JP3957861B2 - Balance display method and apparatus for electronic money card - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an electronic money card balance display method and apparatus, and more particularly to an electronic money card balance display method and apparatus that allows a user to easily balance an electronic money card without going to a financial institution. .
[0002]
[Prior art]
In recent years, the sophistication and revitalization of economic activities has been promoted, and so-called electronic money card payment methods have been adopted in which processing is performed by changing electronic money amount data without making cash payments even in general commercial transactions. It is becoming. In such an electronic money card, since the amount held by the user is converted into data, in order to know the balance, a card reader as a balance display device of the electronic money card is used. An example of a conventional card reader for knowing the balance is shown in FIG. This card reader has a card insertion hole 2 provided on the front surface of the apparatus main body 1 and a display unit 3, and the card reader reads the balance data by inserting an electronic money card from the card reader, The balance is displayed on the display unit 3. Such a card reader is usually provided in a financial institution such as a bank, and when the user wants to know his / her balance, the user can go to the financial institution and know the balance read by the card reader.
[0003]
[Problems to be solved by the invention]
However, in the conventional electronic money card balance display device as described above, the user plays the role of displaying the balance by the card reader provided in the financial institution, so that the user knows his / her balance. I have to go to financial institutions. On the other hand, since the amount of money that the user owns is converted into data, the user cannot know the balance just by holding an electronic money card, and at any time, at any time, anywhere. But sometimes you want to know your balance easily.
[0004]
The present invention has been made in view of the above-described conventional problems, and an object thereof is to provide a balance display method and apparatus for an electronic money card that can read the balance of the electronic money card and notify the user of the balance.
[0005]
[Means for Solving the Problems]
  In order to achieve the above object, the present invention provides an electronic money card balance display device comprising: an apparatus main body; a card insertion hole provided in the apparatus main body for inserting an electronic money card; and an electronic money card balance.vibrationDisplay withoscillationMeans, vibration sensing means for detecting vibration applied to the apparatus main body, and when the vibration sensing means senses vibration, the balance of the electronic money card is detected and the detected balance isOutput vibration to oscillation meansControl meansWhen the vibration sensing means senses vibration, the vibration sensing means is turned off to start the operation of the oscillating means, and at the same time as the operation of the oscillating means, the timer means starts the time counting operation and is predetermined. The oscillation means is stopped when a predetermined time has elapsed, and the control means for turning on the vibration sensing means is provided.This is the gist.
[0006]
  With this configuration, the electronic money card is inserted into the card insertion hole of the apparatus body.RukoThus, when vibration is applied to the device body, the vibration sensing means detects this vibration, and the balance display device of the electronic money card is activated based on this detection signal.oscillationMeans correspond to the balance of electronic money cardOutput vibrationTo display the balance. Also,When the vibration sensing means senses vibration, the control means turns off the vibration sensing means and starts the operation of the oscillating means. Simultaneously with the operation of the oscillating means, the timer means starts the time counting operation and is predetermined. When a certain time has elapsed, the oscillation means is stopped and the vibration sensing means is turned on.
[0007]
As a balance display method or mode, there are a method for outputting sound, a method for generating vibration, and the like.
[0008]
DETAILED DESCRIPTION OF THE INVENTION
  In order to display the balance of the electronic money card, the invention according to claim 1 of the present inventionAn apparatus body, a card insertion hole for inserting an electronic money card provided in the apparatus body, an oscillating means for displaying the balance of the electronic money card by vibration, a vibration sensing means for detecting vibration applied to the apparatus body, and vibration sensing A balance display device for an electronic money card having control means for detecting a balance of the electronic money card when the vibration is sensed by the means and outputting the vibration corresponding to the detected balance to the oscillation means, wherein the vibration sensing means vibrates. When sensing, the vibration sensing means is turned off, the oscillation means is started, and the timer means starts timing simultaneously with the operation of the oscillation means, and when the predetermined time elapses, the oscillation means And the control means for turning on the vibration sensing means.The balance of the electronic money card can be clearly confirmed with a simple operation.In addition, balance display is possible without disturbing others by avoiding other media such as sound and light.It has the action.
