JP5720490B2 - Communication device - Google Patents

Description

  The present invention relates to a communication apparatus that wirelessly communicates with a wireless communication medium that is held over a holding surface.

  2. Description of the Related Art Conventionally, in a communication device that wirelessly communicates with a wireless communication medium that is held over a holding surface, a light emitting unit is provided in the center of the card holding surface so that the user can easily see the card holding surface that holds the wireless communication medium. The operation of holding the user's card over the card holding surface (holding operation) is guided according to the presence / absence of light emission or the emission color of the light emitting unit. Moreover, this light emission part can be comprised so that it may have not only the function which guides a holding | maintenance operation | movement but the function as an indicator which notifies a user of communication states, such as a payment status.

  As a technique related to such a communication apparatus, an IC data communication apparatus disclosed in Patent Document 1 below is known. This IC data communication apparatus includes an IC card holding position display unit for displaying the IC card holding position to the user, and an IC card readable state output unit for outputting that the IC card is in a readable state. And four light emitting units. The IC card holding position display unit is a sign for indicating a readable range of the IC card, and is configured such that an elliptical ring-shaped display is arranged so as to surround the sign indicating the shape or symbol of the IC card. . In addition, the four light emitting units are arranged inside the display.

  In the IC data communication apparatus configured as described above, in the standby state in which communication is not performed, each light emitting unit and the display device are all lit, and in the state in which payment processing is started and waiting for an amount input operation by a store clerk or the like, All the light emitting units and the display are turned off. After that, in the card standby state waiting for the state where the amount is input and the IC card is held up, all the light emitting units are in a blinking state and the display is turned on, and the IC card is placed on the IC card holding position display unit. When held over, all the light emitting units and the display are turned off. When the IC card authentication process and the like are finished and the standby state is set, all the light emitting units and the display are turned on again. In this way, not only the function of inducing the holding operation depending on the light emitting state of each light emitting unit and display device arranged in the IC card holding position display unit, but also a function as an indicator for notifying the user of the communication state. ing.

JP 2004-355580 A

  By the way, in a communication apparatus as disclosed in the above-mentioned Patent Document 1, when a wireless communication medium such as an IC card is held over the holding surface (IC card holding position display unit), depending on the holding method, the communication device is arranged on the holding surface. In some cases, all the light emitting parts are covered with a wireless communication medium. In this case, if the wireless communication medium is not shifted from the light emitting part, the light emission state cannot be visually recognized. There was a problem that I could not.

  The present invention has been made to solve the above-described problems, and the object of the present invention is to ensure the light emission state of the light emitting unit arranged on the holding surface even when the wireless communication medium is held over the holding surface. It is to provide a communication device that can be visually recognized.

In order to achieve the above object, the communication device according to claim 1 is capable of wireless communication with the holding surface (12) over which the wireless communication medium (C) is held and the wireless communication medium held over the holding surface. a wireless communication means (25), wherein each of the four light-emitting portion provided at a position constituting the four corners of the rectangular area in holding up plane and (26A～26 e), all the four light-emitting portions at the same time A first light emitting state for inducing an operation of holding the wireless communication medium over the holding surface, and a second light emitting state indicating that processing according to wireless communication with the wireless communication medium has been performed by the wireless communication unit a communication device comprising a controllable control means (21), to one of the (1 0), when held up the wireless communication medium to which the communication device is a communication target on the held over surface, the held up Projected on the surface When the longest projected length the length of the longest line segment among line segments connecting the outer edge of the projection area of the wireless communication medium (S) (L), the four light-emitting portion is positioned diagonally The distance (X) from other light emitting units is arranged to be longer than the longest projection length.

  According to a second aspect of the present invention, in the communication apparatus according to the first aspect, the wireless communication medium is a medium for payment, and the wireless communication unit is configured to perform the wireless communication on payment information corresponding to a payment process. It is characterized by wireless communication with a medium.

  According to a third aspect of the present invention, in the communication device according to the first or second aspect, the wireless communication medium is formed in a card shape.

