13、#12、#11)。3個資料傳送線用接觸端子具有接點部，相互具有相同構造，分別抵接於HG-Duo卡22之接觸墊22cp13、22cp12、22cp11，用以電氣連接。各資料傳送線用接觸端子(#14、#13、#12、#11)之全長相互設定為相同。因此，資料傳送線用接觸端子(#14、#13、#12、#11)之接點部位置係設定在所有接觸端子之接點部中最靠近卡槽之位置。The contact terminals (#6) adjacent to the card detection line and the contact terminals (#13, #12, #11) for the three data transmission lines are provided in parallel. The three data transmission line contact terminals have contact portions and have the same structure, and are respectively in contact with the contact pads 22cp13, 22cp12, and 22cp11 of the HG-Duo card 22 for electrical connection. The total length of each of the data transmission line contact terminals (#14, #13, #12, #11) is set to be the same. Therefore, the position of the contact portion of the data transmission line contact terminals (#14, #13, #12, #11) is set to the position closest to the card slot among the contact portions of all the contact terminals.

另外，當***Duo卡23並予以保持時，各資料傳送線用接觸端子(#14、#13、#12、#11)不用來作為電氣連接之接點部。因此，資料傳送線用接觸端子(#14、#13、#12、#11)未抵接於Duo卡23之接觸墊23cp3(#3)～23c5(#5)、接觸墊23cp7(#7)。另外，並非限於該例，例如，資料傳送線用接觸端子(#14、#13、#12、#11)亦可構成為抵接於Duo卡23之接觸墊23cp3(#3)～23c5(#5)、接觸墊23cp7(#7)。Further, when the Duo card 23 is inserted and held, the contact terminals (#14, #13, #12, #11) of the data transmission lines are not used as the contact portions of the electrical connection. Therefore, the contact terminals (#14, #13, #12, #11) of the data transmission line are not in contact with the contact pads 23cp3 (#3) to 23c5 (#5) of the Duo card 23, and the contact pads 23cp7 (#7). . Further, the present invention is not limited to this example. For example, the data transmission line contact terminals (#14, #13, #12, #11) may be configured to abut the contact pads 23cp3 (#3) to 23c5 of the Duo card 23 (# 5), contact pad 23cp7 (#7).

第2接地線用接觸端子(#2)之構造具有與上述之第1接地線用接觸端子(#10)之構造相同之構造，具有接點部，抵接於HG-Duo卡22之接觸墊22cp1或Duo卡23之接觸墊23cp1，用以電氣連接。The structure of the second grounding wire contact terminal (#2) has the same structure as the above-described first grounding wire contact terminal (#10), and has a contact portion and abuts against the contact pad of the HG-Duo card 22. 22cp1 or contact pad 23cp1 of Duo card 23 for electrical connection.

在接觸端子固定壁部12FW，以既定間隔設置有7個接觸端子。該等接觸端子係以既定之相互間隔排列成為與側壁12RW、12LW大致平行。7個接觸端子分別具有彼此相同構造，例如最靠近相鄰於第1接地線用接觸端子(#10)之電源線用接觸端子(#9)具有接點部，抵接於HG-Duo卡22之接觸墊22cp9或Duo卡23之接觸墊23cp9，用以電氣連接。In the contact terminal fixing wall portion 12FW, seven contact terminals are provided at predetermined intervals. The contact terminals are arranged at a predetermined interval so as to be substantially parallel to the side walls 12RW and 12LW. Each of the seven contact terminals has the same structure, for example, the contact terminal (#9) closest to the first grounding wire contact terminal (#10) has a contact portion, and abuts the HG-Duo card 22 The contact pads 22cp9 or the contact pads 23cp9 of the Duo card 23 are used for electrical connection.

依序，相鄰之其他接觸端子(#8～#2)具有接點部，抵接於HG-Duo卡22之接觸墊22cp8、22cp7、22cp5、22cp4、22cp3、22cp2、或Duo卡23之接觸墊23cp8、23cp6、23cp2，用以電氣連接。In sequence, the adjacent contact terminals (#8 to #2) have contact portions that contact the contact pads 22cp8, 22cp7, 22cp5, 22cp4, 22cp3, 22cp2, or Duo card 23 of the HG-Duo card 22. Pads 23cp8, 23cp6, 23cp2 are used for electrical connection.

接觸端子(#9)之全長係在第1接地線用接觸端子16ai(#10)之接點部在接觸端子(#9)與側壁12RW之間，設定成重複並排於共通之平面上。The total length of the contact terminal (#9) is set between the contact terminal (#9) and the side wall 12RW at the contact portion of the first grounding wire contact terminal 16ai (#10) so as to be repeatedly arranged on the common plane.

