JP3861040B2 - Electric lock control device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an electric lock control device that controls locking and unlocking of an electric lock.
[0002]
[Prior art]
The conventional apparatus shown in FIG. 4 includes an electric lock 1, a controller 2 that controls locking and unlocking of the electric lock 1, and an operation panel 3 connected to the controller 2. The operation panel 3 includes: A fingerprint collation unit 4 and a password input unit 5 are provided.
When a finger is placed on the detection surface 4a of the fingerprint collation unit 4, the fingerprint collation unit 4 recognizes the fingerprint of the finger. Then, the recognized fingerprint is collated with a pre-registered fingerprint, and when the recognized fingerprint matches the registered fingerprint, the controller 2 locks or unlocks the electric lock 1. On the other hand, if the recognized fingerprint does not match the registered fingerprint, the fingerprint verification unit 4 determines that an error has occurred and keeps the electric lock 1 as it is.
Even when the fingerprint verification unit 4 cannot recognize the fingerprint, the electric lock 1 is kept as it is.
[0003]
If the fingerprint collation unit 4 is used, the electric lock 1 cannot be operated by anyone other than the person who registered the fingerprint. Therefore, the reliability is higher than that of the “password collation method” in which the electric lock 1 is operated by the personal identification number. Safety is obtained. That is, in the “password verification method”, the electric lock 1 can be unlocked and locked by a person other than the user if the input password is correct. For this reason, there is a possibility that the personal identification number may be stolen, and accordingly, this “personal identification number verification method” lacks reliability and security.
On the other hand, the “fingerprint collation method” can obtain high reliability and safety because there is no fear of theft.
[0004]
However, the fingerprint verification unit 4 may not be able to recognize the fingerprint when the user's fingerprint is thin. As described above, since the “fingerprint collation method” cannot be used for a user with a thin fingerprint, the “password collation method” is used. That is, a person with a low fingerprint authentication rate registers a several-digit password in the controller 2 in advance, and inputs the password from the password input unit 5 to unlock and lock the electric lock 1. I try to operate it.
[0005]
[Patent Document 1]
JP-A-9-147104 (pages 3 to 6)
[0006]
[Problems to be solved by the invention]
The above-mentioned conventional device uses the “PIN verification method” for those who have a low fingerprint recognition rate even though it adopts the “Fingerprint verification method”. There was a problem that the high reliability and safety of the “method” were impaired.
An object of the present invention is to provide an electric lock control device capable of maintaining high reliability and safety by the “fingerprint verification method” even when there is a person using the “password verification method”. It is.
[0007]
[Means for Solving the Problems]
A first invention includes a controller that controls an electric lock and a fingerprint collation unit connected to the controller, and the controller locks the electric lock when a fingerprint input to the fingerprint collation unit matches a registered fingerprint. In the electric lock control device that unlocks or locks, the password input unit is connected to the controller, the controller detects that the finger touches the fingerprint verification unit, and when the fingerprint cannot be recognized, When a personal identification number is input to the personal identification number input unit, the personal identification number is compared with a pre-stored registration number, and the electric lock is unlocked or locked only when they match.
[0008]
According to a second invention, in the first invention, a vibration mechanism is incorporated in the fingerprint collation unit, and the vibration mechanism operates according to the investigation status of the fingerprint collation unit to vibrate the fingerprint collation unit. Features.
[0009]
A third invention is characterized in that, in the first or second invention, a guide part is provided around the detection surface of the fingerprint collation unit, and a light emitting mechanism for causing the guide part to emit light is provided.
[0010]
According to a fourth aspect, in the third aspect, the light emitting mechanism has a plurality of light emission colors, and the plurality of light emission colors are changed according to an operation state.
[0011]
According to a fifth invention, in the first to fourth inventions, a plurality of fingerprints are registered in the fingerprint collation unit, and one or more fingerprints among the registered fingerprints are set as special identification fingerprints, When the special identification fingerprint is input to the fingerprint verification unit, a special identification signal is output.
[0012]
In a sixth aspect based on the first to fifth aspects, the controller is connected to the interphone master unit to which the interphone slave unit is connected, and the controller unlocks the electric lock according to the signal output from the interphone master unit. It is characterized by being configured to lock or lock.
