JP4024558B2 - Locking / unlocking control device, communication control device and fitting in the locking / unlocking control device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a locking / unlocking control device, a communication control device in the locking / unlocking control device, and a fitting, and more particularly to a device for locking / unlocking without using a mechanical key.
[0002]
[Prior art]
Generally, a door lock of a building such as a house or a vehicle is locked and unlocked by inserting a mechanical key into a key hole provided in the door and turning the door.
[0003]
However, in recent years, for the purpose of improving security and operability, a door lock locking / unlocking control device by electronic control using an ID code has been proposed. A smart key system has been proposed as this type of locking / unlocking control device.
[0004]
This smart key system is composed of a portable device possessed by an owner (household, driver, etc.) and a door lock device provided in the vicinity of the door lock. Based on the mutual communication between the portable device and the door lock device, the door lock is automatically unlocked when the owner approaches the door, and the door lock is automatically locked when the owner moves away from the door. It has come to be.
[0005]
Specifically, for example, in the smart key system 51 shown in FIG. 7, a request signal is intermittently output from the door lock device 52 to the predetermined area A around the door 54. When the portable device 53 enters the predetermined area A, the portable device 53 outputs a radio signal (ID code signal) including a predetermined ID code in response to the request signal. When the door lock device 52 receives the ID code signal, the door lock device 52 compares the ID code included in the ID code signal with an ID code preset in itself (ID code verification). Then, the door lock device 52 unlocks the door lock when the ID codes match. When the ID codes do not match or when the ID code signal cannot be received, the door lock device 52 locks the door lock.
[0006]
Therefore, the owner can lock and unlock the door lock without performing any operation. Further, since the door lock is locked and unlocked by ID code verification, security is also improved.
[0007]
[Problems to be solved by the invention]
By the way, for example, in the state where the owner is located at the output limit location (location indicated by point P in the figure) of the output area A of the request signal shown in FIG. May come and go. In such a case, in the conventional smart key system 51, the door lock is repeatedly locked and unlocked with a slight movement of the owner. For this reason, when the owner is talking at the output limit location, the door lock frequently repeats locking and unlocking against the intention of the owner, making the owner feel uncomfortable It becomes.
[0008]
  The present invention has been made in view of such circumstances, and its purpose is contrary to the intention of the owner.LockAn object of the present invention is to provide a locking / unlocking control device that can prevent the locking / unlocking operation of the device, a communication control device in the locking / unlocking control device, and a fitting.
[0009]
[Means for Solving the Problems]
  In order to solve the above problems, in the invention described in claim 1, a portable device that transmits a predetermined radio signal, and a communication control device that controls locking / unlocking of the lock based on mutual communication with the portable device, The communication control device is a request signal for requesting transmission of the radio signalAroundWhen a request signal output means for outputting to a predetermined area of the side and a radio signal from the portable device transmitted in response to the request signal are received, the lock is unlocked and the radio signal cannot be received In a locking / unlocking control device having a lock control unit that locks the lock, in a state where the communication control device is receiving the wireless signal, in a wider area than a state where the wireless signal is not received The gist of the invention is to enable mutual communication between the portable device and the communication control device.
According to a second aspect of the present invention, in the locking / unlocking control device according to the first aspect, the mobile phone is provided in a predetermined area around the outside and a predetermined area around the inside of the device provided with the lock. The gist of the present invention is that an area in which mutual communication between the machine and the communication control device is possible is set.
[0010]
  Claim3In the invention described in claim 1,Or claim 2In the locking and unlocking control device according to claim 1, the request signal output means includes output switching means for switching an output area of the request signal, and the wireless signal is not received.In ZhouThe gist is to output the request signal to a first area of the side and to output the request signal to a second area set wider than the first area in the reception state of the radio signal.
[0011]
  Claim4In the invention described in claim 1, a request signal for requesting transmission of a radio signal to a portable device possessed by the ownerAroundWhen a request signal output means for outputting to a predetermined area of the side and a radio signal from the portable device transmitted in response to the request signal are received, the lock is unlocked and the radio signal cannot be received In the communication control device in the lock / unlock control means, the lock control means for locking the lock, the request signal output means includes output switching means for switching an output area of the request signal, Reception statusIn ZhouThe gist is to output the request signal to a first area of the side and to output the request signal to a second area set wider than the first area in the reception state of the radio signal.
