JP2009076337A - Card connector and connector base - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a connector for a surface mounting type card and a connector base capable of preventing a skimming damage in a simple constitution. <P>SOLUTION: The connector 10 for the surface mounting type card is equipped with a terminal group 12 constituted of eight connector terminals 11, and a housing 20. Each of the eight connector terminals 11 has a first connecting part 11f in contact with one of the eight card terminals, a second connecting part connected by surface mounting with a substrate, and a coupling part 11t. A peripheral wall part 21 formed in the housing 20 surrounds the terminal group 12 when viewed along a direction orthogonal to the card face of the smart card in a connecting state, and when viewed along all the directions (refer to A) which are in parallel with the card face, covers the respective coupling parts 11t of the eight connector terminals 11. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a card connector and a connector base used for connecting a smart card, and more particularly to a card connector and a connector base that can prevent skimming.

  An example of a conventional electrical connector for a card is disclosed in Patent Document 1. The electrical connector described in Patent Document 1 is of a surface mount type, and in this electrical connector, a contact blade that is a conductive element has a connection end. Each connection end constitutes a tab for electrically connecting each blade to the conductive wiring of the printed circuit board, for example, by soldering using surface mounting technology. Further, the curved contact end and connection end of each blade are coupled to each other by a hairpin-shaped central coupling portion. Here, the contact end portion is a portion for contacting the card pad, and the connection end portion is a portion for connecting to the processing circuit.

  In addition, the electrical connector described in Patent Document 1 includes a contact holding body (insulator body) made of an insulating material, and the insulating body has two consecutive four housings arranged in pairs. . Each housing (the space in which the contacts are disposed) opens in the corresponding front and rear transverse planes, and opens vertically downward on the lower surface and vertically upward on the upper surface. Each housing reaches the upper surface, where the upper surface defines a groove defined by longitudinal parallel edges, which is the passage for the curved contact end of the blade. The contact end of the contact blade is completely disposed inside the connector. On the other hand, as described above, since the housing is open in the transverse plane, the infrared solder melting beam can reach the connection end portion from the outside through the entrance of the housing. In the opening of the housing, the connection end and the central coupling portion are exposed and are visible.

JP 2002-42933 A

  By the way, with the recent spread of electronic payment technology, damage (skimming) in which data stored in a magnetic card is stolen in a financial terminal has become a problem. For example, with respect to skimming using a smart card connector device, a skimming person enters a store or the like and directly attaches a terminal of the skimming device (skimmer) to a card information reading terminal of the connector device. Thereafter, each time a smart card is inserted into the connector device, the card data is accumulated in the skimmer.

  And in the conventional surface mount type connector device as described in Patent Document 1, the housing is opened in the front and rear cross-sectional direction surfaces, and in this opening, the connection tab of the contact blade, And the center coupling | bond part is in the state exposed without being covered with a housing. Therefore, in the conventional surface mount type connector device, it is considered that skimming damage is likely to occur because the skimmer terminal can be easily connected to the information reading terminal.

  SUMMARY OF THE INVENTION Accordingly, an object of the present invention is to provide a surface mount type card connector and connector base that can prevent skimming damage with a simple configuration.

Means and effects for solving the problems

  In order to achieve the above object, a card connector according to the present invention is a surface mount type card connector for connecting a smart card having a plurality of card terminals on a card surface, and a plurality of connector terminals. Each of the plurality of connector terminals is electrically connected to each of the plurality of card terminals, and a housing that supports the terminal group. Each of the plurality of connector terminals includes a first connection portion that is a portion that contacts each of the plurality of card terminals, a second connection portion that is a portion connected to the substrate by surface mounting, A connecting portion that connects the first connecting portion and the second connecting portion, and a peripheral wall portion is formed in the housing, and the peripheral wall portion is connected to the smart device in a connected state. Each of the plurality of connector terminals surrounds the terminal group when viewed along a direction perpendicular to the card surface of the card, and when viewed along all directions parallel to the card surface. The connecting portion is covered.

  According to this configuration, the peripheral wall portion formed in the housing surrounds the terminal group when viewed along the direction perpendicular to the card surface of the smart card in the connected state, and in all directions parallel to the card surface. When viewed along, it covers the connecting part of each of the plurality of connector terminals, so the skimmer terminal is attached to the connector terminal for reading information compared to the conventional surface mount type connector device It becomes difficult. Therefore, a surface mount type card connector that can prevent skimming damage with a simple configuration can be obtained.

  In the card connector according to the present invention, at least one skimming detection terminal may be attached to the peripheral wall portion. According to this, when a skimming person scrapes the peripheral wall portion of the housing in order to attach the skimmer terminal to the connector terminal, the skimming detection terminal attached to the peripheral wall portion is cut. Therefore, for example, by continuously energizing the skimming detection terminal and monitoring its energization state, when the skimming detection terminal is disconnected and its energization state changes, the alarm device or the like is activated to operate the skimmer. Can detect installation actions.

  As for the attachment of the skimming detection terminal to the peripheral wall portion, the skimming detection terminal may be buried inside the peripheral wall portion, or the skimming detection terminal may be formed thinly and attached to the surface of the peripheral wall portion. Good.

  Further, in the card connector according to the present invention, the plurality of skimming detection terminals may be arranged in two directions of a direction in which the smart card is inserted and a direction perpendicular to the insertion direction among all directions parallel to the card surface. With respect to the direction, the terminal group may be arranged so as to be sandwiched from both sides. According to this, since the plurality of skimming detection terminals surround the surrounding four sides of the terminal group, it can be detected regardless of which direction the housing is scraped from the surrounding four sides. Further, by arranging the skimming detection terminals so as to sandwich the terminal group in the two directions of the insertion direction and the direction perpendicular thereto, it is possible to efficiently detect the skimmer installation action with a small number of skimming detection terminals. .

  In the card connector according to the present invention, the housing includes a plurality of receiving spaces for inserting and attaching the plurality of connector terminals, and the housing includes the plurality of receiving spaces. A plurality of insertion openings for inserting and attaching the connector terminals may be open in a direction perpendicular to the card surface. According to this, the insertion opening for attaching the connector terminal is formed so as to open in a direction perpendicular to the card surface, and the housing space does not open in a direction parallel to the card surface. Even if the surrounding wall portion is formed, the connector terminal can be attached.

