JP5461839B2 - Access control device - Google Patents

Description

The present invention relates to an access control device that unlocks or locks an electric lock by authentication using identification information stored in a card or the like and manages entry / exit information, and in particular, installed corresponding to a door equipped with an electric lock. The present invention relates to a possible stand-alone access control device.

Conventionally, in various facilities such as office buildings, in order to ensure the security, entering and leaving out management system to manage the entry and exit of people to the room has been used. The room access out management system, generally, a control device having a web server function arranged in the control room, etc., control panel, which is arranged in the vicinity of each room, the card reader is disposed in the vicinity of the door of each room , And electric locks arranged at each door.

When operating the system, identification information of users allowed to enter and exit each room is set in the access control device, and this identification information is uploaded to the control panel. When a user enters and leaves each room, when passed through the card, which records a self-identifying information to the card reader, the identification information read by the card reader is sent to the control panel, the collation of the identification information in the control panel Done. If the identification information matches, the user electric lock is unlocked it is possible to output retracted, when the identification information does not match, the electric lock is kept in the locked state of the user input withdrawal out is denied.

  The entry / exit management information can be referenced and viewed by accessing the web server from a client machine connected by Ethernet (R) or the like.

The entry / exit management system also has a clock function for generating time information of year / month / day / hour / hour / minute / second for management of date information of operation history and unlocking / locking management by time zone.

JP 2002-298182 A JP 2001-020574 A

  However, such a conventional entrance / exit management system is intended for large facilities with a large number of rooms for large office buildings and the like, and an access control device having a web function installed at the upper level. Data management of the control panels and card readers installed in each room via the network from the network, and it is expensive to install in a small facility with a relatively small number of rooms, and cannot be supported There is.

  Therefore, in order to support simple entry / exit management for small-scale facilities, a stand that adopts data management functions such as offline data transfer using portable memory devices in addition to conventional network data management. Alone type access control devices are considered.

  In offline data management using a portable memory device, information necessary for maintenance is stored in the portable memory device and connected to an access control device for maintenance.

  On the other hand, even in a stand-alone type access control device, as in the case of a conventional network-based entry / exit management system, the date / time / minute / second for the operation history date information and unlocking / locking management by time zone, etc. A clock function is provided to internally generate the time information.

  However, the installation of the time indicator is omitted due to space and other issues due to the demand for cost reduction and miniaturization of the device, and even if there is an error in the time information generated internally, it cannot be easily determined. . When operating in such a time lag state, the time included in the history information is shifted from the actual time, or the lock is released in an unintended time zone when unlocking and locking management is performed according to the time zone. Problems occur.

It is an object of the present invention to provide an access control device that can easily adjust by checking a shift in internal time information.

(Time registration and time information discharge )
The present invention is an access control device that is installed corresponding to a door provided with an electric lock, unlocks or locks the electric lock by authentication of identification information, and manages entry / exit information including time information,
A clock circuit unit for generating time information;
A memory device detection unit that authenticates whether or not the connected portable memory device is valid when detecting the connection of a removable portable memory device that stores predetermined set time information in advance;
When the time registration operation is detected, if the memory device detection unit detects the connection of the portable memory device and is authenticated as valid, it registers the set time information of the portable memory device in the clock circuit unit and A time registration unit for starting the operation;
When the time information writing operation is detected, if the memory device detection unit detects the connection of the portable memory device and is authenticated as valid, the current time information generated by the clock circuit unit can be read. A time information discharger for writing to the portable memory device;
It is provided with.

(Memory device authentication)
Here, the memory device detection unit compares the device identification information read from the portable memory device with the registered device identification information registered in the internal memory of the device and authenticates it as valid, and authenticates the clock circuit unit. Allow access to.

The memory device detection unit, when a match by comparing the portable from the memory device reads the device identification information encrypted by decryption, device information complexed with registered device identification information registered in the device internal memory You may authenticate that it is effective and allow access to a clock circuit part .

In addition, the memory device unit reads the first device identification information from the portable memory device and reads and decrypts the encrypted second device identification information, and the first device identification information and the decrypted second device identification information . It is also possible to authenticate that it is valid when they match and to permit access to the clock circuit unit .

