JP3927272B2 - Energization structure of electric lock system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an energization structure of an electric lock system for energizing between an electric lock provided on a door and an electric lock controller provided outside the door for controlling locking and unlocking of the electric lock.
[0002]
[Prior art]
A general electric lock system has an electric lock attached to the door side, an input device such as a switch or numeric keypad installed inside or outside the door for inputting a personal identification number by input operation, and input from the input device. It is schematically composed of an electric lock controller provided outside the door for locking or unlocking the electric lock by outputting a control signal when the password is matched with a preset password. .
[0003]
By the way, in the electric lock system having the above configuration, in order to operate the electric lock attached to the door by the control signal output from the electric lock controller, the electric lock and the electric lock controller are electrically connected. There is a need.
[0004]
Therefore, conventionally, a well-known hinge-shaped or bellows-type current-carrying metal fitting has been used for electrical connection between the electric lock and the electric lock controller. This type of energizing metal fitting is provided between the door and the door frame in a state where the electric wire is covered so that the electric wire is not exposed to the outside for crime prevention.
[0005]
More specifically, the hinge-type metal fitting is substantially formed of an axis and a pair of wings, and rotates around the axis. One of the wings is fixed to the door frame, and the other is fixed to the door. And an electric wire passes through the inside of each wing | blade part and an axial center, has electrically connected between the electric lock controller and the electric lock, and is not exposed outside.
[0006]
In addition, the bellows type energizing metal fitting is assembled with the metal door main body separated into the door and the door frame, and the electric lock controller and the electric device are connected by electric wires passing through the inside of the metal door main body on the door side and the metal door main body on the door frame side. The lock is electrically connected. At that time, the electric wire is exposed when the door is open, and is not exposed when the door is closed.
[0007]
[Problems to be solved by the invention]
However, in the conventional energizing metal fitting described above, since the electric wire passes between the door and the door frame in either the hinge type or the bellows type, the electric wire is brought into contact with the metal fitting body when the door is opened and closed for a long time. May be worn out, or may be broken due to a symptom such as twisting of the electric wire accompanying opening and closing of the door.
[0008]
In addition, the hinge-type metal fittings described above are configured to be mounted between the door and the door frame separately from the hinge for supporting the door so that it can be opened and closed with respect to the door frame. The design was not matched with a certain hinge, and the beauty was greatly impaired. On the other hand, the bellows-type energizing metal fitting has no problem when the door is closed, but when the door is opened, the bellows part covering the electric wire is exposed, so that there is a problem that the aesthetic appearance is impaired like the bellows-type energizing metal fitting.
[0009]
Accordingly, an object of the present invention is to provide an energization structure of an electric lock system that enables energization without wiring by using electromagnetic coupling between a door and a door frame in order to solve the above problems.
[0010]
[Means for Solving the Problems]
Next, means for solving the above problems will be described with reference to FIGS. 1 to 3 corresponding to the embodiment.
[0011]
  The invention of claim 1Electric lock 2SolutionLockOpen and close the doorControl for determining whether or not data is input by the input device 3 while constantly monitoring the status of the input device, and outputting a command for unlocking or locking the electric lock 2 according to the presence or absence of data input by the input device 3 A circuit 9 for unlocking or locking the electric lock 2 in accordance with a command input from the control circuit 9;Output control signalOutput circuit 10An electric lock controller 5, an actuator 7 that locks and unlocks by receiving power supplied by the control signal; andBy opening and closing contactsLock / unlock monitor that generates lock / unlock monitor signal according to the lock / unlock statusswitchIn the energizing structure of the electric lock system 1 including the electric lock 2 having 8,
  It is separated into a door frame side unit 6a attached to the door frame and a door side unit 6b attached to the door,
  The door frame side unit 6a is
  The electric lock controller 5The oscillation circuit 15a connected to the output circuit 10 and the primary coil 15b connected to the oscillation circuit 15a are sent from the output circuit 10 in response to a command from the control circuit 9.The control signalThe oscillation circuit 15aAlternating currentInConvertOscillation output from the primary coil 15bControl signal transmitting means 15 to perform,
