JP3656020B2 - IC card processing device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a short card-like foreign substance in an IC card processing apparatus that sends and receives signals to and from an IC card by bringing each contact into contact with each contact on one side of the IC card received up to a predetermined position. It is related with the technique for making it possible to remove easily.
[0002]
[Prior art]
In an IC card processing device that reads and writes information with respect to an IC card, the contacts are brought into contact with a plurality of contacts provided on one side of the IC card received up to a predetermined position, and the electrical contact between each contact and the contact is made. It is configured to communicate with a circuit in the IC card by connection.
[0003]
Such an IC card processing apparatus is often used in devices used by unspecified persons such as public telephones, and is often damaged by tampering such as insertion of foreign matter.
[0004]
For this reason, in the conventional IC card processing apparatus, the lower surface side of the portion for receiving the IC card is opened largely, and the inserted foreign matter is dropped and discharged downward.
[0005]
26 to 30 show a schematic structure of a conventional IC card processing apparatus 5 configured to drop and discharge the inserted foreign matter.
[0006]
In this IC card processing apparatus 5, an IC card inserted from a slit 7 that is provided horizontally on the front side of the card slot 6 is received on the lower surface side of the rectangular substrate 9 of the processing apparatus body 8. The width of the slit 7 is set to be slightly larger than the width of the IC card, and the height of the slit 7 is set to be equal to or greater than the thickness of one IC card and less than two.
[0007]
A pair of restricting portions 10 and 11 for restricting the movement of the inserted IC card in the width direction from both sides are formed on both sides of the lower surface of the substrate 9 so as to continue from the front end to the vicinity of the rear end. .
[0008]
A rail portion 12 is formed on the lower edge of one restricting portion 10 to support one edge in the width direction of the IC card from below and restrict downward movement, and between the rear ends of the restricting portions 10 and 11. Is provided with a support portion 13 for supporting the leading edge of the IC card from below.
[0009]
Further, a stopper 14 is provided on the back side of the support portion 13 so as to abut the tip of the IC card and stop the IC card at a predetermined position. A contact block 16 having a plurality of contacts 15 on the lower surface side for contact with a plurality of terminals on one surface side is supported so as to be movable up and down (a support mechanism is not shown).
[0010]
Further, between the stopper 14 and the contact block 16, one end side of a detection member 17 for detecting insertion of an IC card protrudes. This detecting member 17 receives the insertion force of the IC card at one end side and moves the other end side to lower the contact block 16 to one side of the IC card and bring the contact 15 into contact with the terminal of the IC card. , Allowing information to be sent to and received from the IC card (support mechanism not shown).
[0011]
In the IC card processing device 5 configured as described above, when the regular IC card 1 is inserted from the slit 7 of the card slot 6, the IC card is formed between the lower surface of the substrate 9 and the inner wall surfaces of the pair of regulating portions 10 and 11. The upper and lower side movements of the IC card 1 are regulated, and one edge part in the width direction of the IC card 1 is supported from below by the rail part 12 and guided to the back, as shown in FIG. The tip of the IC card 1 that has reached the support portion 13 is brought into contact with one end of the detection member 17.
[0012]
When the IC card 1 is further pushed, as shown in FIG. 31 (b), the detection member 17 rotates to lower the contact block 16, and reaches the predetermined position where the tip of the IC card 1 comes into contact with the stopper 14. Then, each contact 15 of the contact block 16 comes into contact with each terminal (not shown) provided on one surface side of the IC card 1 with an appropriate contact pressure. As a result, information processing for the IC card 1 can be performed.
[0013]
Further, the IC card processing device 5 restricts movement in the width direction and downward movement on one side in the width direction of the IC card, and restricts only movement in the width direction to the predetermined position on the other side. Since the guide is provided, the foreign matter that has passed through the slit 7 of the card slot 6 can be discharged from the lower surface side.
[0014]
For example, as shown in FIG. 32A, when a card-like foreign object 2 having a width equal to that of a regular IC card and having a length shorter than the distance from the slit 6 to the front end of the support portion 13 is inserted, When the rear end of the foreign material 2 passes through the front end of the substrate 9, the edge portion of the foreign material 2 on the regulating portion 10 side is supported from below by the rail portion 12, but there is no support from below on the other edge side. 33, as shown in FIG. 33, the other edge side of the foreign object 2 is lowered and inclined, and one edge side is detached from the rail part 12 due to this inclination. For this reason, the foreign material 2 is dropped and discharged below the substrate 9 as shown in FIG.
[0015]
[Problems to be solved by the invention]
However, in the IC card processing device 5 described above, the regular IC card 1 is inserted in a state where the rear end of the card-like foreign material 2 is slightly beyond the slit 7 as shown in FIG. Is inserted, the foreign substance 2 is pushed by the IC card 1 at its rear end and enters the back.
