JP2001295518A - Door lock device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a door lock device capable of preventing the mulfunction of an informing means and, at the same time, being applied without making any complicated operation for various doors having different door keys. SOLUTION: A first door lock terminal section 11a consisting of first driving signal output terminal Dv1, first locking detection terminal Ls1 and first unlocking detection terminal Us1 is provided on a micro-computer 11. A second door lock terminal section 11b consisting of second driving signal output terminal Dv2, second locking detection terminal Ls2 and second unlocking detection terminal Us2 is provided on the micro-computer 11. The micro-computer 11 detects locking and unlocking conditions of door locks 14 and 15 by the detection terminals Ls1, Us1, Ls2 and Us2 and, at the same time, decision is made from the detection result whether or not the locks 14 and 15 are connected to the door lock terminal sections 11a and 11b.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a door lock device used, for example, at the entrance of a house.

[0002]

2. Description of the Related Art Generally, door locks for houses and vehicles are locked and unlocked by inserting a mechanical key into a keyhole provided in the door and turning the key.

However, in recent years, an electronic key system using an ID code has been proposed for the purpose of improving operability and security. This electronic key system has a predetermined I
It comprises an electronic key on which a D code is recorded, and a door lock device for reading the ID code. As such an electronic key system, there is a system in which an ID code is read by a door lock device by contacting an electronic key with a card reader provided in the door lock device. In some cases, a transmission button provided on the electronic key is pressed to transmit a wireless signal including an ID code from the electronic key to the door lock device, and read the ID code into the door lock device. In each case, the door lock device compares the read ID code with a preset ID code. When the ID codes coincide with each other, a drive signal for driving the door lock driving means is output, and the door lock is locked and unlocked. That is, the door lock is unlocked and unlocked by an operation using the electronic key.

[0004] Conventionally, such a door lock device is provided with a detection unit for detecting the locked / unlocked state of the door lock.
The detection unit detects whether or not the door lock has been driven based on the operation of the electronic key. Also,
The door lock device is connected to a notification unit including a buzzer, a display unit, and the like. Then, the door lock device operates the notification means when the door lock is unlocked or unlocked based on the operation of the electronic key, or when the door lock is not unlocked even though the electronic key is operated. And let them know. Thus, the owner can easily recognize the locked / unlocked state of the door lock after operating the electronic key, and the security level of the door lock is increased.

[0005] Further, depending on the type of the door, the door lock may be set to one.
Some have only one, and some have two or more door locks. Therefore, the door lock device can lock and unlock a plurality of door locks so that it can be applied to these various doors. That is, the door lock device is provided with a plurality of door lock connection units each including a drive signal output unit that outputs a drive signal to the door lock and a detection unit that can detect the locked / unlocked state of the door lock. .

[0006]

However, when such a door lock device is used, for example, for a door having only one door lock, only one door lock connection portion is connected to the door lock, and the other door locks are connected. The lock connection is not connected to the door lock. For this reason, although the detection unit belonging to the door lock connection unit connected to the door lock detects the locked / unlocked state of the door lock, the other detection units cannot detect the locked / unlocked state. Therefore, in such a case,
Since the notification means malfunctions, the notification means cannot be operated accurately based on the detection result of each detection unit.

Therefore, conventionally, a dip switch or the like is provided in the door lock device, and by setting this switch in advance, a door lock connecting portion connected to the door lock can be specified. Then, the notifying means is operated based on only the detection result of the detection unit belonging to the door lock connection unit connected to the door lock.

[0008] However, since the setting change operation using a switch or the like must be performed manually, the operation is complicated. In addition, there is a possibility that such setting change operation may be forgotten.

SUMMARY OF THE INVENTION The present invention has been made in view of such circumstances, and it is an object of the present invention to prevent a malfunction of a notification means and to perform a complicated operation on various doors having different numbers of door locks. An object of the present invention is to provide a door lock device that can be applied.

