JP2020074185A - Entrance/exit management system - Google Patents

Abstract

To provide an entrance/exit management system capable of reducing the number of switches operated by a user when shifting to various setting modes such as a warning mode.SOLUTION: The entrance/exit management system for controlling a control object by using a predetermined card includes: a reading device which includes an angle determination unit for determining a rotation angle of the card from a predetermined position; and a setting mode determination unit for determining various settings relating to the control object based on the rotation angle determined by the angle determination unit. The control object includes one or more devices of the entrance/exit management system that is/are different from the reading device.SELECTED DRAWING: Figure 1

Description

  The present invention relates to an entrance / exit management system.

2. Description of the Related Art Conventionally, in various facilities such as office buildings, in order to ensure security, an entrance / exit management system that manages the entrance / exit of people into / from a room is used (for example, refer to Patent Document 1). In this room entrance / exit management system, an authentication device equipped with a card reader is arranged near the door of each room.
When the user goes in and out of each room, he holds the ID card over the card reader of the authentication device, and the card reader reads the ID stored in the ID card. Then, the room entry / exit management system inquires the entry authority to each security area managed in association with the ID read by the card Lee, and controls the opening / closing of the door associated with the card reader to control the opening / closing of each room. Ensure security.

JP, 2010-205092, A

  However, when shifting the room entrance / exit management system to various setting modes such as a warning mode, the user needs to operate a switch corresponding to each setting mode provided in the authentication device. Therefore, when a new setting mode is added, it is necessary to newly add a switch corresponding to the added mode to the authentication device. For this reason, the number of switches increases as the number of items in the setting mode increases, so that the housing size of the authentication device increases.

  The present invention has been made in view of such circumstances, and an object thereof is to enter and leave a room in which the number of switches operated by a user when shifting to various setting modes such as a warning mode can be reduced. It is to provide a management system.

  One aspect of the present invention is an entrance / exit management system for controlling a controlled object using a predetermined card, the reading device including an angle determination unit that determines a rotation angle of the card from a predetermined position, and the angle. Based on the rotation angle determined by the determination unit, a setting mode determination unit that determines various settings related to the control target, and the control target is a device of the entrance and exit management system different from the reading device. It is an entrance / exit management system characterized by including one or more.

  As described above, according to the present invention, it is possible to provide an entry / exit management system capable of reducing the number of switches operated by the user when shifting to various setting modes such as a warning mode. ..

It is a figure which shows an example of a schematic structure of the entrance / exit management system 1 of 1st Embodiment. It is a figure which shows an example of the rotation angle of the ID card 11 in 1st Embodiment. It is the figure which looked at attestation side 120 from the front when ID card 11 in a 1st embodiment is held up. It is a figure which shows an example of a schematic structure of the control part 21 in 1st Embodiment. It is a figure which shows an example of a structure of the 2nd table in 1st Embodiment. It is a figure which shows the flow of the determination method of the setting mode of the entrance / exit management system 1 in 1st Embodiment. It is a sequence diagram which shows an example of the flow of a process of the entrance / exit management system 1 in 1st Embodiment. It is a figure which shows an example of schematic structure of the entrance / exit management system 1A in 2nd Embodiment. It is explanatory drawing which showed the external appearance of the authentication device 10A in 2nd Embodiment. It is a figure which shows an example of schematic structure of the entrance / exit management system 1B in 3rd Embodiment. It is explanatory drawing which showed the external appearance of the authentication apparatus 10B in 3rd Embodiment. It is a figure which shows an example of schematic structure of the entrance / exit management system 1C in 4th Embodiment. It is explanatory drawing which showed the external appearance of the authentication device 10C in 4th Embodiment. It is a figure which shows an example of schematic structure of the entrance / exit management system 1D in 5th Embodiment. It is the figure which looked at authentication device 10D from the front when ID card 11 was made to contact closely to authentication side 120 in a 5th embodiment. It is a figure which shows an example of schematic structure of the entrance / exit management system 1E in 6th Embodiment. It is the figure which looked at authentication device 10E from the front when ID card 11 was brought into close contact with authentication side 120 in a 6th embodiment. It is a figure which shows an example of schematic structure of the entrance / exit management system 1F in 7th Embodiment. It is a schematic block diagram of ID card 11F in 7th Embodiment. It is a figure which shows an example of schematic structure of the entrance / exit management system 1G in 8th Embodiment. It is a figure which shows an example of schematic structure of the entrance / exit management system 1H in 9th Embodiment. It is the figure which looked at authentication device 10H in a 9th embodiment from the front. It is a figure which shows an example of schematic structure of the entrance / exit management system 1I in 10th Embodiment. It is a schematic external view of the authentication device 10I in 10th Embodiment. It is a figure which shows an example of schematic structure of the entrance / exit management system 1J in 11th Embodiment. It is a schematic external view of the authentication device 10J in 11th Embodiment.

The entry / exit management system of the present embodiment is an entry / exit management system that controls a control target using a predetermined card. The entry / exit management system of this embodiment includes an angle determination unit and a setting mode determination unit. The angle determination unit determines the rotation angle of the card from the predetermined position. The setting mode determination unit determines various settings regarding the controlled object based on the rotation angle determined by the angle determination unit. The control target is at least one of a security sensor, a buzzer, an electronic lock, a warning light, and a speaker.
Hereinafter, the entry / exit management system according to the embodiment of the present invention will be specifically described.

(First embodiment)
FIG. 1 is a diagram showing an example of a schematic configuration of an entry / exit management system 1 according to the first embodiment.
The room entrance / exit management system 1 of the first embodiment is a system for managing the entrance / exit of a person in a room in order to ensure security in various facilities such as an office building.
As shown in FIG. 1, the entry / exit management system 1 includes an authentication device 10, a control device 20, and a control target 30.

  The authentication device 10 is installed on a wall surface or the like near the door corresponding to the door of each room including the controlled object 30. As described above, the control target 30 is at least one of the crime prevention sensor, the buzzer, the electronic lock, the warning light, and the speaker.

The authentication device 10 includes an ID recognition unit 12 and an angle information detection unit 13.
The ID recognition unit 12 reads the authentication information stored in the ID card 11 by holding the ID card 11 over the authentication surface 120 of the device itself. For example, the authentication information is a user ID that identifies the user of the ID card 11. For example, the ID card 11 has a near field communication (Near Field Communication) function and holds a user ID (Identification) that identifies a user. That is, the ID card 11 stores in advance a card number which is authentication information for uniquely identifying the user.

  The ID recognition unit 12 supplies the read authentication information to the control device 20. In addition, holding means to bring the ID card 11 close to or close to the authentication device 10 so that the authentication device 10 is within a communicable range in which the authentication information of the ID card 11 can be read. The ID recognition unit 12 outputs the read authentication information to the ID determination unit 212.

  The angle information detection unit 13 is information about the rotation angle of the ID card 11 from a predetermined position when the ID card 11 owned by the user is held over the authentication device 10 (hereinafter, referred to as “rotation angle information”). ) Is detected. The angle information detection unit 13 outputs the detected rotation angle information to the control unit 21.

  Hereinafter, the rotation angle of the ID card 11 from the predetermined position will be described. FIG. 2 is a diagram showing an example of a rotation angle of the ID card 11 from a predetermined position in the first embodiment. FIG. 3 is a front view of the authentication surface 120 when the ID card 11 is held up. As shown in FIG. 2, the rotation angle of the ID card 11 from a predetermined position is a first rotation angle α whose rotation axis is the Z axis which is the rotation direction of the arrow 300 and a Y axis which is the rotation direction of the arrow 400. Has a second rotation angle β with respect to the rotation axis and a third rotation angle γ with the X axis having the rotation direction of the arrow 500 as the rotation axis. As described above, the rotation angle of the ID card 11 from the predetermined position is the rotation angle (first rotation angle α) of the ID card 11 in the horizontal direction of the authentication surface 120 and the angle formed between the authentication surface 120 and the ID card 11. (Second rotation angle β or third rotation angle γ).

