JP4647154B2 - Card connector - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a card connector, and more particularly, to a card connector that is used by being incorporated in a terminal device, a portable personal computer, and the like, and in which almost the entire card is inserted and connected in the terminal device.
[0002]
A memory card connector incorporated in a terminal device or the like is required to be miniaturized in accordance with demands for reducing the weight and thickness of the terminal device.
[0003]
[Prior art]
In general, a memory card connector incorporated in a terminal device or the like has a configuration in which the entire memory card is inserted and connected in the terminal device, and guides the memory card in the insertion process and is inserted. And an eject button that is pushed when the inserted memory card is ejected next to the frame.
[0004]
This memory card connector has a terminal member in the back part soldered to a pad on a circuit board, and a frame fixed on the circuit board. The memory card connector is provided at the memory card insertion slot of the terminal device. It is. The eject button is arranged right next to the memory card insertion slot of the terminal device.
[0005]
[Problems to be solved by the invention]
For this reason, the presence of an eject button on the memory card connector has been an obstacle to miniaturization of the terminal device.
[0006]
Even if the memory card connector has a configuration that does not require an eject button, the mechanism added along with the removal of the eject button increases the size of the memory card connector. There is no point in eliminating the eject button. Therefore, the mechanism added along with the removal of the eject button needs to be configured so as not to increase the size of the memory card connector.
[0007]
Therefore, an object of the present invention is to provide a card connector that solves the above problems.
[0008]
[Means for Solving the Problems]
In order to solve the above problems, the invention of claim 1
In a connector for a card that is mounted on a board and used, and a card having a card terminal portion is inserted and connected on the tip side in the insertion direction,
Guide rails on both sides for guiding the inserted card and supporting the inserted card, a horizontal section that crosses between the backs of the guide rails on both sides, and provided on this horizontal section and connected to the board A frame having a plurality of terminal members;
A connector member that is a member different from the frame, has a plurality of terminal members, and is provided in the frame so as to be movable in the card insertion direction;
A spring member for biasing the connector member in a direction opposite to the card insertion direction;
A locking mechanism that locks the connector member that has been moved to the back of the frame in its position and that releases the lock when the locked connector member is moved in the card insertion direction; And
The lock mechanism is provided on the end face of the connector member so as to be movable in the vertical direction and protrudes, and is provided on the inner side of the guide rail of the frame and tilts upward with respect to the insertion direction. A guide arm portion that contacts the pin, and a hook portion that extends downward from the insertion direction end of the guide arm portion and extends to the insertion direction side to lock the pin,
When the card is inserted, the connector member is pushed by the card and is moved by bending the spring member, the card terminal portion is connected to the terminal member of the connector member, and the terminal member of the connector member is Connected to the terminal member of the frame, the connector member is locked by the locking mechanism,
By pushing the rear end of the card inserted into the frame, the lock of the connector member by the lock mechanism is released, and the connector member is moved in the direction opposite to the card insertion direction by the spring member. The rear end side of the card is projected from the frame.
[0009]
The structure in which the connector member having the terminal member is provided in the frame having the terminal member so as to be movable in the card insertion direction is such that the connector member moves in the direction opposite to the card insertion direction, thereby The side will protrude from the frame. Grab the part protruding from the frame, and the card is removed. Therefore, the eject button is not necessary, and the size of the card connector is reduced.
[0010]
Moreover, the size of the card connector is reduced by providing the connector member having the terminal member in the frame having the terminal member so as to be movable in the card insertion direction.
[0012]
When removing the card, simply push the rear end of the card inserted in the frame, and it will be moved by the spring member so that the rear end of the card will protrude from the frame. Becomes easy.
[0013]
In the card connector, the spring member may be a leaf spring member provided between a horizontal portion of the frame and the connector member .
[0014]
By using the leaf spring member, the space occupied when bent is reduced to the thickness of the leaf spring member. Therefore, the size of the card connector is reduced.
[0016]
The lock mechanism is provided in the space between the end face of the connector member and the inside of the guide rail, and the size of the card connector is reduced.
[0017]
DETAILED DESCRIPTION OF THE INVENTION
1 and 2A to 2D show a memory card connector 20 according to an embodiment of the present invention. X1 and X2 are horizontal directions, Y1 and Y2 are depth directions, and Z1 and Z2 are height directions. Y1 is the card insertion direction, and Y2 is the card push-out direction (card eject direction).
