JP3827582B2 - Card connector device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a structure of a card connector device used for various types of portable information terminals such as mobile phones and PCs, small memory cards used for memory compatible devices such as digital cameras and digital AV devices.
[0002]
[Prior art]
A card connector device is generally used as an expansion recording device for electronic devices such as personal computers and digital cameras. As a storage medium for the card connector device, a PC card or a memory card has been widely used.
[0003]
This PC card or memory card is inserted into a card connector device to write and read necessary information. In recent years, small memory cards are long, short, and thick. Various types of memory cards having different shapes such as thin ones have been developed, and various types of card connector devices have been developed in response to these types.
[0004]
In this case, the card connector device is compatible with only one type of memory card, and only one specific memory card can be inserted into one card connector device. For this reason, when it is desired to use various types of memory cards, it is necessary to prepare a card connector device dedicated to each memory card.
[0005]
[Problems to be solved by the invention]
However, there are cases where it is desired to insert two cards into one card connector device, and the two cards are arranged side by side, rather than being inserted with the two cards stacked one above the other. There is a demand to reduce the thickness by inserting it. In this case, if the two cards are simply arranged side by side, the slide members constituting the discharge mechanism are arranged side by side, resulting in a problem that the width is increased.
[0006]
Therefore, the present invention solves the above-described problems, is a card connector device having a discharge mechanism, and has a configuration in which two cards can be inserted side by side, and the width dimension can be reduced. An object is to provide a card connector device.
[0007]
[Means for Solving the Problems]
In order to solve the above-described problems, the present invention provides, as a first means, a first card storage portion into which a first card having a short length can be inserted, and the first card storage portion arranged in parallel in the lateral direction. And a housing having a second card storage portion into which a second card having a length longer than that of the first card can be inserted, and provided in the housing, and inserted into the first card storage portion. A first card discharging means for discharging the first card; and a second card discharging means for discharging the second card inserted in the second card storage unit, The first card ejecting means includes a first slide member disposed so as to be movable in the card insertion direction along with the insertion of the first card, and a first slide member for biasing the first slide member in the card ejection direction. 1 return spring, a first heart-shaped cam groove that holds the first slide member at the card insertion position against the biasing force of the first return spring, and the first heart-shaped cam groove The first heart-shaped cam groove is disposed in parallel to the side of the first slide member in the housing, and the second card ejecting means includes: A second slide member disposed so as to be movable in the card insertion direction in accordance with the insertion of the second card, a second return spring for biasing the second slide member in the card discharge direction, and the second Against the biasing force of the return spring of the second slide member A second heart-shaped cam groove that is held in the card insertion position and a second engagement pin that engages with the second heart-shaped cam groove. One end side is pivotally supported in the front-rear direction of the two slide members, While forming the first card storage portion to be shorter in depth than the second card storage portion, The first card ejecting means and the second card ejecting means are arranged side by side in the left-right position in the card insertion direction, Behind the first card storage unit And within the range up to the rear end of the second card storage section. It was set up.
[0009]
The second 2 As the means, the first card is shorter in the card insertion direction than the second card, and the first card is inserted into the first card storage unit, The second card inserted into the second card storage portion is formed such that the protruding amount when the card is inserted from the housing is the same.
[0010]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention are shown in FIGS. FIG. 1 is a plan view of the card connector device, FIG. 2 is a plan view of the card without the cover, FIG. 3 is a plan view of the first card, FIG. 4 is a bottom view, and FIG. 6 is a bottom view, FIG. 7 is a plan view of the card connector device when the first and second cards are ejected, and FIG. 8 is a plan view of the card connector device when only the first card is inserted. 9 is a plan view of the card connector device when only the second card is inserted, and FIG. 10 is a plan view of the card connector device when both the first and second cards are inserted.
[0011]
1 and 2, the housing 1 is formed in a box shape with an opening at the front and upper side with an insulating material such as synthetic resin, and the left side of the housing 1 is formed in a rectangular shape with a slightly shorter depth. The right side is formed in a rectangular shape with a longer depth than this, and is formed in a continuous shape in a substantially inverted L shape as a whole.