[0009]
  The invention according to claim 2 of the present invention isAn apparatus body, a card insertion hole for inserting an electronic money card provided in the apparatus body, an oscillating means for displaying the balance of the electronic money card by vibration, a vibration sensing means for detecting vibration applied to the apparatus body, and vibration sensing In the electronic money card balance display device, which has a control means for detecting the balance of the electronic money card when the vibration is sensed by the means and outputting the vibration corresponding to the detected balance to the oscillation means, the vibration sensing means senses the vibration. The vibration sensing means is turned off, the oscillation means is started, the timer means starts timing simultaneously with the operation of the oscillation means, and the oscillation means stops when a predetermined time elapses, Electronic money card balance display method for turning on the vibration sensing meansThe balance is clearly displayed by vibration with a simple operation of giving vibration.In addition, the balance can be displayed without disturbing others by avoiding other media such as sound and light.It has the action.
[0024]
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0025]
(Embodiment 1)
FIG. 1 is a perspective view showing an external configuration of an electronic money card balance display device (hereinafter simply referred to as a balance display device) according to a first embodiment of the present invention. In FIG. 1, reference numeral 11 is an apparatus main body, 12 is a light emitting section as a light emitting means, 13 is an input section for inputting pattern data for causing the light emitting section 12 to emit light according to a predetermined rule, and 14 is an apparatus main body 11 of a balance display device. This is a card insertion portion which has an opening on the upper surface of the device and is formed of a cavity formed inside the apparatus main body 11. The light emitting unit 12 includes a plurality of light emitting bodies 12a, 12b, and 12c provided on the upper surface edge of the apparatus main body 11, and the light emitting bodies 12a, 12b, and 12c are installed so as to emit light in different colors. . As these light emitters 12a, 12b, and 12c, for example, light emitting diodes are used. Alternatively, the light emitting unit may be composed of a single light emitting device, and the single light emitting device may emit light in a plurality of different colors according to a control signal. The input unit 13 is provided on the side surface of the apparatus main body 11.
[0026]
FIG. 2 is a block diagram showing a circuit configuration of the electronic money card balance display device according to the first embodiment of the present invention. In FIG. 2, reference numeral 12 denotes the above-described light emitting unit, and 13 denotes an input unit. 15 is a storage unit for storing light emission pattern data input from the input unit 13, 16 is a balance storage unit for storing balance data read from an electronic money card, and 17 is for detecting vibration applied to the apparatus body. A vibration sensing unit 18, a timer unit 18 for measuring the operation time of the light emitting unit 12, and a control unit 19 for controlling the operation of the entire balance display device.
[0027]
The storage unit 15 is provided with a table having a predetermined format for storing the light emission pattern data of the light emitting unit 12. FIG. 3 is a diagram showing an example of a table for storing the light emission pattern data of the light emitting unit 12 in the storage unit 15. The table 20 includes a record number column 21 in which record numbers are written, an amount column 22 in which amounts are written, and a light emission pattern column 23 in which light emission patterns are written. In the record number column 21, numbers 1, 2, 3, 4, and 5 are stored as record numbers (record numbers). The amount field 22 stores the amount by classifying (ie, classifying) the balance into predetermined amount ranges. In the case of FIG. 3, the record number 1 is 500 yen, the record number 2 is 1000 yen, the record number 3 is 5000 yen, the record number 4 is 10000 yen, the record number 5 is 100000 yen Data is written as follows. When displaying the balance, the balance is displayed (or notified) to the user that the balance is within the above range. For example, when the balance of the user is currently 6000 yen, the record number 3 in the table 20 is read to display to the user that the balance is 5000 yen or more. Also, unlike the above, when the balance of the user is currently 6000 yen, the record number 4 of the table 20 is read and the balance is below 10,000 yen for the user (that is, 5000 yen). May be displayed. Furthermore, the classification for each money amount range in the money amount column 22 may be a classification different from the above example, and the amount of money items may be more or less than the above five types.
