KR20110014516A - Connector for card - Google Patents

Abstract

PURPOSE: A connector for cards having a short width is provided to secure the enough strength by forming a sliding contact part on a metal thin plate about the slider of a bottom wall of a housing. CONSTITUTION: An insertion hole of a card is formed in a housing(2). A connection terminal(11) is laid under the housing. A slide member(6) is slid within the housing with the card in an insertion direction of the card. A discharging spring supports the slide member in a discharging direction. A lock devIce resists in the support force of the discharge spring. The lock device locks the slide member in a lock position. A metal plate is laid under the slide area.

Description

Connector for Cards {CONNECTOR FOR CARD}

The present invention relates to a card connector, and more particularly, to a card connector corresponding to a thin card such as a micro SD card.

In recent years, with the thinning of the card, the thinning of the connector for the card has been demanded. Generally, in the card connector, a resinous housing is used to electrically separate and arrange a plurality of terminals, and the thickness of the card connector is reduced by reducing the thickness of the bottom wall of the resin housing. Such a resin housing is molded by injecting, filling, and solidifying the molten synthetic resin into the mold, but when it is attempted to be thin, the resin housing becomes hard before the resin spreads into the mold, making it difficult to form a thin housing. there was.

Moreover, even if the bottom wall of the housing could be formed thin by resin, sufficient strength could not be obtained, for example, there was a problem that the housing was easily deformed during reflow. As a card connector which solves this problem, what comprised the whole bottom wall of the housing by the thin metal plate is known (for example, refer patent document 1). The card connector realizes thinness while ensuring sufficient strength by assembling a resin block holding a plurality of connection terminals on a metal bottom plate of the housing.

[Patent Document 1]

JP 2003-217713 A

However, in the conventional card connector as described above, since the entire bottom wall of the housing is formed by a metal bottom plate, a plurality of connection terminals cannot be integrated in the housing, and the number of parts increases and assembly is performed. This was complicated and there was a problem of high manufacturing cost.

This invention is made | formed in view of such a situation, Comprising: It aims at providing the card connector which can be made thin while ensuring sufficient strength in an inexpensive structure.

The connector for a card of the present invention includes a resin housing in which an insertion hole of a card is formed, and a connection terminal connected to the card is embedded, a slide member which slides into the housing together with the card in the insertion direction of the card; And a discharge spring biasing the slide member in the discharge direction of the card, and a lock mechanism for locking the slide member in a locked position with respect to the housing, resisting the biasing force of the discharge spring. And a metal plate is embedded in the bottom wall of the housing in a slide area in which the slide member slides.

According to this configuration, since the connection terminal is embedded in the resin bottom wall of the resin and the metal plate is partially embedded, even when the housing is thin, the strength of the housing can be increased without making the connection terminal separate. . Therefore, since the number of parts is not increased, assembly can be simplified and manufacturing cost can be reduced. In the case where the dimensions in the thickness direction of the entire card connector are defined by the slide member or the locking mechanism, the metal plate is embedded in the slide area of the slide member. Thus, a thin metal plate is used to secure the card. The connector can be thinned. In addition, when the slide member is pushed down to the bottom wall side of the housing by the discharge spring and is pushed in the discharge direction, since the slide member is pushed down by the metal plate, deformation during reflow can be prevented.

Further, in the card connector, the locking mechanism has a cam groove formed in the slide member or the housing, and a pin for sliding the cam groove, and the slide member according to the sliding position of the cam groove and the pin. And a discharge structure for converting lock and unlock.

According to this structure, the card connector which has the thickness which can form a cam groove in a slider member, and which secured the pin accommodation space can be made thin in the state which secured the strength.

The present invention is also characterized in that, in the card connector, the metal plate has a ground connection portion.

According to this structure, the static electricity generated by the sliding contact between the slide and the metal plate can be grounded through the ground connecting portion to be evacuated. In addition, when the spring and the metal plate are in contact with each other, the static electricity generated in the spring can be saved.

The present invention is also characterized in that, in the card connector, an extension part which extends from the metal plate to the ground connection part is embedded in the bottom wall of the housing through the area between the connection terminal and the insertion hole.