According to a fifth aspect of the present invention, in the communication control device in the locking / unlocking control device according to the fourth aspect of the present invention, a peripheral predetermined region outside and a predetermined peripheral region inside the communication control device provided with the lock Further, the gist of the present invention is that an area where mutual communication between the portable device and the communication control device is possible is set.
[0012]
  Claim6In the invention described in claim 1,~ClaimAny one item of 3The locking / unlocking control device according to claim 1 or claim4 or claim 5The gist is a fitting including the communication control device described in 1.
[0013]
The “action” of the present invention will be described below.
According to the first aspect of the present invention, when the communication control device is receiving a wireless signal, the portable device and the communication control device can communicate with each other in a wider area than when the wireless control signal is not received. It becomes. For this reason, even if the portable device is located in the vicinity of a limit area where mutual communication is possible when the communication control device is not receiving a radio signal, once the mutual communication is started, the position is no longer the communication limit area. This is an area where mutual communication is possible. Therefore, even if the portable device moves a little at that position, mutual communication is maintained in a reliable state, and the lock is not locked by a slight movement of the portable device. In addition, when the communication control device cannot receive a wireless signal from the portable device, that is, when mutual communication between the portable device and the communication control device becomes impossible, the lock is locked and the area where mutual communication is possible is narrow. Become. For this reason, even if the portable device moves a little near the place where mutual communication is disabled, the mutual communication is surely maintained in an impossible state, and the lock is not unlocked by a small movement of the portable device. .
[0014]
  Claim3,4According to the invention described in the above, the output area of the request signal is set so as to be narrow when the communication control apparatus is not receiving a radio signal and wide when the radio control signal is being received. For this reason, there exists an effect | action equivalent to Claim 1. Moreover, it is possible to easily and reliably change the area where communication is possible compared to the case where the output area of the wireless signal from the portable device is changed.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment in which the present invention is embodied in a door lock / unlock control device for a house will be described in detail with reference to FIGS.
[0016]
As shown in FIG. 1, the locking / unlocking control device 1 for a house is arranged in a portable device 11 owned by an owner (housekeeper) of the house 2 and a door 3 of the house 2, and communicates with the portable device 11. And a possible communication control device 12.
[0017]
  As shown in FIGS. 2 and 3, the door 3 has an outdoor antenna exposed to the outdoor side.Part 4And the indoor antenna part 5 exposed indoors is arrange | positioned. Each of the antenna portions 4 and 5 is formed with a display portion 6 as a notification means made of an LED or the like.
[0018]
Inside the outdoor antenna unit 4, a transmission antenna 4a and a reception antenna 4b shown in FIG. 4 are arranged. In addition, a transmission antenna 5a and a reception antenna 5b shown in FIG.
[0019]
In this embodiment, the transmitting antennas 4a and 5a are set to be able to transmit a 134 kHz radio wave, and the receiving antennas 4b and 5b are set to be able to receive a 300 MHz radio wave.
[0020]
Further, the door 3 is formed with two door locks 7 and 8, and on the indoor side surface of the door 3, manual lock mechanisms 7a and 8a capable of manually locking and unlocking the door locks 7 and 8 are formed. ing. These manual lock mechanisms 7a and 8a are general indoor side locking / unlocking knobs.
[0021]
As shown in FIG. 4, the portable device 11 includes a reception circuit 13, a microcomputer 14, a transmission circuit 15, and an input circuit 16.
The receiving circuit 13 is a circuit for receiving a request signal from the communication control device 12 to be described later and inputting the signal to the microcomputer 14. The microcomputer 14 is a circuit for outputting a radio signal (ID code signal) including a predetermined ID code set in advance when a request signal from the receiving circuit 13 is input. The transmission circuit 15 is a circuit for modulating the ID code signal into a radio wave of a predetermined frequency (300 MHz in this case) and transmitting it to the outside. A reception antenna 17a is connected to the reception circuit 13, and a transmission antenna 17b is connected to the transmission circuit 15. The input circuit 16 includes operation keys and the like, and is a circuit for inputting a manual operation signal input by a household key operation to the microcomputer 14.