[0016]
At this time, when the insertion speed of the IC card 1 is slow, the foreign matter 2 is removed from the rail portion 12 before the tip of the IC card 1 reaches the support portion 13 and dropped and discharged as described above, and the IC card 1 is inserted to a predetermined position. However, when the insertion speed of the IC card 1 is fast, the tip of the foreign object 2 reaches the support part 13 before the one edge part of the foreign object 2 is detached from the rail part 12, and the detection member 17 is moved, As shown in FIG. 34 (b), it can not be pulled out and dropped and discharged until it comes into contact with the stopper 14, and the IC card 1 cannot be used.
[0017]
In addition, as described above, in the card processing device used for the device used by an unspecified person, the device is fixed inside the housing of the device including the card stopper 6 in order to prevent damage caused by mischief. In order to be able to use it, a very complicated work is required in which a service person opens the housing of the device and takes out a foreign object from the card processing device.
[0018]
An object of the present invention is to provide an IC card processing apparatus that can solve this problem and easily remove card-like foreign substances inside.
[0019]
[Means for Solving the Problems]
In order to achieve the above object, the IC card processing apparatus of the present invention provides:
A substantially rectangular substrate;
A pair of width directions projecting so as to oppose each other on both sides of the lower surface of the substrate, and restricting movement in the width direction of the IC card inserted from the front end side along the lower surface of the substrate from both sides with opposite wall surfaces The regulatory department,
An upper direction restricting portion that is formed on the lower surface side of the substrate and between the pair of width direction restricting portions, and restricts upward movement of the IC card by the lower surface;
A rail portion provided along the lower edge of the one width direction restricting portion, supporting one edge portion in the width direction of the IC card on the upper surface and restricting downward movement;
An IC card which is provided on the rear end side of the lower surface of the substrate and enters in a state where movement in the width direction is restricted by the width direction restriction portion and movement in the vertical direction is restricted by the upper direction restriction portion and the rail portion. A stopper that contacts the tip of the IC card and stops the IC card at a predetermined position;
A support portion for supporting the tip of the IC card on the top surface in the vicinity of the stopper and guiding the stopper to the stopper in a state of restricting downward movement;
In the IC card processing apparatus for bringing a plurality of contacts into contact with a contact point provided on one side of the IC card that has entered the predetermined position, and transferring information to and from the IC card.
The upper surface of the rail portion and the support portion is set at a position lower than the thickness of one IC card and less than the thickness of two IC cards with respect to the lower surface of the upward restriction portion,
In the portion of the substrate facing the top surface of the rail portion, a gap is formed having a height from the top surface of the rail portion that is greater than the thickness of two IC cards and wider than the top surface of the rail portion. Further, an escape portion is provided to allow an edge portion of the card body having a thickness of two IC cards to pass through the upper surface of the rail portion.
[0020]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings. 1 to 11 show the configuration of an IC card processing apparatus 20 to which the present invention is applied and its main part.
[0021]
As shown in FIGS. 1 to 4, the IC card processing device 20 includes a card slot 21 and a processing device main body 35.
[0022]
The card slot 21 is attached to the surface of the housing 1 of a device (for example, a public telephone) that uses an IC card as shown in FIG. 1, and guides the IC card into the processing apparatus main body 35.
[0023]
The card slot 21 has a concave upper plate 22 and a lower plate 23 that are vertically opposed to each other, both side edges of the left and right projecting portions 22a and 22b of the upper plate 22, and both side edges of the left and right projecting portions 23a and 23b of the lower plate 23. Side plates 24 to 27 that respectively block the gaps, front plates 28 and 29 that block between the front edges of the protrusions 22a and 22b of the upper plate 22 and the front edges of the protrusions 23a and 23b of the lower plate 23, and the upper plate 22, respectively. The front plate 30 has a front plate 30 that blocks between the front edge of the central portion 22c and the front edge of the central portion 23c of the lower plate 23, and the inside is formed in a hollow shape.
[0024]
The outer side plates 24 and 25 are provided with flanges 31 for screwing and fixing the entire card processing device 20 to the housing 1 of the device, and the processing device main body 35 is supported on both sides of the rear end of the lower plate 22. Support portions 32 and 33 for fixing are extended.
[0025]
The left and right front plates 28 and 29, the inner side plates 26 and 27, and the central front plate 30 are formed with horizontally long slits 34 for allowing the IC card to pass from the front side to the rear side.
[0026]
The height of the slit 34 is set to be larger than the thickness of one regular IC card and smaller than the thickness of two regular IC cards. The width of the slit 34 is larger than the width of the regular IC card. It is set to be slightly larger.