  In order to achieve the above object, a connector base according to the present invention includes a connector device in which a card slot into which a smart card having a plurality of card terminals is inserted is formed on a card surface in combination with a housing cover. A surface mount type connector base, comprising any one of the above-described card connectors and a support housing for supporting the card connector, wherein the housing and the support housing are integrated. Or as a separate body.

  According to this configuration, a surface mount type connector base capable of preventing skimming damage with a simple configuration is obtained.

  In order to achieve the above object in another aspect, the connector base according to the present invention is formed with a card slot into which a smart card having a plurality of card terminals is inserted on the card surface in combination with the housing cover. A surface mount type connector base, comprising a terminal group constituted by a plurality of connector terminals, and a housing main body portion supporting the terminal group, each of the plurality of connector terminals. Is electrically connected to each of the plurality of card terminals, and each of the plurality of connector terminals is a portion that contacts each of the plurality of card terminals. And connecting the second connection part, which is a part connected to the substrate by surface mounting, the first connection part and the second connection part And a housing peripheral wall portion is formed in the housing main body portion, and the housing peripheral wall portion is viewed along a direction perpendicular to the card surface of the smart card in a connected state. Sometimes the terminal group is surrounded and the connecting portion is covered so as not to be exposed when viewed along all directions parallel to the card surface.

  According to this configuration, a surface mount type connector base capable of preventing skimming damage with a simple configuration is obtained.

  Hereinafter, preferred embodiments of the present invention will be described with reference to the drawings. In the following, only preferred embodiments of the present invention are shown for convenience of explanation, but the present invention is not limited thereby.

(About overall structure)
First, the overall configuration of the connector device according to the first embodiment of the present invention will be described. FIG. 1 is a schematic side view showing the overall configuration of a connector device including a card connector and a connector base according to a first embodiment of the present invention. 2A and 2B are schematic views of the connector device of FIG. 1, wherein FIG. 2A is a front view and FIG. 2B is a bottom view. FIG. 3 is a perspective view of a connector base including a card connector in the connector device of FIG. 4A and 4B are schematic views of the connector base of FIG. 3, in which FIG. 4A is a plan view and FIG. FIG. 5 is a schematic bottom view of the connector base of FIG. FIG. 6 is a bottom perspective view of the housing cover in the connector device of FIG. 1. FIG. 7 is a schematic view of the housing cover of FIG. 6, (a) is a bottom view, and (b) is a rear view. FIG. 8 is a perspective view of a connector terminal included in the connector device of FIG. 9 is an explanatory side view for explaining the second connection portion of the connector terminal of FIG. 8, and shows a state where the connector terminal is not attached to the housing. FIG. 10 is an explanatory schematic view showing an example of use of the skimming detection terminal 30 included in the connector device of FIG.

  The front view is a view when viewed along the insertion direction (see the arrow of the insertion direction in FIG. 1), and the plan view is a view when viewed along the direction perpendicular to the card surface direction. (B arrow view of FIG. 1). The rear view shows the opposite side of the front view, and the bottom view shows the opposite side of the plan view.

  The connector device 1 according to the present embodiment constitutes a card payment terminal (not shown) installed in a store or the like, and includes a housing cover 50 and a connector base 40. A card slot 1s is formed in the connector device 1, and a smart card 2 is inserted into the card slot 1s (see FIG. 1). The smart card 2 has a card surface 2f and a card surface 2s, and the smart card 2 has eight card terminals 2t on the card surface 2s. In FIG. 1, the card surface 2f is a front surface, and the card surface 2s is a back surface. When the smart card 2 is completely inserted into the card slot 1 s of the connector device 1, a connection state is established in which the card data recorded on the smart card 2 can be read by the connector device 1.

  Further, the connector device 1 is a surface mount type, and the plurality of connector terminals 11 included in the connector device 1 are attached to the surface of the substrate 60 by soldering. In the connector device 1 according to the present embodiment, the material of the housing part excluding various terminals is plastic (insulating material). However, the housing portion may be formed from other materials. Details of each part will be described below.

  In the following description, the “direction perpendicular to the card surface 2 s” refers to a direction perpendicular to the card surface 2 s of the smart card 2 when connected to the connector device 1, and in FIG. Shown as the direction of arrow B. The “direction parallel to the card surface 2s” is a direction parallel to the card surface 2s of the smart card 2 connected to the connector device 1, and is the direction of arrow A in FIG. As shown. Since there are innumerable directions parallel to the card surface 2s, the arrow A in FIG. 1 illustrates only eight directions among the innumerable directions parallel to the card surface 2s. Further, the “insertion direction” of the smart card 2 is an insertion direction when the smart card 2 is inserted into the card slot 1s, as shown in FIG. 1 and the like. The back side is described as shown in FIG. In addition, a direction perpendicular to the card insertion direction and parallel to the card surface 2s is defined as a “vertical direction” (see FIGS. 3 and 5).

(Connector base)
As described above, the connector base 40 constitutes the connector device 1 in which the card slot 1s is formed in combination with the housing cover 50 (see FIGS. 1 and 2), and is of a surface mount type. The connector base 40 includes a card connector 10 and a support housing 41 for supporting the card connector 10 (see FIGS. 3 to 5). In the connector base 40, the housing 20 of the card connector 10 and the support housing 41 are integrally formed. In the present embodiment, the housing 20 and the support housing 41 are integrally formed. However, the present invention is not limited to this configuration, and the housing and the support housing may be formed separately. (Refer to a third embodiment described later).

(Card connector)
The card connector 10 is for connecting the smart card 2 having a plurality of card terminals 2t to the card surface 2s, and is of the surface mount type as described above. Specifically, in the present embodiment, the inserted smart card 2 has eight card terminals 2t, and the card connector 10 has eight connector terminals 11 corresponding to the number thereof. Yes.

  The card connector 10 includes a terminal group 12 including eight connector terminals 11 and a housing 20 that supports the terminal group 12 (see FIGS. 3 to 5). The housing 20 of the card connector 10 is formed integrally with the support housing 41 as described above. In FIGS. 2B, 3, 4, and 5, the portion surrounded by the broken line is the card connector 10. Applicable.

  In the present embodiment, the card connector 10 includes eight connector terminals 11, and the terminal group 12 includes the eight connector terminals 11. However, the present invention is not limited to such a form. The number of connector terminals may be 10 or less, or 12 or more.