該等接觸端子(#7、#5、#4、#3)係分別與上述之資料傳送線用接觸端子(#14、#13、#12、#11)保持既定間隔面對面配置在共通之直線上。如第4圖所示，在各接觸端子(#2、#8、#9)之接點部附近，誤***防止壁形成為突出於底部。各誤***防止壁係較之上述之HG-Duo卡22及Duo卡23之接觸墊之寬度窄一些之寬度形成。又，誤***防止壁形成較之從HG-Duo卡22之背面部22B及Duo卡23之背面部23B到接觸墊表面之高度為低，且較之各接觸端子(#2、#8、#9)之接點部之前端之高度位置為高。藉此，當HG-Duo卡22及Duo卡23以錯誤方向***卡收容部時，第1 IC22卡及Duo卡23之前端部係抵接於各誤***防止壁，可防止上述之誤***，因此可防止因第1 IC22卡及Duo卡23而破壞接觸端子。The contact terminals (#7, #5, #4, #3) are arranged in a common line with the contact terminals (#14, #13, #12, #11) of the above-mentioned data transmission lines at a predetermined interval. on. As shown in Fig. 4, in the vicinity of the contact portion of each of the contact terminals (#2, #8, #9), the erroneous insertion preventing wall is formed to protrude from the bottom. Each of the erroneous insertion preventing walls is formed to have a width narrower than the width of the contact pads of the HG-Duo card 22 and the Duo card 23 described above. Further, the erroneous insertion preventing wall is formed lower than the height from the back portion 22B of the HG-Duo card 22 and the back portion 23B of the Duo card 23 to the surface of the contact pad, and is compared with each contact terminal (#2, #8, # 9) The height position of the front end of the contact portion is high. Therefore, when the HG-Duo card 22 and the Duo card 23 are inserted into the card accommodating portion in the wrong direction, the front end portions of the first IC 22 card and the Duo card 23 abut against the erroneous insertion preventing walls, thereby preventing the above-described erroneous insertion. Therefore, it is possible to prevent the contact terminal from being broken by the first IC 22 card and the Duo card 23.

當比較接觸端子(#7、#5、#4、#3)與資料傳送線用接觸端子(#14、#13、#12、#11)時，資料傳送線用接觸端子(#14、#13、#12、#11)之全長及寬度形成為較之其接觸端子之全長為長，較之其寬度為寬。藉此，對配置於共有直線上之接觸端子之接點部之HG-Duo卡22之接觸墊之既定接觸壓力可均等作用。When comparing the contact terminals (#7, #5, #4, #3) with the data transfer line contact terminals (#14, #13, #12, #11), the data transfer line contact terminals (#14, # 13. The full length and width of #12, #11) are formed to be longer than the total length of the contact terminals, and wider than the width thereof. Thereby, the predetermined contact pressure of the contact pads of the HG-Duo card 22 disposed at the contact portion of the contact terminal on the shared straight line can be equally applied.

接觸端子(#2)之全長係在側壁12LW與接觸端子(#2)之間，第2接地線用接觸端子(#1)之接點部設定成重複並排於共通之平面上。The total length of the contact terminal (#2) is between the side wall 12LW and the contact terminal (#2), and the contact portion of the second ground line contact terminal (#1) is set to be repeatedly arranged on the common plane.

因此，在卡收容部內之下方側部分14D，以可插拔方式裝入有HG-Duo卡22或Duo卡中之1枚IC卡。Therefore, one IC card of the HG-Duo card 22 or the Duo card is inserted and removed in the lower side portion 14D in the card housing portion.

在側壁12RW之內側部分，如第3圖所示，設置有排出機構24，其係將HG-Duo卡22或Duo卡23中之1枚IC卡保持於卡收容部，並且從卡收容部選擇性排出該1枚IC卡。In the inner portion of the side wall 12RW, as shown in FIG. 3, a discharge mechanism 24 is provided which holds one of the HG-Duo card 22 or the Duo card 23 in the card accommodating portion, and selects from the card accommodating portion. The IC card is discharged.

排出機構24之構成包含：排出構件24J，以可移動方式支承於基座構件12，選擇性地保持SD卡SDC等；螺旋彈簧24S，裝入於相鄰於基座構件12之接觸端子固定壁部12FW之壁及排出構件24J相互間，將排出構件24J朝SD卡SDC之排出方向彈壓；以及排出構件控制部，依據SD卡SDC之插拔操作，使排出構件24J選擇性地對基座構件12進行保持或排出之控制。The discharge mechanism 24 is configured to include a discharge member 24J movably supported by the base member 12 to selectively hold the SD card SDC or the like, and a coil spring 24S to be fitted to the contact terminal fixing wall adjacent to the base member 12. The wall of the portion 12FW and the discharge member 24J are biased toward each other to discharge the discharge member 24J toward the discharge direction of the SD card SDC; and the discharge member control portion selectively causes the discharge member 24J to face the base member in accordance with the insertion and removal operation of the SD card SDC. 12 Control of holding or discharging.