[0012]
The left square portion of the housing 1 is provided with a first card storage portion 1a that opens forward and upward, and extends to the front surface of the housing 1 continuously to the first card storage portion 1a. 1 card insertion portion 1b is formed. Further, the right square portion of the housing 1 is provided with a second card storage portion 1c having an opening at the front and the top. The second card storage portion 1c is connected to the front surface of the housing 1 continuously. An extending second card insertion portion 1d is formed. That is, the first card storage part 1a and the second card storage part 1c are formed in parallel in the horizontal direction.
[0013]
A first sliding portion 1e in which a first sliding member 5 for discharging a first card 12 (to be described later) slides behind the first card storage portion 1a at the approximate center of the housing 1. And a second sliding portion 1 f on which a second slide member 8 for discharging a second card 13 to be described later slides. In this case, the first sliding part 1e is arranged in parallel at the left and right positions so that the first sliding part 1e is on the left side in the card insertion direction, and the second sliding part 1f is on the right side in the card insertion direction. It has become a thing.
[0014]
A first spring accommodating portion 1g for accommodating a first return spring 7 described later is provided at the rear end portion (on the card insertion direction side) of the first sliding portion 1e. The inner surface of the rear end of one spring accommodating portion 1g is an abutting portion with which one end of the first return spring 7 abuts. A second spring accommodating portion 1h for accommodating a second return spring 10 described later is provided at the rear end portion (on the card insertion direction side) of the second sliding portion 1f. The inner surface of the rear end of the second spring accommodating portion 1h is an abutting portion with which one end of the second return spring 10 abuts.
[0015]
In addition, an annular first heart-shaped cam groove 1i having a plurality of slopes and planes is formed in parallel on the side of the first sliding portion 1e, and the second sliding portion A shaft hole 1j is formed in front of the portion 1f (on the card ejection direction side) so that one end side of a second engagement pin 9 described later is pivotally supported.
[0016]
A plurality of first connector terminals 3 made of a conductive metal material are juxtaposed in the first card storage portion 1a. The first connector terminal 3 is disposed at a substantially central position of the first card storage portion 1a, and is bent into a substantially Z shape in a direction opposite to each other from a flat base portion. The connecting piece 3a and the contact piece 3b are formed. The first connector terminal 3 is arranged such that the connection piece 3a formed on one end side is exposed outward from a first opening 1k provided on the bottom surface of the first card storage portion 1a. The connection piece 3a is soldered and fixed to a circuit pattern on an external circuit board such as an electronic device, so that signal transmission is performed.
[0017]
The contact piece 3b formed on the other end side of the base portion of the first connector terminal 3 is connected to the first opening 1l provided on the bottom surface of the first card storage portion 1a. It protrudes in the card storage part 1a. Further, a contact portion connected to a contact terminal portion 12a of the first card 12 described later is formed on the distal end side of the contact piece 3b.
[0018]
A plurality of second connector terminals 4 made of a conductive metal material are juxtaposed in the second card storage portion 1c. The second connector terminal 4 is disposed at the rear end (on the card insertion direction side) of the second card storage portion 1c, and is located behind the position where the first connector terminal 3 is disposed. It is formed of a flat base portion, and a connection piece 4a and a contact piece 4b formed by bending the base portion in directions opposite to each other. In the second connector terminal 4, the connection piece 4a formed on one end side is disposed so as to protrude outward from the rear surface portion of the housing 1, and the connection piece 4a is provided outside the electronic device or the like. Signals are transmitted by being soldered and fixed to a circuit pattern on the circuit board.
[0019]
Further, the contact piece 4b formed to extend to the other end side of the base portion of the second connector terminal 4 is disposed so as to protrude into the second card storage portion 1c. Further, a contact portion connected to a contact terminal portion 13a of the second card 13 described later is formed on the distal end side of the contact piece 4b.
[0020]
A pair of insertion guide portions 1m for guiding side surfaces of the first card 12, which will be described later, are formed on both side surfaces of the first card storage portion 1a. Similarly, the second card storage portion is also provided. On both side surfaces of the portion 1c, a pair of insertion guide portions 1n for guiding a side surface portion of a second card 13 described later is formed.
[0021]
The first slide member 5 is formed in an approximately inverted L shape from an insulating material such as a synthetic resin, and extends in a direction intersecting the rectangular base portion 5a and the rear end side of the base portion 5a. And a receiving portion 5b. The card receiving portion 5b protrudes into the first card storage portion 1a of the housing 1, and abuts against a front end edge of a first card 12 to be described later inserted into the first card storage portion 1a. Thus, the first slide member 5 is moved in the card insertion direction.