[0022]
On the other hand, as shown in FIG. 4, the communication control device 12 includes a transmission circuit 21 as a request signal output means, a reception circuit 22, and a microcomputer 23 as a lock control means.
[0023]
Transmission antennas 4 a and 5 a are connected to the transmission circuit 21, and reception antennas 4 b and 5 b are connected to the reception circuit 22.
As shown in FIG. 5, the transmission circuit 21 includes a modulation circuit 31, an output switching circuit unit 32 as output switching means, a CMOS inverter 33 configured by a p-channel MOSFET 33a and an n-channel MOSFET 33b. The output switching circuit unit 32 includes an NPN transistor Tr, a relay 34, and two resistors R1 and R2. The relay 34 is a three-contact type relay, and the first fixed contact CP1 and the movable contact CP3 are connected when not operating, and the second fixed contact CP2 and the movable contact CP3 are connected when operating. ing. The resistance values of the resistors R1 and R2 are set so that R1> R2. In this embodiment, the resistor R1 is set to a resistance value about twice that of the resistor R2.
[0024]
The input terminal of the modulation circuit 31 is connected to the microcomputer 23, and the output terminal is connected to the gate terminals of the FETs 33a and 33b. The source terminal of the FET 33a is connected to the power source, and the source terminal of the FET 33b is grounded. The drain terminals of the FETs 33a and 33b are connected to the movable contact CP3 of the relay 34. The first fixed contact CP1 of the relay 34 is connected to one end of the resistor R1, and the second fixed contact CP2 is connected to one end of the resistor R2. The other ends of the resistors R1 and R2 are both connected to one ends of the transmission antennas 4a and 5a. The other ends of the transmitting antennas 4a and 5a are grounded via a tuning capacitor C. The base terminal of the transistor Tr is connected to the microcomputer 23, and the emitter terminal is grounded. The collector terminal of the transistor Tr is connected to one end of the coil portion L of the relay 34, and the other end of the coil portion L is connected to the battery.
[0025]
In the transmission circuit 21 configured as described above, a request signal including a predetermined digital signal is output from the microcomputer 23 to the modulation circuit 31, and an operation control signal is output from the microcomputer 23 to the transistor Tr. When the request signal is input, the modulation circuit 31 modulates the request signal into a radio wave having a predetermined frequency (here, 134 kHz), and outputs the radio wave to the CMOS inverter 33. Then, the radio wave is inverted and amplified by the CMOS inverter 33, and the inverted and amplified radio wave is output to the outside from the transmitting antennas 4a and 5a. Here, when the L level operation signal is output from the microcomputer 23 to the transistor Tr, that is, when the relay 34 is not operated, the amount of current flowing through the transmission antennas 4a and 5a is limited by the resistor R1. Further, when the H level operation signal is output from the microcomputer 23 to the transistor Tr, that is, when the relay 34 is operated, the amount of current flowing through the transmission antennas 4a and 5a is limited by the resistor R2. Since the resistance value of the resistor R1 is set to be larger than the resistance value of the resistor R2, when the current amount is limited by the resistor R1, each of the transmission antennas 4a and 5a is more than when the current amount is limited by the resistor R2. The amount of current flowing through the is reduced.
[0026]
Therefore, as shown in FIG. 2, when the amount of current is limited by the resistor R1, the request signal output from each of the transmission antennas 4a and 5a is the first area around the door 3 on the outdoor side and indoor side (same figure). Is output to A1). In addition, when the amount of current is limited by the resistor R2, the request signal output from each of the transmission antennas 4a and 5a is a second region that is wider than the first region A1 (indicated by a two-dot chain line in the figure). Area) A2. Therefore, mutual communication between the portable device 11 and the communication control device 12 becomes possible in the first and second areas A1 and A2. In the present embodiment, the difference between the output limit location in the first area A1 (location indicated by a broken line in the figure) and the output limit location in the second area A2 (location indicated by a two-dot chain line in the drawing) is It is about 0.10 to 0.40 m.