[0010]

In order to solve the above-mentioned problems, according to the first aspect of the present invention, a door is provided at a door or a vicinity of the door and is set in a portable device carried by an owner. A door lock device that reads a predetermined ID code, locks and unlocks a door based on the ID code, and operates predetermined notification means based on a locked and unlocked state of the door lock. A plurality of detectors for detecting the locked / unlocked state are provided, the detectors automatically determine whether or not the detectors are connected to the door lock, and a detection result of the detector that detects the connection to the door lock. The gist is that the notification means is operated based on the above.

According to the second aspect of the present invention, in the door lock device according to the first aspect, the door lock device comprises:
The gist is to judge that the detection unit is not connected to the door lock when neither the locked state nor the unlocked state of the door lock can be detected by the detection unit.

According to a third aspect of the present invention, in the door lock device according to the first or second aspect, the detection unit is configured to determine a predetermined time after reading the ID code and a predetermined time after outputting a drive signal. The gist is that it is operated only at time.

Hereinafter, the "action" of the present invention will be described. According to the first to third aspects of the present invention, it is automatically determined whether each detection unit is connected to the door lock. The notification unit is operated based on a detection result of the detection unit that has detected the connection to the door lock. For this reason, for example, when a door lock device provided with two detection units is arranged on a door provided with one door lock, the notification unit operates only based on the detection result of the detection unit connected to the door lock. That is, the notification unit is not operated based on the detection result of the detection unit not connected to the door lock.
Therefore, even if this door lock device is used for various doors having different numbers of door locks, malfunction of the notifying means can be reliably prevented, and it is possible to automatically cope with the number of door locks. Therefore, a setting change operation by manual operation is not required, and a switch and the like for the operation are not required.

According to the second aspect of the present invention, when neither the locked state nor the unlocked state of the door lock can be detected by the detection unit, the detection unit determines that the door lock is not connected to the door lock. ing. That is, it is determined whether or not the detection unit is connected to the door lock using the detection result of the detection unit. Therefore, it is not necessary to separately provide a sensor or the like for determining whether the detection unit is connected to the door lock, and it is possible to prevent an increase in the number of parts.

According to the third aspect of the present invention, the detecting unit is operated only for a predetermined time after reading the ID code and for a predetermined time after locking and unlocking the door. That is, the detection unit is operated only when necessary. For this reason, the power consumption can be reduced as compared with the case where the detection unit is constantly operated.

[0016]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS One embodiment of the present invention will be described below in detail with reference to FIGS. As shown in FIG. 1, a microcomputer (microcomputer) 11 as a door lock device includes a first drive circuit 12, a second drive circuit 13, a first door lock 14, a second door lock 15, and a command circuit 1.
6 and a buzzer 17 as notification means are connected.

The microcomputer 11 has a C (not shown).
It is constituted by a CPU unit composed of a PU, a ROM, a RAM, and the like, and is arranged at a door (not shown) or near the door. The microcomputer 11 is provided with a first door signal terminal 11a as a detection unit including a first drive signal output terminal Dv1 and a first lock detection terminal Ls1 and a first unlock detection terminal Us1. Further, the microcomputer 11 is provided with a second drive signal output terminal Dv2 and a second door lock terminal 11b as a detection unit including a second lock detection terminal Ls2 and a second unlock detection terminal Us2. That is, the microcomputer 11 in the present embodiment includes two door lock terminal portions 11a and 11b. In other words, the microcomputer 11 has two detection units.

The first door lock 14 is an electric lock which is electrically locked and unlocked by a motor 14a, and includes a three-contact type first switch 14b. The first drive circuit 12 is connected to the motor 14a. That is, the first drive circuit 12 is a motor driver of the motor 14a. The first drive circuit 12 is connected to a first drive signal output terminal Dv1 of the microcomputer 11. Then, the first drive circuit 12
Drives the motor 14a based on a predetermined drive signal output from the first drive signal output terminal Dv1, and
Is locked or unlocked.