(About connector terminals)
Details of the connector terminal 11 will be described with reference to FIGS. FIG. 9 schematically illustrates a state where the connector terminal 11 is not attached to the housing 20. In FIG. 9, an arrow A indicates a direction parallel to the card surface 2s, an arrow B indicates a direction perpendicular to the card surface 2s, and a straight line C indicates a straight line along a direction parallel to the card surface 2s. ing.

  Each of the eight connector terminals 11 is electrically connected to each of the eight card terminals 2t. Each of the eight connector terminals 11 includes a first connecting portion 11f, a second connecting portion 11s, a connecting portion 11t, and a plate-like portion 11h. The first connection portion 11f is a portion that contacts each of the eight card terminals 2t, and the second connection portion 11s is a portion that is connected to the substrate 60 by surface mounting, and is formed in a flat plate shape. ing. The connecting portion 11t is a portion that connects the first connecting portion 11f and the second connecting portion 11s, and the plate-like portion 11h is a groove portion (details) of the housing 20 for attaching the connector terminal 11 to the housing 20. (Not shown) is a portion inserted into the device.

  The first connection portion 11f is formed in a mountain shape, and contacts the card terminal 2t at the top when the smart card 2 is inserted into the connector device 1. The connecting portion 11t includes a plate-like portion 11a, a curved portion 11b, a plate-like portion 11c, and a plate-like inclined portion 11d, and is continuous with the first connection portion 11f at the end of the plate-like portion 11a. And is continuous with the second connecting portion 11s at the end of the plate-like inclined portion 11d. Further, the plate-like portion 11h is formed to be branched from the plate-like portion 11c. In FIG. 9, the connector terminal 11 is removed from the housing 20, but the relationship between the plate-like portion 11 c of the connector terminal 11 and the directions of arrows A and B in FIG. It is assumed that the relationship between the plate-like portion 11c of the connector terminal 11 in the state attached to the housing 20 and the directions of the arrows A and B is maintained.

  In the state where the connector terminal 11 is taken out from the housing 20, as shown in FIG. 9, the second connecting portion 11s is parallel to the direction parallel to the card surface 2s (see the arrow A direction in FIG. 9). Instead, the direction along the second connecting portion 11s and the direction parallel to the card surface 2s are formed so as to form an acute angle larger than 0 degrees (see θ1 in FIG. 9). That is, in the state of FIG. 9, the second connecting portion 11s is formed to be inclined with respect to a direction parallel to the card surface 2s. In a state where the connector device 1 is attached to the substrate 60, the tip end portion 11 z of the second connection portion 11 s contacts the surface of the substrate 60. The angle θ1 is preferably about 5 to 15 degrees, for example.

  And by having the curved part 11b, the connector terminal 11 functions as a spring, and when the 1st connection part 11f and the plate-shaped part 11a are pushed in the direction of the plate-shaped part 11c, the 1st connection part 11f and the plate-like The part 11a bends in the direction of the plate-like part 11c, and in that state, a force to elastically return to the original state acts on the first connecting part 11f and the plate-like part 11a by the curved part 11b. Therefore, when the smart card 2 is inserted into the connector device 1, the connector terminal 11 functions as a connection terminal electrically connected to the card terminal 2 t and presses the smart card 2 against the housing cover 50. Also, it has a function of maintaining the electrical connection state by preventing the smart card 2 from being easily removed. In addition, the connector terminal should just contain the 1st connection part, the 2nd connection part, and a connection part, and the shape of a connector terminal is not restricted to such a thing. For example, the second connection portion may be formed along a direction parallel to the card surface 2s.

  Further, the eight connector terminals 11 are all arranged in the same direction. Specifically, all the connector terminals 11 are arranged so that the longitudinal direction is along the insertion direction and the bending portion 11b is positioned on the front side in the insertion direction (see FIG. 3). In the present embodiment, all the connector terminals 11 are arranged in the same direction as described above. However, the present invention is not limited to such an arrangement, and the four connector terminals and the four connector terminals face each other. May be arranged.

(housing)
The housing 20 is for supporting the plurality of connector terminals 11 as described above. The housing 20 is formed with a peripheral wall portion 21, an intermediate wall portion 20m, an accommodation space 22, and the like. The peripheral wall portion 21 surrounds the terminal group 12 when viewed along the direction perpendicular to the card surface 2s of the smart card 2 in the connected state (see arrow B in FIG. 1), and is all parallel to the card surface 2s. When viewed along the direction (see arrow A in FIG. 1), the connecting portions 11t of each of the plurality of connector terminals 11 are covered.

  The peripheral wall 21 will be described more specifically. The peripheral wall portion 21 includes four peripheral walls including a peripheral wall portion 21a, a peripheral wall portion 21b, a peripheral wall portion 21c, and a peripheral wall portion 21d. The peripheral wall portion 21a and the peripheral wall portion 21c are formed so as to extend along the vertical direction. The peripheral wall portion 21d is formed to extend along the insertion direction (see FIGS. 3 and 4A). And the surrounding wall part 21a, the surrounding wall part 21b, the surrounding wall part 21c, and the surrounding wall part 21d are formed continuously. Here, an outer surface 20s, an outer surface 20w, an outer surface 20t, and an outer surface 20v are formed as outer surfaces of the peripheral wall portion 21a, the peripheral wall portion 21b, the peripheral wall portion 21c, and the peripheral wall portion 21d, respectively (see FIGS. 3 and 4). . No openings are formed in the outer surface 20s, the outer surface 20w, the outer surface 20t, and the outer surface 20v. The outer surface 20s, the outer surface 20w, the outer surface 20t, and the outer surface 20v are each formed in a planar shape. In addition, these outer surfaces do not need to be planar.

  The peripheral wall portion 21a and the peripheral wall portion 21c sandwich the terminal group 12 in the insertion direction so as to surround the entire terminal group 12 when viewed along the direction perpendicular to the card surface 2s. Further, the peripheral wall portion 21b and the peripheral wall portion 21d are arranged with the terminal group 12 interposed therebetween in the vertical direction.

