JP3567200B2 - Card processing equipment - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a card processing device for processing data of a magnetic card or an IC card, and more particularly to a mechanism for inserting a card inserted into a card insertion path.
[0002]
[Prior art]
Generally, in this type of card processing apparatus, it is necessary to temporarily hold a card in the card insertion path in order to process data of the card inserted into the card insertion path from the card insertion slot. For holding the card, there is a method in which the width direction of the card is pressed by a leaf spring or the like, and both ends of the card are sandwiched between the leaf spring and one side wall constituting the card insertion path. As a card holding mechanism, there is a mechanism disclosed in Japanese Patent Application Laid-Open No. 9-231323 or the like. What is disclosed here is provided with a U-shaped leaf spring in a plan view, provided on one side of a pair of side walls, and formed with a pair of arms for pressing the card on the other side wall.
[0003]
[Problems to be solved by the invention]
However, in the processing apparatus disclosed in Japanese Patent Application Laid-Open No. 9-231323 or the like, a leaf spring is arranged on a side portion in the card width direction in order to press the card from the card width direction orthogonal to the card insertion direction. When the size of the card processing device is reduced in the card width direction, a leaf spring that presses the card from the width direction becomes an obstacle, and there is a limit to the size reduction in the card width direction.
[0004]
The present invention has been made in view of the above points, and provides a card processing apparatus capable of securely holding a card so that data processing of the card can be appropriately performed and reducing the size in the card width direction. The purpose is to do.
[0005]
[Means for Solving the Problems]
The card processing device usually has a data processing unit for processing card data in a card insertion path, a sensor for detecting insertion and ejection of the card, and the like. The card is disposed above or below when viewed in the thickness direction of the card of the road. Therefore, in order to arrange a data processing unit, a sensor, and the like as a card processing device, it is necessary to secure a predetermined space in the thickness direction of the card. The present inventors have focused on the above points and provided a holding means for holding a card. The invention according to claim 1 has a card insertion slot through which a card is inserted and ejected, and a card insertion slot. A card insertion path formed in communication with the mouth and having a pair of walls in the thickness direction of the card, and is provided so as to extend from one wall of the card insertion path to the card insertion path, and the other of the card insertion path is provided. A card holding means for holding the card by pressing against the wall, wherein the card holding means extends into the card insertion path from a hole provided in one wall of the card insertion path. And a spring member for applying a biasing force to the card pressing portion so as to press the card pressing portion against the other wall of the card insertion path, and at the front end side in the insertion direction of the card insertion path. Provided, card pressing part A switch means for detecting movement in the card thickness direction, a first contact part contacting the card pressing part and a second contact part contacting the switch means, and swinging about a central axis extending in the card insertion direction; And a switch member configured to be turned on or off in accordance with a swing direction around the central axis of the lever member.
[0006]
According to the card processing device of the first aspect, the card holding means advances into the card insertion path from one wall portion of the card insertion path provided in the card thickness direction, and the card holding means also extends in the card thickness direction. To hold the card by pressing it against the other wall of the card insertion path provided in the card. This makes it possible to securely hold the card so that the data processing of the card can be properly performed. In addition, the card holding means can be laid out in a space formed in the thickness direction of the card, so that downsizing in the card width direction can be achieved.
[0007]
Further, in the invention according to claim 1, the card holding means comprises: a card pressing portion provided to advance into the card insertion path from a hole provided in one wall portion of the card insertion path; A spring member for applying an urging force to the card pressing portion so as to press against the other wall portion of the insertion path. This makes it possible to realize the structure of the card holding means simply and at low cost.
[0008]
Further, in the first aspect of the present invention, the card holding means is provided at a front end side of the card insertion path in the insertion direction, and a switch means for detecting movement of the card pressing portion in the card thickness direction is provided. This makes it possible to reliably detect that the card has been inserted to a position where the data processing of the card can be performed properly, by utilizing the fact that the card pressing portion moves in the card thickness direction due to the insertion of the card. It becomes possible. Further, it is possible to simplify the configurations of the card holding unit and the switch unit and reduce the number of parts.
[0009]
Further, according to the first aspect of the present invention, there is provided a first contact portion that contacts the card pressing portion, and a second contact portion that contacts the switch means, and swings around a central axis extending in the card insertion direction. The switch means is configured to be turned ON or OFF in accordance with the swing direction about the central axis of the lever member. As a result, the movement of the card pressing portion in the card thickness direction can be reliably transmitted to the switch means with the minimum necessary number of parts without complicating the structure, and the data processing of the card is appropriately performed. It is possible to reliably detect that the card has been inserted to a position where the card can be inserted.
[0010]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0011]
FIG. 1 is a perspective view showing the overall appearance of the IC card processing apparatus according to the present invention, FIG. 2 is a plan view showing the same with the cover removed, FIG. 3 is a front view showing the same with the cover removed, and FIG. 5 is a rear view in a state where the cover is also removed, FIG. 5 is a sectional view taken along line VV in FIG. 2, and FIG. 6 is a sectional view taken along line VI-VI in FIG.