According to the present invention, the following effects can be obtained.
(Time registration)
According to the present invention, when the use of the apparatus is started, predetermined set time information that arrives in the future, for example, a USB memory that is a portable memory device, for example, 12:00:00 on the current day is stored in advance. When a USB memory is inserted into the USB port of the device and a registration operation is performed using a time setting switch or the like in accordance with a time signal at noon, this registration operation is detected and the time of 12:00:00 on the USB memory is clocked. It is registered in the circuit unit, and the first time registration can be surely performed by a simple operation.

(Time information discharge)
According to the present invention, when a switch operation for writing time information is performed in accordance with an arbitrary time signal or the like with the USB memory inserted, this switch operation is detected and the time information of the clock circuit unit is written to the USB memory. The time information is then displayed, and the time information written by inserting the USB memory into a personal computer or the like is displayed. If the time difference is found in this way, for example, it is possible to cope with the correction of the time of the operation history information already acquired to the correct time.

(Time signal notification)
According to the present invention, it is determined that the time information generated by the clock circuit unit has reached a predetermined standard time set in advance for 24 hours per day, for example, 12:00 noon at 12 noon, and a time signal is output. Therefore, by comparing and listening to the time signal from the access control device and the time signal of the clock or broadcast, it is possible to easily and easily confirm the deviation of the time information generated internally.

(Simple adjustment)
According to the present invention, when correcting time information generated in the timepiece circuit unit, when the time adjustment switch operation is performed at an appropriate time signal timing, the switch operation is detected and the timepiece circuit is detected. The time difference of the current time information generated by the department is considered as a delay within 30 minutes or a progress of less than 30 minutes, and the time is adjusted to the time of 0 minutes and 0 seconds, so the internal time information difference is easily corrected. can do.

(Forced adjustment)
According to the present invention, when a time adjustment switch operation is performed in accordance with a predetermined standard time of 24 hours a day, for example, 12:00:00 on the current day, this switch operation is detected and the clock circuit unit detects the switch operation. Regardless of the time difference, the current time information generated is forcibly adjusted to the standard time of 12:00:00 on the current day, thereby maintaining the accuracy of the time information generated internally. can do.

(Memory device authentication)
According to the present invention, a USB memory used for registration and writing of time information can be accessed with a successful authentication that it is a management USB memory, and the time information can be changed by an illegal act using the USB memory. To prevent it.

Explanatory drawing which showed the external appearance of the access control apparatus by this invention Explanatory drawing which showed the front, cross section, and bottom face of the access control apparatus by this invention Explanatory drawing which removed the cover of FIG. 1 and showed the structure inside a main body The block diagram which showed the circuit structure of the access control apparatus by this invention Functional block diagram showing an embodiment of an access control device according to the present invention for performing time registration, time signal, time adjustment, and time writing The flowchart which showed the time management process in embodiment of FIG. The flowchart which showed the detail of the time registration process in step S2 of FIG. The flowchart which showed the detail of the simple time adjustment process in step S4 of FIG. The flowchart which showed the detail of the forced time adjustment process in step S5 of FIG. The flowchart which showed the detail of the time information discharge process in step S6 of FIG.

  FIG. 1 is an explanatory view showing the appearance of an access control apparatus according to the present invention. In FIG. 1, the access control device 10 is installed on a wall surface in the vicinity of a door corresponding to the door of each room provided with an electric lock.

The access control device 10 is provided with a contactless card reader 18 at the top of the cover 12, and the user information stored in the card is read by holding the contactless card held by the user over here, and unlocking the electric lock when the collation coincidence by comparison and collation with the user information registered in advance is obtained, and entering open the door, it locks the electric lock when it detects that the door is closed.

  Various displays and switches necessary for access control are arranged below the non-contact card reader unit 18. On the panel surface of the cover 12, a card reading status indicator lamp 20, an electric lock unlock indicator lamp 22, a door lock indicator lamp 24, a warning indicator lamp 26, a fire indicator lamp 32, an alarm indicator lamp 34, and a fault indicator lamp 36 are displayed. A warning mode setting switch 28, a warning mode canceling switch 30, and a recovery switch 38 are provided as operation switches.