[0028]
The light emission pattern column 23 stores a light emission pattern for displaying the balance. In the case of FIG. 3, the record number 1 is a as the light emission pattern, the record number 2 is the light emission pattern b, the record number 3 is the light emission pattern c, the record number 4 is the light emission pattern d, the record number 5 is the light emission pattern e. Data is being written. Colors are used as the light emission patterns. For example, “a” is red, “b” is yellow, “c” is blue, and so on. ing. Further, the light emission patterns of different colors may correspond to the light emitters 12a, 12b, and 12c shown in FIG. 1, and any one of the light emitters may be turned on for each color. In addition, unlike the light emission pattern, the light emission operation of the light emitting unit 12 may be a blinking method, and a difference in blinking interval time or a blinking rhythm may be adopted as the light emission pattern. The display can be combined.
[0029]
The operation of the balance display apparatus for an electronic money card having such a configuration will be described below. FIG. 4 is a flowchart for explaining the balance display operation of the balance display device according to the present embodiment. When an electronic money card is inserted into the card insertion unit 14 and a balance display operation is started by applying vibration to the apparatus body 11, card reading is executed in a processing step (hereinafter simply referred to as a step) ST21, and subsequent steps. In ST22, stored data such as records, that is, light emission patterns, is extracted from the table 20 of the storage unit 15. The control unit 19 collates the data in the balance storage unit 16 and the data in the table 20 in the storage unit 15 to determine which light emission pattern to light the light emitting unit 12.
[0030]
In step ST23, it is checked whether the vibration sensing unit 17 senses vibration. In this check operation, when the vibration sensing unit 17 does not sense vibration, the presence or absence of vibration sensing is repeatedly checked until vibration is sensed. On the other hand, when it is determined in step ST32 that the vibration detection unit 17 has detected vibration, the vibration detection unit 17 is turned off in the next step ST24, and then output to the light emitting unit 12 is started in step ST25. The light emitting unit 12 is turned on. At this time, in the light emitting unit 12, the light emitter corresponding to the light emission pattern determined by the control unit 19 is turned on. For example, according to the case described above with reference to FIG. 3, if the balance is 6000 yen, the data of record number 3 in the table 20 is read, the light emitter 12c of the light emission pattern c is lit blue, and the balance is displayed to the user. Display that it is over 5000 yen. At the same time, in step ST26, the timer unit 18 starts a time measuring operation and counts a predetermined time. When a predetermined time elapses, the timer unit 18 ends its operation in step ST27, and the output to the light emitting unit 12 is stopped in step ST28. Thereafter, in step ST29, the control unit 19 turns on the vibration sensing unit 17, sets the vibration sensing unit 17 to a state where vibration can be sensed again, and then ends a series of light emission operations, that is, balance display operations.
[0031]
FIG. 5 is a flowchart for explaining the light emission pattern data input operation according to this embodiment. In this light emission pattern data input operation, the data in the table 20 in the storage unit 15 is rewritten, for example, the classification for each money amount range in the money amount column 22 is different from the above example, the amount item is increased or decreased, Alternatively, it is performed to change the data in the light emission pattern column 23. When this operation is started, light emission pattern data is input in step ST31, and it is checked whether or not the data input in subsequent step ST32 is appropriate. When it is determined that the data is appropriate in this check operation, the input data is recorded in the storage unit 15 in step ST33, the original data is updated, and then the light emission pattern data input operation is terminated. On the other hand, if it is determined in step ST32 that the input data is not appropriate, the light emission pattern data input operation is immediately terminated.
