JP2511502Y2 - Electronic key device - Google Patents

Description

FIELD OF THE INVENTION This invention relates to a key, and more particularly to an electronic key device including a circuit for generating a remote control signal and a light source.

2. Description of the Related Art For example, as shown in JP-A-62-173354,
2. Description of the Related Art An anti-theft device including a key that generates an optical signal including a predetermined code signal and a specific code determining unit that generates a coincidence signal when an optical signal emitted from the key is received is known. This anti-theft device has a picking signal output means, and when unlocked without generating a coincidence signal of the specific code discriminating means, judges that the lock is unauthorized and activates the alarm device. However, if the optical signal emitted from the key is received and unlocked while the coincidence signal is being generated from the specific code determination means, the alarm device does not operate.

Japanese Patent Application Laid-Open No. Sho 62-174476 discloses a key which generates an optical signal including a predetermined code signal, and a specific code which is provided in a lock device and generates a coincidence signal when receiving an optical signal emitted from the key. A house having a determination unit and a controlled unit that is operated by a coincidence signal of the specific code determination unit;
An electronic control device for an automobile or the like is disclosed. In this electronic control device, a battery, a switch, a power supply switching circuit connected to the battery and the switch, a specific code generator activated by an output of the power supply switch, and a specific code generated by an output of the specific code generator. And a light-emitting element that generates an optical signal. The optical signal emitted from the light emitting element is received by the light receiving element connected to the specific code discriminating means. The specific code determining means sends an output to the controlled unit when the signal received by the light receiving element and the preset code signal match.

Further, as disclosed in Japanese Patent Publication No. 56-11032, there is known a lock device including a lock mechanism for operating a lock portion by electric means and a key mechanism equipped with a transmitter. Each of the lock mechanism and the key mechanism is provided with a pulse pattern generator that generates a specific pulse train in synchronization with a clock signal generated a predetermined number over time from an oscillator of the key mechanism. The lock mechanism and the key mechanism are connected to each other by an optical transmission means, and when the pulse trains of both are time-wise matched, the locking portion of the lock mechanism is unlocked.

As disclosed in Japanese Examined Patent Publication No. 63-11509, there is known a vehicle lock control device having a transmitting section independent of the vehicle and a receiving section mounted on the vehicle. The transmission unit includes a DC power supply, an oscillator that oscillates a message, and a transmission device that remotely transmits the message in series. Further, the receiving unit compares the received message with the message stored in the storage device when the power supply device, the receiving device that receives the message, the storage device that stores only one encoded message, and the two match. And a comparator for generating one signal. The transmitting device of the transmitting unit has a diode that emits infrared light, and the receiving device of the receiving unit has a light receiving diode.

JP-A-64-52970 discloses a key switch having a first electric circuit, a key having a second electric circuit, and a first electric circuit formed by inserting a key into a key hole of the key switch. A key device having a key switch and a contact means provided on the key so as to be electrically connected to the electric circuit of the key is disclosed. The contact means of this key device comprises a fixed contact portion fixed to the key switch, and a movable contact portion which is retractably received by the key while being spring-biased so as to elastically protrude from the key. When the key of the key device is rotated to the on position or the start position, the fixed contact and the movable contact come into contact with each other, and an optical signal is emitted from the key, so that the engine can be operated.

Japanese Utility Model Laid-Open Publication No. 64-33135 discloses an electronic key device which is provided with a protective cover which is normally biased by a spring so as to be able to move in and out of a gripping portion and usually covers a contact and exposes the contact when a key hole is inserted. Have been.

DISCLOSURE OF THE INVENTION Problems to be Solved by the Invention By the way, as a conventional infrared light emitting device, a key having a key head for lighting a light emitting diode when emitting infrared light has been proposed. A window is formed on one surface of the key head so that the lighting of the light emitting diode can be confirmed. However, a key code that is symmetric with respect to the central axis is formed on the key,
A reversible key that can be inserted into the key hole even when rotated at an angle of 180 ° is usually used. Therefore, in the conventional key having the light emitting diode, it is not possible to confirm the lighting of the light emitting diode from only one side of the key head.

An object of the present invention is to provide an electronic key device capable of confirming lighting of a light emitting diode from both sides of a key.

