JP3718797B2 - Card connector - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a card connector having a switch contact for detecting insertion / removal of a card.
[0002]
[Prior art]
Recently, a card called a smart card or the like capable of recording data and a connector for connecting the card have been developed and used. This type of card has a contact pad that allows data to be written and read. On the other hand, the connector includes a signal contact that contacts the contact pad when the card is inserted. Therefore, by attaching the card to the connector, data can be written to and read from the card via the contact pad and the signal contact.
[0003]
By the way, if the card is accidentally removed from the connector while data is being read, the signal contact is separated from the contact pad, and the exchange of signals between the connector and the card is forcibly interrupted without following a predetermined procedure. Therefore, a failure may occur. In order to avoid this obstacle, the connector is provided with a detection switch for detecting the removal of the card before the signal contact is separated from the contact pad. According to this, it is possible to prevent the occurrence of a failure by cutting off transmission / reception of signals between the connector and the card according to a predetermined procedure in accordance with the operation of the detection switch.
[0004]
An example of this type of conventional connector will be described with reference to FIG.
[0005]
The card 2 is inserted into and removed from the connector 1 in the first direction 3. The connector 1 is provided with a detection switch 5 corresponding to the insertion end 4 of the card 2. The detection switch 5 includes a first conductive contact 6 and a second conductive contact 7 that is also conductive. The first contact 6 has a contact portion 8 that contacts the insertion end 4 when the card 2 is inserted.
[0006]
When the card 2 is not inserted, the first and second contacts 6 and 7 are in contact with the contact portion 9. That is, the detection switch 5 is in a closed state. When the card 2 is inserted, the insertion end 4 abuts against and abuts against the abutting portion 8 of the first contact 6 to separate the first contact 6 from the second contact 7. That is, the detection switch 5 is opened. When the card 2 is removed, the first contact 6 comes into contact with the second contact 7 at the contact portion 9 due to its restoring force.
[0007]
According to this connector 1, before the signal contact 11 of the connector 1 is separated from the contact pad (not shown) of the card 2, the contact of the first and second contacts 6 and 7 is detected to detect the detachment of the card 2. it can. Therefore, the occurrence of a failure can be prevented by cutting off the signal exchange between the connector 1 and the card 2 according to a predetermined procedure.
[0008]
[Problems to be solved by the invention]
In order to prevent poor contact between the first and second contacts 6 and 7, it is desirable to cause a so-called wiping operation in which the two slide at the contact portion 9 when contacting or separating. However, in order to detect the separation of the card 2 before the signal contact 11 of the connector 1 is separated from the contact pad of the card 2, the operation stroke of the detection switch 5 must be set short. It is difficult to cause a wiping operation between the contacts 6 and 7. Actually, in the connector 1 of FIG. 6, since the first contact 6 only moves in the card insertion / removal direction, a wiping operation is hardly obtained, and a contact failure occurs between the first and second contacts 6 and 7. There is a fear.
[0009]
Therefore, an object of the present invention is to provide a card connector that can obtain a sufficient and reliable wiping operation between contacts even when the operation stroke is short.
[0010]
[Means for Solving the Problems]
According to the present invention, in the card connector provided with the detection switch for detecting insertion / removal of the card, the detection switch includes the first and second contacts that come in contact with and away from each other, and the first contact includes: A sliding contact portion that contacts the card; and a contact portion that contacts and separates from the second contact. The second contact contacts the contact portion that contacts the card and the first contact. A contact portion that is separated, and by inserting and removing the card in the first direction, the sliding contact portion moves in a second direction perpendicular to the first direction, and the contact portion is The first contact is moved in the first direction, and the contact portion of the first contact is moved in the second direction along with the movement of the sliding contact portion. Accordingly, the contact portion of the second contact is the first one. When the card is inserted, the sliding contact portion moves in the second direction to move the contact portion of the first contact to the second position. After the card is further slid in contact with the contact portion of the contact in the second direction, the contact portion is moved in the first direction by further movement of the card in the insertion direction. The card connector is characterized in that the contact portion is spaced apart from the contact portion of the first contact.
[0011]
The operation of separating the contact portion of the second contact from the contact portion of the first contact is performed after the contact portion of the first contact is in sliding contact with the contact portion of the second contact. The contact may be performed by moving the contact portion of the second contact in the first direction in contact with the contact portion .
[0012]
According to the present invention, in the card connector having a detection switch for detecting insertion / removal of the card, the detection switch includes the first and second contacts that are brought into contact with and separated from each other, and the first contact is A contact portion that contacts the card, and a contact portion that contacts and separates from the second contact. The second contact includes a contact portion that contacts the card and the first contact. A contact portion that contacts and separates, and by inserting and removing the card in the first direction, the sliding contact portion moves in a second direction orthogonal to the first direction, and the contact portion is The first contact is moved in the first direction, and the contact portion of the first contact is moved in the second direction along with the movement of the sliding contact portion. Accordingly, the contact portion of the second contact is the first contact. Moves in the direction, the contact portions are toward and away from, when the card is inserted, after the contact portion of the first contact and the contact portion of the second contact are in contact, the sliding A card connector is obtained in which the contact portion moves in the second direction to cause the contact portion of the first contact to slide into contact with the contact portion of the second contact.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
With reference to FIG.1 and FIG.2, the connector for cards which concerns on embodiment of this invention is demonstrated.
