JP3907934B2 - Manual IC card reader - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a manual IC card reader. More specifically, the present invention relates to an improvement of a manual card reader that reads and records data by manually inserting and removing a card.
[0002]
[Prior art]
As the manual IC card reader 101, as shown in FIG. 4, when the IC card 102 is inserted, the contact block 103 is brought into contact with the IC card 102 to read / write information.
[0003]
When the manual IC card reader 101 performs data communication with the IC card 102, the contact 104 on the contact block 103 needs to be brought into elastic contact with the IC card 102 stopped at a predetermined position. Therefore, the contact block 103 is supported by the parallel link mechanism 106 so as to be able to move obliquely up and down with respect to the IC card 102, and a contact 105 is provided each time the contact block 103 is positioned in contact with the tip of the inserted IC card 102.
[0004]
As a result, when the IC card 102 is inserted, the contact block 103 comes into contact with the contact block 103, and the contact block 103 is pushed into the back side and simultaneously pressed against the IC card 102. Therefore, the contact 104 comes into elastic contact with the IC card 102 stopped at a predetermined position.
[0005]
[Problems to be solved by the invention]
However, in the manual IC card reader 101 described above, the contact block 103 is gradually pushed down as the IC card 102 is inserted, so that the contact pressure P by the contact 104 increases as the IC card 102 is inserted. . For this reason, the contact pressure P causes a frictional force between the IC card 102 and the card running surface 107, which causes a card insertion load. As a result, when the card is inserted, the insertion load is small until the contact 104 comes into contact with the IC card 102. However, since the insertion load increases thereafter, it cannot be said that the operability is good.
[0006]
Further, when the insertion load increases, the user may mistakenly insert the IC card 102 and stop the insertion of the IC card 102. In this case, not only the contact terminal pattern of the IC card 102 and the contact 104 cannot be satisfactorily contacted but also the contact position of the contact 104 is not a normal position, which may cause a malfunction.
[0007]
Therefore, an object of the present invention is to provide a manual IC card reader that can be easily inserted with a small load up to a regular reading position when an IC card is inserted.
[0008]
[Means for Solving the Problems]
In order to achieve this object, the invention according to claim 1 is provided with a card insertion / removal recess formed in the card insertion direction in the frame forming the card insertion slot, and the IC card is inserted into the card insertion slot via the recess. In a manual IC card reader configured to move to a card stop position, contact the contact on the contact block with the contact terminal pattern of the IC card to perform data communication, and then pull out the IC card. A detection sensor for detecting that the card is located at the card stop position, a drive source that operates based on the output of the detection sensor, a drive source that is movable by the drive force of the drive source, and is moved by the drive source to move along the card travel path. A shutter member that opens and closes the card travel path to open and close, and a drive source that is movable by the drive force of the drive source; Is sintered moved by a driving source and a moving means for moving the contact block contact detachably against the contact terminal pattern of the IC card, the driving source to the timing and movement means for providing a driving force of the driving source to the shutter member By shifting the timing at which the driving force is applied, two operations are started: the opening and closing operation of the card travel path by the shutter member moving by the driving source , and the start of the contact block contact releasing operation by the moving means moving by the driving source and it is provided with a time differences in the start.
[0009]
Therefore, when the inserted IC card is located at the card stop position, the detection sensor is activated and the drive source is activated. Then, the moving means is operated to bring the contact block into contact with the contact terminal pattern of the IC card. For this reason, when the IC card is inserted, the contact block is not gradually lowered, so that the insertion load does not increase up to the card stop position and can be easily inserted.
[0011]
When the inserted IC card is located at the card stop position, the detection sensor is activated and the shutter member is closed by the drive source. Therefore, it can be prevented that the IC card is accidentally pulled out while the IC card is in contact with the contact block and information is being read or written. In addition, the drive source for moving the contact block and opening / closing the shutter can be shared.
[0012]
Further, the invention of claim 2, in the manual type IC card reader according to claim 1 Symbol mounting, the drive source together with a solenoid with a plunger which have a engaging pin is formed an engaging pin moving means and the engaging portion provided to be contact disengagement, the engaging pin is in so that contacting disengage the contact block to the contact terminal pattern of the IC card by contacts disengaged with the engaging portion.
[0013]
Accordingly, the moving means is operated via the engaging pin and the engaging portion by the operation of the driving source. Therefore, the contact block is moved.
[0014]
The third aspect of the present invention, in the manual type IC card reader according to claim 2, provided with a connecting member fixed to the engaging pin, the mounting portion formed in the connecting member is fitted in the shutter member fitting hole is formed that either one fitting hole is in so that a holding portion for holding the operating portion and the shutter member for opening and closing the shutter member in the closed position, is formed in the connecting member by a reciprocating motion of the coupling member The mounting portion opens and closes the shutter member through the fitting hole .