According to this structure, the noise which protrudes from the exterior from the insertion opening etc. by the extension part can be reduced, and the signal reception of a card connector and a card can be performed stably through a connection terminal.

The present invention is also characterized in that in the card connector, the extension portion has a soldering portion that is soldered at the insertion port side of the housing.

According to this structure, by soldering a soldering part, the intensity | strength of the insertion port side of a card connector can be raised, and bending of a card connector can be prevented.

The present invention is also characterized in that in the card connector, the extension portion has a contactor in contact with a card inserted from the insertion hole on the insertion hole side of the housing.

According to this configuration, when the card is inserted, the card and the contactor come into contact with each other at the insertion port side of the housing, whereby the static electricity charged on the card can be evacuated via the ground connecting portion, thereby preventing malfunction of the card.

According to the present invention, in the card connector, the extension part, the connection terminal, and a switch for detecting mounting of the card are disposed in the housing in the insertion direction, and the extension part, the connection terminal, And the switch is distinguished by a resin.

According to this structure, since the extension part, the connection terminal, and the switch are electrically separated by resin, electrical malfunction of the card connector can be prevented.

According to the present invention, in a card connector having a structure in which a card is inserted through a slide member, the card connector can be thinned while ensuring sufficient strength with an inexpensive configuration.

BRIEF DESCRIPTION OF THE DRAWINGS The figure which shows embodiment of the card connector which concerns on this invention, The perspective view of a card connector,
2 is a view showing an embodiment of a card connector according to the present invention, an exploded perspective view of the card connector;
3 is a view showing an embodiment of a card connector according to the present invention, a top view of the housing;
4 is a view showing an embodiment of a card connector according to the present invention, wherein a top view of a conductor portion embedded in a housing;
Fig. 5 is a diagram showing an embodiment of a card connector according to the present invention.
6 is a diagram showing an embodiment of a card connector according to the present invention, which is a plan view of a card.

In the card connector to which the present invention is applied, thinning is demanded as the card becomes thinner. Such a card connector is known to have a push-push type discharge structure as a structure for inserting and removing a card through a slide member. The card connector has a slide member which slides together with the card in the insertion / ejection direction of the card, and pins slide the heart-shaped cam grooves formed in the slide member so that the insertion and discharge positions of the card are moved through the slide member. Is determined.

In the push-push card connector, a cam groove is formed in either the slide member or the housing so that one end of the pin is engaged with the wall of the cam groove and selectively locked, and the other end of the pin is not provided with the cam groove. It has a structure for supporting the shaft on the other member. In order to stop by walking through the pins across the slide member and the housing, the slide member needs a receiving space so that the pins do not come out. Moreover, in providing the cam groove in the slide member, it is necessary to have the slide member have a thickness capable of forming a cam groove having a high level and difference. Therefore, the dimension of the thickness direction is set according to the discharge structure. Therefore, when thinning a push-push card connector, it is important to thinly shape the thickness of the slide area in which the slide member slides on the bottom wall of the housing.

Moreover, the slide member is biased in the discharge direction in a state where a part of the slide member is pushed down to the bottom wall side of the housing by the discharge spring. In this case, since the part sliding in contact with the slider of the bottom wall of the housing at the time of reflow becomes easy to deform by pushing down the slide member, it is necessary to secure sufficient strength to this part. In the card connector having a push-pushing discharge structure, the core of the present invention is configured to be thin in contact with the slider of the bottom wall of the housing by a thin metal plate, thereby achieving thinness while ensuring sufficient strength. It is.

EMBODIMENT OF THE INVENTION Hereinafter, embodiment of this invention is described in detail with reference to an accompanying drawing. In addition, below, the case where this invention is applied to the card connector for micro SD cards is demonstrated. However, the application target of the card connector according to the present embodiment is not limited to this and can be changed as appropriate.

First, the card used as a mounting object is demonstrated before demonstrating the card connector which concerns on embodiment of this invention. 6 is a plan view of a card according to an embodiment of the present invention, where (a) is a top view and (b) is a side view.