  The peripheral wall portion 21 covers the connecting portions 11t of each of the plurality of connector terminals 11 when viewed along all directions parallel to the card surface 2s (see arrow A in FIG. 1). More specifically, for example, when the card connector 10 is viewed along the insertion direction, which is one of the directions parallel to the card surface 2s, as shown in FIG. The outer surface 20s is almost entirely covered. Therefore, when viewed at the angle of FIG. 2A, only the top of the first connection portion 11f and a part of the second connection portion 11s are visible in each connector terminal 11. That is, at this angle, only the top of the first connection part 11f and a part of the second connection part 11s of the connector terminal 11 are exposed. The reason why a part of the first connection portion 11f is exposed is to ensure contact with the card terminal 2t of the smart card 2. Although part of the second connection portion 11s is also exposed, it is difficult to attach the skimmer without destroying the housing 20 if the exposure amount is about this level. When viewed at this angle, the connecting portion 11t of the connector terminal 11 is completely covered by the outer surface 20s.

  Also, when viewed along the direction opposite to the insertion direction (see the arrow D direction in FIG. 4), which is one of the directions parallel to the card surface 2s, as shown in FIG. 4 (b). Each of the connector terminals 11 is almost entirely covered by the outer surface 20t except for a part of the first connection part 11f and a part of the second connection part 11s. When viewed at this angle, the connecting portion 11t of the connector terminal 11 is completely covered by the outer surface 20t.

  Although illustration is omitted, the same applies to the outer surface 20v and the outer surface 20w. That is, when the card connector 10 is viewed along the direction parallel to the card surface 2s, more specifically, along the direction perpendicular to each of the outer surface 20v and the outer surface 20w, a plurality of connector terminals 11 are formed. The outer surface 20t is almost entirely covered. Further, when viewed at this angle, the connecting portions 11t of the plurality of connector terminals 11 are completely covered by the outer surface 20v and the outer surface 20w.

  The peripheral wall portion 21 configured as described above has a plurality of connectors when viewed along all directions parallel to the card surface 2s (including directions other than the direction perpendicular to the outer surface of each peripheral wall portion). Each of the terminals 11 covers the connecting portion 11t. As a result, each connector terminal 11 is almost entirely covered by the peripheral wall portion 21 in all directions parallel to the card surface. From the above, it is difficult to attach a skimmer from the outside to the connector terminal 11 unless the housing 20 is destroyed.

  In addition, of the peripheral wall portion 21, the peripheral wall portion 21 c is a portion disposed on the back side of the terminal group 12 in the insertion direction of the smart card 2 as described above. With respect to the position of the skimmer, it is considered that the skimmer is highly likely to be installed at the portion where the peripheral wall 21c is cut. This is because, for example, if a skimmer is installed on the front side in the insertion direction, the skimmer can be easily found from the card slot 1s. Therefore, the thickness in the insertion direction of the peripheral wall 21c is thicker than other peripheral walls (the peripheral wall 21a, the peripheral wall 21b, and the peripheral wall 21d). Specifically, the thickness in the insertion direction of the peripheral wall portion 21c (see L1 in FIG. 4A) is the length of each connector terminal 11 when viewed along the direction perpendicular to the card surface 2s ( It is larger than (see L2 in FIG. 4A). By doing so, the distance required to reach the terminal group 12 from the outer surface 20t of the card connector 10 is increased on the back side in the insertion direction of the terminal group 12 where the possibility of installing the skimmer is high. Can be efficiently prevented. The shape of the peripheral wall portion is not limited to this, and the thickness of the peripheral wall portion on the back side in the insertion direction of the terminal group may not be thicker than other peripheral portions, and this thickness is L2. It may be the following.

  The intermediate wall portion 20m is formed to partition these two groups when the eight connector terminals 11 included in the terminal group 12 are divided into two groups. The intermediate wall portion 20m is formed to extend along the vertical direction so as to support the four connector terminals 11 on the back side in the card insertion direction. The intermediate wall portion may not be provided, and the four connector terminals 11 on the back side in the card insertion direction may be supported by the peripheral wall portion 21c, for example.

  The housing 20 is formed with eight receiving spaces 22 for inserting and attaching the eight connector terminals 11 (see FIGS. 3 to 5). Further, in the housing 20, eight insertion openings 23 are opened in a direction perpendicular to the card surface 2s. The eight insertion ports 23 are for inserting and attaching the eight connector terminals 11 to the eight accommodating spaces 22. When the eight connector terminals 11 are attached to the housing 20, the respective connector terminals 11 are connected. Then, the insertion is performed from the corresponding insertion opening 23 into the accommodation space 22. In the present embodiment, the four accommodation spaces 22 communicate with each other. In addition, the number of accommodation spaces and insertion holes may not be eight.

  If FIG. 3 demonstrates, the insertion port 23 for attaching the connector terminal 11 with respect to the connector 10 for cards is formed in the upper part of the housing 20 (upper part in FIG. 3). Therefore, the housing space 22 of the housing 20 is not opened in a direction parallel to the card surface 2s. That is, no opening is formed in the outer surface 20s, the outer surface 20w, the outer surface 20t, and the outer surface 20v of the peripheral wall portion 21.

  In the present embodiment, when viewed along a direction parallel to the card surface 2s, a part of the second connection portion 11s is exposed, but the second connection portion is completely formed on the peripheral wall portion. It may be covered or the whole may be exposed. Further, regarding the second connection portion, it is desirable that the peripheral wall portion is completely covered, that is, the connector terminal is completely covered by the peripheral wall portion except for the first connection portion.

(Skimming detection terminal)
One skimming detection terminal 30 is attached to the peripheral wall portion 21. More specifically, the skimming detection terminal 30 is buried inside the peripheral wall portion 21c (see the broken line portions in FIGS. 3 and 4). The skimming detection terminal 30 is arranged such that its longitudinal direction is along the vertical direction. The skimming detection terminal 30 is made of metal and has a rod shape. Further, the skimming detection terminal 30 has such a strength that it can be cut together with the housing 20 when the housing 20 is cut. Further, two connection terminals 30 s and 30 t are connected to the skimming detection terminal 30.

  The skimming detection terminal may be other than a rod-like terminal as long as it has an appropriate strength and can be cut easily to some extent. For example, it may be a thin plate or string. Further, the skimming detection terminal does not have to be made of metal, and may be formed of a material that can conduct electricity to some extent.