[0013]
A seventh invention is characterized in that, in the first to sixth inventions, the collation level of the fingerprint collation unit is adjustable.
[0014]
An eighth invention is characterized in that, in the first to seventh inventions, the fingerprint collation unit emits a sound corresponding to an operation situation.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
1 to 3 show an embodiment of the present invention.
As shown in FIG. 1, a controller C is connected to the electric lock 6, and an operation panel 7 is connected to the controller C. The controller C controls the locking and unlocking of the electric lock 6 in response to a signal from the operation panel 7.
The controller C is connected to an interphone master unit 8. The electric lock 6 can be unlocked and locked by a signal from the intercom master unit 8.
Note that an interphone slave unit 9 is connected to the interphone master unit 8.
[0016]
As shown in FIG. 2, the operation panel 7 includes a fingerprint collation unit 10 and a personal identification number input unit 11.
The fingerprint verification unit 10 is provided with a guide portion 13 made of a transparent or translucent material around the detection surface 12, and a light emitting mechanism (not shown) is incorporated in the guide portion 13. And by making the guide part 13 shine by this light emitting mechanism, even when it is dark such as at night, the position on which the finger is placed can be known immediately.
The light emitting mechanism has a plurality of light emission colors so that the guide unit 13 can emit light in various colors.
[0017]
The fingerprint collation unit 10 incorporates a vibration mechanism (not shown). This vibration mechanism has an electric motor as a main component, and operates the electric motor to transmit vibration to the fingerprint verification unit 10.
Furthermore, the fingerprint collation unit 10 includes a storage unit, a recognition unit, and a processing unit. In the storage unit, a plurality of fingerprints can be registered, and the recognition unit compares the recognized fingerprint with the fingerprint registered in the storage unit to determine whether there is a match. to decide. Then, the processing unit outputs a predetermined signal to the controller C when the recognized fingerprints match. The controller C locks or unlocks the electric lock 6 according to the signal from this processing unit.
[0018]
On the other hand, if the recognized fingerprint does not match any registered fingerprint, the recognition unit determines that an error has occurred. In this case, a predetermined signal is not output from the processing unit, and the controller C keeps the electric lock 6 as it is.
[0019]
On the other hand, a person with a thin fingerprint, that is, a user with a low fingerprint collation rate uses the “password collation method”. That is, a several-digit password is registered in the storage unit in advance, and the password is input from the password input unit 11 to lock and unlock the electric lock 6. However, the finger is placed on the detection surface 12 of the fingerprint collation unit 10 before entering the password. When the finger is placed on the detection surface 12 of the fingerprint collation unit 10 in this way, the fingerprint collation unit 7 recognizes biometric information even if it cannot recognize the fingerprint. This biological information is a signal for detecting that a finger touches the detection surface 12, and is, for example, a change in current value or a change in temperature. However, any other signal may be used as long as it can detect biological information.
[0020]
After the biometric information is recognized as described above, when a personal identification number is input from the personal identification number input unit 11, it is determined whether or not the personal identification number matches a number registered in advance. Then, when the passwords match, the processing unit outputs a predetermined signal to the controller C as described above, and locks or unlocks the electric lock 1.
On the other hand, even if the entered personal identification number is correct, if the biometric information has not been inputted from the fingerprint collation unit 10 in advance, it is determined as an error, and the electric lock 1 is kept as it is.
Therefore, according to this embodiment, as much as biometric information is input, reliability and safety can be maintained higher than the conventional “password verification method” in which only the password is input.
[0021]
Further, when only the operation procedure of the “code number collation method” is viewed from the outside, it seems that the fingerprint collation is performed because the finger is placed on the detection surface 11 of the fingerprint collation unit 10. In other words, even though fingerprint collation is not performed, it cannot be judged from the outside at all, so that it is possible to make another person think that fingerprint collation is necessary. Thus, it is possible to make others think, so it is possible to maintain the high reliability and safety of the “fingerprint collation method” in which only the person who registered the fingerprint can unlock.
[0022]
FIG. 3 specifically shows a control flow when the electric lock 6 is unlocked.