  The card reading status indicator 20 reads the card and lights in green if it is a valid card, and flashes red if it is invalid. The electric unlocking indicator light 22 is turned on when the electric lock is unlocked. The door lock indicator lamp 24 displays the state when an intruder is detected by a human sensor or a shutter sensor connected to the access control device 10 or when the door lock is not completed. The warning indicator lamp 26 displays a warning state of a crime prevention facility (security sensor) connected to the access control device 10.

  The alarm mode setting switch 28 is operated when the security sensor is shifted to the alarm mode.

  The alarm mode release switch 30 is operated when canceling the alarm mode of the security sensor.

  The fire indicator light 32 is turned on when a fire signal is received from the fire receiver as a representative fire signal. The alarm indicator lamp 34 is turned on when various alarm conditions such as an intruder, a fire, and contact information occur. The failure indicator lamp 36 is turned on when a failure occurs in the device itself, the system state or the communication state. The recovery switch 38 is operated to stop the alarm and release the alarm state latch when an alarm state such as a fire, warning or failure occurs.

  In addition, the access control device 10 incorporates, for example, an RTC clock generator as a clock circuit unit that generates time information of year, month, day, hour, minute, and second, but the cover 12 is provided with a display for displaying the internal time. Not.

  FIG. 2 is an explanatory view showing the front, cross-section, and bottom of the access control apparatus 10 shown in FIG. That is, FIG. 2A shows the front, FIG. 2B shows the cross section, and FIG. 2C shows the bottom.

In FIG. 2, the access control device 10 according to this embodiment includes a main body 14 and a cover 12 that is detachably provided on the front side of the main body 14. Cylinder lock 16 is provided on the bottom of the body 14, by unlocking the cylinder lock 16 with the key, it is possible to remove the cover 12 from the body 14.

FIG. 3 is an explanatory view showing the structure inside the main body with the cover of FIG. 1 removed. In FIG. 3, a circuit board 42 is disposed inside the main body 14 of the access control apparatus 10, and a USB memory removal switch 50, a history data writing switch 52, equipment as operation switches below the circuit board 42. A data read switch 54 and a time setting switch 56 are provided. Further, the circuit board 42 is provided with a buzzer 48 and a tamper switch 46 for detecting the opening of the cover 12. On the right side on the circuit board 42 USB connector 60 are disposed is a portable memory device, here a USB memory for data management offline connecting from the right side of the body 14, entering and leaving out history information, use Person information, facility management information, etc. are read and written.

  As shown by a broken line on the left side of the circuit board 42, a LAN connector can be connected as necessary, and the access control device 10 of the present invention can be connected to a host device via a network as needed. .

  A CF card (compact flash (R) card) 64 known as a memory card is arranged below the USB connector 60, and an OS image necessary for the operation of the access control apparatus 10 and various necessary data are stored in advance. After being stored, it is set on the circuit board 42 of the main body 14 as shown in the figure so that the control processing of the access control device can be performed.

As is apparent from the structure of the access control device 10 shown in FIGS. 2 and 3, the USB connector 60 for inserting and connecting the USB memory is provided on the circuit board 42 in the main body 14 closed by the cover 12. , in order to connect the USB memory to the USB connector 60 must remove the cover 12 by unlocking the cylinder lock 16, a person other than the parties does not have the key by locking by such a cylinder lock 16 is illegal. The USB memory is used to prevent data acquisition, browsing, falsification, and time setting of the access control apparatus 10 from being performed.

  Further, since the USB connector 60 is provided near the right side surface of the main body 14 and the USB memory is connected from the right side surface of the main body 14, the USB memory is placed outside the right side surface of the main body 14 when the USB memory is inserted. Connected to protrude. As a result, the cover 12 cannot be closed to the main body 14 unless the USB memory is removed, thereby preventing the USB memory from being forgotten.

  FIG. 4 is a block diagram showing a circuit configuration of the access control apparatus according to the present invention. In FIG. 4, the access control apparatus 10 is provided with a CPU 70, and a real-time clock circuit unit (RTC circuit unit) 72 that functions as a clock circuit unit is provided for the CPU 70.