[0012]
The device main body A generally includes a base plate 1 and an enclosure wall 2. The base plate 1 is formed of a synthetic resin into a substantially flat plate shape. The base plate 1 has a rectangular cutout 3 formed on the front side, that is, on the side where the IC card C is inserted. The surrounding wall 2 is formed integrally with the base plate 1 in a substantially U-shape in plan view so as to surround the base plate 1, and the side into which the IC card C is inserted is open. The surrounding wall 2 is composed of walls 2a and 2b provided to face each other and extending in the card insertion direction, and a wall 2c extending in a direction orthogonal to the card insertion direction.
[0013]
On the lower surface of the base plate 1, a concave portion 4 connected to the cutout portion 3 is formed. Both side walls 4a and 4b of the concave portion 4 extend in the card insertion direction so as to face each other with a space slightly larger than the width of the IC card C. The recess 4 is also formed so as to be continuous with an opening 5 formed in a wall 2 c of the surrounding wall 2 which is orthogonal to the card insertion direction, and the front in the card insertion direction opens outside the device main body A. . A claw portion 6 is provided at a position substantially at the center of both side walls 4a and 4b in the card insertion direction, and is provided to face downward. Is formed. The surface 6a of the claw portion 6 forms a guide surface of the inserted IC card C. In the vicinity of the front end of the recess 4 in the card insertion direction, a protrusion 7 protruding from one of the side walls 4a, 4b is provided in the recess 4. The protrusion 7 contacts the front end of the IC card C inserted into the recess 4 and functions as a card stopper that determines the insertion limit of the IC card C. Here, the recess 4 (the lower surface of the recess 4) forms one wall of the card insertion path in each claim.
[0014]
A pair of guide walls 8 each having an arcuate guide groove 8a are provided facing each other substantially at the center of the base plate 1 in a direction orthogonal to the card insertion direction. A guide hole 9 extending forward in the card insertion direction is formed. The guide hole 9 has a first guide hole 9a and a second guide hole 9b provided on the front side in the card insertion direction continuously from the first guide hole 9a. The first guide holes 9a have a predetermined interval in a direction orthogonal to the card insertion direction. The second guide holes 9b have an interval smaller than the interval between the first guide holes 9a.
[0015]
Protrusions 10, 10 protruding from both sides of the second guide hole 9b are provided at positions near the first guide hole 9a (rear side in the card insertion direction) of the second guide hole 9b. A gap is formed between the protruding portions 10 and smaller than the interval between the second guide holes 9b in a direction orthogonal to the card insertion direction. A guide portion 11 is formed at a position of the first guide hole 9a closer to the second guide hole 9b (front side in the card insertion direction). The upper surface of the guide portion 11 is chamfered, and is formed slightly inclined upward in the card insertion direction.
[0016]
A sub-guide hole 12 extending in the same direction as the guide hole 9 is formed in the base plate 1 located between the guide hole 9 and one wall portion 2b of the surrounding wall 2 extending in the card insertion direction. . The sub-guide hole 12 is formed by cutting out a side wall 4b opposite to the side wall 4a where the protrusion 7 of the concave portion 4 is provided. At the end of the sub guide hole 12 on the front side in the card insertion direction, a stopper 13 having a substantially U-shaped cross section is provided upright so as to straddle the sub guide hole 12. The lower surface of the upper part of the stopper 13 forms a stopper surface.
[0017]
In a plan view, four pins 14a, 14b, 14c, and 14d are provided on the upper surface of the base plate 1 located between the guide hole 9 and the other wall 2a of the surrounding wall 2 extending in the card insertion direction in the card insertion direction. Are set up substantially in series. First and second microswitches 15, 16 for detecting the inserted state of the card are positioned and fixed to the pins 14a, 14b, 14c, 14d. A first microswitch 15 is press-fitted into the two pins 14a and 14b on the rear side in the card insertion direction and is mounted on the base plate 1. The second microswitch 16 is press-fitted into the two pins 14c and 14d on the front side in the card insertion direction and is mounted on the base plate 1. Each of the first and second microswitches 15 and 16 has a rectangular shape in plan view, the major axis direction is substantially parallel to the card insertion direction, and the switch portions 15a and 16a of the first and second microswitches 15 and 16 are provided. Opposes the wall 2a, that is, the urging force applied by the springs 15b, 16b for returning the contacts of the switches 15a, 16a acts in a direction substantially orthogonal to the wall 2a. . Here, the second microswitch 16 constitutes the switch means in each claim.
[0018]
A bottom plate 18 facing the base plate 1 is fixed to the lower surface of the base plate 1 with a space slightly larger than the thickness of the IC card C. The bottom plate 18 has a notch 19 having substantially the same outer shape as the notch 3 of the base plate 1. When the concave portion 4 of the base plate 1 is covered with the bottom plate 18, a space defined by the concave portion 4 and the bottom plate 18 forms a card insertion path 20, and the end portions of the base plate 1 and the bottom plate 18. The card insertion slot 21 is formed at the end. A guide hole 22 extending forward in the card insertion direction is formed at a position substantially at the center of the bottom plate 18 in a direction orthogonal to the card insertion direction, corresponding to the guide hole 9 formed in the base plate 1. ing. The bottom plate 18 located between the guide hole 9 and one wall 2b of the surrounding wall 2 extending in the card insertion direction has a guide hole 9 corresponding to the sub-guide hole 12 formed in the base plate 1. A sub-guide hole (not shown) extending in the same direction as the above is formed. A hook portion 24 is formed on the bottom plate 18 so as to protrude downward at a position on the rear side when viewed in the card insertion direction of the sub guide hole. On the rear side of the bottom plate 18 in the card insertion direction, card placement portions 18a and 18b are provided so as to face the notch portion 19 with the notch portion 19 therebetween. Here, the bottom plate 18 (the upper surface of the bottom plate 18) forms the other wall of the card insertion path in each claim.