  Further, in the present embodiment, one skimming detection terminal 30 is buried inside the peripheral wall portion 21, but it is sufficient that at least one skimming detection terminal is attached to the peripheral wall portion. The attachment to the peripheral wall portion of the terminal is not limited to such a form. For example, as in the present embodiment, the skimming detection terminal may be buried inside the peripheral wall portion, or the skimming detection terminal 30 may be formed thinly and attached to the surface of the peripheral wall portion. Two or more skimming detection terminals may be attached (see a second embodiment described later).

  Next, a usage example of the skimming detection terminal 30 will be described with reference to FIG. For example, the electric wire 80 and the power source 82 are connected to the connection terminals 30s and 30t, and the skimming detection terminal 30 is always energized. And the electric current interruption state detection apparatus 81 is installed in the middle of the electric wire 80, and the energization state of the terminal 30 for skimming detection is monitored. The current interruption state detection device 81 is connected to the alarm device 83. This device is configured such that the alarm device 83 issues an alarm when the energization state of the skimming detection terminal 30 changes.

  In this state, when a person who intends to skimming cuts the peripheral wall portion 21c, the skimming detection terminal 30 is cut and no current flows between the connection terminals 30s and 30t. The energized state changes. In response to the change in the energized state, a signal transmitted from the current interruption state detection device 81 is received and an alarm device 83 issues an alarm. For example, the skimmer installation action can be detected by configuring the apparatus in this way.

(Support housing)
Next, the support housing 41 will be described. The support housing 41 is for supporting the card connector 10. In this embodiment, the connector base 40 is configured by supporting the card connector 10 so as to sandwich the card connector 10 from both sides in the vertical direction. (See FIGS. 3 to 5). In the connector base 40, the housing 20 of the card connector 10 and the support housing 41 are integrally formed.

  The support housing 41 includes two card presence / absence detection switches 71. This card presence / absence detection switch 71 is for confirming whether or not the smart card 2 is inserted into the connector device 1, and is arranged at two locations on the near side and the far side in the insertion direction. Yes. Specifically, the card presence / absence detection switch 71 includes a contact portion 71s, a connection portion 71c, and a connection portion 71d, which are portions that come into contact with the smart card 2, and the connection portion 71c and the connection portion 71d are connected to each other. Is always energized. Further, a guide groove 41x is formed in the support housing 41 along the insertion direction (see FIG. 3), and the protruding guide portion 71y of the card presence / absence detection switch 71 is fitted into the guide groove 41x, and this state When the card presence / absence detection switch 71 is pushed in, the card presence / absence detection switch 71 is pushed inward along the insertion direction. As a result, the card presence / absence detection switch 71 can be accurately positioned in the direction perpendicular to the card surface 2s.

  When the smart card 2 is not connected to the connector device 1 and the smart card 2 and the contact portion 71s are not in contact with each other, the card presence / absence detection switch 71 cuts off the current. When the card 2 is connected to the connector device 1 and the smart card 2 and the contact portion 71s come into contact with each other, a current flows between the connection portion 71c and the connection portion 71d. Whether or not the smart card 2 is inserted into the card slot 1s by connecting a device (not shown) that can detect that a current is flowing between the connection portion 71c and the connection portion 71d. It is possible to judge whether. The card presence / absence detection switch 71 on the back side in the insertion direction is for detecting a state where the insertion of the smart card 2 is completed, and the card presence / absence detection switch 71 on the front side in the insertion direction is a smart card. This is to detect a state where the extraction of 2 is completed. The card presence / absence detection switch 71 may be omitted.

  The support housing 41 includes two wall portions 41b and 41d extending in the insertion direction and arranged so as to sandwich the card connector 10 from both sides in the vertical direction. In the connector base 40, the two wall portions 41b and 41d are further provided, so that both ends of the terminal group 12 in the vertical direction are respectively surrounded by the peripheral wall portion 21b (21d) and the wall portion 41b (41d). It will be covered twice.

  Two protrusions 42 are formed at both ends of the support housing 41 in the vertical direction. This is to prevent the housing cover 50 from being detached from the connector base 40 by hooking two protrusions 52 of the housing cover 50 described later. Further, spaces are formed in the support housing 41 as the thinned portions 41y and 41z. Note that the lightening portions 41y and 41z may not be provided, and this space may be filled with the same member.

(Housing cover)
The housing cover 50 is for configuring the connector device 1 in which the card slot 1 s is formed by combination with the connector base 40. As shown in FIG. 6, four protrusions 51 are formed on the back side of the housing cover 50 so as to extend along the insertion direction. The smart card 2 inserted into the card slot 1 s is sandwiched between the eight connector terminals 11 and the four protrusions 51 so that the smart card 2 cannot be easily removed from the connector device 1. (See FIG. 2A).

  The housing cover 50 is formed with two protrusions 52. As described above, the two protrusions 52 are hooked on the two protrusions 42 of the support housing 41, whereby the displacement of the housing cover 50 toward the front side in the insertion direction of the connector base 40 is limited.

(effect)
Next, effects of the card connector 10 and the connector base 40 included in the connector device 1 according to the present embodiment will be described. A card connector 10 according to the present invention is a surface mount type card connector for connecting a smart card 2 having eight card terminals 2t to a card surface 2s, and is constituted by eight connector terminals 11. A terminal group 12 and a housing 20 for supporting the terminal group 12, each of the eight connector terminals 11 being electrically connected to each of the eight card terminals 2t. Each of the terminals 11 includes a first connection part 11f that is a part that contacts each of the eight card terminals 2t, a second connection part 11s that is a part connected to the substrate 60 by surface mounting, A connecting portion 11t that connects the first connecting portion 11f and the second connecting portion 11s, and the housing 20 has a peripheral wall portion 21 formed therein. Wall 21 surrounds terminal group 12 when viewed along a direction perpendicular to card surface 2s of smart card 2 in the connected state, and when viewed along all directions parallel to card surface 2s. In addition, the connecting portion 11t in each of the eight connector terminals 11 is covered.

  According to this configuration, the peripheral wall portion 21 formed in the housing 20 surrounds the terminal group 12 when viewed along the direction perpendicular to the card surface 2s of the smart card 2 in the connected state, and the card surface 2s When viewed along all parallel directions, the connecting portions 11t of each of the eight connector terminals 11 are covered, so that the connector terminal 11 for reading information can be compared with the conventional surface mount type connector device. On the other hand, it becomes difficult to attach the terminal of the skimmer. Therefore, a surface mount type card connector that can prevent skimming damage with a simple configuration can be obtained.

