JP2010219070A - Card socket - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a card socket having a structure in which lowering its height is made possible. <P>SOLUTION: A first switch piece 610 out of the first switch piece 610 and a second switch piece 620 which compose a detecting switch for detecting insertion/ejection of a card is integrally formed with a cover 500. The second switch piece 620 is retained by an insulator 700 for retaining a switch piece. The insulator 700 for retaining a switch piece is supported by a metal member to be assembled with the cover 500. With this, even if the detecting switch is arranged, resin can be made thinner so that lowering of a height of a card socket can be attained. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a card socket that at least partially accommodates a card such as a memory card in a small electronic device such as a mobile phone.

  As this kind of card socket, what was indicated by patent documents 1-patent documents 3, for example is known. Among these, the card socket described in Patent Document 2 has a structure that can be reduced in height as compared with the card sockets of Patent Document 1 and Patent Document 3.

  In recent years, card sockets such as the card socket described in Patent Document 3 are generally provided with a switch for detecting card insertion / ejection.

JP 2005-228519 A JP 2008-53124 A JP 2007-242634 A

  In the case of the card socket of Patent Document 2, a reduction in height can be achieved, but for that reason, a holding portion for holding the contact must be provided on the back side in the card insertion direction, and the degree of freedom in design is low. There's a problem. For example, in the case of the card socket of Patent Document 2, due to positional restrictions on the holding portion, the contact portion of the contact (the portion that contacts the card terminal) is closer to the insertion direction than the portion held by the holding portion. Must be located on the side.

  In addition, in the case of the card socket of Patent Document 2, it is structurally difficult to provide a detection switch as shown in Patent Document 3 without increasing the size.

  Therefore, an object of the present invention is to provide a card socket having a structure that is different from the card socket of Patent Document 2 and that can achieve a low profile.

According to the present invention, as the first card socket,
A base frame made of metal, wherein the first part and the second part are separated from each other in a second direction orthogonal to the first direction and the first part and the second part extending in the first direction. A base frame having a connecting portion to be connected;
An insulator provided so as to bridge between the first part and the second part of the base frame in the second direction;
A contact held by the insulator;
A cover made of a metal material that is separate from the base frame, and is combined with the base frame so as to cover the insulator in a third direction orthogonal to both the first direction and the second direction; A card socket is obtained that includes a frame and a cover that constitutes a card accommodating portion that at least partially accommodates the card.

Further, according to the present invention, as the second card socket, in the first card socket,
A card socket configured so that the base frame does not have a portion overlapping with the insulator in the third direction between the first portion and the second portion is obtained.

Further, according to the present invention, as the third card socket, in the first or second card socket,
The contact has a contact portion that contacts a terminal of the card and a held portion that is held by the insulator;
As the contact, a card socket held by the insulator is obtained such that the contact portion is positioned forward of the held portion in the card insertion direction.

Further, according to the present invention, as the fourth card socket, in any of the first to third card sockets,
A card socket is obtained in which the connecting portion is located at a position different from the contact in the first direction.

According to the invention, as the fifth card socket, in any of the first to fourth card sockets,
At least one of the first part and the second part includes a standing part that rises in the third direction,
The insulator is a card socket formed so as to sandwich the upright portion in the second direction.

According to the present invention, as the sixth card socket, in the fifth card socket,
A through hole is formed in the standing portion,
As for the insulator, the card socket located also in the said through-hole is obtained.

Further, according to the present invention, as the seventh card socket, in the fifth card socket,
A concave portion recessed in the third direction is formed in a portion sandwiched between the insulators of the standing portion,
In the first direction, the size of the recess is smaller than the size of the portion sandwiching the standing portion of the insulator,
The insulator is a card socket that is also located in the recess.

According to the present invention, as the eighth card socket, in any of the first to seventh card sockets,
A detection switch for detecting insertion / ejection of a card, a first switch piece formed so as to be integrated with the cover, and a second switch piece that contacts the first switch piece in the first direction; A detection switch having
An insulator for holding a switch piece for holding the second switch piece;
A card socket further supporting a switch piece holding insulator and further comprising a metal member combined with the cover is obtained.