排出構件控制部之構成包含：大致心形之凸輪要件24HC(心形凸輪)(參照第5圖)，例如，形成於如日本特開2004－311416號公報所揭示之排出構件24J中之側壁12RW側；桿導引槽24JG，由形成於心形凸輪周圍之複數個段差部所構成；門形凸輪桿24L(參照第3圖)，一端部連結於側壁12RW之孔，另一端部沿桿導引槽24JG滑動；以及上述之蓋構件10之推壓彈簧10f(參照第2圖)。The configuration of the discharge member control unit includes a substantially heart-shaped cam member 24HC (heart-shaped cam) (see FIG. 5), for example, a side wall 12RW formed in the discharge member 24J as disclosed in Japanese Laid-Open Patent Publication No. 2004-311416. The rod guiding groove 24JG is composed of a plurality of step portions formed around the heart cam; the gate cam bar 24L (refer to FIG. 3) has one end connected to the hole of the side wall 12RW and the other end along the rod guide The guide groove 24JG slides; and the pressing spring 10f of the cover member 10 described above (see FIG. 2).

推壓彈簧10f係將凸輪桿24L之彎曲前端彈壓，以使對桿導引槽之導引面進行滑接。藉此，凸輪稈24L之一端部係隨著排出構件24J之動作，依序經由構成桿導引槽24JG之各導引槽予以導引，一旦保持於形成於心形凸輪24HC之凸輪面，藉由保持，伴隨SD卡SDC等之排出構件24J就會被保持於卡收容部內。接著，藉由SD卡SDC等之壓入操作，當該凸輪桿24L之一端部從凸輪面分隔時，伴隨SD卡SDC等之排出構件24J就會藉由螺旋彈簧24S之彈力，使朝卡排出方向移動。The pressing spring 10f elastically presses the curved front end of the cam lever 24L so as to slide the guiding surface of the rod guiding groove. Thereby, one end portion of the cam stalk 24L is guided by the respective guide grooves constituting the rod guiding groove 24JG in accordance with the action of the discharge member 24J, and once held on the cam surface formed on the heart-shaped cam 24HC, By the holding, the discharge member 24J accompanying the SD card SDC or the like is held in the card accommodating portion. Then, by the press-in operation of the SD card SDC or the like, when one end portion of the cam lever 24L is separated from the cam surface, the discharge member 24J accompanying the SD card SDC or the like is discharged by the elastic force of the coil spring 24S. Move in direction.

排出構件24J係如第5圖至第7圖放大所示，將第1卡承接部24Ja相鄰於心形凸輪24HC，置於上端部。第1卡承接部24Ja在第1圖中，擋住位於上方側部分14U之SD卡SDC之前端部上之傾斜之去角部。又，在較之排出構件24J之卡承接部24Ja為下方之部分形成有第2卡承接部24JS。第2卡承接部24JS係在第1圖中，擋住位於下方側部分14D之HG-Duo卡22及Duo卡23之前端部之去角部22c及23c所面對之角部。The discharge member 24J is enlarged as shown in Figs. 5 to 7, and the first card receiving portion 24Ja is placed adjacent to the heart cam 24HC at the upper end portion. In the first figure, the first card receiving portion 24Ja blocks the inclined chamfered portion on the front end portion of the SD card SDC of the upper side portion 14U. Further, the second card receiving portion 24JS is formed in a portion below the card receiving portion 24Ja of the discharge member 24J. In the first drawing, the second card receiving portion 24JS blocks the corners of the HG-Duo card 22 and the corner portions 22c and 23c of the front end portion of the Duo card 23 located at the lower side portion 14D.

又，在卡收容部中形成卡槽一部分之側壁12RW、12LW之內側設置有卡誤***防止機構。卡誤***防止機構具有，例如與日本特開2007－165011號公報所揭示之構成類似之構成，如第3圖及第4圖所示，該構成包含：誤***限制構件42，藉由抵接所***之HG-Duo卡22及Duo卡23之行進方向之端部，用以限制往HG-Duo卡22及Duo卡23之接觸端子16ai誤侵入；一對鎖止構件28R、28L，用以將誤***限制構件42當作鎖止狀態或鬆開狀態；以及扭轉螺旋彈簧32，對誤***限制構件42單向彈壓。Further, a card insertion preventing mechanism is provided inside the side walls 12RW and 12LW in which the card housing portion is formed. The erroneous insertion preventing mechanism has a configuration similar to that disclosed in Japanese Laid-Open Patent Publication No. 2007-165011, and as shown in Figs. 3 and 4, the configuration includes the erroneous insertion restricting member 42 by abutting The end portions of the inserted HG-Duo card 22 and the Duo card 23 in the traveling direction are used to restrict the intrusion of the contact terminals 16ai of the HG-Duo card 22 and the Duo card 23; a pair of locking members 28R, 28L are used for The erroneous insertion restricting member 42 is regarded as a locked state or a released state; and the torsion coil spring 32 is unidirectionally biased against the erroneous insertion restricting member 42.