[0022]
Further, a shaft hole 5c is formed on the upper center side of the card receiving portion 5b so that one end side of a first engagement pin 6 described later is pivotally supported. On the end side, there is provided a spring abutting portion that is accommodated in the first spring accommodating portion 1g and that is engaged with one end side of a first return spring 7 described later.
[0023]
The first engagement pin 6 is formed of a metal wire, and both ends thereof are bent downward, and one end thereof is formed in the shaft hole 5c provided in the card receiving portion 5b of the first slide member 5. The first slide member 5 is pivotally supported, and the other end side slides in the first heart-shaped cam groove 1i provided on the side of the first sliding portion 1e. It is locked at the card insertion position and moved to the ejection position.
[0024]
The first return spring 7 is composed of a compression spring formed by winding a wire in a coil shape. One end of the compression spring is locked to the spring contact portion of the first slide member 5, and the other end is The housing 1 is locked to the abutting portion on the inner surface of the rear end of the first spring accommodating portion 1g. The first slide member 5 is urged in the card ejection direction by the urging force of the first return spring 7. At this time, due to the cooperation of the first engagement pin 6 and the first heart-shaped cam groove 1 i, the first slide member 5 resists the urging force of the first return spring 7. It is held at the insertion position.
[0025]
As described above, the first card storage portion 1a is configured by the first slide member 5, the first heart-shaped cam groove 1i, the first engagement pin 6, and the first return spring 7. The first card discharging means is configured to discharge the first card 12 inserted into the card.
[0026]
The second slide member 8 is also formed in a substantially inverted L shape from an insulating material such as a synthetic resin, and has a rectangular base portion 8a and a card extending in a direction intersecting the front end side of the base portion 8a. And a receiving portion 8b. The card receiving portion 8b protrudes into the second card storage portion 1c of the housing 1, and abuts against a front end edge of a second card 13 to be described later inserted into the second card storage portion 1c. Thus, the second slide member 8 is moved in the card insertion direction.
[0027]
An annular second heart-shaped cam groove 8c having a plurality of slopes and planes is formed on the upper surface side of the base portion 8a, and the lower surface side of the base portion 8a is provided with the second heart-shaped cam groove 8c. A spring abutting portion is provided, which is accommodated in the second spring accommodating portion 1h and is in contact with one end side of a second return spring 10 described later.
[0028]
The second engagement pin 9 is also formed of a metal wire, and both ends thereof are bent downward, and one end side of the shaft is provided in front of the second sliding portion 1 f of the housing 1. The second slide member 8 is pivotally supported in the hole 1j, and the other end side slides on the second heart-shaped cam 8c provided on the second slide member 8, so that the second slide member 8 is inserted into the card. It is locked at the insertion position and moved to the discharge position.
[0029]
The second return spring 10 is formed of a compression spring formed by winding a wire in a coil shape, and one end side of the compression spring is locked to the spring contact portion of the second slide member 8 and the other end side thereof. The housing 1 is locked to the abutting portion on the inner surface of the rear end of the second spring accommodating portion 1h. The second slide member 8 is urged in the card ejection direction by the urging force of the second return spring 10. At this time, due to the cooperation of the second engagement pin 9 and the second heart-shaped cam groove 8 c, the second slide member 8 resists the urging force of the second return spring 10. It is held at the insertion position.
[0030]
In this way, the second card storage portion 1c is configured by the second slide member 8, the second heart-shaped cam groove 8c, the second engagement pin 9, and the second return spring 10. The second card ejecting means for ejecting the second card 13 inserted into the card is configured.
[0031]
In the above configuration, the first and second slide members 5 and 8 and the first and second slide members 5 and 8 as the first and second card discharge means for discharging the first card 12 and the second card 13 respectively. A push-lock mechanism comprising the second return springs 7 and 10, the first and second heart-shaped cam grooves 1i and 8c, and the first and second engagement pins 6 and 9 are used. Therefore, the card can be surely ejected by pressing each card once from the card insertion position, so that the card can be easily taken out.