[0019]
A magnetic head 25 for reading magnetic information recorded on the IC card C is provided on one card mounting portion 18b of the bottom plate 18 with a predetermined distance from one side wall 4b of the recess 4 in a direction orthogonal to the card insertion direction. Are provided at intervals. The magnetic head 25 is movable in the card thickness direction on two fixed columns 26, 26 extending from the lower surface of the bottom plate 18 in the card thickness direction (vertical direction) and fixed in the card thickness direction. A biasing force is applied to (upper). A roller 28 is provided on the facing surface 1a of the base plate 1 facing the card mounting portion 18b on which the magnetic head 25 is provided, facing the magnetic head 25. The roller 28 is rotatably supported by a shaft 30 fixed to a boss 29 projecting from the facing surface 1 a of the base plate 1.
[0020]
The contact unit 31 is supported on the guide wall 8 of the base plate 1. As shown in FIG. 7, the contact unit 31 has a terminal mounting part 32 formed in a thin rectangular parallelepiped and a card contact part 33 with which the IC card C inserted into the card insertion path 20 contacts. I have. The terminal attachment portion 32 and the card contact portion 33 are connected by an arm portion 34, and the terminal attachment portion 32, the card contact portion 33, and the arm portion 34 are integrally formed of a synthetic resin. A pair of dowels 35 are formed on both sides of the terminal mounting portion 32 on the rear side in the card insertion direction. On the lower surface 32a of the terminal mounting portion 32, a contact terminal 36 formed by bending a flaky conductive material into a dogleg shape is mounted. At the front end of the lower surface 32a of the terminal mounting portion 32 as viewed in the card insertion direction, an engagement portion 37 that is slightly inclined upward toward the front in the card insertion direction is formed. The card contact portion 33 is formed with a spring hook portion 38 and a card contact surface 39.
[0021]
An extension portion 40 is provided on an end surface of the terminal attachment portion 32 on the front side in the card insertion direction. The extension portion 40 is a first extension portion 40a having a first set value in a card width direction orthogonal to the card insertion direction, and is located rearward of the first extension portion 40a in the card insertion direction. And a second extension portion 40b having a second set value whose width in the card width direction orthogonal to the direction is smaller than the first set value. An engagement surface 40c is formed on the upper surface of the first extension portion 40a, and the front side of the engagement surface 40c in the card insertion direction is slightly inclined downward toward the front in the card insertion direction to have a tapered shape. Is formed. The first set value is set to be larger than the length of the gap formed between the protruding portions 10 in the direction orthogonal to the card insertion direction. The second set value is set smaller than the length of the gap formed between the protruding portions 10 in the direction orthogonal to the card insertion direction.
[0022]
The contact unit 31 engages the dowels 35, 35 into the guide groove 8 a from the opening of the guide groove 8 a of the guide wall 8, and applies a tension spring 41 to the hook 24 and the spring hook 38 of the bottom plate 18. The card contact surface 39 of the card contact portion 33 is always supported by the guide wall 8 such that the card contact surface 39 faces the recess 4 via the sub guide hole 12 of the base plate 1. The card contact portion 33 (card contact surface 39) is provided at a position close to the side wall 4b of the concave portion 4, and is configured so that the corner of the IC card C inserted into the card insertion path 20 contacts. ing. The contact unit 31 supported by the guide wall 8 is guided by the guide groove 8 a so as to be movable from obliquely rearward to obliquely downward and forward, and is constantly urged rearward by the tension spring 41. The terminal mounting portion 32 moves in the guide hole 9 of the base plate 1 in the front-back direction in the card insertion direction, and the card contact portion 33 moves in the sub-guide hole 12 of the base plate 1 in the front-back direction in the card insertion direction.
[0023]
A shutter member 42 is provided at a front end portion of the cutout 3 as viewed in the card insertion direction. The shutter member 42 is provided in a shutter member storage hole 43 formed in the base plate 1. The length of the shutter member storage hole 43 in the direction orthogonal to the card insertion direction is set to be longer than the width of the recess 4 in the direction orthogonal to the card insertion direction. The shutter member 42 is swingably supported by a shaft 44 provided between the opposing walls 2 a and 2 b of the surrounding wall 2. The shaft 44 is provided above the shutter member storage hole 43. With these configurations, the shutter member 42 is provided movably in the advancing direction and the retreating direction with respect to the recess 4 (card insertion path 20). Further, the shutter member 42 has a shutter portion 42a which is slightly longer than the width of the recess 4 of the base plate 1 in a direction perpendicular to the card insertion direction. The shape of the shutter portion 42a is set so as to substantially cover the card insertion path 20 when the shutter section 42a is advanced to the recess 4 (card insertion path 20). The biasing force is always applied to the shutter member 42 in the advance direction with respect to the recess 4 (the card insertion path 20) by the spring 45. At one end of the shutter portion 42a, a claw portion 46 that comes into contact with the IC card C is integrally formed to smoothly insert and pull out the IC card C. The other end of the shutter portion 42a is integrally formed with a contact portion 47 extending forward in the card insertion direction.