[0014]
The illustrated card connector 20 is used to connect a smart card 21 and includes a base insulator 22 and a cover insulator 23 assembled to the base insulator 22. A card insertion area or a card insertion groove 25 for inserting the smart card 21 in the first direction 24 is provided between the base insulator 22 and the cover insulator 23. The card insertion groove 25 is open to the front surface.
[0015]
The base insulator 22 holds a plurality of signal contacts 26 as desired in the card insertion groove 25. Each of the signal contacts 26 has a contact portion 27 protruding into the card insertion groove 25. These contact portions 27 are divided into a plurality of rows, that is, two rows in the first direction 24.
[0016]
On the other hand, the smart card 21 has a plurality of contact pads 28 on the back surface thereof, that is, the surface facing the base insulator 22 when inserted into the card insertion groove 25. These contact pads 28 are also divided into a plurality of rows, that is, two rows in the first direction 24. In this way, when the smart card 21 is inserted into the card insertion groove 25, the contact pad 28 makes a one-to-one contact contact with the contact portion 27 in the second direction 29 orthogonal to the first direction 24.
[0017]
Further, as well shown in FIG. 2, a detection switch 30 for detecting insertion / removal of the smart card 21 is provided in the base insulator 22 corresponding to the rear portion, that is, the back portion of the card insertion groove 25. The detection switch 30 is composed of conductive first and second contacts 31 and 32 held by the base insulator 22.
[0018]
The first contact 31 has one end fixed to the base insulator 22 and has a spring portion 34 extending in a third direction 33 orthogonal to the first and second directions 24 and 29. The spring portion 34 has a spring property in the second direction 29. Near the other end of the spring portion 34, a sliding contact portion 35 is provided that protrudes into the card insertion groove 25 and comes into sliding contact with the smart card 21 inserted into the card insertion groove 25. A contact portion 36 extending in the second direction 29 is provided at the other end of the spring portion 34.
[0019]
One end of the second contact 32 is fixedly held by the base insulator 22 and has a spring portion 37 that extends substantially in the third direction. The spring portion 37 has a spring property in the first direction 24. Near the other end of the spring portion 37, a contact portion 38 that is curved and protrudes into the card insertion groove 25 and contacts the smart card 21 inserted into the card insertion groove 25 is provided. The other end of the spring portion 37 is provided with a contact portion 39 that elastically contacts the rear surface of the contact portion 36 of the first contact 31 by the restoring force of the spring. The forward movement of the contact portion 36 of the first contact 31 is locked by a locking portion 41 formed on the base insulator 22.
[0020]
The detection of insertion / extraction of the smart card 21 will be described with reference to FIGS.
[0021]
As shown in FIG. 3, when the smart card 21 is completely inserted into the card connector 20, the contact pad 28 is in contact with the contact portion 27 of the signal contact 26. Further, the insertion end 42 of the smart card 21 pushes and moves the abutting portion 38 of the second contact 32 backward, and as a result, the contact portion 39 of the second contact 32 is separated from the contact portion 36 of the first contact 31. I am letting. Therefore, the detection switch 30 is open. In this state, the sliding contact portion 35 of the first contact 31 is pushed downward by the back surface in the vicinity of the tip portion of the smart card 21.
[0022]
As shown in FIG. 4, when the smart card 21 is slightly moved from the card connector 20, the insertion end 42 of the smart card 21 is separated from the contact portion 38 of the second contact 32, and as a result, the second contact 32. The contact portion 39 contacts the contact portion 36 of the first contact 31. Accordingly, the detection switch 30 is closed. In this state, the sliding contact portion 35 of the first contact 31 is moved upward by the restoring force of the spring portion 34.
[0023]
Thus, the detection switch 30 can detect the insertion / removal of the smart card 21 depending on whether the contact portions 36, 39 of the first and second contacts 31, 32 are separated from each other or in contact with each other. Note that the operation pad of the detection switch 5 is set to be short so that the contact pad 28 remains in contact with the signal contact 26 even when the detection switch 30 shifts from the open state to the closed state.
[0024]
Next, the operation of the detection switch 30 will be described in detail with reference to FIG.
[0025]
The operation at the time of inserting the smart card 21 will be described. In the state shown in FIG. 5A, the smart card 21 is not inserted up to the position corresponding to the sliding contact portion 35 of the first contact 31. Therefore, in this state, the slidable contact portion 35 and the contact portion 36 of the first contact 31 are in a relatively upper position, and the contact portion 39 of the second contact 32 is in contact with the contact portion 36.
[0026]
As the insertion of the smart card 21 proceeds, the insertion end 42 of the smart card 21 comes into contact with the curved guide surface 43 of the sliding contact portion 35 of the first contact 31 as shown in FIG. When the insertion of the smart card 21 further proceeds, the smart card 21 rides on the sliding contact portion 35 of the first contact 31 while being lowered as shown in FIG. At this time, the contact portion 36 of the first contact 31 is also lowered, so that the contact portion 36 slides on the contact portion 39 of the second contact 31. That is, a so-called wiping operation is performed, and the foreign matter adhering to the contact portions 36 and 39 is wiped off.