First, in step 1, it is determined whether or not a setting key (see FIG. 2) has been pressed. If the setting key is pressed, the process proceeds to step 6 to switch to “PIN verification method”. However, if this setting key is not pressed, the process proceeds to step 2 and “fingerprint collation method” is selected.
[0023]
If the finger is placed on the detection surface 12 of the fingerprint collation unit 10 in step 2, the process proceeds to fingerprint collation (step 3). If the finger is not placed on the detection surface 12, the process returns to step 1.
If the fingerprint collated in step 3 is collated in step 4 and the fingerprint matches any registered fingerprint, the process proceeds to step 5; if the fingerprint does not match any registered fingerprint, An error occurs.
In step 5, it is determined whether or not the collated fingerprint is a special identification fingerprint. This special identification fingerprint is a fingerprint for notifying a person in the house of an emergency or a security company. For example, when a suspicious person is following you or you have to be unlocked by a burglar or the like, you need to notify the person at home without being noticed.
[0024]
As the special identification fingerprint, a fingerprint of a finger other than the finger normally used for fingerprint verification is used. For example, when the finger used normally is an index finger, the ring finger is registered as the special identification fingerprint. In the registered state as described above, if the collated fingerprint is the fingerprint of the index finger in step 5, it is determined as NO in step 5 and the electric lock 6 is unlocked. If the collated fingerprint is a ring finger fingerprint, it is determined as YES, and the fingerprint collation unit 10 outputs a special identification signal to the controller C. When the special identification signal is output in this way, the controller C sounds an alarm of the intercom master unit 8 to notify the person in the house of the emergency situation.
When the special identification signal is output, it may be automatically transmitted to the security company.
In this embodiment, when the fingerprint is recognized as a special identification fingerprint, a special identification signal is output and an alarm is sounded. However, the electric lock 6 may be unlocked together with the alarm.
[0025]
On the other hand, if the setting key is pressed in step 1 to switch to the “password verification method” and the finger is placed on the detection surface 12, YES is determined in step 6 and the process proceeds to step 7. If no finger is placed, the process returns to step 1.
When the biometric information is recognized in step 7 above, the process proceeds to step 8 where a personal identification number is input. Then, in step 9, it is determined whether or not the input personal identification number matches the registered personal identification number. If the entered passwords match, it is determined YES and the electric lock 6 is unlocked. However, if biometric information is not detected in step 7 or if a personal identification number is entered without entering biometric information, an error occurs, and the electric lock 6 remains unchanged. By utilizing the presence / absence of biometric information in this manner, the reliability and safety of the “fingerprint collation method” is maintained even in the case of the “password collation method”.
[0026]
In the above control flow, the setting key is pressed to switch to the “PIN verification method”. However, even if the fingerprint is not recognized in the “Fingerprint verification method”, the “PIN verification method” is automatically selected. You may make it switch to. In addition, when the fingerprint recognition results in an error a plurality of times, it may be switched to the “password verification method”.
[0027]
In this embodiment, when the fingerprint is recognized, when the recognized fingerprint matches the registered fingerprint, or when it is determined that there is an error, the vibration mechanism incorporated in the fingerprint verification unit 10 is operated to perform fingerprint verification. The unit 10 is vibrated. Thus, by vibrating the fingerprint collation unit 10, the user touching the detection surface 12 is made to recognize the input situation.
In addition, the guide collation unit 10 may be vibrated as described above, and at the same time, the guide unit 13 may be blinked or the emission color may be changed. In this way, even when the surrounding is dark, the user can be made to recognize the input situation.
Furthermore, you may make it sound with the said vibration and light emission. Furthermore, the operation state may be notified by a combination of vibration, light emission, and sound, or only one of vibration, light emission, and sound may be employed.
[0028]
As described above, the electric lock 6 is controlled by the controller C based on the signal from the operation panel 7, but the electric lock 6 can be locked or unlocked by the interphone master unit 8. Therefore, for example, when it is found that a visitor has come by the interphone slave unit 9, the electric lock 6 can be remotely operated by the interphone master unit 8 without going to the entrance.
[0029]
The fingerprint collation unit 10 can adjust the fingerprint collation level. Increasing the collation level improves reliability, but the collation rate decreases accordingly. Conversely, when the collation level is lowered, the collation rate is improved, but the reliability is lowered.