The first switch 14b is a switch having the contact CP3 as a movable contact and selectively connected to the contact CP1 or the contact CP2. Specifically, the first switch 1
Reference numeral 4b denotes a connection state between the contact points CP1 and CP3 when the door lock 14 is locked, and a connection state between the contact points CP2 and CP3 when the door lock 14 is unlocked.
The contact CP3 is grounded, the contact CP1 is connected to the first lock detection terminal Ls1 of the microcomputer 11, and the contact CP2 is connected to the first unlock detection terminal Us1.

The second door lock 15 is an electric lock which is electrically locked and unlocked by a motor 15a, and has a three-contact type second switch 15b. The second drive circuit 13 is connected to the motor 15a. That is, the second drive circuit 13 is a motor driver for the motor 15a. The second drive circuit 13 is connected to a second drive signal output terminal Dv2 of the microcomputer 11. Then, the second drive circuit 13
Drives the motor 15a based on a predetermined drive signal output from the second drive signal output terminal Dv2,
Is locked or unlocked.

The second switch 15b is a switch having the contact CP6 as a movable contact and selectively connected to the contact CP4 or the contact CP5. Specifically, the second switch 1
Reference numeral 5b denotes a connection state between the contact points CP4 and CP6 when the door lock 15 is locked, and a connection state between the contact points CP5 and CP6 when the door lock 15 is unlocked.
The contact CP6 is grounded, the contact CP4 is connected to the second lock detection terminal Ls2 of the microcomputer 11, and the contact CP5 is connected to the second unlock detection terminal Us2.

The command circuit 16 includes, for example, an infrared ray receiver, a radio wave receiver, a card reader, a password input switch, etc., and outputs a command signal including a predetermined ID code input from the outside to the microcomputer 11. I have.

The buzzer 17 operates when a drive signal is output from the microcomputer 11. next,
A processing operation performed by the microcomputer 11 at the time of locking and unlocking the door locks 14 and 15 in the present embodiment will be described with reference to flowcharts shown in FIGS.

First, in step S1, the microcomputer 11
Determines whether there is a command signal from the command circuit 16. If there is a command signal, the process proceeds to step S2,
If there is no command signal, the process here is once ended.

In step S2, the microcomputer 11
The locked / unlocked state of the door lock 14 is detected. This first door lock 1
At the time of lock / unlock detection of No. 4, the microcomputer 11 outputs a predetermined voltage from the first lock detection terminal Ls1 and the first unlock detection terminal Us1. Here, when the first door lock 14 is in the locked state, the movable contact CP3 of the first switch 14b is connected to CP1, so that the voltage level of the first lock detection terminal Ls1 becomes L level. On the other hand, when the first door lock 14 is unlocked, the movable contact CP of the first switch 14b
3 is connected to CP2, the first unlock detection terminal U
The voltage level of s1 becomes L level. That is, the microcomputer 11 detects whether the first door lock 14 is locked or unlocked by detecting which of the detection terminals Ls1 and Us1 is at the L level. In addition, such first
The locking / unlocking detection operation of the door lock 14 is performed only for a predetermined time. That is, a voltage is output to each of the detection terminals Ls1 and Us1 only for a predetermined time.

Next, the microcomputer 11 proceeds to step S3, and determines whether the locked state or the unlocked state of the first door lock 14 has been detected in step S2. And
The microcomputer 11 proceeds to step S4 when the locked state or the unlocked state of the first door lock 14 can be detected, and proceeds to step S7 when the locked state or the unlocked state of the first door lock 14 cannot be detected.

In step S4, the microcomputer 11 outputs a drive signal based on the command signal from the first drive signal output terminal Dv1. Thereby, the first drive circuit 12 drives the motor 14a based on the drive signal. At this time, the first drive circuit 12 locks the door lock 14 when receiving a drive signal indicating that the door should be locked, and locks the door lock 14 when receiving a drive signal indicating that the door should be unlocked. Unlock.

Subsequently, the microcomputer 11 proceeds to step S5, and detects the locked / unlocked state of the first door lock 14 as in step S2. Then, based on the detection result, the microcomputer 11 determines whether or not the first door lock 14 has been driven in accordance with the drive signal in step S6. here,
When the first door lock 14 is driven, the microcomputer 11 proceeds to step S7, and when the door lock 14 is not driven, the microcomputer 11 proceeds to step S8 to operate the buzzer 17.