  SaidWired to the control circuit 9 of the electric lock controller 5,The locking / unlocking monitor signal transmitted from the door side unit 6b is detected.Consists of lock / unlock detection switchLocking / unlocking monitor signal detection means 16,
  The door unit 6b is
  The control signal transmission means 15The primary coil 15b and the primary coil 15b constitute the first coupling means 19 together with the primary coil 15b.Closely opposedAnd a secondary coil 12a, a diode D having an anode connected to one end of the secondary coil 12a, and a capacitor C connected between the other end of the secondary coil 12a and the cathode of the diode D. The control signal transmitted from the primary coil 15b is received by the secondary coil 12a by electromagnetic coupling, and the received control signal is converted into a direct current by the conversion circuit 12b to convert the actuator 7 and the locking / unlocking To monitor switch 8Control signal receiving means 12 to be supplied;
  The locking and unlockingAn electromagnet connected to the line 20 connected between the cathode of the diode D and the other end of the secondary coil 12a via the locking / unlocking monitor switch 8 so as to constitute the second coupling means 21 together with the detection switch. And when the lock / unlock monitor switch 8 is in the closed state, a loop circuit is formed between the secondary coil 12a and the electromagnet by a control signal induced from the primary coil 15b to the secondary coil 12a. Is magnetized, and the electromagnetic coupling between the electromagnet and the locking / unlocking detection switchAnd a lock / unlock monitor signal transmitting means 13 for transmitting the lock / unlock monitor signal by
  SaidBetween the door frame side unit 6a and the door side unit 6b.Between the aboveThe primary coil 15b and the secondary coil 12aFirst coupling means 19Due to electromagnetic couplingNon-contact connected andBy electromagnetic coupling of the second coupling means 21 composed of an electromagnet and the locking / unlocking detection switchIt is characterized by non-contact connection.
  Further, the invention of claim 2 is the energization structure of the electric lock system 1 of claim 1,
  The locking / unlocking monitor signal transmission means 13 is constituted by a photodiode, and the locking / unlocking monitor detection means 16 is constituted by a phototransistor,
  The locking / unlocking monitor signal is transmitted and received by optical coupling between the photodiode and the phototransistor.
[0012]
  In the energization structure of the electric lock system according to the present inventionWhen a control signal for locking or unlocking is supplied to the control signal transmitting means 15, the control signal transmitting means 15Primary coil 15bAnd the control signal receiving means 12Secondary coil 12aFirst coupling means 19Due to electromagnetic couplingA non-contact connection is made. The power of the control signal transmitted by this connection is supplied to the actuator 7 of the electric lock 2, and the lock / unlock monitor signal transmitting means 13 is provided via the lock / unlock monitor signal generating means 8.ElectromagnetAlso suppliedThe electromagnet is magnetizedThe Thereby, the locking / unlocking monitor signal transmitting means 13ElectromagnetAnd the locking / unlocking monitor signal detecting means 16The lock and unlock detection switchSecond coupling means 21Due to electromagnetic couplingIt will be connected in a non-contact manner, and the lock / unlock monitor signal is sent to the electric lock controller.5Sent to.
[0013]
  The control signal transmitting means 15 receives the control signal output from the electric lock controller 5 and converts the control signal into alternating current, and the control signal converted into alternating current. A primary coil 15b for transmission is provided, and the control signal receiving means 12 is a secondary arranged in close proximity to the primary coil 15b to receive the control signal transmitted from the primary coil 15b. A coil 12a and a conversion circuit 12b for converting the control signal into a direct current and transmitting it to the electric lock 2 are provided. The first coupling means 19 is electromagnetically coupled by the primary coil 15b and the secondary coil 12a. 1st electromagnetic coupling meansThe
[0014]
As a result, when a control signal for locking or unlocking is supplied to the primary coil 15b, the primary coil 15b and the secondary coil 12a are non-contact connected by electromagnetic coupling.
[0015]
  Further, the locking / unlocking monitor signal transmitting means 13 comprises an electromagnet that receives the supply of the locking / unlocking monitor signal from the locking / unlocking monitor signal generating means 8, and the locking / unlocking monitor signal detecting means 16 receives the locking / unlocking monitor signal. The second coupling means 21 is a second electromagnetic coupling means that is electromagnetically coupled by the electromagnet 13 and the locking / unlocking detection switch 16.The
[0016]
Further, the locking / unlocking monitor signal transmitting means 13 comprises a photodiode PD which receives the supply of the locking / unlocking monitor signal from the locking / unlocking monitor signal generating means 8, and the locking / unlocking monitor signal detecting means 16 The second coupling unit 21 may be an optical coupling unit that optically couples with the photodiode PD and the phototransistor PT.