[0015]
Therefore, the engagement pin and the connecting member are moved by the operation of the drive source. Then, the shutter portion is opened / closed or held via the attachment portion and the fitting hole. At this time, the shutter member is opened and closed by the reciprocating operation of the connecting member when the mounting portion is positioned at the operating portion of the fitting hole, and the shutter member is held at the closed position when positioned at the holding portion.
[0016]
Further, the invention according to claim 4 is the manual IC card reader according to claim 2 or 3, wherein the shutter member is provided so as to be able to swing around the fulcrum, and the moving means swings around the fulcrum. constituted by a plate, and the fulcrum of the fulcrum and the moving means of the shutter member so that the same fulcrum. Therefore, since the shutter member and the member that rotatably supports the moving means can be shared, the number of parts can be reduced.
[0017]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the configuration of the present invention will be described in detail based on an example of an embodiment shown in the drawings. 1 to 3 show an embodiment of a manual IC card reader 1 of the present invention. The manual IC card reader 1 moves the IC card 2 from the card insertion slot 3 to the card stop position (the position of the IC card 2 in each figure), and the contact 5 on the contact block 4 is contacted with the IC card 2. Data communication is performed by contacting the terminal pattern, and then the IC card 2 is pulled out.
[0018]
The manual IC card reader 1 detects the IC card 2 at the card stop position and detects the contact of the contact block 4 on the IC card 2 based on the outputs of the detection sensors 6 and 7. A moving means 8 for moving the terminal pattern so as to be able to come into contact with the terminal pattern and a drive source 9 for driving the moving means 8 are provided. For this reason, when the inserted IC card 2 is located at the card stop position, the detection sensors 6 and 7 are activated and the drive source 9 is activated. Then, the moving means 8 is operated to bring the contact block 4 into contact with the contact terminal pattern of the IC card 2. For this reason, when the IC card 2 is inserted, the contact block 4 is not gradually lowered, so that the insertion load does not increase up to the card stop position and can be easily inserted.
[0019]
In this manual IC card reader 1, a card insertion / removal recess 11 formed in the card insertion direction is formed in a frame 10 forming the card insertion slot 3. Then, the IC card 2 is inserted into and removed from the card insertion slot 3 so that the finger holding the IC card 2 is inserted into the recess 11.
[0020]
The detection sensors 6 and 7 include a front sensor 6 provided in the vicinity of the card insertion slot 3 and a rear sensor 7 provided in the back of the card travel path 12. Then, the detection signals of these sensors 6 and 7 are transmitted to a host device (not shown), and it is determined that the IC card 2 is located at the card stop position when both of the detection signals are ON. .
[0021]
The front sensor 6 is composed of a photo sensor, and a sensor lever 13 protruding from the card travel path 12 is attached. For this reason, when the IC card 2 is inserted, the front sensor 6 is turned on via the sensor lever 13. Further, as the front sensor 6, a magnetic head 14 provided in the vicinity of the card insertion slot 3 may be used in combination. If all the IC cards 2 to be read include magnetic information, the magnetic head 14 may be used alone as the front sensor 6.
[0022]
The rear sensor 7 is composed of a photo sensor, and a sensor lever 15 protruding to the card travel path 12 is attached. For this reason, when the IC card 2 is located at the card stop position, the rear sensor 7 is turned on via the sensor lever 15.
[0023]
The drive source 9 is composed of a solenoid. The solenoid is provided with a return spring 17 that urges the plunger 16 in the pulling direction. An engagement pin 18 is attached to the plunger 16. Further, the drive source 9 is mounted horizontally with respect to the frame 10 and arranged in a so-called horizontal orientation. For this reason, the height of the manual IC card reader 1 can be reduced as compared with the case where it is installed directly above the contact block 4 as in the prior art.
[0024]
Further, the moving means 8 is composed of a swinging plate that is rotatable about a support shaft 19 and to which the contact block 4 is attached. The contact block 4 approaches and separates from the IC card 2 by the swing of the moving means 8. The moving means 8 is formed with an engaging portion 20 on which the engaging pin 18 of the drive source 9 can come into contact with and disengage from. Then, when the engaging pin 18 comes in contact with and separates from the engaging portion 20, the moving means 8 is swung so that the contact block 4 contacts and separates from the contact terminal pattern of the IC card 2. Furthermore, a biasing spring 21 that biases the contact block 4 in a direction away from the IC card 2 is attached to the moving means 8.