[0024]
A first lever member 48 is provided on the base plate portion 1b opposed to the card mounting portion 18b on which the magnetic head 25 is provided, with the notch 3 interposed therebetween. The first lever member 48 is swingably supported by a first lever member support 49 formed on the base plate 1 in a state substantially parallel to the card insertion direction. The first lever member support 49 extends upward from the base plate 1 and is formed in a tubular shape. As shown in FIG. 2, the first lever member 48 is provided on the base plate 1, and when viewed in the card insertion direction, the base 50, the card contact part 51, the fulcrum part 52, and the shutter member contact part 53 are arranged in this order. And a switch contact portion 54.
[0025]
The base 50 is formed in a substantially flat plate shape extending in the card insertion direction while being provided on the base plate 1. The card contact portion 51 is formed to extend downward from the rear end of the base 50 in the card insertion direction, and can contact the IC card C inserted into the card insertion path 20. The switch contact portion 54 is provided at the front end of the base 50 in the card insertion direction, and can contact a lever member 55 provided on the switch portion 15a of the first microswitch 15. The fulcrum part 52 is formed at a position between the card contact part 51 and the switch contact part 54 of the base 50 so as to extend downward and is inserted into the first lever member support part 49 formed in a tubular shape. It has become. Therefore, the first lever member 48 swings about a central axis of the fulcrum 52 extending in the thickness direction of the card in a plane substantially parallel to the IC card C. The shutter member contact portion 53 is provided at a position between the fulcrum portion 52 of the base 50 and the switch contact portion 54, and can contact the contact portion 47 of the shutter member 42. The shutter member contact portion 53 and the switch contact portion 54 are formed to extend downward from the base 50 by a predetermined length in order to increase rigidity, and between the shutter member contact portion 53 and the switch contact portion 54. Is formed with a wall portion 56 extending vertically.
[0026]
With the notch 3 of the base plate 1 and the notch 19 of the bottom plate 18 interposed therebetween, the base plate portion 1b and the card mounting portion 18a opposed to the card mounting portion 18b provided with the magnetic head 25 have the notch 3. A notch 57 is formed continuously. The lower part of the card contact part 51 is located in the notch 57 and is provided so as to protrude into the recess 4 (card insertion path 20). Since the urging force of the spring 15b acting in a direction substantially perpendicular to the wall 2a extending in the card insertion direction acts on the first lever member 48 via the lever member 55 of the first micro switch 15, the first lever member 48 The switch contact portion 54 receives a biasing force toward the wall 2a (upward in FIG. 2). As a result, the first lever member 48 is constantly urged in the direction in which the card contact portion 51 advances into the recess 4 (the card insertion path 20).
[0027]
The positional relationship between the shutter member abutting portion 53 and the abutting portion 47 of the shutter member 42 is such that when the above-described biasing force is applied to the first lever member 48 and the IC card C is not inserted, the shutter member 42 The shutter member contact portion 53 is located above the contact portion 47. Further, in a state where the IC card C is inserted into the card insertion path 20 and the inserted card comes into contact with the card contact section 51, and the first lever member 48 swings, the contact section 47 of the shutter member 42 The shutter member contact portion 53 moves from the upper position, and the shutter member contact portion 53 is located at a position deviated from the position above the contact portion 47 of the shutter member 42.
[0028]
A groove portion 58 having a predetermined interval in the card thickness direction is formed in a portion of the card contact portion 51 that contacts the IC card C. When the IC card C is not inserted, the distance between the bottom 59 of the groove 58 and the side wall 4b of the recess 4 facing the card contact portion 51 in the direction perpendicular to the card insertion direction is equal to the IC card C used. Is set to a value larger than the card width in the direction orthogonal to the insertion direction. The vicinity of the opening 60 of the groove 58 is formed in a tapered shape when viewed from the card insertion direction. The predetermined interval of the groove 58 in the card thickness direction is set to a value slightly smaller than the thickness of the IC card C to be used, and it is desirable to change the setting according to the IC card to be used.
[0029]
A wall portion 61 is formed so as to protrude upward from a front end position of the cutout portion 57 of the base plate 1 (the base plate portion 1b facing the card mounting portion 18b) in the card insertion direction. The wall portion 61 has a height substantially contacting the base portion 50 between the fulcrum portion 52 of the first lever member 48 and the card contact portion 51, and the center axis of the fulcrum portion 52 of the first lever member 48. It is configured to stabilize the swing around the center.
[0030]
Due to the contact relationship between the first lever member 48 and the first micro switch 15, the first micro switch 15 swings about the fulcrum 52 of the first lever member 48, that is, the IC card C It is possible to detect whether or not insertion has been made from the insertion opening 21. When the IC card C is inserted from the card insertion slot 21 and the IC card C comes into contact with the card contact part 51 and the first lever member 48 swings, the first micro switch 15 is switched to the switch part 15a (contact point). Is pressed to output an ON signal, the IC card C is pulled out from the card insertion slot 21, and when there is no IC card C, the switch section 15a (contact point) returns to output an OFF signal. ing. Further, the first lever member 48 is provided with a biasing force from the spring 15b for restoring the contact point of the switch portion 15a in a direction to advance the card contact portion 51 into the recess 4 (card insertion path 20). .