  FIG. 3A shows a first rotation angle α with the Z axis as the rotation axis in the first embodiment. As shown in FIG. 3A, the first rotation angle α having the Z axis as the rotation axis is the rotation angle on the XY plane. FIG. 3B shows a second rotation angle β with the Y axis as the rotation axis. As shown in FIG. 3B, the second rotation angle β having the Y axis as the rotation axis is the rotation angle on the XZ plane. FIG. 3C shows a third rotation angle γ with the X axis as the rotation axis in the first embodiment. As shown in FIG. 3C, the third rotation angle γ having the X axis as the rotation axis is the rotation angle on the YZ plane.

The control device 20 includes a control unit 21 and a storage unit 22.
FIG. 4 is a diagram showing an example of a schematic configuration of the control unit 21 in the first embodiment.
As shown in FIG. 4, the control device 20 includes an angle determination unit 211, an ID determination unit 212, a mode determination unit 213, and a control target control unit 214.
The angle determination unit 211 acquires the rotation angle information of the ID card 11 from the predetermined position supplied from the angle information detection unit 13. The angle determination unit 211, based on the rotation angle information of the ID card 11 from the predetermined position supplied from the angle information detection unit 13, the rotation angle of the ID card 11 from the predetermined position (hereinafter, simply “rotation angle”). That is). For example, the angle determination unit 211 determines the rotation angle corresponding to the rotation angle information by referring to the first table. The rotation angle information of the ID card 11 and the rotation angle of the ID card 11 are associated in advance with the first table based on experiments and past results. The first table is stored in the storage unit 22 in advance. The angle determination unit 211 outputs the determined rotation angle of the ID card 11 to the mode determination unit 213.

The ID determination unit 212 performs personal authentication based on the authentication information supplied from the authentication device 10. For example, the ID determination unit 212 performs personal authentication by comparing and collating the authentication information supplied from the authentication device 10 with the authentication information stored in the storage unit 22. The ID determination unit 212 determines that the personal authentication is successful when the authentication information supplied from the authentication device 10 (the authentication information read by the authentication device 10) matches the authentication information stored in the storage unit 22. .. On the other hand, the ID determination unit 212 determines that the personal authentication has failed when the authentication information matching the authentication information supplied from the authentication device 10 is not stored in the storage unit 22. The authentication information stored in the storage unit 22 is, for example, identification information of a user who is permitted to enter and leave the room, and is stored in the storage unit 22 in advance.
The ID determination unit 212 outputs the determination result of individual authentication to the mode determination unit 213.

  When the determination result of the personal authentication supplied from the ID determination unit 212 is successful, the mode determination unit 213 determines the entrance / exit management system 1 based on the rotation angle of the ID card 11 supplied from the angle determination unit 211. Determine the setting mode of. The setting mode indicates various settings regarding the controlled object 30. For example, when the setting mode is the warning mode, the security sensor and the buzzer are set so that the buzzer sounds when the security sensor in the building detects an abnormality.

  For example, the mode determination unit 213 determines the setting mode corresponding to the rotation angle of the ID card 11 supplied from the angle determination unit 211 by referring to the second table. The rotation angle and the setting mode of the ID card 11 are associated in advance with the second table. FIG. 5 is a diagram showing an example of the configuration of the second table in the first embodiment. As shown in FIG. 5, when the rotation angle of the ID card 11 supplied from the angle determination unit 211 is 5 °, the mode determination unit 213 sets the setting mode of the entry / exit management system 1 to the alert mode. .. In addition, when the rotation angle of the ID card 11 supplied from the angle determination unit 211 is 30 °, the mode determination unit 213 sets the setting mode of the entry / exit management system 1 to the alert release mode. The second table is stored in the storage unit 22 in advance. The mode determination unit 213 outputs the determined setting mode to the control target control unit 214.

  The controlled object control unit 214 controls the controlled object 30 based on the setting mode supplied from the mode determination unit 213.

  Hereinafter, a method for determining the setting mode of the entry / exit management system 1 according to the first embodiment will be described with reference to FIG. FIG. 6 is a diagram showing a flow of a method of determining the setting mode of the entry / exit management system 1 in the first embodiment.

  When the user holds the ID card 11 over the authentication surface 120, the ID recognition unit 12 reads the authentication information stored in the ID card 11. At that time, the angle information detection unit 13 detects the rotation angle information of the ID card 11. The ID recognition unit 12 outputs the read authentication information to the ID determination unit 212. The angle information detection unit 13 outputs the detected rotation angle information of the ID card 11 to the control unit 21 (step S101).

  The ID determination unit 212 performs personal authentication based on the authentication information supplied from the ID recognition unit 12 (step S102).

The ID determination unit 212 determines whether the personal authentication has succeeded (step S103).
The ID determination unit 212 determines that the personal authentication is successful when the authentication information supplied from the ID recognition unit 12 matches the authentication information stored in the storage unit 22. On the other hand, if the authentication information matching the authentication information supplied from the authentication device 10 is not stored in the storage unit 22, the ID determination unit 212 determines that the personal authentication has failed, and does not determine the setting mode.

If the determination result of the personal authentication supplied from the ID determination unit 212 is successful, the angle determination unit 211 determines the rotation angle information of the ID card 11 supplied from the angle information detection unit 13. get. Note that the angle determination unit 211 may acquire the rotation angle information of the ID card 11 supplied from the angle information detection unit 13 before the personal authentication is performed.
The angle determination unit 211 determines the rotation angle of the ID card 11 based on the information about the rotation angle of the ID card 11 supplied from the angle information detection unit 13 (step S104). For example, the angle determination unit 211 determines the rotation angle of the ID card 11 corresponding to the rotation angle information of the ID card 11 by referring to the first table. The angle determination unit 211 outputs the determined rotation angle of the ID card 11 to the mode determination unit 213.

  When the determination result of the personal authentication supplied from the ID determination unit 212 is successful, the mode determination unit 213 determines the entrance / exit management system 1 based on the rotation angle of the ID card 11 supplied from the angle determination unit 211. The setting mode of is determined (step S105). For example, the mode determination unit 213 determines the setting mode corresponding to the rotation angle of the ID card 11 supplied from the angle determination unit 211 by referring to the second table.

Next, a processing flow of the entry / exit management system 1 according to the first embodiment will be described.
FIG. 7 is a sequence diagram illustrating an example of a processing flow of the entry / exit management system 1 according to the first embodiment.

  When the user holds the ID card 11 over the authentication surface 120, the ID recognition unit 12 reads the authentication information stored in the ID card 11. Then, the ID recognition unit 12 outputs the authentication information to the control device 20 (step S201).

  When the user holds the ID card 11 over the authentication surface 120, the angle information detection unit 13 detects the rotation angle information of the ID card 11. The angle information detection unit 13 outputs the detected rotation angle information to the control unit 21 (step S202).

The control device 20 performs personal authentication based on the authentication information supplied from the ID recognition unit 12 (step S203).
When the personal authentication is successful, the control device 20 determines the rotation angle of the ID card 11 based on the rotation angle information of the ID card 11 supplied from the angle information detection unit 13 (step S204).

The control device 20 determines the setting mode based on the rotation angle of the ID card 11 (step S205).
The control device 20 outputs setting mode information, which is information indicating the determined setting mode, to the control target control unit 214 (step S206).

  The controlled object control unit 214 controls the controlled object 30 based on the setting mode information supplied from the control device 20.