An electronic key device according to the present invention comprises a key head (7) having a recess (8), a key cover (11) for closing the recess (8) of the key head (7), An electronic circuit (15) including a transmission control circuit (80) attached to a substrate (10) provided in the key head (7), and a remote control signal generating means (16) connected to the transmission control circuit (80). ), A light emitting diode (17) connected to the transmission control circuit (80) and arranged to be able to light in the key head (7), and a light guide member (12) provided adjacent to the light emitting diode (17). It has and. A hole (7a) is formed in the key head (7), and a hole (11a) is formed in the key cover (11) so as to face the hole (7a) of the key head (7). A light guide member (12) is arranged in the thickness direction of the key head (7) between the cover (11) and a pair of protrusions (12a, 12b) formed at both ends of the light guide member (12). When the remote control signal generating means (16) is activated by the output of the transmission control circuit (80) by exposing the outside through the hole (7a) of the key head (7) and the hole (11a) of the key cover (11). At the same time, the light emitting diode (17) is turned on.

When the light emitting diode (17) is turned on at the same time that the remote control signal generating means (16) is energized by the output of the transmission control circuit (80), the light emitted from the light emitting diode (17) is guided by the light guide member (12). Through the hole (7a) of the key head (7) and the hole (11a) of the key cover (11).
Is irradiated to the outside. For this reason, it is possible to visually check the lighting of the light emitting diode (17) from any side of the key head (7) to confirm the energization of the remote control signal generating means (16), and at the same time, the light guide member (12). Has an additional action of supporting a mechanical load in the thickness direction and protecting the substrate (10).

Embodiment An embodiment in which the present invention is applied to a steering lock device for an automobile will be described below with reference to FIGS. 1 to 14.

First, as shown in FIG. 1, the double lock device 1 has a key means 2 having a transmitter 3 and a key part 4 for generating a remote control signal including a predetermined code signal, and a key part 4 of the key means 2. The steering lock device 5 is a mechanical lock device that is unlocked by the electronic lock device 6 that is activated when a remote control signal generated from the transmitter 3 of the key means 2 is received.

As shown in FIG. 2, the key means 2 includes a battery 9, a substrate 10 and a light guide member housed in a recess 8 formed in the key head 7.
The recess 8 is closed by the key cover 11. The substrate 10 has an extension 10a provided with a fixed contact (power supply terminal) 14. Further, on the substrate 10, a plurality of electronic circuits 15 constituting the transmitting device 3, an infrared light emitting device 16 (remote control signal generating means), a light emitting diode 17 and a switch.
18 are provided. A shielding portion 19 having a substantially triangular cross section is provided at a front portion of the infrared light emitter 16. The shielding portion 19 is formed of a material that is opaque but transmits infrared light. Light guide member
Reference numeral 12 has a concave portion 12c having a substantially U-shaped cross section in which the light emitting diode 17 is arranged adjacently. As shown in FIG. It is discharged to the outside of the key head 7 through the hole 7a formed in the key cover 11 and the hole 11a formed in the key cover 11. Therefore, the light guide member 12 is formed with a pair of protrusions 12a and 12b which fit into the hole 7a of the key bend 7 and the hole 11a of the key cover 11. When the transmission button 13 is pressed, the switch 18 is turned on. When attaching the key cover 11 to the key head 7, the hook portion 11b formed on the key cover 11 is locked to the locking portion 7b of the key head 7, and the screw 11d is fitted into the hole 46 of the key cover 11 and the key portion 4. The key cover 11 is attached and the key cover 11 is fixed to the key head 7.

The key portion 4 of the key means 2 is formed with a notch portion 4a (FIG. 1) for giving a key code. In addition, the fixed contacts of the substrate 10
A slide member 20 that covers 14 is attached to the key portion 4. A substantially Z-shaped through hole into which the key portion 4 is inserted in the slide member 20.
21, a pair of recesses 22 formed in parallel with the through hole 21, and an elongated hole 23 formed in the width direction. The ends of the pair of recesses 22 are disposed on springs 24 that bias the slide member 20 outward. The long hole 23 has a through hole 47 formed in the key portion 4.
The pin 25 inserted into the slide member 20 is arranged to limit the moving distance of the slide member 20.