[0027]
The processing apparatus main body 35 provided on the back side of the card slot 21 is configured such that the base member 36, the rail member 95, and the cover 100 are integrated so as to be overlapped in three upper and lower stages.
[0028]
As shown in FIG. 5, the base member 36 includes a substantially rectangular substrate 37 and side plates 38, 39, side plates 38, which are erected upward so as to face each other along edges on both sides of the substrate 37. The rear plate 40 erected along the rear edge of the substrate 37 so as to connect the rear ends of the substrate 39, and the front edge of the substrate 37 so as to connect the front ends of the side plates 38 and 39. The front plate 41 is formed.
[0029]
At the right end of the lower surface 37a of the substrate 37, a first restricting portion 43 for restricting movement of the IC card inserted from the slit 34 of the card slot 21 to one side in the width direction is formed. This 1st control part 43 forms one side of a pair of width direction control part of this embodiment.
[0030]
The first restricting portion 43 protrudes so that the height from the lower surface 37 a of the substrate 37 is constant and continues from the front end to the vicinity of the rear end of the substrate 37, and the inner wall surface 43 a is on one end side of the slit 34 of the card slot 21. The IC card is moved in the front-rear direction so that one side end face of the IC card inserted from the slit 34 is in sliding contact with the wall 43a.
[0031]
As shown in FIG. 11, a clearance groove 44 having a predetermined width that sinks into the upper surface 37 b side of the substrate 37 at a predetermined depth is formed inside the first restricting portion 43 from the front end of the substrate 37 to the vicinity of the rear end. It is continuously formed. The inner wall surface outside the escape groove 44 is continuous with the wall surface 43 a of the first restricting portion 43.
[0032]
The escape groove 44 constitutes the escape portion of this embodiment. As will be described later, the height from the upper surface 96a of the rail portion 96 is larger than the thickness of two IC cards, and the rail portion 96 is formed. A gap wider than the upper surface 96a is formed to promote the tilting of the short card-like foreign material along the width direction, and the upper surface 96a of the rail portion 96 is formed of a card body (IC card) having a thickness equivalent to two IC cards. 1 and the foreign object 2 are included). In this embodiment, the escape portion is formed in a groove shape, but the escape portion may be configured by a hole penetrating the substrate 37 vertically.
[0033]
Further, as shown in FIGS. 7, 8, and 10, a rectangular hole 45 that passes through a contact portion of a contact block 70 to be described later is formed vertically through the center 37 slightly behind the substrate 37. In addition, a rectangular hole 46 through which a second plate portion 87 of a movable member 85 described later passes is formed in the rear portion of the hole 45 so as to penetrate therethrough.
[0034]
Support shafts 47 and 48 are erected on both sides of the hole 45 as support members for supporting the contact block 70 so as to be movable up and down and swingable. A shaft 92 described later is provided behind the support shafts 47 and 48. Bearings 49 and 50 that support both ends of the shaft are erected. In addition, a spring hook 51 protrudes behind the one bearing 50.
[0035]
In the center of the lower surface 37a side of the substrate 37, a lower portion slightly protrudes from the front portion to the rear portion with a predetermined width, and the upward movement of the IC card inserted from the slit 34 of the card slot 21 is restricted on the lower surface side. Two restricting portions 52 are formed. This 2nd control part 52 comprises the upper direction control part of this embodiment.
[0036]
Further, on both sides of the hole 46, it protrudes downward from the lower surface 37 a of the substrate 37 with a longer projection length than the second restricting portion 52, abuts against the tip of the inserted IC card, and stops entering the IC card. A stopper 53 is formed. The stopper 53 has the same height as the first restricting portion 43.
[0037]
A third restricting portion 55 projects downward from the left end of the front end of the lower surface 37a of the substrate 37. The third restricting portion 55, together with a later-described fourth restricting portion 56, forms the other width-direction restricting portion of this embodiment, is formed in a quadrangular prism shape, and the inner wall surface 55a is a card slot. 21 coincides with the surface of the other end side inner wall surface of the slit 34 extending rearward, and restricts movement of the IC card in the width direction with the wall surface 43a of the first restricting portion 43.
[0038]
A fourth restricting portion 56 projects downward from the left end of the rear end of the lower surface 37a of the substrate 37. The fourth restricting portion 56 is formed in a substantially quadrangular prism shape similarly to the third restricting portion 55, and the inner wall surface 56a thereof coincides with the surface extending the inner wall surface 55a of the third restricting portion 55 rearward. The movement of the IC card in the width direction is restricted with respect to the wall surface 43a of the first restricting portion 43. In addition, the space between the third restricting portion 55 and the fourth restricting portion 56 is open toward the side.
[0039]
Shutter support portions 57 and 58 project from both front side ends of the front plate 41. The inner wall of the shutter support portion 57 is continuous with the inner wall surface 43a of the first restricting portion 43, and the inner wall of the shutter support portion 58 is continuous with the inner wall surface 55a of the third restricting portion 55. Restricts movement in the width direction.