  In the card connector 10 according to the present embodiment, a skimming detection terminal 30 is attached to the peripheral wall portion 21. For this reason, when a person who performs skimming scrapes the peripheral wall portion 21 of the housing 20 in order to attach the skimmer terminal to the connector terminal 11, the skimming detection terminal 30 attached to the peripheral wall portion 21 is cut. It will be. Therefore, for example, by constantly energizing the skimming detection terminal 30 and monitoring its energization state, when the energization state changes when the skimming detection terminal 30 is disconnected, the alarm device or the like is activated. , Can detect skimmer installation.

  As for the attachment of the skimming detection terminal 30 to the peripheral wall portion 21, the skimming detection terminal 30 may be buried inside the peripheral wall portion 21 as in this embodiment, or the skimming detection terminal is formed thin. And you may affix on the surface of a surrounding wall part.

  In the card connector 10 according to the present embodiment, the housing 20 is formed with eight housing spaces 22 for inserting and attaching the eight connector terminals 11, and the housing 20 has eight housing spaces 22. The eight insertion ports 23 for inserting and attaching the eight connector terminals 11 open in a direction perpendicular to the card surface 2s. Therefore, the insertion port 23 for attaching the connector terminal 11 is formed so as to open in a direction perpendicular to the card surface 2s, and the housing space 22 of the housing 20 does not open in a direction parallel to the card surface 2s. Even if the peripheral wall portion 21 surrounding the terminal group 12 is formed, the connector terminal 11 can be attached.

  Further, the connector base 40 according to the present embodiment constitutes a connector device 1 in which a card slot 1s into which a smart card 2 having eight card terminals 2t is inserted is formed on the card surface 2s by combination with the housing cover 50. The surface mount type connector base has a card connector 10 and a support housing 41 for supporting the card connector 10, and the housing cover 50 and the support housing 41 are integrally formed. Is formed. According to this configuration, a surface mount type connector base capable of preventing skimming damage with a simple configuration is obtained.

  It is also conceivable that a person who intends to perform skimming installs a skimmer on the surface of the housing without opening the housing cover 50 and scraping the housing 20. However, since it is necessary to secure a space for inserting the smart card 2, it is considered that the skimmer is actually installed within the thickness range of the connector base 40 so as not to block the insertion space. Therefore, when this connector device 1 is used, it is assumed that the skimmer is installed by scraping the housing 20, so that the countermeasure as in this embodiment is effective.

  Further, for example, in the case of a card connector of a DIP type (a method in which a terminal foot (lead part) is passed through a substrate and soldered on the back surface of the substrate, also referred to as a pin insertion type), the terminal foot Penetrates the substrate. Therefore, in order to prevent skimming damage reliably in the DIP type connector, in addition to surrounding the terminal group with the peripheral wall portion as in this embodiment, the skimmer installation measures are also taken for the portion that penetrates to the back side of the board. Need to be performed separately (for example, potting). On the other hand, since the card connector 10 of the present embodiment is a surface mount type connector, the terminals do not penetrate through to the back side. Therefore, like the card connector 10 according to the present embodiment, by surrounding the terminal group 12 with the peripheral wall portion 21, it is possible to reliably prevent skimming damage without performing potting or the like.

(Regarding the positioning accuracy of terminals in surface mount connectors)
By the way, in the DIP type card connector, since the terminal foot penetrates the board, the electrical connection between the terminal and the board is ensured. Therefore, the positioning accuracy of the connector terminal is relatively problematic. Must not. On the other hand, in the surface mount type card connector, the positioning accuracy of the terminals is a big problem. That is, in the surface mount type card connector, since the terminal is soldered to the surface of the substrate (see the surface 60f in FIG. 1), coplanarity (connector terminal-substrate when the component is placed on the adhesive surface) It is important to reduce the difference between the minimum distance and the maximum distance between them (flatness), and if the coplanarity is large, some connector terminals may not be electrically connected to the board.

  When the terminal group 12 is surrounded by the peripheral wall portion 21 when viewed along the direction perpendicular to the card surface 2s of the smart card 2 in the connected state as in the present embodiment, the connector terminal 11 with respect to the housing 20 is used. Is attached along the direction perpendicular to the card surface 2s. More specifically, in the housing 20 of the card connector 10 according to the present embodiment, the eight insertion ports 23 open in a direction perpendicular to the card surface 2s. When the connector terminal 11 is attached, the connector terminal 11 is inserted into the accommodation space 22 from the insertion port 23 and attached. Further, the terminal group 12 is surrounded by the peripheral wall portion 21, and the housing space 22 of the housing 20 is not opened in a direction parallel to the card surface 2s.

  In this case, it is difficult to insert the connector terminal 11 into the housing 20 with a uniform insertion amount, and in the terminal group 12, between the plurality of connector terminals 11, the direction perpendicular to the card surface 2s. The positioning error is likely to occur. When the tip of the connector terminal is formed so as to be along a direction parallel to the card surface 2s, this positioning error directly causes an increase in coplanarity. That is, when the connector terminal is inserted from the insertion port 23 toward the lower direction from the upper side in FIG. 9, the electrical connection with the board is ensured with respect to the connector terminal that has been inserted deeply. However, incompletely inserted ones will be lifted compared to other connectors inserted to the back, and some connector terminals may not contact the board at all and may not complete electrical connection. is there. Therefore, when the tip of the connector terminal is along the direction parallel to the card surface 2s, the connector terminal 11 in the direction perpendicular to the card surface 2s (see arrow B in FIG. 9) is used to reduce coplanarity. It is necessary to increase the positioning accuracy of the terminal group 12 so that there are no connector terminals 11 floating in the terminal group 12.

  Therefore, when there is a through hole formed in the peripheral wall portion of the connector terminal in the insertion direction (that is, when the housing accommodation space opens in a direction parallel to the card surface 2s), for example, If a guide groove 41x (see FIG. 3) of the support housing 41 is formed in the through hole, and this is used as a guide rail to insert a connector terminal along the insertion direction, the direction perpendicular to the card surface 2s is obtained. The connector terminals can be accurately positioned. That is, in the surface mount type card connector, the configuration in which there is no connector mounting opening that opens in the direction parallel to the card surface 2s and the terminal group is surrounded by the peripheral wall portion has a problem regarding positioning accuracy. However, when the housing space is opened in a direction parallel to the card surface 2s, there is a problem that the skimmer is easily installed because the through hole is formed.