As shown in FIG. 2, there is a fourth gap between the battery 9 and the substrate 10.
A metal terminal 26 having elasticity shown in the figure is provided. The terminal 26 has a terminal main body 26a that contacts the negative terminal of the battery 9, and an arm portion 26b that extends from the terminal main body 26a and is electrically connected to the key portion 4.

The steering lock device 5 includes a cover 30 having a cam 31, a collar 32 rotatably disposed in a central opening 30 a of the cover 30, and a substrate 33 disposed outside the collar 32 in the cover 30. Having. The substrate 33 has a pair of elastic contacts 34 and a pair of infrared receivers 35. An infrared transmission window 36 is formed on the cover 30 at a position corresponding to the infrared receiver 35. The window 36 is provided with an infrared transmitting material.

6 and 8 show a state where the key portion 4 is inserted into the steering lock device 5 at the lock position. In this state, the fixed contact 14 is at a position angularly separated from the contact 34, and the slide member 20 is at a position to cover the fixed contact 14 as shown in FIG. When the key portion 4 is rotated from the lock position to the start position, the slide member 20 abuts on the cam 31 of the cover 30 as shown in FIGS. 7 and 9, and as shown in FIG. It is moved inward against the elasticity. Further, when the key portion 4 is rotated, the fixed contact 14 comes into contact with the one contact 34, and the infrared ray emitting device 16 emits infrared rays including a predetermined code.

FIG. 12 shows a remote control signal generation circuit which is built in the key means 2 and generates infrared rays. This infrared light emitting circuit has, for example, a transmission control circuit 80 constituted by a one-chip microcomputer. A capacitor 82 is connected to the battery 9 in parallel, and the positive terminal of the battery 9 is a first diode.
81 through is connected to a first input terminal I ₁ of the transmission control circuit 80. The first diode 81 has a function of preventing voltage application to the battery 9 when power is externally applied through the fixed contact 14. It is also desirable to use a Schottky barrier diode to minimize the voltage drop across the diode when operating on batteries. Further, the first input terminal I ₁ is connected to the capacitor 83. The negative terminal of the battery 9 is connected to the third input terminal I ₃ of the transmission control circuit 80 via the switch 18, the third diode 84 and the capacitor 85. The third diode 84 is a third input terminal of the transmission control circuit 80 when power is externally supplied through the fixed contact 14.
It has the function of adjusting the level of the voltage applied to I ₃ . The negative terminal of the battery 9 and the capacitor 82 are connected to the second input terminal I ₂ . The cathode of the third diode 84 is connected to the second input terminal I ₂ via the resistor 86. Further, a parallel circuit of a resistor 87 and a diode 88 is connected between the second input terminal I ₂ and the third input terminal I ₃ . The input terminals I ₄ and I ₅ are connected by a resistor 89. The capacitor 85 and the resistor 87 form a trigger circuit, and apply a trigger pulse to the first input terminal I ₁ when the switch 18 is turned on or when a voltage is applied to the fixed contact 14.

The output terminal O ₁ of the transmission control circuit 80 is connected to the base (control terminal) of the transistor 91 (switching element) via the resistor 90. The emitter of the transistor 91 is connected to the fixed contact 14 and the switch 18. Further, the fixed contact 14 is connected to the first input terminal I ₁ via the second diode 92. When the battery 9 is used, the second diode 92 has a function of preventing leakage of electric current from the battery 9 to the outside through the fixed contact 14. The collector of the transistor 91 is connected to the infrared light emitter 16 via the resistor 93. The infrared light emitter 16 is a light emitting diode. Further, the light emitting diode 17 and the resistor 94 are connected between the fixed contact 14 and the output terminal O ₂ . Input terminals I _{6 to} I ₈
Is connected to the ROM 95, the output terminal O ₃ is grounded.

In the above configuration, when the switch 18 is turned on during remote operation, a trigger pulse is applied from the battery 9 to the third input terminal I ₃ through the switch 18, the third diode 84 and the capacitor 85. Thus, a predetermined code pulses from the output terminal O ₁ by stored program is generated in the ROM 95.
Therefore, the transistor 91 is turned on and off, and the infrared light emitter 16 generates an infrared signal. At the same time, the output terminal
Since O ₂ generates a low level signal for a certain period of time, the light emitting diode 17 is turned on. Therefore, the operator can
The operation of the infrared light emitting device 16 can be recognized by turning on the light 17. Also, when a voltage is applied to the fixed contact 14 instead of turning on the switch 18, the same operation as described above is performed.