[0031]
At a position near the front end of the base plate 1 in the card insertion direction, a card pressing member 62 is provided so as to be accommodated in a cylindrical portion 63 formed to extend upward from the base plate 1. The height of the cylindrical portion 63 from the base plate 1 is set substantially equal to the height of the guide wall 8. The card pressing member 62 has a pressing portion 64 at its lower end, and the pressing portion 64 is recessed from the lower surface of the base plate 1 through a hole 65 formed through the base plate 1 in the card thickness direction. 4 (card insertion path 20), it is provided so as to advance to a position near the front end in the card insertion direction, and an urging force is applied to the bottom plate 18 by a spring 66. In order to prevent the spring 66 from buckling or the like, a spring guide portion 67 is integrally formed so as to protrude upward from a spring contact surface 68 of the pressing portion 64 with which the lower end of the spring 66 contacts. The upper end of the spring 66 is in contact with a plate member 69 which is engaged with and fixed to the upper end of the cylindrical portion 63, and the spring 66 is housed in the cylindrical portion 63 in a compressed state in advance. A convex portion 70 extending in the card thickness direction is formed on the pressing portion 64, and a guide groove 71 for guiding the convex portion 70 is also formed in the cylindrical portion 63 so as to extend in the card thickness direction. As a result, the card pressing member 62 moves smoothly in the cylindrical portion 63. Further, the lower surface of the pressing portion 64 on the rear side in the card insertion direction is tapered so as to be slightly inclined downward toward the front in the card insertion direction. Thereby, the tip of the inserted IC card C is configured to easily enter under the lower surface of the pressing portion 64. Here, the card pressing member 62 (the pressing portion 64) and the spring 66 constitute the card holding means in each claim, the card pressing member 62 (the pressing portion 64) corresponds to the card pressing portion in each claim, and the spring 66 is the same. Each of the spring members is configured. The hole 65 constitutes a hole provided in one wall of the card insertion path in each claim.
[0032]
The card pressing member 62 has an extended portion 73 formed to extend a predetermined length upward from the pressing portion 64. The extension portion 73 is engaged with a groove portion 74 formed in the cylindrical portion 63, and moves in the groove portion 74 while being guided in the card thickness direction as the pressing portion 64 moves in the card thickness direction. A second lever member 75 is provided substantially above the extension 73. The second lever member 75 has a base portion 76, a card pressing member contact portion 77, and a switch contact portion 78. The base 76 is formed in a rod shape having a substantially circular cross section. The base 76 swings around the center axis at both ends 79, 79 in a state where the center axis of the base 76 is substantially parallel to the card insertion direction. It is supported by supporting portions 80, 80 formed on the base plate 1 so as to be possible. The card pressing member abutment portion 77 extends in a radial direction from the base portion 76 to the base portion 76 (in a state provided on the base plate 1, a direction substantially parallel to the IC card C when viewed from the card insertion direction, a leftward direction in FIG. 11). ), And comes into contact with the extended portion 73 of the card pressing member 62. The switch contact portion 78 has a predetermined angle (about 90 ° in the present embodiment) with respect to the card pressing member contact portion 77 when viewed from the center axis direction of the base 76, and extends in the radial direction from the base 76 to the base 76. (In the state provided on the base plate 1, in the thickness direction of the IC card C when viewed from the card insertion direction, and downward in FIG. 11), and is in contact with the switch portion 16a of the second micro switch 16. It has become. Here, the second lever member 75 constitutes a lever member in each claim. The card pressing member contact portion 77 constitutes a first contact portion in each claim, and the switch contact portion 78 similarly constitutes a second contact portion.
[0033]
Due to the contact relationship between the card pressing member 62, the second lever member 75, and the second micro switch 16, the second micro switch 16 swings around the center axis of the second lever member 75, that is, the IC card C Can be detected whether or not the front end has been inserted to a predetermined position on the front end side in the card insertion direction of the recess 4 (card insertion path 20). The second micro switch 16 is inserted with the front end of the IC card C up to a predetermined position on the front end side of the recess 4 (card insertion path 20) in the card insertion direction, pushes up the card pressing member 62, and the second lever member 75 By swinging, the switch section 16a (contact point) is pressed and an ON signal is output, the IC card C is pulled out from the card insertion slot 21, and the switch section 16a (contact point) returns in a state where there is no IC card C. Then, an OFF signal is output.
[0034]
The upper surface of the device main body is covered with a cover 81 formed in a substantially flat shape, and the cover 81 is fixed to a boss portion 82 erected on the base plate 1 with screws. On the lower surface of the cover 81, a position corresponding to the shutter member contact portion 53 of the first lever member 48, a position corresponding to the first micro switch 15, a position corresponding to the second micro switch 16, and a contact unit 31 are provided. A projection 83 extending downward is formed at each of the positions. Each protruding portion 83 has a height such that the upward movement of the first lever member 48 (particularly, the shutter member contact portion 53), the first micro switch 15, the second micro switch 16, and the contact unit 31 is restricted. Is set. On the upper surface of the IC card C, an electrode portion C1 with which the contact terminal 36 of the contact unit 31 contacts is formed.
