JPH07963B2 - Electronic lock device - Google Patents

Description

TECHNICAL FIELD The present invention relates to an electronic lock device that is unlocked in a contactless manner using radio waves, light, ultrasonic waves, or the like.

[Conventional technology]

As a conventional electronic lock device, there has been known a device that can be opened and closed in a contactless manner from a distance by operating a separate electronic key device provided with a remote control device using radio waves or the like.

[Problems of conventional technology]

The above-described conventional electronic lock device and electronic key device each have a separate power source, and in particular, the electronic key device is often used by being incorporated in a small electronic device such as a wristwatch or a calculator, and therefore, as a power source thereof. Generally, small batteries and solar cells are used. However, a small battery is easily consumed, and if it is completely consumed, the electronic lock device cannot be opened unless it is replaced with a new battery. Also, the solar cell works in bright places,
Since it does not operate at all in a dark place, the electronic lock function is completely lost for the electronic lock device installed in such a dark place.

[Object of the Invention]

In view of the above conventional problems, the present invention is an electronic device that can supply power to an electronic key device even when the battery built in the electronic key device runs out or stops working. An object is to provide a locking device.

[Main points of the invention]

In order to achieve the above-mentioned object, the present invention is provided with a terminal for power supply so that power can be supplied to the electronic key device via this terminal and the cryptographic code can be received. This is to notify that fact.

Example of Invention

FIG. 1 is an external perspective view showing an embodiment in which the present invention is applied to a door locking device, and an example of a wrist watch incorporating an electronic key device for unlocking the door.

In the figure, the knob 2 is attached to the door 1,
When an optical signal including a predetermined code is received through the keyhole 2a formed in the center of the knob 2, the lock mechanism (not shown) of the door 1 is unlocked by the function of the circuit described later. Has become. In addition, as a feature of this embodiment,
The output from the power supply circuit for operating the above circuit in the door 1 can be taken out of the door 1 by the cord 3 and the supply terminal 4 attached to the tip thereof.

On the other hand, the wristwatch body 5 in which the electronic key device is incorporated is mainly composed of a display unit 6 including a liquid crystal display device, a key operation unit 7 including various key groups 7a, a solar cell 8 and the like. Further, on the side end surface of the display unit 6, keys S ₁ , S ₂ , S ₃ and
LED9 is provided. These keys S _{1 to} S ₃ and each key of the key group 7a are operated when switching the display mode of the display unit 6 or inputting the above-mentioned encryption code. This encryption code can be sent as an optical signal from the LED 9 when the lock mechanism of the door 1 is released. Further, a power receiving terminal 10 is provided corresponding to the power feeding terminal 4 described above, and by simply inserting the power feeding terminal 4 into the power receiving terminal 10 when transmitting the above-mentioned code, The required power can be supplied from the door 1 side.

FIG. 2 shows an example in which the electronic key device is incorporated in a calculator. In the figure, the calculator 11 is mainly composed of a key operation unit 12,
It comprises a display unit 13, a solar cell 14, etc., and is further provided with a power receiving terminal 15 and an LED 16 as in the wristwatch of FIG. In Fig. 2, after inserting the power supply terminal 4 into the power receiving terminal 15,
The state in which the encryption code is being transmitted from the LED 16 through the keyhole 2a is shown.

Next, FIG. 3 shows a circuit configuration of the electronic lock device incorporated in the door 1 shown in FIG. 1 and the electronic key device incorporated in the wristwatch body 5.

In the figure, in the electronic key device 20, the clock signal output from the oscillation circuit 21 is frequency-divided by the frequency dividing circuit 22 to 1/100.
Converted to a signal with a second cycle, this 1/100 second signal
3, sent to the display drive circuit 25 and the control circuit 26. In the clock circuit 23, the 1/100 second signal is converted into time data such as seconds, minutes, hours, etc. based on an instruction from the control circuit 26.

On the other hand, when an encryption code is input by the same key operation unit 7 as shown in FIG. 1, the encryption code is temporarily stored in the encryption code memory 27 via the control circuit 26. The encryption code stored in the encryption code memory 27 and the time data output from the time counting circuit 23 are switched by the display data switching circuit 24 based on the instruction from the control circuit 26,
It is displayed on the display unit 6 by the display drive circuit 25.

Further, the on / off code memory 28 stores a predetermined code (hereinafter referred to as an on / off code) for switching on / off of a power supply circuit 54 in the electronic lock device 40 described later. The on / off code and the encryption code stored in the encryption code memory 27 are switched by the transmission code switching circuit 29 and output to the conversion circuit 30. These codes are converted by the conversion circuit 30 into serial transmission signals. Then, this transmission signal is sent to the above-described transmission circuit 31 including the LED 9, and is transmitted from the LED 9 as an optical signal.