如曲柄般形成之誤***限制構件42，在兩端具有軸部，並且在中央部具有相互連結軸部之連結部。The erroneous insertion restricting member 42 formed like a crank has a shaft portion at both ends, and has a joint portion that connects the shaft portions to each other at the center portion.

圓柱狀之軸部係以可旋轉之方式支承於形成於基座構件12之卡收容部內之軸承部。又，軸部之半徑方向之移動係分別藉由後述鎖止構件28R、28L之可動片28Rm及28Lm之圓弧部進行限制。在軸部之外周部分別捲繞裝入有扭轉螺旋彈簧32。扭轉螺旋彈簧32之一端係卡扣於誤***限制構件42之端部，又，扭轉螺旋彈簧32之另一端係卡扣於基座構件12之側壁部。藉此，誤***限制構件42係彈壓於第1圖所示之箭頭F所示之方向，即以軸部為中心，成為SD卡SDC之排出方向之順時針方向。The cylindrical shaft portion is rotatably supported by a bearing portion formed in the card housing portion of the base member 12. Further, the movement of the shaft portion in the radial direction is restricted by the arc portions of the movable pieces 28Rm and 28Lm of the lock members 28R and 28L which will be described later. A torsion coil spring 32 is wound around the outer circumference of the shaft portion. One end of the torsion coil spring 32 is snapped to the end portion of the erroneous insertion restricting member 42, and the other end of the torsion coil spring 32 is engaged with the side wall portion of the base member 12. Thereby, the erroneous insertion restricting member 42 is biased in the direction indicated by the arrow F shown in FIG. 1, that is, in the clockwise direction of the discharge direction of the SD card SDC centering on the shaft portion.

上述之連結部在長邊方向之一端部具有抵接面，用以抵接***之SD卡SDC或HG-Duo卡22及Duo卡23之端部。在該抵接面上左端之一部分，具有既定深度及斜度之凹陷(未圖示)係沿其長邊方向形成既定長度。The connecting portion has an abutting surface at one end portion in the longitudinal direction for abutting the end portions of the inserted SD card SDC or HG-Duo card 22 and Duo card 23. At a portion of the left end of the abutting surface, a recess (not shown) having a predetermined depth and a slope is formed to have a predetermined length along the longitudinal direction thereof.

在軸部相互連結之連結部之兩端形成有缺口部，分別卡扣於後述鎖止構件28R、28L之可動片28Rm及28Lm之開口部(未圖示)之周緣部。該缺口部係形成於與上述之連結部之抵接面相對向之端面。亦即，卡合於可動片28Rm及28Lm之上述之開口部之周緣部之鉤狀卡合部42ER及42EL係形成於連結部之兩端。A notch portion is formed at both ends of the connecting portion where the shaft portions are coupled to each other, and is respectively engaged with a peripheral portion of an opening portion (not shown) of the movable pieces 28Rm and 28Lm of the locking members 28R and 28L which will be described later. The notch portion is formed on an end surface facing the abutting surface of the connecting portion. In other words, the hook-shaped engaging portions 42ER and 42EL that are engaged with the peripheral edge portions of the above-described openings of the movable pieces 28Rm and 28Lm are formed at both ends of the connecting portion.

由於一對鎖止構件28R、28L具有彼此相同之構造，因此針對鎖止構件加以說明，鎖止構件28L之說明予以省略。Since the pair of lock members 28R and 28L have the same configuration as each other, the lock member will be described, and the description of the lock member 28L will be omitted.

鎖止構件28R之構成包含：固定片，壓入於在基座構件12之側壁12RW形成直線狀之槽；以及可動片28Rm，在該固定片之一端形成為一體。The lock member 28R includes a fixing piece that is press-fitted into a groove that is linearly formed on the side wall 12RW of the base member 12, and a movable piece 28Rm that is integrally formed at one end of the fixed piece.

在連接於可動片28Rm之固定片一端之部分，彎曲部形成為突出於SD卡SDC之側部通過之部分。藉此，鎖止構件28R之彎曲部與相對向之鎖止構件28L之彎曲部之相互間距離係較之SD卡SDC之橫寬尺寸小一些之尺寸，較之HG-Duo卡22及Duo卡23之橫寬尺寸為大之尺寸At a portion connected to one end of the fixing piece of the movable piece 28Rm, the bent portion is formed to protrude from a portion through which the side portion of the SD card SDC passes. Thereby, the distance between the curved portion of the locking member 28R and the curved portion of the locking member 28L is smaller than the horizontal width of the SD card SDC, compared to the HG-Duo card 22 and the Duo card. 23 horizontal and horizontal dimensions are large size

在可動片28Rm之一端形成有上述之誤***限制構件42之卡合部42ER***之矩形狀開口部(未圖示)。在開口部之周緣與卡合部42ER之外周部之間形成有可動片28Rm之一端可移動之既定間隙。又，設置有止動片20，其係相鄰於可動片28Rm之彎曲部，用以限制可動片28Rm之初始位置。A rectangular opening (not shown) into which the engaging portion 42ER of the above-described erroneous insertion restricting member 42 is inserted is formed at one end of the movable piece 28Rm. A predetermined gap at which one end of the movable piece 28Rm is movable is formed between the periphery of the opening portion and the outer peripheral portion of the engaging portion 42ER. Further, a stopper piece 20 is provided which is adjacent to the curved portion of the movable piece 28Rm for restricting the initial position of the movable piece 28Rm.