[0025]
On the other hand, the manual IC card reader 1 includes a shutter member 22 that opens and closes based on the outputs of the detection sensors 6 and 7. The shutter member 22 is opened and closed using the drive source 9. Therefore, when the inserted IC card 2 is located at the card stop position and the detection sensors 6 and 7 are activated, the shutter member 22 is closed by the drive source 9. Therefore, it is possible to prevent the IC card 2 from being accidentally pulled out while being in contact with the contact block 4 and reading / writing information. In addition, the drive source 9 for moving the contact block 4 and opening / closing the shutter member 22 can be shared.
[0026]
The shutter member 22 opens and closes the card travel path 12 and can swing around the support shaft 19. That is, the shutter member 22 and the moving means 8 have the same fulcrum. For this reason, since the member which rotatably supports the shutter member 22 and the moving means 8 can be shared, the number of parts can be reduced. In addition, since the shutter member 22 and the moving means 8 are set to the same fulcrum in this way, the solenoid that is the drive source 9 can be placed sideways without difficulty.
[0027]
A connecting member 23 is fixed to the engaging pin 18. An attachment portion 24 is formed on the connecting member 23. On the other hand, the shutter member 22 has a fitting hole 25 into which the attachment portion 24 is fitted. The fitting hole 25 forms a cam mechanism with the mounting portion 24, and an operation portion 26 that opens and closes the shutter member 22 by a reciprocating operation of the connecting member 23, and a holding portion 27 that holds the shutter member 22 in a closed position. And. For this reason, the engagement pin 18 and the connecting member 23 are linearly moved by the operation of the drive source 9. At this time, when the attachment portion 24 is positioned at the operation portion 26 of the fitting hole 25, the shutter member 22 is opened and closed through the attachment portion 24 and the fitting hole 25 by the reciprocating movement of the connecting member 23. Further, when the attachment portion 24 is positioned at the holding portion 27 of the fitting hole 25, the shutter member 22 is held at the closed position even if the connecting member 23 reciprocates.
[0028]
The operation when reading / writing information from / to the IC card 2 by the manual IC card reader 1 described above will be described below.
[0029]
In the initial state, that is, in the state of waiting for insertion of the IC card 2, the plunger 16 of the drive source 9 is located at the initial position where it is most pulled out by the return spring 17. Thereby, the shutter member 22 is open. Further, the contact block 4 is retracted to a position away from the card travel path 12 by an urging spring 21.
[0030]
Then, the IC card 2 is inserted. The IC card 2 is detected to be inserted by turning on the front sensor 6 or reading magnetic data by the magnetic head 14. In the case of the forward read process, the magnetic data is read here. When the IC card 2 is further pushed in, the rear sensor 7 is turned on. After being pushed so far, reading of the magnetic data is finished.
[0031]
Then, when both the front sensor 6 and the rear sensor 7 are ON, it is determined that the IC card 2 is located at the card stop position. Under this condition, the host device operates the drive source 9.
[0032]
When the drive source 9 is driven, the plunger 16 is drawn and the engagement pin 18 is moved to slide the connecting member 23. The attachment portion 24 of the connecting member 23 moves inside the fitting hole 25, and the shutter member 22 swings and closes. As a result, the IC card 2 cannot be pulled out.
[0033]
When the plunger 16 is further pulled, the engaging pin 18 presses the engaging portion 20 of the moving means 8, and the contact block 4 is lowered toward the IC card 2. Then, the contact 5 of the contact block 4 is pressed against the contact terminal pattern of the IC card 2. Data communication is performed in this state.
[0034]
After the data communication is completed, energization to the drive source 9 is stopped. As a result, the plunger 16 is returned by the return spring 17. As a result, the moving means 8 is first pulled back by the biasing spring 21 and the contact block 4 is separated from the IC card 2. When the plunger 16 is further pulled out, the shutter member 22 is opened. Therefore, the IC card 2 can be pulled out. In the case of back read processing, magnetic data is read when the IC card 2 is pulled out.
[0035]
As described above, according to the manual IC card reader 1 of the present embodiment, when driving of the drive source 9 is started, the shutter member having a small force required for the operation at the initial operation when the pulling force of the plunger 16 is small. The operation of closing the contact block 4 is performed, and at the end of the operation when the pulling force of the plunger 16 is large, the contact block 4 having a large force required for the operation is pressed. For this reason, since two operations are executed with a time difference, it is possible to prevent an excessive burden on the solenoid. In addition, since the shutter is always closed before IC data communication, it is possible to prevent destruction of the IC card due to the withdrawal of the card during communication. Moreover, since the contact block 4 is pressed during the final operation of the plunger 16, the contact can be reliably performed with a large force.