[0018]
The memory card connector 20 is mounted on the circuit board 100. The circuit board 100 is incorporated in the terminal device 110, and the end of the frame of the memory card connector 20 is located in the memory card insertion slot 111 of the terminal device 110. The memory card connector 20 is JEIDA / PCMCIA compliant product, and a memory card (PC card) 10 is used. The memory card 10 is configured to have a connector portion 12 in which a large number of female connectors 11 are aligned at the tip in the insertion direction. Reference numeral 13 denotes a rear end portion.
[0019]
The memory card connector 20 includes a frame 30, a slidable connector member 50, and the like, and has a memory card insertion opening 30a on the Y2 side.
[0020]
The frame 30 is a synthetic resin molded part in which a plurality of terminal members are insert-molded, and includes guide rails 31 and 32, a horizontal portion 33, and horizontal bars 34 and 35. The guide rails 31 and 32 have flanges at the top and bottom and have a U-shaped cross section, and extend to Y1 and Y2 on both sides of X1 and X2 to guide the inserted memory card and the inserted memory. Hold the card. The guide rails 31 and 32 are connected by horizontal bars 34 and 35. The horizontal portion 33 connects the ends of the guide rails 31 and 32 on the Y1 side. The horizontal portion 33 is formed by inserting a plurality of terminal members, and a plurality of terminal members 36 are provided in alignment. The terminal member 36 has a mounting terminal portion 36a protruding from the horizontal portion 33 in the Y1 direction at one end, and a bellows terminal portion 36a protruding from the horizontal portion 33 in the Y2 direction at the other end. .
[0021]
The horizontal portion 33 and the horizontal rail 35 protrude from the lower surfaces 31b and 32b of the guide rails 31 and 32 in the Z2 direction. The bellows terminal portion 36a is formed between the XY plane S1 including the lower surfaces 31b and 32b of the guide rails 31 and 32 and the XY plane S2 including the lower surfaces of the horizontal portion 33 and the horizontal rail 35. It is located in a narrow space 70.
[0022]
Slit-like guide grooves 38 and 39 are formed in the Y1 side portions of the upper flanges 31a and 31b of the guide rails 31 and 32, respectively. Reference numerals 38a and 39a denote ends of the guide grooves 38 and 39 in the Y2 direction, and function as stoppers.
[0023]
As shown in FIG. 3 (A), an elongated guide / locking member 40 is provided on the Y1 side portion of the inner side surface of the guide rail 31. The guide / locking member 40 has a guide arm portion 40a and an L-shaped hook portion 40b at the Y1 end of the guide arm portion 40a, and the ring portion 40c in the middle of the guide arm portion 40a is connected to the guide rail. The protrusion is fixed by being fitted to the protrusion on the inner surface of 31 and crushed by heat. 31c is a crushed protrusion. The guide arm portion 40a is inclined so as to rise in the Z1 direction as it goes in the Y1 direction. The size and attachment position of the guide / locking member 40 are determined in relation to the connector member 50 described later.
[0024]
As shown in FIG. 3B, the end portion 40a1 in the Y2 direction of the guide arm portion 40a is determined in relation to the connector member 50 that is moved to the maximum in the Y2 direction and is located at P11. Regarding the direction, the height H2 is lower than the height H1 of the pin 56b described later, and the Y1-Y2 direction is shifted in the Y1 direction by the dimension a from the position P1 of the pin 56b. That is, the end 40a1 is located at a position where the pin 56b can be guided when the connector member 50 moves in the Y1 direction.
[0025]
As shown in FIG. 3C, the L-shaped hook portion 40b is determined based on the relationship with the connector member 50 that is moved to the maximum in the Y1 direction and is positioned at P20. The Z1-Z2 direction will be described later. The height H3 is higher than the height H1 of the pin 56b, and the Y1-Y2 direction is shifted in the Y2 direction by the dimension b from the position P10 of the pin 56b. The guide / locking member 40 is provided between the position P1 and the position P10.
[0026]
FIG. 3D shows a state in which the pin 56b is locked to the hook portion 40b, and the connector member 50 is locked while being restricted from moving in the Y2 direction. The pin 56b is at a position shifted in the Y2 direction by a dimension c from the position P10. The connector member 50 is located at a position P19 moved by a dimension c in the Y2 direction from the position P20. This dimension c is a dimension substantially corresponding to the diameter of the pin 56b and is short. Therefore, the size of the memory card connector 20 in the Y1-Y2 direction can be reduced.