  The real-time clock circuit unit 72 is also called a calendar clock, generates time data of year / month / day / hour / minute / second, stores history information with time information added thereto, and unlocks the electric lock 108 corresponding to a set time zone. You can control it. In the following description, “yyyy year mm month dd day HH hour MM minute SS second” is used as an abstract expression of the time information generated by the real time clock generator 72.

The real-time clock circuit unit 72 is backed up by a button-type battery, a super capacitor, or the like, so that the clock function can operate even when the access control device 10 is turned off.

An external card reader 82 can be attached to the CPU 70 via the RS485 interface 80. Further, a built-in card reader module 84 is provided for the CPU 70. By holding a contactless card, the internal card reader module 84 acquires user information of the card held by the user, and the electric lock 108 It can be controlled, such as unlocking and locking.

USB interface 86 permits data processing room access out information based on the authentication process reveals the USB memory 11 in respect connection of the USB memory 11 for the USB connector 60, after explanation.

  For the external bus interface 71 of the CPU 70, a nonvolatile memory 74 using a flash memory, an SDRAM 76 used as a volatile memory, an SRAM 78 used as a temporary backup memory, a CF card interface 88, a LAN controller 90, and a status display And a control circuit unit 94 for locking and unlocking the electric lock and the like.

  The CF card interface 88 executes an input / output interface for connection of the CF card 64 as shown in FIG. The LAN controller 90 is connected to the network 92 as necessary, and enables, for example, acquisition or browsing of data managed by the access control apparatus 10 by a higher-level web server.

Is the control circuit section 94 is provided an operation unit 96, wherein the outer switch 50 preparative USB memory, history data manual Death switch 52, equipment data read switch 54, the time setting switch 56 is provided. An indicator lamp 98, a buzzer 100, and a tamper switch 46 are provided for the control circuit unit 94.

  Further, an electric lock driving circuit 106 is provided for the control circuit unit 94, and controls the locking and unlocking of the electric lock 108 of the door installed in the vicinity. Furthermore, a contact signal input / output circuit unit 110 is provided for the control circuit unit 94, and a transfer output to the external device 112 and a transfer input from the external device 112 are performed by the input / output of the contact signal. As the external device 112, for example, a fire detection contact signal by a fire alarm facility or an intruder detection contact signal by a crime prevention monitoring system is input.

  FIG. 5 is a functional block diagram showing an embodiment of an access control apparatus according to the present invention that performs time registration, time signal, time adjustment, and time discharge.

In FIG. 5, the CPU 70 provided in the access control device 10 has functions that are realized by executing the program as a time registration unit 114, USB memory detection unit 115, entry / exit control processing unit 116, time signal notification unit 118, simple time setting. A unit 120, a forced time adjustment unit 122, and a time information discharge unit 124 are provided. Since the USB memory 115 is related to the time registration unit 114 and the time information discharge unit 124 for time processing, the USB memory 115 is connected by a line.

  The real-time clock circuit unit 72 provided for the CPU 70 generates internal time information 128 corresponding to the year, month, date, and time, and the CPU 70 can acquire the internal time information 128 as necessary.

  The time setting switch 56 and the equipment data reading switch 54 are basically used for time registration and time adjustment operations in the present embodiment. The CF card 64 connected to the CPU 70 stores in advance a management serial ID 126 used for authentication of the USB memory 11. Further, an information management file 130 is provided for the CPU 70 using the SRAM 78 and the CF card 64, and user information and facility setting information are stored in addition to the operation history information 132.

On the other hand, the USB memory 11 is set with a unique serial ID134 in USB memory, in the present embodiment, by utilizing the serial ID134 of the USB memory 11, USB memory provided in CPU70 access control device 10 The detection unit 115 executes authentication processing to prevent unauthorized data access.

  In the USB memory 11, set time information 136 is stored in advance by using a personal computer for support at the time of time registration. As this set time information 136, if it is desired to register the time at a future date and time, for example, noon on that day, “12:00:00” on that day is registered in the morning.

  Further, the discharge time information 138 read out by the process of the time information discharge unit 124 provided in the CPU 70 is stored in the USB memory 11 at that time.