Invention of Claim 4 is a communication apparatus as described in any one of Claims 1-3 , Comprising: Two or more light emitting elements which light-emit in a respectively different luminescent color are provided, These four light emission parts are the said Each of the light emitting elements is configured to emit light using light from each of the light emitting elements, and the control unit determines the luminance of the light emitted from at least one of the light emitting elements as the first light emitting state and the first light emitting element. Control is performed so as to differ depending on the two light emission states.

According to a fifth aspect of the present invention, in the communication device according to the fourth aspect , the control means determines the luminance of light emitted from at least one of the light emitting elements in the second light emitting state. Control is performed so as to change according to the content of communication with the wireless communication medium.
In addition, the code | symbol in each said bracket | parenthesis shows the corresponding relationship with the specific means as described in each embodiment mentioned later.

In the invention of claim 1, the held over the surface of the wireless communication medium is held over and emitting portion of the four respective positions which constitute the four corners of the rectangular area are provided, these four light-emitting portion is diagonally It arrange | positions so that the separation distance with the other light-emitting part located may become longer than the said longest projection length.

Accordingly, the operation of holding the wireless communication medium over the holding surface (holding operation) is guided by the four light emitting units that emit light on the holding surface, and the wireless communication medium is placed on the holding surface in accordance with the guidance. Even if it is held over, at least one of the light emitting units can be visually recognized without being hidden by the wireless communication medium.
Therefore, even when the wireless communication medium is held over the holding surface, the light emission state of the light emitting unit arranged on the holding surface can be reliably recognized.

  In the invention of claim 2, the wireless communication medium is a payment medium, and the wireless communication means wirelessly communicates with the payment medium for the payment information corresponding to the payment processing. Even in the case of application, when the settlement medium is held over the holding surface, the light emission state of the light emitting unit arranged on the holding surface is visually recognized. Accordingly, even when the settlement medium is held over the holding surface, the settlement state can be surely visually confirmed.

  Even if the wireless communication medium is formed in a card shape as in the invention of claim 3, when the wireless communication medium is held over the holding surface in response to the guidance of the holding operation, all the light emitting units are caused by the wireless communication medium. At least one of the light emitting portions is visually recognized without being hidden. Accordingly, even when a wireless communication medium formed in a card shape, for example, an IC card is held over the holding surface, the light emission state of the light emitting unit arranged on the holding surface can be reliably recognized.

In the invention of claim 4 , the four light emitting sections emit light by using light from two or more light emitting elements that emit light of different light emission colors, for example, a red light emitting element, a green light emitting element, and a blue light emitting element. Each is configured as follows. Then, the brightness of light emitted from at least one of the light emitting elements is controlled by the control means so as to be different between the first light emitting state and the second light emitting state.
Accordingly, the first light emission state and the second light emission state can be made to emit light with clearly different emission colors, so that the visibility of these both light emission states can be improved.

In the invention of claim 5 , the brightness of the light emitted from at least one of the light emitting elements in the second light emitting state is controlled by the control means so as to change according to the contents of communication with the wireless communication medium. The
As a result, in the second light emitting state, it is possible to emit light with a clearly different emission color for each communication content with the wireless communication medium, and thus various types of communication content can be easily visually recognized using the light emitting state of each light emitting unit. Can be made.

It is a top view which shows schematic structure of the payment apparatus which concerns on 1st Embodiment. FIG. 2 is a block diagram schematically showing an electrical configuration of the settlement apparatus of FIG. 1. It is explanatory drawing which shows the relationship between the separation distance of each light emission part, and the longest projection length of a projection area | region. It is explanatory drawing which shows the relationship between the visual recognition state of each light emission part, and a projection area | region. It is a top view which shows schematic structure of the payment apparatus in the 1st modification of 1st Embodiment. It is a top view which shows schematic structure of the payment apparatus which concerns on 2nd Embodiment. FIG. 7 is a block diagram schematically showing an electrical configuration of the settlement apparatus of FIG. 6. It is explanatory drawing explaining the structure of the detector in 2nd Embodiment. It is explanatory drawing which illustrates the light emission state of each light emission part when an IC card is held up. It is a top view which shows the principal part of the payment apparatus in the 1st modification of 2nd Embodiment. It is explanatory drawing explaining the structure of the detector in the 2nd modification of 2nd Embodiment.