[0027]
Here, the position P11 of the connector member 50, the dimension Q between the positions P11 and P20, and the position of the end of the guide rails 31 and 32 in the Y2 direction (the length of the guide rails 31 and 32) are the length L of the memory card 10. 12C, FIG. 14A, and FIG. 14B, the memory card insertion slot 111 (memory card insertion opening 30a) of the memory card 10 is completed after the memory card ejection shown in FIGS. The dimension L1 of the portion 14 protruding to the outside is determined to be a dimension that can be firmly grasped by the operator's fingers.
[0028]
Another guide / locking member 40 may also be provided on the inner surface of the opposite guide rail 32.
[0029]
The guide / locking member 40, a piece 56 and a pin 56b, which will be described later, constitute a lock mechanism.
[0030]
4A to 4C show the connector member 50. FIG. The connector member 50 is a member formed by inserting a plurality of terminal members, and has a structure in which a plurality of terminal members 52 are arranged in a synthetic resin mold block 51. The terminal member 52 includes a pin-shaped first terminal portion 52a protruding in the Y2 direction from the Y2-side surface 51a of the mold block 51, and an arc-shaped second terminal portion protruding from the lower surface 51b of the mold block 51. 52b.
[0031]
The first terminal portions 52 a are arranged corresponding to the female connectors 11 of the connector portion 12 at the tip of the memory card 10. The second terminal portion 52b is a slide contact and is arranged corresponding to the bellows terminal portion 36a.
[0032]
On the upper surface 51c of the mold block 51, protrusions 53 and 54 are formed at the ends of the X1 and X2 sides and the Y2 side.
[0033]
At the end of the mold block 51 in the X1 direction, a groove 55 having a T-shaped cross section is formed partway from the upper surface 51c in the Z2 direction. Reference numeral 56 denotes a piece, which includes a disc portion 56a and a pin 56b protruding from the disc portion 56a. The piece 56 is fitted in the groove 55, and the pin 56b protrudes from the end face 51d of the mold block 51 in the X1 direction to the X1 side. The piece 56 moves in the Z2 direction by its own weight. A groove 57 in the Y1-Y2 direction is formed on the end surface 51d. The groove 57 extends over substantially the entire width in the Z1-Z2 direction, and is formed to receive the guide / locking member 40 described above. The pin 56b protrudes into the groove 57.
[0034]
The connector member 50 having the above-described configuration is fitted to the guide rails 31 and 32 on the X1 and X2 end sides of the mold block 51, and is supported horizontally across the guide rails 31 and 32, in the Y1-Y2 direction. Is slidable. Further, the protrusions 53 and 54 are fitted in the guide grooves 38 and 39, respectively, and the sliding range is determined by the portion where the guide grooves 38 and 39 are formed. With respect to the Y2 direction, as shown in FIGS. 1 and 2A, the protrusions 53 and 54 are positions where they abut against the ends 38a and 39a, which is a position P10.
[0035]
When the connector member 50 is slid in the Y2 direction, the connector member 50 and the bellows terminal portion 36a are separated from the bellows terminal portion 36a and the connector member 50 is slid in the Y2 direction. 50 is positioned on the upper side of the bellows terminal portion 36a, and each second terminal portion 52b rides on the corresponding bellows terminal portion 36a, and the second terminal portion 52b and the bellows terminal portion 36a come into contact with each other and are electrically connected. It will be connected to.
[0036]
In FIG. 1 and FIG. 2, reference numeral 60 denotes a leaf spring member, and one end is fixed to a position near the guide rail 32 on the Y2 side surface of the horizontal portion 33 of the frame 30. The free end 60a side of the leaf spring member 60 is in contact with the position near the X1 end of the surface 51e on the Y1 side of the mold block 51, and pushes the connector member 50 in the Y2 direction.
[0037]
The leaf spring member 60 is accommodated in a space 61 between the horizontal portion 33 and the connector member 50. Therefore, the leaf spring member 60 is housed inside the frame 30, and the memory card connector 20 is small.
[0038]
The leaf spring member 60 bends in the space 61, and the dimension e in the Y1-Y2 direction of the space 61 is substantially the same as the thickness t of the leaf spring member 60, as shown in FIG. Bend until. Therefore, the connector member 50 can move to a position close to the horizontal portion 33 in the Y1 direction. As a result, the useless place is narrowed as much as possible in the Y1-Y2 direction, and the memory card connector 20 is small in size in the Y1-Y2 direction.