According to the present invention, as the ninth card socket, in the eighth card socket,
The metal member has a backup part,
The backup unit is arranged to receive the force received by the second switch piece by contact between the first switch piece and the second switch piece via the switch piece holding insulator in the first direction. Card socket is obtained.

Further, according to the present invention, as the tenth card socket, in the eighth or ninth card socket,
The metal member includes a locking part or a locked part,
The card socket having the locked portion or the locked portion of the metal member and the locked portion or the locked portion locked in the first direction is obtained as the cover.

According to the present invention, as the eleventh card socket, in any of the eighth to tenth card sockets,
The metal member is a card socket formed integrally with the base frame.

Moreover, according to the present invention, as the twelfth card socket, in any of the first to eleventh card sockets,
A card socket further including a card ejection mechanism for discharging the card accommodated in the card accommodation portion is obtained.

Furthermore, according to the present invention, as the thirteenth card socket,
A cover partially covering the inserted card;
A detection switch for detecting insertion of a card, comprising: a first switch piece formed so as to be integrated with the cover; and a second switch piece that contacts the first switch piece in the first direction. A detection switch;
An insulator for holding a switch piece for holding the second switch piece;
A card socket is obtained that includes a metal member that supports the switch piece holding insulator and is combined with the cover.

  According to the present invention, since the insulator is bridged between the first part and the second part of the base frame, the contact is held, so that a reduction in height can be achieved.

  In addition, in the case of the present invention, the positional restriction provided in the holding portion for holding the contact in Patent Document 2 does not exist in the insulator according to the present invention. When the contact portion of the contact is arranged on the near side in the insertion direction with respect to the held portion as in Patent Document 2, the contact (especially the contact portion) must be formed and arranged so as not to obstruct the card insertion. For example, the contact may interfere with card insertion unless the tip of the contact is bent downward to smoothly guide the card insertion. Further, when the contact tip has such a shape, a margin must be taken in the thickness direction in consideration of contact bending when the contact contact portion contacts the card terminal. For this reason, there is a limit to reducing the height of the card socket. On the other hand, when the contact portion of the contact is arranged on the back side in the insertion direction with respect to the held portion, there is no restriction that prevents the card socket from being reduced in height with respect to the shape of the tip portion of the contact. Therefore, according to the present invention, even when compared with the card socket disclosed in Patent Document 2, a further reduction in height can be achieved. Furthermore, since the base frame which the card socket by this invention has has a connection part, compared with the card socket of patent document 2, there also exists an advantage that the intensity | strength in a 2nd direction is high.

  Furthermore, according to the present invention, since the first switch piece constituting the detection switch is formed integrally with the cover, the normally closed type (the first switch piece and the second switch piece in the state before inserting the card) Even in the case of detection switches that are in the contact state), the risk of deformation of the card socket components during reflow mounting (for example, deformation of the resin that composes the insulator and the resulting displacement of the switch piece) is reduced. can do. In particular, a backup member is provided on a metal member combined with the cover (for example, a metal member separately incorporated in the base frame of the present invention or an insulator housing according to the prior art), and the first switch piece and the second switch piece are brought into contact with each other. When the force received by the two switch pieces is received by the backup unit via the switch piece holding insulator in the first direction, the risk of deformation of the components of the card socket during reflow mounting can be further reduced.

It is a perspective view which shows the card socket by embodiment of this invention. It is a perspective view which shows the state which accommodated the card | curd in the card socket of FIG. It is a disassembled perspective view which shows the card socket of FIG. It is a figure which shows the layout before forming an insulator by the mold-in method. It is a perspective view which shows the contact of FIG. It is sectional drawing along the VI-VI line which shows the insulator of FIG. 3, a contact, and a base frame. It is the perspective view seen from diagonally downward which shows the cover of FIG. It is sectional drawing along the VIII-VIII line which shows the base frame and cover of FIG. It is a top view which shows the card socket of FIG. Here, the main part of the cover is omitted in order to clarify the structure of the detection switch. It is sectional drawing along the XX line which shows the detection switch of FIG.

  The card socket according to the embodiment of the present invention is a card socket for a MicroSD card, which is a so-called push / push type, and is reflow mounted on a mobile phone or the like.