[0017]
As a result, when a lock / unlock monitor signal is transmitted to the electromagnet 13, the electromagnet 13 and the lock / unlock detection switch 16 are non-contact connected by electromagnetic coupling, and when the lock / unlock monitor signal is supplied to the photodiode PD, The photodiode PD and the phototransistor PT are non-contact connected by optical coupling.
[0018]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 is a schematic block diagram showing an embodiment of an energization structure 6 of an electric lock system 1 according to the present invention. Hereinafter, the case where the energizing structure 6 according to the present invention is applied to the energized locking type electric lock system 1 will be described as an example.
[0019]
The electric lock system 1 includes an electric lock 2 and an electric lock controller 5 to which an input device 3 and a display 4 are connected. Between the standard electric lock 2 and the electric lock controller 5 that are provided as standard equipment. The electric lock 2 is controlled by the electric lock controller 5 by energizing through the non-contact type energization structure 6.
[0020]
The electric lock 2 is provided on a door and includes an actuator 7 and a lock / unlock monitor switch 8 serving as a lock / unlock monitor signal generating means. The actuator 7 is composed of, for example, a solenoid, a motor, and the like, and prevents or releases the movement of the dead bolt with respect to the strike on the door frame side by a control signal received from the electric lock controller 5 through the energization structure 6.
[0021]
The lock / unlock monitor switch 8 is connected to an electromagnet 13 to be described later via a line 20, and the contact is switched according to the lock / unlock state of the electric lock 2. The contact is closed when the electric lock 2 is locked. The contact opens when the lock 2 is unlocked.
[0022]
The locking / unlocking monitor switch 8 is not particularly shown, but when locking / unlocking is performed by inserting a key into a cylinder lock and rotating it, and when locking / unlocking is performed by operating a thumb turn provided inside the door. In addition, the contacts are opened and closed according to the locking / unlocking state.
[0023]
The input device 3 is provided outside the door, for example, a door frame, indoors / outdoors, a wall surface near the door, and the like, and is electrically connected to the electric lock controller 5. The input device 3 is directly operated by an operator when the electric lock 2 is unlocked, and includes, for example, a switch, a numeric keypad, a card reader, and the like.
[0024]
Specifically, when the input device 3 is configured by a switch or a numeric keypad, for example, a password is input as data for unlocking the electric lock 2 by operating the switch or numeric keypad. In addition, when the input device 3 is constituted by a card reader, when data for permitting unlocking of the electric lock 2 is inserted, for example, a card in which a password is stored in advance, the data of this card is stored in the card. Read with a reader. Data from the input device 3 is input to the electric lock controller 5 as information for unlocking the electric lock 2.
[0025]
The electric lock controller 5 is provided outside the door, for example, on the door frame, indoors / outdoors, a wall surface near the door, and the like, and includes a control circuit 9, an output circuit 10, and a display output circuit 11.
[0026]
The control circuit 9 determines the presence / absence of data input by the input device 3 while constantly monitoring the state of the locking / unlocking of the electric lock 2 and the opening / closing of the door according to the presence / absence of a monitor signal sent via the energization structure 6. ing.
[0027]
When the control circuit 9 determines that there is data input by the input device 3 for unlocking the electric lock 2, it outputs a command (unlocking command) for unlocking the electric lock 2 to the output circuit 10. ing. On the other hand, when it is determined that there is no data input by the input device 3 for unlocking the electric lock 2, a command (locking command) for holding the lock of the electric lock 2 is output to the output circuit 10.
[0028]
Further, the control circuit 9 outputs a command for performing a desired display to the display output circuit 11 based on the data from the input device 3 and the monitor signal. The control circuit 9 further includes a timer circuit 9a. The timer circuit 9a is time-controlled by a monitor signal sent via the energization structure 6, and is set when the contact of the locking / unlocking monitor switch 8 is opened to indicate "unlocking" on the door frame side. . Then, when a monitor signal indicating “closed door” is input after the door is opened, it is reset.
[0029]
The output circuit 10 outputs a control signal (locking control signal) for locking the electric lock 2 to the energizing structure 6 when a locking command is input from the control circuit 9. On the other hand, when the unlocking command is input from the control circuit 9, the output of the locking control signal to the energization structure 6 is turned off.
[0030]
The display output circuit 11 outputs a display control signal for performing a desired display based on the data from the input device 3 and the locking / unlocking monitor signal to the display device 4 according to a command from the control circuit 9.