As shown to Fig.6 (a) and Fig.6 (b), the card 46 is what is called a micro SD card, and is formed in substantially rectangular shape as seen from the upper surface. One side of the card 46 is formed in the shape of a stage in which approximately half of the front end side in the insertion direction becomes narrower than approximately half of the rear end side in plan view. In addition, a cutout portion 47 is partially formed at one side of the card 46, and the cutout portion 47 is provided with an engaging portion 48 for engaging the slide member 6 described later. It is. Moreover, the card 46 is formed in the shape of the step which becomes substantially constant thickness from the front-end | tip part to the vicinity of a rear-end | tip, and becomes large in thickness in a rear-end part.

The thickness of the front end of the card 46 is formed in a size that can be inserted into the insertion opening 4 of the card connector 1, and the thickness of the rear end of the card 46 is the insertion port 4 of the card connector 1. It is formed in a size that cannot be inserted into the. Therefore, since the card 46 is attached to the card connector 1 only when it is inserted from the front end side, misinsertion of the card 46 is prevented. Further, a plurality of pads (not shown) in contact with the plurality of connection terminals 11 of the card connector 1 are provided on the front end side rear surface of the card 46.

Next, with reference to FIG. 1 and FIG. 2, the whole structure of the card connector is demonstrated. 1 is a perspective view of a card connector according to an embodiment of the present invention. 2 is an exploded perspective view of the card connector according to the embodiment of the present invention.

As shown in FIG. 1 and FIG. 2, the card connector 1 according to the present embodiment is attached to a housing 2 made of synthetic resin having an upper surface and an entire surface opened, and an opening of an upper surface of the housing 2. A cover 3 made of metal forming a card mounting space is provided, and the housing 2 and the cover 3 are combined to form a box-shaped body having an insertion opening 4. A plurality of connecting terminals 11 are provided in the center portion of the bottom wall 2a of the housing 2. Each connecting terminal 11 provided in the bottom wall 2a extends from the center of the bottom wall 2a toward the inner wall 2b.

On the inner wall 2b of the housing 2, a switch 5 for detecting the mounting of the card 46 is provided. The switch 5 has a spring portion 13 bent from the inner wall 2b side to the insertion port 4 side and a switch head portion 14 provided at the free end of the spring portion 13. On the lower surface of the switch head 14, a movable contact portion continuous to the spring portion 13 is exposed, and the movable contact portion is configured to be detachable from the fixed contact portion 15 provided on the bottom wall 2a. .

When the switch 5 is pushed toward the inner wall 2b side by inserting the card 46, the switch head 14 sits on the fixed contact portion 15 to detect the mounting of the card 46. do. In this case, since the fixed contact part 15 is inclined so that it may become high toward the inner wall 2b side from the insertion port 4 side, as the switch 5 is pushed to the inner wall 2b side, a movable contact will be provided. The contact with the part is improved.

One side wall 2c of the housing 2 has a slide member 6 made of synthetic resin slidable along the side wall 2c, and a coil-shaped discharge spring 7 which stretches along the slide of the slide member 6. ) Is installed. The discharge spring 7 has one end against the inner wall 2b, the other end against the slide member 6, and the slide member 6 is biased in the discharge direction. Moreover, the guide wall 2e which guides the slide member 6 in the insertion direction with the side wall 2c is provided in the bottom wall 2a of the housing | casing 2 so that it may protrude slightly from an upper surface.

The metal plate 21 is provided in the slide area | region of the slide member 6 formed of the guide wall 2e and the side wall 2c. The metal plate 21 extends in the slide direction of the slide member 6, and increases rigidity with respect to the bending in the insertion direction of the card connector 1. The metal plate 21 is formed thinner than the thickness of the bottom wall 2a of the housing 2, and the slide member 6 is slidable at a position lower than the portion where the card 46 is inserted in the bottom wall 2a. I support it. That is, the thickness of the metal plate 21 is made thinner than the thickness of the bottom wall 2a of the housing 2, and the slide area is formed in the position lower than the height into which the card 46 is inserted. Therefore, as the slide area supporting the slide member 6 is lowered, the thickness projecting to the portion into which the card 46 is inserted can be made smaller among the overall heights of the slide member 6. The metal plate 21 may be provided so as to block the opening of the housing 2 surrounded by the guide wall 2e and the side wall 2c. However, when forming the synthetic resin housing 2, the metal plate ( It is possible to embed 21) integrally by insert molding.