藉此，當SD卡SDC之側部通過鎖止構件28R之彎曲部與相對向之鎖止構件28L之彎曲部之間時，由於各彎曲部藉由SD卡SDC之兩側部分別按壓，因此可動片28Rm之開口部係對誤***限制構件42之卡接部42ER進行分隔。因此，鎖止構件28R、28L係使誤***限制構件42成為鬆開狀態。Thereby, when the side portion of the SD card SDC passes between the bent portion of the lock member 28R and the bent portion of the lock member 28L, since each bent portion is pressed by the both sides of the SD card SDC, The opening of the movable piece 28Rm separates the engaging portion 42ER of the erroneous insertion restricting member 42. Therefore, the lock members 28R and 28L cause the erroneous insertion restricting member 42 to be in the released state.

另一方面，當使鎖止構件28R之彎曲部與相對向之鎖止構件28L之彎曲部從按壓狀態成為非按壓狀態時，例如，當SD卡SDC從卡收容部排出時，可動片28Rm藉由其彎曲部之恢復力，返回上述之初始位置，上述之開口部藉由扭轉螺旋彈簧32之彈力予以彈壓，對旋轉之誤***限制構件42之卡接部42ER進行***。因此，鎖止構件28R、28L係再使誤***限制構件42設成鎖止狀態以成為初始狀態。On the other hand, when the bent portion of the lock member 28R and the bent portion of the lock member 28L are brought into a non-pressed state from the pressed state, for example, when the SD card SDC is discharged from the card accommodating portion, the movable piece 28Rm is borrowed. The restoring force of the bent portion is returned to the initial position, and the opening is biased by the elastic force of the torsion coil spring 32, and the engaging portion 42ER of the erroneous insertion restricting member 42 is inserted. Therefore, the lock members 28R and 28L further set the erroneous insertion restricting member 42 to the lock state to be in the initial state.

在該構成中，當SD卡SDC裝入於卡收容部時，藉由通過卡槽之SD卡SDC之前端部，鎖止構件28R之彎曲部與相對向之鎖止構件28L之彎曲部係按壓於相互分隔之方向。藉此，可動片28Rm及可動片28Lm之開口部係分別對誤***限制構件42之卡接部42ER及42EL進行分隔。因此，誤***限制構件42成為鬆開狀態。In this configuration, when the SD card SDC is loaded in the card accommodating portion, the bent portion of the lock member 28R and the bent portion of the lock member 28L are pressed by the front end portion of the SD card SDC passing through the card slot. In the direction of separation from each other. Thereby, the opening portions of the movable piece 28Rm and the movable piece 28Lm are respectively separated from the engaging portions 42ER and 42EL of the erroneous insertion restricting member 42. Therefore, the erroneous insertion restricting member 42 is in a released state.

接著，SD卡SDC之前端部進一步沿行進方向***，藉此，SD卡SDC之前端部以抵接於誤***限制構件42之抵接面之狀態，誤***限制構件42抗拒扭轉螺旋彈簧32之彈力而旋轉，藉此通過誤***限制構件42之正上方，藉由排出構件24J保持於既定位置。因此，SD卡SDC之後端部，如第8圖及第9圖所示，僅既定長度L從卡槽突出。Then, the front end portion of the SD card SDC is further inserted in the traveling direction, whereby the front end portion of the SD card SDC abuts against the abutting surface of the erroneous insertion restricting member 42, and the erroneous insertion restricting member 42 resists the torsion coil spring 32. The elastic force is rotated, whereby the discharge member 24J is held at a predetermined position by being erroneously inserted directly above the restricting member 42. Therefore, the end portion of the SD card SDC, as shown in Figs. 8 and 9, only the predetermined length L protrudes from the card slot.

另一方面，當SD卡SDC從卡收容部取出時，SD卡SDC進一步***若干，藉此藉由排出機構之螺旋彈簧24S之彈力，與排出構件24J共同，SD卡SDC移動於排出方向。On the other hand, when the SD card SDC is taken out from the card accommodating portion, the SD card SDC is further inserted, whereby the SD card SDC moves in the discharge direction together with the discharge member 24J by the elastic force of the coil spring 24S of the discharge mechanism.