[0032]
(Embodiment 2)
FIG. 6 is a perspective view showing an external configuration of an electronic money card balance display device according to the second embodiment of the present invention. In FIG. 6, reference numeral 11 denotes an apparatus main body, 35 denotes a vibration generating unit as an oscillating means, 13 denotes an input unit for inputting pattern data for causing the vibration generating unit 35 to emit light according to a predetermined rule, and 14 denotes an apparatus of a balance display device. This is a card insertion portion that has an opening on the upper surface of the main body 11 and is formed of a cavity formed inside the apparatus main body 11. The vibration generating unit 35 is provided in the vicinity of the inner bottom surface of the apparatus main body 11 and further below the card insertion unit 14. As the vibration generating unit 35, for example, a vibrating body such as a rotor driven by a motor is used. The input unit 13 is provided on the side surface of the apparatus main body 11.
[0033]
FIG. 7 is a block diagram showing a circuit configuration of a balance display device for an electronic money card in the second embodiment of the present invention. In FIG. 2, reference numeral 20 denotes the above-described vibration generating unit, and 13 denotes an input unit. 15 is a storage unit for storing light emission pattern data input from the input unit 13, 16 is a balance storage unit for storing balance data read from an electronic money card, and 17 is for detecting vibration applied to the apparatus body. A vibration sensing unit 18, a timer unit 18 for measuring the operation time of the vibration generating unit 35, and a control unit 19 for controlling the operation of the entire balance display device.
[0034]
The storage unit 15 is provided with a table 36 having a predetermined format for storing vibration pattern data of the vibration generating unit 35. FIG. 8 is a diagram showing an example of a table that stores the vibration pattern data of the vibration generating unit 35 in the storage unit 15. The table 36 includes a record number column 37 in which record numbers are written, an amount column 38 in which amounts are written, and a vibration pattern column 39 in which vibration patterns are written. In the record number column 37, numbers 1, 2, 3, 4, and 5 are stored as record numbers (record numbers). In the amount column 38, the balance is classified (ie, classified) for each predetermined amount range, and the amount is stored. In the case of FIG. 8, the record number 1 is 500 yen, the record number 2 is 1000 yen, the record number 3 is 5000 yen, the record number 4 is 10000 yen, the record number 5 is 100000 yen Data is written as follows. When displaying the balance, the balance is displayed (or notified) to the user that the balance is within the above range. For example, when the balance of the user is currently 6000 yen, the record number 3 in the table 36 is read to display to the user that the balance is 5000 yen or more. Also, unlike the above, when the balance of the user is currently 6000 yen, the record number 4 in the table 36 is read and the balance is below 10,000 yen for the user (that is, 5000 yen). May be displayed. Furthermore, the classification for each money amount range in the money amount column 38 may be different from the above example, and the amount of money items may be more or less than the above five types.
[0035]
The vibration pattern column 39 stores a vibration pattern for displaying the balance. In the case of FIG. 8, f is the vibration pattern in record number 1, g is the vibration pattern in record number 2, h is the vibration pattern in record number 3, i is the vibration pattern in record number 4, j is the vibration pattern in record number 5. Data is being written. As the vibration pattern, vibration strength or vibration frequency is adopted, for example, “f” is strong vibration, “g” is medium strength vibration, “h” is weak vibration, and so on. The vibrations having different strengths are assigned to the patterns f to j. Alternatively, vibrations are assigned by dividing them into vibrations having a high frequency, vibrations having a medium frequency, and vibrations having a low frequency. Furthermore, the vibration patterns having different strengths or vibration patterns having different frequencies are realized by controlling the operation of the vibration generating unit 35 shown in FIGS. Further, the display can be a combination of the vibration strength pattern and the frequency height pattern.
[0036]
The operation of the balance display apparatus for an electronic money card having such a configuration will be described below. FIG. 9 is a flowchart for explaining the balance display operation of the balance display apparatus according to this embodiment. When an electronic money card is inserted into the card insertion unit 14 and a balance display operation is started by applying vibration to the apparatus main body 11, the card reading is executed in step ST41, and the table 36 of the storage unit 15 is subsequently executed in step ST42. Records, that is, stored data such as vibration patterns are extracted. The control unit 19 collates the data in the balance storage unit 16 with the data in the table 36 in the storage unit 15 and determines which vibration pattern to light the vibration generation unit 35.