  As shown in FIGS. 1 to 3, the card socket according to the present embodiment includes a metal base frame 100, an insulator 200 supported by the base frame 100, a contact 300 held by the insulator 200, and a card. Ejecting mechanism 400 for ejecting 900, metal cover 500 covering insulator 200 and contact 300, detection switch 600 for detecting insertion of card 900, and a switch piece for holding a part of detection switch 600 And a holding insulator 700. Insulator 200 and switch piece holding insulator 700 in the present embodiment are made of resin.

  As shown in FIGS. 3 and 4, the base frame 100 includes a first portion 110 and a second portion 120 extending in the Y direction (first direction), and a first portion 110 and the second portion 120 in the X direction (first direction). The first connecting portion 130 and the second connecting portion 140 that are connected in a separated state in two directions), and side portions 150 and 160 that rise from both ends in the X direction in the Z direction (third direction). A standing portion 112 that rises in the Z direction is formed on the edge portion of the first portion 110 that is closer to the second portion 120, and a through hole 114 is formed in the standing portion 112. Yes. The standing portion 112 has a role of preventing the base frame 100 from bending in the Z direction in addition to the role of preventing the insulator 200 from peeling off as described later. A standing portion 122 that rises in the Z direction is also formed at the edge of the second portion 120 far from the first portion 110, and a recessed portion 124 that is recessed along the Z direction is formed in the standing portion 122. ing. As shown in FIGS. 4, 6, and 8, each of the side portions 150 and 160 is formed with a locking piece 170 that protrudes outward in the X direction. As is clear from FIG. 4, the standing portion 122 in the present embodiment is a part of the side portion 160.

  As shown in FIGS. 3 and 6, the insulator 200 is provided so as to bridge between the first portion 110 and the second portion 120 of the base frame 100 in the X direction. As understood from FIGS. 3 and 4, the insulator 200 is located between the first connecting part 130 and the second connecting part 140 in the Y direction. Therefore, as shown in FIGS. 3 and 6, the insulator 200 does not overlap the base frame 100 in the Z direction between the first portion 110 and the second portion 120. As can be understood from FIGS. 3, 4, and 6, the portion 210 on the first portion 110 side of the insulator 200 extends in the Y direction and has a shape that sandwiches the standing portion 112 in the X direction. ing. The part 210 is also located in the through hole 114. Thereby, it is prevented that the insulator 200 peels from the 1st site | part 110. FIG. A portion 220 on the second portion 120 side of the insulator 200 extends in the Y direction, and a part 222 of the portion protrudes in the X direction and extends in the Y direction outside the standing portion 122. That is, a part 222 of the insulator 200 sandwiches the standing part 122 in the X direction and is also located in the recess 124 of the standing part 122. As is clear from FIG. 9, the size of the part 222 of the insulator 200 is larger than the size of the recess 124 in the Y direction. Thereby, it is also prevented that the insulator 200 peels from the 2nd site | part 120. FIG.

  As shown in FIG. 5, the contact 300 is fixed to a spring part 310 having a contact part 312, a held part 320 held by the insulator 200, and a pattern on a board on which a card socket is mounted. Part 330. A recessed portion 322 that is recessed in the Z direction is formed in the held portion 320. As shown in FIGS. 3 and 6, the contact 300 is held by the insulator 200 with the recess 322 buried in the insulator 200. Thereby, it is possible to prevent the contact 300 from coming off from the insulator 200. Further, as can be understood from FIGS. 3 and 6, the contact 300 is disposed on a different plane from the first connecting portion 130 of the base frame 100. That is, the contact 300 is located at a position different from the first connecting portion 130 of the base frame 100 in the Z direction. Therefore, the first connecting part 130 does not interfere with the contact between the contact 300 and the terminal of the card 900. Also, as shown in FIG. 6, the bottom surface of the insulator 200 and the bottom surfaces of the first part 110 and the second part 120 are located on the same plane, so that the card socket can be shortened. Further, as shown in FIG. 3, in the present embodiment, the contact portion 312 of the contact 300 is located in front of the held portion 320 in the card insertion direction, and the fixed portion 330 is inserted into the card. It is located behind the held portion 320 in the direction. According to this arrangement, the tip 314 of the contact 300 does not hinder insertion of the card 900. Thereby, in this Embodiment, the height H of the contact part 312 from the front-end | tip part 314 can be made small (for example, the height H can also be made 0). Therefore, according to the arrangement of the contact 300 according to the present embodiment, it is possible to reduce the margin for preventing the tip portion 314 from coming into contact with the substrate when the spring portion 310 is bent and deformed, and it is not necessary to increase the margin. Compared with a card socket as in Patent Document 2 that does not obtain the above, the card socket can be reduced in height.