[0032]
Further, the first and second ejecting means are the rear of the first card storage portion 1a of the housing 1 into which the first card 12 having a shorter length than the second card 13 is inserted. Since the first card storage portion 1a and the second card storage portion 1c can be arranged side by side as close as possible in the horizontal direction, the width dimension of the housing 1 can be increased. It can be made as small as possible.
[0033]
The cover member 11 is formed of a conductive metal plate, and is attached to the upper surface side of the housing 1 so as to cover the opening on the upper surface side of the housing 1. Further, the first and second engagements pivotally supported by the first slide member 5 and the shaft holes 5c and 1j of the housing 1 by cutting and bending at the center of the cover member 11. First and second pins 6 and 9 are urged to slidably contact the first and second heart-shaped cam grooves 1i and 8c provided in the housing 1 and the second slide member 8, respectively. The second urging spring pieces 11a and 11b are formed at positions corresponding to the first and second lock pins 6 and 9, respectively.
[0034]
The cover member 11 is formed so as to cover the upper surfaces of the first and second connector terminals 3 and 4 disposed in the first and second card storage portions 1a and 1c of the housing 1. It also serves as a shield plate that prevents intrusion of radiation noise from the outside.
[0035]
3 and 4, the first card 12 contains an integrated circuit (IC) therein and is widely used as a recording medium. A plurality of contact terminal portions 12 a are formed on one surface of one surface of the first card 12, and the contact terminal portions 12 a are disposed in the first card storage portion 1 a of the housing 1. By making contact with the contact piece 3b of the first connector terminal 3, various information processing with an electronic device connected to the outside is performed. Further, the first card 12 is provided with a sloped cutout portion 12b at one corner portion on the side where the contact terminal portion 12a is formed.
[0036]
When the first card 12 is inserted into the first card accommodating portion 1a, the front edge portion of the card is engaged with the card receiving portion 5b of the first slide member 5, whereby the first card 12 The slide member 5 is formed so as to be movable in the insertion direction with the insertion of the first card 12.
[0037]
Further, a concave groove portion 12c, which is an identification portion indicating card writing prohibition, is formed on one side surface portion of the first card 12, and a slidable identifier 12d is provided in the concave groove portion 12c. By sliding the identifier 12d, the position of the groove 12c can be changed, and whether or not writing to the card can be changed according to this position.
[0038]
5 and 6, the second card 13 contains an integrated circuit (IC) and is widely used as a recording medium. On one surface of the second card 13, a plurality of contact terminal portions 13a are formed on one end side, and the contact terminal portions 13a are disposed in the second card storage portion 1c of the housing 1. By contacting the contact piece 4b of the second connector terminal 4, various information processing with an electronic device connected to the outside is performed. Further, a notch portion 13b having an inclined surface is formed at one end portion of the second card 13.
[0039]
When the second card 13 is inserted into the second card accommodating portion 1c, the front edge portion of the second card 13 comes into contact with the card receiving portion 8b of the second slide member 8, The second slide member 8 is formed to be movable in the insertion direction with the insertion of the second card 13.
[0040]
Note that the second card 13 is formed in a substantially rectangular shape, and is longer in the insertion direction than the first card 12 and longer than the first card 12. It has been formed.
[0041]
In addition, the second connector terminal 4 disposed in the second card storage portion 1c of the housing 1 is disposed at the first connector terminal disposed in the first card storage portion 1a. 3 is formed deeper in the card insertion direction than the arrangement position 3, the rear edge of the first card 12 inserted into the housing 1, and the second card inserted into the housing 1. Since the protruding positions of the card 13 and the rear edge of the card 13 are substantially the same, even when two types of cards having different lengths are inserted into or ejected from the same connector device, Since the amount of protrusion is the same, operability and usability are good.
[0042]
Next, the operation when the first card 12 and the second card 13 are inserted into the connector device will be described with reference to FIGS.