[First Embodiment]
Hereinafter, a first embodiment in which a communication apparatus according to the present invention is applied to a settlement apparatus will be described with reference to the drawings. FIG. 1 is a plan view showing a schematic configuration of a settlement apparatus 10 according to the first embodiment. FIG. 2 is a block diagram schematically showing an electrical configuration of the settlement apparatus 10 of FIG.
A settlement apparatus 10 shown in FIG. 1 is a stationary communication apparatus having a function of wirelessly communicating settlement information and the like with a settlement wireless communication medium held over a holding surface 12. IC card C is employed.

  A control unit 21 that controls the entire payment apparatus 10 is provided in the housing 11 of the payment apparatus 10. The control unit 21 is composed mainly of a microcomputer, has a CPU, a system bus, an input / output interface, etc., and can constitute an information processing apparatus together with the memory 22 and has an information processing function. ing. The control unit 21 is mainly connected with a display unit 23, a communication interface 24, a wireless communication unit 25, light emitting units 26a to 26d, and the like.

  The display unit 23 is arranged in the vicinity of the holding surface 12 and is configured to be controlled by the control unit 21, and operates in response to a command related to display processing or the like from the control unit 21. The communication interface 24 is configured as an interface for performing data communication related to settlement information with the outside (for example, a bank-side server or an external host device), and performs communication processing in cooperation with the control unit 21. I am doing.

  The wireless communication unit 25 performs contactless communication (wireless communication) using electromagnetic waves with the IC card C held over the holding surface 12 via the antenna 25a, so that the IC card C is held over the holding surface 12. This function is used to read the payment related information related to the payment such as the card number stored in the IC card C.

  Each of the light emitting units 26a to 26d is controlled by the control unit 21 to be in a first light emitting state that induces an operation (holding operation) of holding the IC card C over the holding surface 12, and the wireless communication unit 25 is connected to the IC card C. The light emission is performed so as to clearly distinguish the second light emission state indicating that the process according to the wireless communication, for example, the settlement-related process has been performed. Specifically, for example, the first light emitting state is a light emitting state in which all the light emitting units 26a to 26d are blinked simultaneously, and the second light emitting state is a light emitting state in which all the light emitting units 26a to 26d are lit simultaneously. . In addition, the lighting state mentioned above shall also include the state which blinks at intervals short enough to be visually recognized that it is lighting, for example, 0.5 second intervals.

  The four light emitting units 26 a to 26 d are respectively arranged at positions constituting the four corners of the rectangular region in the holding surface 12. The positional relationship between the light emitting units 26a to 26d arranged on the holding surface 12 in this manner will be described with reference to FIGS. FIG. 3 is an explanatory diagram showing the relationship between the separation distance X of the light emitting units 26a to 26d and the longest projection length L of the projection region S. FIG. 4 is an explanatory diagram illustrating the relationship between the viewing states of the light emitting units 26a to 26d and the projection areas S1 to S4. In FIG. 3, for convenience of explanation, the projection area S is hatched.

  Each light emission part 26a-26d is arrange | positioned so that the separation distance X with the other light emission part located in a diagonal may become longer than the longest projection length L. FIG. Here, the longest projection length L is the longest line among the line segments connecting the outer edges of the projection area S of the IC card C projected onto the holding surface 12 when the IC card C is held over the holding surface 12. The length of the minute. As shown in FIG. 3, when the projection area S is substantially rectangular, the longest projection length L is the diagonal length of the projection area S.

In the present embodiment, since a rectangular IC card having a card size of 86 mm long side × 54 mm short side is a communication target, the diagonal length is 102 mm (= (86 ² +54 ² ) ^1/2 mm), which is the longest projection. The length L corresponds to this diagonal length. Therefore, each light emission part 26a-26d will be arrange | positioned so that the separation distance X with the other light emission part located in a diagonal may become longer than 102 mm.