In addition, since the metal plate 21 has a lower frictional resistance than the resin material, the slide member 6 can be slid smoothly as compared with the structure in which the slide member 6 slides on the resinous housing. In addition, even when the slide member 6 is pushed down while being pushed down to the bottom wall 2a side of the housing 2 by the discharge spring 7, the strength of the slide area is ensured by the metal plate 21. This can prevent deformation during reflow.

The slide member 6 is comprised so that the slide member 6 can slide in the insertion and discharge direction in the state added to the discharge spring 7. The cam groove 23 is formed in the front end of the slide member 6, and the position of the slide member 6 is prescribed | regulated by the cam groove 23 and the pin 24 provided in the inner wall 2b. The pin 24 extends along the side wall 2c, and both ends are bent at substantially right angles toward the bottom wall 2a. One end of the pin 24 is rotatably supported by the inner wall 2b, and the other end is slid onto the cam groove 23 of the slide member 6.

The cam groove 23 is a so-called circular cam groove called a heart cam, and has a plurality of steps and slopes, and is formed in a ring shape of a heart shape when viewed from an upper surface thereof. Slide the other end in one direction. When the slide member 6 is pushed into the mounting position near the inner wall 2b, the other end of the pin 24 is stopped by the locking portion of the cam groove 23, and the force of the discharge spring 7 is applied. The return of the slide member 6 by this is regulated. When the slide member 6 is pushed in again from this state, the locking state of the pin 24 and the cam groove 23 is canceled | released, and the slide member 6 is returned by the force of the discharge spring 7. FIG. In this way, the pin 24 and the cam groove 23 have a holding function at the mounting position of the slide member 6.

In this case, since the cam groove 23 can be formed in the slide member 6 and the receiving space of the pin 24 is formed above the slide member 6, the card connector 1 By design, this part needs the maximum height. For this reason, the card connector 1 has a thickness designed on the basis of the slide area, but as described above, since the slide member 6 slides at a low position by the metal plate 21, the card connector ( It becomes possible to thin 1).

At the rear end side of the slide member 6, an engagement recess 26 is engaged with the engagement portion 48 of the card 46. As shown in FIG. By engaging the engaging portion 48 of the card 46 with the engaging recess 26, the slide member 6 slides integrally with the card 46. Moreover, the engagement recessed part 26 has the pole part 27 which protrudes toward the center of the housing 2 slightly. When the engaging portion 48 is engaged with the engaging recess 26, the pawl portion 27 enters the cutout 47 of the card 46 and suppresses the removal of the card 46 in the discharge direction. do.

The cover 3 is formed by bending a metallic plate, and a pin pressing portion 31 for applying a pin 24 is formed on one side of the upper surface. The pin presser 31 is a cantilever spring cut out to the bottom wall 2a side, and the other end of the pin 24 is added to the cam groove 23 by adding the middle part of the pin 24 downward. Moreover, a pair of braking pieces 32 for preventing the card 46 from sticking out are formed at approximately half of the insertion port 4 side of the upper surface of the cover 3. The pair of braking pieces 32 are cantilever springs slightly cut out on the bottom wall 2a side, and come into contact with the upper surface of the card 46 to suppress protruding upon ejection of the card 46.

3 and 4, the housing and the conductor portion embedded in the housing will be described in detail. 3 is a top view of a housing according to the embodiment of the present invention. 4 is a top view of a conductor portion embedded in a housing according to the embodiment of the present invention.