  As shown in FIGS. 3 and 9, the ejection mechanism 400 in the present embodiment includes a slider 410 with a cam, a cam follower 420 that follows the cam of the slider 410, and a coil spring that biases the slider 410 in the discharge direction. 430 and disposed on the first portion 110.

  As shown in FIGS. 3 and 7, the cover 500 includes a main portion 510 that constitutes the upper surface of the card socket, side portions 520 that extend from both ends in the X direction of the main portion 510 in the Z direction, and a front end of the main portion 510. 1 and a front portion 530 extending in the Z direction. As shown in FIG. 1, the card accommodating portion 800 is configured by being combined with the base frame 100. As understood from FIGS. 1 and 2, the card 900 is accommodated in the card accommodating portion 800 except for the rear end portion of the card 900. A locked hole 540 that penetrates the side portion 520 in the X direction is formed in the side portion 520 of the cover 500. As shown in FIGS. 1 and 8, the locking piece 170 of the base frame 100 is locked in the locked hole 540, whereby the combination of the base frame 100 and the cover 500 is maintained. Further, the relative movement of the base frame 100 and the cover 500 in the Y direction is limited by the engagement of the locking piece 170 with the locked hole 540.

  As shown in FIGS. 1 and 9, the detection switch 600 is a normally closed type switch provided in front of the contact 300, and the first switch piece 610 and the second switch piece 620 that contact each other in the Y direction. It has. That is, the detection switch 600 according to the present embodiment is in contact with the first switch piece 610 and the second switch piece 620 when the card 900 is not inserted, and with the first switch piece 610 and the second switch piece 620 when the card 900 is inserted. The second switch piece 620 becomes non-contact. As shown in FIG. 7, since the first switch piece 610 is formed integrally with the cover 500, the first switch piece 610 is prevented from being deformed while having a sufficient spring force. On the other hand, as shown in FIGS. 9 and 10, the second switch piece 620 is held by a switch piece holding insulator 700, and the switch piece holding insulator 700 is connected to the second connecting portion 140 of the base frame 100. Is supported by In the present embodiment, an example in which the metal base frame 100 is provided is described. However, the point that the first switch piece 610 is formed integrally with the cover 500 is described in, for example, Patent Document 3. Thus, the present invention can also be applied to a structure having a base insulator.

  As understood from FIG. 10, the second connecting portion 140 in the present embodiment is configured so that the force received by the second switch piece 620 due to the contact between the first switch piece 610 and the second switch piece 620 in the Y direction. It functions as a backup unit that is received via the holding insulator 700. Specifically, since the detection switch 600 in the present embodiment is a normally closed type, the first switch piece 610 and the second switch piece 620 receive a force in the Y direction when the card 900 is not inserted. . The force received by the second switch piece 620 is transmitted to the switch piece holding insulator 700. If the reflow mounting of the card socket is performed in a state where such a force is applied, the switch piece holding insulator 700 may be greatly deformed by heat during the reflow mounting if there is no backup portion. However, according to the present embodiment, in the Y direction, the second connecting portion (backup portion) 140 backs up the second switch piece 620 via the switch piece holding insulator 700. Here, the resin is weak against bending stress and tensile stress but relatively strong against compressive stress. Accordingly, the provision of the second connecting portion 140 can prevent the switch piece holding insulator 700 from being deformed.