  As described above, the entry / exit management system 1 determines the setting mode of the entry / exit management system 1 based on the rotation angle of the ID card 11 from the predetermined position. Therefore, when the entrance / exit management system 1 is shifted to various setting modes such as the warning mode, the user holds the ID card 11 over the authentication device 10 and sets the ID at the rotation angle corresponding to the desired setting mode. By holding the card 11 over, the entrance / exit management system 1 can be shifted to various setting modes. Therefore, since it is possible to shift to various setting modes without operating the switches corresponding to the setting modes provided in the authentication device, it is possible to reduce the number of switches operated by the user. Further, when a new setting mode is added, it is not necessary to add a switch corresponding to the mode to be added to the authentication device, so that it is possible to prevent the housing size of the authentication device from increasing due to the addition of the switch.

(Second embodiment)
The room entry / exit management system 1A of the second embodiment will be described below with reference to the drawings. The room entrance / exit management system 1A of the second embodiment detects the rotation angle information of the ID card 11 by using ultrasonic waves or electromagnetic waves. Then, the room entry / exit management system 1A determines the rotation angle of the ID card 11 from the predetermined position based on the detected rotation angle information. The rotation angle of the ID card 11 determined by the room entry / exit management system 1A of the second embodiment is the first rotation angle α, the second rotation angle β, or the third rotation angle γ.
The details of the entry / exit management system 1A of the second embodiment will be described below. Note that ultrasonic waves or electromagnetic waves may be referred to as radiation waves.

FIG. 8: is a figure which shows an example of a schematic structure of the entrance / exit management system 1A in 2nd Embodiment.
As shown in FIG. 8, the entry / exit management system 1A includes an authentication device 10A, a control device 20, and a control target 30. In the following description, the same components as those in the above-described embodiment will be designated by the same reference numerals and the description thereof will be omitted.

The authentication device 10A includes an ID recognition unit 12 and an angle information detection unit 13A.
FIG. 9 is an explanatory diagram showing the outer appearance of the authentication device 10A according to the second embodiment. FIG. 9A is a front view of the authentication device 10A according to the second embodiment. FIG. 9B shows a side view of the authentication device 10A according to the second embodiment.

  The angle information detection unit 13A includes a plurality of angle sensors 130A. For example, the angle information detection unit 13A includes two angle sensors 130A (angle sensor 130A-1 and angle sensor 130A-2). In the present embodiment, the case where the number of angle sensors 130A is two will be described, but the number is not limited to this.

  The angle sensor 130A includes a radiation unit that radiates ultrasonic waves in the Z-axis direction toward the ID card 11, and a detection unit that detects reflected waves of the radiated ultrasonic waves. The angle sensor 130A calculates the distance to the ID card 11 based on the time required from the emission of ultrasonic waves to the detection. The angle sensor 130A outputs the calculated distance to the ID card 11 to the control unit 21 as rotation angle information of the ID card 11.

  The angle sensor 130A-1 is provided above the authentication device 10A. The angle sensor 130A-2 is provided below the authentication device 10A. The angle sensor 130A is not limited to ultrasonic waves, and may include, for example, a radiation unit that radiates electromagnetic waves in the Z-axis direction and a detection unit that detects reflected waves of the radiated electromagnetic waves.

  Hereinafter, an example of a method of detecting the rotation angle information of the ID card 11 by the angle information detection unit 13A will be described. FIG. 9B is a side view of the authentication device 10A, and is a diagram illustrating a method of detecting the rotation angle information of the ID card 11 by the angle information detection unit 13A.

When the ID card 11 is held over the authentication device 10A, the angle sensor 130A-1 and the angle sensor 130A-2 each emit an ultrasonic wave.
First, a case where the user holds the ID card 11 over the authentication device 10A at the position shown by the solid line in FIG. 9B will be described. When the user holds the ID card 11 over the authentication device 10A at the position shown by the solid line in FIG. 9B, the ultrasonic wave emitted by the angle sensor 130A-1 propagates along the route L1 and is reflected by the ID card 11. Then, the ultrasonic wave reflected by the ID card 11 propagates along the path L1 and is detected by the angle sensor 130A-1. Therefore, the angle sensor 130A-1 calculates the distance L1 to the ID card 11 based on the time required from the emission of ultrasonic waves to the detection. The ultrasonic wave emitted by the angle sensor 130A-2 propagates along the path L2 and is reflected by the ID card 11. Then, the ultrasonic wave reflected by the ID card 11 propagates along the path L2 and is detected by the angle sensor 130A-2. Therefore, the angle sensor 130A-2 calculates the distance L2 to the ID card 11 based on the time required from the emission of ultrasonic waves to the detection.
The angle sensor 130A outputs the calculated distances L1 and L2 to the ID card 11 to the angle determination unit 211 as rotation angle information of the ID card 11.

Next, a case where the user holds the ID card 11 over the authentication device 10A at the position shown by the dotted line in FIG. 9B will be described. The position indicated by the dotted line in FIG. 9B is a position deviated from the position indicated by the solid line in FIG. 9B by 30 ° in the Z-axis direction.
When the user holds the ID card 11 over the authentication device 10A at the position indicated by the dotted line in FIG. 9B, the ultrasonic wave emitted by the angle sensor 130A-1 propagates along the route L4 (<L1), and the ID card 11 Reflect on. Then, the ultrasonic wave reflected by the ID card 11 propagates along the path L4 and is detected by the angle sensor 130A-1. Therefore, the angle sensor 130A-1 calculates the distance L4 to the ID card 11 based on the time required from the emission of ultrasonic waves to the detection. The ultrasonic wave emitted by the angle sensor 130A-2 propagates along the path L5 (> L2) and is reflected by the ID card 11. Then, the ultrasonic wave reflected by the ID card 11 propagates along the path L5 and is detected by the angle sensor 130A-2. Therefore, the angle sensor 130A-2 calculates the distance L5 to the ID card 11 based on the time required from the emission of ultrasonic waves to the detection.
The angle sensor 130A outputs the calculated distances L4 and L5 to the ID card 11 to the angle determination unit 211 as rotation angle information of the ID card 11.

  The angle determination unit 211 acquires the rotation angle information of the ID card 11 supplied from the angle information detection unit 13A. The angle determination unit 211 determines the rotation angle of the ID card 11 from the predetermined position based on the rotation angle information supplied from the angle information detection unit 13A. For example, when the rotation angle information supplied from the angle information detection unit 13A is the distance L1 and the distance L2, the angle determination unit 211 determines that the rotation angle of the ID card 11 from the predetermined position is 0 ° based on the first table. Can be determined to be When the rotation angle information supplied from the angle information detection unit 13A is the distance L4 and the distance L5, the angle determination unit 211 determines that the rotation angle of the ID card 11 from the predetermined position is 30 ° based on the first table. Can be determined.

  Since the method of determining the setting mode and the flow of processing of the entry / exit management system 1A in the second embodiment are the same as those in the first embodiment, description thereof will be omitted.

  As described above, the entry / exit management system 1A determines the rotation angle of the ID card 11 from the predetermined position based on the distance to the ID card 11. Then, the room entrance / exit management system 1A determines the setting mode of the room entrance / exit management system 1A based on the rotation angle of the ID card 11 from the predetermined position. Therefore, when shifting the entrance / exit management system 1A to various setting modes such as a warning mode, the user holds the ID card 11 over the authentication device 10A and sets the ID at the rotation angle corresponding to the desired setting mode. By holding the card 11 over, the entry / exit management system 1A can be shifted to various setting modes. Therefore, since it is possible to shift to various setting modes without operating the switches corresponding to the setting modes provided in the authentication device 10A, it is possible to reduce the number of switches operated by the user. In addition, when a new setting mode is added, it is not necessary to add a switch corresponding to the mode to be added to the authentication device 10A, and therefore it is possible to prevent an increase in the housing size of the authentication device 10A due to the addition of the switch. it can. The room entrance / exit management system 1A may determine the rotation angle of the ID card 11 from a predetermined position based on the intensity of the ultrasonic waves reflected by the ID card 11.