  On the other hand, when the connector terminal 11 is surrounded by the peripheral wall portion 21 as in this embodiment, it becomes a skimmer installation measure. On the other hand, a guide groove or the like cannot be formed in the housing. Become. However, this problem is solved by setting the angle θ1 of the second connection portion 11s (note that the angle θ1 of the second connection portion 11s is set so as to be common to all the connector terminals 11). Specifically, the angle θ1 is the connector terminal 11 in the most floating state within the range of the assumed positioning error with respect to the terminal insertion direction of the connector terminal 11 (direction perpendicular to the card surface 2s; see the arrow B direction in FIG. 9). Even if it exists, it sets to the angle which the front-end | tip part 11z contacts the surface of a board | substrate reliably. That is, in the terminal group 12 of the connector device 1, when there is a positioning error between the connector terminals 11, the connector terminal 11 inserted to the back is bent by the contact with the board at the second connecting portion 11 s base portion. Is relatively large and the bending of the base portion of the second connecting portion 11s is relatively small for the floating connector terminal 11. As a result, the tip portions 11z of all the connector terminals 11 come into contact with the substrate 60, and the problem of coplanarity is solved.

  As described above, in the state in which the connector device 1 is taken out from the board 60, as shown in FIG. 9, the second connection portion 11s is not parallel to the direction parallel to the card surface 2s, but the second connection The direction along the portion 11s and the direction parallel to the card surface 2s are formed so as to form an acute angle larger than 0 degrees (see θ1 in FIG. 9). Since the connector terminal 11 is formed in this way, even if there is a positioning error between the plurality of connector terminals 11, the error is absorbed by the second connecting portion 11s. Therefore, in the connector device 1, the housing space 22 of the housing 20 does not open in a direction parallel to the card surface 2 s, but the coplanarity of the terminal group 12 does not become a problem.

(Second Embodiment)
Next, a card connector and a connector base according to a second embodiment of the present invention will be described with a focus on differences from the above embodiment. In addition, about the part similar to said embodiment, the same code | symbol is attached | subjected to a figure and the description is abbreviate | omitted. FIG. 11 is a schematic plan view of a connector base according to the second embodiment of the present invention.

  In the card connector 110 according to the present embodiment, the number of skimming detection terminals is different from that of the above embodiment. Specifically, in the card connector 110, the four skimming detection terminals 30, 131, 132, and 133 are inserted in all directions parallel to the card surface 2 s, and the insertion direction of the smart card 2 and the insertion The terminal group 12 is arranged so as to sandwich the terminal group 12 from both sides in two directions that are perpendicular to the direction (ie, the vertical direction). More specifically, in the card connector 110, with respect to the insertion direction, the skimming detection terminal 30 and the skimming detection terminal 131 are arranged so as to sandwich the terminal group 12 from both sides, and the vertical direction (see FIG. 11). ), The skimming detection terminal 132 and the skimming detection terminal 133 are arranged so as to sandwich the terminal group 12 from both sides. The card connector may be configured in this way.

  In the card connector 110, the four skimming detection terminals 30, 131, 132, 133 are arranged in the direction in which the smart card 2 is inserted and the direction perpendicular to the insertion direction among all the directions parallel to the card surface 2 s. With respect to the two directions, the terminal group 12 is disposed so as to be sandwiched from both sides. Therefore, since the plurality of skimming detection terminals surround the surrounding four sides of the terminal group 12, it can be detected regardless of which direction the housing 20 is cut from the four surrounding sides. Further, by arranging the skimming detection terminals so that the terminal group 12 is sandwiched between the insertion direction and the two directions perpendicular to the insertion direction, it is possible to efficiently detect the skimmer installation action with a small number of skimming detection terminals. it can.

(Third embodiment)
Next, a card connector and a connector base according to a third embodiment of the present invention will be described with a focus on differences from the above embodiment. In addition, about the part similar to said embodiment, the same code | symbol is attached | subjected to a figure and the description is abbreviate | omitted. FIG. 12 is a perspective view of the card connector according to the third embodiment of the present invention. FIG. 13 is a schematic plan view of a connector base according to the third embodiment of the present invention.

  In the connector base 240 according to the present embodiment, the housing 220 of the card connector 210 and the support housing 241 are formed separately. Therefore, as shown in FIG. 12, the card connector 210 is configured as an independent component. The connector base 240 is configured by combining the support housing 241 and the card connector 210. The card connector and the connector base may be configured in this way.

(Fourth embodiment)
Next, a connector base according to a fourth embodiment of the present invention will be described focusing on the differences from the above embodiment. In addition, about the part similar to said embodiment, the same code | symbol is attached | subjected to a figure and the description is abbreviate | omitted. FIG. 14 is a schematic plan view of a connector base according to the fourth embodiment of the present invention.

  Unlike the above embodiment, the connector base 340 according to this embodiment does not include a portion corresponding to the card connector in the above embodiment. The connector base 340 constitutes a card connector device in which a card slot 1 s is formed in combination with the housing cover 50. The connector base 340 includes a terminal group 12 and a housing body 342 that supports the terminal group 12. The configuration of the terminal group 12 is the same as the configuration in the above embodiment.

  The housing body 342 is formed with a housing peripheral wall 343. The housing peripheral wall 343 is connected to the terminal group 12 when viewed along a direction perpendicular to the card surface 2s of the smart card 2 in the connected state. And the connecting portion 11t is covered so as not to be exposed when viewed along all directions parallel to the card surface 2s. The housing main body 342 is formed with an intermediate wall 342m similar to that in the above embodiment.

  The housing peripheral wall portion 343 will be described in more detail. The housing peripheral wall portion 343 includes peripheral wall portions 343a, 343b, 343c, 343d, 343e, 343f, and 343g. The peripheral wall portion 343a and the peripheral wall portion 343c are arranged so as to sandwich the terminal group 12 in the insertion direction, and the peripheral wall portions 343b, 343d, and 343e are arranged so as to sandwich the terminal group 12 in the vertical direction. The connector base may be configured in this way.