[0043]
First, in the initial state, that is, when the first card 12 and the second card 13 are in the ejection position, the first slide member 5 and the second slide member 8 are in the first return state. The biasing force of the spring 7 and the second return spring 10 is biased in the card ejection direction, and the contact terminal portion 12a of the first card 12 and the contact terminal portion 13a of the second card 13 are: The contact piece 3b of the first connector terminal 3 and the contact piece 4b of the second connector terminal 4 are separated from each other. (Fig. 7)
[0044]
Next, when the first card 12 is pressed in the card insertion direction, the front edge portion of the first card 12 is engaged with the card receiving portion 5b of the first slide member 5; The first slide member 5 is movable in the insertion direction as the first card 12 is inserted, and the first slide member 5 is against the urging force of the first return spring 7. Moving in the insertion direction, one end of the first engagement pin 6 traces the first heart-shaped cam groove 1i and is locked in the lock position. (Fig. 8)
[0045]
At this time, the contact terminal portion 12a of the first card 12 and the contact piece 3b of the first connector terminal 3 come into contact with each other.
[0046]
When the second card 13 is pressed in the card insertion direction instead of the first card 12, the front edge portion of the second card 13 becomes the card receiving portion 8 b of the second slide member 8. , The second slide member 8 can move in the insertion direction as the second card 13 is inserted, and the second slide member 8 resists the urging force of the second return spring 10. The slide member 8 moves in the card insertion direction, and one end of the second engagement pin 9 traces the second heart-shaped cam groove 8c and is locked at the lock position. (Fig. 9)
[0047]
At this time, the contact terminal portion 13a of the second card 13 and the contact piece 4b of the second connector terminal 4 come into contact with each other.
[0048]
FIG. 10 shows a state in which the first card 12 and the second card 13 are simultaneously inserted. In this case, the second card 13 is formed in a substantially rectangular shape, and the length in the insertion direction is longer than that of the first card 12 as compared with the first card 12. Since the second connector terminal 4 is disposed at a position deeper in the card insertion direction than the first connector terminal 3 is disposed. The protruding positions of the rear edge of the first card 12 and the rear edge of the second card 13 are substantially the same.
[0049]
In the above embodiment, both the first card discharge means and the second card discharge means are arranged behind the first card storage section 1a. However, the first card storage section Only the first card ejection means is disposed behind 1a, and the second card ejection means is disposed on the side of the second card storage portion 1c, or the first card storage. Only the second card ejecting means may be disposed behind the portion 1a, and the first card ejecting means may be disposed on the side of the first card storage portion 1a.
[0050]
According to the said structure, the said 1st card storage part 1a and the said 2nd card storage part 1c are formed in parallel in the horizontal direction, and the said 1st card storage part 1a is said 2nd card storage part 1c. In addition, the depth length is shorter than the first card storage portion 1a, and at least one or both of the first card discharge means and the second card discharge means are disposed behind the first card storage portion 1a. Therefore, even in a connector device in which two cards can be inserted side by side, the first card storage portion 1a into which the first card 12 shorter in length than the second card 13 is inserted. Since at least one or both of the first card discharge means and the second card discharge means are arranged using the dead space, ie, the dead space, the lateral width of the housing can be reduced. It has become what it is possible to reduce the width dimension of the entire data unit.
[0051]
【The invention's effect】
As described above, the card connector device according to the present invention is arranged in parallel with the first card storage portion into which the first card having a short length can be inserted, and the first card storage portion. , A housing having a second card storage portion into which a second card having a length longer than that of the first card can be inserted, and a first card provided in the housing and inserted into the first card storage portion. First card ejecting means for ejecting the second card and second card ejecting means for ejecting the second card inserted in the second card accommodating portion, the first card accommodating portion being the second card ejecting portion. While forming the depth length shorter than the card storage part of The first card ejection means and the second card ejection means are juxtaposed in the left and right positions in the card insertion direction, Behind the first card compartment And within the range up to the rear end of the second card compartment. Therefore, even in the connector device in which two cards can be inserted side by side, the rear side of the first card storage portion into which the first card having a shorter length than the second card is inserted, that is, The first card ejection means and the second card ejection hand in the dead space Step Since it is arranged, the lateral width dimension of the housing can be reduced, so that the lateral width dimension of the entire connector device can be reduced.