[0031]
The display device 4 is, for example, a collation display of a personal identification number by the input device 3 based on a display control signal input from the display output circuit 11 of the electric lock controller 5 and various status displays of the electric lock 2 and the door (locking, unlocking). , Closing doors, etc.). The display 4 is a lamp that displays the password comparison result, the operation status of the electric lock 2 and the door by lighting, a liquid crystal display that displays the password comparison result, the operation status of the electric lock 2 and the door as character information, and the like. Consists of tubes.
[0032]
For example, when the display device 4 is configured by a lamp, a collation result display lamp, a lock display lamp, an unlock display lamp, and a door close display lamp are provided. When the display control signal input from the display output circuit 11 indicates “verification match”, the verification result display lamp indicates that the display result is “locked”. When the display control signal indicates “locked”, the lock display lamp indicates the unlocking display. Each lamp lights up. Further, when the display unit 4 is composed of a display tube such as a liquid crystal display, a “verification match”, “locked state”, “unlocked state”, “closed door state”, etc. according to the contents indicated by the display control signal. In addition, information indicating the collation result of the personal identification number and the operation state of the electric lock 2 and the door is displayed.
[0033]
The energizing structure 6 is disposed between the electric lock 2 and the electric lock controller 5 and is separated into two bodies: a door frame side unit 6a provided on the door frame and a door side unit 6b provided on the door. Composed.
[0034]
The door frame side unit 6a is provided with a control signal transmission means 15 and a lock / unlock detection switch 16 as a lock / unlock monitor signal detection means connected to the control circuit 9.
[0035]
The control signal transmission means 15 includes an oscillation circuit 15a and a primary coil 15b. The oscillation circuit 15 a is connected to the output circuit 10 of the electric lock controller 5, and converts the lock control signal (DC current) sent from the output circuit 10 according to the lock command of the control circuit 9 into an alternating current and converts it to the primary. Oscillation is output from the coil 15b. On the other hand, when the output circuit 10 receives the unlock command from the control circuit 9, the lock control signal from the output circuit 10 is cut off, so that the oscillation circuit 15a and the primary coil 15b are not supplied with power.
[0036]
The locking / unlocking detection switch 16 is disposed at a position close to and facing an electromagnet 13 described later, and is connected to the control circuit 9.
[0037]
Further, the strike in the door frame side unit 6 a is provided with a door monitor switch 17 for detecting the open / closed state of the door, and constitutes a magnetic action means 18 together with the magnet 14. The door monitor switch 17 is a reed switch that outputs a monitor signal indicating “closed” to the control circuit 9 by closing the contact by the magnetic action caused by the approach of the magnet 14 attached to the lock front of the door when the door is closed. Composed.
[0038]
The door side unit 6b is provided with a control signal receiving means 12 and an electromagnet 13 as a locking / unlocking monitor signal transmitting means. Moreover, the magnet 14 is attached to the lock front of the door in the door side unit 6b.
[0039]
The control signal receiving means 12 includes a secondary coil 12a and a conversion circuit 12b. The secondary coil 12a is disposed close to and opposed to the primary coil 15b, and constitutes the first electromagnetic coupling means 19 as the first coupling means together with the primary coil 15b. The conversion circuit 12b includes a diode D having an anode connected to one end of the secondary coil 12a, and a capacitor C connected between the other end of the secondary coil 12a and the cathode of the diode D. Note that the conversion circuit 12b is not limited to being installed in the door unit, but may be provided in the door.
[0040]
In the control signal receiving means 12, the control signal (alternating current) transmitted from the primary coil 15b is received by the secondary coil 12a by electromagnetic coupling, and the received control signal is supplied to the conversion circuit 12b to be converted into a direct current. . The control signal converted into a direct current is supplied to the actuator 7 and the locking / unlocking monitor switch 8 of the electric lock 2.
[0041]
Both ends of the coil of the electromagnet 13 are connected via a locking / unlocking monitor switch 8 to a line 20 connected between the cathode of the diode D and the other end of the secondary coil 12a. The locking / unlocking detection switch 16 is disposed at a position close to and opposed to the electromagnet 13 and constitutes a second electromagnetic coupling means 21 as a second coupling means together with the electromagnet 13.