Further, a power supply circuit 32 for supplying a constant power to each of the above circuits is provided, and the power from the solar cell 8 and the secondary battery 33 connected in parallel to the solar cell 8 is supplied to the diode 34.
Is supplied to the power supply circuit 32 via. Further, the power receiving terminal 10 as shown in FIG. 1 is provided so that power can be received from the power supply circuit 54 on the electronic lock device 40 side through the cord 3 and the power feeding terminal 4.

Next, the electronic lock device 40 is provided with a receiving circuit 41 composed of a photodiode, an amplifier circuit, a low-pass filter, and the like, and the optical signal output from the transmitting circuit 31 is serialized by the receiving circuit 41. Converted to a signal. The photodiode is attached to the inner part of the keyhole 2a in FIG. 1 so that it can receive light entering from the outside through the keyhole 2a. The serial electric signal output from the receiving circuit 41 is converted into a conversion circuit.
42 parallel data (encryption code or on
It is converted into an off code) and temporarily stored.

A predetermined cipher code is stored in the cipher code memory 43, and only when an on / off code is received as described later, this cipher code and the cipher code temporarily stored in the conversion circuit 42 are detected as coincident. The comparison is detected by the circuit 44. If the encryption codes match, a lock release signal is output from the match detection circuit 44, and the lock mechanism 45 incorporated in the door 1 in FIG. 1 is released. In addition,
The received encrypted data and the lock release signal are displayed on the display unit 47 by the display drive circuit 46.

On the other hand, a predetermined on / off code is stored in the on / off code memory 48, and the on / off code and the on / off code temporarily stored in the conversion circuit 42 are compared and detected by the coincidence detection section 49. It When these on / off codes match, the match detection circuit 49 outputs a match signal. This coincidence signal is latched by the latch circuit 50, and the analog switch 51 and the transistor 52 are turned on. The analog switch 51 is provided between the power supply circuit 54 and the coincidence detection circuit 44, the display drive circuit 46, etc., and is normally in the off state, that is, the power supply circuit 54.
Therefore, the coincidence detection circuit 44 and the like are not supplied with power, and only when the predetermined ON / OFF code is received as described above, the ON state is set. Then, in this case, the coincidence detection circuit 44 and the like are powered by the power supply circuit 54 to be in an operable state, and at the same time, the LED 53 lights up to notify that the coincidence detection of the encryption code is possible. Only when the cryptographic code is received in this state, the above-mentioned detection of coincidence of the cryptographic code and the display thereof are performed.

Further, from the power supply circuit 54, the cord 3 and the power feeding terminal 4
Power can be supplied to the external electronic key device 20 via the. When supplying power, it is sufficient to insert the power supplying terminal 4 into the power receiving terminal 10 as shown in FIG.

In the above embodiment, the example in which the electronic lock device is applied to the door lock device is shown, but the present invention is not limited to this, and can be applied to various locks incorporated in a jewelry box, a safe, or the like. Applicable.

Further, the transmission medium of the cryptographic code from the electronic key device side to the electronic lock device side is not limited to the light as described above, and radio waves or ultrasonic waves may be used.

〔The invention's effect〕

As described above, according to the present invention, by making it possible to supply power to the electronic key device through the terminal for power supply, the battery of the electronic key device runs out,
Alternatively, even in the case where the surroundings are dark and the solar cell does not operate, power can be easily supplied through the power supply terminal, which is extremely practical.
In addition, based on the matching detection of the specific code (on / off code in the above embodiment) transmitted from the electronic key device prior to the encryption code, the notification means (the above embodiment) indicating that the encryption code can be received. In this case, the LED53) is used for notification, so that the electronic key device is reliably supplied with power through the power supply terminal, and it is possible to receive the encryption code from the electronic key device. It can be recognized by notification. Therefore, if the lock does not open even if you send the encryption code from the electronic key device after the above notification, it is not due to insufficient power supply or poor reception, but the transmitted encryption code itself is incorrect. You can recognize that

[Brief description of drawings]

FIG. 1 is an external perspective view showing an embodiment in which the present invention is applied to a door locking device, and an example of a wrist watch incorporating an electronic key device for unlocking the door, and FIG. 2 is the above wrist watch. FIG. 3 is a block diagram showing an internal configuration of an electronic lock device incorporated in the door and an electronic key device incorporated in a wristwatch shown in FIG. 1, when a calculator is used in place of the electronic calculator. . 3 ... Code, 4 ... Power supply terminal, 41 ... Receiving circuit, 42
...... Conversion circuit, 43 …… Cryptographic code memory, 44 …… Match detection circuit, 45 …… Lock mechanism, 53 …… LED, 54 …… Power supply circuit.

Claims (1)

[Claims] 1. An electronic lock device that is unlocked when a predetermined cryptographic code transmitted from an electronic key device is received, for supplying power to the electronic key device from a power supply in the electronic lock device. A terminal, a match detection unit that detects a match between a specific code transmitted from the electronic key device prior to the encryption code, and a predetermined specific code, and a match is detected by the match detection unit. In this case, an electronic lock device comprising: a notification unit that notifies that the encryption code can be received.