  Different card sizes, for example, long side 81 mm × short side 27 mm, long side 50 mm × short side 40 mm, long side 50 mm × short side 27 mm, long side 40.5 mm × short side 24.5 mm, long side 25 mm × short side A wireless communication medium such as a 20 mm IC card or a mobile terminal of another size may be a communication target. In this case, the light emitting units 26a to 26d are arranged such that the separation distance X from the other light emitting units located diagonally is longer than the maximum longest projection length L of the wireless communication media. .

  For this reason, for example, even if the IC card C is held over the holding surface 12 so as to be the projection area S1 or the projection area S2 shown in FIG. 4, the light emission states of all the light emitting units 26a to 26d can be visually recognized. Further, even if the IC card C is held over the holding surface 12 so as to hide the light emitting portions 26c and 26d so as to be the projection region S3 shown in FIG. 4, the light emitting states of the remaining light emitting portions 26a and 26b are visually recognized. Can do. Further, even if the IC card C is held over the holding surface 12 so as to hide a part of the light emitting part 26d and the light emitting part 26a so as to be the projection area S4 shown in FIG. 4, the remaining light emitting parts 26b and 26c The light emission state can be visually recognized.

  As described above, in the settlement apparatus 10 according to the present embodiment, the light emitting units 26a to 26d are arranged on the holding surface 12 as described above, whereby the IC card C is held on the holding surface as shown in FIG. 12, it can be seen that at least one light emitting state among the light emitting units 26 a to 26 d can be visually recognized.

For this reason, each of the light emitting units 26a to 26d that emit light on the holding surface 12 guides the holding operation of holding the IC card C over the holding surface 12, and the IC card C is applied to the holding surface 12 according to this guidance. Even if the IC card C is held over, at least one of the light emitting units can be visually recognized without hiding all the light emitting units 26a to 26d by the IC card C.
Therefore, even when the IC card C is held over the holding surface 12, the light emitting state of at least one of the light emitting units 26a to 26d arranged on the holding surface 12 can be reliably recognized.

  In addition, not only four light emission parts 26a-26d are arrange | positioned at the holding surface 12, but two or three light emission parts may be arrange | positioned, and five or more light emission parts may be arrange | positioned. Good. In this case, each light-emitting part has the above-described effect by being arranged such that at least two separation distances X are longer than the longest projection length L.

FIG. 5 is a plan view showing a schematic configuration of the settlement apparatus in the first modification of the first embodiment.
As a first modification of the first embodiment, at least one of the light emitting units 26a to 26d may be configured to emit light in a longitudinal shape as compared with other light emitting units.
Specifically, as illustrated in FIG. 5, a light emitting unit 26 e that emits light in a longitudinal shape can be employed instead of the light emitting unit 26 c and the light emitting unit 26 d. Since the light emitting portion 26e is configured such that the distance X between the light emitting portions 26a and 26b is longer than the longest projection length L, and the light emitting portion 26e emits light in a longer shape than the other light emitting portions. Even when the IC card C is held over the holding surface 12, the light emitting state of at least one of the light emitting units 26e, 26a, and 26b arranged on the holding surface 12 can be more reliably visually recognized. Moreover, the light emission part which light-emits longitudinally is not restricted to one, and two or more may be provided.

  As a second modification of the first embodiment, each of the light emitting units 26a to 26d includes two or more light emitting elements that emit light of different emission colors, for example, a red light emitting element that emits red light, and a green light emitting element that emits green light. The blue light emitting element that emits blue light may be configured to emit light using light from each light emitting element. And the control part 21 can control the brightness | luminance of the light light-emitted from at least any one of each light emitting element so that it may differ in a 1st light emission state and a 2nd light emission state. Accordingly, the first light emission state and the second light emission state can be made to emit light with clearly different emission colors, so that the visibility of these both light emission states can be improved. Each of the light emitting units 26a to 26d is not limited to emitting light from the red light emitting element, the green light emitting element, and the blue light emitting element, but uses light from two of these three light emitting elements. The light may be emitted, or light may be emitted using light from a light emitting element that emits light of another color.