[0037]
In step ST43, it is checked whether the vibration sensing unit 17 senses vibration. In this check operation, when the vibration sensing unit 17 does not sense vibration, the presence or absence of vibration sensing is repeatedly checked until vibration is sensed. On the other hand, if it is determined in the check operation of step ST32 that the vibration sensing unit 17 senses vibration, the vibration sensing unit 17 is turned off in the next step ST44, and then output to the vibration generating unit 35 is started in step ST45. Then, the vibration generating unit 35 starts operating. At this time, in the vibration generating unit 35, the vibrating body operates with a strength or frequency corresponding to the vibration pattern determined by the control unit 19. For example, according to the case described above with reference to FIG. 8, if the balance is 6000 yen, the data of the record number 3 in the table 36 is read and the vibrating body operates with the intensity or frequency of the vibration pattern c, and the user Display that the balance is 5000 yen or more. At the same time, in step ST46, the timer unit 18 starts a time measuring operation and counts a predetermined time. When a predetermined time elapses, the timer unit 18 ends its operation in step ST47, and accordingly, the output to the vibration generating unit 35 is stopped in step ST48. Thereafter, in step ST49, the control unit 19 turns on the vibration sensing unit 17, sets the vibration sensing unit 17 in a state where vibration can be sensed again, and then ends a series of oscillation operations, that is, balance display operations.
[0038]
In this embodiment, vibration pattern data can be input or updated, but this processing operation is the same as that described with reference to FIG. 5 in the first embodiment. Since the only difference is that the data is vibration pattern data, description thereof is omitted.
[0039]
(Embodiment 3)
FIG. 10 is a perspective view showing an external configuration of an electronic money card balance display device according to the third embodiment of the present invention. In FIG. 10, reference numeral 11 denotes the apparatus main body, 50 denotes a sound generating unit as an audio output means, 13 denotes an input unit for inputting pattern data for causing the audio generating unit 50 to emit light according to a predetermined rule, and 14 denotes a balance display device. This is a card insertion portion that has an opening on the upper surface of the apparatus main body 11 and is formed of a cavity formed inside the apparatus main body 11. The sound generation unit 50 is provided near the inner bottom surface of the apparatus main body 11 and further below the card insertion unit 14. As the sound generator 50, a sounding body such as a speaker is used. The input unit 13 is provided on the side surface of the apparatus main body 11.
[0040]
FIG. 7 is a block diagram showing a circuit configuration of a balance display device for an electronic money card in the second embodiment of the present invention. In FIG. 2, reference numeral 20 denotes the above-described vibration generating unit, and 13 denotes an input unit. 15 is a storage unit for storing light emission pattern data input from the input unit 13, 16 is a balance storage unit for storing balance data read from an electronic money card, and 17 is for detecting vibration applied to the apparatus body. A vibration sensing unit 18, a timer unit 18 for measuring the operation time of the sound generation unit 50, and a control unit 19 for controlling the operation of the entire balance display device.
[0041]
The storage unit 15 is provided with a table 51 having a predetermined format for storing the voice pattern data of the voice generation unit 50. FIG. 12 is a diagram showing an example of a table that stores the voice pattern data of the voice generation unit 50 in the storage unit 15. The table 51 includes a record number column 52 in which record numbers are written, an amount column 53 in which amounts are written, and an audio pattern column 54 in which audio patterns are written. In the record number column 52, numbers 1, 2, 3, 4, and 5 are stored as record numbers (record numbers). In the amount column 53, the balance is classified (ie, classified) for each predetermined amount range, and the amount is stored. In the case of FIG. 8, the record number 1 is 500 yen, the record number 2 is 1000 yen, the record number 3 is 5000 yen, the record number 4 is 10000 yen, the record number 5 is 100000 yen Data is written as follows. When displaying the balance, the balance is displayed (or notified) to the user that the balance is within the above range. For example, when the balance of the user is currently 6000 yen, the record number 3 in the table 51 is read to display to the user that the balance is 5000 yen or more. Also, unlike the above, when the balance of the user is currently 6000 yen, the record number 4 in the table 51 is read and the balance is below 10,000 yen for the user (that is, 5000 yen). May be displayed. Furthermore, the classification for each money amount range in the money amount column 53 may be a classification different from the above example, and the amount of money items may be more or less than the above five types.