As shown in FIG. 3, the housing 2 is formed with an opening corresponding to the slide area, and is embedded in a state in which the substantially rectangular metal plate 21 is exposed. At both ends of the short direction of the metal plate 21, the some bend part 34 bent upwards is formed in multiple numbers so that it may terminate between the inner wall 2b from the insertion opening 4 side (FIG. 4). Reference). The plurality of bent portions 34 are embedded in the side wall 2c and in the guide wall 2e, and reinforce the side wall 2c and the guide wall 2e formed around the opening of the housing 2. In this embedding, it is possible to manufacture by insert molding in which the molten synthetic resin is injection molded, filled and solidified in the mold, and integrally molded with the housing 2 while the metal plate 21 is held in the mold installed in the injection molding machine. have.

At approximately half of the side wall 2c on the insertion port 4 side, a concave relief portion 35 that allows the slide member 6 to swing is formed. The swinging of the slide member 6 is allowed by the relief portion 35, thereby allowing the card 46 to be withdrawn at the discharge position, and withdrawing the card 46 at the mounting position is prohibited. In addition, the detail of the rocking | fluctuation operation | movement of the slide member 6 is demonstrated later.

The inner wall 2b of the housing 2 is provided with a convex portion 36 that supports one end of the discharge spring 7. The lower part of this convex part 36 is provided with the opening 37 so that the metal plate 21 may be avoided. In the opening 37, a mold for forming the convex portion 36 in the inner wall 2b is provided at the time of molding the housing 2.

3 and 4, the housing 2 includes a first extension part 41 and a first extension part 41 extending in the width direction from the insertion port 4 side of the metal plate 21. A second extension portion 42 is embedded, which extends from the tip side to the inner wall 2b. The 1st extension part 41 is arrange | positioned in the area | region between the some connection terminal 11 and the insertion opening 4, and the 2nd extension part 42 is arrange | positioned beside the some connection terminal 11. As shown in FIG.

That is, the 1st, 2nd extension part 41 and 42 are extended with the metal plate 21 so that the 3 direction of the some connection terminal 11 may be enclosed. By this configuration, the rigidity against bending in the insertion direction and the width direction of the card connector 1 can be increased, and the influence of noise splashing from the outside from the side of the insertion port 4 can be reduced, and the plurality of connection terminals 11 can be reduced. It is possible to stabilize the number of signals between the card connector 1 and the card 46 via?

The first extension part 41 is provided with a pair of soldering parts 43 protruding from the middle part in the extending direction toward the opening 39 formed in the insertion port 4 side of the housing 2. The pair of soldering portions 43 are connected to the ground provided on the circuit board of the counterpart device (not shown) in which the card connector 1 is mounted to form a ground connection portion, and the static electricity generated in the card connector 1 is generated. Is evading to ground. Further, by soldering the soldering portion 43, the rigidity against the warp in the width direction on the insertion port 4 side of the card connector 1 can be increased, and the warp of the card connector 1 can be prevented.

Moreover, the 1st extension part 41 is exposed with respect to the insertion hole 4, and the pair of contacts 44 extended from the middle part of the extension direction toward the insertion hole 4 are provided. When the pair of contacts 44 are inserted into the card 46, the pair of contacts, together with the first extension part 41 extending in the width direction, contact the leading end of the card 46 to charge the card 46. Is evacuated to ground via the soldering part 43 (ground connection part). In this case, since the card 46 is discharged in two stages by the pair of contacts 44 and the first extension part 41, it is possible to obtain a high antistatic effect. Therefore, it becomes possible to prevent the card 46 from malfunctioning due to static electricity charged on the card 46.

Moreover, since the 1st extension part 41 is connecting between the metal plate 21 and the soldering part 43 (ground connection part), the static electricity which generate | occur | produces between the metal plate 21 and the slide member 6, It retracts to the ground via the soldering part 43. In addition, since the discharge spring 7 is also in contact with the metal plate 21, the static electricity generated by the expansion and contraction of the discharge spring 7 is also retracted to the ground via the soldering part 43. In this way, since the static electricity charged on the card connector 1 is also saved to the ground, it is possible to prevent the card 46 from malfunctioning due to the static electricity charged on the card connector 1.