  As described above, when the light emitting units 26a to 26d are caused to emit light using the light from each light emitting element, the light emitted from at least one of the light emitting elements in the second light emitting state by the control unit 21. May be controlled so as to change according to the content of communication with the IC card C. Thereby, in the 2nd light emission state, since it can be made to light-emit by the light emission color clearly different for every communication content with IC card C, various types of communication content are used using the light emission state of each light emission parts 26a-26d. It can be easily recognized.

[Second Embodiment]
Next, a settlement apparatus according to a second embodiment of the present invention will be described with reference to FIGS. FIG. 6 is a plan view showing a schematic configuration of the settlement apparatus 10a according to the second embodiment. FIG. 7 is a block diagram schematically showing the electrical configuration of the settlement apparatus 10a of FIG. FIG. 8 is an explanatory diagram illustrating the configuration of the detector 30 according to the second embodiment. FIG. 9 is an explanatory diagram illustrating the light emission states of the light emitting units 26a to 26d, 27a to 27d, and 28a to 28d when the IC card C is held over. 6 and 9, illustration of the detector 30 is omitted for convenience of explanation, and in FIG. 9 and FIG. 10 to be described later, for convenience of explanation, the light emitting section in the off state is hatched. ing.

  In the settlement apparatus 10a according to the second embodiment, the settlement apparatus according to the first embodiment is that the light emission state of each light emitting unit is changed according to the projection area S of the IC card C projected onto the holding surface 12. And mainly different. Therefore, substantially the same components as those in the settlement apparatus of the first embodiment described above are denoted by the same reference numerals and description thereof is omitted.

  As shown in FIGS. 6 and 7, the payment apparatus 10a according to the present embodiment includes a total of twelve light emitting units 27a to 27d and light emitting units 28a to 28d added to the light emitting units 26a to 26d described above. The light emission part and the detector 30 are provided. Each light emission part 27a-27d is each arrange | positioned in the position which comprises the four corners of the rectangular area where each light emission part 26a-26d is narrower than the rectangular area which comprises four corners in the holding surface 12. In addition, the light emitting units 28a to 28d are disposed in the holding surface 12 at positions where the light emitting units 26a to 26d form four corners of a rectangular area wider than the rectangular area forming the four corners.

  The detector 30 is a detecting unit that detects the range of the projection area S of the IC card C projected onto the holding surface 12 in the second light emitting state. As illustrated in FIG. 8, the detector 30 includes a light emitting element 32 that emits infrared light outward from the holding surface 12, and infrared light (reflected light) reflected after being emitted from the light emitting element 32. ) Is provided adjacent to the light receiving element 33 that can receive light). Each of these detection units 31 is arranged adjacent to each light emitting unit 26a to 26d, 27a to 27d, and 28a to 28d with respect to the holding surface 12. In addition, when each light emission part 26a-26d, 27a-27d, 28a-28d is arrange | positioned 1 each in the opening formed in the holding surface 12, and it is comprised so that it may light-emit outward, The detection unit 31 may be configured by being arranged one by one in each opening.

  Thus, when the IC card C is held over the holding surface 12, infrared light from the light emitting element 32 located in the projection area S of the IC card C is reflected by the IC card C, and the reflected light is adjacent to the received light. Light is received by the element 33. On the other hand, since the infrared light from the light emitting element 32 located outside the projection area S of the IC card C is not reflected by the IC card C, the light receiving element 33 adjacent to the light emitting element 32 does not receive the reflected light. . For this reason, the range of the projection region S can be detected based on the position where the light receiving element 33 that receives the reflected light is disposed.

  In the settlement apparatus 10a configured as described above, the IC detected by the detector 30 among the light emitting units 26a to 26d, 27a to 27d, and 28a to 28d is controlled by the control unit 21 in the second light emitting state. The light emitting units arranged outside the projection area S of the card C emit light, and the light emitting units arranged within the projection area S are turned off.