[0040]
As shown in FIGS. 5 to 8, the shutter member 60 supported by the shutter support portions 57 and 58 includes a base portion 61 that is formed in a horizontally long shape and a shutter support portions 57 and 58 that protrude from both sides of the base portion 61. Shaft portions 62 and 63 that engage with each other, a protrusion 64 that protrudes upward from the front portion of the base portion 61, a shutter plate 65 that extends downward from the front edge of the base portion 61, and a front portion that extends from one shaft portion 63. The arm portion 66 includes a roller 67 that is attached to the tip of the arm portion 66 and rotates about an axis parallel to the shaft portion 63.
[0041]
In the shutter member 60, the lower end position of the shutter plate 65 is normally lower than the lower edge of the slit 34 of the card slot 21, the rotation center of the roller 67 is located in front of the shutter plate 65, and The lower end position is supported so as to be lower than the lower end position of the shutter plate 65, and when a regular thickness IC card is inserted from the slit 34 of the card slot 21, the leading edge of the IC card is brought into contact with the lower outer periphery. Then, the insertion force of the IC card is transmitted to the shaft portion 63 via the arm portion 66, and the shutter plate 65 is pivoted upward by a distance corresponding to the thickness of the IC card, so that the inserted IC card is slit. 34 so that it can enter the lower surface side of the substrate 37.
[0042]
Further, when a card-like foreign material thinner than the normal thickness or a card-like foreign material having a narrow width and passing through the inside of the roller 67 is inserted, the moving distance upward of the shutter plate 65 is short or not at all. Since it does not move, the foreign matter comes into contact with the shutter plate 65 and is prevented from entering the lower surface 37a of the substrate 37.
[0043]
On the other hand, a contact block 70 is supported on support shafts 47 and 48 that are erected on the upper surface 37 b side of the substrate 37.
[0044]
As shown in FIG. 9, the contact block 70 includes a substantially rectangular substrate 71, and a columnar protrusion 72 protruding upward is provided at substantially the center of the upper surface of the substrate 71, and arms are provided on both sides thereof. The parts 73 and 74 are extended symmetrically.
[0045]
Holes 75 and 76 through which the support shafts 47 and 48 pass with a gap are provided at the distal ends of the arm portions 73 and 74. In addition, hook-shaped hooks 77 and 78 project between the projection 72 and the arm portions 73 and 74.
[0046]
A rectangular contact plate 79 is fixed substantially at the center of the lower surface of the substrate 71. A plurality (eight in this case) of contacts 80 project from the lower surface of the contact plate 79.
[0047]
In order to prevent damage due to double insertion of a foreign object and a card, these contactors 80 have a shorter downward projection length than conventional contacts, and have a high strength (rigidity) and less elastic deformation. Is formed.
[0048]
The protrusions 72 of the substrate 71 are located on the opposite side of the center position of the plurality of contact groups provided on the contact plate 79, and the plurality of contacts 80 include the contact plate 79 and the substrate 71. Are connected to a circuit board (not shown) via a flexible board 81 sandwiched between the two.
[0049]
The contact block 70 can be moved up and down so that the contact plate 79 passes through the hole 45 by the support shafts 47 and 48 inserted into the holes 75 and 76 of the arm portions 73 and 74. It is supported so that it can swing in the left-right direction and the front-rear direction.
[0050]
A first plate portion 86 of the movable member 85 extends above the contact block 70. The movable member 85 forms the detection unit of this embodiment. As shown in FIG. 13, as shown in FIG. 13, the substantially rectangular first plate portion 86 and the rear end of the first plate portion 86 are downward. An elongated rectangular second plate portion 87 is formed in an L shape.
[0051]
A shaft hole 88 penetrating in the width direction is provided in the rear portion of the first plate portion 86, and engages with hooks 77 and 78 of the contact block 70 on both side portions on the distal end side of the first plate portion 86. Pins 89 and 90 that project are projected. A spring hook 91 projects from one side portion of the rear end of the first plate portion 86.
[0052]
The movable member 85 is supported by the shaft 92 that passes through the shaft hole 87 and is supported at both ends by the bearings 49 and 50 so as to suspend the contact block 70 on the front end side of the first plate portion 86, and the second The plate portion 87 is supported so as to be rotatable about the shaft 92 in a state where the lower end of the plate portion 87 protrudes from the hole 46 to the lower surface side of the substrate 37a.
[0053]
A spring 93 is attached to one end side of the shaft 92, one end side of the spring 93 is hooked on the spring hook 91, and the other end side is hooked on the spring hook 51 of the substrate 37. The inner surface of the lower end of the second plate portion 87 is urged in a direction in which it abuts against the wall surface on the front end side of the hole 46.
