JP4044775B2 - Memory card connector - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a memory card connector when an information device is operated by selectively inserting different types of memory cards into the same connector, and more particularly to a contact protection mechanism.
[0002]
[Prior art]
Conventionally, different types of memory cards, which serve as various information media, are each provided with a dedicated connector and attached to an information device, and the stored information on the media is taken out or stored.
The present applicant has already proposed in Japanese Patent Application No. 2000-165932 (Japanese Patent Application Laid-Open No. 2001-351709) a memory card connector in which a plurality of memory cards can be mounted without increasing the area occupied by the board. Needless to say, the memory card connector proposed here allows a plurality of memory cards to be inserted. Various cards are mounted according to each case.
[0003]
[Problems to be solved by the invention]
In the memory card connector having the above-described structure, a load is always applied when any card is inserted in the contact on the card insertion side, and plastic deformation occurs when the card is overloaded. There was a problem that the role as a contact could not be fulfilled and contact failure would occur.
In addition, when a card that contacts a contact on the back side is inserted, it has been considered to use a slider that protects the contact on the card insertion side. When using a slider, it is necessary to provide a mechanism to move the slider when a card that contacts the card insertion side contact is inserted, and at the same time when a card that contacts the back side contact is inserted. It is necessary to provide a mechanism for moving the slider due to the card eject function.
[0004]
The present invention can reliably protect the contact on the card insertion side when a card that contacts the contact on the back side is inserted using the slider, and the slider can be easily moved when one of the cards is inserted. An object of the present invention is to provide a memory card connector having a mechanism.
[0005]
[Means for Solving the Problems]
The above-described object is a memory card connector 10 into which two types of cards are detachably inserted. The memory card connector 10 has contact portions 48 and 50 that contact the two types of cards 70 and 72 on both sides of the free end and a substantially central portion. The plate-like piece 20 having the engaging portion 46 in the vicinity thereof, the fitting opening 30 into which the two types of cards 70 and 72 are inserted, and the two types of first and second contacts 14 and 16 are the cards 70 and 72. A housing 12 having a contact insertion portion that is arranged in a state where no load is applied before the insertion of the plate, and provided with a locking portion 32 that engages with the engagement portion 46 of the plate-like piece 20; Two types of first and second contacts 14, 1, which are held and fixed to the housing 12 and have a contact portion with the cards 70, 72, a fixed portion fixed to the housing 12, and a connection portion connected to the substrate. And a mounting portion 58 having a comb-shaped guide groove 60 for protecting the contact portion of the second contact 16 disposed on the card insertion direction side, and the plate-like piece 20 is mounted on one side in the width direction. And a slider 18 provided with an escape groove 56 into which the engaging portion 46 of the plate-like piece 20 enters. The plate-like piece has a receiving portion A / B52 near the contact portions A, B48, 50 on both sides of the free end. 54, and the slider 18 is provided with pressing portions A, B34, 36 for pressing the receiving portions A, B52, 54. When one card is inserted, either one of the plate-like pieces 20 is contacted. When the card contacts the contact portion of the plate-like piece 20, the engaging portion 46 of the plate-like piece 20 contacts the contact portion A, B52, 54 of the plate-like piece 20 as a fulcrum. By moving in a direction opposite to the pressing direction of the part. Disengaged from the engaging portion 32 of the ring 12 can be accomplished by the slider 18 is movably mounted on the bottom plate 28 of the housing 12.
[0006]
The plate-like piece 20 is provided with receiving portions A, B52, 54 in the vicinity of the contact portions A, B48, 50 on both sides of the free end, and the slider 18 has a pressing portion A, which presses the receiving portions A, B52, 54. B34 and 36 are provided. By doing in this way, the said receiving part A * B52, 54 can be made into a fulcrum.
Further, when one of the cards is inserted, it comes into contact with one of the contact portions of the plate-like piece 20, and the engaging portion 46 of the plate-like piece 20 is disengaged from the locking portion 32 of the housing 12, so that the slider 18. Is movably mounted on the bottom plate 28 of the housing 12.
The contact portions 48 and 50 of the plate-like piece 20 are shifted in contact position according to the thickness and width dimension of the card type. By doing in this way, the stage which the slider 18 moves can be changed with the kind of card | curd.