[0039]
The above is the configuration of the memory card connector 20.
[0040]
As shown in FIG. 1, the memory card connector 20 has a mounting terminal portion 36a soldered to a pad on the circuit board 100 and the guide rails 31 and 32 fixed to the circuit board 100 with screws or the like. Then, it is mounted on the circuit board 100. The memory card connector 20 is in the state shown in FIG.
[0041]
Next, operations and operations when the memory card 10 is inserted and connected to the memory card connector 20 will be described.
[0042]
5A to 5E show operations when the memory card 10 is connected to the memory card connector 20. For example, the operator performs an operation of pushing the memory card 10 with the index finger 200 twice. 5A and 5B show the first push-in operation, and FIG. 5D shows the second push-in operation.
[0043]
First, as shown in FIG. 5A, the memory card 10 is inserted into the memory card insertion slot 111 of the terminal device 110, and the rear end portion 13 of the memory card 10 is pushed with the finger 200 to be inserted into the memory card connector 20. To do. When most of the memory card 10 is inserted into the memory card connector 20, the resistance to insertion suddenly increases. However, the operator holds the memory card 10 with the finger 200 as shown in FIG. Push in firmly enough until you feel the memory card 10 hit the stopper.
[0044]
The memory card 10 is lightly inserted by being guided by the guide rails 31 and 32, and as shown in FIGS. 6 (A) and 6 (B), the leading end comes into contact with the first terminal portion 52a. Next, the connector member 50 is pushed in the Y1 direction, the leaf spring member 60 is bent, the connector member 50 is moved in the Y1 direction, and the leaf spring member 60 is maximized through the state shown in FIG. The connector member 50 is bent and the state shown in FIG. 8A is reached in which the connector member 50 is moved to the maximum in the Y1 direction. The connector member 50 is moved to a position P20 shown in FIG. The memory card 10 is further pushed in, so that the female connector 11 is fitted with the first terminal portion 52a, and finally the state shown in FIG.
[0045]
When the connector member 50 is pushed and moved in the Y1 direction, the pin 56b rides on the guide arm portion 40a of the guide / locking member 40 and moves to the guide arm portion 40a as shown in FIG. It is guided and moved to Y1 while being moved in the Z1 direction. Further, as shown in FIG. 8 (B), the pin 56b is moved in the Z2 direction over the guide arm portion 40a, once dropped on the L-shaped hook portion 40b, and further moved to Y1, and the hook portion. It escapes from 40b and is moved in the Z2 direction. In a state where the memory card 10 is pushed to the final position and the female connector 11 is fitted to the first terminal portion 52a, the pin 56b and the guide / locking member 40 are in the state shown in FIG. 9B. . The pin 56b is located in the Y1 direction and the Z2 direction with respect to the hook portion 40b.
[0046]
Next, the operator releases the finger 200 as shown in FIG. Then, the rear end side of the memory card 10 protrudes from the memory card insertion slot 111.
[0047]
When the finger 200 is released and the pushing force in the Y1 direction is released, the connector member 50 is moved in the Y2 direction by the spring force of the leaf spring member 60 as shown in FIG. The memory card 10 is moved in the Y2 direction, and the rear end side of the memory card 10 protrudes from the memory card insertion slot 111.
[0048]
As shown in FIG. 10B, the pin 56b is moved in the Y2 direction through the lower side of the hook portion 40b. At the final stage, the portion on the end portion 40a1 side of the guide arm portion 40a is moved to two points. As shown by the chain line, it bends in the Z1 direction, passes through this lower side, and returns to the initial position P1.
[0049]
Finally, as shown in FIG. 5D, the operator pushes the rear end side of the memory card 10 with the finger 200 to a position where the lock is applied, and releases the finger 200. As a result, as shown in FIG. 5E, the memory card 10 is accommodated in the terminal device 110, and the connection with the memory card connector 20 is completed.