(Third Embodiment)
The entry / exit management system 1B of the third embodiment will be described below with reference to the drawings. The room entry / exit management system 1B of the third embodiment detects the rotation angle information of the ID card 11 based on the brightness of the surroundings of the authentication device 10B. Then, the room entry / exit management system 1B determines the rotation angle of the ID card 11 from the predetermined position based on the detected rotation angle information. The rotation angle of the ID card 11 determined by the room entry / exit management system 1B of the third embodiment is the first rotation angle α, the second rotation angle β, or the third rotation angle γ.
The details of the entry / exit management system 1B of the third embodiment will be described below.

FIG. 10: is a figure which shows an example of a schematic structure of the entrance / exit management system 1B in 3rd Embodiment.
As illustrated in FIG. 10, the entry / exit management system 1B includes an authentication device 10B, a control device 20, and a control target 30. In the following description, the same components as those in the above-described embodiment will be designated by the same reference numerals and the description thereof will be omitted.

The authentication device 10B includes an ID recognition unit 12 and an angle information detection unit 13B.
FIG. 11 is an explanatory diagram showing the outer appearance of the authentication device 10B according to the third embodiment. FIG. 11A is a front view of the authentication device 10B according to the third embodiment. FIG. 11B shows a side view of the authentication device 10B according to the third exemplary embodiment.
The angle information detection unit 13B includes a plurality of angle sensors 130B. For example, the angle information detection unit 13B includes two angle sensors 130B (angle sensor 130B-1 and angle sensor 130B-2). In the present embodiment, the case where the number of the angle sensors 130B is two will be described, but the number is not limited to this.

The angle sensor 130B is a sensor that detects the brightness around the authentication device 10B. For example, the angle sensor 130B is an illuminance sensor. The angle sensor 130B outputs the detected illuminance to the control unit 21 as rotation angle information.
The angle sensor 130B-1 is provided above the authentication device 10B. The angle sensor 130B-2 is provided below the authentication device 10B.

  Hereinafter, an example of a method of detecting the rotation angle information in the angle information detection unit 13B will be described. FIG. 11B is a diagram of the authentication device 10B viewed from the side, and is a diagram illustrating a method of detecting rotation angle information in the angle information detection unit 13B.

  First, a case where the user holds the ID card 11 over the authentication device 10B at the position shown by the solid line in FIG. 11B will be described. When the user holds the ID card 11 over the authentication device 10B at the position shown by the solid line in FIG. 11B, the angle sensor 130B-1 detects the illuminance I1. Further, the angle sensor 130B-1 detects the illuminance I2. The angle sensor 130B outputs the detected illuminance I1 and illuminance I2 to the angle determination unit 211 as rotation angle information.

  Next, a case where the user holds the ID card 11 over the authentication device 10B at the position shown by the dotted line in FIG. 11B will be described. The position indicated by the dotted line in FIG. 11B is a position deviated from the position indicated by the solid line in FIG. 11B by 30 ° in the Z-axis direction. When the user holds the ID card 11 over the authentication device 10B at the position shown by the dotted line in FIG. 11B, the angle sensor 130B-1 detects the illuminance I3 having a lower illuminance than the illuminance I1. This is because when the ID card 11 is held over the authentication device 10B at the position shown by the dotted line, the distance between the angle sensor 130B-1 and the ID card 11 becomes shorter than that at the position shown by the solid line. Further, the angle sensor 130B-1 detects the illuminance I4 whose illuminance is higher than the illuminance I2. This is because when the ID card 11 is held over the authentication device 10B at the position shown by the dotted line, the distance between the angle sensor 130B-2 and the ID card 11 becomes longer than that at the position shown by the solid line. The angle sensor 130B outputs the detected illuminance I3 and illuminance I4 as rotation angle information to the angle determination unit 211.

  The angle determination unit 211 acquires the rotation angle information supplied from the angle information detection unit 13B. The angle determination unit 211 determines the rotation angle of the ID card 11 from the predetermined position based on the rotation angle information supplied from the angle information detection unit 13B. For example, when the rotation angle information supplied from the angle information detection unit 13B is the illuminance I1 and the illuminance I2, the angle determination unit 211 determines that the rotation angle of the ID card 11 from the predetermined position is 0 ° based on the first table. You can decide that there is. When the rotation angle information supplied from the angle information detection unit 13B is the illuminance I3 and the illuminance I4, the angle determination unit 211 determines that the rotation angle of the ID card 11 from the predetermined position is 30 ° based on the first table. You can decide.

  Since the method of determining the setting mode and the flow of processing of the entry / exit management system 1B in the third embodiment are the same as those in the first embodiment, the description thereof will be omitted.

  As described above, the entry / exit management system 1B determines the rotation angle of the ID card 11 from the predetermined position based on the illuminance around the authentication device 10B. Then, the entry / exit management system 1B determines the setting mode of the entry / exit management system 1B based on the rotation angle of the ID card 11 from the determined predetermined position. Therefore, when the entrance / exit management system 1B is moved to various setting modes such as a warning mode, the user holds the ID card over the authentication device 10B and rotates the ID card at a rotation angle corresponding to the desired setting mode. By holding 11 up, the entry / exit management system 1B can be shifted to various setting modes. Therefore, since it is possible to shift to various setting modes without operating the switches corresponding to the setting modes provided in the authentication device 10B, it is possible to reduce the number of switches operated by the user. In addition, when a new setting mode is added, it is not necessary to add a switch corresponding to the mode to be added to the authentication device 10B, and thus it is possible to prevent an increase in the housing size of the authentication device 10B due to the addition of the switch. it can.

  In addition, in the entry / exit management system 1B of the third embodiment, when a person passes around the authentication device 10B and the surroundings of the authentication device 10B become dark, a light source may be further provided. The position where the light source is installed is, for example, the ceiling around the authentication device 10B. As a result, even when the surroundings of the authentication device 10B are dark, the setting mode of the room entry / exit management system 1B can be reliably determined based on the rotation angle of the ID card 11 from the predetermined position.

(Fourth Embodiment)
The entry / exit management system 1C according to the fourth embodiment will be described below with reference to the drawings. The room entrance / exit management system 1C of the fourth embodiment detects the rotation angle information of the ID card 11C based on the magnetic flux around the authentication device 10C. Then, the room entry / exit management system 1C determines the rotation angle of the ID card 11C from the predetermined position based on the detected rotation angle information. The rotation angle of the ID card 11C determined by the room entry / exit management system 1C of the fourth embodiment is the first rotation angle α, the second rotation angle β, or the third rotation angle γ.
The details of the entry / exit management system 1C of the fourth embodiment will be described below.

FIG. 12 is a diagram showing an example of a schematic configuration of a room entry / exit management system 1C according to the fourth embodiment.
As shown in FIG. 12, the entrance / exit management system 1C includes an authentication device 10C, a control device 20, and a control target 30. In the following description, the same components as those in the above-described embodiment will be designated by the same reference numerals and the description thereof will be omitted.

The authentication device 10C includes an ID recognition unit 12 and an angle information detection unit 13C.
The ID recognition unit 12 reads the authentication information stored in the ID card 11C when the user holds the ID card 11C held by the user. In the ID card 11C, a card number, which is authentication information for uniquely identifying a user who possesses the ID card 11C, is stored in advance. Further, the ID card 11C includes a magnetic flux generation unit 110C that generates magnetic flux. For example, the magnetic flux generator is a magnet. The number of the magnetic flux generators 110C may be one or plural. In the present embodiment, a case will be described in which the ID card 11C includes two magnetic flux generators 110C (magnetic flux generator 110C-1 and magnetic flux generator 110C-2).