When the key portion 4 is inserted into the steering lock device 5, the circuit shown in FIG. 13 is configured. That is, the electronic circuit 15 including the transmission control circuit 80, the infrared light emitter 16 and the negative terminal of the battery 9 are connected to the key portion 4, and the key portion 4 is grounded through a conductive metal such as a tumbler (not shown) of the steering lock device 5. To be done. Further, the fixed contact 14 is connected to the power supply 96 of the automobile. One end of the drive control circuit 41 is connected to the power supply 96, and the other end is grounded.

In the above configuration, when the key portion 4 is inserted into the steering lock device 5 and rotated, the steering lock device 5 is unlocked. As the key portion 4 rotates, the ignition switch 37 is turned on, and the key cover 11 of the key means 2 is a cam provided on the steering lock device 5.
It comes into contact with 31 and moves to the open position where the fixed contact 14 of the key means 2 is exposed. When the key portion 4 is further rotated, the contact point 34 of the steering lock device 5 and the fixed contact point 14 of the key means 2 come into contact with each other to supply electric power to the key means 2, and the infrared generator of the key means 2 generates a remote control signal. To do.

Effect of the Invention As described above, in the electronic key device according to the present invention, the lighting of the light emitting diode can be confirmed from any side of the key head, and the operator can be surely notified of the operation of the internal electronic circuit. it can.

[Brief description of drawings]

FIG. 1 is a perspective view of a dual lock device using a remote control signal generating circuit according to the present invention, FIG. 2 is an exploded perspective view, and FIG.
FIG. 4 is an assembly view of the key means, FIG. 4 is a perspective view of the terminal,
FIG. 5 is a partial sectional view of the key means, and FIG. 6 is a front view showing a state in which the key means is inserted in the steering lock device,
7 is a front view showing a state in which the key means is rotated to the start position, FIG. 8 is a sectional view showing a state in which the key means is inserted into the steering lock device, and FIG. 9 is a state in which the key means is rotated to the start position. 10 is a partial front view of the key means in a state where the fixed contact is covered by the slide member, and FIG. 11 is a partial front view of the key means in a state where the fixed contact is exposed. FIG. 12 is an electric circuit diagram of a key means showing a remote control signal generating circuit according to the present invention, and FIG. 13 is a circuit diagram showing an electric configuration of the key means, a mechanical lock device and an electronic lock device. 7 ... key head, 7a ... hole, 9 ... battery, 11 ... key cover, 11a ... hole, 12 ... light guide member, 12a ... recess, I ₁
...... First input terminal, I ₂ ...... Second input terminal, 17 ...... Light emitting diode, 80 ...... Transmission control circuit,

Continuation of the front page (56) Reference JP 62-174476 (JP, A) JP 64-52970 (JP, A) JP 62-173354 (JP, A) Actual development 56-121848 (JP , U) Actually open 55-105184 (JP, U) Actually open 64-33135 (JP, U) Japanese public Sho 56-11032 (JP, B2) Japanese public 63-11509 (JP, B2)

Claims (1)

(57) [Scope of utility model registration request] 1. A key head (7) having a recess (8) formed therein.
A key cover (11) for closing the recess (8) of the key head (7), and a substrate (1) provided in the key head (7).
An electronic circuit (15) including a transmission control circuit (80) attached to (0), remote control signal generating means (16) connected to the transmission control circuit (80), and connected to the transmission control circuit (80), An electronic key device comprising a light emitting diode (17) arranged so as to be lightable in a key head (7) and a light guide member (12) provided adjacent to the light emitting diode (17). The hole (7a) is formed in the key head (7) and the key cover (11) is formed in the key cover (11) so as to face the hole (7a) of the key head (7). ), A light guide member (12) is arranged in the thickness direction of the key head (7), and each of the pair of protrusions (12a, 12b) formed at both ends of the light guide member (12) is connected to the key head. The output of the transmission control circuit (80) is exposed to the outside through the hole (7a) in (7) and the hole (11a) in the key cover (11). Electronic key device, characterized in that to light more when energizing the remote control signal generating means (16) simultaneously emitting Daiodo (17).