Furthermore, when the cards 70 and 72 come into contact with the contact portions A, B 48, and 50 of the plate-like piece 20, the engaging portion 46 becomes the fulcrum using the receiving portions A, B 52, and 54 of the plate-like piece 20 as fulcrums. It is made to come off from the locking part 32 of the housing 12.
[0007]
[Action]
As shown in FIG. 3, when one card 70 comes into contact with the contact portion A48 of the plate-like piece 20, the contact portion A48 is pushed down in the direction of the arrow “A” (the opposite side to the Y direction in FIG. 1), and the receiving portion A52. The engaging portion 46 is pushed up in the direction of the arrow “c” (on the side opposite to the contact portion A 48 (the Y direction side in FIG. 1)), and the engaging portion 46 is engaged with the locking portion 32 of the housing 12. The slider 18 moves on the bottom plate 28 of the housing 12 by pushing the tip provided with the comb-shaped guide groove 60 at the tip of the SD card 70.
As shown in FIG. 3, when the other card 72 comes into contact with the contact portion B50 of the plate-like piece 20, the contact portion B50 is pushed down in the direction of the arrow “B” (the opposite side to the Y direction in FIG. 1), and the receiving portion B54. The engaging portion 46 is pushed up in the arrow “c” direction (the side opposite to the contact portion B50 (the Y-direction side in FIG. 1)) with the fulcrum as a fulcrum, and the engaging portion 46 is released from the locking portion 32 of the housing 12. The slider 18 moves on the bottom plate 28 of the housing 12 by pushing the pressing portion 44 of the slider 18 with the tip of the MS card 72.
[0008]
DETAILED DESCRIPTION OF THE INVENTION
The memory card connector of the present invention will be described with reference to the drawings.
FIG. 1 is a perspective view of a memory card connector according to the present invention with the shell removed, and FIG. 2 is a perspective view of a plate-like piece and a slider of the memory card connector of the present invention. FIG. 3 is a view for explaining the movement of the plate-like piece according to the principle of the lever. 4A is a perspective view of an SD card, and FIG. 4B is a perspective view of a memory stick (MS card).
The memory card connector 10 of the present invention mainly includes two types of contacts 14 and 16, a housing 12, a slider 18, a plate-like piece 20, and a shell. The memory card connector 10 has a structure in which two different types of cards 70 and 72 can be inserted. For example, the SD card 70 shown in FIG. 4A and the MS card 72 shown in FIG. 4B can be inserted.
[0009]
One embodiment will be described with reference to FIGS. Hereinafter, each component will be described.
First, the plate-shaped piece 20 which is the point part of this invention is demonstrated. The plate-like piece 20 is made of metal, and is manufactured by a known press process, and is required to have a spring property or the like, so beryllium copper, phosphor bronze, or stainless steel (elastic) is often used.
The plate-like piece 20 has a substantially "<" shape, and is provided with a curved contact portion A48 and a contact portion B50 that come into contact with the side surface of the card on both sides of the free end. A protruding engaging portion 46 is provided. The plate-like piece 20 is provided with a receiving portion A52 and a receiving portion B54 in the vicinity of the contact portions on both sides of the free end. Each of the receiving portions A52 and B54 is a portion that serves as a fulcrum when a card is inserted and contacts the contact portions A48 and B50. The engaging portion 46 is a portion that engages with the locking portion 32 of the housing 12, and the slider 18 moves or is fixed by being engaged or disengaged.
[0010]
Regarding the positional relationship between the contact portion A48 and the contact portion B50, when the plate-like piece 20 is mounted on the slider 18, the card is inserted in consideration of the width and thickness dimensions of the SD card 70 and the MS card 72. Sometimes designed to come in contact with one card. In this embodiment, when the SD card 70 is inserted, it comes into contact with the contact portion A48, and when the MS card 72 is inserted, it comes into contact with the contact portion B50. That is, since the SD card 70 is wider than the MS card 72, the contact portion A48 is outside the contact portion B50, and since the MS card 72 is thicker than the SD card 70, the contact portion B50 is higher than the contact portion A48. ing. The positional relationship between the engaging portion 46 and the receiving portions A52 and B54 is engaged with the locking portion 32 of the housing 12 when each card is not inserted, and when one card is inserted, The contact portions A48 and B50 are brought into contact with each other, and the receiving portions A52 and B54 serve as fulcrums, and the engagement portions 46 are appropriately designed to be disengaged from the locking portions 32. The size of the engaging portion 46 is designed to securely engage the engaging portion 32 of the housing 12 when each card is not inserted. For this reason, in the present embodiment, the "U" shape is projected by bending, but it may be partially projected by punching.