[0050]
When the rear end side 13 of the memory card 10 is pushed with the finger 200, the connector member 50 is moved to the position 19 in the Y1 direction while bending the leaf spring member 60 as shown in FIG. As shown in FIG. 11C, the pin 56b rides on the guide arm portion 40a of the guide / locking member 40, is guided by the guide arm portion 40a, is moved in the Z1 direction, is moved to Y1, and is moved to the guide arm. When the portion 40a is exceeded, it is moved in the Z2 direction, falls onto the L-shaped hook portion 40b, and is locked there. As a result, the connector member 50 is locked and movement in the Y2 direction is restricted. As shown in FIGS. 11A and 11B, the memory card 10 is almost entirely accommodated in the frame 30. It will be in the state supported by the guide rails 31 and 32. FIG. Here, it is also possible to provide a mechanism for telling the finger that the pin 56b is locked to the hook portion 40b with a small impact. By providing this mechanism, the operator can feel with the fingertip that the connector member 50 has been locked, and thus reliably perform the operation of pushing the memory card 10 to the position where the connector member 50 is locked with the finger. It becomes possible.
[0051]
11B and 11D, the second terminal portion 52b of the connector member 50 rides over the corresponding bellows terminal portion 36a, and the second terminal portion 52b and the bellows terminal portion 36a Are in contact and electrically connected.
[0052]
Next, operations and operations for removing the connected memory card 10 will be described.
[0053]
FIGS. 12A to 12C show operations for removing the memory card 10 connected to the memory card connector 20 from the memory card connector 20. First, as shown in FIG. 12A, the operator performs an operation of strongly pushing the memory card 10 with the index finger 200, then releases the finger 200 as shown in FIG. 12B, and finally, As shown in FIG. 12C, an operation of grasping and pulling out the memory card 10 with the index finger 200 and the thumb 201 is performed.
[0054]
When the memory card 10 is pushed strongly with the finger 200, the leaf spring member 60 which has already been sufficiently bent is further bent, and the connector member 50 is moved in the Y1 direction toward the position 20 as shown in FIG. Moved. As shown in FIG. 13B, the pin 56b comes out of the hook portion 40b, is moved in the Z2 direction, and reaches below the hook portion 40b. The connector member 50 is unlocked.
[0055]
When the finger 200 is released and the pushing force in the Y1 direction is released, the connector member 50 is moved in the Y2 direction by the spring force of the leaf spring member 60 as shown in FIG. The memory card 10 is moved in the Y2 direction, and the rear end side of the memory card 10 protrudes from the memory card insertion slot 111. As shown in FIG. 14B, the second terminal portion 52b is detached from the bellows terminal portion 36a, and the electrical connection between the second terminal portion 52b and the bellows terminal portion 36a is released. As shown in FIG. 14 (C), the pin 56b is moved in the Y2 direction through the lower side of the hook portion 40b, and passes through the lower side of the end portion 40a1 side of the guide arm portion 40a. Is returned to position P1.
[0056]
The connector member 50 is restricted from further movement in the Y2 direction when the projections 53 and 54 abut against the ends 38a and 39a of the guide grooves 38 and 39, respectively.
[0057]
When the operation of grasping and pulling out the portion 14 of the memory card 10 protruding from the memory card insertion slot 111 with the index finger 200 and the thumb 201 is performed, the connector member 50 is restricted from further movement in the Y2 direction. Therefore, as shown in FIG. 15, the female connector 11 is gradually pulled out from the first terminal portion 52a and is detached, and the memory card 10 is removed.
[0058]
【The invention's effect】
As described above, the invention according to claim 1 has a terminal member in a card connector that is mounted and used on a board and is connected by inserting a card having a card terminal portion on the distal end side in the insertion direction. Since the connector member having the terminal member is provided in the frame so as to be movable in the card insertion direction, the connector member moves in the direction opposite to the card insertion direction, so that the rear end side of the card is the frame. The card protrudes from the frame, and the part protruding from the frame can be grabbed and the card can be removed. Therefore, the eject button is not necessary, and the size of the card connector is reduced. Further, by providing a connector member having a terminal member inside the frame so as to be movable in the card insertion direction, the structure is simplified, and thus an eject buttonless card connector, A card connector having a size as small as possible can be realized.
[0059]
The invention of claim 1 is a card connector that is mounted and used on a substrate and is connected by inserting a card having a card terminal portion on the leading end side in the insertion direction, the frame, and the card insertion direction in the frame. A connector member movably provided on the frame, a spring member that urges the connector member in a direction opposite to the card insertion direction, and the connector member that has been moved to the back of the frame is locked in its position; and And a locking mechanism that releases the lock when the locked connector member is moved in the card insertion direction. When the card is removed, the card is inserted after the card inserted in the frame. Just by pushing in the end, it is moved by the spring member so that the rear end side of the card protrudes from the frame. It is possible to realize the eject button less of the card connector is simple.