[0054]
Further, a coil spring 94 as an elastic member is attached between the lower surface on the distal end side of the first plate portion 86 of the movable member 85 and the protrusion 72 of the contact block 70.
[0055]
The coil spring 94 is sandwiched between the first plate portion 86 and the protrusion 72 of the movable member 85 in an elastically deformed state, and the elastic return force is applied to the substantially central portion of the substrate 71 of the contact block 70, that is, a plurality of the coil springs 94. The contact group is concentrated on a position corresponding to the substantially central position.
[0056]
The rail member 95 extends from the lower side in the front-rear direction so as to overlap the right side of the clearance groove 44 of the base plate 37 of the base member 36, and supports a rail portion 96 that supports one edge in the width direction of the IC card from below. The support part 97 extends from the rear part of the rail part 96 so as to cover the rear part side of the substrate 37 and supports the leading edge of the IC card to be inserted from below and abuts against the stopper 52 to form an L shape. Is formed.
[0057]
As shown in FIG. 11, the height from the upper surface 96 a of the rail portion 96 of the rail member 95 to the lower surface of the escape groove 44, and the distance between the inner end of the upper surface 96 a of the rail portion 96 and the inner end 44 a of the escape groove 44. Is sufficiently larger than the thickness of two regular IC cards so that the edge of the card body of the thickness of two IC cards can pass through the upper surface 96a of the rail portion 96 with a slight inclination. Is formed.
[0058]
Further, the upper surface 96a of the rail portion 96 and the upper surface 97a of the support portion 97 have the same height, and are equal to or more than the thickness of one regular IC card with respect to the lower surface 52a of the second restricting portion 52. It is set to be lower by less than the thickness.
[0059]
The cover 100 is formed so as to cover the upper surface side of the base member 36, and on the lower surface side of the front end, the projection 64 of the shutter member 60 is pressed downward to urge the shutter member 60 in a constantly closing direction. A leaf spring 101 is attached.
[0060]
In the IC card processing apparatus 20 configured as described above, the regular IC card 1 is inserted into the slit 34 of the card slot 21 as shown in FIG. The shutter member 60 rotates upward to allow the IC card 1 to enter.
[0061]
The IC card 1 that has passed under the shutter member 60 is supported from below by the slit 34 and the rail portion 96 of the rail member 95, the upward movement is restricted by the second restricting portion 52, and the slit 34, the first In the state where the movement in the width direction is restricted by the wall surface 43a of the restriction portion 43 and the wall surface 55a of the third restriction portion 55, the process proceeds to the back.
[0062]
Then, as shown in FIG. 13, the tip of the IC card 1 enters so as to ride on the upper surface 97 a of the support portion 97 of the rail member 95, and comes into contact with the lower end of the second plate portion 87 of the movable member 85. At this time, the movement of the front end portion of the IC card 1 in the width direction is restricted by the first restricting portion 43 and the fourth restricting portion 56.
[0063]
When the IC card 1 is further pushed to the back side, as shown in FIG. 14, the movable member 85 rotates counterclockwise to lower the contact block 70 and move it to one surface side of the IC card 1. When the tip ends of the contacts reach a predetermined position where they contact the stopper 53, the contacts 80 of the contact block 70 come into contact with terminals (not shown) on the upper surface of the IC card 1 with an appropriate contact pressure.
[0064]
At this time, the lower end of the second plate portion 87 of the movable member 85 is in contact with the upper surface of the IC card 1, and the restoring force of the spring 93 urging the movable member 85 causes the IC card 1 to move. The IC card 1 does not act in the direction of returning to the card slot 21 side, and the IC card 1 is held at the position where the tip of the IC card 1 abuts against the stopper 53 even when the IC card 1 is released.
[0065]
In this way, each contact 80 of the contact block 70 contacts the contact of the IC card 1 inserted to a predetermined position with an appropriate contact pressure, so that information can be exchanged with the IC card 1 reliably. It can be carried out.
[0066]
Further, when a card-like foreign material having a length shorter than a regular one (for example, less than half) is inserted, if the rear end of the foreign material passes through the slit 34, only the rail portion 96 supports the foreign material from below. It becomes.
[0067]
For this reason, as shown in FIG. 15, the one edge 2 a of the foreign object 2 is on the rail portion 96, and the other edge 2 b side is largely inclined downward. It falls off and falls downward.
[0068]
In addition, since the escape groove 44 formed to a position higher than the lower surface of the second restricting portion 52 is provided above the rail portion 96, the rotation of the foreign substance 2 on the one edge 2a side is restricted. Therefore, the foreign matter 2 can be reliably dropped by being greatly inclined.