  For example, when the projection area S is projected as illustrated in FIG. 9 by holding the IC card C over the holding surface 12, each detection unit 31 adjacent to each light emitting unit 27a to 27d detects reflected light. And each detection part 31 adjacent to each light emission part 26a-26d, 28a-28d does not detect reflected light. For this reason, each light emission part 26a-26d, 28a-28d light-emits as a 2nd light emission state, and each light emission part 27a-27d turns off.

  As described above, in the settlement apparatus 10a according to the present embodiment, the light emitting units arranged outside the projection area S of the IC card C with respect to the holding surface 12, that is, the light emitting units not hidden by the IC card C Since all emit light, the second light emission state can be surely visually confirmed. In particular, since the light emitting part that is arranged within the projection area S of the IC card C and is hidden by the IC card C does not emit light, the power consumption in the second light emitting state can be reduced.

  In addition, the detector 30 is configured by arranging a plurality of detectors 31 each having a light emitting element 32 and a light receiving element 33 adjacent to each other on the holding surface 12, and the light receiving element that receives reflected light by the detector 30. Based on the position where 33 is arranged, the range of the projection area S of the IC card C is detected. Thereby, the range of the projection region S can be detected with a simple configuration based on the position where the light receiving element 33 that receives the reflected light is disposed.

  Note that the plurality of light emitting units provided on the holding surface 12 are not limited to being spread in four directions like the respective light emitting units 26a to 26d, 27a to 27d, and 28a to 28d. You may arrange | position so that it may spread and may arrange | position at random. Thus, when each light emission part is arrange | positioned on the holding surface 12, each detection part 31 which comprises the detector 30 can each be arrange | positioned so that a corresponding light emission part may be adjoined.

  The detection unit 31 may be configured by eliminating the light emitting element 32 and using an adjacent light emitting unit as a light emitting unit. As a result, the light emitting unit is also used and no dedicated light emitting means is required, so that components for configuring the detecting unit 31 are reduced, and an increase in cost due to the provision of the detecting unit 31 is suppressed. Can do.

FIG. 10 is a plan view showing a main part of the settlement apparatus 10a in the first modification of the second embodiment.
As a first modification of the second embodiment, the projection area S of the IC card C detected by the detector 30 among the light emitting units 26a to 26d, 27a to 27d, and 28a to 28d in the second light emitting state. It may be controlled by the control unit 21 so that the light emitting unit arranged outside the range and along the projection region S emits light.

  Specifically, for example, when the projection area S is projected as illustrated in FIG. 10 by holding the IC card C over the holding surface 12, each detection unit 31 adjacent to each light emitting unit 27a to 27d. Detects the reflected light, and the detection units 31 adjacent to the light emitting units 26a to 26d and 28a to 28d do not detect the reflected light. At this time, since the light emitting units adjacent to the detection unit 31 arranged along the projection region S are the light emitting units 26a to 26d, each of the light emitting units 26a to 26d emits light as the second light emitting state, and each light emitting unit. 27a to 27d and 28a to 28d are turned off.

  As a result, among the light emitting units that are not hidden by the IC card C, the light emitting units arranged along the projection area S emit light and the other light emitting units do not emit light, so all the light emitting units emit light. Compared to the case, not only the power consumption is reduced, but also the light emitting section emits light so that the projection area S of the IC card C is emphasized. As a result, the difference between the first light emission state and the second light emission state is emphasized, and the second light emission state can be visually recognized more reliably.

FIG. 11 is an explanatory diagram illustrating the configuration of the detector 30a in the second modification of the second embodiment.
As a second modification of the second embodiment, a detector 30a may be employed instead of the detector 30 described above. This detector 30a employs the same number of photoconductive elements 34 whose resistance values change according to external light, instead of the respective detectors 31, with respect to the detector 30, and each of the photoconductive elements 34 emits light corresponding thereto. Configured to be arranged adjacent to each other.

  In the settlement apparatus 10a configured as described above, when the wireless communication unit 25 performs wireless communication with the IC card C by holding the IC card C over the holding surface 12, the control unit 21 controls the IC card C. Thus, the light emission of each of the light emitting units 26a to 26d, 27a to 27d, and 28a to 28d is temporarily stopped and turned off.