  Here, the function of each unit provided in the CPU 70 will be described as follows. First, the time registering unit 114 inserts and connects the USB memory 11 in which the set time information 136 is stored in advance to the USB connector 60 of the main body 14 with the cover 12 shown in FIG. When the time setting switch 56 is operated simultaneously with the noon time signal while listening to the time signal provided by the telephone service, the time setting information 136 stored in the USB memory 11 is stored when the operation of the time setting switch 56 is detected. By reading and registering the set time information 136 in the real-time clock circuit unit 72 and starting the clock operation, the time information of the access control device 10 is set to the correct time information.

  Regarding the detection of the USB memory 11 at the time of registration, the USB memory detection unit 115 detects the insertion of the USB memory 11 and at the same time executes an authentication process as to whether or not the correct USB memory 11 is connected. It is determined that the USB memory 11 is valid, and the time registration unit 114 executes a registration process using the set time information 136 of the USB memory 11.

  As the authentication process of the USB memory 11 by the USB memory detection unit 115, any of the following three methods can be performed.

  (1) The serial ID 134 of the USB memory 11 determined for management is registered in the CF card 64 in advance as the management serial ID 126, and the serial ID 134 read from the USB memory when the USB memory 11 is connected is the CF card 64. The authentication succeeds when the management serial ID 128 registered in the above matches.

  (2) The serial ID 134 of the USB memory 11 determined for management is registered in advance as the management serial ID 126 in the CF card 64, and the encrypted serial ID is read from the USB memory 11 when the USB memory 11 is connected. When the ID is decrypted and compared with the management serial ID 126 registered in the CF card 64, the authentication is successful.

  (3) The serial ID for management 126 is not registered in the CF card 64, and the serial ID 134 is read from the USB memory 11 when the USB memory 11 is connected, and the encrypted serial ID stored in the USB memory 11 is read in advance. When it is decrypted and compared with each other, the authentication is successful.

When the correct time set by the time registration unit 114 is performed on the real time clock circuit 72, the correct look like internal time information 128 is generated, whereby the access control device 10 is operated by the control processor unit 116 exits Nyushisa Will start.

The entry / exit control processing unit 116 collates the card identification information obtained by reading the card held by the user with the user identification information stored in the information management file 130, and a matching match is obtained. the electric lock and unlock and, to allow the entry of the user, the user is based on the opening of detection and subsequent closing and out of the door when you enter a room by opening the door, again to lock the electric lock. At this time, the user's room entry time is stored in the operation history information 132 so that the status of the resident user can be managed based on this.

The unlocking of the electric lock by time of day, when the locking management is set, the electric lock is unlocked when reaching the internal time information 128 that is generated by the real time clock circuit 72 to the unlocking setting time, Thereafter, when the lock setting time is reached, the electric lock is locked.

  In addition, the time signal notifying unit 118 provided in the CPU 70 sets the internal time information 128 generated by the real time clock circuit unit 72 to a predetermined standard time predetermined for 24 hours per day, for example, “12:00:00”. It is determined that the time has been reached, and a time signal is output by the sound of the buzzer 48.

  By such a time signal output by the time signal notification unit 118, even if the access control device 10 is not provided with a time indicator, it goes near the access control device 10 at noon when the time signal is output, and the access control device 10 reports the time signal. By looking at the clock only when the time is issued, it is possible to easily know whether the internal time information in the access control apparatus 10 matches the actual time or how much it deviates. The predetermined standard time can be changed by inserting and connecting the USB memory 11 storing the standard time to the access control device 10 and reading it.

  When the time signal output by the function of the time signal notifying unit 118 is heard and the deviation of the internal time information 128 is known, the time adjustment operation is performed as necessary. In the present embodiment, two time adjustments, that is, simple adjustment by the simple time adjustment unit 120 and forced adjustment by the forced time adjustment unit 122 can be performed.

  As shown in FIG. 3, the simple time adjustment unit 120 enters a time adjustment standby state by, for example, pressing and holding the time setting switch 56 provided on the lower side of the main body 14 with the cover 12 removed. When the time setting switch 56 is operated, the time information can be simply adjusted.

  When the simple time setting unit 120 detects the operation of the time setting switch 56 in a standby state of simple time setting by a long press operation of the time setting switch 56, the current time information generated by the real-time clock circuit unit 72 at that time is detected. The shift is regarded as a delay within 30 minutes or a progress of less than 30 minutes, and the time is adjusted to the time of 0 minute 0 second.