[0052]
The first card ejecting means biases the first slide member arranged to be movable in the card insertion direction along with the insertion of the first card in the card ejection direction. A first return spring, a first heart-shaped cam groove that holds the first slide member in the card insertion position against the biasing force of the first return spring, and the first heart-shaped cam groove; The second card ejecting means comprises a second slide member disposed so as to be movable in the card insertion direction when the second card is inserted, and the second card ejecting means. A second return spring for urging the slide member in the card ejection direction, and a second heart-shaped cam groove for holding the second slide member in the card insertion position against the urging force of the second return spring And a second engagement pin that engages with the second heart-shaped cam groove. From becoming, each card, since it is possible to reliably discharge the card by once pressing the card mounting position, can be easily taken out of the card.
[0053]
In addition, the first card is shorter in the card insertion direction than the second card, and the first card is inserted into the first card storage unit and the second card storage unit. The second card to be inserted is formed so that the protruding amount when the card is inserted from the housing is the same, so that two types of cards having different lengths are inserted into / removed from the same connector device. Even in this case, since the protruding amount of each card is the same, operability and usability are good.
[Brief description of the drawings]
FIG. 1 is a plan view showing a card connector device according to an embodiment of the present invention.
FIG. 2 is a plan view showing the card connector device with the cover removed according to the present invention.
FIG. 3 is a plan view showing the same first card of the present invention.
FIG. 4 is a bottom view showing the same first card of the present invention.
FIG. 5 is a plan view showing a second card of the present invention.
FIG. 6 is a bottom view of the second card of the present invention.
FIG. 7 is a plan view showing the card connector device when the first and second cards are ejected according to the present invention.
FIG. 8 is a plan view showing the card connector device with only the first card of the present invention inserted.
FIG. 9 is a plan view showing the card connector device with only the second card of the present invention inserted.
FIG. 10 is a plan view showing a card connector device when both the first and second cards of the present invention are inserted.
[Explanation of symbols]
1 Housing
1a First card storage section
1b 1st card insertion part
1c Second card storage
1d Second card insertion part
1e First sliding part
1f Second sliding part
1g 1st spring accommodating part
1h Second spring housing part
1i Heart-shaped cam groove
1j Shaft hole
1k first opening
1l second opening
1m insertion guide
1n Insertion guide
3 First connector terminal
3a connection piece
3b Contact piece
4 Second connector terminal
4a Connection piece
4b Contact piece
5 First slide member
5a base
5b Card receiving part
5c Shaft hole
6 First engagement pin
7 First return spring
8 Second slide member
8a base
8b Card holder
8c Heart-shaped cam groove
9 Second engagement pin
10 Second return spring
11 Cover member
11a First biasing spring piece
11b Second biasing spring piece
12 First card
12a Contact terminal
12b Notch
12c concave groove
12d identifier
13 Second card
13a Contact terminal
13b Notch

Claims (2)

A first card storage portion in which a first card having a short length can be inserted, and a second card having a length longer than that of the first card are arranged side by side with the first card storage portion. A housing having a second card storage portion that can be inserted; and a first card discharge means that is provided in the housing and discharges the first card inserted into the first card storage portion; Second card ejecting means for ejecting the second card inserted in the second card storage portion, and the first card ejecting means moves in the card insertion direction with the insertion of the first card. A first slide member that can be disposed, a first return spring that urges the first slide member in the card discharge direction, and the first return spring against the urging force of the first return spring. A first heart-shaped cam groove for holding the slide member in the card insertion position A first engaging pin that engages with the first heart-shaped cam groove, and the first heart-shaped cam groove is disposed in parallel to the side of the first slide member in the housing; The second card ejecting means includes a second slide member disposed so as to be movable in the card insertion direction when the second card is inserted, and a second slide member for biasing the second slide member in the card ejection direction. 2 return springs, a second heart-shaped cam groove that holds the second slide member in the card insertion position against the urging force of the second return spring, and the second heart-shaped cam groove A second engaging pin that engages with the housing, and the second engaging pin is pivotally supported on the housing in the front-rear direction of the second slide member, and the first card storage portion. The depth is shorter than that of the second card storage portion. Together with the first card ejection means and the second card ejection means, and arranged in parallel in left and right positions toward the card insertion direction, receiving the first card holding section behind a and the second card part card connector device characterized by being disposed within the range up to the rear end of. The first card is shorter in the card insertion direction than the second card, and the first card inserted into the first card storage unit and the second card 2. The card connector device according to claim 1, wherein the second card inserted into the storage portion is formed so that the protruding amount when the card is inserted from the housing is the same .

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