In step S7, the microcomputer 11 detects whether the second door lock 15 is locked or unlocked. When the unlocking of the second door lock 15 is detected, the microcomputer 11 outputs a predetermined voltage from the second lock detection terminal Ls2 and the second unlock detection terminal Us2. Then, the microcomputer 11 detects each detection terminal L
By detecting which of s2 and Us2 is at the L level, the locked / unlocked state of the second door lock 15 is detected. The operation of detecting the lock / unlock of the second door lock 15 is performed only for a predetermined time. That is, a voltage is output to each of the detection terminals Ls2 and Us2 only for a predetermined time.

Next, the microcomputer 11 proceeds to step S9, and determines whether the locked state or the unlocked state of the second door lock 15 has been detected. When the locked state or the unlocked state of the second door lock 15 can be detected, the microcomputer 11 proceeds to step S10, and when the locked state or the unlocked state of the second door lock 15 cannot be detected, the processing here is performed. Is temporarily terminated.

In step S10, the microcomputer 11 outputs a drive signal based on the command signal from the second drive signal output terminal Dv2. Thereby, the second drive circuit 13 drives the motor 15a based on the drive signal. At this time, the second drive circuit 13 locks the door lock 15 when receiving the drive signal indicating that the door should be locked, and locks the door lock 15 when receiving the drive signal indicating that the door should be unlocked. Unlock.

Subsequently, the microcomputer 11 proceeds to step S11
Then, the locked / unlocked state of the second door lock 15 is detected as in step S7. Then, based on the detection result, the microcomputer 11 determines whether or not the second door lock 15 has been driven in accordance with the drive signal in step S12. Here, when the second door lock 15 is driven, the microcomputer 11 temporarily ends the processing here, and when the second door lock 15 is not driven, the microcomputer 11 shifts to step S8 and proceeds to step S8.
Activate 7.

Therefore, according to the present embodiment, the following effects can be obtained. (1) Conventionally, for example, as shown by a two-dot chain line in FIG.
A switch 21 including a dip switch and the like was connected to the microcomputer 11. The door lock terminals 11a and 11b connected to the door locks 14 and 15 can be specified according to the ON / OFF state of the switch 21. For example, when the switch 21 is set to the ON state, the door locks 14 and 15 are connected to the door lock terminals 11a and 11b, respectively.
When the switch 21 is set to the OFF state, only the first door lock 14 is connected to the first door lock terminal 11a, and the second door lock 15 is connected to the second door lock terminal 11b. It was not connected. This prevents the buzzer 17 from being operated based on the door lock terminal portions 11a and 11b that cannot detect the locked / unlocked state of the door locks 14 and 15.

However, in this embodiment, the microcomputer 11
Indicates to the microcomputer 11 whether or not the locked state or the unlocked state of the door locks 14 and 15 can be detected.
It is automatically determined whether or not is connected. Therefore, for example, when only the first door lock 14 is connected to the microcomputer 11, only the first door lock 14 is driven, and the buzzer 17 is activated only based on the locked / unlocked state of the first door lock 14. Is activated. Therefore, malfunction of the buzzer 17 can be reliably prevented. Further, since the conventional switch 21 becomes unnecessary, the number of parts can be reduced. Further, since setting change work by manual operation is not required, complicated operation and switch 2 are not required.
Forgetting the setting of 1 can be reliably prevented. Therefore,
Even if such a microcomputer 11 is used for various doors having different numbers of door locks, it is not necessary to perform a complicated operation, and it is easy to use.

(2) The microcomputer 11 includes door locks 14 and 15
Is detected, and it is determined whether or not the door locks 14, 15 are connected to the respective door lock terminal portions 11a, 11b by using the detection result. For this reason,
It is not necessary to separately provide a sensor or the like for determining whether or not the door locks 14 and 15 are connected to the respective door lock terminal portions 11a and 11b, thereby preventing an increase in the number of parts.