[0069]
In addition, as shown in FIG. 16, when the IC card 1 is inserted in a state where the card-like foreign material 2 having a short length is slightly beyond the slit 34, the foreign material 2 is thereafter moved as shown in FIG. The end is pushed by the IC card 1 and enters the back.
[0070]
Here, when the insertion speed of the IC card 1 is slow, the edge 2a of the foreign material 2 is detached from the rail portion 96 and dropped and discharged before the tip reaches the support portion 97 as described above. For this reason, the IC card 1 can be inserted to a predetermined position.
[0071]
Further, when the insertion speed of the IC card 1 is high, the foreign matter 2 reaches the support portion 97 before the edge portion 2a is detached from the rail portion 96. At this time, the foreign matter 2 has the edge portion 2b on the opposite side. Since it inclines so that it may fall below the edge part 2a, as shown in FIG. 18, the rear-end edge of the foreign material 2 and the front-end edge of the IC card 1 contact | abut so that it may cross | intersect on the rail part 96 side.
[0072]
For this reason, as shown in FIG. 18, the foreign material 2 advances to the back while receiving a counterclockwise rotational force when viewed from the lower surface side, and the edge portion 2 b of the foreign material 2 passes through the third restricting portion 55 and becomes foreign material. When there is no restriction in the width direction with respect to 2, the foreign material 2 rotates greatly counterclockwise, and the corner on the front end side of the edge 2 a has the first plate portion 87 of the movable member 85 and the first as shown in FIG. 19. So as to come into point contact with the stopper 53 in the range between the rear end of the restricting portion 43 and the corner on the rear end side of the edge portion 2a so as to make point contact with the wall surface 43a of the first restricting portion 43. Stop in contact.
[0073]
For this reason, the foreign matter 2 does not contact the second plate portion 87 of the movable member 85, or the second plate portion 87 cannot be fully pushed out even if contacted, as shown in FIG. The contact block 70 does not descend or the amount of descending decreases.
[0074]
Further, as described above, since the distance between the upper surface 96a of the rail portion 96 and the inner end of the escape groove 44 is equal to or longer than two IC cards, one edge portion 1a of the IC card 1 as shown in FIG. Enters between the rail portion 96 and the escape groove 44 so as to overlap the foreign matter 2a.
[0075]
Then, when the IC card 1 is forcibly pushed from this state, the tip of the IC card 1 does not exert an excessive force on the contact 80 as shown in FIG. pass.
[0076]
Even if the contact block 70 is slightly lowered, the contact block 70 that has received the insertion force of the IC card 1 transmits the force to the coil spring 94, so that the coil spring 94 contracts and the contact block 70 is moved upward. And move the IC card 1 through without difficulty.
[0077]
The tip of the IC card 1 that has passed between the foreign object 2 and the contact 80 reaches the upper surface of the support portion 97 of the rail member 96, but as described above, the upper surface of the support portion 97 and the second restricting portion 52. Since the gap between the IC card 1 and the lower surface of the IC card 1 is set to be equal to or more than one IC card and less than two, the tip of the IC card 1 is inserted into the gap between the foreign matter 2 and the lower surface of the second restricting portion 52. And cannot reach the position where it abuts against the second plate portion 87 of the movable member 85.
[0078]
Therefore, the IC card 1 cannot be used, and the person who has inserted the IC card 1 pulls out the IC card 1.
[0079]
At this time, the leading end of the IC card 1 and the leading end of the foreign matter 2 are in a state of being strongly inserted between the support portion 97 and the second restricting portion 52, and the IC card 1 is caused by a strong frictional force generated between the two. At the same time, the foreign matter 2 moves to the card slot 21 side, and as shown in FIG. 23, the edge 2b of the foreign matter 2 abuts against the corner of the third restricting portion 55 and rotates clockwise around this abutment location. Then, when the posture returns and the tip side is removed from the support portion 97, the support from the lower side is only by the rail portion 96 and falls downward.
[0080]
Therefore, if the person who pulled out the IC card 1 inserts the IC card 1 again, the IC card 1 correctly enters the predetermined position, and the contact 80 is correctly brought into contact with the contact so that information can be exchanged reliably. Can do.
[0081]
Thus, even when the IC card is inserted in a state where the rear end of the foreign material 2 is slightly beyond the slit 34, the foreign material 2 can be dropped and discharged by pressing the IC card once and then pulling it out. Can do.
[0082]
24, even when the IC card 1 is inserted in a state where the foreign object 2 is inserted to a predetermined position by some method and the contact 80 is in contact with the foreign object 2, as shown in FIG. 1 is strongly pushed in such a way that one edge 1a thereof is overlapped with the edge 2 of the foreign object 2 so as to enter between the rail part 97 and the escape groove 44, and the front end of the foreign object 2 and the contact 80 Between the support portion 97 and the second restricting portion 52, and stops.