[0042]
The voice pattern column 54 stores a voice pattern for displaying the balance. In the case of FIG. 12, the record number 1 is k as the sound pattern, the record number 2 is m as the sound pattern, the record number 3 is n as the sound pattern, the record number 4 is p as the sound pattern, and the record number 5 is q as the sound pattern. Data is being written. As the voice pattern, voice strength or voice frequency is adopted. For example, “f” is strong voice, “g” is medium voice, “h” is weak voice, and so on. The voices having different strengths are assigned to the patterns k, m, n, p, and q. Alternatively, the voices are assigned in such a manner as being divided into high-frequency sound, medium-frequency sound, and low-frequency sound. Furthermore, the voice patterns having different strengths or the voice patterns having different frequencies are realized by controlling the operation of the voice generation unit 50 shown in FIGS. Also, the display can be a combination of the above-mentioned sound intensity pattern and the sound frequency height pattern.
[0043]
The operation of the balance display apparatus for an electronic money card having such a configuration will be described below. FIG. 13 is a flowchart for explaining the balance display operation of the balance display device according to the present embodiment. When an electronic money card is inserted into the card insertion unit 14 and a balance display operation is started by adding sound to the apparatus main body 11, the card reading is executed in step ST61, and the table 51 of the storage unit 15 is subsequently executed in step ST62. Records, that is, stored data such as voice patterns are extracted. The control unit 19 compares the data in the balance storage unit 16 with the data in the table 51 in the storage unit 15 to determine which sound pattern causes the sound generation unit 50 to be lit.
[0044]
In step ST63, it is checked whether the vibration sensing unit 17 senses vibration. In this check operation, if the vibration sensing unit 17 does not sense vibration, the presence or absence of voice sensing is repeatedly checked until voice is sensed. On the other hand, if it is determined in step ST32 that the vibration sensing unit 17 has sensed vibration, the vibration sensing unit 17 is turned off in the next step ST64, and then output to the sound generation unit 50 is started in step ST65. Then, the sound generator 50 starts operating. At this time, in the sound generation unit 50, the sounding body operates at the intensity or frequency corresponding to the sound pattern determined by the control unit 19. For example, according to the case described above with reference to FIG. 12, if the balance is 6000 yen, the data of record number 3 in the table 51 is read and the sounding body operates at the intensity or frequency of the voice pattern c, and the user Display that the balance is 5000 yen or more. At the same time, in step ST66, the timer unit 18 starts a time measuring operation and counts a predetermined time. When a predetermined time elapses, the timer unit 18 ends its operation in step ST67, and the output to the sound generating unit 50 is stopped in step ST68. Thereafter, in step ST69, the control unit 19 turns on the vibration sensing unit 17, sets the vibration sensing unit 17 again to a state in which vibration can be sensed, and then ends a series of voice generation, that is, balance display operations.
[0045]
In this embodiment, voice pattern data can be input or updated, but this processing operation is the same as that described with reference to FIG. 5 in the first embodiment. Since the only difference is that the data is voice pattern data, description thereof is omitted.