FIG. 13 is an explanatory diagram showing the outer appearance of the authentication device 10C according to the fourth embodiment. FIG. 13A is a front view of the authentication device 10C according to the fourth exemplary embodiment. FIG. 13B shows a side view of the authentication device 10C according to the fourth exemplary embodiment.
The angle information detection unit 13C includes a plurality of angle sensors 130C. For example, the angle information detection unit 13C includes two angle sensors 130C (angle sensor 130C-1 and angle sensor 130C-2). In the present embodiment, the case where the number of the angle sensors 130C is two will be described, but the number is not limited to this.

The angle sensor 130C is a sensor that detects a magnetic flux around the authentication device 10C. For example, the angle sensor 130C is a Hall element. The angle sensor 130C converts the detected magnetic flux into a voltage value. Then, the angle sensor 130 outputs the converted voltage value to the control unit 21 as the rotation angle information of the ID card 11C.
The angle sensor 130C-1 is provided above the authentication device 10C. The angle sensor 130C-2 is provided below the authentication device 10C.

  Hereinafter, an example of a method of detecting the rotation angle information by the angle information detection unit 13C will be described. FIG. 13B is a diagram of the authentication device 10C viewed from the side, and is a diagram illustrating a method of detecting rotation angle information in the angle information detection unit 13C.

First, a case where the user holds the ID card 11C over the authentication device 10C at the position shown by the solid line in FIG. 13B will be described. When the user holds the ID card 11C over the authentication device 10C at the position shown by the solid line in FIG. 13B, the angle sensor 130C-1 detects the magnetic flux B1 generated from the magnetic flux generation unit 110C-1. Further, the angle sensor 130C-2 detects the magnetic flux B2 generated from the magnetic flux generation unit 110C-2. The angle sensor 130C converts each of the detected magnetic flux B1 and magnetic flux B2 into a voltage value, and outputs the converted voltage value E1 and voltage value E2 to the angle determination unit 211 as rotation angle information.
Next, a case where the user holds the ID card 11C over the authentication device 10C at the position shown by the dotted line in FIG. 13B will be described. The position indicated by the dotted line in FIG. 13B is a position deviated from the position indicated by the solid line in FIG. 13B by 30 ° in the Z-axis direction.

  When the user holds the ID card 11C over the authentication device 10C at the position indicated by the dotted line in FIG. 13B, the angle sensor 130C-1 detects the magnetic flux B3 having a stronger magnetic flux than the magnetic flux B1. This is because when the ID card 11C is held over the authentication device 10C at the position indicated by the dotted line, the distance between the angle sensor 130C-1 and the magnetic flux generation unit 110C-1 is shorter than that at the position indicated by the solid line. .. Further, the angle sensor 130C-1 detects a magnetic flux B4 having a weaker magnetic flux than the magnetic flux B2. This is because when the ID card 11C is held over the authentication device 10C at the position indicated by the dotted line, the distance between the angle sensor 130C-2 and the magnetic flux generation unit 110C-2 is longer than that at the position indicated by the solid line. .. The angle sensor 130C converts each of the detected magnetic flux B3 and magnetic flux B4 into a voltage value, and outputs the converted voltage value E3 and voltage value E4 to the angle determination unit 211 as rotation angle information.

  The angle determination unit 211 acquires the rotation angle information supplied from the angle information detection unit 13C. The angle determination unit 211 determines the rotation angle of the ID card 11C from the predetermined position based on the rotation angle information supplied from the angle information detection unit 13C. For example, when the rotation angle information supplied from the angle information detection unit 13C is the voltage value E1 and the voltage value E2, the angle determination unit 211 determines that the rotation angle of the ID card 11C from the predetermined position is based on the first table. It can be determined to be 0 °. When the rotation angle information supplied from the angle information detection unit 13C is the voltage value E3 and the voltage value E4, the angle determination unit 211 determines that the rotation angle of the ID card 11C from the predetermined position is 30 ° based on the first table. Can be determined to be

  Since the method of determining the setting mode and the flow of processing of the entry / exit management system 1C in the fourth embodiment are the same as those in the first embodiment, the description thereof will be omitted.

  As described above, the entry / exit management system 1C determines the rotation angle of the ID card 11C from the predetermined position based on the magnetic flux around the authentication device 10C. Then, the room entering / leaving management system 1C determines the setting mode of the room entering / leaving management system 1C based on the rotation angle of the ID card 11C from the determined predetermined position. Therefore, when shifting the entrance / exit management system 1C to various setting modes such as a warning mode, the user holds the ID card 11C over the authentication device 10C, and uses the rotation angle corresponding to the desired setting mode. The room entry / exit management system 1C can be shifted to various setting modes by holding the card 11C up. Therefore, since it is possible to shift to various setting modes without operating the switches corresponding to the setting modes provided in the authentication device 10C, it is possible to reduce the number of switches operated by the user. In addition, when a new setting mode is added, it is not necessary to add a switch corresponding to the mode to be added to the authentication device 10C, and therefore it is possible to prevent an increase in the housing size of the authentication device 10C due to the addition of the switch. it can.

(Fifth Embodiment)
The entry / exit management system 1D of the fifth embodiment will be described below with reference to the drawings. The entry / exit management system 1D of the fifth embodiment is provided with a plurality of pressure detection units 130D that detect the pressure of the authentication surface 120 of the authentication device 10D, and a plurality of pressure detection units 130D (pressure detection units 130D-1 to 130D-9). ) In which the pressure detection unit 130D detects the pressure, the rotation angle of the ID card 11 from a predetermined position is determined. The rotation angle of the ID card 11 determined by the entry / exit management system 1D of the fifth embodiment is the first rotation angle α. That is, in the fifth embodiment, the user brings the ID card 11 into close contact with the authentication surface 120 at various first rotation angles α to shift the entrance / exit management system 1D to various setting modes.
The details of the entry / exit management system 1D of the fifth embodiment will be described below.

  FIG. 14: is a figure which shows an example of schematic structure of the entrance / exit management system 1D in 5th Embodiment. As shown in FIG. 14, the entry / exit management system 1D includes an authentication device 10D, a control device 20, and a control target 30. In the following description, the same components as those in the above-described embodiment will be designated by the same reference numerals and the description thereof will be omitted.

The authentication device 10D includes an ID recognition unit 12 and an angle information detection unit 13D.
FIG. 15 is a front view of the authentication device 10D when the ID card 11 is brought into close contact with the authentication surface 120 according to the fifth embodiment.
The angle information detection unit 13D includes a plurality of pressure detection units 130D. In addition, although this embodiment demonstrates the case where the number of the pressure detection parts 130D is nine, it is not limited to this number.

  The pressure detection unit 130D detects the pressure on the authentication surface 120. When detecting the pressure of the authentication surface 120, the pressure detection unit 130D outputs a pressure detection signal indicating that the pressure of the authentication surface 120 has been detected to the angle determination unit 211 as rotation angle information.

  The angle determination unit 211 acquires the rotation angle information supplied from the pressure detection unit 130D. The angle determination unit 211 determines the rotation angle of the ID card 11 from a predetermined position based on the rotation angle information supplied from the pressure detection unit 130D. For example, the angle determination unit 211 determines the rotation angle of the ID card 11 from a predetermined position by determining which of the pressure detection units 130D has acquired the rotation angle information from the plurality of pressure detection units 130D. .. That is, when the angle determination unit 211 acquires the rotation angle information from the pressure detection units 130D-1, 130D-2, 130D-4 to 130D-6, and 130D-9, the rotation of the ID card 11 from the predetermined position. The angle is determined to be 0 °. When the angle determination unit 211 acquires the rotation angle information from the pressure detection units 130D-1, 130D-4 to 130D-6, and 130D-9, the rotation angle of the ID card 11 from the predetermined position is 30 °. To decide.

  Since the method of determining the setting mode and the flow of processing of the entry / exit management system 1D in the fifth embodiment are the same as those in the first embodiment, description thereof will be omitted.