[0083]
When the IC card 1 is pulled out from this state, the foreign matter 2 moves to the card slot 21 side together with the IC card 1 due to the strong frictional force generated between the IC card 1 and the foreign matter 2 as described above. When it comes off from the support part 97, the support from the lower side is only by the rail part 96 and falls downward.
[0084]
In this way, even when a card-like foreign object having a short length has entered in advance, the foreign object 2 can be dropped and discharged by pressing the IC card 1 once and pulling it out.
[0085]
Moreover, since the operation of strongly inserting and pulling out the IC card 1 is usually performed by the user of the device, the operation of removing the foreign matter 2 can be performed without making the device user aware of it. This can greatly reduce the maintenance work for the clogging of foreign objects by the service person.
[0086]
In the IC card processing device 20, the foreign matter 2 is rotated by utilizing the gap between the third restricting portion 55 and the fourth restricting portion 56 as one width direction restricting portion. The present invention can be similarly applied to a card processing device in which the third restriction portion 55 and the fourth restriction portion 56 are continuous.
[0087]
As described above, in the card processing device 20 of this embodiment, when the IC card 1 is inserted with the card-like foreign material 2 shorter than the normal length inside, the IC card 1 overlaps the upper surface side of the foreign material 2. When the IC card 1 is pulled out and the IC card 1 is pulled out, the IC card 1 is pulled out. The foreign matter 2 is returned to the front end side of the substrate 37 by the frictional force between the first and second substrates 37 and dropped and discharged. Therefore, the foreign matter 2 can be removed by an extremely simple operation of inserting and removing the IC card.
[0088]
【The invention's effect】
As described above, the IC card processing apparatus of the present invention is
A substantially rectangular substrate;
A pair of width directions projecting so as to oppose each other on both sides of the lower surface of the substrate, and restricting movement in the width direction of the IC card inserted from the front end side along the lower surface of the substrate from both sides with opposite wall surfaces The regulatory department,
An upper direction restricting portion that is formed on the lower surface side of the substrate and between the pair of width direction restricting portions, and restricts upward movement of the IC card by the lower surface;
A rail portion provided along the lower edge of the one width direction restricting portion, supporting one edge portion in the width direction of the IC card on the upper surface and restricting downward movement;
An IC card which is provided on the rear end side of the lower surface of the substrate and enters in a state where movement in the width direction is restricted by the width direction restriction portion and movement in the vertical direction is restricted by the upper direction restriction portion and the rail portion. A stopper that contacts the tip of the IC card and stops the IC card at a predetermined position;
A support portion for supporting the tip of the IC card on the top surface in the vicinity of the stopper and guiding the stopper to the stopper in a state of restricting downward movement;
In the IC card processing apparatus for bringing a plurality of contacts into contact with a contact point provided on one side of the IC card that has entered the predetermined position, and transferring information to and from the IC card.
The upper surface of the rail portion and the support portion is set at a position lower than the thickness of one IC card and less than the thickness of two IC cards with respect to the lower surface of the upward restriction portion,
In the portion of the substrate facing the top surface of the rail portion, a gap is formed having a height from the top surface of the rail portion that is greater than the thickness of two IC cards and wider than the top surface of the rail portion. Further, an escape portion is provided to allow an edge portion of the card body having a thickness of two IC cards to pass through the upper surface of the rail portion.
[0089]
For this reason, even when there is a card-like foreign object shorter than the regular length inside, the IC card can be dropped and discharged by strongly inserting and withdrawing the card, and the foreign object can be removed without complicated work. Can be removed.
[Brief description of the drawings]
FIG. 1 is a plan view of an embodiment of the present invention.
FIG. 2 is a front view of an embodiment of the present invention.
FIG. 3 is a side view of an embodiment of the present invention.
FIG. 4 is a bottom view of the embodiment of the present invention.
FIG. 5 is a plan view of the embodiment of the present invention with the card slot removed.
FIG. 6 is a front view of the embodiment of the present invention with the card slot removed.
FIG. 7 is a bottom view of the embodiment of the present invention with the card slot removed.
FIG. 8 is a bottom view of the embodiment of the present invention with the card slot and rail member removed.
FIG. 9 is an exploded perspective view of the main part of the embodiment of the present invention.
10 is an enlarged sectional view taken along line CC in FIG.
11 is an enlarged sectional view taken along line DD in FIG.
FIG. 12 is a schematic diagram for explaining an operation when a regular card is inserted according to the embodiment;
FIG. 13 is a schematic diagram for explaining an operation when a regular card is inserted according to the embodiment.
FIG. 14 is a schematic diagram for explaining an operation when a regular card is inserted according to the embodiment.