[0042]
When the locking / unlocking monitor switch 8 is in a closed state, a loop circuit is formed between the secondary coil 12a and the electromagnet 13 is magnetized by a control signal induced from the primary coil 15b to the secondary coil 12a. As a result, the electromagnet 13 and the locking / unlocking detection switch 16 are electromagnetically coupled to close the contact of the locking / unlocking detection switch 16, and the contact signal at this time is input to the control circuit 9 as a monitor signal indicating "locking". On the other hand, when the locking / unlocking monitor switch 8 is in the open state, power is not supplied to the electromagnet 13 and the electromagnet 13 and the locking / unlocking detection switch 16 are not electromagnetically coupled. It does not appear and “unlock” is shown on the door frame side.
[0043]
Next, the operation of the electric lock system 1 employing the energizing structure 6 configured as described above will be described based on the flowchart of FIG.
[0044]
When the electric lock 2 is closed in the locked state (ST1), if there is no information input for unlocking the electric lock 2 from the input device 3 to the control circuit 9, the control circuit 9 Output locking command. The output circuit 10 outputs a locking control signal to the oscillation circuit 15a in response to a locking command from the control circuit 9 (ST2).
[0045]
Thereby, the oscillation circuit 15a converts the lock control signal from the output circuit 10 into an AC signal and oscillates and outputs it from the primary coil 15b. The locking control signal from the primary coil 15 b is guided to the secondary coil 12 a by the electromagnetic coupling of the first electromagnetic coupling means 19.
[0046]
The locking control signal induced in the secondary coil 12a is supplied to the conversion circuit 12b and converted into a direct current. This DC-controlled locking control signal is sent to the actuator 7 and the locking / unlocking monitor switch 8. The actuator 7 operates upon receiving a lock control signal and holds the lock of the electric lock 2.
[0047]
Since the lock / unlock monitor switch 8 is in the locked state, the contact is closed (ST2), and a loop circuit is formed between the lock / unlock monitor switch 8 and the secondary coil 12a. As a result, the electromagnet 13 is directly magnetized by the locking control signal.
[0048]
The same applies to the case where the key is inserted into the cylinder lock and rotated to perform locking, and the thumb turn provided on the inner side of the door is operated to perform locking.
[0049]
When the electromagnet 13 is magnetized, electromagnetic coupling occurs between the electromagnet 13 constituting the second electromagnetic coupling means 21 and the locking / unlocking detection switch 16, and the contact of the locking / unlocking detection switch 16 is closed. The signal is input to the control circuit 9 as a signal.
[0050]
Further, since the electric lock 2 is closed in the locked state, the contact of the door monitor switch 17 is closed by the magnetic action of the magnet 14 (ST2), and the door closing monitor signal is input to the control circuit 9.
[0051]
The control circuit 9 recognizes that the electric lock 2 is locked and closed by the lock monitor signal and the door close monitor signal, and outputs a command for display to the display output circuit 11.
[0052]
The display output circuit 11 outputs a display control signal to the display 4 according to a command from the control circuit 9. Then, the display 4 performs display indicating “locked” and “closed door” by a display control signal from the display output circuit 11.
[0053]
Next, in order to unlock the electric lock 2 in the locked state, when information for unlocking the electric lock 2 is input from the input device 3 (ST3), the control circuit 9 unlocks the output circuit 10. Outputs the lock command. When the unlocking command is input from the control circuit 9 to the output circuit 10, the locking control signal for the oscillation circuit 15a is cut off (ST4), and power is not supplied to the oscillation circuit 15a. For this reason, the first electromagnetic coupling means 19 is not electromagnetically coupled, and power is not supplied to the door-side actuator 7, and the electric lock 2 is unlocked (ST5). Then, the contact of the locking / unlocking monitor switch 8 is opened (ST6).
[0054]
Further, since no electric power is supplied to the locking / unlocking monitor switch 8, the electromagnet 13 is not magnetized and the second electromagnetic coupling means 21 is not electromagnetically coupled. Thereby, the contact of the locking / unlocking detection switch 16 is opened, and “unlocking” is indicated on the door frame side.
[0055]
In addition, when the key is inserted into the cylinder lock and rotated to perform locking, or when the unlocking is performed by operating the thumb turn provided inside the door, the unlocking input is made from the input device 2. Absent. For this reason, the first electromagnetic coupling means 19 is electromagnetically coupled and power is supplied to the unlocking monitor switch 8. However, since the unlocking state of the electric lock 2 is detected and the contact of the unlocking monitor switch 8 is open, The second electromagnetic coupling means 21 is not electromagnetically coupled, the contact of the locking / unlocking detection switch 16 is opened, and “unlocking” is indicated on the door frame side.