[0011]
Next, the slider 18 which is another point part of the present invention will be described.
The slider 18 is an electrically insulating plastic and is manufactured by a known technique of injection molding. As the material of the slider 18, since dimensional stability, strength and low cost are required, polybutylene terephthalate (PBT), polyamide (PA), polycarbonate (PC), liquid crystal polymer (LCP), polyphenylene sulfide (PPS). Etc. are often used.
The slider 18 has a substantially flat plate shape, and a mounting portion 58 to which the plate-like piece 20 is mounted is provided on one side in the width direction, and an eject mechanism portion 68 for ejecting a card is provided on the other side. It has been. A comb-shaped contact guide groove 60 that protects the contact portion of the second contact 16 is provided on the card insertion direction side. The guide groove 60 protects the contact portion of the second contact 16 when the MS card 72 is inserted, and until the side surface of the MS card 72 contacts the contact portion B50 of the plate-like piece 20. The MS card 72 moves on the slider. Therefore, at the tip of the slider 18 on the guide groove 60 side, an invitation portion 62 such as a C chamfer, an R shape or a taper is provided so that the MS card 72 can easily rise on the slider 18.
On the opposite side of the comb tooth shape, a pressing portion 44 that contacts the tip of the MS card 72 is provided. When the MS card 72 pushes the pressing portion 44, the slider 18 moves on the bottom plate 28 of the housing 12.
[0012]
The mounting portion 58 has a shape along the plate-like piece 20 and is fixed by press-fitting or caulking. Escape grooves 56 are provided at positions corresponding to the engaging portions 46 of the plate-like piece 20, and pressing portions A34 and B36 are provided at positions corresponding to the receiving portions A52 and B54. The mounting portion 58 at the portion where the pressing portions A34 and B36 are provided is in a state where there is almost no clearance with the plate-like piece 20 in consideration of the role of the receiving portions A52 and B54 of the plate-like piece 20. That is, the pressing portions A34 and B36 of the slider 18 and the outer wall sandwich the receiving portions A52 and B54 of the plate-like piece 20 so that the receiving portions A52 and B54 serve as fulcrums, and FIG. The clearance is such that it can be displaced as described above. The clearance in this case is appropriately designed so that the displacement as shown in FIG. 3 (explained by the action of paragraph 0007) is possible. The mounting portion 58 into which the contact portions A48 and B50 of the plate-like piece 20 are inserted is appropriately designed so as to provide a clearance in consideration of displacement of each contact portion, and other than the receiving portions A52 and B54. The other portions are also appropriately designed so as to provide a clearance in consideration of displacement by the “leverage principle”. The size of the relief groove 56 is not required to contact when the engaging portion 46 of the plate-like piece 20 is displaced, and is designed in consideration of the strength of the slider 18 and the displacement amount of the engaging portion 46.
[0013]
On the side opposite to the side on which the mounting portion 58 of the plate-like piece 20 is provided, an ejecting mechanism portion 68 having an approximately L shape for ejecting each card is provided. The ejection mechanism 68 on the card insertion side is provided with a heart groove 64, an elastic escape groove 66 is provided on the opposite side, and a holding hole into which the elastic body 40 is inserted is provided in the escape groove 66. It has been. As the eject mechanism portion 68, a so-called heart cam is used in which the card is pushed out when a certain amount or more is pushed. The applicant has proposed this heart cam mechanism in Japanese Patent Application No. 2001-235113. A substantially L-shaped metal pin is inserted into the heart groove 64, and the other end of the metal pin is fixed to the housing 12.
The width of the slider 18 is designed to be about 0.05 to 0.1 mm smaller than the inner dimension of the side wall 24 of the housing 12 so that the slider 18 can move without tilting.