  As described above, the entry / exit management system 1D is provided with the plurality of pressure detection units 130D that detect the pressure of the authentication surface 120 of the authentication device 10D, and the plurality of pressure detection units 130D (pressure detection units 130D-1 to 130D-9). Among them, the rotation angle of the ID card 11 from a predetermined position is determined by determining which pressure detection unit 130D has detected. That is, the entrance / exit management system 1D determines the rotation angle of the ID card 11 from the predetermined position by determining at which position on the authentication surface 120 the pressure is generated. Then, the room entry / exit management system 1D determines the setting mode of the room entry / exit management system 1D based on the determined rotation angle of the ID card 11 from the predetermined position. Therefore, when the entrance / exit management system 1D is moved to various setting modes such as the warning mode, the user holds the ID card 11 over the authentication device 10D and sets the ID at the rotation angle corresponding to the desired setting mode. By holding the card 11 over, the entry / exit management system 1D can be shifted to various setting modes. Therefore, since it is possible to shift to various setting modes without operating the switches corresponding to the setting modes provided in the authentication device 10D, it is possible to reduce the number of switches operated by the user. Further, when a new setting mode is added, it is not necessary to add a switch corresponding to the mode to be added to the authentication device 10D, and therefore it is possible to prevent an increase in the housing size of the authentication device 10D due to the addition of the switch. it can.

(Sixth Embodiment)
The entry / exit management system 1E of the sixth embodiment will be described below with reference to the drawings. The entry / exit management system 1E of the sixth embodiment is provided with a plurality of switches 130E on the authentication surface 120 of the authentication device 10E, and which switch 130E is ON among the plurality of switches 130E (switches 130E-1 to 130E-9). The rotation angle of the ID card 11 from the predetermined position is determined by determining whether the ID card 11 is in the state. The rotation angle of the ID card 11 determined by the room entry / exit management system 1E of the sixth embodiment is the first rotation angle α. Therefore, in the sixth embodiment, the user brings the entry / exit management system 1E into various setting modes by bringing the ID card 11 into close contact with the authentication surface 120 at various first rotation angles. That is, when the user brings the ID card 11 into close contact with the authentication surface 120 at various first rotation angles α, the switch 130E at the place of close contact is turned on. Therefore, the entry / exit management system 1E can determine the first rotation angle α by identifying the switch 130E in the ON state from the plurality of switches 130E.
The details of the entry / exit management system 1E of the sixth embodiment will be described below.

  FIG. 16 is a diagram showing an example of a schematic configuration of an entry / exit management system 1E in the sixth embodiment. As illustrated in FIG. 16, the entry / exit management system 1E includes an authentication device 10E, a control device 20, and a control target 30. In the following description, the same components as those in the above-described embodiment will be designated by the same reference numerals and the description thereof will be omitted.

The authentication device 10E includes an ID recognition unit 12 and an angle information detection unit 13E.
FIG. 17 is a front view of the authentication device 10E when the ID card 11 is brought into close contact with the authentication surface 120 according to the sixth embodiment.
The angle information detection unit 13E includes a plurality of switches 130E. In the present embodiment, the case where the number of the switches 130E is nine will be described, but the number is not limited to this.

  The switch 130E is turned on by the user pressing the ID card 11. When the switch 130E is turned on, the switch 130E outputs an on-state signal indicating that it is turned on to the angle determination unit 211 as rotation angle information.

  The angle determination unit 211 acquires the rotation angle information supplied from the switch 130E. The angle determination unit 211 determines the rotation angle of the ID card 11 from the predetermined position based on the rotation angle information supplied from the switch 130E. For example, the angle determination unit 211 determines the rotation angle from a predetermined position by determining which of the plurality of switches 130E has acquired the rotation angle information. That is, when the angle determination unit 211 acquires the rotation angle information from the switches 130E-1, 130E-2, 130E-4 to 130E-6, and 130E-9, the rotation angle of the ID card 11 from the predetermined position is Determined to be 0 °. When the angle determination unit 211 acquires the rotation angle information from the switches 130E-1, 130E-4 to 130E-6, and 130E-9, the angle determination unit 211 determines that the rotation angle of the ID card 11 from the predetermined position is 30 °. To do.

  The method of determining the setting mode and the flow of processing of the entry / exit management system 1E in the sixth embodiment are the same as those in the first embodiment, and thus the description thereof will be omitted.

  As described above, the room entrance / exit management system 1E is provided with the plurality of switches 130E on the authentication surface 120 of the authentication device 10E, and determines which of the plurality of switches 130E is in the on state by performing a predetermined operation. The rotation angle of the ID card 11 from the position is determined. Then, the entry / exit management system 1E determines the setting mode of the entry / exit management system 1E based on the rotation angle of the ID card 11 from the determined predetermined position. Therefore, when the entrance / exit management system 1E is moved to various setting modes such as a warning mode, the user holds the ID card 11 over the authentication device 10E and sets the ID at a rotation angle corresponding to the desired setting mode. By holding the card 11 over, the entry / exit management system 1E can be shifted to various setting modes. Therefore, since it is possible to shift to various setting modes without operating the switches corresponding to the setting modes provided in the authentication device 10E, it is possible to reduce the number of switches operated by the user. In addition, when a new setting mode is added, it is not necessary to add a switch corresponding to the mode to be added to the authentication device 10E, and therefore it is possible to prevent an increase in the housing size of the authentication device 10E due to the addition of the switch. it can.

(Seventh embodiment)
The entry / exit management system 1F of the seventh embodiment will be described below with reference to the drawings. In the room entry / exit management system 1F of the seventh embodiment, when the ID card 11F provided with a plurality of tags 110F is held over the authentication surface 120, the authentication device 10F stores the tag 110F at which position on the authentication surface 120. The rotation angle of the ID card 11F from the predetermined position is determined by detecting whether the read information is read. The rotation angle of the ID card 11F determined by the entry / exit management system 1F of the seventh embodiment is the first rotation angle α. That is, in the seventh embodiment, the user moves the entry / exit management system 1F to various setting modes by holding the ID card 11F over the authentication surface 120 at various first rotation angles α.
The details of the entry / exit management system 1F of the seventh embodiment will be described below.

  FIG. 18: is a figure which shows an example of schematic structure of the entrance / exit management system 1F in 7th Embodiment. As shown in FIG. 18, the entry / exit management system 1F includes an authentication device 10F, a control device 20, and a control target 30. In the following description, the same components as those in the above-described embodiment will be designated by the same reference numerals and the description thereof will be omitted.

The authentication device 10F includes an ID recognition unit 12 and an angle information detection unit 13F.
FIG. 19 is a schematic configuration diagram of the ID card 11F according to the seventh embodiment.
The ID card 11F includes a plurality of tags 110F (tags 110F-1 to 110F-4). In the present embodiment, the case where the number of tags 110F is four will be described, but the number is not limited to this.

  The angle information detection unit 13F identifies at which position on the authentication surface 120 the information stored in each tag 110F is read when the ID card 11F is held over the authentication surface 120. The angle information detection unit 13F outputs the identified information as rotation angle information to the angle determination unit 211.

  The angle determination unit 211 acquires the rotation angle information supplied from the angle information detection unit 13F. The angle determination unit 211 determines the rotation angle of the ID card 11F from the predetermined position based on the rotation angle information supplied from the angle information detection unit 13F.

  The method of determining the setting mode and the flow of processing of the entry / exit management system 1F in the seventh embodiment are the same as those in the first embodiment, and therefore the description thereof will be omitted.