[0046]
【The invention's effect】
As described above, according to the present invention, the electronic money card balance display device displays the device main body, the card insertion hole provided in the device main body for inserting the electronic money card, and the balance of the electronic money card in color. A light emitting means for detecting vibrations applied to the apparatus main body, and a control means for detecting the balance of the electronic money card when the vibration is sensed by the vibration sensing means and causing the light emitting means to emit light according to the detected balance. When a vibration is applied to the apparatus main body by inserting an electronic money card into the card insertion hole of the apparatus main body, the vibration sensing means detects this vibration, and the balance display device for the electronic money card is based on this detection signal Is activated and the light emitting means emits light in a color corresponding to the balance of the electronic money card to display the balance, or the balance display device is activated. Vibration, or to have to perform the balance display by voice, there is an advantage that it is possible to display the balance of electronic money cards in a simple and handy operation.
[Brief description of the drawings]
FIG. 1 is a perspective view showing an external configuration of a balance display device for an electronic money card according to a first embodiment of the present invention.
FIG. 2 is a block diagram showing a circuit configuration of a balance display device for an electronic money card in the embodiment.
FIG. 3 is a view showing an example of a table for storing light emission pattern data of a light emitting unit in a storage unit of a balance display device for an electronic money card in the embodiment.
FIG. 4 is a flowchart for explaining a balance display operation of the balance display apparatus for an electronic money card in the embodiment.
FIG. 5 is a flowchart for explaining the light emission pattern data input operation in the electronic money card balance display device in the embodiment.
FIG. 6 is a perspective view showing an external configuration of a balance display device for an electronic money card according to a second embodiment of the present invention.
FIG. 7 is a block diagram showing a circuit configuration of an electronic money card balance display device according to the second embodiment.
FIG. 8 is a diagram showing an example of a table for storing vibration pattern data of a vibration generating unit in the storage unit of the balance display device for an electronic money card in the second embodiment.
FIG. 9 is a flowchart for explaining the balance display operation of the electronic money card balance display device according to the second embodiment;
FIG. 10 is a perspective view showing an external configuration of an electronic money card balance display device according to a third embodiment of the present invention.
FIG. 11 is a block diagram showing a circuit configuration of an electronic money card balance display device according to the third embodiment.
FIG. 12 is a diagram showing an example of a table that stores voice pattern data of a voice generation unit in a storage unit of a balance display device for an electronic money card according to the third embodiment.
FIG. 13 is a flowchart for explaining the balance display operation of the balance display device for an electronic money card in the third embodiment.
[Explanation of symbols]
11 Device body
12 Light emitting part (light emitting means)
13 Input section
14 Card insertion part
15 Storage unit
16 Balance storage
17 Vibration sensor
18 Timer section
19 Control unit

Claims (2)

An apparatus body, a card insertion hole for inserting an electronic money card provided in the apparatus body, an oscillating means for displaying the balance of the electronic money card by vibration, a vibration sensing means for detecting vibration applied to the apparatus body, and vibration sensing A balance display device for an electronic money card having a control means for detecting a balance of the electronic money card when the vibration is sensed by the means and outputting the vibration corresponding to the detected balance to the oscillation means,
When the vibration sensing means senses vibration, the vibration sensing means is turned off, and the operation of the oscillation means is started.
The control means for stopping the oscillation means and turning on the vibration sensing means when a predetermined time elapses after the timer means starts timing operation simultaneously with the operation of the oscillation means.
Electronic money card balance display device. An apparatus body, a card insertion hole for inserting an electronic money card provided in the apparatus body, an oscillating means for displaying the balance of the electronic money card by vibration, a vibration sensing means for detecting vibration applied to the apparatus body, and vibration sensing In an electronic money card balance display device having a control means for detecting the balance of the electronic money card when the vibration is sensed by the means and outputting the vibration corresponding to the detected balance to the oscillation means,
The vibration sensing means senses vibration, turns off the vibration sensing means, starts the operation of the oscillating means, the timer means starts timing simultaneously with the operation of the oscillating means, and has a predetermined time. A balance display method for an electronic money card in which the oscillation means is stopped after a lapse of time and the vibration sensing means is turned on.

Images