[0027]
When the insertion of the smart card 21 further proceeds, the insertion end 42 presses and moves the contact portion 39 of the second contact 32. As a result, as shown in FIG. The contact portion 39 is separated from the contact portion 36 of the first contact 31.
[0028]
The operation at the time of removal work of the smart card 21 is opposite to the operation at the time of insertion work described above. The wiping operation is also performed during this removal operation.
[0029]
In this way, in each of the insertion work and the removal work of the smart card 21, the wiping operation is sufficiently and reliably executed although the operation stroke of the detection switch 30 can be set short. Accordingly, the detection switch 30 can be operated before the contact pad 28 is separated from the signal contact 26, and a contact failure due to foreign matters adhering to the contact portions 36 and 39 is prevented.
[0030]
Although the contact portions 36 and 39 are separated from each other when the smart card 21 is inserted, the contact portions 36 and 39 may be in contact with each other when the smart card 21 is inserted. In this case, after the contact portion comes into contact, the sliding contact portion 35 is lowered to perform the wiping operation.
[0031]
【The invention's effect】
As described above, according to the present invention, it is possible to provide a card connector that can provide a sufficient and reliable wiping operation between contacts even when the operation stroke is short.
[Brief description of the drawings]
FIG. 1 is a perspective view showing a card connector according to an embodiment of the present invention together with a card.
2 is an enlarged perspective view in which a cover insulator of the card connector in FIG. 1 is omitted. FIG.
3A is a perspective view in which a card is completely inserted into the card connector shown in FIGS. 1 and 2, and a cover insulator is omitted, and FIG. 3B is an enlarged view of a main part of FIG. 3A.
4A is a perspective view in which a cover insulator is omitted from the card connector of FIGS. 1 and 2 in a state where the card is slightly moved in the removing direction, and FIG. 4B is an enlarged view of a main part of FIG. .
FIGS. 5A to 5D are explanatory views for explaining the operation of a detection switch provided in the card connector of FIGS. 1 and 2; FIG.
FIG. 6 is a plan view for explaining an example of a conventional card connector.
[Explanation of symbols]
20 Card Connector 21 Smart Card 22 Base Insulator 23 Cover Insulator 24 First Direction 25 Card Insertion Area or Card Insertion Groove 26 Signal Contact 27 Contact Portion 28 Contact Pad 29 Second Direction 30 Detection Switch 31 First Contact 32 First Two contacts 33 Third direction 34 Spring portion 35 Sliding contact portion 36 Contact portion 37 Spring portion 38 Contact portion 39 Contact portion 41 Locking portion 42 Insertion end 43 Guide surface

Claims (3)

In the card connector with a detection switch for detecting insertion and removal of the card,
The detection switch includes first and second contacts that are in contact with each other.
The first contact has a slidable contact portion that slidably contacts the card, and a contact portion that contacts and separates from the second contact,
The second contact has a contact portion that contacts the card, and a contact portion that contacts and separates from the first contact,
By inserting and removing the card in the first direction, the sliding contact portion moves in a second direction orthogonal to the first direction, and the contact portion moves in the first direction,
With the movement of the sliding contact portion, the contact portion of the first contact moves in the second direction, and the contact portions are in sliding contact with each other,
As the contact part moves, the contact part of the second contact moves in the first direction so that the contact parts come in contact with each other;
When the card is inserted, the sliding contact portion moves in the second direction, and the contact portion of the first contact is slid in contact with the contact portion of the second contact in the second direction . later,
When the card further moves in the insertion direction, the contact portion moves in the first direction, and the contact portion of the second contact is separated from the contact portion of the first contact. Card connector.   The operation of separating the contact portion of the second contact from the contact portion of the first contact is performed after the contact portion of the first contact is in sliding contact with the contact portion of the second contact. 2. The card connector according to claim 1, wherein the card connector is performed by moving the contact portion of the second contact in the first direction while contacting the contact portion. 3. In the card connector with a detection switch for detecting insertion and removal of the card,
The detection switch includes first and second contacts that are in contact with each other.
The first contact has a slidable contact portion that slidably contacts the card, and a contact portion that contacts and separates from the second contact,
The second contact has a contact portion that contacts the card, and a contact portion that contacts and separates from the first contact,
By inserting and removing the card in the first direction, the sliding contact portion moves in a second direction orthogonal to the first direction, and the contact portion moves in the first direction,
With the movement of the sliding contact portion, the contact portion of the first contact moves in the second direction, and the contact portions are in sliding contact with each other,
As the contact part moves, the contact part of the second contact moves in the first direction so that the contact parts come in contact with each other;
When the card is inserted, the second after the the contact portion of the first contact with the contact portion in contact of the contact, the sliding contact portion is the second the moves in the direction of the first contact The card connector is characterized in that the contact portion is slidably contacted with the contact portion of the second contact.

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