[0056]
When the supply of the lock monitor signal to the control circuit 9 is cut off, the timer circuit 9a in the control circuit 9 is set (ST7). Next, the open / close state of the door monitor switch 17 is checked in the control circuit 9 (ST8).
[0057]
When the contact of the door monitor switch 17 is closed and it is determined that the door is closed (ST9-No) and the timer circuit 9a has not timed up (for example, 10 seconds) (ST10-No), the control circuit 9 again Then, the open / closed state of the door monitor switch 17 is checked (ST8).
[0058]
When the timer circuit 9a expires (ST10-Yes), a lock command is output from the control circuit 9 to the output circuit 10, and a lock control signal is output from the output circuit 10 to the oscillation circuit 15a (ST11).
[0059]
The oscillation circuit 15a converts the locking control signal from the output circuit 10 into an AC signal and oscillates and outputs it from the primary coil 15b. Then, the locking control signal from the primary coil 15 b is guided to the secondary coil 12 a by the electromagnetic coupling of the first electromagnetic coupling means 19, and the actuator 7 is energized to lock the electric lock 2.
[0060]
On the other hand, when the contact of the door monitor switch 17 is open and it is determined that the door is open (ST9-Yes), the unlocked state is held until the door closed state is detected. When it is determined that the door is closed after the door is opened (ST12-Yes), the timer circuit 9a is reset (ST13), and a locking command is output from the control circuit 9 to the output circuit 10. Then, a lock control signal is output from the output circuit 10 to the oscillation circuit 15a (ST11), and the actuator 7 is energized to lock the electric lock 2.
[0061]
Therefore, in embodiment mentioned above, the electricity supply structure 6 isolate | separated into the door frame side unit 6a and the door side unit 6b is employ | adopted, and an electric lock is carried out by the electromagnetic coupling between the door frame side unit 6a and the door side unit 6b. 2 and the electric lock controller 5 are energized, so there is no wiring without passing the wiring between the door and the door frame, without causing deterioration of the electric wire due to disconnection as in the past, and The electric lock 2 and the electric lock controller 5 can be energized only by the electric power on the door frame side.
[0062]
At that time, both the electric lock 2 and the electric lock controller 5 can be used as they are as standard equipment. Further, since the energization structure 6 does not require a complicated data processing circuit (for example, processing by a CPU), the structure is extremely simple and can be easily combined with an existing electric lock system. Furthermore, since no electric wire passes between the door and the door frame, the aesthetic appearance of the door as in the conventional case is not impaired.
[0063]
By the way, in the above-described embodiment, the case where the locking / unlocking monitor transmitting means is constituted by the electromagnet 13 and the locking / unlocking monitor signal detecting means is constituted by the locking / unlocking detection switch 16 has been described. As shown in FIG. If the lock monitor transmitting means 13 is constituted by a photodiode PD, the locking / unlocking monitor signal detecting means 16 is constituted by a phototransistor PT, and an optical coupling means is constituted by the photodiode PD and the phototransistor PT, the photodiode PD and the phototransistor The lock / unlock monitor signal can be transmitted and received by optical coupling with the PT.
[0064]
The energizing structure 6 according to the above-described embodiment has been described by taking as an example the case where the energizing structure 6 is employed in the energized locking type electric lock system 1 that is energized and locked only when the locking control signal is output. The present invention can also be applied to an energized unlocking type electric lock system that energizes and unlocks only when a signal is output.
[0065]
In addition, the present invention can be applied to an energized locking / unlocking type electric lock system in which energization is performed not only when a locking control signal is output but also when an unlocking control signal is output. In this case, in the configuration of FIG. 1, in addition to the lock / unlock monitor switch 8 and the electromagnet 13 for the lock monitor, a lock / unlock monitor switch and an electromagnet whose contacts are closed when unlocked are connected to the line 20 for the unlock monitor. The locking / unlocking detection switch is disposed opposite to the door frame side unit 6b in the vicinity of the electromagnet.
[0066]
【The invention's effect】
As described above, according to the energizing structure of the electric lock system of the present invention, the energizing structure separated into the door side unit and the door frame side unit is adopted, and the first between the door side unit and the door frame side unit is adopted. Alternatively, the second coupling means allows the electric lock and the electric lock controller to be connected in a non-contact manner, so that the wiring between the door and the door frame can be provided without causing the disconnection of the electric wire due to deterioration as in the prior art. It is possible to energize between the electric lock and the electric lock controller only with electric power on the door frame side without passing through.