[0061]
The invention of claim 1, since the lock mechanism is configured that is provided in the space between the inner end face and the guide rail of the connector member, can be the size of the card connector compact.
[Brief description of the drawings]
FIG. 1 is a perspective view of a memory card connector according to an embodiment of the present invention.
FIG. 2 is a diagram showing the memory card connector of FIG. 1;
FIG. 3 is a view showing a guide / locking member.
FIG. 4 is a view showing a connector member.
FIG. 5 is a diagram illustrating an operation procedure when a memory card is connected.
6 is a diagram showing a state when the memory card insertion operation of FIG. 5 (A) is completed. FIG.
7 is a diagram showing a state in the middle of the memory card push-in operation of FIG.
8 is a diagram showing a state in which the memory card is pushed further than the state of FIG. 7A. FIG.
FIG. 9 is a diagram showing a state when the pushing-in of the memory card is completed.
FIG. 10 is a diagram illustrating an operation associated with the operation of FIG.
FIG. 11 is a diagram showing a state of completion of connection of the memory card in FIG.
FIG. 12 is a diagram illustrating an operation procedure when removing a memory card.
FIG. 13 is a diagram showing a state when a pushing operation of the memory card of FIG. 12 (A) is performed.
FIG. 14 is a diagram illustrating an operation associated with the operation of FIG.
FIG. 15 is a diagram illustrating an operation state when the operation of FIG.
[Explanation of symbols]
10 Memory card (PC card)
DESCRIPTION OF SYMBOLS 11 Female connector 12 Connector part 20 Memory card connector 30 Frame 31, 32 Guide rail 33 Horizontal part 36 Terminal member 36a Mounting terminal part 36b Bellows terminal part 38, 39 Guide groove 38a, 39a End 40 Guide / locking member 40a Guide arm portion 40b L-shaped hook portion 50 Connector member 51 Synthetic resin mold block 52 Terminal member 52a Pin-shaped first terminal portion 52b Arc-shaped second terminal portions 53, 54 Protrusions 55 Grooves 56 Frames 56b Pin 60 Leaf spring member 61, 70 Space 100 Circuit board 110 Terminal device 111 Memory card insertion slot

Claims (4)

In a connector for a card that is mounted on a board and used, and a card having a card terminal portion is inserted and connected on the tip side in the insertion direction,
Guide rails on both sides for guiding the inserted card and supporting the inserted card, a horizontal section that crosses between the backs of the guide rails on both sides, and provided on this horizontal section and connected to the board A frame having a plurality of terminal members;
A connector member that is a member different from the frame, has a plurality of terminal members, and is provided in the frame so as to be movable in the card insertion direction;
A spring member for biasing the connector member in a direction opposite to the card insertion direction;
A locking mechanism that locks the connector member that has been moved to the back of the frame in its position and that releases the lock when the locked connector member is moved in the card insertion direction; And
The lock mechanism is provided on the end face of the connector member so as to be movable in the vertical direction and protrudes, and is provided on the inner side of the guide rail of the frame and tilts upward with respect to the insertion direction. A guide arm portion that contacts the pin, and a hook portion that extends downward from the insertion direction end of the guide arm portion and extends to the insertion direction side to lock the pin,
When the card is inserted, the connector member is pushed by the card and is moved by bending the spring member, the card terminal portion is connected to the terminal member of the connector member, and the terminal member of the connector member is Connected to the terminal member of the frame, the connector member is locked by the locking mechanism,
By pushing the rear end of the card inserted into the frame, the lock of the connector member by the lock mechanism is released, and the connector member is moved in the direction opposite to the card insertion direction by the spring member. The card connector is characterized in that the rear end side of the card protrudes from the frame.   The card connector according to claim 1, further comprising a locking member that integrally includes the guide arm portion and the hook portion.   The card connector according to claim 2, wherein the locking member includes a ring portion in the middle of the insertion direction, and an inner side of the guide rail of the frame includes a protrusion fitted to the ring portion.   The card connector according to claim 3, wherein the end surface of the connector member includes a groove portion that supports the pin and a disk portion connected to the pin so as to be movable in the vertical direction.

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