此時，誤***限制構件42藉由扭轉螺旋彈簧32之彈力，向卡槽側旋轉，並且鎖止構件28R之可動片28Rm之開口部與相對向之鎖止構件28L之可動片Lm之開口部藉由其恢復力，回到與卡接部42ER及42EL相對向之位置，進行***。藉此，誤***限制構件42再次回到初始之鎖止狀態。At this time, the erroneous insertion restricting member 42 is rotated toward the card slot side by the elastic force of the torsion coil spring 32, and the opening portion of the movable piece 28Rm of the lock member 28R and the opening portion of the movable piece Lm opposed to the lock member 28L are opened. By its restoring force, it is returned to the position opposite to the engaging portions 42ER and 42EL, and the insertion is performed. Thereby, the erroneous insertion restricting member 42 returns to the initial locked state again.

當HG-Duo卡22及Duo卡23中之任一方裝入於卡收容部之正規位置時，如第10圖所示，***之HG-Duo卡22之前端係通過卡槽之導引部及與鎖止構件28R之彎曲部相對向之鎖止構件28L之彎曲部之相互間，通過誤***限制構件42之連結部之正下方，導入於正規之下方之卡收容部之下方側部分14D。此時，藉由上述之第2卡承接部24JS保持於既定位置。因此，HG-Duo卡22之後端部係如第10圖及第11圖所示，僅與上述之SD卡SDC之突出長度L(參照第8圖)大致相同之既定長度L從卡槽突出。When any one of the HG-Duo card 22 and the Duo card 23 is installed in the normal position of the card accommodating portion, as shown in FIG. 10, the front end of the inserted HG-Duo card 22 passes through the guiding portion of the card slot and The curved portions of the lock member 28L that face the curved portion of the lock member 28R are introduced directly under the joint portion of the restricting member 42 and are introduced into the lower side portion 14D of the card accommodating portion below the normal portion. At this time, the second card receiving portion 24JS described above is held at a predetermined position. Therefore, as shown in FIGS. 10 and 11 , the end portion of the HG-Duo card 22 protrudes from the card slot only by a predetermined length L which is substantially the same as the protruding length L (see FIG. 8 ) of the SD card SDC described above.

此種情形，HG-Duo卡22通過卡槽，***於卡收容部內之時點，對資料傳送線用接觸端子(#11、#12、#13、#14)，HG-Duo卡22內之接觸墊22cp3、22cp4、22cp5、22cp7分別開始滑接，接著，第1接地線用接觸端子(#1)及第2接地線用接觸端子(#10)之接點部分別抵接於HG-Duo卡22之接觸墊22cp10及22cp1。In this case, the HG-Duo card 22 is inserted into the card housing portion through the card slot, and contacts the data transmission line contact terminals (#11, #12, #13, #14) and the HG-Duo card 22. The pads 22cp3, 22cp4, 22cp5, and 22cp7 are respectively slidably connected, and then the contact portions of the first grounding wire contact terminal (#1) and the second grounding wire contact terminal (#10) are respectively abutted against the HG-Duo card. 22 contact pads 22cp10 and 22cp1.

另一方面，當HG-Duo卡22從卡收容部取出時，HG-Duo卡22進一步***若干，藉此藉由排出機構之螺旋彈簧24S之彈力，與第2卡承接部24JS同時，HG-Duo卡22朝排出方向移動。On the other hand, when the HG-Duo card 22 is taken out from the card accommodating portion, the HG-Duo card 22 is further inserted, whereby the elastic force of the coil spring 24S of the discharge mechanism is simultaneously with the second card receiving portion 24JS, HG- The Duo card 22 moves in the discharge direction.

假如，因HG-Duo卡22錯誤，未形成接觸墊之端部向行進方向***時，首先，其行進方向之端部抵接於誤***限制構件42之抵接面，當其行進方向之端部之左側側部按壓鎖止構件28L之彎曲部時，可動片28Lm從制動片20及誤***限制構件42之卡接部42EL分隔，誤***限制構件42成為鬆開狀態。If the end portion of the contact pad is not inserted into the traveling direction due to an error of the HG-Duo card 22, first, the end portion in the traveling direction abuts against the abutting surface of the erroneous insertion restricting member 42 as the end of the traveling direction. When the left side portion of the portion presses the bent portion of the lock member 28L, the movable piece 28Lm is separated from the brake piece 20 and the engaging portion 42EL of the erroneous insertion restricting member 42, and the erroneous insertion restricting member 42 is released.