  As described above, when the ID card 11F having the plurality of tags 110F is held over the authentication surface 120, the entry / exit management system 1F determines at which position on the authentication surface 120 the information stored in each tag 110F is stored. The rotation angle of the ID card 11F from the predetermined position is determined by identifying whether the ID card has been read. Then, the room entrance / exit management system 1F determines the setting mode of the room entrance / exit management system 1F based on the rotation angle of the ID card 11F from the determined predetermined position. Therefore, when moving the entrance / exit management system 1F to various setting modes such as a warning mode, the user holds the ID card 11F over the authentication device 10F, and the ID at the rotation angle corresponding to the desired setting mode. The room entry / exit management system 1F can be shifted to various setting modes by holding the card 11F over it. Therefore, since it is possible to shift to various setting modes without operating the switches corresponding to the setting modes provided in the authentication device 10F, it is possible to reduce the number of switches operated by the user. In addition, when a new setting mode is added, it is not necessary to add a switch corresponding to the mode to be added to the authentication device 10F, and thus it is possible to prevent an increase in the housing size of the authentication device 10F due to the addition of the switch. it can.

(Eighth Embodiment)
The entry / exit management system 1G of the eighth embodiment will be described below with reference to the drawings. The entrance / exit management system 1G of the eighth embodiment determines the rotation angle of the ID card 11 from a predetermined position by capturing an image of the ID card 11 and analyzing the captured image. The rotation angle of the ID card 11 determined by the room entry / exit management system 1G of the eighth embodiment is the first rotation angle α, the second rotation angle β, or the third rotation angle γ.
The details of the entry / exit management system 1G of the eighth embodiment will be described below.

  FIG. 20: is a figure which shows an example of schematic structure of the entrance / exit management system 1G in 8th Embodiment. As shown in FIG. 20, the entrance / exit management system 1G includes an authentication device 10G, a control device 20, and a control target 30. In the following description, the same components as those in the above-described embodiment will be designated by the same reference numerals and the description thereof will be omitted.

  The angle information detection unit 13G images the ID card 11 when the ID card 11 is held over the authentication surface 120. For example, the angle information detection unit 13G is a camera. The angle information detection unit 13G outputs the captured image of the ID card 11 to the angle determination unit 211 as rotation angle information. The angle information detection unit 13G may be provided in the authentication device 10G or may be provided in the ceiling near the authentication device 10G. That is, the angle information detection unit 13G is not particularly limited as long as it is provided at a position where an image of the appearance of the ID card 11 can be captured when the ID card 11 is held over the authentication surface 120.

  The angle determination unit 211 acquires the rotation angle information supplied from the angle information detection unit 13G. That is, the angle determination unit 211 determines the rotation angle of the ID card 11 from the predetermined position by analyzing the image of the ID card 11 supplied from the angle information detection unit 13G.

  The method of determining the setting mode and the flow of processing of the entry / exit management system 1G in the eighth embodiment are the same as those in the first embodiment, and thus the description thereof will be omitted.

  As described above, the entrance / exit management system 1G captures an image of the ID card 11 when the ID card 11 is held over the authentication surface 120, and analyzes the captured image, so that the ID card 11 from a predetermined position is analyzed. Determine the rotation angle of. Then, the room entry / exit management system 1G determines the setting mode of the room entry / exit management system 1G based on the rotation angle of the ID card 11 from the determined predetermined position. Therefore, when the entrance / exit management system 1G is shifted to various setting modes such as a warning mode, the user holds the ID card 11 over the authentication device 10G and sets the ID at the rotation angle corresponding to the desired setting mode. By holding the card 11 over, the room entry / exit management system 1G can be shifted to various setting modes. Therefore, since it is possible to shift to various setting modes without operating the switches corresponding to the setting modes provided in the authentication device 10G, it is possible to reduce the number of switches operated by the user. Further, when a new setting mode is added, it is not necessary to add a switch corresponding to the mode to be added to the authentication device 10G, and therefore it is possible to prevent an increase in the housing size of the authentication device 10G due to the addition of the switch. it can.

(Ninth Embodiment)
The entry / exit management system 1H of the ninth embodiment will be described below with reference to the drawings. The room entry / exit management system 1H of the ninth embodiment is provided with insertion ports 130H for a plurality of ID cards 11. The room entry / exit management system 1H determines the rotation angle of the ID card 11 from a predetermined position by discriminating the insertion slot into which the ID card 11 is inserted from the plurality of insertion slots. The rotation angle of the ID card 11 determined by the entry / exit management system 1H of the ninth embodiment is the first rotation angle α.
Hereinafter, details of the entry / exit management system 1H of the ninth embodiment will be described.

  FIG. 21 is a diagram showing an example of a schematic configuration of an entry / exit management system 1H in the ninth embodiment. As shown in FIG. 21, the entry / exit management system 1H includes an authentication device 10H, a control device 20, and a control target 30. In the following description, the same components as those in the above-described embodiment will be designated by the same reference numerals and the description thereof will be omitted.

The authentication device 10H includes an ID recognition unit 12 and an angle information detection unit 13H.
FIG. 22 is a front view of the authentication device 10H according to the ninth embodiment.
The angle information detection unit 13H can detect the information on the angle formed between the authentication surface 120 and the side surface of the ID card 11 when the ID card 11 is held by the side surface against the authentication surface 120. However, in this case, “over” means that the ID card 11 is inserted into the insertion port of the authentication surface 120. Therefore, the authentication surface 120 is provided with a plurality of insertion openings 130H (130H-1 to 130H-4) at predetermined angles. Then, the angle information detection unit 13H is provided for each insertion port and detects that the ID card 11 is inserted. When detecting that the ID card 11 is inserted, the angle information detection unit 13H outputs a control signal indicating the detection to the control unit 21 as rotation angle information. When the ID card 11 is held on the side of the authentication surface 120, the rotation angle of the ID card 11 in the horizontal direction of the authentication surface 120 is the rotation angle on the XY plane. Therefore, the angle formed by the authentication surface 120 and the side surface of the ID card 11 when the ID card 11 is held on the authentication surface 120 by the side surface is the first rotation angle α.

  The angle determination unit 211 acquires the rotation angle information supplied from the angle information detection unit 13H. That is, the angle determination unit 211 determines the rotation angle of the ID card 11 from the predetermined position by determining the angle information detection unit 13H that has supplied the control signal from the plurality of angle information detection units 13H.

  Since the method of determining the setting mode and the flow of processing of the entry / exit management system 1H in the ninth embodiment are the same as those in the first embodiment, the description thereof will be omitted.

  As described above, the entry / exit management system 1H is provided with the plurality of insertion openings 130H, and the insertion opening 130H in which the ID card 11 is inserted is discriminated from the plurality of insertion openings 130H, so that the entrance / exit management system 1H The rotation angle of the ID card 11 is determined. Then, the entry / exit management system 1H determines the setting mode of the entry / exit management system 1H based on the rotation angle of the ID card 11 from the determined predetermined position. Therefore, when the entrance / exit management system 1H is moved to various setting modes such as a warning mode, the user holds the ID card 11 over the authentication device 10H and sets the ID at the rotation angle corresponding to the desired setting mode. By holding the card 11 over, the entry / exit management system 1H can be shifted to various setting modes. Therefore, since it is possible to shift to various setting modes without operating the switches corresponding to each setting mode provided in the authentication device 10H, it is possible to reduce the number of switches operated by the user. Further, when a new setting mode is added, it is not necessary to add a switch corresponding to the mode to be added to the authentication device 10H, and thus it is possible to prevent an increase in the housing size of the authentication device 10H due to the addition of the switch. it can.

(Tenth Embodiment)
The entry / exit management system 1I of the tenth embodiment will be described below with reference to the drawings. The room entrance / exit management system 1I of the tenth embodiment includes a dial type angular information detection unit 13I that is rotatable in the circumferential direction. The entrance / exit management system 1I determines the rotation angle of the ID card 11 from a predetermined position based on the angle at which the angle information detection unit 13I is rotated. The rotation angle of the ID card 11 determined by the room entry / exit management system 1I of the tenth embodiment is the first rotation angle α.
The details of the entry / exit management system 1I of the tenth embodiment will be described below.