In the housing 2 configured as described above, the card 46 and the first extension portion 41 for static eliminating the card connector 1, the plurality of connection terminals 11 for connecting to the pad of the card 46, and the card ( Each conductor part which comprises the switch 5 which detects attachment of the 46 is separated by the insulating resin. Therefore, since the conductor portions constituting the first extension portion 41, the connection terminal 11 and the switch 5 are electrically separated, it is possible to prevent electrical malfunction of the card connector.

Referring to Fig. 5, the mounting operation of the card to the card connector will be described. 5 is an explanatory diagram of a card attaching operation to the card connector according to the present embodiment.

As shown in Fig. 5A, when the card 46 is inserted into the card connector 1, the pawl portion of the slide member 6 is formed by the engaging portion 48 formed at one side of the card 46. (27) is added sideways. When the pole portion 27 of the slide member 6 is added by the engaging portion 48 of the card 46, the slide member 6 has the other end of the pin 24 as a supporting point, and the housing 2 It swings toward the relief part 35 formed in the side wall 2c of ().

When the card 46 is pushed further from the state of FIG. 5 (a), as shown in FIG. 5 (b), the engaging portion 48 of the card 46 is in the discharge position of the slide member 6. Is engaged with the engagement recess 26. In this case, the pawl portion 27 of the slide member 6 enters the cutout portion 47 of the card 46 and the pawl portion of the slide member 6 by the engaging portion 48 of the card 46. 27 is released, the slide member 6 swings from the relief portion 35 to its original position with the other end of the pin 24 as a supporting point.

In this discharge position, since the slide member 6 is swingable by the relief part 35, the card 46 is withdrawn. Specifically, when a force is applied to the card 46 in the discharge direction, the slide member 6 swings toward the relief portion 35 with the other end of the pin 24 as the support point. The slide member 6 is peeled off from the cutout 47 of the card 46 due to the swing of the slide member 6, and the card 46 is allowed to be pulled out.

From the state of FIG. 5 (b), when the card 46 is pushed further, as shown in FIG. 5 (c), the other end of the pin 24 is stopped at the engaging portion of the cam groove 23, The card 46 is held at the mounting position with the slide member 6. At this time, the slide member 6 is guided in the insertion direction in a state where the swing is restricted by the side wall 2c and the guide wall 2e. When the card 46 is inserted to the mounting position, the switch 5 is pushed in so that the mounting of the card 46 is detected.

In this mounting position, since the swing of the slide member 6 is restricted by the side wall 2c and the guide wall 2e, the withdrawal of the card 46 is prohibited. Specifically, even when a force is applied to the card 46 in the discharge direction, the fluctuation of the slide member 6 is restricted, so that the pawl portion 27 does not come off from the cutout portion 47 of the card 46. Withdrawal of the card 46 is prohibited. In this case, since the side wall 2c is reinforced by the some bend part 34 of the metal plate 21, deformation of the side wall 2c is suppressed strongly. Therefore, the swing of the slide member 6 is strongly restricted, and the forcible withdrawal of the card 46 at the mounting position is prohibited.

Then, when the card 46 is pushed further from the state of FIG. 5C, the locked state of the pin 24 and the cam groove 23 is released, and the slide member 6 is connected to the discharge spring 7. Is returned to the discharge position.

As described above, according to the card connector 1 according to the present embodiment, the connection terminal 11 is embedded in the bottom wall 2a of the housing 2 made of resin, and the metal plate 21 is partially formed. Since it is embedded, even when the housing 2 is thin, the strength of the housing 2 can be increased without using the connecting terminal 11 separately. Therefore, since the number of parts is not increased, it is possible to simplify the assembly and reduce the manufacturing cost. Moreover, when the dimension of the thickness direction of the whole card connector 1 is prescribed | regulated by the slide member 6 or the pin 24, since the metal plate 21 is embedded in the slide area of the slide member 6, The card connector 1 can be made thin in the state where the strength is secured.

In the above embodiment, the present invention is applied to the card connector corresponding to the micro SD card, but the present invention is not limited to this configuration. In addition to the micro SD card, the present invention may be applied to a card connector compatible with the card.