FIG. 15 is a schematic diagram for explaining an operation when inserting a short card-like foreign object according to the embodiment.
FIG. 16 is a schematic diagram for explaining an operation when a regular card is inserted when a foreign object according to the embodiment is inside.
FIG. 17 is a schematic diagram for explaining an operation when a regular card is inserted when a foreign object according to the embodiment is inside.
FIG. 18 is a schematic diagram for explaining an operation when a regular card is inserted when a foreign object according to the embodiment is inside.
FIG. 19 is a schematic diagram for explaining an operation when a regular card is inserted when a foreign object according to the embodiment is inside.
FIG. 20 is a schematic diagram for explaining an operation when a regular card is inserted when a foreign object according to the embodiment is inside.
FIG. 21 is a schematic diagram for explaining an operation when a regular card is inserted when a foreign object according to the embodiment is inside.
FIG. 22 is a schematic diagram for explaining an operation when a regular card is inserted when a foreign object is in the embodiment;
FIG. 23 is a schematic diagram for explaining an operation when a regular card is inserted when a foreign object according to the embodiment is inside.
FIG. 24 is a schematic diagram for explaining an operation when a regular card is inserted when a foreign object according to the embodiment is inside.
FIG. 25 is a schematic diagram for explaining an operation when a regular card is inserted when a foreign object according to the embodiment is inside.
FIG. 26 is a schematic plan view of a conventional device.
FIG. 27 is a schematic front view of a conventional apparatus.
FIG. 28 is a schematic bottom view of a conventional apparatus.
29 is a cross-sectional view taken along line AA in FIG.
30 is a sectional view taken along line BB in FIG.
FIG. 31 is a schematic diagram for explaining the operation of a conventional device when a regular card is inserted.
FIG. 32 is a schematic diagram for explaining the operation of a conventional device when inserting a short card-like foreign object.
FIG. 33 is a schematic diagram for explaining the operation of a conventional device when inserting a short card-like foreign object.
FIG. 34 is a schematic diagram for explaining the operation when a regular card is inserted when a foreign object in the conventional apparatus is inside.
[Explanation of symbols]
1 IC card
2 Foreign matter
20 IC card processor
21 Card slot
34 Slit
35 Processing equipment
36 Base member
37 substrates
38, 39 side plate
40 Backboard
41 Front plate
43 First Regulatory Department
44 Escape Groove
45, 46 holes
47, 48 Support shaft
49, 50 Bearing
51 Spring hook
52 Second Regulatory Department
53 Stopper
55 Third Regulatory Department
56 Fourth Regulatory Department
57, 58 Shutter support
60 Shutter member
61 Base
62, 63 Shaft
64 projections
65 Shutter plate
66 arms
67 Laura
70 Contact block
71 substrate
72 Protrusions
73, 74 arms
75, 76 holes
77, 78 hook
79 Contact plate
80 contacts
81 Flexible substrate
85 Movable members
86 1st board part
87 Second plate
88 holes
89, 90 pins
91 Spring hook
92 axes
93 Spring
95 Rail member
96 Rail section
97 Supporting part
100 cover
101 leaf spring

Claims (1)

A substantially rectangular substrate;
A pair of width directions projecting so as to oppose each other on both sides of the lower surface of the substrate, and restricting movement in the width direction of the IC card inserted from the front end side along the lower surface of the substrate from both sides with opposite wall surfaces The regulatory department,
An upper direction restricting portion that is formed on the lower surface side of the substrate and between the pair of width direction restricting portions, and restricts upward movement of the IC card by the lower surface;
A rail portion provided along the lower edge of the one width direction restricting portion, supporting one edge portion in the width direction of the IC card on the upper surface and restricting downward movement;
An IC card which is provided on the rear end side of the lower surface of the substrate and enters in a state where movement in the width direction is restricted by the width direction restriction portion and movement in the vertical direction is restricted by the upper direction restriction portion and the rail portion. A stopper that contacts the tip of the IC card and stops the IC card at a predetermined position;
A support portion for supporting the tip of the IC card on the top surface in the vicinity of the stopper and guiding the stopper to the stopper in a state of restricting downward movement;
In the IC card processing apparatus for bringing a plurality of contacts into contact with a contact point provided on one side of the IC card that has entered the predetermined position, and transferring information to and from the IC card.
The upper surface of the rail portion and the support portion is set at a position lower than the thickness of one IC card and less than the thickness of two IC cards with respect to the lower surface of the upward restriction portion,
In the portion of the substrate facing the top surface of the rail portion, a gap is formed having a height from the top surface of the rail portion that is greater than the thickness of two IC cards and wider than the top surface of the rail portion. An IC card processing device is provided with an escape portion that allows an edge portion of a card body having a thickness of two IC cards to pass through the upper surface of the rail portion.

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