  The connector base 340 according to the present embodiment constitutes a card connector device in which a card slot 1 s into which a smart card 2 having eight card terminals 2 t is inserted is formed on the card surface 2 s in combination with the housing cover 50. A surface mount type connector base comprising a terminal group 12 constituted by eight connector terminals 11 and a housing main body 342 for supporting the terminal group 12, each of the eight connector terminals 11 having eight Each of the eight card terminals 2t is electrically connected to each of the two card terminals 2t, and each of the eight connector terminals 11 is a first contact portion 11f that is a portion in contact with each of the eight card terminals 2t; A second connection portion 11s that is a portion connected to the substrate 60 by surface mounting, and the first connection portion 11f. And a connecting portion 11t for connecting the second connecting portion 11s, and a housing peripheral wall portion 343 is formed in the housing main body portion 342, and the housing peripheral wall portion 343 is connected to the smart card 2 in the connected state. The terminal group 12 is surrounded when viewed along a direction perpendicular to the card surface 2s, and the connecting portion 11t is covered so as not to be exposed when viewed along all directions parallel to the card surface 2s. Yes. With this configuration, a surface mount type connector base that can prevent skimming damage with a simple configuration can be obtained.

  Note that one or more skimming detection terminals may be disposed on a connector base such as the connector base 340 that does not include a portion corresponding to the card connector in the above embodiment.

  Although the embodiments of the present invention have been described above, the present invention is not limited to the above-described embodiments, and various modifications can be made as long as they are described in the claims.

  Note that the card connector and connector base according to the first to fourth embodiments described above are surface-mount type, but are not surface-mount type, but are DIP-type card connectors and connector bases. In other words, a configuration having a peripheral wall portion (or a housing peripheral wall portion) and a skimming detection terminal can be applied. Even in this case, the same effects as those of the surface mount type can be obtained.

1 is a schematic side view showing an overall configuration of a connector device including a card connector and a connector base according to a first embodiment of the present invention. It is the schematic of the connector apparatus of FIG. 1, (a) is a front view, (b) shows a bottom view. It is a perspective view of the connector base containing the connector for cards in the connector apparatus of FIG. It is the schematic of the connector base of FIG. 3, (a) is a top view, (b) shows a rear view. It is a schematic bottom view of the connector base of FIG. FIG. 2 is a bottom perspective view of a housing cover in the connector device of FIG. 1. It is the schematic of the housing cover of FIG. 6, (a) is a bottom view, (b) shows a rear view. It is a perspective view of the connector terminal contained in the connector apparatus of FIG. It is side view explanatory drawing for demonstrating the 2nd connection part of the connector terminal of FIG. 8, and shows the state by which the connector terminal is not attached to the housing. FIG. 3 is an explanatory schematic diagram illustrating an example of use of a skimming detection terminal 30 included in the connector device of FIG. 1. It is a schematic plan view of the connector base which concerns on 2nd Embodiment of this invention. It is a perspective view of the connector for cards concerning a 3rd embodiment of the present invention. It is a schematic plan view of the connector base which concerns on 3rd Embodiment of this invention. It is a schematic plan view of the connector base which concerns on 4th Embodiment of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Connector apparatus 1s Card slot 2 Smart card 2s Card surface 2t Card terminal 10,110,210 Card connector 11 Connector terminal 11f 1st connection part 11s 2nd connection part 11t Connection part 12 Terminal group 20,120,220 Housing 20m Middle Wall portion 20s Wall surface 20t Wall surface 21, 221 Peripheral wall portion 22 Storage space 23 Insertion port 30, 131, 132, 133 Skimming detection terminal 40, 140, 240, 340 Connector base 41, 141, 241 Support housing 42 Projection portion 342 Housing body Part 343 housing peripheral wall part 50 housing cover 51 projection part 52 projection part 60 substrate 71 card presence / absence detection switch 71c connection part 71d connection part 71s contact part

Claims (6)

A surface mount type card connector for connecting a smart card having a plurality of card terminals on the card surface,
A terminal group composed of a plurality of connector terminals;
A housing for supporting the terminal group,
Each of the plurality of connector terminals is electrically connected to each of the plurality of card terminals,
Each of the plurality of connector terminals includes a first connection portion that is a portion that contacts each of the plurality of card terminals, a second connection portion that is a portion connected to the substrate by surface mounting, A first connecting portion and a connecting portion for connecting the second connecting portion;
A peripheral wall portion is formed in the housing,
The peripheral wall surrounds the terminal group when viewed along a direction perpendicular to the card surface of the smart card in a connected state, and when viewed along all directions parallel to the card surface Further, the card connector characterized by covering the connecting portion in each of the plurality of connector terminals.   The card connector according to claim 1, wherein at least one skimming detection terminal is attached to the peripheral wall portion.   The plurality of skimming detection terminals sandwich the terminal group from both sides with respect to two directions of the direction in which the smart card is inserted and the direction perpendicular to the insertion direction among all directions parallel to the card surface. The card connector according to claim 2, wherein the card connector is disposed on the card. The housing is formed with a plurality of accommodating spaces for inserting and attaching the plurality of connector terminals,
4. The housing according to claim 1, wherein a plurality of insertion openings for inserting and attaching the plurality of connector terminals into the plurality of receiving spaces are opened in a direction perpendicular to the card surface. The card connector according to any one of the above. A surface mount type connector base constituting a connector device in which a card slot into which a smart card having a plurality of card terminals is inserted is formed on a card surface by a combination with a housing cover,
The card connector according to any one of claims 1 to 4,
A support housing for supporting the card connector;
The connector base, wherein the housing and the support housing are formed integrally or separately. A surface mount type connector base constituting a connector device in which a card slot into which a smart card having a plurality of card terminals is inserted is formed on a card surface by a combination with a housing cover,
A terminal group composed of a plurality of connector terminals;
A housing main body for supporting the terminal group,
Each of the plurality of connector terminals is electrically connected to each of the plurality of card terminals,
Each of the plurality of connector terminals includes a first connection portion that is a portion that contacts each of the plurality of card terminals, a second connection portion that is a portion connected to the substrate by surface mounting, A first connecting portion and a connecting portion for connecting the second connecting portion;
A housing peripheral wall portion is formed in the housing body portion,
The peripheral wall portion of the housing surrounds the terminal group when viewed along a direction perpendicular to the card surface of the smart card in a connected state, and is viewed along all directions parallel to the card surface. Sometimes, the card connector covers the connecting portion so as not to be exposed.

Images