  FIG. 23 is a diagram showing an example of a schematic configuration of a room entry / exit management system 1I according to the tenth embodiment. As shown in FIG. 23, the entrance / exit management system 1I includes an authentication device 10I, a control device 20, and a control target 30. In the following description, the same components as those in the above-described embodiment will be designated by the same reference numerals and the description thereof will be omitted.

The authentication device 10I includes an ID recognition unit 12 and an angle information detection unit 13I.
FIG. 24 is a schematic external view of the authentication device 10I according to the tenth embodiment.
The angle information detection unit 13I is a dial type and is rotatable in the circumferential direction. The user performs personal authentication by holding the ID card 11 over the authentication surface 120 and rotates the angle information detection unit 13I to a predetermined angle. The angle information detection unit 13I outputs a rotation signal corresponding to the angle rotated by the user to the angle determination unit 211 as rotation angle information.

  The angle determination unit 211 acquires the rotation angle information supplied from the angle information detection unit 13I. That is, the angle determination unit 211 determines the rotation angle of the ID card 11 from the predetermined position based on the rotation angle information of the angle information detection unit 13I.

  Since the method of determining the setting mode and the flow of processing of the entry / exit management system 1I in the tenth embodiment are the same as those in the first embodiment, description thereof will be omitted.

  As described above, the room entrance / exit management system 1I includes the dial-type angle information detection unit 13I that is rotatable in the circumferential direction. The entrance / exit management system 1I determines the rotation angle of the ID card 11 from a predetermined position based on the angle at which the angle information detection unit 13I is rotated. Then, the room entry / exit management system 1I determines the setting mode of the room entry / exit management system 1I based on the determined rotation angle of the ID card 11 from the predetermined position. Therefore, when the entrance / exit management system 1I is moved to various setting modes such as a warning mode, the user holds the ID card 11 over the authentication device 10I and sets the ID at the rotation angle corresponding to the desired setting mode. By holding the card 11 over, the entrance / exit management system 1I can be shifted to various setting modes. Therefore, since it is possible to shift to various setting modes without operating the switches corresponding to the setting modes provided in the authentication device 10I, the number of switches operated by the user can be reduced. Further, when a new setting mode is added, it is not necessary to add a switch corresponding to the mode to be added to the authentication device 10I, and therefore it is possible to prevent an increase in the housing size of the authentication device 10I due to the addition of the switch. it can.

(Eleventh Embodiment)
The entry / exit management system 1J of the eleventh embodiment will be described below with reference to the drawings. The entry / exit management system 1J of the eleventh embodiment is a dial type and is provided with an angle information detection unit 13I that is rotatable in the circumferential direction and one insertion port 130H. The entrance / exit management system 1J determines the rotation angle of the ID card 11 from a predetermined position based on the angle at which the angle information detection unit 13I is rotated. The rotation angle of the ID card 11 determined by the entry / exit management system 1J of the eleventh embodiment is the first rotation angle α.
The details of the entry / exit management system 1J of the eleventh embodiment will be described below.

  FIG. 25: is a figure which shows an example of schematic structure of the entrance / exit management system 1J in 11th Embodiment. As shown in FIG. 25, the entrance / exit management system 1J includes an authentication device 10J, a control device 20, and a control target 30. In the following description, the same components as those in the above-described embodiment will be designated by the same reference numerals and the description thereof will be omitted.

The authentication device 10J includes an ID recognition unit 12 and an angle information detection unit 13I.
FIG. 26 is a schematic external view of the authentication device 10J according to the eleventh embodiment.
The authentication surface 120 is provided with an insertion port 130H.
The user carries out personal authentication by covering the authentication surface 120 with the ID card 11 or inserting the ID card 11 into the insertion slot 130H. Also, the user inserts the card into the insertion slot 130H and rotates the angle information detection unit 13I at a predetermined angle. The angle information detection unit 13I outputs a rotation signal corresponding to the angle rotated by the user to the angle determination unit 211 as rotation angle information.

  The angle determination unit 211 acquires the rotation angle information supplied from the angle information detection unit 13I. That is, the angle determination unit 211 determines the rotation angle of the ID card 11 from the predetermined position based on the information about the rotation angle of the angle information detection unit 13I.

  Note that the method of determining the setting mode and the flow of processing of the entry / exit management system 1J in the eleventh embodiment are the same as in the first embodiment, so description thereof will be omitted.

  As described above, the room entry / exit management system 1J includes the dial-type angular information detection unit 13I that is rotatable in the circumferential direction. The entrance / exit management system 1J determines the rotation angle of the ID card 11 from a predetermined position based on the angle at which the angle information detection unit 13I is rotated. Then, the entry / exit management system 1J determines the setting mode of the entry / exit management system 1J based on the rotation angle of the ID card 11 from the determined predetermined position. Therefore, when the entrance / exit management system 1J is moved to various setting modes such as a warning mode, the user holds the ID card 11 over the authentication device 10J and sets the ID at the rotation angle corresponding to the desired setting mode. By holding the card 11 over, the entry / exit management system 1J can be shifted to various setting modes. Therefore, since it is possible to shift to various setting modes without operating the switches corresponding to the setting modes provided in the authentication device 10J, it is possible to reduce the number of switches operated by the user. Further, when a new setting mode is added, it is not necessary to add a switch corresponding to the mode to be added to the authentication device 10J, and thus it is possible to prevent an increase in the housing size of the authentication device 10J due to the addition of the switch. it can.

  In addition, in the above-described embodiment, the mode determination unit 213 may notify the user using the notification unit (not shown) when the determination result of the personal authentication supplied from the ID determination unit 212 is unsuccessful. Good. The notification unit is at least one of a speaker and a lighting unit.

  Further, in the above-described embodiment, the angle information detection unit 13 may have the function of the angle determination unit 211. In that case, the angle information detection unit 13 determines the rotation angle of the ID card 11 from the predetermined position based on the rotation angle information of the ID card 11, and outputs the determined rotation angle to the mode determination unit 213.

  The control device 20 in the above-described embodiment may be realized by a computer. In that case, the program for realizing this function may be recorded in a computer-readable recording medium, and the program recorded in this recording medium may be read by a computer system and executed. The “computer system” mentioned here includes an OS and hardware such as peripheral devices. Further, the “computer-readable recording medium” refers to a portable medium such as a flexible disk, a magneto-optical disk, a ROM, a CD-ROM, or a storage device such as a hard disk built in a computer system. Further, the "computer-readable recording medium" means to hold a program dynamically for a short time like a communication line when transmitting the program through a network such as the Internet or a communication line such as a telephone line. In this case, a volatile memory inside a computer system that serves as a server or a client in that case may hold a program for a certain period of time. Further, the program may be for realizing some of the functions described above, or may be one that can realize the functions described above in combination with a program already recorded in the computer system, It may be realized using a programmable logic device such as FPGA (Field Programmable Gate Array).

  Although the embodiments of the present invention have been described in detail above with reference to the drawings, the specific configuration is not limited to the above-described embodiments, and includes a design and the like within a range not departing from the gist of the present invention.

1 Entrance / Exit Management System 10 Authentication Device 11 ID Card 12 ID Recognition Unit 13 Angle Information Detection Unit 20 Control Device 21 Control Unit 22 Storage Unit 30 Control Target 211 Angle Determination Unit 212 ID Determination Unit 213 Mode Determination Unit 214 Control Target Control Unit

Claims (1)

An entrance / exit management system for controlling a controlled object using a predetermined card,
A reading device including an angle determining unit that determines a rotation angle of the card from a predetermined position;
Based on the rotation angle determined by the angle determination unit, a setting mode determination unit that determines various settings regarding the controlled object,
Equipped with
The control target includes one or more devices of the entrance / exit management system different from the reader.
A room entry / exit management system.

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