For example, if the operation is performed when the internal time information 128 of the real-time clock circuit unit 72 is “11:29:59”, the time is set to “11:00:00”. Further, when the time information 128 performs an operation to "30 minutes 00 seconds at 11" is set to "1 2 00: 00".

  As described above, in the simple time setting unit 120, the time can be adjusted to “00:00” of each time if the deviation from the actual time is within 30 minutes.

  Here, when the deviation from the actual time is 30 minutes or more, the simple time adjustment results in a deviation of 1 hour. For example, if the internal time information is “11:45:00”, which is 45 minutes ahead of the actual time “11:00:00”, a simple time adjustment will be considered as a time lag within 30 minutes. Therefore, the time is set to “12:00:00”, and a time difference of 1 hour occurs. Therefore, for the time lag exceeding 30 minutes, the next forced time adjustment is performed.

  As shown in FIG. 3, when the time setting switch 56 and the equipment data reading switch 54 provided on the lower side of the main body 14 are simultaneously operated with the cover 12 removed, the forced time adjustment unit 122 enters a time adjustment standby state. When the time setting switch 56 is operated in this state, the time adjustment of the time information can be performed.

  In this forced time adjustment, the time information 128 generated by the real-time clock circuit unit 72 is forcibly set to “12:00:00” on that day, which is defined as the standard time. Thereby, even when the time lag with respect to the actual time reaches 30 minutes or more, the time can be adjusted to the correct actual time.

  When the time is adjusted by the simple time adjustment unit and the forced time adjustment unit, the time adjustment is saved as a history, and the adjustment time width at that time and the time information before and after the adjustment are also stored. Thereby, when writing the time adjustment history into the portable memory device and confirming the history with a personal computer or the like, it is possible to grasp the exact generation time of various history information generated before the time adjustment.

  Further, since the degree of deviation from the actual time is known when the time adjustment is executed by the simple time adjustment unit 120 or the forced time adjustment unit 122, the time difference of the actual time is utilized by using the sound output of the buzzer 48 at that time. It is made to report whether or not this has occurred.

  For example, if the time is within 15 minutes, it will sound “beep”, if it is 15-30 minutes, it will sound “beep”, and if it is 30 minutes to 45 minutes, it will sound “beep”. If the time difference is 45 minutes to 60 minutes, it will sound “beep”. If the time difference exceeds one hour, the continuous sound “peep” may be used. Of course, the relationship between the deviation time and the sound output by the buzzer can be determined as needed.

  By using the buzzer sound output indicating the time lag during simple time adjustment or forced time adjustment, it is possible to easily grasp how much time lag has occurred and perform simple time adjustment or forced time adjustment. Can be determined.

  When the time information discharge unit 124 operates the history data writing switch 52 provided in the main body 14 in FIG. 3 in a state where the USB memory 11 is inserted and connected to the access control device 10, this switch operation is determined. The time information 128 of the real-time clock circuit unit 72 generated at that time is ejected to the USB memory 11 and written as time information 138.

  If the discharge time information 138 can be written to the USB memory 11 as described above, the USB memory 11 is removed and set in a management personal computer, whereby the discharge time information 138 stored in the USB memory 11 is displayed. It can be displayed above, and by comparing the actual time at the time of discharging with the time of the USB memory, it is possible to easily know how much time deviation actually occurs.

  By recognizing the time lag from the actual time by looking at the time information discharged to the USB memory 11, it can be seen that time lag has occurred in the time information of the operation history information acquired using the USB memory 11 until then. Thus, it becomes possible to correct the operation history information to the correct generation time using the time difference recognized from the discharge time information 138.

  Further, when the discharge time information 138 discharged to the USB memory 11 is seen and the deviation from the actual time is too large, the set time information 136 is registered in the USB memory 11 again and inserted into the access control device 10. The correct time is set again for the real-time clock circuit unit 72 by the registration operation by the time registration unit 114.