[0035]
In such a configuration, as shown in FIG. 1, the IC card C is inserted between the card placement portions 18 a and 18 b of the bottom plate 18 and the side walls 4 a and 4 b of the 4 (card insertion path 20). In a state where the IC card C has not yet been inserted or a state where the inserted IC card C has not reached the card contact portion 51 of the first lever member 48 (the state shown in FIG. 8), the first lever member 48 is not used. Is in a state where the card contact portion 51 is advanced into the concave portion 4 (card insertion path 20) by receiving the urging force from the spring 15b for returning the contact point of the switch portion 15a of the first micro switch 15. . The shutter member 42 is in a state of being advanced to the concave portion 4 (the card insertion path 20) by receiving the urging force from the spring 45. In these states, since the shutter member contact portion 53 is located above the contact portion 47 of the shutter member 42, even if the shutter member 42 is pressed in the card insertion direction by some means, the contact member 47 and the shutter member The engagement with the contact portion 53 restricts the movement of the shutter member 42 in the retreating direction from the recess 4 (card insertion path 20), and the shutter member 42 remains in the state of being advanced with respect to the card insertion path 20. Is done.
[0036]
When the IC card C is inserted and one corner of the front end of the inserted IC card C comes into contact with the card contact portion 51 of the first lever member 48 (the state shown in FIG. 9), the corner is brought into contact with the card. The contact portion 51 is pressed in a direction (upward in FIG. 9) that retreats from the recess 4 (the card insertion path 20) when viewed in a plan view. When the card contact portion 51 is pressed, the first lever member 48 swings clockwise around the fulcrum portion 52, and the shutter member contact portion 53 and the switch contact portion 54 are viewed from above in the concave portion 4 ( It is moved inward (downward in FIG. 9) of the card insertion path 20). As a result, the switch contact portion 54 presses the switch portion 15a (contact point) of the first micro switch 15 via the lever member 55. The first microswitch 15 receives the pressing of the switch section 15a and outputs an ON signal. Further, since the shutter member contact portion 53 is displaced from the position above the contact portion 47 of the shutter member 42, the above-described movement restriction of the shutter member 42 in the retreating direction from the concave portion 4 (card insertion path 20) is released. The shutter member 42 is in a state where it can be withdrawn from the recess 4 (card insertion path 20).
[0037]
As the insertion of the IC card C proceeds, the front end face of the IC card C comes into contact with the shutter member 42 (the state shown in FIG. 10). In this state, since the movement restriction of the shutter member 42 in the retreating direction from the recess 4 (card insertion path 20) is released, the shutter member 42 receives the pressing force from the IC card C, and the shutter member 42 And withdraws from the recess 4 (card insertion path 20). Therefore, the IC card C moves inside the card insertion path 20 while pushing up the shutter member 42.
[0038]
Further, when the IC card C is inserted, the other corner of the front end of the inserted IC card C comes into contact with the card contact portion 33 (card contact surface 39) of the contact unit 31, and the card contact portion 33 Is pressed in the card insertion direction against the spring force of the tension spring 41. The pressed card contact portion 33 moves inside the sub guide hole 12 in the card insertion direction. The pressing force applied from the IC card C to the card contact portion 33 is transmitted to the terminal mounting portion 32 via the arm portion 34, and the terminal mounting portion 32 is moved in the card insertion direction by the guide groove 8a of the guide wall 8. Descend. As the insertion of the IC card C proceeds, the terminal mounting portion 32 moves downward in the card insertion direction while moving the contact terminal 36 from the guide hole 9 (first guide hole 9a) into the card insertion path 20 so as to face the inside of the card insertion path 20. The contact terminal 36 of the section 32 comes into contact with the electrode section C1 of the IC card C.
[0039]
When the other corner of the front end of the IC card C comes into contact with the protrusion 7, the insertion of the IC card C in the card insertion direction is restricted. At this time, the portion near the one corner of the front end of the IC card C enters below the pressing portion 64 having a tapered shape on the lower surface in the rear side in the card insertion direction (the state shown in FIG. 12). The urging force from the spring 66 acts on the IC card C from the lower surface of the concave portion 4 toward the bottom plate 18 (downward in FIG. 12) via the card pressing member 62 (the pressing portion 64). As a result, a portion near one corner of the front end of the IC card C is pressed against the upper surface of the bottom plate 18, and the IC card C is held in a state of being in contact with the protrusion 7. When the IC card C enters below the pressing portion 64, the card pressing member 62 is pushed up against the urging force of the spring 66, and moves upward from the state shown in FIG. The upward movement of the card pressing member 62 is transmitted to the card pressing member contact portion 77 of the second lever member 75, and swings the second lever member 75 around the central axis of the base 76. Due to this swing, the switch contact portion 78 of the second lever member 75 presses the switch portion 16a (contact point) of the second micro switch 16. The second microswitch 16 receives the pressing of the switch unit 16a and outputs an ON signal.