接著，成為鬆開狀態之誤***限制構件42之抵接面在HG-Duo卡22之行進方向之端部，對抗扭轉螺旋彈簧32之彈力，進一步按壓時，扭轉螺旋彈簧32之彈力與可動片28Lm之恢復力平衡，誤***限制構件42之卡接部42EL之端面抵接於可動片28Lm之狀態下保持。此時，誤***限制構件42之卡接部42ER可旋轉，使得其缺口部之一部分嵌在開口部之周緣。因此，卡接部42ER不成為鬆開狀態，因此誤***限制構件42可阻止HG-Duo卡22之誤***操作。Then, the abutting surface of the erroneous insertion restricting member 42 in the released state is at the end portion of the traveling direction of the HG-Duo card 22, against the elastic force of the torsion coil spring 32, and the elastic force of the torsion coil spring 32 and the movable piece are further pressed. The restoring force of 28 Lm is balanced, and the end surface of the engaging portion 42EL of the erroneous insertion restricting member 42 is held in contact with the movable piece 28Lm. At this time, the engaging portion 42ER of the erroneous insertion restricting member 42 is rotatable such that one of the notched portions is partially embedded at the periphery of the opening. Therefore, the engaging portion 42ER does not become in the released state, and thus the erroneous insertion restricting member 42 can prevent the erroneous insertion operation of the HG-Duo card 22.

12．．．基座構件12. . . Base member

14U．．．上方側部分14U. . . Upper side part

14D．．．下方側部分14D. . . Lower side part

16ai、18ai．．．接觸端子16ai, 18ai. . . Contact terminal

22．．．HG-Duo卡twenty two. . . HG-Duo card

23．．．Duo卡twenty three. . . Duo card

24J．．．排出構件24J. . . Discharge member

30．．．間隔板30. . . Spacer

42．．．誤***限制構件42. . . Mis-insertion restriction member

第1圖係表示本發明之IC卡用連接器一例之要部之剖面圖。Fig. 1 is a cross-sectional view showing an essential part of an example of a connector for an IC card of the present invention.

第2圖係表示本發明之IC卡用連接器一例之外觀之俯視圖。Fig. 2 is a plan view showing an appearance of an example of a connector for an IC card of the present invention.

第3圖係表示第2圖所示之例中拆下蓋構件狀態之俯視圖。Fig. 3 is a plan view showing a state in which the cover member is removed in the example shown in Fig. 2.

第4圖係表示第2圖所示之例中拆下蓋構件及間隔板等狀態之俯視圖。Fig. 4 is a plan view showing a state in which a cover member, a spacer, and the like are removed in the example shown in Fig. 2;

第5圖係表示第2圖所示之例中用於排出機構之排出器構件之俯視圖。Fig. 5 is a plan view showing an ejector member for a discharge mechanism in the example shown in Fig. 2.

第6圖係第5圖所示之例中之前視圖。Figure 6 is a front view of the example shown in Figure 5.

第7圖係第5圖所示之例中之側視圖。Figure 7 is a side view of the example shown in Figure 5.

第8圖係第2圖所示之例中供說明SD卡之插拔動作之俯視圖。Fig. 8 is a plan view showing the insertion and removal operation of the SD card in the example shown in Fig. 2.

第9圖係表示第8圖所示之狀態之剖面圖。Fig. 9 is a cross-sectional view showing the state shown in Fig. 8.

第10圖係第2圖所示之例中供說明HG-Duo卡之插拔動作之俯視圖。Fig. 10 is a plan view showing the insertion and removal operation of the HG-Duo card in the example shown in Fig. 2.

第11圖係表示第10圖所示之狀態之剖面圖。Fig. 11 is a cross-sectional view showing the state shown in Fig. 10.

第12A圖係表示第2圖所示之例中所使用之HG-Duo卡及Duo卡之俯視圖。Fig. 12A is a plan view showing the HG-Duo card and the Duo card used in the example shown in Fig. 2.

第12B圖係表示第2圖所示之例中所使用之HG-Duo卡及Duo卡之俯視圖。Fig. 12B is a plan view showing the HG-Duo card and the Duo card used in the example shown in Fig. 2.

F．．．箭頭F. . . arrow

PB．．．基板PB. . . Substrate

10．．．蓋構件10. . . Cover member

12．．．基座構件12. . . Base member

12FW．．．接觸端子固定壁部12FW. . . Contact terminal fixing wall

14D．．．下方側部分14D. . . Lower side part

14U．．．上方側部分14U. . . Upper side part

16ai．．．接觸端子16ai. . . Contact terminal

18ai．．．接觸端子18ai. . . Contact terminal

24J．．．排出構件24J. . . Discharge member

24Ja．．．第1卡承接部24Ja. . . 1st card receiving department

24JS．．．第2卡承接部24JS. . . 2nd card receiving department

24S．．．螺旋彈簧24S. . . Coil spring

28Rm．．．可動片28Rm. . . Movable piece

30．．．間隔板30. . . Spacer

42．．．誤***限制構件42. . . Mis-insertion restriction member

Claims (4)