[0036]
The above-described embodiment is an example of a preferred embodiment of the present invention, but is not limited thereto, and various modifications can be made without departing from the scope of the present invention. For example, in this embodiment, a solenoid is used as the drive source 9, but the present invention is not limited to this, and a motor may be used. Also in this case, since the contact block 4 can be moved by the drive source 9 after the IC card 2 is located at the card stop position, it can be easily inserted to the card stop position without changing the insertion load.
[0037]
【The invention's effect】
As is clear from the above description, according to the manual IC card reader of claim 1, since the contact block is used by using a driving source other than manual, the contact block is gradually lowered when the IC card is inserted. The insertion load up to the card stop position is only the pad pressure of the magnetic head. Thus, since the IC card insertion load is always constant, the same high operability as a card reader for magnetic cards can be obtained.
[0038]
In addition, since there is no increase or decrease in load when inserting or removing the card, the probability of magnetic read errors when using an IC / magnetic card and a magnetic-only card is reduced, and when using an IC / magnetic card and an IC-only card. Since the insertion load increase is not mistaken for the insertion completion, the reliability of data communication can be improved.
[0039]
Further , the drive source for moving the contact block and opening / closing the shutter can be shared. For this reason, it can be made small and inexpensive. Further, as described above, since the contact block is moved using the driving source for opening and closing the shutter of the conventional manual IC card reader, it is not necessary to newly increase the driving source, thereby preventing an increase in size.
[0040]
Furthermore, according to the manual IC card reader of the second aspect, the moving means is operated via the engaging pin and the engaging portion by the operation of the drive source, and the contact block can be moved.
[0041]
According to the manual IC card reader of the third aspect , the opening / closing and holding of the shutter member can be switched.
[0042]
Further, according to the manual IC card reader of the fourth aspect , since the shutter member and the member for rotatably supporting the moving means can be shared, the number of parts can be reduced.
[Brief description of the drawings]
FIG. 1 is a side view showing a main part of a manual IC card reader according to the present invention, in a state where information on an IC card is read and written.
FIG. 2 is a side view showing the main part of a manual IC card reader, in which the IC card can be removed.
FIG. 3 is a plan view showing a manual IC card reader.
FIG. 4 is a plan view showing a conventional manual IC card reader.
FIG. 5 is a side view showing a main part of a conventional manual IC card reader.
FIG. 6 is a side view showing a main part of a conventional manual IC card reader.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Manual type IC card reader 2 IC card 3 Card insertion slot 4 Contact block 5 Contact 6 Front sensor (detection sensor)
7 Rear sensor (detection sensor)
8 Moving means 9 Drive source 10 Frame 11 Recess 22 Shutter member

Claims (4)

A card insertion slot is formed in the card insertion slot in the card insertion slot, and the IC card is moved from the card insertion slot to the card stop position via the recess to contact the contact block. In the manual IC card reader configured to contact the IC card contact terminal pattern to perform data communication and then to pull out the IC card, it is detected that the IC card is located at the card stop position. A detection sensor that operates based on the output of the detection sensor; and a drive source that is movable by the driving force of the drive source and is moved by the drive source to open or close the card travel path. And a shutter member that opens and closes the card travel path, and the drive that is movable by the drive force of the drive source. Moving by being connected the drive source and a moving means for moving said contact block contact detachably against the contact terminal pattern of the IC card and the timing of giving a driving force of the drive source to said shutter member By shifting the timing at which the driving force of the driving source is applied to the moving means, the opening and closing operation of the card travel path by the shutter member moving by the driving source and the moving means moving by the driving source are performed. manual type IC card reader, characterized in that a time between differences in the start of the two operations with the start of the contact withdrawal operation of the contact block.   The drive source is a solenoid provided with a plunger having an engagement pin, and the engagement pin is provided so as to be able to come into contact with and disengage from an engagement portion formed on the moving means, and the engagement pin is connected to the engagement portion. 2. The manual IC card reader according to claim 1, wherein the contact block is brought into contact with and separated from the contact terminal pattern of the IC card by being brought into contact with and separated from the IC card.   A coupling member fixed to the engaging pin is provided, and a fitting hole into which a mounting portion formed in the coupling member is fitted is formed in the shutter member, and the fitting hole opens and closes the shutter member. And a holding portion for holding the shutter member in a closed position, and a mounting portion formed on the connecting member by opening and closing of the connecting member opens and closes the shutter member through the fitting hole. 3. The manual IC card reader according to claim 2, wherein   The shutter member is provided so as to be swingable about a fulcrum, and the moving means is constituted by a swing plate that swings about a fulcrum, and the fulcrum of the shutter member and the fulcrum of the moving means are the same fulcrum. 4. The manual IC card reader according to claim 2, wherein the manual IC card reader is provided.

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