[0040]
The above-described state in which the other corner of the front end of the IC card C contacts the protruding portion 7 and the contact terminal 36 of the terminal mounting portion 32 contacts the electrode portion C1 of the IC card C (shown in FIG. In the state), the protrusions 10, 10 are positioned above the engagement surface 40c of the first extension 40a, and the width of the first extension 40a in the direction orthogonal to the card insertion direction is increased. , 10 is set to a larger value than the first set value, so that the engagement surface 40c of the first extension portion 40a and the protruding portions 10, 10 come into contact with each other. Accordingly, the upward movement of the terminal mounting portion 32 (contact unit 31) in the card thickness direction is restricted, and the contact state between the contact terminal 36 and the electrode portion C1 is maintained.
[0041]
In this state, when the protrusion 7 is deformed and the IC card C is further inserted, or when a gold scale or the like is inserted between the IC card C and the terminal attachment 32, the terminal attachment 32 (contact unit 31) moves in the card insertion direction (the state shown in FIG. 14). As described above, when the terminal mounting portion 32 (contact unit 31) further moves, the extension portion 40 also moves in the card insertion direction with respect to the protruding portions 10 and 10, and the extension portion 40 is below the protruding portions 10 and 10. The second extension 40b is located. When the front end of the terminal mounting portion 32 rides on the guide portion 11, the terminal mounting portion 32 (contact unit 31) moves upward in the card thickness direction, and the contact terminal 36 is separated from the electrode portion C1. Become. In this case, since the width of the second extension 40b in the direction perpendicular to the card insertion direction is set to the second set value smaller than the gap between the protruding portions 10, 10, the second extension 40b is set. The contact 40b and the protruding portions 10, 10 do not come into contact with each other, and the contact terminal 36 and the electrode portion C1 can be separated from each other.
[0042]
The data of the IC card C is processed via the contact terminal 36 in a state where the contact terminal 36 of the terminal mounting portion 32 is in contact with the electrode portion C1 of the IC card C. Specifically, when the ON signal is output from both the first micro switch 15 and the second micro switch 16, the data of the IC card C is processed. Further, when magnetic information is recorded at a predetermined position of the IC card C, the magnetic information recorded by the magnetic head 25 is read out when the portion where the magnetic information is recorded passes through the magnetic head 25. Specifically, the magnetic information is read out until the ON signal is output from the first microswitch 15 and the ON signal is output from the second microswitch 16. The read magnetic information is communicated to a host computer or the like of a card company, etc., and it is determined whether or not the inserted card is usable, and the result is returned.
[0043]
As described above, in the card processing device of the present embodiment, the card pressing member 62 is particularly provided. The card pressing member 62 has a pressing portion 64 provided at a lower end thereof, and a hole 65 formed through the base plate 1 in the card thickness direction from a lower surface of the base plate 1 through a card insertion path 20 (recessed portion). 4), the urging force is applied to the bottom plate 18 by a spring 66. Thereby, the card pressing member 62 presses the IC card C inserted into the card insertion path 20 (the concave portion 4) against the bottom plate 18 to hold the IC card C. Therefore, it is possible to securely hold the IC card C so that the data processing of the IC card C can be appropriately performed.
[0044]
The card pressing member 62 and the spring 66 are disposed on the base plate 1 located above the card insertion path 20 (the concave portion 4) so as to urge the card pressing member 62 in the card thickness direction by the spring 66. Is done. The first and second microswitches 15 and 16, the contact unit 31, and the contact unit are provided on the base plate 1 in a space above the base plate 1, that is, in a space having a predetermined height from the base plate 1 in the card thickness direction. A guide wall 8 for supporting the base 31 is provided. Therefore, the card pressing member 62 and the spring 66 can be laid out using the space above the base plate 1 formed in the thickness direction of the card, and the size of the device main body A in the card width direction can be reduced. Can be planned.
[0045]
Further, in the card processing apparatus of the present embodiment, the holding of the IC card C is performed by the pressing portion 64 (card pressing member) that advances from the lower surface of the base plate 1 into the card insertion path 20 (recess 4) through the hole 65. 62) and a spring 66 for applying an urging force to the card pressing member 62. As a result, a structure for holding the IC card C can be realized simply and at low cost.
[0046]
Further, in the card processing apparatus of the present embodiment, the card pressing member 62 is provided so as to advance from the lower surface of the base plate 1 to the front end in the card insertion direction in the card insertion path 20 (recess 4). The second microswitch 16 for detecting the movement of the member 62 in the card thickness direction accompanying the insertion of the IC card C is provided on the base plate 1. As a result, the IC card C is inserted to a position where the data processing of the IC card C can be properly performed by utilizing the fact that the card pressing member 62 moves in the card thickness direction when the IC card C is inserted. Can be reliably detected. Further, it is possible to simplify the configuration of the detecting means for detecting that the IC card C has been inserted to a position where the data processing can be appropriately performed, and to reduce the number of components.
[0047]
Further, in the card processing device of the present embodiment, a second lever member 75 is provided. The second lever member 75 contacts a rod-shaped base 76 whose central axis extends in the card insertion direction, a card pressing member contact portion 77 that contacts the card pressing member 62, and a switch portion 16 a of the second microswitch 16. A switch contact portion 78 is provided. The second micro switch 16 outputs an ON signal or an OFF signal according to the swing direction of the base 76 of the second lever member 75 around the central axis. Thereby, the movement of the card pressing member 62 in the card thickness direction can be reliably transmitted to the second microswitch 16 with the minimum necessary number of parts without complicating the structure, and the data processing can be performed. Can be reliably detected that the IC card C has been inserted to a position where it can be performed properly.