This collation level may be appropriately set according to the location where the electric lock 6 is used, the density of the user's fingerprint, and the like.
[0030]
【The invention's effect】
According to the first invention, since it is detected that a finger touches the fingerprint verification unit and the fingerprint is not recognized , only the password is input. High reliability and safety can be obtained compared to the “method”.
In addition, when inputting biometric information, since a finger is placed on the fingerprint verification unit, it is possible to make another person think that fingerprint verification is necessary. Therefore, even if the “ PIN verification method” is adopted, the high reliability and safety of the “Fingerprint verification method” can be maintained.
[0031]
According to the second aspect of the invention, since the fingerprint verification unit is vibrated according to the operation status of the fingerprint verification unit by the vibration mechanism, the user can be notified of the operation status even in the dark.
According to the third aspect of the invention, since the guide portion is caused to emit light by the light emitting mechanism, it is possible to immediately specify the position where the finger is placed even in the dark.
[0032]
According to the fourth invention, since the color of the light emitting mechanism is changed according to the operation state, the user can be notified visually of the operation status.
According to the fifth aspect of the invention, the controller is configured to output a special identification signal when the set special identification fingerprint is input to the fingerprint verification unit, so that the controller sounds an alarm in response to the special identification signal. If it is set to, an emergency can be communicated to the surroundings without being noticed by a suspicious person or the like.
[0033]
According to the sixth aspect of the invention, the electric lock can be unlocked or locked by the intercom master, so that the electric lock can be quickly operated in the case of a visitor or the like.
According to the seventh aspect, since the collation level of the fingerprint collation unit can be adjusted, even if a person with a thin fingerprint can use the “fingerprint collation method” by lowering the level.
[0034]
According to the eighth aspect of the invention, since the sound is generated according to the operation status of the fingerprint collation unit, the operation status can be easily understood by the user.
[Brief description of the drawings]
FIG. 1 is an overall view of an apparatus according to an embodiment.
FIG. 2 is an enlarged view of an operation panel 7;
FIG. 3 is a control flow.
FIG. 4 is an overall view of a conventional apparatus.
[Explanation of symbols]
C Controller 6 Electric lock 8 Interphone master unit 9 Interphone slave unit 10 Fingerprint verification unit 11 Security code input unit 12 Detection surface 13 Guide unit

Claims (8)

A controller for controlling the electric lock and a fingerprint collation unit connected to the controller are provided, and the controller unlocks or locks the electric lock when the fingerprint inputted to the fingerprint collation unit matches the registered fingerprint. in electric lock control device, to the controller connects the personal identification number input unit, with the controller detects that the finger has touched to the fingerprint verification unit, when not able to recognize fingerprints, to the password input unit When the personal identification number is inputted, the personal identification number is compared with a pre-stored registration number, and the electric lock is unlocked or locked only when they coincide with each other. 2. The electric lock control device according to claim 1, wherein a vibration mechanism is incorporated in the fingerprint collation unit, and the vibration mechanism operates according to an operation state of the fingerprint collation unit to vibrate the fingerprint collation unit. 3. The electric lock control device according to claim 1, wherein a guide portion is provided around a detection surface of the fingerprint collation unit, and a light emitting mechanism for emitting light from the guide portion is provided. 4. The electric lock control device according to claim 3, wherein the light emitting mechanism has a plurality of light emission colors, and changes the plurality of light emission colors according to an operation state. A plurality of fingerprints are registered in the fingerprint verification unit, and one or more fingerprints among the registered fingerprints are set as special identification fingerprints. When this special identification fingerprint is input to the fingerprint verification unit, The electric lock control device according to any one of claims 1 to 4, wherein an identification signal is output. The controller is connected to the interphone master unit to which the interphone slave unit is connected, and the controller is configured to unlock or lock the electric lock according to a signal output from the interphone master unit. The electric lock control device according to any one of 5. The electric lock control device according to any one of claims 1 to 6, wherein the collation level of the fingerprint collation unit is adjustable. The electric lock control device according to any one of claims 1 to 7, wherein the fingerprint verification unit is configured to emit a sound according to an operation state.

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