[0014]
The positional relationship between the contact portions A48 and B50 when the plate-like piece 20 is mounted on the slider 18 will be described. The contact portion A48 protrudes from the comb-shaped tip of the slider 18 toward the card insertion direction. The contact portion B50 is mounted so as to be closer to the card insertion direction side than the pressing portion 44 of the slider 18. By attaching the plate-like piece 20 to the slider 18 so that the contact portions A48 and B50 are in such a positional relationship, the engaging portion 46 of the plate-like piece 20 is disengaged from the locking portion 32 of the housing 12. After that, the tip of each card pushes the comb-like tip of the slider 18 or the holding portion 44, and the slider 18 moves on the bottom plate 28 of the housing 12.
[0015]
Next, the housing 12 will be described.
The housing 12 is an electrically insulating plastic and is manufactured by a known injection molding. As the material of the housing 12, since dimensional stability, strength and low cost are required, polybutylene terephthalate (PBT), polyamide (PA), polycarbonate (PC) and the like are often used.
The housing 12 has a substantially “U” shape and includes a main body 22, two side walls 24, and a bottom plate 28, which form a fitting port 30 into which a card is inserted. The two side walls 24 are provided with guide portions 26 for guiding the card insertion. One side wall 24 can be engaged with the engaging portion 46 of the plate-like piece 20. When the MS card 72 is inserted, the slider 18 is engaged. A locking portion 32 is provided at a position where the second contact 16 can be protected by the comb-shaped guide groove 60. The main body portion 22 has a contact insertion portion into which the second contact 16 connected to the MS card 72 is inserted, and an elastic body 40 is fixed in the vicinity of the side wall 24 opposite to the side where the locking portion 32 is provided. A pin 42 is provided. Contact insertion in which the first contact 14 connected to the SD card 70 is inserted into the bottom plate 28 when the insertion of the SD card 70 is completed on the card insertion side and at a position corresponding to the contact portion of the SD card 70 Has a part.
[0016]
Next, the two types of first and second contacts 14 and 16 will be described.
Each of the contacts 14 and 16 is made of metal and is manufactured by a known technique of press working and requires springiness, conductivity, etc., so brass, beryllium copper, and phosphor bronze are often used. Each of the contacts 14 and 16 is mainly composed of a contact portion that contacts the card, a fixed portion that is fixed to the housing 12, and a connection portion that is connected to the substrate. The first contact 14 is connected to the MS card 72, and the second contact 16 is connected to the SD card 70. The two types of first and second contacts 14 and 16 are arranged substantially at right angles to and opposite to the card insertion direction. The first and second contacts 14 and 16 are fixed to the housing 12 by press-fitting or hooking.
[0017]
Finally, the metal shell will be described.
The metal shell is made of metal and is formed by a known press working, and the material is often brass, phosphor bronze, beryllium copper, stainless steel, or the like. The metal shell is fixed to the opposite side of the bottom plate of the housing by bonding or the like. By using the metal shell, the connector has a shielding effect.
[0018]
In general, when the memory card connector 10 is connected to a substrate, a fixing bracket such as a tab 38 is often used in order to cope with a distortion when the card is inserted. The fixing metal fitting is also made of metal and is made by a known press working. The fixture is connected to the substrate together with the contacts and switch terminals by reflow or the like.
[0019]
【The invention's effect】
The present invention can obtain the following remarkable effects by adopting the above-described structure.
(1) It has the fitting opening 30 into which the two types of cards 70 and 72 are inserted, and the two types of first and second contacts 14 and 16 are loaded before the cards 70 and 72 are inserted. A housing 12 having a contact insertion portion disposed substantially opposite to and opposite to the card insertion direction in a state where there is no contact, and provided with a locking portion 32 that engages with the engagement portion 46 of the plate-like piece 20; Two types of first and second contacts 14 and 16 that are held and fixed to the housing 12 and have a contact portion with the card, a fixed portion fixed to the housing 12, and a connection portion connected to the board, and the card insertion direction It has a comb-like guide groove 60 that protects the contact portion of the second contact 16 on the side, a mounting portion 58 for mounting the plate-like piece 20 on one side in the width direction, and engagement of the plate-like piece 20. Escape where part 46 enters 56 and a slider 18 provided with, a plate-shaped piece 20 having an engaging portion 46 in the vicinity of the substantially central portion and having a contact portion 48, 50 in contact with the two kinds of cards to the free end sides, said plate-shaped pieces Is provided with receiving parts A, B 52, 54 in the vicinity of the contact parts A, B 48, 50 on both sides of the free end, and the slider 18 is provided with pressing parts A, B 34, 36 for pressing the receiving parts A, B 52, 54 When one card is inserted, it contacts one of the contact portions of the plate-like piece 20, and when the card contacts the contact portion of the plate-like piece 20, the receiving portion A of the plate-like piece 20 The engaging portion 46 of the plate-like piece 20 is displaced from the locking portion 32 of the housing 12 by displacing the engaging portion 46 of the plate-like piece 20 in the direction opposite to the pressing direction of the contact portion with B52 and 54 as fulcrums. Move on the bottom plate 28 Can mounted to Rei Runode, plastic deformation and buckling is eliminated connection failure or the like of the second contact 16 is exhausted together with the second contact 16 can be reliably protected when inserting the MS card 72.