[0048]
Further, in the card processing apparatus of the present embodiment, the second lever member 75 is supported by the base plate 1 (support portion 80) in a state substantially parallel to the card insertion direction, and An increase in the length in the orthogonal card width direction can be suppressed, and the size of the card processing device can be reduced. The second microswitch 16 is also provided on the base plate 1 with its major axis direction substantially parallel to the card insertion direction. Similarly, the second microswitch 16 is also provided in the card width direction orthogonal to the card insertion direction of the device body A. The increase in the length is suppressed, and the size of the card processing device can be further reduced in combination with the layout of the second lever member 75.
[0049]
Furthermore, in the card processing device of the present embodiment, the first lever member 48 is provided in series with the second lever member 75 when viewed in the card insertion direction. Similarly, the first microswitch 15 is provided in series with the second microswitch 16 as viewed in the card insertion direction, with its major axis direction being substantially parallel to the card insertion direction. Thereby, the first lever member 48 and the first microswitch 15 can be laid out so that the length in the card width direction orthogonal to the card insertion direction of the device main body A is prevented from increasing. It is possible to further reduce the size of the device.
[0050]
In the above-described embodiment, the description has been given based on the IC card processing apparatus. However, the present invention is not limited to this, and it is also possible to employ a magnetic card processing apparatus using a magnetic card. Applicable to
[0051]
In addition, the card pressing member 62 is provided at a position near the front end side of the base plate 1 in the card insertion direction, but need not necessarily be provided at the above-described position. As long as the IC card C can be pressed and held against the bottom plate 18, the IC card C may be provided at substantially the center of the recess or near the rear end in the card insertion direction. However, in these cases, it is necessary to newly provide a means for detecting that the IC card C has been inserted all the way (the contact terminal 36 and the electrode section C1 have been inserted to a position where data processing can be performed by contact). There is.
[0052]
【The invention's effect】
As described above in detail, according to the present invention, a card processing device capable of securely holding a card so that data processing of the card can be appropriately performed and reducing the size in the card width direction is provided. Can be provided.
[Brief description of the drawings]
FIG. 1 is a perspective view showing the overall appearance of a card processing apparatus according to the present invention.
FIG. 2 is a plan view of the card processing apparatus according to the present invention with a cover removed.
FIG. 3 is a front view of the card processing apparatus according to the present invention with a cover removed.
FIG. 4 is a rear view of the card processing apparatus according to the present invention with a cover removed.
FIG. 5
FIG. 5 is a sectional view taken along line VV in FIG. 2.
FIG. 6 is a sectional view taken along line VI-VI in FIG. 2;
FIG. 7 is a perspective view showing a detailed structure of a contact unit included in the card processing device according to the present invention.
FIG. 8 is a schematic plan view of an essential part for explaining an operation of a shutter member included in the card processing device according to the present invention.
FIG. 9 is a schematic plan view of an essential part for explaining an operation of a shutter member included in the card processing device according to the present invention.
FIG. 10 is a schematic plan view of an essential part for explaining an operation of a shutter member included in the card processing device according to the present invention.
FIG. 11 is a schematic side view of an essential part for explaining an operation of a card pressing member included in the card processing device according to the present invention.
FIG. 12 is a schematic side view of an essential part for explaining an operation of a card pressing member included in the card processing device according to the present invention.
FIG. 13 is a schematic side view of a main part for explaining a positional relationship between an extension provided on a contact unit and a protrusion provided on a base plate, which is included in the IC card processing apparatus according to the present invention.
FIG. 14 is a schematic side view of a main part for explaining a positional relationship between an extension provided on a contact unit and a protrusion provided on a base plate, which is included in the IC card processing apparatus according to the present invention.
[Explanation of symbols]
A: device main body, C: card, C1: electrode section, 1: base plate, 4 ... concave section, 4a ... side wall, 4b ... side wall, 16 ... second micro switch, 16a ... switch section, 16b ... spring, 18 ... bottom plate , 20 ... card insertion path, 21 ... card insertion slot, 31 ... contact unit, 36 ... contact terminal, 62 ... card pressing member, 64 ... pressing part, 65 ... hole, 66 ... spring, 75 ... second lever member, 76: base, 77: card pressing member contact part, 78: switch contact part, 81: cover.

Claims (1)

A card slot into which the card is inserted and ejected,
A card insertion path formed in communication with the card insertion slot and having a pair of walls in the thickness direction of the card;
A card holding means which is provided so as to protrude from one wall of the card insertion path into the card insertion path and presses against the other wall of the card insertion path to hold a card. hand,
The card holding means includes: a card pressing portion provided to advance into the card insertion path from a hole provided in the one wall portion of the card insertion path; and a card pressing portion configured to move the card pressing portion to the other side of the card insertion path. A spring member that applies a biasing force to the card pressing portion so as to press against the wall portion of the card insertion portion, and is provided on the front end side in the insertion direction of the card insertion path,
Switch means for detecting movement of the card pressing portion in the card thickness direction,
A lever member that has a first contact portion that contacts the card pressing portion and a second contact portion that contacts the switch means, and that swings around a central axis extending in a card insertion direction;
The card processing device according to claim 1, wherein said switch means is turned on or off in accordance with a swing direction of said lever member around said central axis .

Images