(3) The microcomputer 11 determines a predetermined time after reading the command signal from the command circuit 16 and
The locked / unlocked state of the door locks 14, 15 is detected only at a predetermined time after the doors 4, 4 are unlocked.
That is, the microcomputer 11 detects the locked / unlocked state of the door locks 14, 15 only when necessary.
For this reason, the power consumption can be reduced as compared with the case where the locked / unlocked state of the door locks 14 and 15 is constantly detected.

The embodiment of the present invention may be modified as follows. In the above embodiment, each of the door locks 14 and 15 is determined by the microcomputer 11 based on the detection result of the locked / unlocked state of each of the door locks 14 and 15.
It is determined whether or not it is connected to the server.
However, the present invention is not limited to this, and a detection sensor for detecting whether or not each of the door locks 14 and 15 is connected to the microcomputer 11 may be separately connected to the microcomputer 11 so as to detect that fact. .

In the above embodiment, the microcomputer 11 is provided with two door lock terminals 11a and 11b. However, these door lock terminal portions 11a and 11b
The number is not limited to three, and three or more may be provided. In this way, the microcomputer 11 can lock and unlock three or more door locks.

In the above-described embodiment, the buzzer 17 is used as the notification means, and the notification is made by a buzzer sound. However, using a speaker instead of the buzzer 17,
The notification may be made by voice. In addition, LED
The notification may be made by light using a display, a light, or the like.

In the above embodiment, the buzzer 17
Is activated when the door locks 14, 15 are not unlocked according to the command signal. However, the buzzer 17 may be activated when the door lock 14 is unlocked according to the command signal.

Next, in addition to the technical idea described in the claims, the technical idea grasped by the above-described embodiment will be described below.・ Equipped with multiple detectors for detecting the locked / unlocked state of the door lock,
A method of controlling a door lock device that reads a predetermined ID code, locks and unlocks a door based on the ID code, and operates predetermined notification means based on a locked and unlocked state of the door lock, After reading the ID code, the detection unit is operated, and after the door lock corresponding to the detection unit that can detect the locked / unlocked state of the door lock is locked / unlocked, the detection unit is operated again, and based on the detection result, A method of controlling a door lock device, characterized by operating a notifying means.

[0042]

As described above in detail, according to the first to third aspects of the present invention, it is possible to prevent malfunction of the notification means and to perform complicated operations on various doors having different numbers of door locks. Can be applied without performing the above.

According to the second aspect of the invention, it is possible to prevent an increase in the number of parts. According to the third aspect of the present invention, power consumption can be reduced.

[Brief description of the drawings]

FIG. 1 is a block diagram showing an embodiment of the present invention.

FIG. 2 is an exemplary flowchart illustrating the processing operation of the microcomputer of the embodiment.

FIG. 3 is an exemplary flowchart showing the processing operation of the microcomputer of the embodiment.

[Explanation of symbols]

11: a microcomputer as a door lock device; 11a: first door lock terminal; 11b: second door lock terminal; 14: first door lock; 15: second door lock; 16: command circuit; 17… Buzzer as notification means
Ls1: a first lock detection terminal as a detection unit; Us1, a first unlock detection terminal as a detection unit; Ls2, a second lock detection terminal as a detection unit; Us2, a second unlock detection terminal as a detection unit.

Claims (3)

[Claims] Claims: 1. A door is disposed at or near a door,
A door lock device that reads a predetermined ID code, locks and unlocks a door based on the ID code, and operates predetermined notification means based on a locked and unlocked state of the door lock. Equipped with a plurality of detection units for detecting the unlocked state,
Automatically determining whether or not the detection units are connected to the door lock, and operating the notification unit based on a detection result of the detection unit that has detected connection to the door lock. A unique door lock device. 2. The door lock device according to claim 1, wherein when the detection unit cannot detect any of the locked state and the unlocked state of the door lock, the detection unit determines that the detection unit is not connected to the door lock. The door lock device according to claim 1, characterized in that: 3. The apparatus according to claim 1, wherein the detection unit is operated only for a predetermined time after reading the ID code and for a predetermined time after outputting the drive signal.
A door lock device according to claim 1.