  FIG. 6 is a flowchart showing time management processing in the embodiment of FIG. In FIG. 6, in the time management process, after the initialization process is performed in step S1 in accordance with the operation by turning on the power of the access control apparatus 10, the time information 128 of the real-time clock circuit unit 72 is adjusted to the correct real time in step S2. Time registration processing by the time registration unit 114 is executed.

  When the time registration process is completed, the access control apparatus 10 enters an operating state, and every time the time information 128 reaches “00:00” at each time in step S3, a time signal notification process for outputting sound indicating the time from the buzzer. Is executed.

  During operation, the simple time adjustment process in step S4 and the forced time adjustment process in step S5 are executed as necessary according to the degree of time deviation based on the time notification process in step S3. The If necessary in step S6, a time information discharge process for checking the time information generated by the real time clock circuit unit 72 by discharging it to the USB memory 11 is executed.

  FIG. 7 is a flowchart showing details of the time registration process in step S2 of FIG. In FIG. 7, the time registration process checks whether or not the insertion of the USB memory 11 is detected in step S11. If the insertion is detected, the process proceeds to step S12 to execute the USB memory authentication process. This authentication process may take any one of the methods shown in the above (1) to (3).

  If it is determined in step S13 that the authentication has succeeded as a result of the USB memory authentication process, the process proceeds to step S14, where the set time information 136 is read from the USB memory 11 and stored in, for example, the SDRAM 76 used as a work memory.

  Since the future set time information 136 for performing time registration is stored in the USB memory 11, when the time of the set time information 136, for example, when the time setting switch 56 is turned on at noon on the current day, in step S15 When the time setting switch 56 is turned on, the time setting information read from the USB memory 11 stored in the work memory in step S16 is set to the internal time of the real-time clock circuit unit 72. Information 128 is timed.

Subsequently, when determining the operation of the external switch 50 preparative USB memory operated when detaching the USB memory 11 in step S17, and ends the series of time registration process and returns to the main routine of FIG.

  On the other hand, if the authentication of the USB memory 11 is unsuccessful in step S13, it means that the USB memory other than the USB memory 11 held by the administrator is inserted and accessed by an unauthorized person. In S18, an error alarm is issued and the time setting process is terminated.

  FIG. 8 is a flowchart showing details of the simple time adjustment process in step S4 of FIG. In FIG. 8, in the time adjustment process, when it is determined in step S21 that the time setting switch 56 is pressed and held, the process shifts to a simple adjustment standby state in step S22.

  When the time setting switch 56 is operated to determine that the switch is turned on in this state, the current time “HH hour MM minute SS second” of the real-time clock circuit unit 72 is acquired in step S24. In step S25, the time information of the real-time clock circuit unit 72 is adjusted to “HH hour 00 minute 00 second” considering that the time difference is less than 30 minutes from the actual time.

  Subsequently, in step S26, a time lag between the time “HH hour MM minute SS second” acquired in step S24 and “HH hour 00 minute 00 second” after adjustment in step S25 is obtained and calculated in step S27. A buzzer sounds according to the time difference. In this case, for example, because the time is within 30 minutes, the buzzer will sound “beep” if the time is less than 15 minutes, and the buzzer will be “beep” if the time is 15 to 30 minutes. It rings.

  As described above, in the simple time adjustment of FIG. 8, the time difference of the real time clock circuit unit 72 can be adjusted to the correct real time when it is within 30 minutes of the real time.

FIG. 9 is a flowchart showing details of the forced time adjustment process in step S5 of FIG. 9, the forced time-setting process, performed Simultaneously press length operation time setting switch 56 and another switch eg facility data read Komisu switch 54 at step S31, when it is judged, the process proceeds to step S32, the forced adjustment It will be in a standby state.

  In this state, for example, when the time setting switch 56 is operated in accordance with the time signal of noon on the current day, which is the forced time adjustment time, the current time information “HH hour MM minute SS second” of the real time clock circuit unit 72 is obtained in step S34. After the acquisition, the real-time clock circuit unit 72 is forcibly adjusted at “12:00:00” on the day set as the standard time in step S35, and coincides with the actual time.

  Subsequently, in step S36, a time lag between the time information of the real-time clock circuit unit 72 before adjustment acquired in step S34 and the standard time is obtained, and a buzzer is sounded according to the time lag in step S35 to determine how much time. Informs whether a deviation has occurred.