  Thereby, when the IC card C is held over the holding surface 12, the resistance value of the photoconductive element 34 located in the projection area S of the IC card C changes, while the photoconductive element located outside the projection area S is changed. The resistance value of 34 will not change. For this reason, the range of the projection region S can be detected based on the position where the photoconductive element 34 whose resistance value has changed when light emission of each light emitting unit is temporarily stopped.

  The characteristic configurations of the second embodiment described above and its modifications may be applied to the first embodiment and its modifications.

In addition, this invention is not limited to said each embodiment and modification, You may actualize as follows.
(1) In each of the above embodiments, an example in which the communication device according to the present invention is applied to a settlement device has been described. However, the present invention is not limited to this, and may be applied to other communication devices such as an information reading device. Thereby, when the wireless communication medium to be communicated is held over the holding surface 12, the light emission state of each light emitting unit arranged on the holding surface 12 is visually recognized, and the communication state is maintained even when the wireless communication medium is held over the holding surface 12. It can be visually recognized with certainty.

(2) In each of the above embodiments, a wireless communication medium formed in a card shape like the IC card C is not limited to a communication target, but a wireless communication medium formed in another shape, for example, an ellipse, is communicated. It may be a target. In this case, the longest projection length L is the longest line segment connecting the outer edges of the projection area of the wireless communication medium projected onto the holding surface 12, that is, the length of the long axis. At least two separation distances X are arranged so as to be longer than the longest projection length L.

  Even in this case, when the wireless communication medium is held over the holding surface 12 in response to the guidance of the holding operation, at least one of the light emitting units is visually recognized without being hidden by the wireless communication medium. It becomes. Accordingly, even when the wireless communication medium is held over the holding surface 12, the light emission state of the light emitting unit arranged on the holding surface 12 can be reliably recognized.

10, 10a ... Settlement device (communication device)
DESCRIPTION OF SYMBOLS 11 ... Housing 12 ... Holding surface 21 ... Control part (control means)
25. Wireless communication unit (wireless communication means)
26a-26e, 27a-27d, 28a-28d ... Light-emitting part 30, 30a ... Detector (detection means)
31 ... Detector 32 ... Light emitting element (light emitting means)
33. Light receiving element (light receiving means)
34 ... Photoconductive element C ... IC card (wireless communication medium, settlement medium)
L: Longest projection length S: Projection area X: Separation distance

Claims (5)

A holding surface over which a wireless communication medium is held,
Wireless communication means capable of wireless communication with the wireless communication medium held over the holding surface;
Four light emitting units provided respectively at positions constituting the four corners of the rectangular region in the holding surface;
All of the four light-emitting portions at the same time, the first light emitting condition to induce the operation of holding up the wireless communication medium to said holding up surface, corresponding to the wireless communication with the wireless communication medium by the wireless communication unit process Control means that can be controlled to any one of the second light emission states indicating that
A communication device comprising:
When the wireless communication medium to be communicated by the communication device is held over the holding surface, the length of the longest line segment connecting the outer edges of the projection areas of the wireless communication medium projected onto the holding surface Is the longest projection length,
The communication device, wherein the four light emitting units are arranged such that a separation distance from another diagonal light emitting unit is longer than the longest projection length. The wireless communication medium is a payment medium,
The communication apparatus according to claim 1, wherein the wireless communication unit wirelessly communicates with the wireless communication medium for payment information corresponding to a payment process.   The communication apparatus according to claim 1, wherein the wireless communication medium is formed in a card shape. It has two or more light emitting elements that emit light of different emission colors,
The four light emitting units are each configured to emit light using light from each of the light emitting elements,
Said control means, according to claim wherein the luminance of the light emitted from at least one of the light-emitting elements, characterized by control to Rukoto as different between the first light emission state and the second emission state The communication apparatus as described in any one of 1-3. The control means, the luminance of the light emitted from at least one of the respective light emitting elements in the second light emission state, the control to Rukoto to change depending on contents of communication with the wireless communication medium The communication device according to claim 4 .

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