(2) The positional relationship between the contact portions A48 and B50 when the plate-like piece 20 is mounted on the slider 18 is that the contact portion A48 protrudes from the comb-shaped tip of the slider 18 toward the card insertion direction. Since the contact portion B50 is mounted so as to be closer to the card insertion direction side than the pressing portion 44 of the slider 18, the engaging portion 46 of the plate-like piece 20 is the locking portion 32 of the housing 12. After being removed from the card, the tip of each card pushes the comb-shaped tip portion or the holding portion 44 of the slider 18 so that the slider 18 can easily move on the bottom plate 28 of the housing 12. Become.
(3) Since the plate-like piece 20 is provided with receiving portions 52 and 54 near the contact portions on both sides of the free end, and the slider 18 is provided with pressing portions 34 and 36 for pressing the receiving portions 52 and 54. The engaging portion 46 of the plate-like piece 20 can be easily detached from the engaging portion 32 of the housing 12 by the “lever principle”.
[Brief description of the drawings]
FIG. 1 is a perspective view of a memory card connector according to the present invention with a metal shell removed.
FIG. 2 is a perspective view of a plate-like piece and a slider used in the memory card connector of the present invention.
FIG. 3 is a diagram for explaining the movement of a plate-like piece according to the principle of leverage.
FIG. 4A is a perspective view of an SD card.
(B) It is a perspective view of a memory stick (MS card).
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 Memory card connector 12 Housing 14 1st contact 16 2nd contact 18 Slider 20 Plate-shaped piece 22 Main body part 24 Side wall 26 Guide part 28 Bottom plate 30 Fitting port 32 Locking part 34 Pressing part A
36 Pressing part B
38 Tab 40 Elastic body 42 Pin 44 Pressing portion 46 Engaging portion 48 Contact portion A
50 Contact B
52 Receiver A
54 Receiver B
56 Escape groove 58 Mounting part 60 Contact guide groove 62 Invitation part 64 Heart groove 66 Elastic body escape groove 68 Ejecting mechanism part 70 SD card 72 MS card

Claims (2)

A memory card connector into which two types of cards are detachably inserted,
A plate-like piece having a contact portion that comes into contact with the two types of cards on both sides of the free end and an engaging portion in the vicinity of the center portion, and a fitting slot into which the two types of cards are inserted, and two types of The first and second contacts have contact insertion portions that are arranged so that no load is applied before the card is inserted, and a locking portion that engages with the engagement portion of the plate-like piece is provided. Two types of first and second contacts, each having a contact portion that is held and fixed to the housing, is fixed to the housing, is fixed to the housing, and a connection portion that is connected to the board, and a card insertion direction. A comb-like guide groove for protecting the contact portion of the second contact disposed on the side, and a mounting portion on which the plate-like piece is attached on one side in the width direction, and engagement of the plate-like piece Slurries with relief grooves to enter A loaders, the plate-like piece receiving portion is provided in the contact portion near the free end sides to, in the slider provided with a pressing portion for pressing the receiving portion, the plate-like and one card is inserted When the card comes into contact with one of the contact parts and the card contacts the contact part of the plate-like piece, the engaging part of the plate-like piece becomes the fulcrum of the receiving part of the plate-like piece. A memory card connector in which the slider is disengaged from the engaging portion of the housing by being displaced in a direction opposite to the pressing direction, and the slider is mounted to be movable on the bottom plate of the housing . The contact portions of the plate-like piece, the memory card connector of claim 1 wherein the is characterized in that shifting the contact position in accordance with the type of thickness and width of the card.

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