  FIG. 10 is a flowchart showing details of the time information discharge process in step S6 of FIG. In the time discharge process of FIG. 10, when it is determined in step S11 that the insertion of the USB memory 11 has been detected, the process proceeds to step S42, where the USB memory 11 authentication process is executed.

  If it is determined in step S43 that authentication has succeeded as a result of this authentication process, the process proceeds to step S44. If it is determined that the history data write switch 52 is switched on, the current real-time clock circuit unit 72 at that time is stored in the USB memory 11 in step S45. The time information is discharged and written as time information 138.

Then when it is determined the switch-on of the outer switch 50 preparative USB memory in step S46, and ends the series of time discharge process. If the authentication of the USB memory 11 is unsuccessful in step S43, an error alarm is issued in step S47, and the time ejection process is skipped.

  In the above embodiment, the USB memory is taken as an example of the portable memory device. However, any other suitable memory device can be used as long as it is a portable memory device.

  In the above embodiment, the buzzer sound is used for the time signal and the time difference notification. However, in accordance with the buzzer sound or separately from the buzzer sound, an appropriate display provided on the cover 12 of FIG. You may make it alert | report by the display using a lamp | ramp.

  Further, in the above embodiment, when processing such as time registration, simple time adjustment, forced time adjustment, or time information discharge is performed, each process is included in the operation history information 132 of the information management file 130 as an event. Stored with time information.

  Further, the present invention is not necessarily limited to only an apparatus that does not include a time display unit. For example, reading time information from a portable memory device and setting the time can be applied even to an apparatus having a time display unit, and time registration work can be performed with a simple operation.

  Further, the identification information of each user is not limited to the identification information stored in the card, but may be stored in a mobile phone or the like, or information that can be identified by the user by a specific part of the human body.

Further, the present invention includes appropriate modifications that do not impair the object and advantages thereof, and is not limited by the numerical values shown in the above embodiments.

10: Access Control apparatus 11: USB memory 12: cover 14: body 16: cylinder lock 18: non-contact card reader unit 50: USB Memory preparative outside switch 60: USB connector 70: CPU
72: Real-time clock circuit unit 74: Non-volatile memory 94: Control circuit unit 106: Electric lock drive circuit 108: Electric lock 114: Time registration unit 115: USB memory detection unit 116: Entrance / exit control processing unit 118: Time signal notification unit 120: Simple time adjustment unit 122: Forced time adjustment unit 124: Time information discharge unit 126: Management serial ID
128: Internal time information 130: File 134: Serial ID
136: Set time information

Claims (4)

In an access control device installed corresponding to a door provided with an electric lock, unlocking or locking the electric lock by authentication of identification information, and managing entry / exit information including time information,
A clock circuit unit for generating time information;
A memory device detection unit for authenticating whether or not the connected portable memory device is valid when detecting the connection of a removable portable memory device that stores predetermined set time information in advance;
When a time registration operation is detected, if the memory device detection unit detects the connection of the portable memory device and is authenticated as valid, the setting time information of the portable memory device is sent to the clock circuit unit. A time registration unit for registering and starting clock operation;
When the time information writing operation is detected, when the memory device detection unit detects the connection of the portable memory device and is authenticated, the current time information generated by the clock circuit unit is displayed. A time information discharger that reads and writes to the portable memory device;
An access control device comprising:
In the access control apparatus according to claim 1, wherein said memory device detection unit, when a match by comparing the registration device identification information registered in the device identification information and the device internal memory read from the portable memory device An access control device that authenticates that it is valid and allows access to the timepiece circuit unit .
2. The access control device according to claim 1 , wherein the memory device detection unit reads and decrypts encrypted device identification information from the portable memory device, and registers registered device identification information registered in the internal memory of the device. An access control apparatus characterized in that, when the combined device information is compared and authenticated, it is authenticated as valid and access to the clock circuit unit is permitted.
2. The access control device according to claim 1 , wherein the memory device unit reads first device identification information from the portable memory device and reads and decrypts the encrypted second device identification information. An access control device, wherein device identification information and the decrypted second device identification information are compared and authenticated as valid, and access to the clock circuit unit is permitted.

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