In the above embodiment, the present invention is applied to a card connector corresponding to one type of card, but the present invention is not limited to this configuration. You may apply to the combine type card connector compatible with two or more types of cards, and the card connector compatible with three or more types of cards.

In the above embodiment, the locking mechanism is constituted by the cam groove and the pin of the slide member, but is not limited to this configuration. The support member of a pin may be provided in a slide member, and a cam groove may be provided in a housing. Any configuration may be used as long as the slider member can be locked to the mounting position of the card.

In addition, in the above embodiment, the configuration is added in the discharge direction while pushing the slide member toward the bottom wall of the housing by the discharge spring, but the configuration is not limited to this configuration. What is necessary is just a structure which adds a slide member to a discharge direction by a discharge spring, and may be a structure which does not push down a slide member.

In addition, in the above-mentioned embodiment, although the extension part was provided in the metal plate, it is not limited to this structure. The metal plate may be configured to be thinner while ensuring sufficient strength, and may be configured without an extension portion.

In addition, in the above-described embodiment, a contactor is provided in the extension part and the card is discharged by the extension part and the contactor, but the configuration is not limited to this. The card may be discharged only by an extended portion without providing a contactor, or may be configured to discharge the card only by exposing the contact.

In addition, in the above embodiment, the metal plate is configured to be grounded to the ground via the extension portion, but is not limited to this configuration. The metal plate may be grounded to the ground. For example, the metal plate may be configured to be directly grounded to the ground.

In addition, embodiment disclosed this time is an illustration at all points and is not restrict | limited to this embodiment. The scope of the present invention is shown not by the description of the above embodiments but by the claims, and is intended to include all modifications within the scope and meaning equivalent to the scope of the claims.

As described above, the present invention has an effect that the thickness can be reduced while securing a sufficient strength with an inexpensive configuration, and is particularly useful for card connectors corresponding to thin cards such as micro SD cards.

1 connector for card 2 housing
3: cover 4: insertion hole
6 slide member 7 discharge spring
11: connection terminal 21: metal plate
23: cam groove (lock mechanism) 24: pin (lock mechanism)
26: engaging recess 27: pole portion
34: bend portion 35: relief portion
41: 1st extension part (extension part) 42: 2nd extension part (extension part)
43: soldering portion 44: contactor
46: card

Claims (11)

A housing made of resin in which an insertion opening of a card is formed, and a connection terminal connected to the card is embedded;
A slide member which slides in the housing with the card in an insertion direction of the card;
A discharge spring for biasing the slide member in the discharge direction of the card;
A locking mechanism for resisting the force of the discharge spring to lock the slide member in a locked position with respect to the housing,
And a metal plate is embedded in the bottom wall of the housing in a slide area in which the slide member slides. The method of claim 1,
And the thickness of the metal plate is made thinner than the thickness of the bottom wall of the housing, and the slide area is disposed at a position lower than the height at which the card is inserted. The method of claim 1,
The lock mechanism has a cam groove formed in the slide member or the housing and a pin for sliding the cam groove, and lock and unlock the slide member according to the sliding position of the cam groove and the pin. Card connector, characterized in that it has a discharge structure for converting. 4. The method according to any one of claims 1 to 3,
The metal plate has a ground connection portion. The method of claim 1,
An extension portion extending from the metal plate to the ground connection portion through an area between the connection terminal and the insertion hole in the bottom wall of the housing. 6. The method of claim 5,
And the extension portion has a soldering portion soldered on the insertion port side of the housing. 6. The method of claim 5,
And the extension portion has a contactor in contact with a card inserted from the insertion hole on the insertion hole side of the housing. 6. The method of claim 5,
In the housing, the extension portion, the connection terminal, and a switch for detecting mounting of the card are disposed in the insertion direction, and the extension portion, the connection terminal, and the switch are made of resin. Card connector, characterized in that divided. The method of claim 1,
And the metal plate is disposed to be exposed to an opening formed in the bottom plate of the housing. The method of claim 9,
The metal plate has a reinforcing portion embedded in the periphery of the opening of the housing to reinforce the periphery of the opening. The method of claim 10,
And the reinforcing part is formed of a bent part bent from an end of the metal plate.

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