[0027]
The receiving circuit 22 receives the ID code signal output from the portable device 11 via the receiving antennas 4b and 5b, demodulates the ID code signal into a pulse signal, generates a received signal, and converts the received signal into a microcomputer. 23 is a circuit for outputting to 23.
[0028]
The microcomputer 23 is electrically connected to the display unit 6, door locks 7 and 8, and manual lock mechanisms 7a and 8a. Specifically, the microcomputer 23 is a CPU unit including a CPU, a ROM, and a RAM (not shown), and intermittently outputs the request signal to the transmission circuit 21. Further, a predetermined ID code set in advance is stored in the microcomputer 23, and the microcomputer 23 compares its own ID code with the ID code included in the received signal when the received signal is input. The microcomputer 23 outputs a drive signal to the door locks 7 and 8 when the ID codes match. Further, the operation state of the manual lock mechanisms 7a and 8a is input to the microcomputer 23.
[0029]
The microcomputer 23 switches the level of the operation signal for the transistor Tr of the transmission circuit 21 based on whether or not the ID codes match each other. Specifically, the microcomputer 23 outputs an L-level operation signal to the transistor Tr when the ID codes do not match. For this reason, the relay 34 does not operate, the first fixed contact CP1 and the movable contact CP3 are connected, and the current flowing through each of the transmission antennas 4a and 5a is limited by the resistor R1. Therefore, a request signal is output from each transmitting antenna 4a, 5a to the first area A1. Further, the microcomputer 23 outputs an H level operation signal to the transistor Tr when the ID codes match. For this reason, the relay 34 is activated, and the second fixed contact CP2 and the movable contact CP3 are connected, and the current flowing through each of the transmission antennas 4a and 5a is limited by the resistor R2. Therefore, a request signal is output from each of the transmission antennas 4a and 5a to the second area A2. For this reason, the area where the portable device 11 and the communication control device 12 can communicate with each other is narrow when the ID codes do not match, and wide when the ID codes match.
[0030]
Next, the locking / unlocking operation of the door locks 7, 8 by the residential locking / unlocking control apparatus 1 configured as described above will be described. Here, the operation when the door locks 7 and 8 are locked → unlocked → locked will be described.
[0031]
In the locked state of the door locks 7 and 8, first, request signals are intermittently output from the transmission antennas 4a and 5a of the communication control device 12 to the first area A1. This request signal is always output during the operation of the locking / unlocking control apparatus 1.
[0032]
When the portable device 11 enters the first area A1 and receives a request signal, the portable device 11 automatically transmits an ID code signal in response to the request signal. That is, an ID code signal is transmitted from the portable device 11 when a householder holding the portable device 11 approaches the door 3. The portable device 11 is normally in a standby mode for receiving a request signal, and transmits an ID code signal only when the request signal is received.
[0033]
When receiving the ID code signal, the communication control device 12 compares the ID code included in the ID code signal with the ID code recorded in advance in the communication control device 12. When the ID codes match, a drive signal is output to the door locks 7 and 8 to unlock the door locks 7 and 8. For this reason, the door locks 7 and 8 are automatically unlocked only when the housekeeper approaches the door 3. That is, the householder does not need to perform any operation for unlocking the door locks 7 and 8.
[0034]
In addition, when the ID codes match, the communication control device 12 switches the request signal output area from the first area A1 to the second area A2. That is, the communication control device 12 widens the output area of the request signal when mutual communication with the portable device 11 is performed.