一種IC卡用連接器，其特徵在於，具備：IC卡收容部，其包含：上方側部分，以可插拔方式收容第1 IC卡；以及下方側部分，係透過形成該上方側部分底部之間隔構件而形成於該上方側部分之下方位置，以可插拔方式收容第2 IC卡，該第2 IC卡係將與該第1 IC卡之電極墊之排列不同之複數個電極墊之相互間隔設成彼此相同、且資料傳送速度互異之2種IC卡中任一方；第1接觸端子群，配置於該上方側部分，用以電氣連接於該第1 IC卡之電極墊；以及第2接觸端子群，配置於該下方側部分，用以電氣連接於該第2 IC卡之電極墊；當該第1 IC卡或該第2 IC卡分別裝入IC卡收容部之上方側部分、下方側部分時，在該第1 IC卡及該第2 IC卡中，從該IC卡收容部之端部露出至外部之端部長度彼此大致相同；該間隔構件具有：當該第1 IC卡***該上方側部分時，供該第1接觸端子的一部分***之槽；及在該槽之周緣，用以限制以錯誤方向***之該第1 IC卡之***之突起片。 A connector for an IC card, comprising: an IC card housing portion including: an upper side portion for accommodating the first IC card in a pluggable manner; and a lower side portion for transmitting the bottom portion of the upper side portion The spacer member is formed at a position below the upper side portion, and the second IC card is accommodated in a pluggable manner, and the second IC card is a plurality of electrode pads different from the arrangement of the electrode pads of the first IC card One of two types of IC cards having the same interval and different data transfer speeds; the first contact terminal group is disposed on the upper side portion for electrically connecting to the electrode pads of the first IC card; a contact terminal group disposed on the lower side portion for electrically connecting to the electrode pad of the second IC card; and the first IC card or the second IC card being respectively mounted on an upper side portion of the IC card housing portion, In the lower side portion, in the first IC card and the second IC card, the lengths of the end portions exposed from the end portions of the IC card housing portion to the outside are substantially the same; the spacer member has: the first IC card When the upper side portion is inserted, a part of the first contact terminal is provided a slot for insertion; and a projection on the periphery of the slot for limiting insertion of the first IC card inserted in the wrong direction. 如申請專利範圍第1項之IC卡用連接器，其中，進一步具備誤***防止機構部，其具有：誤***限制構件，朝橫切該第1及第2之IC卡之插拔方向延伸，以可轉動方式被支承於該IC卡收容部，當該第1 IC卡裝入該上方側部 分時，成為以該第1 IC卡行進方向之端部朝向一方向之方式導引該端部之第1位置之狀態，當該第2 IC卡裝入該下方側部分時，則成為以該第2 IC卡行進方向之端部朝向另一方向之方式導引該端部之第2位置之狀態；彈壓構件，使該誤***限制構件往該第1 IC卡之排出方向予以彈壓；以及一對鎖止構件，分別具有可彈性位移之可動片，該可動片具有卡合於形成於該誤***限制構件兩端之卡合部之開口部，當該第2 IC卡裝入該下方側部分時，可選擇性維持該誤***限制構件之第2位置。 The connector for an IC card according to the first aspect of the invention, further comprising: an erroneous insertion preventing mechanism, comprising: an erroneous insertion restricting member extending in a direction in which the first and second IC cards are inserted and removed; Mounted in the IC card housing portion in a rotatable manner, when the first IC card is inserted into the upper side portion In a time division manner, the first position of the end portion is guided in such a manner that the end portion of the first IC card traveling direction faces in one direction, and when the second IC card is inserted into the lower side portion, the second IC card is inserted into the lower portion. a state in which the end portion of the second IC card in the traveling direction is guided to the other direction so as to guide the second position of the end portion; and the biasing member biases the erroneous insertion restricting member toward the discharge direction of the first IC card; Each of the locking members has an elastically displaceable movable piece having an opening portion that engages with an engaging portion formed at both ends of the erroneous insertion restricting member, and the second IC card is inserted into the lower side portion At this time, the second position of the erroneous insertion restricting member can be selectively maintained. 如申請專利範圍第2項之IC卡用連接器，其中，該間隔構件中之該IC卡收容部之卡槽側之端部係延伸至該誤***限制構件之轉動區域內。 The connector for an IC card according to the second aspect of the invention, wherein the end portion of the IC card accommodating portion on the card slot side of the spacer member extends into a rotation region of the erroneous insertion restricting member. 如申請專利範圍第1項之IC卡用連接器，其中，具備排出機構，其具有排出構件，用以將裝入於該IC卡收容部之上方側部分之該第1 IC卡或裝入下方側部分之該第2 IC卡保持或往外部排出；該排出構件，係一體具有與該上方側部分及該下方側部分對應之承接該第1 IC卡之第1卡承接部、及承接該第2 IC卡之第2卡承接部。 The connector for an IC card according to the first aspect of the invention, further comprising: a discharge mechanism having a discharge member for loading or inserting the first IC card mounted on an upper side portion of the IC card housing portion The second IC card of the side portion is held or discharged to the outside; the discharge member integrally has a first card receiving portion that receives the first IC card corresponding to the upper side portion and the lower side portion, and receives the first 2 IC card's second card acceptance department.