[0067]
At that time, both the electric lock and the electric lock controller can be used as they are. In addition, since the current-carrying structure does not require a complicated data processing circuit (for example, processing by the CPU), the structure is extremely simple and can be easily combined with an existing electric lock system. Furthermore, since no electric wire passes between the door and the door frame, the aesthetic appearance of the door as in the conventional case is not impaired.
[Brief description of the drawings]
FIG. 1 is a schematic block diagram showing an embodiment of an energization structure of an electric lock system according to the present invention.
FIG. 2 is a view showing another embodiment of the energization structure of the electric lock system according to the present invention.
FIG. 3 is a flowchart for explaining the operation of the electric lock system employing the energization structure according to the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Electric lock system, 2 ... Electric lock, 5 ... Electric lock controller, 6 ... Current supply structure, 6a ... Door frame side unit, 6b ... Door side unit, 7 ... Actuator, 8 ... Locking / unlocking monitor signal generating means Lock monitor switch), 12 ... control signal receiving means, 12a ... secondary coil, 12b ... conversion circuit, 13 ... locking / unlocking monitor signal sending means (electromagnet), 14 ... magnet, 15 ... control signal sending means, 15a ... oscillation circuit , 15b ... primary coil, 16 ... locking / unlocking monitor signal detection means (locking / unlocking detection switch), 17 ... door monitor switch, 18 ... magnetic action means, 19 ... first coupling means, 21 ... second coupling means.

Claims (2)

While performing state monitor with the opening and closing of the locking Jo及 beauty door electric lock always determine the presence or absence of data input by the input unit, unlocks the electric lock according to the presence or absence of the data input by the input device instruction Or an electric lock controller having a control circuit that outputs a command to lock, and an output circuit that outputs a control signal for unlocking or locking the electric lock in accordance with a command input from the control circuit , Energization of an electric lock system including an actuator that locks and unlocks by receiving power supplied by a control signal, and an electric lock that has a lock and unlock monitor switch that generates a lock and unlock monitor signal according to the unlocking and unlocking state by opening and closing contacts In structure
Separated into a door frame side unit attached to the door frame and a door side unit attached to the door,
The door frame side unit is
An oscillation circuit which is connected to the output circuit of the electric lock controller consists of a primary coil connected to the oscillation circuit, the oscillation control signal sent from the output circuit by a command of the control circuit Control signal transmitting means for converting the circuit into alternating current and oscillating and outputting from the primary coil ;
Wherein is wired to the control circuit of the electric lock controller, comprising a locking or unlocking the monitor signal detection means comprising unlocking detection switch for detecting the locking and unlocking monitor signal transmitted from the door-side unit,
The door side unit is
A secondary coil disposed in close proximity to the primary coil so as to form a first coupling means together with the primary coil of the control signal transmitting means , and a diode having an anode connected to one end of the secondary coil And a conversion circuit including a capacitor connected between the other end of the secondary coil and the cathode of the diode, and the control signal transmitted from the primary coil is received by the secondary coil by electromagnetic coupling. A control signal receiving means for converting the received control signal into a direct current by the conversion circuit and supplying it to the actuator and the locking / unlocking monitor switch ;
It comprises an electromagnet connected via a locking / unlocking monitor switch to a line connected between the cathode of the diode and the other end of the secondary coil so as to constitute a second coupling means together with the locking / unlocking detection switch. When the locking / unlocking monitor switch is in a closed state, a loop circuit is formed between the secondary coil and the electromagnet is magnetized by a control signal induced from the primary coil to the secondary coil. And a lock / unlock monitor signal transmitting means for transmitting the lock / unlock monitor signal by electromagnetic coupling between the lock and unlock detection switch ,
Between the door frame side unit and the door-side unit, while being non-contact connected by electromagnetic coupling of said first coupling means constituted by the said primary coil and the secondary coil, wherein said electromagnet unlocks A current-carrying structure for an electric lock system, which is non-contact connected by electromagnetic coupling of the second coupling means constituted by a detection switch . The locking / unlocking monitor signal transmitting means is constituted by a photodiode, and the locking / unlocking monitor detecting means is constituted by a phototransistor,
The current-carrying structure for an electric lock system according to claim 1, wherein the lock / unlock monitor signal is transmitted and received by optical coupling between the photodiode and the phototransistor.

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