[0035]
On the other hand, when the portable device 11 is separated from the second area A2 after the door lock is unlocked, the portable device 11 cannot receive the request signal, and therefore does not transmit the ID code signal. That is, the communication control device 12 cannot receive the ID code signal, and mutual communication between the portable device 11 and the communication control device 12 becomes impossible. In this case, the microcomputer 23 determines that the portable device 11 is separated from the door 3 and outputs a drive signal to the door locks 7 and 8 to lock the door locks 7 and 8. Therefore, the door locks 7 and 8 are automatically locked only when the housekeeper moves away from the door 3. That is, the housekeeper does not need to perform any operation for locking the door locks 7 and 8. Therefore, according to such locking / unlocking control apparatus 1, the door locks 7 and 8 can be locked / unlocked without any operation. The microcomputer 23 outputs a signal to the display unit 6 when the door locks 7 and 8 are unlocked and locked, and displays that the display unit 6 has unlocked or locked. In this embodiment, the display unit 6 is composed of two LEDs having different colors. When the door locks 7 and 8 are unlocked, one LED is turned on, and when the door locks 7 and 8 are locked, the other LED is turned on. It is like that.
[0036]
  By the way, when an operation is performed by an operation key provided on the portable device 11, the operation signal is input from the input circuit 16 to the microcomputer 14 and from the transmission circuit 15 to the antenna 17.bA manual operation signal is transmitted to the outside via. This manual operation signal includes a signal for preferentially unlocking or locking the door locks 7 and 8. Then, when receiving the manual operation signal, the microcomputer 23 of the communication control device 12 collates the ID code, and when the ID code is matched, preferentially unlocks or locks the door locks 7 and 8. . For this reason, when the unlocking operation is performed by the operation key, the door locks 7 and 8 are unlocked even if the portable device 11 is outside the predetermined areas A1 and A2. When the locking operation is performed, the door locks 7 and 8 are locked even if the portable device 11 is in the predetermined areas A1 and A2.
[0037]
Therefore, according to this embodiment, the following effects can be obtained.
(1) When mutual communication between the portable device 11 and the communication control device 12 begins to be performed, the output area of the request signal is expanded from the first area A1 to the second area A2. For this reason, for example, as shown in FIG. 3, even when the portable device 11 is located at a limit point (near the broken line portion shown in the figure) P1 in the first area A1, the mutual communication is performed. When it starts to break, it is no longer the limit where communication is possible. That is, the limit part is a part where the mutual communication can be surely performed when the mutual communication is started. Therefore, even if the portable device 11 moves a little at the limit point P1, the mutual communication between the portable device 11 and the communication control device 12 is reliably maintained. Therefore, the door locks 7 and 8 are not locked by a slight movement of the portable device 11 in such a case.
[0038]
In addition, when the portable device 11 moves to a place P2 near the second area A2 outside the second area A2 (near the two-dot chain line position shown in the figure) while the mutual communication is being performed. Are unable to communicate with each other and the door locks 7 and 8 are locked. Then, the output area of the request signal is switched from the second area A2 to the first area A1. For this reason, even if the portable device 11 moves again into the second area A2 from the proximity point P2, the door locks 7 and 8 are not unlocked by this movement. Therefore, the door locks 7 and 8 are not unlocked by a slight movement of the portable device 11 in such a case.
[0039]
Therefore, even if the housekeeper speaks at the limit place P1 and the proximity place P2 and makes a slight movement, it is certain that the door locks 7 and 8 will perform the unlocking operation against the housekeeper's intention. Can be prevented.
[0040]
(2) Usually, the output area of the request signal is narrower than the output area of the ID code signal. Therefore, by controlling the output area of the request signal, the change of the area where the portable device 11 and the communication control device 12 can communicate with each other can be easily and reliably compared to the case where the output area of the ID code signal is changed. It can be carried out. Therefore, it is possible to easily and reliably prevent the door locks 7 and 8 from performing the locking / unlocking operation against the intention of the householder.
[0041]
(3) Only by changing the hardware configuration of the transmission circuit 21 of the communication control device 12, the locking and unlocking operation of the door locks 7 and 8 against the intention of the householder is prevented. For this reason, it is not necessary to change the configuration and control program of the portable device 11 and the control program of the microcomputer 23 of the communication control device 12.
[0042]
In addition, you may change embodiment of this invention as follows.