  Furthermore, the backup unit in the present embodiment, that is, the second connecting unit 140 is a part of the base frame 100, and the base frame 100 is combined with the cover 500. Accordingly, the force applied to the second switch piece 620 due to the contact between the first switch piece 610 and the second switch piece 620 is engaged with the locking portion 170 via the switch piece holding insulator 700 and the base frame 100. It is transmitted to the locking portion with the stop hole 540. On the other hand, the force applied to the first switch piece 610 due to the contact between the first switch piece 610 and the second switch piece 620 is a locking portion between the locking portion 170 and the locked hole 540 via the cover 500. Is transmitted to. As a result, the force received by the first switch piece 610 and the second switch piece 620 due to the contact between the first switch piece 610 and the second switch piece 620 is the locking portion between the locking portion 170 and the locked hole 540. Offset by That is, since the system for transmitting force is a closed system in the card socket, the balance is maintained in the card socket, and problems such as distortion do not occur. In the present embodiment, the backup portion is a part of the base frame 100 (that is, the second connecting portion 140). However, any metal member that can be finally combined with the cover 500 may be used. You may comprise separately. That is, the second connecting part 140 and the side parts 150 and 160 may be formed of a metal member separate from the base frame 100. In the present embodiment, an example in which the metal base frame 100 is provided is described. However, the invention relating to the backup unit of the second switch piece 620 of the detection switch 600 is based on, for example, a base as in Patent Document 3 The present invention can also be applied to a structure having an insulator.

  In the present embodiment, the switch piece holding insulator 700 is formed integrally with the insulator 200 and is formed in the same process as the insulator that functions as the shaft hole portion 720 of the cam follower 420 and the insulator that functions as the grease stopper 730. . However, the present invention is not limited to this, and the switch piece holding insulator 700 may be formed in a state separated from the insulator 200.

  As described above, in the embodiment of the present invention, the base portion of the card socket is basically composed of the metal base frame 100 and is at least necessary for holding the contact 300 and ensuring electrical insulation. Since the resin is not used in any part other than the portion to be used, it is possible to reduce the height while maintaining the strength of the card socket.

  In the embodiment of the present invention, since the first connecting portion 130 and the second connecting portion 140 are provided, the rigidity in the X direction is also ensured, which is stronger than the structure of Patent Document 2. Improvements are being made.

  In addition, in the embodiment of the present invention, since one of the switch pieces (first switch piece 610) constituting the detection switch 600 is formed integrally with the cover 500, the strength of the detection switch 600 can be improved. In addition, since the backup unit (second connection unit 140) is provided for the remaining switch piece (second switch piece 620), the reflow mounting can be a problem particularly in a normally closed type detection switch. The deformation of the resin at the time can be prevented.

DESCRIPTION OF SYMBOLS 100 Base frame 110 1st site | part 112 Standing part 114 Through-hole 120 2nd site | part 122 Standing part 124 Recessed part 130 1st connection part 140 2nd connection part (backup part)
150, 160 Side 170 Locking piece 200 Insulator 210 Part 220 Part 300 Contact 310 Spring part 312 Contact part 314 Tip part 320 Supported part 322 Concave part 330 Fixed part 400 Eject mechanism 410 Slider 420 Cam follower 430 Coil spring 500 Cover 510 Main Portion 520 Side portion 530 Front portion 540 Locked hole 600 Detection switch 610 First switch piece 620 Second switch piece 700 Switch piece holding insulator 720 Shaft hole portion 730 Grease stopper 800 Card housing portion 900 Card

Claims (5)

A cover made of a metal material partially covering the card inserted along the first direction;
A detection switch for detecting insertion / ejection of a card, wherein the first switch piece is formed integrally with the cover, and the second switch piece is in contact with the first switch piece in the first direction. A detection switch having
A switch piece holding insulator for holding the second switch piece;
A card socket comprising a metal member that supports the switch-piece holding insulator and is combined with the cover. The card socket according to claim 1,
The metal member has a backup part,
The backup unit is arranged so as to receive the force received by the second switch piece by contact between the first switch piece and the second switch piece via the switch piece holding insulator in the first direction. Card socket. The card socket according to claim 1 or 2,
The metal member includes a locking part or a locked part,
The said cover is a card socket which has the to-be-latched part or latching part latched in the said 1st direction with the said latching | locking part or the to-be-latched part of the said metal member. The card socket according to any one of claims 1 to 3,
A base frame made of a metal material that is separate from the cover, further comprising a base frame that constitutes a card accommodating portion that at least partially accommodates the card together with the cover;
The metal member is a card socket formed integrally with the base frame. The card socket according to claim 4,
A card socket further comprising a card ejection mechanism for discharging the card accommodated in the card accommodation portion.

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