In the embodiment, the output switching circuit unit 32 is configured by the transistor Tr, the relay 34, and the resistors R1 and R2. However, as shown in FIG. 6, for example, the output switching circuit unit 32 may be configured by two NPN transistors Tr1 and Tr2 and resistors R1 and R2. Specifically, as shown in the figure, the drain terminals of the FETs 33a and 33b in the CMOS inverter 33 are connected to one ends of the transmission antennas 4a and 5a. Further, the other ends of the transmitting antennas 4a and 5a are connected to one ends of the resistors R1 and R2 via a tuning capacitor C. The other end of the resistor R1 is connected to the collector terminal of the transistor Tr1, and the other end of the resistor R2 is connected to the collector terminal of the transistor Tr2. The emitter terminals of the transistors Tr1 and Tr2 are grounded, and the base terminals are individually connected to the microcomputer 23. In this way, the microcomputer 23 outputs the operation signals at opposite levels to the transistors Tr1 and Tr2, respectively, so that the amount of current flowing through the transmission antennas 4a and 5a can be switched. In addition, in such a case, since it is not necessary to use a mechanical contact for the output switching circuit unit 32, maintenance such as replacement of parts due to secular change becomes unnecessary, and reliability can be improved.
[0043]
Here, two NPN transistors TR1 and TR2 are used, and the base terminals of the transistors Tr1 and Tr2 are individually connected to the microcomputer 23, respectively. However, one of the transistors Tr1 and Tr2 may be changed to a PNP transistor, and the microcomputer 23 and each base terminal may be connected by a common signal line. In this way, it is only necessary to output one type of operation signal from the microcomputer 23 to each of the transistors Tr1 and Tr2, and the operation control of the transistors Tr1 and Tr2 is simplified.
[0044]
In the embodiment, the area where the portable device 11 and the communication control device 12 can communicate with each other is changed by changing the output area of the request signal. However, for example, the region where the portable device 11 and the communication control device 12 can communicate with each other may be changed by changing the transmission region of the ID code signal transmitted from the portable device 11. In this case, however, the ID code signal transmission area needs to be set narrower than the request signal output area. In order to change the transmission area of the ID code signal, output variable means such as an amplifier or attenuator is provided between the transmission circuit 15 of the portable device 11 and the transmission antenna 17b, and the operation of these output variable means is performed. Configuration changes such as control by the microcomputer 14 are required.
[0045]
In the embodiment, the area where the portable device 11 and the communication control device 12 can communicate with each other is changed by changing the output area of the request signal. However, for example, the portable device 11 and the communication control device 12 can communicate with each other by changing the reception sensitivity of the reception circuit 22 of the communication control device 12 or changing the reception sensitivity of the reception circuit 13 of the portable device 11. The area may be changed. In order to change the reception sensitivity of the reception circuit 22 of the communication control device 12, a sensitivity variable means such as an amplifier or an attenuator is provided between the reception circuit 22 and the reception antennas 4b and 5b, and these sensitivity variable means. It is necessary to change the configuration such as controlling the operation of the above by the microcomputer 23. In addition, in order to change the reception sensitivity of the reception circuit 13 of the portable device 11, a sensitivity variable means such as an amplifier or an attenuator is provided between the reception circuit 13 and the reception antenna 17a, and the operation of these sensitivity variable means is performed. Configuration changes such as control by the microcomputer 14 are required.
[0046]
In the embodiment, the transmission circuit 21 is provided with the modulation circuit 31. However, the modulation circuit 31 may be provided in the microcomputer 23.
In the embodiment, the door 3 is provided with the two door locks 7 and 8. However, the door locks 7 and 8 are not limited to two and may be only one. Moreover, it is good also as three or more door locks.
[0047]
-The manual lock mechanisms 7a and 8a may be omitted. Even in this case, the door locks 7 and 8 can be locked and unlocked by the automatic locking and unlocking operation.
-Display unit 6 may be omitted.
[0048]
The communication control device 12 may be disposed not only in the door 3 but in the vicinity of the door 3.
In the embodiment, the request signal is output as a radio wave. However, the request signal may be a magnetic field output to the first and second regions A1 and A2.
[0049]
The locking / unlocking control device 1 may be embodied as a locking / unlocking control device for a door lock for a building such as a store or an office, not limited to a house. Further, the locking / unlocking control device 1 may be embodied as a locking / unlocking control device for a vehicle door lock.
[0050]
-In the said embodiment, the locking / unlocking control apparatus 1 locks / unlocks a door lock. However, the locking / unlocking control device 1 is not limited to the door lock, and may lock / unlock various fittings (including gates) such as windows and sliding doors.
[0051]
  Next, in addition to the technical ideas described in the claims, the technical ideas grasped by the embodiment described above are listed below.
  (1) Claim3In the locking / unlocking control device according to claim 1, the output switching unit changes an output area of the request signal by changing an amount of current flowing through an antenna that outputs the request signal. According to the invention described in the technical idea (1), the output area of the request signal can be changed with a simple configuration.
[0052]
【The invention's effect】
  As detailed above, claims 1 to6According to the invention described in (1), it is possible to prevent the locking / unlocking operation of the lock against the intention of the owner.
[Brief description of the drawings]
FIG. 1 is a schematic perspective view of an embodiment in which the present invention is embodied in a locking / unlocking control device for a house door lock.
FIG. 2 is a schematic side view of a door used in the embodiment.
FIG. 3 is a schematic plan view of a door used in the embodiment.
FIG. 4 is a block diagram showing a schematic configuration of the locking / unlocking control apparatus according to the embodiment;
FIG. 5 is a circuit diagram showing an electrical schematic configuration of a transmission circuit in the communication control apparatus according to the embodiment;
FIG. 6 is a circuit diagram showing an electrical schematic configuration of a transmission circuit in a communication control apparatus according to another embodiment.
FIG. 7 is a schematic plan view of a door provided with a conventional door lock / unlock control device for a house.
[Explanation of symbols]
  DESCRIPTION OF SYMBOLS 1 ... Locking / unlocking control device, 2 ... Housing, 3 ... Door, 4, 5 ... AntennaPart7, 8 ... door lock, 11 ... portable machine, 12 ... communication control device, 21 ... transmission circuit as request signal output means, 23 ... microcomputer (microcomputer) as lock control means,31: Modulation circuit, 32: Output switching circuit section as output switching means.

Claims (6)

A portable device that transmits a predetermined radio signal, and a communication control device that controls locking and unlocking of the lock based on mutual communication with the portable device,
The communication control apparatus receives a request signal output means for outputting a request signal for requesting transmission of the radio signal to a predetermined area around the radio signal from the portable device transmitted in response to the request signal. In a locking / unlocking control device having a lock control means for setting the lock to the unlocked state when the radio signal cannot be received.
In a state where the communication control device is receiving the wireless signal, mutual communication between the portable device and the communication control device is enabled in a wider area than a state where the wireless signal is not received. A locking / unlocking control device.   For the one provided with the lock, an area where mutual communication between the portable device and the communication control device is set in a predetermined area on the outer side and a predetermined area on the inner side. The locking / unlocking control apparatus according to claim 1.   The request signal output means includes output switching means for switching an output area of the request signal, and outputs the request signal to a first peripheral area in a non-reception state of the wireless signal, and the reception state of the wireless signal The locking / unlocking control apparatus according to claim 1 or 2, wherein the request signal is output to a second area that is set wider than the first area.   Request signal output means for outputting a request signal for requesting transmission of a radio signal to a portable device possessed by the owner to a predetermined peripheral area, and wireless from the portable device transmitted in response to the request signal In the communication control device in the locking / unlocking control device, comprising: a lock control unit that locks the lock when receiving a signal, and locks the lock when the wireless signal cannot be received,
  The request signal output means includes output switching means for switching an output area of the request signal, and outputs the request signal to a first peripheral area in a non-reception state of the wireless signal, and the reception state of the wireless signal The communication control device in the locking / unlocking control device, wherein the request signal is output to a second region set wider than the first region.   For the one provided with the lock, an area where mutual communication between the portable device and the communication control device is set in a predetermined area on the outer side and a predetermined area on the inner side. The communication control apparatus in the locking / unlocking control apparatus according to claim 4.   A joinery comprising the locking / unlocking control device according to any one of claims 1 to 3 or the communication control device according to claim 4 or 5.

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